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call_user_func(\Composer\Autoload\ComposerStaticInit6afe6fcd54e00add00a5fe0e5fb044f9::getInitializer($loader));
        } else {
            $map = require __DIR__ . '/autoload_namespaces.php';
            foreach ($map as $namespace => $path) {
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            }

            $map = require __DIR__ . '/autoload_psr4.php';
            foreach ($map as $namespace => $path) {
                $loader->setPsr4($namespace, $path);
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            $classMap = require __DIR__ .
'/autoload_classmap.php';
            if ($classMap) {
                $loader->addClassMap($classMap);
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        $loader->register(true);

        if ($useStaticLoader) {
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Composer\Autoload\ComposerStaticInit6afe6fcd54e00add00a5fe0e5fb044f9::$files;
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'/autoload_files.php';
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        foreach ($includeFiles as $fileIdentifier => $file) {
           
composerRequire6afe6fcd54e00add00a5fe0e5fb044f9($fileIdentifier, $file);
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}

function composerRequire6afe6fcd54e00add00a5fe0e5fb044f9($fileIdentifier,
$file)
{
    if
(empty($GLOBALS['__composer_autoload_files'][$fileIdentifier])) {
        require $file;

        $GLOBALS['__composer_autoload_files'][$fileIdentifier] =
true;
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}
vendor/composer/autoload_static.php000064400000123646151165413710013600
0ustar00<?php

// autoload_static.php @generated by Composer

namespace Composer\Autoload;

class ComposerStaticInit6afe6fcd54e00add00a5fe0e5fb044f9
{
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'/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xls/Parser.php',
        'PhpOffice\\PhpSpreadsheet\\Writer\\Xls\\Workbook' =>
__DIR__ . '/..' .
'/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xls/Workbook.php',
        'PhpOffice\\PhpSpreadsheet\\Writer\\Xls\\Worksheet' =>
__DIR__ . '/..' .
'/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xls/Worksheet.php',
        'PhpOffice\\PhpSpreadsheet\\Writer\\Xls\\Xf' =>
__DIR__ . '/..' .
'/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xls/Xf.php',
        'PhpOffice\\PhpSpreadsheet\\Writer\\Xlsx' => __DIR__ .
'/..' .
'/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xlsx.php',
        'PhpOffice\\PhpSpreadsheet\\Writer\\Xlsx\\Chart' =>
__DIR__ . '/..' .
'/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xlsx/Chart.php',
        'PhpOffice\\PhpSpreadsheet\\Writer\\Xlsx\\Comments' =>
__DIR__ . '/..' .
'/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xlsx/Comments.php',
        'PhpOffice\\PhpSpreadsheet\\Writer\\Xlsx\\ContentTypes'
=> __DIR__ . '/..' .
'/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xlsx/ContentTypes.php',
        'PhpOffice\\PhpSpreadsheet\\Writer\\Xlsx\\DocProps' =>
__DIR__ . '/..' .
'/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xlsx/DocProps.php',
        'PhpOffice\\PhpSpreadsheet\\Writer\\Xlsx\\Drawing' =>
__DIR__ . '/..' .
'/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xlsx/Drawing.php',
        'PhpOffice\\PhpSpreadsheet\\Writer\\Xlsx\\Rels' =>
__DIR__ . '/..' .
'/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xlsx/Rels.php',
        'PhpOffice\\PhpSpreadsheet\\Writer\\Xlsx\\RelsRibbon'
=> __DIR__ . '/..' .
'/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xlsx/RelsRibbon.php',
        'PhpOffice\\PhpSpreadsheet\\Writer\\Xlsx\\RelsVBA' =>
__DIR__ . '/..' .
'/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xlsx/RelsVBA.php',
        'PhpOffice\\PhpSpreadsheet\\Writer\\Xlsx\\StringTable'
=> __DIR__ . '/..' .
'/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xlsx/StringTable.php',
        'PhpOffice\\PhpSpreadsheet\\Writer\\Xlsx\\Style' =>
__DIR__ . '/..' .
'/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xlsx/Style.php',
        'PhpOffice\\PhpSpreadsheet\\Writer\\Xlsx\\Theme' =>
__DIR__ . '/..' .
'/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xlsx/Theme.php',
        'PhpOffice\\PhpSpreadsheet\\Writer\\Xlsx\\Workbook' =>
__DIR__ . '/..' .
'/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xlsx/Workbook.php',
        'PhpOffice\\PhpSpreadsheet\\Writer\\Xlsx\\Worksheet'
=> __DIR__ . '/..' .
'/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xlsx/Worksheet.php',
        'PhpOffice\\PhpSpreadsheet\\Writer\\Xlsx\\WriterPart'
=> __DIR__ . '/..' .
'/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xlsx/WriterPart.php',
        'Psr\\SimpleCache\\CacheException' => __DIR__ .
'/..' . '/psr/simple-cache/src/CacheException.php',
        'Psr\\SimpleCache\\CacheInterface' => __DIR__ .
'/..' . '/psr/simple-cache/src/CacheInterface.php',
        'Psr\\SimpleCache\\InvalidArgumentException' =>
__DIR__ . '/..' .
'/psr/simple-cache/src/InvalidArgumentException.php',
    );

    public static function getInitializer(ClassLoader $loader)
    {
        return \Closure::bind(function () use ($loader) {
            $loader->prefixLengthsPsr4 =
ComposerStaticInit6afe6fcd54e00add00a5fe0e5fb044f9::$prefixLengthsPsr4;
            $loader->prefixDirsPsr4 =
ComposerStaticInit6afe6fcd54e00add00a5fe0e5fb044f9::$prefixDirsPsr4;
            $loader->classMap =
ComposerStaticInit6afe6fcd54e00add00a5fe0e5fb044f9::$classMap;

        }, null, ClassLoader::class);
    }
}
vendor/composer/ClassLoader.php000064400000032223151165413710012603
0ustar00<?php

/*
 * This file is part of Composer.
 *
 * (c) Nils Adermann <naderman@naderman.de>
 *     Jordi Boggiano <j.boggiano@seld.be>
 *
 * For the full copyright and license information, please view the LICENSE
 * file that was distributed with this source code.
 */

namespace Composer\Autoload;

/**
 * ClassLoader implements a PSR-0, PSR-4 and classmap class loader.
 *
 *     $loader = new \Composer\Autoload\ClassLoader();
 *
 *     // register classes with namespaces
 *     $loader->add('Symfony\Component',
__DIR__.'/component');
 *     $loader->add('Symfony',          
__DIR__.'/framework');
 *
 *     // activate the autoloader
 *     $loader->register();
 *
 *     // to enable searching the include path (eg. for PEAR packages)
 *     $loader->setUseIncludePath(true);
 *
 * In this example, if you try to use a class in the Symfony\Component
 * namespace or one of its children (Symfony\Component\Console for
instance),
 * the autoloader will first look for the class under the component/
 * directory, and it will then fallback to the framework/ directory if not
 * found before giving up.
 *
 * This class is loosely based on the Symfony UniversalClassLoader.
 *
 * @author Fabien Potencier <fabien@symfony.com>
 * @author Jordi Boggiano <j.boggiano@seld.be>
 * @see    http://www.php-fig.org/psr/psr-0/
 * @see    http://www.php-fig.org/psr/psr-4/
 */
class ClassLoader
{
    // PSR-4
    private $prefixLengthsPsr4 = array();
    private $prefixDirsPsr4 = array();
    private $fallbackDirsPsr4 = array();

    // PSR-0
    private $prefixesPsr0 = array();
    private $fallbackDirsPsr0 = array();

    private $useIncludePath = false;
    private $classMap = array();
    private $classMapAuthoritative = false;
    private $missingClasses = array();
    private $apcuPrefix;

    public function getPrefixes()
    {
        if (!empty($this->prefixesPsr0)) {
            return call_user_func_array('array_merge',
$this->prefixesPsr0);
        }

        return array();
    }

    public function getPrefixesPsr4()
    {
        return $this->prefixDirsPsr4;
    }

    public function getFallbackDirs()
    {
        return $this->fallbackDirsPsr0;
    }

    public function getFallbackDirsPsr4()
    {
        return $this->fallbackDirsPsr4;
    }

    public function getClassMap()
    {
        return $this->classMap;
    }

    /**
     * @param array $classMap Class to filename map
     */
    public function addClassMap(array $classMap)
    {
        if ($this->classMap) {
            $this->classMap = array_merge($this->classMap,
$classMap);
        } else {
            $this->classMap = $classMap;
        }
    }

    /**
     * Registers a set of PSR-0 directories for a given prefix, either
     * appending or prepending to the ones previously set for this prefix.
     *
     * @param string       $prefix  The prefix
     * @param array|string $paths   The PSR-0 root directories
     * @param bool         $prepend Whether to prepend the directories
     */
    public function add($prefix, $paths, $prepend = false)
    {
        if (!$prefix) {
            if ($prepend) {
                $this->fallbackDirsPsr0 = array_merge(
                    (array) $paths,
                    $this->fallbackDirsPsr0
                );
            } else {
                $this->fallbackDirsPsr0 = array_merge(
                    $this->fallbackDirsPsr0,
                    (array) $paths
                );
            }

            return;
        }

        $first = $prefix[0];
        if (!isset($this->prefixesPsr0[$first][$prefix])) {
            $this->prefixesPsr0[$first][$prefix] = (array) $paths;

            return;
        }
        if ($prepend) {
            $this->prefixesPsr0[$first][$prefix] = array_merge(
                (array) $paths,
                $this->prefixesPsr0[$first][$prefix]
            );
        } else {
            $this->prefixesPsr0[$first][$prefix] = array_merge(
                $this->prefixesPsr0[$first][$prefix],
                (array) $paths
            );
        }
    }

    /**
     * Registers a set of PSR-4 directories for a given namespace, either
     * appending or prepending to the ones previously set for this
namespace.
     *
     * @param string       $prefix  The prefix/namespace, with trailing
'\\'
     * @param array|string $paths   The PSR-4 base directories
     * @param bool         $prepend Whether to prepend the directories
     *
     * @throws \InvalidArgumentException
     */
    public function addPsr4($prefix, $paths, $prepend = false)
    {
        if (!$prefix) {
            // Register directories for the root namespace.
            if ($prepend) {
                $this->fallbackDirsPsr4 = array_merge(
                    (array) $paths,
                    $this->fallbackDirsPsr4
                );
            } else {
                $this->fallbackDirsPsr4 = array_merge(
                    $this->fallbackDirsPsr4,
                    (array) $paths
                );
            }
        } elseif (!isset($this->prefixDirsPsr4[$prefix])) {
            // Register directories for a new namespace.
            $length = strlen($prefix);
            if ('\\' !== $prefix[$length - 1]) {
                throw new \InvalidArgumentException("A non-empty PSR-4
prefix must end with a namespace separator.");
            }
            $this->prefixLengthsPsr4[$prefix[0]][$prefix] = $length;
            $this->prefixDirsPsr4[$prefix] = (array) $paths;
        } elseif ($prepend) {
            // Prepend directories for an already registered namespace.
            $this->prefixDirsPsr4[$prefix] = array_merge(
                (array) $paths,
                $this->prefixDirsPsr4[$prefix]
            );
        } else {
            // Append directories for an already registered namespace.
            $this->prefixDirsPsr4[$prefix] = array_merge(
                $this->prefixDirsPsr4[$prefix],
                (array) $paths
            );
        }
    }

    /**
     * Registers a set of PSR-0 directories for a given prefix,
     * replacing any others previously set for this prefix.
     *
     * @param string       $prefix The prefix
     * @param array|string $paths  The PSR-0 base directories
     */
    public function set($prefix, $paths)
    {
        if (!$prefix) {
            $this->fallbackDirsPsr0 = (array) $paths;
        } else {
            $this->prefixesPsr0[$prefix[0]][$prefix] = (array) $paths;
        }
    }

    /**
     * Registers a set of PSR-4 directories for a given namespace,
     * replacing any others previously set for this namespace.
     *
     * @param string       $prefix The prefix/namespace, with trailing
'\\'
     * @param array|string $paths  The PSR-4 base directories
     *
     * @throws \InvalidArgumentException
     */
    public function setPsr4($prefix, $paths)
    {
        if (!$prefix) {
            $this->fallbackDirsPsr4 = (array) $paths;
        } else {
            $length = strlen($prefix);
            if ('\\' !== $prefix[$length - 1]) {
                throw new \InvalidArgumentException("A non-empty PSR-4
prefix must end with a namespace separator.");
            }
            $this->prefixLengthsPsr4[$prefix[0]][$prefix] = $length;
            $this->prefixDirsPsr4[$prefix] = (array) $paths;
        }
    }

    /**
     * Turns on searching the include path for class files.
     *
     * @param bool $useIncludePath
     */
    public function setUseIncludePath($useIncludePath)
    {
        $this->useIncludePath = $useIncludePath;
    }

    /**
     * Can be used to check if the autoloader uses the include path to
check
     * for classes.
     *
     * @return bool
     */
    public function getUseIncludePath()
    {
        return $this->useIncludePath;
    }

    /**
     * Turns off searching the prefix and fallback directories for classes
     * that have not been registered with the class map.
     *
     * @param bool $classMapAuthoritative
     */
    public function setClassMapAuthoritative($classMapAuthoritative)
    {
        $this->classMapAuthoritative = $classMapAuthoritative;
    }

    /**
     * Should class lookup fail if not found in the current class map?
     *
     * @return bool
     */
    public function isClassMapAuthoritative()
    {
        return $this->classMapAuthoritative;
    }

    /**
     * APCu prefix to use to cache found/not-found classes, if the
extension is enabled.
     *
     * @param string|null $apcuPrefix
     */
    public function setApcuPrefix($apcuPrefix)
    {
        $this->apcuPrefix = function_exists('apcu_fetch')
&& filter_var(ini_get('apc.enabled'),
FILTER_VALIDATE_BOOLEAN) ? $apcuPrefix : null;
    }

    /**
     * The APCu prefix in use, or null if APCu caching is not enabled.
     *
     * @return string|null
     */
    public function getApcuPrefix()
    {
        return $this->apcuPrefix;
    }

    /**
     * Registers this instance as an autoloader.
     *
     * @param bool $prepend Whether to prepend the autoloader or not
     */
    public function register($prepend = false)
    {
        spl_autoload_register(array($this, 'loadClass'), true,
$prepend);
    }

    /**
     * Unregisters this instance as an autoloader.
     */
    public function unregister()
    {
        spl_autoload_unregister(array($this, 'loadClass'));
    }

    /**
     * Loads the given class or interface.
     *
     * @param  string    $class The name of the class
     * @return bool|null True if loaded, null otherwise
     */
    public function loadClass($class)
    {
        if ($file = $this->findFile($class)) {
            includeFile($file);

            return true;
        }
    }

    /**
     * Finds the path to the file where the class is defined.
     *
     * @param string $class The name of the class
     *
     * @return string|false The path if found, false otherwise
     */
    public function findFile($class)
    {
        // class map lookup
        if (isset($this->classMap[$class])) {
            return $this->classMap[$class];
        }
        if ($this->classMapAuthoritative ||
isset($this->missingClasses[$class])) {
            return false;
        }
        if (null !== $this->apcuPrefix) {
            $file = apcu_fetch($this->apcuPrefix.$class, $hit);
            if ($hit) {
                return $file;
            }
        }

        $file = $this->findFileWithExtension($class, '.php');

        // Search for Hack files if we are running on HHVM
        if (false === $file && defined('HHVM_VERSION')) {
            $file = $this->findFileWithExtension($class,
'.hh');
        }

        if (null !== $this->apcuPrefix) {
            apcu_add($this->apcuPrefix.$class, $file);
        }

        if (false === $file) {
            // Remember that this class does not exist.
            $this->missingClasses[$class] = true;
        }

        return $file;
    }

    private function findFileWithExtension($class, $ext)
    {
        // PSR-4 lookup
        $logicalPathPsr4 = strtr($class, '\\',
DIRECTORY_SEPARATOR) . $ext;

        $first = $class[0];
        if (isset($this->prefixLengthsPsr4[$first])) {
            $subPath = $class;
            while (false !== $lastPos = strrpos($subPath, '\\'))
{
                $subPath = substr($subPath, 0, $lastPos);
                $search = $subPath . '\\';
                if (isset($this->prefixDirsPsr4[$search])) {
                    $pathEnd = DIRECTORY_SEPARATOR .
substr($logicalPathPsr4, $lastPos + 1);
                    foreach ($this->prefixDirsPsr4[$search] as $dir) {
                        if (file_exists($file = $dir . $pathEnd)) {
                            return $file;
                        }
                    }
                }
            }
        }

        // PSR-4 fallback dirs
        foreach ($this->fallbackDirsPsr4 as $dir) {
            if (file_exists($file = $dir . DIRECTORY_SEPARATOR .
$logicalPathPsr4)) {
                return $file;
            }
        }

        // PSR-0 lookup
        if (false !== $pos = strrpos($class, '\\')) {
            // namespaced class name
            $logicalPathPsr0 = substr($logicalPathPsr4, 0, $pos + 1)
                . strtr(substr($logicalPathPsr4, $pos + 1), '_',
DIRECTORY_SEPARATOR);
        } else {
            // PEAR-like class name
            $logicalPathPsr0 = strtr($class, '_',
DIRECTORY_SEPARATOR) . $ext;
        }

        if (isset($this->prefixesPsr0[$first])) {
            foreach ($this->prefixesPsr0[$first] as $prefix => $dirs)
{
                if (0 === strpos($class, $prefix)) {
                    foreach ($dirs as $dir) {
                        if (file_exists($file = $dir . DIRECTORY_SEPARATOR
. $logicalPathPsr0)) {
                            return $file;
                        }
                    }
                }
            }
        }

        // PSR-0 fallback dirs
        foreach ($this->fallbackDirsPsr0 as $dir) {
            if (file_exists($file = $dir . DIRECTORY_SEPARATOR .
$logicalPathPsr0)) {
                return $file;
            }
        }

        // PSR-0 include paths.
        if ($this->useIncludePath && $file =
stream_resolve_include_path($logicalPathPsr0)) {
            return $file;
        }

        return false;
    }
}

/**
 * Scope isolated include.
 *
 * Prevents access to $this/self from included files.
 */
function includeFile($file)
{
    include $file;
}
vendor/composer/installed.json000064400000025774151165413710012565
0ustar00[
    {
        "name": "markbaker/complex",
        "version": "1.4.8",
        "version_normalized": "1.4.8.0",
        "source": {
            "type": "git",
            "url":
"https://github.com/MarkBaker/PHPComplex.git",
            "reference":
"8eaa40cceec7bf0518187530b2e63871be661b72"
        },
        "dist": {
            "type": "zip",
            "url":
"https://api.github.com/repos/MarkBaker/PHPComplex/zipball/8eaa40cceec7bf0518187530b2e63871be661b72",
            "reference":
"8eaa40cceec7bf0518187530b2e63871be661b72",
            "shasum": ""
        },
        "require": {
            "php": "^5.6.0|^7.0.0"
        },
        "require-dev": {
            "dealerdirect/phpcodesniffer-composer-installer":
"^0.5.0",
            "phpcompatibility/php-compatibility":
"^9.0",
            "phpdocumentor/phpdocumentor": "2.*",
            "phploc/phploc": "2.*",
            "phpmd/phpmd": "2.*",
            "phpunit/phpunit": "^4.8.35|^5.4.0",
            "sebastian/phpcpd": "2.*",
            "squizlabs/php_codesniffer": "^3.4.0"
        },
        "time": "2020-03-11T20:15:49+00:00",
        "type": "library",
        "installation-source": "dist",
        "autoload": {
            "psr-4": {
                "Complex\\": "classes/src/"
            },
            "files": [
                "classes/src/functions/abs.php",
                "classes/src/functions/acos.php",
                "classes/src/functions/acosh.php",
                "classes/src/functions/acot.php",
                "classes/src/functions/acoth.php",
                "classes/src/functions/acsc.php",
                "classes/src/functions/acsch.php",
                "classes/src/functions/argument.php",
                "classes/src/functions/asec.php",
                "classes/src/functions/asech.php",
                "classes/src/functions/asin.php",
                "classes/src/functions/asinh.php",
                "classes/src/functions/atan.php",
                "classes/src/functions/atanh.php",
                "classes/src/functions/conjugate.php",
                "classes/src/functions/cos.php",
                "classes/src/functions/cosh.php",
                "classes/src/functions/cot.php",
                "classes/src/functions/coth.php",
                "classes/src/functions/csc.php",
                "classes/src/functions/csch.php",
                "classes/src/functions/exp.php",
                "classes/src/functions/inverse.php",
                "classes/src/functions/ln.php",
                "classes/src/functions/log2.php",
                "classes/src/functions/log10.php",
                "classes/src/functions/negative.php",
                "classes/src/functions/pow.php",
                "classes/src/functions/rho.php",
                "classes/src/functions/sec.php",
                "classes/src/functions/sech.php",
                "classes/src/functions/sin.php",
                "classes/src/functions/sinh.php",
                "classes/src/functions/sqrt.php",
                "classes/src/functions/tan.php",
                "classes/src/functions/tanh.php",
                "classes/src/functions/theta.php",
                "classes/src/operations/add.php",
                "classes/src/operations/subtract.php",
                "classes/src/operations/multiply.php",
                "classes/src/operations/divideby.php",
                "classes/src/operations/divideinto.php"
            ]
        },
        "notification-url":
"https://packagist.org/downloads/",
        "license": [
            "MIT"
        ],
        "authors": [
            {
                "name": "Mark Baker",
                "email": "mark@lange.demon.co.uk"
            }
        ],
        "description": "PHP Class for working with complex
numbers",
        "homepage":
"https://github.com/MarkBaker/PHPComplex",
        "keywords": [
            "complex",
            "mathematics"
        ]
    },
    {
        "name": "markbaker/matrix",
        "version": "1.2.0",
        "version_normalized": "1.2.0.0",
        "source": {
            "type": "git",
            "url":
"https://github.com/MarkBaker/PHPMatrix.git",
            "reference":
"5348c5a67e3b75cd209d70103f916a93b1f1ed21"
        },
        "dist": {
            "type": "zip",
            "url":
"https://api.github.com/repos/MarkBaker/PHPMatrix/zipball/5348c5a67e3b75cd209d70103f916a93b1f1ed21",
            "reference":
"5348c5a67e3b75cd209d70103f916a93b1f1ed21",
            "shasum": ""
        },
        "require": {
            "php": "^5.6.0|^7.0.0"
        },
        "require-dev": {
            "dealerdirect/phpcodesniffer-composer-installer":
"dev-master",
            "phpcompatibility/php-compatibility":
"dev-master",
            "phploc/phploc": "^4",
            "phpmd/phpmd": "dev-master",
            "phpunit/phpunit": "^5.7",
            "sebastian/phpcpd": "^3.0",
            "squizlabs/php_codesniffer": "^3.0@dev"
        },
        "time": "2019-10-06T11:29:25+00:00",
        "type": "library",
        "installation-source": "dist",
        "autoload": {
            "psr-4": {
                "Matrix\\": "classes/src/"
            },
            "files": [
                "classes/src/functions/adjoint.php",
                "classes/src/functions/antidiagonal.php",
                "classes/src/functions/cofactors.php",
                "classes/src/functions/determinant.php",
                "classes/src/functions/diagonal.php",
                "classes/src/functions/identity.php",
                "classes/src/functions/inverse.php",
                "classes/src/functions/minors.php",
                "classes/src/functions/trace.php",
                "classes/src/functions/transpose.php",
                "classes/src/operations/add.php",
                "classes/src/operations/directsum.php",
                "classes/src/operations/subtract.php",
                "classes/src/operations/multiply.php",
                "classes/src/operations/divideby.php",
                "classes/src/operations/divideinto.php"
            ]
        },
        "notification-url":
"https://packagist.org/downloads/",
        "license": [
            "MIT"
        ],
        "authors": [
            {
                "name": "Mark Baker",
                "email": "mark@lange.demon.co.uk"
            }
        ],
        "description": "PHP Class for working with
matrices",
        "homepage":
"https://github.com/MarkBaker/PHPMatrix",
        "keywords": [
            "mathematics",
            "matrix",
            "vector"
        ]
    },
    {
        "name": "phpoffice/phpspreadsheet",
        "version": "1.11.0",
        "version_normalized": "1.11.0.0",
        "source": {
            "type": "git",
            "url":
"https://github.com/PHPOffice/PhpSpreadsheet.git",
            "reference":
"c2a205e82f9cf1cc9fab86b79e808d86dd680470"
        },
        "dist": {
            "type": "zip",
            "url":
"https://api.github.com/repos/PHPOffice/PhpSpreadsheet/zipball/c2a205e82f9cf1cc9fab86b79e808d86dd680470",
            "reference":
"c2a205e82f9cf1cc9fab86b79e808d86dd680470",
            "shasum": ""
        },
        "require": {
            "ext-ctype": "*",
            "ext-dom": "*",
            "ext-fileinfo": "*",
            "ext-gd": "*",
            "ext-iconv": "*",
            "ext-libxml": "*",
            "ext-mbstring": "*",
            "ext-simplexml": "*",
            "ext-xml": "*",
            "ext-xmlreader": "*",
            "ext-xmlwriter": "*",
            "ext-zip": "*",
            "ext-zlib": "*",
            "markbaker/complex": "^1.4",
            "markbaker/matrix": "^1.2",
            "php": "^7.1",
            "psr/simple-cache": "^1.0"
        },
        "require-dev": {
            "dompdf/dompdf": "^0.8.3",
            "friendsofphp/php-cs-fixer": "^2.16",
            "jpgraph/jpgraph": "^4.0",
            "mpdf/mpdf": "^8.0",
            "phpcompatibility/php-compatibility":
"^9.3",
            "phpunit/phpunit": "^7.5",
            "squizlabs/php_codesniffer": "^3.5",
            "tecnickcom/tcpdf": "^6.3"
        },
        "suggest": {
            "dompdf/dompdf": "Option for rendering PDF with
PDF Writer",
            "jpgraph/jpgraph": "Option for rendering charts,
or including charts with PDF or HTML Writers",
            "mpdf/mpdf": "Option for rendering PDF with PDF
Writer",
            "tecnickcom/tcpdf": "Option for rendering PDF
with PDF Writer"
        },
        "time": "2020-03-02T13:09:03+00:00",
        "type": "library",
        "installation-source": "dist",
        "autoload": {
            "psr-4": {
                "PhpOffice\\PhpSpreadsheet\\":
"src/PhpSpreadsheet"
            }
        },
        "notification-url":
"https://packagist.org/downloads/",
        "license": [
            "MIT"
        ],
        "authors": [
            {
                "name": "Maarten Balliauw",
                "homepage":
"https://blog.maartenballiauw.be"
            },
            {
                "name": "Mark Baker",
                "homepage": "https://markbakeruk.net"
            },
            {
                "name": "Franck Lefevre",
                "homepage": "https://rootslabs.net"
            },
            {
                "name": "Erik Tilt"
            },
            {
                "name": "Adrien Crivelli"
            }
        ],
        "description": "PHPSpreadsheet - Read, Create and
Write Spreadsheet documents in PHP - Spreadsheet engine",
        "homepage":
"https://github.com/PHPOffice/PhpSpreadsheet",
        "keywords": [
            "OpenXML",
            "excel",
            "gnumeric",
            "ods",
            "php",
            "spreadsheet",
            "xls",
            "xlsx"
        ]
    },
    {
        "name": "psr/simple-cache",
        "version": "1.0.1",
        "version_normalized": "1.0.1.0",
        "source": {
            "type": "git",
            "url":
"https://github.com/php-fig/simple-cache.git",
            "reference":
"408d5eafb83c57f6365a3ca330ff23aa4a5fa39b"
        },
        "dist": {
            "type": "zip",
            "url":
"https://api.github.com/repos/php-fig/simple-cache/zipball/408d5eafb83c57f6365a3ca330ff23aa4a5fa39b",
            "reference":
"408d5eafb83c57f6365a3ca330ff23aa4a5fa39b",
            "shasum": ""
        },
        "require": {
            "php": ">=5.3.0"
        },
        "time": "2017-10-23T01:57:42+00:00",
        "type": "library",
        "extra": {
            "branch-alias": {
                "dev-master": "1.0.x-dev"
            }
        },
        "installation-source": "dist",
        "autoload": {
            "psr-4": {
                "Psr\\SimpleCache\\": "src/"
            }
        },
        "notification-url":
"https://packagist.org/downloads/",
        "license": [
            "MIT"
        ],
        "authors": [
            {
                "name": "PHP-FIG",
                "homepage": "http://www.php-fig.org/"
            }
        ],
        "description": "Common interfaces for simple
caching",
        "keywords": [
            "cache",
            "caching",
            "psr",
            "psr-16",
            "simple-cache"
        ]
    }
]
vendor/composer/LICENSE000064400000005547151165413710010714 0ustar00Format:
https://www.debian.org/doc/packaging-manuals/copyright-format/1.0/
Upstream-Name: Composer
Upstream-Contact: Jordi Boggiano <j.boggiano@seld.be>
Source: https://github.com/composer/composer

Files: *
Copyright: 2016, Nils Adermann <naderman@naderman.de>
           2016, Jordi Boggiano <j.boggiano@seld.be>
License: Expat

Files: src/Composer/Util/TlsHelper.php
Copyright: 2016, Nils Adermann <naderman@naderman.de>
           2016, Jordi Boggiano <j.boggiano@seld.be>
           2013, Evan Coury <me@evancoury.com>
License: Expat and BSD-2-Clause

License: BSD-2-Clause
 Redistribution and use in source and binary forms, with or without
modification,
 are permitted provided that the following conditions are met:
 .
     * Redistributions of source code must retain the above copyright
notice,
       this list of conditions and the following disclaimer.
 .
     * Redistributions in binary form must reproduce the above copyright
notice,
       this list of conditions and the following disclaimer in the
documentation
       and/or other materials provided with the distribution.
 .
 THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
"AS IS" AND
 ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
IMPLIED
 WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
 DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
LIABLE FOR
 ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
DAMAGES
 (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
SERVICES;
 LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
AND ON
 ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
THIS
 SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

License: Expat
 Permission is hereby granted, free of charge, to any person obtaining a
copy
 of this software and associated documentation files (the
"Software"), to deal
 in the Software without restriction, including without limitation the
rights
 to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
 copies of the Software, and to permit persons to whom the Software is
furnished
 to do so, subject to the following conditions:
 .
 The above copyright notice and this permission notice shall be included in
all
 copies or substantial portions of the Software.
 .
 THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
EXPRESS OR
 IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
THE
 AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
FROM,
 OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
 THE SOFTWARE.
vendor/htaccess.txt000064400000000226151165413710010403 0ustar00# Apache
2.4+
<IfModule mod_authz_core.c>
  Require all denied
</IfModule>

# Apache 2.0-2.2
<IfModule !mod_authz_core.c>
  Deny from all
</IfModule>
vendor/index.html000064400000000054151165413710010041
0ustar00<html><body
bgcolor="#FFFFFF"></body></html>vendor/markbaker/complex/classes/Autoloader.php000064400000002757151165413710015733
0ustar00<?php

namespace Complex;

/**
 *
 * Autoloader for Complex classes
 *
 * @package Complex
 * @copyright  Copyright (c) 2014 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT          MIT
 */
class Autoloader
{
    /**
     * Register the Autoloader with SPL
     *
     */
    public static function Register()
    {
        if (function_exists('__autoload')) {
            //    Register any existing autoloader function with SPL, so we
don't get any clashes
            spl_autoload_register('__autoload');
        }
        //    Register ourselves with SPL
        return spl_autoload_register(['Complex\\Autoloader',
'Load']);
    }


    /**
     * Autoload a class identified by name
     *
     * @param    string    $pClassName    Name of the object to load
     */
    public static function Load($pClassName)
    {
        if ((class_exists($pClassName, false)) || (strpos($pClassName,
'Complex\\') !== 0)) {
            // Either already loaded, or not a Complex class request
            return false;
        }

        $pClassFilePath = __DIR__ . DIRECTORY_SEPARATOR .
                          'src' . DIRECTORY_SEPARATOR .
                          str_replace(['Complex\\',
'\\'], ['', '/'], $pClassName) .
                          '.php';

        if ((file_exists($pClassFilePath) === false) ||
(is_readable($pClassFilePath) === false)) {
            // Can't load
            return false;
        }
        require($pClassFilePath);
    }
}
vendor/markbaker/complex/classes/Bootstrap.php000064400000001706151165413710015602
0ustar00<?php

include_once __DIR__ . '/Autoloader.php';

\Complex\Autoloader::Register();


abstract class FilesystemRegexFilter extends RecursiveRegexIterator
{
    protected $regex;
    public function __construct(RecursiveIterator $it, $regex)
    {
        $this->regex = $regex;
        parent::__construct($it, $regex);
    }
}

class FilenameFilter extends FilesystemRegexFilter
{
    // Filter files against the regex
    public function accept()
    {
        return (!$this->isFile() || preg_match($this->regex,
$this->getFilename()));
    }
}


$srcFolder = __DIR__ . DIRECTORY_SEPARATOR . 'src';
$srcDirectory = new RecursiveDirectoryIterator($srcFolder);

$filteredFileList = new FilenameFilter($srcDirectory,
'/(?:php)$/i');
$filteredFileList = new FilenameFilter($filteredFileList,
'/^(?!.*(Complex|Exception)\.php).*$/i');

foreach (new RecursiveIteratorIterator($filteredFileList) as $file) {
    if ($file->isFile()) {
        include_once $file;
    }
}
vendor/markbaker/complex/classes/src/Complex.php000064400000026030151165413710016020
0ustar00<?php

/**
 *
 * Class for the management of Complex numbers
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Complex Number object.
 *
 * @package Complex
 *
 * @method float abs()
 * @method Complex acos()
 * @method Complex acosh()
 * @method Complex acot()
 * @method Complex acoth()
 * @method Complex acsc()
 * @method Complex acsch()
 * @method float argument()
 * @method Complex asec()
 * @method Complex asech()
 * @method Complex asin()
 * @method Complex asinh()
 * @method Complex atan()
 * @method Complex atanh()
 * @method Complex conjugate()
 * @method Complex cos()
 * @method Complex cosh()
 * @method Complex cot()
 * @method Complex coth()
 * @method Complex csc()
 * @method Complex csch()
 * @method Complex exp()
 * @method Complex inverse()
 * @method Complex ln()
 * @method Complex log2()
 * @method Complex log10()
 * @method Complex negative()
 * @method Complex pow(int|float $power)
 * @method float rho()
 * @method Complex sec()
 * @method Complex sech()
 * @method Complex sin()
 * @method Complex sinh()
 * @method Complex sqrt()
 * @method Complex tan()
 * @method Complex tanh()
 * @method float theta()
 * @method Complex add(...$complexValues)
 * @method Complex subtract(...$complexValues)
 * @method Complex multiply(...$complexValues)
 * @method Complex divideby(...$complexValues)
 * @method Complex divideinto(...$complexValues)
 */
class Complex
{
    /**
     * @constant    Euler's Number.
     */
    const EULER = 2.7182818284590452353602874713526624977572;

    /**
     * @constant    Regexp to split an input string into real and imaginary
components and suffix
     */
    const NUMBER_SPLIT_REGEXP =
        '` ^
            (                                   # Real part
                [-+]?(\d+\.?\d*|\d*\.?\d+)          # Real value (integer
or float)
                ([Ee][-+]?[0-2]?\d{1,3})?           # Optional real
exponent for scientific format
            )
            (                                   # Imaginary part
                [-+]?(\d+\.?\d*|\d*\.?\d+)          # Imaginary value
(integer or float)
                ([Ee][-+]?[0-2]?\d{1,3})?           # Optional imaginary
exponent for scientific format
            )?
            (                                   # Imaginary part is
optional
                ([-+]?)                             # Imaginary (implicit 1
or -1) only
                ([ij]?)                             # Imaginary i or j -
depending on whether mathematical or engineering
            )
        $`uix';

    /**
     * @var    float    $realPart    The value of of this complex number on
the real plane.
     */
    protected $realPart = 0.0;

    /**
     * @var    float    $imaginaryPart    The value of of this complex
number on the imaginary plane.
     */
    protected $imaginaryPart = 0.0;

    /**
     * @var    string    $suffix    The suffix for this complex number (i
or j).
     */
    protected $suffix;


    /**
     * Validates whether the argument is a valid complex number, converting
scalar or array values if possible
     *
     * @param     mixed    $complexNumber   The value to parse
     * @return    array
     * @throws    Exception    If the argument isn't a Complex number
or cannot be converted to one
     */
    private static function parseComplex($complexNumber)
    {
        // Test for real number, with no imaginary part
        if (is_numeric($complexNumber)) {
            return [$complexNumber, 0, null];
        }

        // Fix silly human errors
        $complexNumber = str_replace(
            ['+-', '-+', '++',
'--'],
            ['-', '-', '+', '+'],
            $complexNumber
        );

        // Basic validation of string, to parse out real and imaginary
parts, and any suffix
        $validComplex = preg_match(
            self::NUMBER_SPLIT_REGEXP,
            $complexNumber,
            $complexParts
        );

        if (!$validComplex) {
            // Neither real nor imaginary part, so test to see if we
actually have a suffix
            $validComplex = preg_match('/^([\-\+]?)([ij])$/ui',
$complexNumber, $complexParts);
            if (!$validComplex) {
                throw new Exception('Invalid complex number');
            }
            // We have a suffix, so set the real to 0, the imaginary to
either 1 or -1 (as defined by the sign)
            $imaginary = 1;
            if ($complexParts[1] === '-') {
                $imaginary = 0 - $imaginary;
            }
            return [0, $imaginary, $complexParts[2]];
        }

        // If we don't have an imaginary part, identify whether it
should be +1 or -1...
        if (($complexParts[4] === '') &&
($complexParts[9] !== '')) {
            if ($complexParts[7] !== $complexParts[9]) {
                $complexParts[4] = 1;
                if ($complexParts[8] === '-') {
                    $complexParts[4] = -1;
                }
            } else {
                // ... or if we have only the real and no imaginary part
                //  (in which case our real should be the imaginary)
                $complexParts[4] = $complexParts[1];
                $complexParts[1] = 0;
            }
        }

        // Return real and imaginary parts and suffix as an array, and set
a default suffix if user input lazily
        return [
            $complexParts[1],
            $complexParts[4],
            !empty($complexParts[9]) ? $complexParts[9] : 'i'
        ];
    }


    public function __construct($realPart = 0.0, $imaginaryPart = null,
$suffix = 'i')
    {
        if ($imaginaryPart === null) {
            if (is_array($realPart)) {
                // We have an array of (potentially) real and imaginary
parts, and any suffix
                list ($realPart, $imaginaryPart, $suffix) =
array_values($realPart) + [0.0, 0.0, 'i'];
            } elseif ((is_string($realPart)) || (is_numeric($realPart))) {
                // We've been given a string to parse to extract the
real and imaginary parts, and any suffix
                list($realPart, $imaginaryPart, $suffix) =
self::parseComplex($realPart);
            }
        }

        if ($imaginaryPart != 0.0 && empty($suffix)) {
            $suffix = 'i';
        } elseif ($imaginaryPart == 0.0 && !empty($suffix)) {
            $suffix = '';
        }

        // Set parsed values in our properties
        $this->realPart = (float) $realPart;
        $this->imaginaryPart = (float) $imaginaryPart;
        $this->suffix = strtolower($suffix);
    }

    /**
     * Gets the real part of this complex number
     *
     * @return Float
     */
    public function getReal()
    {
        return $this->realPart;
    }

    /**
     * Gets the imaginary part of this complex number
     *
     * @return Float
     */
    public function getImaginary()
    {
        return $this->imaginaryPart;
    }

    /**
     * Gets the suffix of this complex number
     *
     * @return String
     */
    public function getSuffix()
    {
        return $this->suffix;
    }

    /**
     * Returns true if this is a real value, false if a complex value
     *
     * @return Bool
     */
    public function isReal()
    {
        return $this->imaginaryPart == 0.0;
    }

    /**
     * Returns true if this is a complex value, false if a real value
     *
     * @return Bool
     */
    public function isComplex()
    {
        return !$this->isReal();
    }

    public function format()
    {
        $str = "";
        if ($this->imaginaryPart != 0.0) {
            if (\abs($this->imaginaryPart) != 1.0) {
                $str .= $this->imaginaryPart . $this->suffix;
            } else {
                $str .= (($this->imaginaryPart < 0.0) ? '-'
: '') . $this->suffix;
            }
        }
        if ($this->realPart != 0.0) {
            if (($str) && ($this->imaginaryPart > 0.0)) {
                $str = "+" . $str;
            }
            $str = $this->realPart . $str;
        }
        if (!$str) {
            $str = "0.0";
        }

        return $str;
    }

    public function __toString()
    {
        return $this->format();
    }

    /**
     * Validates whether the argument is a valid complex number, converting
scalar or array values if possible
     *
     * @param     mixed    $complex   The value to validate
     * @return    Complex
     * @throws    Exception    If the argument isn't a Complex number
or cannot be converted to one
     */
    public static function validateComplexArgument($complex)
    {
        if (is_scalar($complex) || is_array($complex)) {
            $complex = new Complex($complex);
        } elseif (!is_object($complex) || !($complex instanceof Complex)) {
            throw new Exception('Value is not a valid complex
number');
        }

        return $complex;
    }

    /**
     * Returns the reverse of this complex number
     *
     * @return    Complex
     */
    public function reverse()
    {
        return new Complex(
            $this->imaginaryPart,
            $this->realPart,
            ($this->realPart == 0.0) ? null : $this->suffix
        );
    }

    public function invertImaginary()
    {
        return new Complex(
            $this->realPart,
            $this->imaginaryPart * -1,
            ($this->imaginaryPart == 0.0) ? null : $this->suffix
        );
    }

    public function invertReal()
    {
        return new Complex(
            $this->realPart * -1,
            $this->imaginaryPart,
            ($this->imaginaryPart == 0.0) ? null : $this->suffix
        );
    }

    protected static $functions = [
        'abs',
        'acos',
        'acosh',
        'acot',
        'acoth',
        'acsc',
        'acsch',
        'argument',
        'asec',
        'asech',
        'asin',
        'asinh',
        'atan',
        'atanh',
        'conjugate',
        'cos',
        'cosh',
        'cot',
        'coth',
        'csc',
        'csch',
        'exp',
        'inverse',
        'ln',
        'log2',
        'log10',
        'negative',
        'pow',
        'rho',
        'sec',
        'sech',
        'sin',
        'sinh',
        'sqrt',
        'tan',
        'tanh',
        'theta',
    ];

    protected static $operations = [
        'add',
        'subtract',
        'multiply',
        'divideby',
        'divideinto',
    ];

    /**
     * Returns the result of the function call or operation
     *
     * @return    Complex|float
     * @throws    Exception|\InvalidArgumentException
     */
    public function __call($functionName, $arguments)
    {
        $functionName = strtolower(str_replace('_', '',
$functionName));

        // Test for function calls
        if (in_array($functionName, self::$functions)) {
            $functionName = "\\" . __NAMESPACE__ .
"\\{$functionName}";
            return $functionName($this, ...$arguments);
        }
        // Test for operation calls
        if (in_array($functionName, self::$operations)) {
            $functionName = "\\" . __NAMESPACE__ .
"\\{$functionName}";
            return $functionName($this, ...$arguments);
        }
        throw new Exception('Function or Operation does not
exist');
    }
}
vendor/markbaker/complex/classes/src/Exception.php000064400000000361151165413710016346
0ustar00<?php

/**
 * Exception.
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

class Exception extends \Exception
{
}
vendor/markbaker/complex/classes/src/functions/abs.php000064400000001474151165413710017173
0ustar00<?php

/**
 *
 * Function code for the complex abs() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns the absolute value (modulus) of a complex number.
 * Also known as the rho of the complex number, i.e. the distance/radius
 *   from the centrepoint to the representation of the number in polar
coordinates.
 *
 * This function is a synonym for rho()
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    float            The absolute (or rho) value of the complex
argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 *
 * @see    rho
 *
 */
function abs($complex)
{
    return rho($complex);
}
vendor/markbaker/complex/classes/src/functions/acos.php000064400000002051151165413710017343
0ustar00<?php

/**
 *
 * Function code for the complex acos() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns the inverse cosine of a complex number.
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    Complex          The inverse cosine of the complex argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 */
function acos($complex)
{
    $complex = Complex::validateComplexArgument($complex);

    $square = clone $complex;
    $square = multiply($square, $complex);
    $invsqrt = new Complex(1.0);
    $invsqrt = subtract($invsqrt, $square);
    $invsqrt = sqrt($invsqrt);
    $adjust = new Complex(
        $complex->getReal() - $invsqrt->getImaginary(),
        $complex->getImaginary() + $invsqrt->getReal()
    );
    $log = ln($adjust);

    return new Complex(
        $log->getImaginary(),
        -1 * $log->getReal()
    );
}
vendor/markbaker/complex/classes/src/functions/acosh.php000064400000001630151165413710017515
0ustar00<?php

/**
 *
 * Function code for the complex acosh() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns the inverse hyperbolic cosine of a complex number.
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    Complex          The inverse hyperbolic cosine of the complex
argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 */
function acosh($complex)
{
    $complex = Complex::validateComplexArgument($complex);

    if ($complex->isReal() && ($complex->getReal() > 1)) {
        return new Complex(\acosh($complex->getReal()));
    }

    $acosh = acos($complex)
        ->reverse();
    if ($acosh->getReal() < 0.0) {
        $acosh = $acosh->invertReal();
    }

    return $acosh;
}
vendor/markbaker/complex/classes/src/functions/acot.php000064400000001364151165413710017352
0ustar00<?php

/**
 *
 * Function code for the complex acot() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns the inverse cotangent of a complex number.
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    Complex          The inverse cotangent of the complex
argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 * @throws    \InvalidArgumentException    If function would result in a
division by zero
 */
function acot($complex)
{
    $complex = Complex::validateComplexArgument($complex);

    return atan(inverse($complex));
}
vendor/markbaker/complex/classes/src/functions/acoth.php000064400000001415151165413710017517
0ustar00<?php

/**
 *
 * Function code for the complex acoth() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns the inverse hyperbolic cotangent of a complex number.
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    Complex          The inverse hyperbolic cotangent of the
complex argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 * @throws    \InvalidArgumentException    If function would result in a
division by zero
 */
function acoth($complex)
{
    $complex = Complex::validateComplexArgument($complex);

    return atanh(inverse($complex));
}
vendor/markbaker/complex/classes/src/functions/acsc.php000064400000001526151165413710017335
0ustar00<?php

/**
 *
 * Function code for the complex acsc() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns the inverse cosecant of a complex number.
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    Complex          The inverse cosecant of the complex
argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 * @throws    \InvalidArgumentException    If function would result in a
division by zero
 */
function acsc($complex)
{
    $complex = Complex::validateComplexArgument($complex);

    if ($complex->getReal() == 0.0 &&
$complex->getImaginary() == 0.0) {
        return INF;
    }

    return asin(inverse($complex));
}
vendor/markbaker/complex/classes/src/functions/acsch.php000064400000001557151165413710017511
0ustar00<?php

/**
 *
 * Function code for the complex acsch() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns the inverse hyperbolic cosecant of a complex number.
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    Complex          The inverse hyperbolic cosecant of the
complex argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 * @throws    \InvalidArgumentException    If function would result in a
division by zero
 */
function acsch($complex)
{
    $complex = Complex::validateComplexArgument($complex);

    if ($complex->getReal() == 0.0 &&
$complex->getImaginary() == 0.0) {
        return INF;
    }

    return asinh(inverse($complex));
}
vendor/markbaker/complex/classes/src/functions/argument.php000064400000001474151165413710020250
0ustar00<?php

/**
 *
 * Function code for the complex argument() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns the argument of a complex number.
 * Also known as the theta of the complex number, i.e. the angle in radians
 *   from the real axis to the representation of the number in polar
coordinates.
 *
 * This function is a synonym for theta()
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    float            The argument (or theta) value of the complex
argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 *
 * @see    theta
 */
function argument($complex)
{
    return theta($complex);
}
vendor/markbaker/complex/classes/src/functions/asec.php000064400000001522151165413710017333
0ustar00<?php

/**
 *
 * Function code for the complex asec() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns the inverse secant of a complex number.
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    Complex          The inverse secant of the complex argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 * @throws    \InvalidArgumentException    If function would result in a
division by zero
 */
function asec($complex)
{
    $complex = Complex::validateComplexArgument($complex);

    if ($complex->getReal() == 0.0 &&
$complex->getImaginary() == 0.0) {
        return INF;
    }

    return acos(inverse($complex));
}
vendor/markbaker/complex/classes/src/functions/asech.php000064400000001553151165413710017507
0ustar00<?php

/**
 *
 * Function code for the complex asech() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns the inverse hyperbolic secant of a complex number.
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    Complex          The inverse hyperbolic secant of the complex
argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 * @throws    \InvalidArgumentException    If function would result in a
division by zero
 */
function asech($complex)
{
    $complex = Complex::validateComplexArgument($complex);

    if ($complex->getReal() == 0.0 &&
$complex->getImaginary() == 0.0) {
        return INF;
    }

    return acosh(inverse($complex));
}
vendor/markbaker/complex/classes/src/functions/asin.php000064400000002010151165413710017343
0ustar00<?php

/**
 *
 * Function code for the complex asin() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns the inverse sine of a complex number.
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    Complex          The inverse sine of the complex argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 */
function asin($complex)
{
    $complex = Complex::validateComplexArgument($complex);

    $square = multiply($complex, $complex);
    $invsqrt = new Complex(1.0);
    $invsqrt = subtract($invsqrt, $square);
    $invsqrt = sqrt($invsqrt);
    $adjust = new Complex(
        $invsqrt->getReal() - $complex->getImaginary(),
        $invsqrt->getImaginary() + $complex->getReal()
    );
    $log = ln($adjust);

    return new Complex(
        $log->getImaginary(),
        -1 * $log->getReal()
    );
}
vendor/markbaker/complex/classes/src/functions/asinh.php000064400000001650151165413710017524
0ustar00<?php

/**
 *
 * Function code for the complex asinh() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns the inverse hyperbolic sine of a complex number.
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    Complex          The inverse hyperbolic sine of the complex
argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 */
function asinh($complex)
{
    $complex = Complex::validateComplexArgument($complex);

    if ($complex->isReal() && ($complex->getReal() > 1)) {
        return new Complex(\asinh($complex->getReal()));
    }

    $asinh = clone $complex;
    $asinh = $asinh->reverse()
        ->invertReal();
    $asinh = asin($asinh);
    return $asinh->reverse()
        ->invertImaginary();
}
vendor/markbaker/complex/classes/src/functions/atan.php000064400000002531151165413710017344
0ustar00<?php

/**
 *
 * Function code for the complex atan() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

//include_once 'Math/Complex.php';
//include_once 'Math/ComplexOp.php';

/**
 * Returns the inverse tangent of a complex number.
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    Complex          The inverse tangent of the complex argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 * @throws    \InvalidArgumentException    If function would result in a
division by zero
 */
function atan($complex)
{
    $complex = Complex::validateComplexArgument($complex);

    if ($complex->isReal()) {
        return new Complex(\atan($complex->getReal()));
    }

    $t1Value = new Complex(-1 * $complex->getImaginary(),
$complex->getReal());
    $uValue = new Complex(1, 0);

    $d1Value = clone $uValue;
    $d1Value = subtract($d1Value, $t1Value);
    $d2Value = add($t1Value, $uValue);
    $uResult = $d1Value->divideBy($d2Value);
    $uResult = ln($uResult);

    return new Complex(
        (($uResult->getImaginary() == M_PI) ? -M_PI :
$uResult->getImaginary()) * -0.5,
        $uResult->getReal() * 0.5,
        $complex->getSuffix()
    );
}
vendor/markbaker/complex/classes/src/functions/atanh.php000064400000002117151165413710017514
0ustar00<?php

/**
 *
 * Function code for the complex atanh() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns the inverse hyperbolic tangent of a complex number.
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    Complex          The inverse hyperbolic tangent of the
complex argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 */
function atanh($complex)
{
    $complex = Complex::validateComplexArgument($complex);

    if ($complex->isReal()) {
        $real = $complex->getReal();
        if ($real >= -1.0 && $real <= 1.0) {
            return new Complex(\atanh($real));
        } else {
            return new Complex(\atanh(1 / $real), (($real < 0.0) ?
M_PI_2 : -1 * M_PI_2));
        }
    }

    $iComplex = clone $complex;
    $iComplex = $iComplex->invertImaginary()
        ->reverse();
    return atan($iComplex)
        ->invertReal()
        ->reverse();
}
vendor/markbaker/complex/classes/src/functions/conjugate.php000064400000001370151165413710020400
0ustar00<?php

/**
 *
 * Function code for the complex conjugate() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns the complex conjugate of a complex number
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    Complex          The conjugate of the complex argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 */
function conjugate($complex)
{
    $complex = Complex::validateComplexArgument($complex);

    return new Complex(
        $complex->getReal(),
        -1 * $complex->getImaginary(),
        $complex->getSuffix()
    );
}
vendor/markbaker/complex/classes/src/functions/cos.php000064400000001652151165413710017210
0ustar00<?php

/**
 *
 * Function code for the complex cos() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns the cosine of a complex number.
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    Complex          The cosine of the complex argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 */
function cos($complex)
{
    $complex = Complex::validateComplexArgument($complex);

    if ($complex->isReal()) {
        return new Complex(\cos($complex->getReal()));
    }

    return conjugate(
        new Complex(
            \cos($complex->getReal()) *
\cosh($complex->getImaginary()),
            \sin($complex->getReal()) *
\sinh($complex->getImaginary()),
            $complex->getSuffix()
        )
    );
}
vendor/markbaker/complex/classes/src/functions/cosh.php000064400000001632151165413710017356
0ustar00<?php

/**
 *
 * Function code for the complex cosh() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns the hyperbolic cosine of a complex number.
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    Complex          The hyperbolic cosine of the complex
argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 */
function cosh($complex)
{
    $complex = Complex::validateComplexArgument($complex);

    if ($complex->isReal()) {
        return new Complex(\cosh($complex->getReal()));
    }

    return new Complex(
        \cosh($complex->getReal()) * \cos($complex->getImaginary()),
        \sinh($complex->getReal()) * \sin($complex->getImaginary()),
        $complex->getSuffix()
    );
}
vendor/markbaker/complex/classes/src/functions/cot.php000064400000001522151165413710017205
0ustar00<?php

/**
 *
 * Function code for the complex cot() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns the cotangent of a complex number.
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    Complex          The cotangent of the complex argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 * @throws    \InvalidArgumentException    If function would result in a
division by zero
 */
function cot($complex)
{
    $complex = Complex::validateComplexArgument($complex);

    if ($complex->getReal() == 0.0 &&
$complex->getImaginary() == 0.0) {
        return new Complex(INF);
    }

    return inverse(tan($complex));
}
vendor/markbaker/complex/classes/src/functions/coth.php000064400000001371151165413710017357
0ustar00<?php

/**
 *
 * Function code for the complex coth() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns the hyperbolic cotangent of a complex number.
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    Complex          The hyperbolic cotangent of the complex
argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 * @throws    \InvalidArgumentException    If function would result in a
division by zero
 */
function coth($complex)
{
    $complex = Complex::validateComplexArgument($complex);
    return inverse(tanh($complex));
}
vendor/markbaker/complex/classes/src/functions/csc.php000064400000001503151165413710017167
0ustar00<?php

/**
 *
 * Function code for the complex csc() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns the cosecant of a complex number.
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    Complex          The cosecant of the complex argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 * @throws    \InvalidArgumentException    If function would result in a
division by zero
 */
function csc($complex)
{
    $complex = Complex::validateComplexArgument($complex);

    if ($complex->getReal() == 0.0 &&
$complex->getImaginary() == 0.0) {
        return INF;
    }

    return inverse(sin($complex));
}
vendor/markbaker/complex/classes/src/functions/csch.php000064400000001534151165413710017343
0ustar00<?php

/**
 *
 * Function code for the complex csch() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns the hyperbolic cosecant of a complex number.
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    Complex          The hyperbolic cosecant of the complex
argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 * @throws    \InvalidArgumentException    If function would result in a
division by zero
 */
function csch($complex)
{
    $complex = Complex::validateComplexArgument($complex);

    if ($complex->getReal() == 0.0 &&
$complex->getImaginary() == 0.0) {
        return INF;
    }

    return inverse(sinh($complex));
}
vendor/markbaker/complex/classes/src/functions/exp.php000064400000001655151165413710017223
0ustar00<?php

/**
 *
 * Function code for the complex exp() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns the exponential of a complex number.
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    Complex          The exponential of the complex argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 */
function exp($complex)
{
    $complex = Complex::validateComplexArgument($complex);

    if (($complex->getReal() == 0.0) &&
(\abs($complex->getImaginary()) == M_PI)) {
        return new Complex(-1.0, 0.0);
    }

    $rho = \exp($complex->getReal());
 
    return new Complex(
        $rho * \cos($complex->getImaginary()),
        $rho * \sin($complex->getImaginary()),
        $complex->getSuffix()
    );
}
vendor/markbaker/complex/classes/src/functions/inverse.php000064400000001577151165413710020105
0ustar00<?php

/**
 *
 * Function code for the complex inverse() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns the inverse of a complex number.
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    Complex          The inverse of the complex argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 * @throws    \InvalidArgumentException    If function would result in a
division by zero
 */
function inverse($complex)
{
    $complex = clone Complex::validateComplexArgument($complex);

    if ($complex->getReal() == 0.0 &&
$complex->getImaginary() == 0.0) {
        throw new \InvalidArgumentException('Division by zero');
    }

    return $complex->divideInto(1.0);
}
vendor/markbaker/complex/classes/src/functions/ln.php000064400000001703151165413710017032
0ustar00<?php

/**
 *
 * Function code for the complex ln() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns the natural logarithm of a complex number.
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    Complex          The natural logarithm of the complex
argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 * @throws    \InvalidArgumentException  If the real and the imaginary
parts are both zero
 */
function ln($complex)
{
    $complex = Complex::validateComplexArgument($complex);

    if (($complex->getReal() == 0.0) &&
($complex->getImaginary() == 0.0)) {
        throw new \InvalidArgumentException();
    }

    return new Complex(
        \log(rho($complex)),
        theta($complex),
        $complex->getSuffix()
    );
}
vendor/markbaker/complex/classes/src/functions/log10.php000064400000002123151165413710017340
0ustar00<?php

/**
 *
 * Function code for the complex log10() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns the common logarithm (base 10) of a complex number.
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    Complex          The common logarithm (base 10) of the
complex argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 * @throws    \InvalidArgumentException  If the real and the imaginary
parts are both zero
 */
function log10($complex)
{
    $complex = Complex::validateComplexArgument($complex);

    if (($complex->getReal() == 0.0) &&
($complex->getImaginary() == 0.0)) {
        throw new \InvalidArgumentException();
    } elseif (($complex->getReal() > 0.0) &&
($complex->getImaginary() == 0.0)) {
        return new Complex(\log10($complex->getReal()), 0.0,
$complex->getSuffix());
    }

    return ln($complex)
        ->multiply(\log10(Complex::EULER));
}
vendor/markbaker/complex/classes/src/functions/log2.php000064400000002077151165413710017271
0ustar00<?php

/**
 *
 * Function code for the complex log2() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns the base-2 logarithm of a complex number.
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    Complex          The base-2 logarithm of the complex
argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 * @throws    \InvalidArgumentException  If the real and the imaginary
parts are both zero
 */
function log2($complex)
{
    $complex = Complex::validateComplexArgument($complex);

    if (($complex->getReal() == 0.0) &&
($complex->getImaginary() == 0.0)) {
        throw new \InvalidArgumentException();
    } elseif (($complex->getReal() > 0.0) &&
($complex->getImaginary() == 0.0)) {
        return new Complex(\log($complex->getReal(), 2), 0.0,
$complex->getSuffix());
    }

    return ln($complex)
        ->multiply(\log(Complex::EULER, 2));
}
vendor/markbaker/complex/classes/src/functions/negative.php000064400000001415151165413710020223
0ustar00<?php

/**
 *
 * Function code for the complex negative() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns the negative of a complex number.
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    float            The negative value of the complex argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 *
 * @see    rho
 *
 */
function negative($complex)
{
    $complex = Complex::validateComplexArgument($complex);

    return new Complex(
        -1 * $complex->getReal(),
        -1 * $complex->getImaginary(),
        $complex->getSuffix()
    );
}
vendor/markbaker/complex/classes/src/functions/pow.php000064400000002431151165413710017225
0ustar00<?php

/**
 *
 * Function code for the complex pow() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns a complex number raised to a power.
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @param     float|integer    $power      The power to raise this value to
 * @return    Complex          The complex argument raised to the real
power.
 * @throws    Exception        If the power argument isn't a valid
real
 */
function pow($complex, $power)
{
    $complex = Complex::validateComplexArgument($complex);

    if (!is_numeric($power)) {
        throw new Exception('Power argument must be a real
number');
    }

    if ($complex->getImaginary() == 0.0 &&
$complex->getReal() >= 0.0) {
        return new Complex(\pow($complex->getReal(), $power));
    }

    $rValue = \sqrt(($complex->getReal() * $complex->getReal()) +
($complex->getImaginary() * $complex->getImaginary()));
    $rPower = \pow($rValue, $power);
    $theta = $complex->argument() * $power;
    if ($theta == 0) {
        return new Complex(1);
    }

    return new Complex($rPower * \cos($theta), $rPower * \sin($theta),
$complex->getSuffix());
}
vendor/markbaker/complex/classes/src/functions/rho.php000064400000001531151165413710017210
0ustar00<?php

/**
 *
 * Function code for the complex rho() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns the rho of a complex number.
 * This is the distance/radius from the centrepoint to the representation
of the number in polar coordinates.
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    float            The rho value of the complex argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 */
function rho($complex)
{
    $complex = Complex::validateComplexArgument($complex);

    return \sqrt(
        ($complex->getReal() * $complex->getReal()) +
        ($complex->getImaginary() * $complex->getImaginary())
    );
}
vendor/markbaker/complex/classes/src/functions/sec.php000064400000001333151165413710017172
0ustar00<?php

/**
 *
 * Function code for the complex sec() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns the secant of a complex number.
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    Complex          The secant of the complex argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 * @throws    \InvalidArgumentException    If function would result in a
division by zero
 */
function sec($complex)
{
    $complex = Complex::validateComplexArgument($complex);

    return inverse(cos($complex));
}
vendor/markbaker/complex/classes/src/functions/sech.php000064400000001364151165413710017346
0ustar00<?php

/**
 *
 * Function code for the complex sech() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns the hyperbolic secant of a complex number.
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    Complex          The hyperbolic secant of the complex
argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 * @throws    \InvalidArgumentException    If function would result in a
division by zero
 */
function sech($complex)
{
    $complex = Complex::validateComplexArgument($complex);

    return inverse(cosh($complex));
}
vendor/markbaker/complex/classes/src/functions/sin.php000064400000001575151165413710017221
0ustar00<?php

/**
 *
 * Function code for the complex sin() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns the sine of a complex number.
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    Complex          The sine of the complex argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 */
function sin($complex)
{
    $complex = Complex::validateComplexArgument($complex);

    if ($complex->isReal()) {
        return new Complex(\sin($complex->getReal()));
    }

    return new Complex(
        \sin($complex->getReal()) * \cosh($complex->getImaginary()),
        \cos($complex->getReal()) * \sinh($complex->getImaginary()),
        $complex->getSuffix()
    );
}
vendor/markbaker/complex/classes/src/functions/sinh.php000064400000001626151165413710017366
0ustar00<?php

/**
 *
 * Function code for the complex sinh() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns the hyperbolic sine of a complex number.
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    Complex          The hyperbolic sine of the complex argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 */
function sinh($complex)
{
    $complex = Complex::validateComplexArgument($complex);

    if ($complex->isReal()) {
        return new Complex(\sinh($complex->getReal()));
    }

    return new Complex(
        \sinh($complex->getReal()) * \cos($complex->getImaginary()),
        \cosh($complex->getReal()) * \sin($complex->getImaginary()),
        $complex->getSuffix()
    );
}
vendor/markbaker/complex/classes/src/functions/sqrt.php000064400000001471151165413710017414
0ustar00<?php

/**
 *
 * Function code for the complex sqrt() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns the square root of a complex number.
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    Complex          The Square root of the complex argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 */
function sqrt($complex)
{
    $complex = Complex::validateComplexArgument($complex);

    $theta = theta($complex);
    $delta1 = \cos($theta / 2);
    $delta2 = \sin($theta / 2);
    $rho = \sqrt(rho($complex));

    return new Complex($delta1 * $rho, $delta2 * $rho,
$complex->getSuffix());
}
vendor/markbaker/complex/classes/src/functions/tan.php000064400000002326151165413710017205
0ustar00<?php

/**
 *
 * Function code for the complex tan() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns the tangent of a complex number.
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    Complex          The tangent of the complex argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 * @throws    \InvalidArgumentException    If function would result in a
division by zero
 */
function tan($complex)
{
    $complex = Complex::validateComplexArgument($complex);

    if ($complex->isReal()) {
        return new Complex(\tan($complex->getReal()));
    }

    $real = $complex->getReal();
    $imaginary = $complex->getImaginary();
    $divisor = 1 + \pow(\tan($real), 2) * \pow(\tanh($imaginary), 2);
    if ($divisor == 0.0) {
        throw new \InvalidArgumentException('Division by zero');
    }

    return new Complex(
        \pow(sech($imaginary)->getReal(), 2) * \tan($real) / $divisor,
        \pow(sec($real)->getReal(), 2) * \tanh($imaginary) / $divisor,
        $complex->getSuffix()
    );
}
vendor/markbaker/complex/classes/src/functions/tanh.php000064400000002156151165413710017356
0ustar00<?php

/**
 *
 * Function code for the complex tanh() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns the hyperbolic tangent of a complex number.
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    Complex          The hyperbolic tangent of the complex
argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 * @throws    \InvalidArgumentException    If function would result in a
division by zero
 */
function tanh($complex)
{
    $complex = Complex::validateComplexArgument($complex);
    $real = $complex->getReal();
    $imaginary = $complex->getImaginary();
    $divisor = \cos($imaginary) * \cos($imaginary) + \sinh($real) *
\sinh($real);
    if ($divisor == 0.0) {
        throw new \InvalidArgumentException('Division by zero');
    }

    return new Complex(
        \sinh($real) * \cosh($real) / $divisor,
        0.5 * \sin(2 * $imaginary) / $divisor,
        $complex->getSuffix()
    );
}
vendor/markbaker/complex/classes/src/functions/theta.php000064400000002375151165413710017534
0ustar00<?php

/**
 *
 * Function code for the complex theta() function
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Returns the theta of a complex number.
 *   This is the angle in radians from the real axis to the representation
of the number in polar coordinates.
 *
 * @param     Complex|mixed    $complex    Complex number or a numeric
value.
 * @return    float            The theta value of the complex argument.
 * @throws    Exception        If argument isn't a valid real or
complex number.
 */
function theta($complex)
{
    $complex = Complex::validateComplexArgument($complex);

    if ($complex->getReal() == 0.0) {
        if ($complex->isReal()) {
            return 0.0;
        } elseif ($complex->getImaginary() < 0.0) {
            return M_PI / -2;
        }
        return M_PI / 2;
    } elseif ($complex->getReal() > 0.0) {
        return \atan($complex->getImaginary() / $complex->getReal());
    } elseif ($complex->getImaginary() < 0.0) {
        return -(M_PI - \atan(\abs($complex->getImaginary()) /
\abs($complex->getReal())));
    }

    return M_PI - \atan($complex->getImaginary() /
\abs($complex->getReal()));
}
vendor/markbaker/complex/classes/src/operations/add.php000064400000002412151165413710017322
0ustar00<?php

/**
 *
 * Function code for the complex addition operation
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Adds two or more complex numbers
 *
 * @param     array of string|integer|float|Complex    $complexValues   The
numbers to add
 * @return    Complex
 */
function add(...$complexValues)
{
    if (count($complexValues) < 2) {
        throw new \Exception('This function requires at least 2
arguments');
    }

    $base = array_shift($complexValues);
    $result = clone Complex::validateComplexArgument($base);

    foreach ($complexValues as $complex) {
        $complex = Complex::validateComplexArgument($complex);

        if ($result->isComplex() && $complex->isComplex()
&&
            $result->getSuffix() !== $complex->getSuffix()) {
            throw new Exception('Suffix Mismatch');
        }

        $real = $result->getReal() + $complex->getReal();
        $imaginary = $result->getImaginary() +
$complex->getImaginary();

        $result = new Complex(
            $real,
            $imaginary,
            ($imaginary == 0.0) ? null : max($result->getSuffix(),
$complex->getSuffix())
        );
    }

    return $result;
}
vendor/markbaker/complex/classes/src/operations/divideby.php000064400000003377151165413710020404
0ustar00<?php

/**
 *
 * Function code for the complex division operation
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Divides two or more complex numbers
 *
 * @param     array of string|integer|float|Complex    $complexValues   The
numbers to divide
 * @return    Complex
 */
function divideby(...$complexValues)
{
    if (count($complexValues) < 2) {
        throw new \Exception('This function requires at least 2
arguments');
    }

    $base = array_shift($complexValues);
    $result = clone Complex::validateComplexArgument($base);

    foreach ($complexValues as $complex) {
        $complex = Complex::validateComplexArgument($complex);

        if ($result->isComplex() && $complex->isComplex()
&&
            $result->getSuffix() !== $complex->getSuffix()) {
            throw new Exception('Suffix Mismatch');
        }
        if ($complex->getReal() == 0.0 &&
$complex->getImaginary() == 0.0) {
            throw new \InvalidArgumentException('Division by
zero');
        }

        $delta1 = ($result->getReal() * $complex->getReal()) +
            ($result->getImaginary() * $complex->getImaginary());
        $delta2 = ($result->getImaginary() * $complex->getReal()) -
            ($result->getReal() * $complex->getImaginary());
        $delta3 = ($complex->getReal() * $complex->getReal()) +
            ($complex->getImaginary() * $complex->getImaginary());

        $real = $delta1 / $delta3;
        $imaginary = $delta2 / $delta3;

        $result = new Complex(
            $real,
            $imaginary,
            ($imaginary == 0.0) ? null : max($result->getSuffix(),
$complex->getSuffix())
        );
    }

    return $result;
}
vendor/markbaker/complex/classes/src/operations/divideinto.php000064400000003373151165413710020737
0ustar00<?php

/**
 *
 * Function code for the complex division operation
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Divides two or more complex numbers
 *
 * @param     array of string|integer|float|Complex    $complexValues   The
numbers to divide
 * @return    Complex
 */
function divideinto(...$complexValues)
{
    if (count($complexValues) < 2) {
        throw new \Exception('This function requires at least 2
arguments');
    }

    $base = array_shift($complexValues);
    $result = clone Complex::validateComplexArgument($base);

    foreach ($complexValues as $complex) {
        $complex = Complex::validateComplexArgument($complex);

        if ($result->isComplex() && $complex->isComplex()
&&
            $result->getSuffix() !== $complex->getSuffix()) {
            throw new Exception('Suffix Mismatch');
        }
        if ($result->getReal() == 0.0 &&
$result->getImaginary() == 0.0) {
            throw new \InvalidArgumentException('Division by
zero');
        }

        $delta1 = ($complex->getReal() * $result->getReal()) +
            ($complex->getImaginary() * $result->getImaginary());
        $delta2 = ($complex->getImaginary() * $result->getReal()) -
            ($complex->getReal() * $result->getImaginary());
        $delta3 = ($result->getReal() * $result->getReal()) +
            ($result->getImaginary() * $result->getImaginary());

        $real = $delta1 / $delta3;
        $imaginary = $delta2 / $delta3;

        $result = new Complex(
            $real,
            $imaginary,
            ($imaginary == 0.0) ? null : max($result->getSuffix(),
$complex->getSuffix())
        );
    }

    return $result;
}
vendor/markbaker/complex/classes/src/operations/multiply.php000064400000002640151165413710020454
0ustar00<?php

/**
 *
 * Function code for the complex multiplication operation
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Multiplies two or more complex numbers
 *
 * @param     array of string|integer|float|Complex    $complexValues   The
numbers to multiply
 * @return    Complex
 */
function multiply(...$complexValues)
{
    if (count($complexValues) < 2) {
        throw new \Exception('This function requires at least 2
arguments');
    }

    $base = array_shift($complexValues);
    $result = clone Complex::validateComplexArgument($base);

    foreach ($complexValues as $complex) {
        $complex = Complex::validateComplexArgument($complex);

        if ($result->isComplex() && $complex->isComplex()
&&
            $result->getSuffix() !== $complex->getSuffix()) {
            throw new Exception('Suffix Mismatch');
        }

        $real = ($result->getReal() * $complex->getReal()) -
            ($result->getImaginary() * $complex->getImaginary());
        $imaginary = ($result->getReal() * $complex->getImaginary())
+
            ($result->getImaginary() * $complex->getReal());

        $result = new Complex(
            $real,
            $imaginary,
            ($imaginary == 0.0) ? null : max($result->getSuffix(),
$complex->getSuffix())
        );
    }

    return $result;
}
vendor/markbaker/complex/classes/src/operations/subtract.php000064400000002434151165413710020425
0ustar00<?php

/**
 *
 * Function code for the complex subtraction operation
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Complex;

/**
 * Subtracts two or more complex numbers
 *
 * @param     array of string|integer|float|Complex    $complexValues   The
numbers to subtract
 * @return    Complex
 */
function subtract(...$complexValues)
{
    if (count($complexValues) < 2) {
        throw new \Exception('This function requires at least 2
arguments');
    }

    $base = array_shift($complexValues);
    $result = clone Complex::validateComplexArgument($base);

    foreach ($complexValues as $complex) {
        $complex = Complex::validateComplexArgument($complex);

        if ($result->isComplex() && $complex->isComplex()
&&
            $result->getSuffix() !== $complex->getSuffix()) {
            throw new Exception('Suffix Mismatch');
        }

        $real = $result->getReal() - $complex->getReal();
        $imaginary = $result->getImaginary() -
$complex->getImaginary();

        $result = new Complex(
            $real,
            $imaginary,
            ($imaginary == 0.0) ? null : max($result->getSuffix(),
$complex->getSuffix())
        );
    }

    return $result;
}
vendor/markbaker/matrix/buildPhar.php000064400000002527151165413710013741
0ustar00<?php

# required: PHP 5.3+ and zlib extension

// ini option check
if (ini_get('phar.readonly')) {
    echo "php.ini: set the 'phar.readonly' option to 0 to
enable phar creation\n";
    exit(1);
}

// output name
$pharName = 'Matrix.phar';

// target folder
$sourceDir = __DIR__ . DIRECTORY_SEPARATOR . 'classes' .
DIRECTORY_SEPARATOR . 'src' . DIRECTORY_SEPARATOR;

// default meta information
$metaData = array(
    'Author'      => 'Mark Baker
<mark@lange.demon.co.uk>',
    'Description' => 'PHP Class for working with Matrix
numbers',
    'Copyright'   => 'Mark Baker (c) 2013-' .
date('Y'),
    'Timestamp'   => time(),
    'Version'     => '0.1.0',
    'Date'        => date('Y-m-d')
);

// cleanup
if (file_exists($pharName)) {
    echo "Removed: {$pharName}\n";
    unlink($pharName);
}

echo "Building phar file...\n";

// the phar object
$phar = new Phar($pharName, null, 'Matrix');
$phar->buildFromDirectory($sourceDir);
$phar->setStub(
<<<'EOT'
<?php
    spl_autoload_register(function ($className) {
        include 'phar://' . $className . '.php';
    });

    try {
        Phar::mapPhar();
    } catch (PharException $e) {
        error_log($e->getMessage());
        exit(1);
    }

    include 'phar://functions/sqrt.php';

    __HALT_COMPILER();
EOT
);
$phar->setMetadata($metaData);
$phar->compressFiles(Phar::GZ);

echo "Complete.\n";

exit();
vendor/markbaker/matrix/classes/Autoloader.php000064400000002747151165413710015567
0ustar00<?php

namespace Matrix;

/**
 *
 * Autoloader for Matrix classes
 *
 * @package Matrix
 * @copyright  Copyright (c) 2014 Mark Baker
(https://github.com/MarkBaker/PHPMatrix)
 * @license    https://opensource.org/licenses/MIT          MIT
 */
class Autoloader
{
    /**
     * Register the Autoloader with SPL
     *
     */
    public static function Register()
    {
        if (function_exists('__autoload')) {
            //    Register any existing autoloader function with SPL, so we
don't get any clashes
            spl_autoload_register('__autoload');
        }
        //    Register ourselves with SPL
        return spl_autoload_register(['Matrix\\Autoloader',
'Load']);
    }


    /**
     * Autoload a class identified by name
     *
     * @param    string    $pClassName    Name of the object to load
     */
    public static function Load($pClassName)
    {
        if ((class_exists($pClassName, false)) || (strpos($pClassName,
'Matrix\\') !== 0)) {
            // Either already loaded, or not a Matrix class request
            return false;
        }

        $pClassFilePath = __DIR__ . DIRECTORY_SEPARATOR .
                          'src' . DIRECTORY_SEPARATOR .
                          str_replace(['Matrix\\',
'\\'], ['', '/'], $pClassName) .
                          '.php';

        if ((file_exists($pClassFilePath) === false) ||
(is_readable($pClassFilePath) === false)) {
            // Can't load
            return false;
        }
        require($pClassFilePath);
    }
}
vendor/markbaker/matrix/classes/Bootstrap.php000064400000001704151165413710015435
0ustar00<?php

include_once __DIR__ . '/Autoloader.php';

\Matrix\Autoloader::Register();


abstract class FilesystemRegexFilter extends RecursiveRegexIterator
{
    protected $regex;
    public function __construct(RecursiveIterator $it, $regex)
    {
        $this->regex = $regex;
        parent::__construct($it, $regex);
    }
}

class FilenameFilter extends FilesystemRegexFilter
{
    // Filter files against the regex
    public function accept()
    {
        return (!$this->isFile() || preg_match($this->regex,
$this->getFilename()));
    }
}


$srcFolder = __DIR__ . DIRECTORY_SEPARATOR . 'src';
$srcDirectory = new RecursiveDirectoryIterator($srcFolder);

$filteredFileList = new FilenameFilter($srcDirectory,
'/(?:php)$/i');
$filteredFileList = new FilenameFilter($filteredFileList,
'/^(?!.*(Matrix|Exception)\.php).*$/i');

foreach (new RecursiveIteratorIterator($filteredFileList) as $file) {
    if ($file->isFile()) {
        include_once $file;
    }
}
vendor/markbaker/matrix/classes/src/Builder.php000064400000003213151165413710015632
0ustar00<?php

/**
 *
 * Class for the creating "special" Matrices
 *
 * @copyright  Copyright (c) 2018 Mark Baker
(https://github.com/MarkBaker/PHPMatrix)
 * @license    https://opensource.org/licenses/MIT    MIT
 */

namespace Matrix;

/**
 * Matrix Builder class.
 *
 * @package Matrix
 */
class Builder
{
    /**
     * Create a new matrix of specified dimensions, and filled with a
specified value
     * If the column argument isn't provided, then a square matrix
will be created
     *
     * @param mixed $value
     * @param int $rows
     * @param int|null $columns
     * @return Matrix
     * @throws Exception
     */
    public static function createFilledMatrix($value, $rows, $columns =
null)
    {
        if ($columns === null) {
            $columns = $rows;
        }

        $rows = Matrix::validateRow($rows);
        $columns = Matrix::validateColumn($columns);

        return new Matrix(
            array_fill(
                0,
                $rows,
                array_fill(
                    0,
                    $columns,
                    $value
                )
            )
        );
    }

    /**
     * Create a new identity matrix of specified dimensions
     * This will always be a square matrix, with the number of rows and
columns matching the provided dimension
     *
     * @param int $dimensions
     * @return Matrix
     * @throws Exception
     */
    public static function createIdentityMatrix($dimensions)
    {
        $grid = static::createFilledMatrix(null,
$dimensions)->toArray();

        for ($x = 0; $x < $dimensions; ++$x) {
            $grid[$x][$x] = 1;
        }

        return new Matrix($grid);
    }
}
vendor/markbaker/matrix/classes/src/Exception.php000064400000000357151165413710016210
0ustar00<?php

/**
 * Exception.
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPMatrix)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Matrix;

class Exception extends \Exception
{
}
vendor/markbaker/matrix/classes/src/functions/adjoint.php000064400000001305151165413710017704
0ustar00<?php

/**
 *
 * Function code for the matrix adjoint() function
 *
 * @copyright  Copyright (c) 2018 Mark Baker
(https://github.com/MarkBaker/PHPMatrix)
 * @license    https://opensource.org/licenses/MIT    MIT
 */

namespace Matrix;

/**
 * Returns the adjoint of a matrix or an array.
 *
 * @param Matrix|array $matrix Matrix or an array to treat as a matrix.
 * @return Matrix The new matrix
 * @throws Exception If argument isn't a valid matrix or array.
 */
function adjoint($matrix)
{
    if (is_array($matrix)) {
        $matrix = new Matrix($matrix);
    }
    if (!$matrix instanceof Matrix) {
        throw new Exception('Must be Matrix or array');
    }

    return Functions::adjoint($matrix);
}
vendor/markbaker/matrix/classes/src/functions/antidiagonal.php000064400000001372151165413710020712
0ustar00<?php

/**
 *
 * Function code for the matrix antidiagonal() function
 *
 * @copyright  Copyright (c) 2018 Mark Baker
(https://github.com/MarkBaker/PHPMatrix)
 * @license    https://opensource.org/licenses/MIT    MIT
 */
namespace Matrix;

/**
 * Returns the antidiagonal of a matrix or an array.
 *
 * @param     Matrix|array     $matrix    Matrix or an array to treat as a
matrix.
 * @return    Matrix           The new matrix
 * @throws    Exception        If argument isn't a valid matrix or
array.
 */
function antidiagonal($matrix)
{
    if (is_array($matrix)) {
        $matrix = new Matrix($matrix);
    }
    if (!$matrix instanceof Matrix) {
        throw new Exception('Must be Matrix or array');
    }

    return Functions::antidiagonal($matrix);
}
vendor/markbaker/matrix/classes/src/functions/cofactors.php000064400000001315151165413710020240
0ustar00<?php

/**
 *
 * Function code for the matrix cofactors() function
 *
 * @copyright  Copyright (c) 2018 Mark Baker
(https://github.com/MarkBaker/PHPMatrix)
 * @license    https://opensource.org/licenses/MIT    MIT
 */

namespace Matrix;

/**
 * Returns the cofactors of a matrix or an array.
 *
 * @param Matrix|array $matrix Matrix or an array to treat as a matrix.
 * @return Matrix The new matrix
 * @throws Exception If argument isn't a valid matrix or array.
 */
function cofactors($matrix)
{
    if (is_array($matrix)) {
        $matrix = new Matrix($matrix);
    }
    if (!$matrix instanceof Matrix) {
        throw new Exception('Must be Matrix or array');
    }

    return Functions::cofactors($matrix);
}
vendor/markbaker/matrix/classes/src/functions/determinant.php000064400000001330151165413710020564
0ustar00<?php

/**
 *
 * Function code for the matrix determinant() function
 *
 * @copyright  Copyright (c) 2018 Mark Baker
(https://github.com/MarkBaker/PHPMatrix)
 * @license    https://opensource.org/licenses/MIT    MIT
 */

namespace Matrix;

/**
 * Returns the determinant of a matrix or an array.
 *
 * @param Matrix|array $matrix Matrix or an array to treat as a matrix.
 * @return float Matrix determinant
 * @throws Exception If argument isn't a valid matrix or array.
 */
function determinant($matrix)
{
    if (is_array($matrix)) {
        $matrix = new Matrix($matrix);
    }
    if (!$matrix instanceof Matrix) {
        throw new Exception('Must be Matrix or array');
    }

    return Functions::determinant($matrix);
}
vendor/markbaker/matrix/classes/src/functions/diagonal.php000064400000001311151165413710020027
0ustar00<?php

/**
 *
 * Function code for the matrix diagonal() function
 *
 * @copyright  Copyright (c) 2018 Mark Baker
(https://github.com/MarkBaker/PHPMatrix)
 * @license    https://opensource.org/licenses/MIT    MIT
 */

namespace Matrix;

/**
 * Returns the diagonal of a matrix or an array.
 *
 * @param Matrix|array $matrix Matrix or an array to treat as a matrix.
 * @return Matrix The new matrix
 * @throws Exception If argument isn't a valid matrix or array.
 */
function diagonal($matrix)
{
    if (is_array($matrix)) {
        $matrix = new Matrix($matrix);
    }
    if (!$matrix instanceof Matrix) {
        throw new Exception('Must be Matrix or array');
    }

    return Functions::diagonal($matrix);
}
vendor/markbaker/matrix/classes/src/functions/identity.php000064400000001316151165413710020107
0ustar00<?php

/**
 *
 * Function code for the matrix identity() function
 *
 * @copyright  Copyright (c) 2018 Mark Baker
(https://github.com/MarkBaker/PHPMatrix)
 * @license    https://opensource.org/licenses/MIT    MIT
 */

namespace Matrix;

/**
 * Returns the identity of a matrix or an array.
 *
 * @param Matrix|array $matrix Matrix or an array to treat as a matrix.
 * @return Matrix The identity matrix
 * @throws Exception If argument isn't a valid matrix or array.
 */
function identity($matrix)
{
    if (is_array($matrix)) {
        $matrix = new Matrix($matrix);
    }
    if (!$matrix instanceof Matrix) {
        throw new Exception('Must be Matrix or array');
    }

    return Functions::identity($matrix);
}
vendor/markbaker/matrix/classes/src/functions/inverse.php000064400000001305151165413710017727
0ustar00<?php

/**
 *
 * Function code for the matrix inverse() function
 *
 * @copyright  Copyright (c) 2018 Mark Baker
(https://github.com/MarkBaker/PHPMatrix)
 * @license    https://opensource.org/licenses/MIT    MIT
 */

namespace Matrix;

/**
 * Returns the inverse of a matrix or an array.
 *
 * @param Matrix|array $matrix Matrix or an array to treat as a matrix.
 * @return Matrix The new matrix
 * @throws Exception If argument isn't a valid matrix or array.
 */
function inverse($matrix)
{
    if (is_array($matrix)) {
        $matrix = new Matrix($matrix);
    }
    if (!$matrix instanceof Matrix) {
        throw new Exception('Must be Matrix or array');
    }

    return Functions::inverse($matrix);
}
vendor/markbaker/matrix/classes/src/functions/minors.php000064400000001301151165413710017557
0ustar00<?php

/**
 *
 * Function code for the matrix minors() function
 *
 * @copyright  Copyright (c) 2018 Mark Baker
(https://github.com/MarkBaker/PHPMatrix)
 * @license    https://opensource.org/licenses/MIT    MIT
 */

namespace Matrix;

/**
 * Returns the minors of a matrix or an array.
 *
 * @param Matrix|array $matrix Matrix or an array to treat as a matrix.
 * @return Matrix The new matrix
 * @throws Exception If argument isn't a valid matrix or array.
 */
function minors($matrix)
{
    if (is_array($matrix)) {
        $matrix = new Matrix($matrix);
    }
    if (!$matrix instanceof Matrix) {
        throw new Exception('Must be Matrix or array');
    }

    return Functions::minors($matrix);
}
vendor/markbaker/matrix/classes/src/functions/trace.php000064400000001305151165413710017352
0ustar00<?php

/**
 *
 * Function code for the matrix trace() function
 *
 * @copyright  Copyright (c) 2018 Mark Baker
(https://github.com/MarkBaker/PHPMatrix)
 * @license    https://opensource.org/licenses/MIT    MIT
 */

namespace Matrix;

/**
 * Returns the trace of a matrix or an array.
 *
 * @param Matrix|array $matrix Matrix or an array to treat as a matrix.
 * @return float The trace of the matrix
 * @throws Exception If argument isn't a valid matrix or array.
 */
function trace($matrix)
{
    if (is_array($matrix)) {
        $matrix = new Matrix($matrix);
    }
    if (!$matrix instanceof Matrix) {
        throw new Exception('Must be Matrix or array');
    }

    return Functions::trace($matrix);
}
vendor/markbaker/matrix/classes/src/functions/transpose.php000064400000001324151165413710020273
0ustar00<?php

/**
 *
 * Function code for the matrix transpose() function
 *
 * @copyright  Copyright (c) 2018 Mark Baker
(https://github.com/MarkBaker/PHPMatrix)
 * @license    https://opensource.org/licenses/MIT    MIT
 */

namespace Matrix;

/**
 * Returns the transpose of a matrix or an array.
 *
 * @param Matrix|array $matrix Matrix or an array to treat as a matrix.
 * @return Matrix The transposed matrix
 * @throws Exception If argument isn't a valid matrix or array.
 */
function transpose($matrix)
{
    if (is_array($matrix)) {
        $matrix = new Matrix($matrix);
    }
    if (!$matrix instanceof Matrix) {
        throw new Exception('Must be Matrix or array');
    }

    return Functions::transpose($matrix);
}
vendor/markbaker/matrix/classes/src/Functions.php000064400000023073151165413710016222
0ustar00<?php

namespace Matrix;

class Functions
{
    /**
     * Calculate the adjoint of the matrix
     *
     * @param Matrix $matrix The matrix whose adjoint we wish to calculate
     * @return Matrix
     *
     * @throws Exception
     */
    private static function getAdjoint(Matrix $matrix)
    {
        return self::transpose(
            self::getCofactors($matrix)
        );
    }

    /**
     * Return the adjoint of this matrix
     * The adjugate, classical adjoint, or adjunct of a square matrix is
the transpose of its cofactor matrix.
     * The adjugate has sometimes been called the "adjoint", but
today the "adjoint" of a matrix normally refers
     *     to its corresponding adjoint operator, which is its conjugate
transpose.
     *
     * @param Matrix $matrix The matrix whose adjoint we wish to calculate
     * @return Matrix
     * @throws Exception
     **/
    public static function adjoint(Matrix $matrix)
    {
        if (!$matrix->isSquare()) {
            throw new Exception('Adjoint can only be calculated for a
square matrix');
        }

        return self::getAdjoint($matrix);
    }

    /**
     * Calculate the cofactors of the matrix
     *
     * @param Matrix $matrix The matrix whose cofactors we wish to
calculate
     * @return Matrix
     *
     * @throws Exception
     */
    private static function getCofactors(Matrix $matrix)
    {
        $cofactors = self::getMinors($matrix);
        $dimensions = $matrix->rows;

        $cof = 1;
        for ($i = 0; $i < $dimensions; ++$i) {
            $cofs = $cof;
            for ($j = 0; $j < $dimensions; ++$j) {
                $cofactors[$i][$j] *= $cofs;
                $cofs = -$cofs;
            }
            $cof = -$cof;
        }

        return new Matrix($cofactors);
    }

    /**
     * Return the cofactors of this matrix
     *
     * @param Matrix $matrix The matrix whose cofactors we wish to
calculate
     * @return Matrix
     *
     * @throws Exception
     */
    public static function cofactors(Matrix $matrix)
    {
        if (!$matrix->isSquare()) {
            throw new Exception('Cofactors can only be calculated for
a square matrix');
        }

        return self::getCofactors($matrix);
    }

    /**
     * @param Matrix $matrix
     * @param int $row
     * @param int $column
     * @return float
     * @throws Exception
     */
    private static function getDeterminantSegment(Matrix $matrix, $row,
$column)
    {
        $tmpMatrix = $matrix->toArray();
        unset($tmpMatrix[$row]);
        array_walk(
            $tmpMatrix,
            function (&$row) use ($column) {
                unset($row[$column]);
            }
        );

        return self::getDeterminant(new Matrix($tmpMatrix));
    }

    /**
     * Calculate the determinant of the matrix
     *
     * @param Matrix $matrix The matrix whose determinant we wish to
calculate
     * @return float
     *
     * @throws Exception
     */
    private static function getDeterminant(Matrix $matrix)
    {
        $dimensions = $matrix->rows;
        $determinant = 0;

        switch ($dimensions) {
            case 1:
                $determinant = $matrix->getValue(1, 1);
                break;
            case 2:
                $determinant = $matrix->getValue(1, 1) *
$matrix->getValue(2, 2) -
                    $matrix->getValue(1, 2) * $matrix->getValue(2,
1);
                break;
            default:
                for ($i = 1; $i <= $dimensions; ++$i) {
                    $det = $matrix->getValue(1, $i) *
self::getDeterminantSegment($matrix, 0, $i - 1);
                    if (($i % 2) == 0) {
                        $determinant -= $det;
                    } else {
                        $determinant += $det;
                    }
                }
                break;
        }

        return $determinant;
    }

    /**
     * Return the determinant of this matrix
     *
     * @param Matrix $matrix The matrix whose determinant we wish to
calculate
     * @return float
     * @throws Exception
     **/
    public static function determinant(Matrix $matrix)
    {
        if (!$matrix->isSquare()) {
            throw new Exception('Determinant can only be calculated
for a square matrix');
        }

        return self::getDeterminant($matrix);
    }

    /**
     * Return the diagonal of this matrix
     *
     * @param Matrix $matrix The matrix whose diagonal we wish to calculate
     * @return Matrix
     * @throws Exception
     **/
    public static function diagonal(Matrix $matrix)
    {
        if (!$matrix->isSquare()) {
            throw new Exception('Diagonal can only be extracted from a
square matrix');
        }

        $dimensions = $matrix->rows;
        $grid = Builder::createFilledMatrix(0, $dimensions, $dimensions)
            ->toArray();

        for ($i = 0; $i < $dimensions; ++$i) {
            $grid[$i][$i] = $matrix->getValue($i + 1, $i + 1);
        }

        return new Matrix($grid);
    }

    /**
     * Return the antidiagonal of this matrix
     *
     * @param Matrix $matrix The matrix whose antidiagonal we wish to
calculate
     * @return Matrix
     * @throws Exception
     **/
    public static function antidiagonal(Matrix $matrix)
    {
        if (!$matrix->isSquare()) {
            throw new Exception('Anti-Diagonal can only be extracted
from a square matrix');
        }

        $dimensions = $matrix->rows;
        $grid = Builder::createFilledMatrix(0, $dimensions, $dimensions)
            ->toArray();

        for ($i = 0; $i < $dimensions; ++$i) {
            $grid[$i][$dimensions - $i - 1] = $matrix->getValue($i + 1,
$dimensions - $i);
        }

        return new Matrix($grid);
    }

    /**
     * Return the identity matrix
     * The identity matrix, or sometimes ambiguously called a unit matrix,
of size n is the n × n square matrix
     *   with ones on the main diagonal and zeros elsewhere
     *
     * @param Matrix $matrix The matrix whose identity we wish to calculate
     * @return Matrix
     * @throws Exception
     **/
    public static function identity(Matrix $matrix)
    {
        if (!$matrix->isSquare()) {
            throw new Exception('Identity can only be created for a
square matrix');
        }

        $dimensions = $matrix->rows;

        return Builder::createIdentityMatrix($dimensions);
    }

    /**
     * Return the inverse of this matrix
     *
     * @param Matrix $matrix The matrix whose inverse we wish to calculate
     * @return Matrix
     * @throws Exception
     **/
    public static function inverse(Matrix $matrix)
    {
        if (!$matrix->isSquare()) {
            throw new Exception('Inverse can only be calculated for a
square matrix');
        }

        $determinant = self::getDeterminant($matrix);
        if ($determinant == 0.0) {
            throw new Exception('Inverse can only be calculated for a
matrix with a non-zero determinant');
        }

        if ($matrix->rows == 1) {
            return new Matrix([[1 / $matrix->getValue(1, 1)]]);
        }

        return self::getAdjoint($matrix)
            ->multiply(1 / $determinant);
    }

    /**
     * Calculate the minors of the matrix
     *
     * @param Matrix $matrix The matrix whose minors we wish to calculate
     * @return array[]
     *
     * @throws Exception
     */
    protected static function getMinors(Matrix $matrix)
    {
        $minors = $matrix->toArray();
        $dimensions = $matrix->rows;
        if ($dimensions == 1) {
            return $minors;
        }

        for ($i = 0; $i < $dimensions; ++$i) {
            for ($j = 0; $j < $dimensions; ++$j) {
                $minors[$i][$j] = self::getDeterminantSegment($matrix, $i,
$j);
            }
        }

        return $minors;
    }

    /**
     * Return the minors of the matrix
     * The minor of a matrix A is the determinant of some smaller square
matrix, cut down from A by removing one or
     *     more of its rows or columns.
     * Minors obtained by removing just one row and one column from square
matrices (first minors) are required for
     *     calculating matrix cofactors, which in turn are useful for
computing both the determinant and inverse of
     *     square matrices.
     *
     * @param Matrix $matrix The matrix whose minors we wish to calculate
     * @return Matrix
     * @throws Exception
     **/
    public static function minors(Matrix $matrix)
    {
        if (!$matrix->isSquare()) {
            throw new Exception('Minors can only be calculated for a
square matrix');
        }

        return new Matrix(self::getMinors($matrix));
    }

    /**
     * Return the trace of this matrix
     * The trace is defined as the sum of the elements on the main diagonal
(the diagonal from the upper left to the lower right)
     *     of the matrix
     *
     * @param Matrix $matrix The matrix whose trace we wish to calculate
     * @return float
     * @throws Exception
     **/
    public static function trace(Matrix $matrix)
    {
        if (!$matrix->isSquare()) {
            throw new Exception('Trace can only be extracted from a
square matrix');
        }

        $dimensions = $matrix->rows;
        $result = 0;
        for ($i = 1; $i <= $dimensions; ++$i) {
            $result += $matrix->getValue($i, $i);
        }

        return $result;
    }

    /**
     * Return the transpose of this matrix
     *
     * @param Matrix $matrix The matrix whose transpose we wish to
calculate
     * @return Matrix
     **/
    public static function transpose(Matrix $matrix)
    {
        $array = array_values(array_merge([null], $matrix->toArray()));
        $grid = call_user_func_array(
            'array_map',
            $array
        );

        return new Matrix($grid);
    }
}
vendor/markbaker/matrix/classes/src/Matrix.php000064400000025255151165413710015522
0ustar00<?php

/**
 *
 * Class for the management of Matrices
 *
 * @copyright  Copyright (c) 2018 Mark Baker
(https://github.com/MarkBaker/PHPMatrix)
 * @license    https://opensource.org/licenses/MIT    MIT
 */

namespace Matrix;

/**
 * Matrix object.
 *
 * @package Matrix
 *
 * @property-read int $rows The number of rows in the matrix
 * @property-read int $columns The number of columns in the matrix
 * @method Matrix antidiagonal()
 * @method Matrix adjoint()
 * @method Matrix cofactors()
 * @method float determinant()
 * @method Matrix diagonal()
 * @method Matrix identity()
 * @method Matrix inverse()
 * @method Matrix pseudoInverse()
 * @method Matrix minors()
 * @method float trace()
 * @method Matrix transpose()
 * @method Matrix add(...$matrices)
 * @method Matrix subtract(...$matrices)
 * @method Matrix multiply(...$matrices)
 * @method Matrix divideby(...$matrices)
 * @method Matrix divideinto(...$matrices)
 */
class Matrix
{
    protected $rows;
    protected $columns;
    protected $grid = [];

    /*
     * Create a new Matrix object from an array of values
     *
     * @param array $grid
     */
    final public function __construct(array $grid)
    {
        $this->buildFromArray(array_values($grid));
    }

    /*
     * Create a new Matrix object from an array of values
     *
     * @param array $grid
     */
    protected function buildFromArray(array $grid)
    {
        $this->rows = count($grid);
        $columns = array_reduce(
            $grid,
            function ($carry, $value) {
                return max($carry, is_array($value) ? count($value) : 1);
            }
        );
        $this->columns = $columns;

        array_walk(
            $grid,
            function (&$value) use ($columns) {
                if (!is_array($value)) {
                    $value = [$value];
                }
                $value = array_pad(array_values($value), $columns, null);
            }
        );

        $this->grid = $grid;
    }

    /**
     * Validate that a row number is a positive integer
     *
     * @param int $row
     * @return int
     * @throws Exception
     */
    public static function validateRow($row)
    {
        if ((!is_numeric($row)) || (intval($row) < 1)) {
            throw new Exception('Invalid Row');
        }

        return (int)$row;
    }

    /**
     * Validate that a column number is a positive integer
     *
     * @param int $column
     * @return int
     * @throws Exception
     */
    public static function validateColumn($column)
    {
        if ((!is_numeric($column)) || (intval($column) < 1)) {
            throw new Exception('Invalid Column');
        }

        return (int)$column;
    }

    /**
     * Validate that a row number falls within the set of rows for this
matrix
     *
     * @param int $row
     * @return int
     * @throws Exception
     */
    protected function validateRowInRange($row)
    {
        $row = static::validateRow($row);
        if ($row > $this->rows) {
            throw new Exception('Requested Row exceeds matrix
size');
        }

        return $row;
    }

    /**
     * Validate that a column number falls within the set of columns for
this matrix
     *
     * @param int $column
     * @return int
     * @throws Exception
     */
    protected function validateColumnInRange($column)
    {
        $column = static::validateColumn($column);
        if ($column > $this->columns) {
            throw new Exception('Requested Column exceeds matrix
size');
        }

        return $column;
    }

    /**
     * Return a new matrix as a subset of rows from this matrix, starting
at row number $row, and $rowCount rows
     * A $rowCount value of 0 will return all rows of the matrix from $row
     * A negative $rowCount value will return rows until that many rows
from the end of the matrix
     *
     * Note that row numbers start from 1, not from 0
     *
     * @param int $row
     * @param int $rowCount
     * @return static
     * @throws Exception
     */
    public function getRows($row, $rowCount = 1)
    {
        $row = $this->validateRowInRange($row);
        if ($rowCount === 0) {
            $rowCount = $this->rows - $row + 1;
        }

        return new static(array_slice($this->grid, $row - 1,
(int)$rowCount));
    }

    /**
     * Return a new matrix as a subset of columns from this matrix,
starting at column number $column, and $columnCount columns
     * A $columnCount value of 0 will return all columns of the matrix from
$column
     * A negative $columnCount value will return columns until that many
columns from the end of the matrix
     *
     * Note that column numbers start from 1, not from 0
     *
     * @param int $column
     * @param int $columnCount
     * @return Matrix
     * @throws Exception
     */
    public function getColumns($column, $columnCount = 1)
    {
        $column = $this->validateColumnInRange($column);
        if ($columnCount < 1) {
            $columnCount = $this->columns + $columnCount - $column + 1;
        }

        $grid = [];
        for ($i = $column - 1; $i < $column + $columnCount - 1; ++$i) {
            $grid[] = array_column($this->grid, $i);
        }

        return (new static($grid))->transpose();
    }

    /**
     * Return a new matrix as a subset of rows from this matrix, dropping
rows starting at row number $row,
     *     and $rowCount rows
     * A negative $rowCount value will drop rows until that many rows from
the end of the matrix
     * A $rowCount value of 0 will remove all rows of the matrix from $row
     *
     * Note that row numbers start from 1, not from 0
     *
     * @param int $row
     * @param int $rowCount
     * @return static
     * @throws Exception
     */
    public function dropRows($row, $rowCount = 1)
    {
        $this->validateRowInRange($row);
        if ($rowCount === 0) {
            $rowCount = $this->rows - $row + 1;
        }

        $grid = $this->grid;
        array_splice($grid, $row - 1, (int)$rowCount);

        return new static($grid);
    }

    /**
     * Return a new matrix as a subset of columns from this matrix,
dropping columns starting at column number $column,
     *     and $columnCount columns
     * A negative $columnCount value will drop columns until that many
columns from the end of the matrix
     * A $columnCount value of 0 will remove all columns of the matrix from
$column
     *
     * Note that column numbers start from 1, not from 0
     *
     * @param int $column
     * @param int $columnCount
     * @return static
     * @throws Exception
     */
    public function dropColumns($column, $columnCount = 1)
    {
        $this->validateColumnInRange($column);
        if ($columnCount < 1) {
            $columnCount = $this->columns + $columnCount - $column + 1;
        }

        $grid = $this->grid;
        array_walk(
            $grid,
            function (&$row) use ($column, $columnCount) {
                array_splice($row, $column - 1, (int)$columnCount);
            }
        );

        return new static($grid);
    }

    /**
     * Return a value from this matrix, from the "cell"
identified by the row and column numbers
     * Note that row and column numbers start from 1, not from 0
     *
     * @param int $row
     * @param int $column
     * @return mixed
     * @throws Exception
     */
    public function getValue($row, $column)
    {
        $row = $this->validateRowInRange($row);
        $column = $this->validateColumnInRange($column);

        return $this->grid[$row - 1][$column - 1];
    }

    /**
     * Returns a Generator that will yield each row of the matrix in turn
as a vector matrix
     *     or the value of each cell if the matrix is a vector
     *
     * @return \Generator|Matrix[]|mixed[]
     */
    public function rows()
    {
        foreach ($this->grid as $i => $row) {
            yield $i + 1 => ($this->columns == 1)
                ? $row[0]
                : new static([$row]);
        }
    }

    /**
     * Returns a Generator that will yield each column of the matrix in
turn as a vector matrix
     *     or the value of each cell if the matrix is a vector
     *
     * @return \Generator|Matrix[]|mixed[]
     */
    public function columns()
    {
        for ($i = 0; $i < $this->columns; ++$i) {
            yield $i + 1 => ($this->rows == 1)
                ? $this->grid[0][$i]
                : new static(array_column($this->grid, $i));
        }
    }

    /**
     * Identify if the row and column dimensions of this matrix are equal,
     *     i.e. if it is a "square" matrix
     *
     * @return bool
     */
    public function isSquare()
    {
        return $this->rows == $this->columns;
    }

    /**
     * Identify if this matrix is a vector
     *     i.e. if it comprises only a single row or a single column
     *
     * @return bool
     */
    public function isVector()
    {
        return $this->rows == 1 || $this->columns == 1;
    }

    /**
     * Return the matrix as a 2-dimensional array
     *
     * @return array
     */
    public function toArray()
    {
        return $this->grid;
    }

    protected static $getters = [
        'rows',
        'columns',
    ];

    /**
     * Access specific properties as read-only (no setters)
     *
     * @param string $propertyName
     * @return mixed
     * @throws Exception
     */
    public function __get($propertyName)
    {
        $propertyName = strtolower($propertyName);

        // Test for function calls
        if (in_array($propertyName, self::$getters)) {
            return $this->$propertyName;
        }

        throw new Exception('Property does not exist');
    }

    protected static $functions = [
        'antidiagonal',
        'adjoint',
        'cofactors',
        'determinant',
        'diagonal',
        'identity',
        'inverse',
        'minors',
        'trace',
        'transpose',
    ];

    protected static $operations = [
        'add',
        'subtract',
        'multiply',
        'divideby',
        'divideinto',
        'directsum',
    ];

    /**
     * Returns the result of the function call or operation
     *
     * @param string $functionName
     * @param mixed[] $arguments
     * @return Matrix|float
     * @throws Exception
     */
    public function __call($functionName, $arguments)
    {
        $functionName = strtolower(str_replace('_', '',
$functionName));

        if (in_array($functionName, self::$functions) ||
in_array($functionName, self::$operations)) {
            $functionName = "\\" . __NAMESPACE__ .
"\\{$functionName}";
            if (is_callable($functionName)) {
                $arguments = array_values(array_merge([$this],
$arguments));
                return call_user_func_array($functionName, $arguments);
            }
        }
        throw new Exception('Function or Operation does not
exist');
    }
}
vendor/markbaker/matrix/classes/src/operations/add.php000064400000001674151165413710017170
0ustar00<?php

/**
 *
 * Function code for the matrix addition operation
 *
 * @copyright  Copyright (c) 2018 Mark Baker
(https://github.com/MarkBaker/PHPMatrix)
 * @license    https://opensource.org/licenses/MIT    MIT
 */

namespace Matrix;

use Matrix\Operators\Addition;

/**
 * Adds two or more matrices
 *
 * @param array<int, mixed> $matrixValues The matrices to add
 * @return Matrix
 * @throws Exception
 */
function add(...$matrixValues)
{
    if (count($matrixValues) < 2) {
        throw new Exception('Addition operation requires at least 2
arguments');
    }

    $matrix = array_shift($matrixValues);

    if (is_array($matrix)) {
        $matrix = new Matrix($matrix);
    }
    if (!$matrix instanceof Matrix) {
        throw new Exception('Addition arguments must be Matrix or
array');
    }

    $result = new Addition($matrix);

    foreach ($matrixValues as $matrix) {
        $result->execute($matrix);
    }

    return $result->result();
}
vendor/markbaker/matrix/classes/src/operations/directsum.php000064400000001710151165413710020426
0ustar00<?php

/**
 *
 * Function code for the matrix direct sum operation
 *
 * @copyright  Copyright (c) 2018 Mark Baker
(https://github.com/MarkBaker/PHPMatrix)
 * @license    https://opensource.org/licenses/MIT    MIT
 */

namespace Matrix;

use Matrix\Operators\DirectSum;

/**
 * Adds two or more matrices
 *
 * @param array<int, mixed> $matrixValues The matrices to add
 * @return Matrix
 * @throws Exception
 */
function directsum(...$matrixValues)
{
    if (count($matrixValues) < 2) {
        throw new Exception('DirectSum operation requires at least 2
arguments');
    }

    $matrix = array_shift($matrixValues);

    if (is_array($matrix)) {
        $matrix = new Matrix($matrix);
    }
    if (!$matrix instanceof Matrix) {
        throw new Exception('DirectSum arguments must be Matrix or
array');
    }

    $result = new DirectSum($matrix);

    foreach ($matrixValues as $matrix) {
        $result->execute($matrix);
    }

    return $result->result();
}
vendor/markbaker/matrix/classes/src/operations/divideby.php000064400000001723151165413710020232
0ustar00<?php

/**
 *
 * Function code for the matrix division operation
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPComplex)
 * @license    https://opensource.org/licenses/MIT    MIT
 */

namespace Matrix;

use Matrix\Operators\Division;

/**
 * Divides two or more matrix numbers
 *
 * @param array<int, mixed> $matrixValues The matrices to divide
 * @return Matrix
 * @throws Exception
 */
function divideby(...$matrixValues)
{
    if (count($matrixValues) < 2) {
        throw new Exception('Division operation requires at least 2
arguments');
    }

    $matrix = array_shift($matrixValues);

    if (is_array($matrix)) {
        $matrix = new Matrix($matrix);
    }
    if (!$matrix instanceof Matrix) {
        throw new Exception('Division arguments must be Matrix or
array');
    }

    $result = new Division($matrix);

    foreach ($matrixValues as $matrix) {
        $result->execute($matrix);
    }

    return $result->result();
}
vendor/markbaker/matrix/classes/src/operations/divideinto.php000064400000001723151165413710020571
0ustar00<?php

/**
 *
 * Function code for the matrix division operation
 *
 * @copyright  Copyright (c) 2013-2018 Mark Baker
(https://github.com/MarkBaker/PHPMatrix)
 * @license    https://opensource.org/licenses/MIT    MIT
 */

namespace Matrix;

use Matrix\Operators\Division;

/**
 * Divides two or more matrix numbers
 *
 * @param array<int, mixed> $matrixValues The numbers to divide
 * @return Matrix
 * @throws Exception
 */
function divideinto(...$matrixValues)
{
    if (count($matrixValues) < 2) {
        throw new Exception('Division operation requires at least 2
arguments');
    }

    $matrix = array_shift($matrixValues);

    if (is_array($matrix)) {
        $matrix = new Matrix($matrix);
    }
    if (!$matrix instanceof Matrix) {
        throw new Exception('Division arguments must be Matrix or
array');
    }

    $result = new Division($matrix);

    foreach ($matrixValues as $matrix) {
        $result->execute($matrix);
    }

    return $result->result();
}
vendor/markbaker/matrix/classes/src/operations/multiply.php000064400000001752151165413710020314
0ustar00<?php

/**
 *
 * Function code for the matrix multiplication operation
 *
 * @copyright  Copyright (c) 2018 Mark Baker
(https://github.com/MarkBaker/PHPMatrix)
 * @license    https://opensource.org/licenses/MIT    MIT
 */

namespace Matrix;

use Matrix\Operators\Multiplication;

/**
 * Multiplies two or more matrices
 *
 * @param array<int, mixed> $matrixValues The matrices to multiply
 * @return Matrix
 * @throws Exception
 */
function multiply(...$matrixValues)
{
    if (count($matrixValues) < 2) {
        throw new Exception('Multiplication operation requires at
least 2 arguments');
    }

    $matrix = array_shift($matrixValues);

    if (is_array($matrix)) {
        $matrix = new Matrix($matrix);
    }
    if (!$matrix instanceof Matrix) {
        throw new Exception('Multiplication arguments must be Matrix
or array');
    }

    $result = new Multiplication($matrix);

    foreach ($matrixValues as $matrix) {
        $result->execute($matrix);
    }

    return $result->result();
}
vendor/markbaker/matrix/classes/src/operations/subtract.php000064400000001732151165413710020262
0ustar00<?php

/**
 *
 * Function code for the matrix subtraction operation
 *
 * @copyright  Copyright (c) 2018 Mark Baker
(https://github.com/MarkBaker/PHPMatrix)
 * @license    https://opensource.org/licenses/MIT    MIT
 */

namespace Matrix;

use Matrix\Operators\Subtraction;

/**
 * Subtracts two or more matrices
 *
 * @param array<int, mixed> $matrixValues The matrices to subtract
 * @return Matrix
 * @throws Exception
 */
function subtract(...$matrixValues)
{
    if (count($matrixValues) < 2) {
        throw new Exception('Subtraction operation requires at least 2
arguments');
    }

    $matrix = array_shift($matrixValues);

    if (is_array($matrix)) {
        $matrix = new Matrix($matrix);
    }
    if (!$matrix instanceof Matrix) {
        throw new Exception('Subtraction arguments must be Matrix or
array');
    }

    $result = new Subtraction($matrix);

    foreach ($matrixValues as $matrix) {
        $result->execute($matrix);
    }

    return $result->result();
}
vendor/markbaker/matrix/classes/src/Operators/Addition.php000064400000003742151165413710017764
0ustar00<?php

namespace Matrix\Operators;

use Matrix\Matrix;
use Matrix\Exception;

class Addition extends Operator
{
    /**
     * Execute the addition
     *
     * @param mixed $value The matrix or numeric value to add to the
current base value
     * @throws Exception If the provided argument is not appropriate for
the operation
     * @return $this The operation object, allowing multiple additions to
be chained
     **/
    public function execute($value)
    {
        if (is_array($value)) {
            $value = new Matrix($value);
        }

        if (is_object($value) && ($value instanceof Matrix)) {
            return $this->addMatrix($value);
        } elseif (is_numeric($value)) {
            return $this->addScalar($value);
        }

        throw new Exception('Invalid argument for addition');
    }

    /**
     * Execute the addition for a scalar
     *
     * @param mixed $value The numeric value to add to the current base
value
     * @return $this The operation object, allowing multiple additions to
be chained
     **/
    protected function addScalar($value)
    {
        for ($row = 0; $row < $this->rows; ++$row) {
            for ($column = 0; $column < $this->columns; ++$column) {
                $this->matrix[$row][$column] += $value;
            }
        }

        return $this;
    }

    /**
     * Execute the addition for a matrix
     *
     * @param Matrix $value The numeric value to add to the current base
value
     * @return $this The operation object, allowing multiple additions to
be chained
     * @throws Exception If the provided argument is not appropriate for
the operation
     **/
    protected function addMatrix(Matrix $value)
    {
        $this->validateMatchingDimensions($value);

        for ($row = 0; $row < $this->rows; ++$row) {
            for ($column = 0; $column < $this->columns; ++$column) {
                $this->matrix[$row][$column] += $value->getValue($row
+ 1, $column + 1);
            }
        }

        return $this;
    }
}
vendor/markbaker/matrix/classes/src/Operators/DirectSum.php000064400000003553151165413710020130
0ustar00<?php

namespace Matrix\Operators;

use Matrix\Matrix;
use Matrix\Exception;

class DirectSum extends Operator
{
    /**
     * Execute the addition
     *
     * @param mixed $value The matrix or numeric value to add to the
current base value
     * @return $this The operation object, allowing multiple additions to
be chained
     * @throws Exception If the provided argument is not appropriate for
the operation
     */
    public function execute($value)
    {
        if (is_array($value)) {
            $value = new Matrix($value);
        }

        if ($value instanceof Matrix) {
            return $this->directSumMatrix($value);
        }

        throw new Exception('Invalid argument for addition');
    }

    /**
     * Execute the direct sum for a matrix
     *
     * @param Matrix $value The numeric value to concatenate/direct sum
with the current base value
     * @return $this The operation object, allowing multiple additions to
be chained
     **/
    private function directSumMatrix($value)
    {
        $originalColumnCount = count($this->matrix[0]);
        $originalRowCount = count($this->matrix);
        $valColumnCount = $value->columns;
        $valRowCount = $value->rows;
        $value = $value->toArray();

        for ($row = 0; $row < $this->rows; ++$row) {
            $this->matrix[$row] = array_merge($this->matrix[$row],
array_fill(0, $valColumnCount, 0));
        }

        $this->matrix = array_merge(
            $this->matrix,
            array_fill(0, $valRowCount, array_fill(0, $originalColumnCount,
0))
        );

        for ($row = $originalRowCount; $row < $originalRowCount +
$valRowCount; ++$row) {
            array_splice(
                $this->matrix[$row],
                $originalColumnCount,
                $valColumnCount,
                $value[$row - $originalRowCount]
            );
        }

        return $this;
    }
}
vendor/markbaker/matrix/classes/src/Operators/Division.php000064400000002125151165413710020007
0ustar00<?php

namespace Matrix\Operators;

use \Matrix\Matrix;
use \Matrix\Functions;
use Matrix\Exception;

class Division extends Multiplication
{
    /**
     * Execute the division
     *
     * @param mixed $value The matrix or numeric value to divide the
current base value by
     * @throws Exception If the provided argument is not appropriate for
the operation
     * @return $this The operation object, allowing multiple divisions to
be chained
     **/
    public function execute($value)
    {
        if (is_array($value)) {
            $value = new Matrix($value);
        }

        if (is_object($value) && ($value instanceof Matrix)) {
            try {
                $value = Functions::inverse($value);
            } catch (Exception $e) {
                throw new Exception('Division can only be calculated
using a matrix with a non-zero determinant');
            }

            return $this->multiplyMatrix($value);
        } elseif (is_numeric($value)) {
            return $this->multiplyScalar(1 / $value);
        }

        throw new Exception('Invalid argument for division');
    }
}
vendor/markbaker/matrix/classes/src/Operators/Multiplication.php000064400000004653151165413710021230
0ustar00<?php

namespace Matrix\Operators;

use Matrix\Matrix;
use \Matrix\Builder;
use Matrix\Exception;

class Multiplication extends Operator
{
    /**
     * Execute the multiplication
     *
     * @param mixed $value The matrix or numeric value to multiply the
current base value by
     * @throws Exception If the provided argument is not appropriate for
the operation
     * @return $this The operation object, allowing multiple
multiplications to be chained
     **/
    public function execute($value)
    {
        if (is_array($value)) {
            $value = new Matrix($value);
        }

        if (is_object($value) && ($value instanceof Matrix)) {
            return $this->multiplyMatrix($value);
        } elseif (is_numeric($value)) {
            return $this->multiplyScalar($value);
        }

        throw new Exception('Invalid argument for
multiplication');
    }

    /**
     * Execute the multiplication for a scalar
     *
     * @param mixed $value The numeric value to multiply with the current
base value
     * @return $this The operation object, allowing multiple mutiplications
to be chained
     **/
    protected function multiplyScalar($value)
    {
        for ($row = 0; $row < $this->rows; ++$row) {
            for ($column = 0; $column < $this->columns; ++$column) {
                $this->matrix[$row][$column] *= $value;
            }
        }

        return $this;
    }

    /**
     * Execute the multiplication for a matrix
     *
     * @param Matrix $value The numeric value to multiply with the current
base value
     * @return $this The operation object, allowing multiple mutiplications
to be chained
     * @throws Exception If the provided argument is not appropriate for
the operation
     **/
    protected function multiplyMatrix(Matrix $value)
    {
        $this->validateReflectingDimensions($value);

        $newRows = $this->rows;
        $newColumns = $value->columns;
        $matrix = Builder::createFilledMatrix(0, $newRows, $newColumns)
            ->toArray();
        for ($row = 0; $row < $newRows; ++$row) {
            for ($column = 0; $column < $newColumns; ++$column) {
                $columnData = $value->getColumns($column +
1)->toArray();
                foreach ($this->matrix[$row] as $key => $valueData) {
                    $matrix[$row][$column] += $valueData *
$columnData[$key][0];
                }
            }
        }
        $this->matrix = $matrix;

        return $this;
    }
}
vendor/markbaker/matrix/classes/src/Operators/Operator.php000064400000003675151165413710020031
0ustar00<?php

namespace Matrix\Operators;

use Matrix\Matrix;
use Matrix\Exception;

abstract class Operator
{
    /**
     * Stored internally as a 2-dimension array of values
     *
     * @property mixed[][] $matrix
     **/
    protected $matrix;

    /**
     * Number of rows in the matrix
     *
     * @property integer $rows
     **/
    protected $rows;

    /**
     * Number of columns in the matrix
     *
     * @property integer $columns
     **/
    protected $columns;

    /**
     * Create an new handler object for the operation
     *
     * @param Matrix $matrix The base Matrix object on which the operation
will be performed
     */
    public function __construct(Matrix $matrix)
    {
        $this->rows = $matrix->rows;
        $this->columns = $matrix->columns;
        $this->matrix = $matrix->toArray();
    }

    /**
     * Compare the dimensions of the matrices being operated on to see if
they are valid for addition/subtraction
     *
     * @param Matrix $matrix The second Matrix object on which the
operation will be performed
     * @throws Exception
     */
    protected function validateMatchingDimensions(Matrix $matrix)
    {
        if (($this->rows != $matrix->rows) || ($this->columns !=
$matrix->columns)) {
            throw new Exception('Matrices have mismatched
dimensions');
        }
    }

    /**
     * Compare the dimensions of the matrices being operated on to see if
they are valid for multiplication/division
     *
     * @param Matrix $matrix The second Matrix object on which the
operation will be performed
     * @throws Exception
     */
    protected function validateReflectingDimensions(Matrix $matrix)
    {
        if ($this->columns != $matrix->rows) {
            throw new Exception('Matrices have mismatched
dimensions');
        }
    }

    /**
     * Return the result of the operation
     *
     * @return Matrix
     */
    public function result()
    {
        return new Matrix($this->matrix);
    }
}
vendor/markbaker/matrix/classes/src/Operators/Subtraction.php000064400000004042151165413710020520
0ustar00<?php

namespace Matrix\Operators;

use Matrix\Matrix;
use Matrix\Exception;

class Subtraction extends Operator
{
    /**
     * Execute the subtraction
     *
     * @param mixed $value The matrix or numeric value to subtract from the
current base value
     * @throws Exception If the provided argument is not appropriate for
the operation
     * @return $this The operation object, allowing multiple subtractions
to be chained
     **/
    public function execute($value)
    {
        if (is_array($value)) {
            $value = new Matrix($value);
        }

        if (is_object($value) && ($value instanceof Matrix)) {
            return $this->subtractMatrix($value);
        } elseif (is_numeric($value)) {
            return $this->subtractScalar($value);
        }

        throw new Exception('Invalid argument for subtraction');
    }

    /**
     * Execute the subtraction for a scalar
     *
     * @param mixed $value The numeric value to subtracted from the current
base value
     * @return $this The operation object, allowing multiple additions to
be chained
     **/
    protected function subtractScalar($value)
    {
        for ($row = 0; $row < $this->rows; ++$row) {
            for ($column = 0; $column < $this->columns; ++$column) {
                $this->matrix[$row][$column] -= $value;
            }
        }

        return $this;
    }

    /**
     * Execute the subtraction for a matrix
     *
     * @param Matrix $value The numeric value to subtract from the current
base value
     * @return $this The operation object, allowing multiple subtractions
to be chained
     * @throws Exception If the provided argument is not appropriate for
the operation
     **/
    protected function subtractMatrix(Matrix $value)
    {
        $this->validateMatchingDimensions($value);

        for ($row = 0; $row < $this->rows; ++$row) {
            for ($column = 0; $column < $this->columns; ++$column) {
                $this->matrix[$row][$column] -= $value->getValue($row
+ 1, $column + 1);
            }
        }

        return $this;
    }
}
vendor/phpoffice/phpspreadsheet/bin/migrate-from-phpexcel000064400000000253151165413710017721
0ustar00#!/usr/bin/env php
<?php
use PhpOffice\PhpSpreadsheet\Helper\Migrator;

require_once __DIR__ . '/../src/Bootstrap.php';

$migrator = new Migrator();
$migrator->migrate();
vendor/phpoffice/phpspreadsheet/bin/pre-commit000064400000001424151165413710015577
0ustar00#!/bin/bash

pass=true

files=$(git diff --cached --name-only --diff-filter=ACMR | grep -E
'\.(php|phtml)$')
if [ "$files" != "" ]; then

    # Run php syntax check before commit
    while read -r file; do
        php -l "$file"
        if [ $? -ne 0 ]; then
            pass=false
        fi
    done <<< "$files"

    # Run php-cs-fixer validation before commit
    echo "$files" | xargs ./vendor/bin/php-cs-fixer fix --diff
--config .php_cs.dist
    if [ $? -ne 0 ]; then
        pass=false
    fi

    # Automatically add files that may have been fixed by php-cs-fixer
    echo "$files" | xargs git add
fi

if $pass; then
    exit 0
else
    echo ""
    echo "PRE-COMMIT HOOK FAILED:"
    echo "Code style validation failed. Please fix errors and try
committing again."
    exit 1
fi
vendor/phpoffice/phpspreadsheet/src/Bootstrap.php000064400000001052151165413710016302
0ustar00<?php

/**
 * Bootstrap for PhpSpreadsheet classes.
 */

// This sucks, but we have to try to find the composer autoloader

$paths = [
    __DIR__ . '/../vendor/autoload.php', // In case
PhpSpreadsheet is cloned directly
    __DIR__ . '/../../../autoload.php', // In case PhpSpreadsheet
is a composer dependency.
];

foreach ($paths as $path) {
    if (file_exists($path)) {
        require_once $path;

        return;
    }
}

throw new \Exception('Composer autoloader could not be found. Install
dependencies with `composer install` and try again.');
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/Calculation.php000064400000604464151165413710023760
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Calculation;

use PhpOffice\PhpSpreadsheet\Calculation\Engine\CyclicReferenceStack;
use PhpOffice\PhpSpreadsheet\Calculation\Engine\Logger;
use PhpOffice\PhpSpreadsheet\Calculation\Token\Stack;
use PhpOffice\PhpSpreadsheet\Cell\Cell;
use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\NamedRange;
use PhpOffice\PhpSpreadsheet\Shared;
use PhpOffice\PhpSpreadsheet\Spreadsheet;
use PhpOffice\PhpSpreadsheet\Worksheet\Worksheet;

class Calculation
{
    /** Constants                */
    /** Regular Expressions        */
    //    Numeric operand
    const CALCULATION_REGEXP_NUMBER =
'[-+]?\d*\.?\d+(e[-+]?\d+)?';
    //    String operand
    const CALCULATION_REGEXP_STRING =
'"(?:[^"]|"")*"';
    //    Opening bracket
    const CALCULATION_REGEXP_OPENBRACE = '\(';
    //    Function (allow for the old @ symbol that could be used to prefix
a function, but we'll ignore it)
    const CALCULATION_REGEXP_FUNCTION =
'@?(?:_xlfn\.)?([A-Z][A-Z0-9\.]*)[\s]*\(';
    //    Cell reference (cell or range of cells, with or without a sheet
reference)
    const CALCULATION_REGEXP_CELLREF =
'((([^\s,!&%^\/\*\+<>=-]*)|(\'[^\']*\')|(\"[^\"]*\"))!)?\$?\b([a-z]{1,3})\$?(\d{1,7})(?![\w.])';
    //    Named Range of cells
    const CALCULATION_REGEXP_NAMEDRANGE =
'((([^\s,!&%^\/\*\+<>=-]*)|(\'[^\']*\')|(\"[^\"]*\"))!)?([_A-Z][_A-Z0-9\.]*)';
    //    Error
    const CALCULATION_REGEXP_ERROR = '\#[A-Z][A-Z0_\/]*[!\?]?';

    /** constants */
    const RETURN_ARRAY_AS_ERROR = 'error';
    const RETURN_ARRAY_AS_VALUE = 'value';
    const RETURN_ARRAY_AS_ARRAY = 'array';

    private static $returnArrayAsType = self::RETURN_ARRAY_AS_VALUE;

    /**
     * Instance of this class.
     *
     * @var Calculation
     */
    private static $instance;

    /**
     * Instance of the spreadsheet this Calculation Engine is using.
     *
     * @var Spreadsheet
     */
    private $spreadsheet;

    /**
     * Calculation cache.
     *
     * @var array
     */
    private $calculationCache = [];

    /**
     * Calculation cache enabled.
     *
     * @var bool
     */
    private $calculationCacheEnabled = true;

    /**
     * Used to generate unique store keys.
     *
     * @var int
     */
    private $branchStoreKeyCounter = 0;

    private $branchPruningEnabled = true;

    /**
     * List of operators that can be used within formulae
     * The true/false value indicates whether it is a binary operator or a
unary operator.
     *
     * @var array
     */
    private static $operators = [
        '+' => true, '-' => true, '*'
=> true, '/' => true,
        '^' => true, '&' => true,
'%' => false, '~' => false,
        '>' => true, '<' => true,
'=' => true, '>=' => true,
        '<=' => true, '<>' => true,
'|' => true, ':' => true,
    ];

    /**
     * List of binary operators (those that expect two operands).
     *
     * @var array
     */
    private static $binaryOperators = [
        '+' => true, '-' => true, '*'
=> true, '/' => true,
        '^' => true, '&' => true,
'>' => true, '<' => true,
        '=' => true, '>=' => true,
'<=' => true, '<>' => true,
        '|' => true, ':' => true,
    ];

    /**
     * The debug log generated by the calculation engine.
     *
     * @var Logger
     */
    private $debugLog;

    /**
     * Flag to determine how formula errors should be handled
     *        If true, then a user error will be triggered
     *        If false, then an exception will be thrown.
     *
     * @var bool
     */
    public $suppressFormulaErrors = false;

    /**
     * Error message for any error that was raised/thrown by the
calculation engine.
     *
     * @var string
     */
    public $formulaError;

    /**
     * An array of the nested cell references accessed by the calculation
engine, used for the debug log.
     *
     * @var CyclicReferenceStack
     */
    private $cyclicReferenceStack;

    private $cellStack = [];

    /**
     * Current iteration counter for cyclic formulae
     * If the value is 0 (or less) then cyclic formulae will throw an
exception,
     * otherwise they will iterate to the limit defined here before
returning a result.
     *
     * @var int
     */
    private $cyclicFormulaCounter = 1;

    private $cyclicFormulaCell = '';

    /**
     * Number of iterations for cyclic formulae.
     *
     * @var int
     */
    public $cyclicFormulaCount = 1;

    /**
     * Epsilon Precision used for comparisons in calculations.
     *
     * @var float
     */
    private $delta = 0.1e-12;

    /**
     * The current locale setting.
     *
     * @var string
     */
    private static $localeLanguage = 'en_us'; //    US English   
(default locale)

    /**
     * List of available locale settings
     * Note that this is read for the locale subdirectory only when
requested.
     *
     * @var string[]
     */
    private static $validLocaleLanguages = [
        'en', //    English        (default language)
    ];

    /**
     * Locale-specific argument separator for function arguments.
     *
     * @var string
     */
    private static $localeArgumentSeparator = ',';

    private static $localeFunctions = [];

    /**
     * Locale-specific translations for Excel constants (True, False and
Null).
     *
     * @var string[]
     */
    public static $localeBoolean = [
        'TRUE' => 'TRUE',
        'FALSE' => 'FALSE',
        'NULL' => 'NULL',
    ];

    /**
     * Excel constant string translations to their PHP equivalents
     * Constant conversion from text name/value to actual (datatyped)
value.
     *
     * @var string[]
     */
    private static $excelConstants = [
        'TRUE' => true,
        'FALSE' => false,
        'NULL' => null,
    ];

    // PhpSpreadsheet functions
    private static $phpSpreadsheetFunctions = [
        'ABS' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => 'abs',
            'argumentCount' => '1',
        ],
        'ACCRINT' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'ACCRINT'],
            'argumentCount' => '4-7',
        ],
        'ACCRINTM' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'ACCRINTM'],
            'argumentCount' => '3-5',
        ],
        'ACOS' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => 'acos',
            'argumentCount' => '1',
        ],
        'ACOSH' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => 'acosh',
            'argumentCount' => '1',
        ],
        'ACOT' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'ACOT'],
            'argumentCount' => '1',
        ],
        'ACOTH' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'ACOTH'],
            'argumentCount' => '1',
        ],
        'ADDRESS' => [
            'category' =>
Category::CATEGORY_LOOKUP_AND_REFERENCE,
            'functionCall' => [LookupRef::class,
'cellAddress'],
            'argumentCount' => '2-5',
        ],
        'AMORDEGRC' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'AMORDEGRC'],
            'argumentCount' => '6,7',
        ],
        'AMORLINC' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'AMORLINC'],
            'argumentCount' => '6,7',
        ],
        'AND' => [
            'category' => Category::CATEGORY_LOGICAL,
            'functionCall' => [Logical::class,
'logicalAnd'],
            'argumentCount' => '1+',
        ],
        'ARABIC' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'ARABIC'],
            'argumentCount' => '1',
        ],
        'AREAS' => [
            'category' =>
Category::CATEGORY_LOOKUP_AND_REFERENCE,
            'functionCall' => [Functions::class,
'DUMMY'],
            'argumentCount' => '1',
        ],
        'ASC' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [Functions::class,
'DUMMY'],
            'argumentCount' => '1',
        ],
        'ASIN' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => 'asin',
            'argumentCount' => '1',
        ],
        'ASINH' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => 'asinh',
            'argumentCount' => '1',
        ],
        'ATAN' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => 'atan',
            'argumentCount' => '1',
        ],
        'ATAN2' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'ATAN2'],
            'argumentCount' => '2',
        ],
        'ATANH' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => 'atanh',
            'argumentCount' => '1',
        ],
        'AVEDEV' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'AVEDEV'],
            'argumentCount' => '1+',
        ],
        'AVERAGE' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'AVERAGE'],
            'argumentCount' => '1+',
        ],
        'AVERAGEA' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'AVERAGEA'],
            'argumentCount' => '1+',
        ],
        'AVERAGEIF' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'AVERAGEIF'],
            'argumentCount' => '2,3',
        ],
        'AVERAGEIFS' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Functions::class,
'DUMMY'],
            'argumentCount' => '3+',
        ],
        'BAHTTEXT' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [Functions::class,
'DUMMY'],
            'argumentCount' => '1',
        ],
        'BASE' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'BASE'],
            'argumentCount' => '2,3',
        ],
        'BESSELI' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'BESSELI'],
            'argumentCount' => '2',
        ],
        'BESSELJ' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'BESSELJ'],
            'argumentCount' => '2',
        ],
        'BESSELK' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'BESSELK'],
            'argumentCount' => '2',
        ],
        'BESSELY' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'BESSELY'],
            'argumentCount' => '2',
        ],
        'BETADIST' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'BETADIST'],
            'argumentCount' => '3-5',
        ],
        'BETAINV' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'BETAINV'],
            'argumentCount' => '3-5',
        ],
        'BIN2DEC' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'BINTODEC'],
            'argumentCount' => '1',
        ],
        'BIN2HEX' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'BINTOHEX'],
            'argumentCount' => '1,2',
        ],
        'BIN2OCT' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'BINTOOCT'],
            'argumentCount' => '1,2',
        ],
        'BINOMDIST' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'BINOMDIST'],
            'argumentCount' => '4',
        ],
        'BITAND' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'BITAND'],
            'argumentCount' => '2',
        ],
        'BITOR' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'BITOR'],
            'argumentCount' => '2',
        ],
        'BITXOR' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'BITOR'],
            'argumentCount' => '2',
        ],
        'BITLSHIFT' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'BITLSHIFT'],
            'argumentCount' => '2',
        ],
        'BITRSHIFT' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'BITRSHIFT'],
            'argumentCount' => '2',
        ],
        'CEILING' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'CEILING'],
            'argumentCount' => '2',
        ],
        'CELL' => [
            'category' => Category::CATEGORY_INFORMATION,
            'functionCall' => [Functions::class,
'DUMMY'],
            'argumentCount' => '1,2',
        ],
        'CHAR' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [TextData::class,
'CHARACTER'],
            'argumentCount' => '1',
        ],
        'CHIDIST' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'CHIDIST'],
            'argumentCount' => '2',
        ],
        'CHIINV' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'CHIINV'],
            'argumentCount' => '2',
        ],
        'CHITEST' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Functions::class,
'DUMMY'],
            'argumentCount' => '2',
        ],
        'CHOOSE' => [
            'category' =>
Category::CATEGORY_LOOKUP_AND_REFERENCE,
            'functionCall' => [LookupRef::class,
'CHOOSE'],
            'argumentCount' => '2+',
        ],
        'CLEAN' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [TextData::class,
'TRIMNONPRINTABLE'],
            'argumentCount' => '1',
        ],
        'CODE' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [TextData::class,
'ASCIICODE'],
            'argumentCount' => '1',
        ],
        'COLUMN' => [
            'category' =>
Category::CATEGORY_LOOKUP_AND_REFERENCE,
            'functionCall' => [LookupRef::class,
'COLUMN'],
            'argumentCount' => '-1',
            'passByReference' => [true],
        ],
        'COLUMNS' => [
            'category' =>
Category::CATEGORY_LOOKUP_AND_REFERENCE,
            'functionCall' => [LookupRef::class,
'COLUMNS'],
            'argumentCount' => '1',
        ],
        'COMBIN' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'COMBIN'],
            'argumentCount' => '2',
        ],
        'COMPLEX' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'COMPLEX'],
            'argumentCount' => '2,3',
        ],
        'CONCAT' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [TextData::class,
'CONCATENATE'],
            'argumentCount' => '1+',
        ],
        'CONCATENATE' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [TextData::class,
'CONCATENATE'],
            'argumentCount' => '1+',
        ],
        'CONFIDENCE' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'CONFIDENCE'],
            'argumentCount' => '3',
        ],
        'CONVERT' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'CONVERTUOM'],
            'argumentCount' => '3',
        ],
        'CORREL' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'CORREL'],
            'argumentCount' => '2',
        ],
        'COS' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => 'cos',
            'argumentCount' => '1',
        ],
        'COSH' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => 'cosh',
            'argumentCount' => '1',
        ],
        'COT' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'COT'],
            'argumentCount' => '1',
        ],
        'COTH' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'COTH'],
            'argumentCount' => '1',
        ],
        'COUNT' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'COUNT'],
            'argumentCount' => '1+',
        ],
        'COUNTA' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'COUNTA'],
            'argumentCount' => '1+',
        ],
        'COUNTBLANK' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'COUNTBLANK'],
            'argumentCount' => '1',
        ],
        'COUNTIF' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'COUNTIF'],
            'argumentCount' => '2',
        ],
        'COUNTIFS' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'COUNTIFS'],
            'argumentCount' => '2+',
        ],
        'COUPDAYBS' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'COUPDAYBS'],
            'argumentCount' => '3,4',
        ],
        'COUPDAYS' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'COUPDAYS'],
            'argumentCount' => '3,4',
        ],
        'COUPDAYSNC' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'COUPDAYSNC'],
            'argumentCount' => '3,4',
        ],
        'COUPNCD' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'COUPNCD'],
            'argumentCount' => '3,4',
        ],
        'COUPNUM' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'COUPNUM'],
            'argumentCount' => '3,4',
        ],
        'COUPPCD' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'COUPPCD'],
            'argumentCount' => '3,4',
        ],
        'COVAR' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'COVAR'],
            'argumentCount' => '2',
        ],
        'CRITBINOM' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'CRITBINOM'],
            'argumentCount' => '3',
        ],
        'CSC' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'CSC'],
            'argumentCount' => '1',
        ],
        'CSCH' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'CSCH'],
            'argumentCount' => '1',
        ],
        'CUBEKPIMEMBER' => [
            'category' => Category::CATEGORY_CUBE,
            'functionCall' => [Functions::class,
'DUMMY'],
            'argumentCount' => '?',
        ],
        'CUBEMEMBER' => [
            'category' => Category::CATEGORY_CUBE,
            'functionCall' => [Functions::class,
'DUMMY'],
            'argumentCount' => '?',
        ],
        'CUBEMEMBERPROPERTY' => [
            'category' => Category::CATEGORY_CUBE,
            'functionCall' => [Functions::class,
'DUMMY'],
            'argumentCount' => '?',
        ],
        'CUBERANKEDMEMBER' => [
            'category' => Category::CATEGORY_CUBE,
            'functionCall' => [Functions::class,
'DUMMY'],
            'argumentCount' => '?',
        ],
        'CUBESET' => [
            'category' => Category::CATEGORY_CUBE,
            'functionCall' => [Functions::class,
'DUMMY'],
            'argumentCount' => '?',
        ],
        'CUBESETCOUNT' => [
            'category' => Category::CATEGORY_CUBE,
            'functionCall' => [Functions::class,
'DUMMY'],
            'argumentCount' => '?',
        ],
        'CUBEVALUE' => [
            'category' => Category::CATEGORY_CUBE,
            'functionCall' => [Functions::class,
'DUMMY'],
            'argumentCount' => '?',
        ],
        'CUMIPMT' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'CUMIPMT'],
            'argumentCount' => '6',
        ],
        'CUMPRINC' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'CUMPRINC'],
            'argumentCount' => '6',
        ],
        'DATE' => [
            'category' => Category::CATEGORY_DATE_AND_TIME,
            'functionCall' => [DateTime::class,
'DATE'],
            'argumentCount' => '3',
        ],
        'DATEDIF' => [
            'category' => Category::CATEGORY_DATE_AND_TIME,
            'functionCall' => [DateTime::class,
'DATEDIF'],
            'argumentCount' => '2,3',
        ],
        'DATEVALUE' => [
            'category' => Category::CATEGORY_DATE_AND_TIME,
            'functionCall' => [DateTime::class,
'DATEVALUE'],
            'argumentCount' => '1',
        ],
        'DAVERAGE' => [
            'category' => Category::CATEGORY_DATABASE,
            'functionCall' => [Database::class,
'DAVERAGE'],
            'argumentCount' => '3',
        ],
        'DAY' => [
            'category' => Category::CATEGORY_DATE_AND_TIME,
            'functionCall' => [DateTime::class,
'DAYOFMONTH'],
            'argumentCount' => '1',
        ],
        'DAYS' => [
            'category' => Category::CATEGORY_DATE_AND_TIME,
            'functionCall' => [DateTime::class,
'DAYS'],
            'argumentCount' => '2',
        ],
        'DAYS360' => [
            'category' => Category::CATEGORY_DATE_AND_TIME,
            'functionCall' => [DateTime::class,
'DAYS360'],
            'argumentCount' => '2,3',
        ],
        'DB' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'DB'],
            'argumentCount' => '4,5',
        ],
        'DCOUNT' => [
            'category' => Category::CATEGORY_DATABASE,
            'functionCall' => [Database::class,
'DCOUNT'],
            'argumentCount' => '3',
        ],
        'DCOUNTA' => [
            'category' => Category::CATEGORY_DATABASE,
            'functionCall' => [Database::class,
'DCOUNTA'],
            'argumentCount' => '3',
        ],
        'DDB' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'DDB'],
            'argumentCount' => '4,5',
        ],
        'DEC2BIN' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'DECTOBIN'],
            'argumentCount' => '1,2',
        ],
        'DEC2HEX' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'DECTOHEX'],
            'argumentCount' => '1,2',
        ],
        'DEC2OCT' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'DECTOOCT'],
            'argumentCount' => '1,2',
        ],
        'DEGREES' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => 'rad2deg',
            'argumentCount' => '1',
        ],
        'DELTA' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'DELTA'],
            'argumentCount' => '1,2',
        ],
        'DEVSQ' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'DEVSQ'],
            'argumentCount' => '1+',
        ],
        'DGET' => [
            'category' => Category::CATEGORY_DATABASE,
            'functionCall' => [Database::class,
'DGET'],
            'argumentCount' => '3',
        ],
        'DISC' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'DISC'],
            'argumentCount' => '4,5',
        ],
        'DMAX' => [
            'category' => Category::CATEGORY_DATABASE,
            'functionCall' => [Database::class,
'DMAX'],
            'argumentCount' => '3',
        ],
        'DMIN' => [
            'category' => Category::CATEGORY_DATABASE,
            'functionCall' => [Database::class,
'DMIN'],
            'argumentCount' => '3',
        ],
        'DOLLAR' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [TextData::class,
'DOLLAR'],
            'argumentCount' => '1,2',
        ],
        'DOLLARDE' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'DOLLARDE'],
            'argumentCount' => '2',
        ],
        'DOLLARFR' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'DOLLARFR'],
            'argumentCount' => '2',
        ],
        'DPRODUCT' => [
            'category' => Category::CATEGORY_DATABASE,
            'functionCall' => [Database::class,
'DPRODUCT'],
            'argumentCount' => '3',
        ],
        'DSTDEV' => [
            'category' => Category::CATEGORY_DATABASE,
            'functionCall' => [Database::class,
'DSTDEV'],
            'argumentCount' => '3',
        ],
        'DSTDEVP' => [
            'category' => Category::CATEGORY_DATABASE,
            'functionCall' => [Database::class,
'DSTDEVP'],
            'argumentCount' => '3',
        ],
        'DSUM' => [
            'category' => Category::CATEGORY_DATABASE,
            'functionCall' => [Database::class,
'DSUM'],
            'argumentCount' => '3',
        ],
        'DURATION' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Functions::class,
'DUMMY'],
            'argumentCount' => '5,6',
        ],
        'DVAR' => [
            'category' => Category::CATEGORY_DATABASE,
            'functionCall' => [Database::class,
'DVAR'],
            'argumentCount' => '3',
        ],
        'DVARP' => [
            'category' => Category::CATEGORY_DATABASE,
            'functionCall' => [Database::class,
'DVARP'],
            'argumentCount' => '3',
        ],
        'EDATE' => [
            'category' => Category::CATEGORY_DATE_AND_TIME,
            'functionCall' => [DateTime::class,
'EDATE'],
            'argumentCount' => '2',
        ],
        'EFFECT' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'EFFECT'],
            'argumentCount' => '2',
        ],
        'EOMONTH' => [
            'category' => Category::CATEGORY_DATE_AND_TIME,
            'functionCall' => [DateTime::class,
'EOMONTH'],
            'argumentCount' => '2',
        ],
        'ERF' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'ERF'],
            'argumentCount' => '1,2',
        ],
        'ERF.PRECISE' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'ERFPRECISE'],
            'argumentCount' => '1',
        ],
        'ERFC' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'ERFC'],
            'argumentCount' => '1',
        ],
        'ERFC.PRECISE' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'ERFC'],
            'argumentCount' => '1',
        ],
        'ERROR.TYPE' => [
            'category' => Category::CATEGORY_INFORMATION,
            'functionCall' => [Functions::class,
'errorType'],
            'argumentCount' => '1',
        ],
        'EVEN' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'EVEN'],
            'argumentCount' => '1',
        ],
        'EXACT' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [TextData::class,
'EXACT'],
            'argumentCount' => '2',
        ],
        'EXP' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => 'exp',
            'argumentCount' => '1',
        ],
        'EXPONDIST' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'EXPONDIST'],
            'argumentCount' => '3',
        ],
        'FACT' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'FACT'],
            'argumentCount' => '1',
        ],
        'FACTDOUBLE' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'FACTDOUBLE'],
            'argumentCount' => '1',
        ],
        'FALSE' => [
            'category' => Category::CATEGORY_LOGICAL,
            'functionCall' => [Logical::class,
'FALSE'],
            'argumentCount' => '0',
        ],
        'FDIST' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Functions::class,
'DUMMY'],
            'argumentCount' => '3',
        ],
        'FIND' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [TextData::class,
'SEARCHSENSITIVE'],
            'argumentCount' => '2,3',
        ],
        'FINDB' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [TextData::class,
'SEARCHSENSITIVE'],
            'argumentCount' => '2,3',
        ],
        'FINV' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Functions::class,
'DUMMY'],
            'argumentCount' => '3',
        ],
        'FISHER' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'FISHER'],
            'argumentCount' => '1',
        ],
        'FISHERINV' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'FISHERINV'],
            'argumentCount' => '1',
        ],
        'FIXED' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [TextData::class,
'FIXEDFORMAT'],
            'argumentCount' => '1-3',
        ],
        'FLOOR' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'FLOOR'],
            'argumentCount' => '2',
        ],
        'FORECAST' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'FORECAST'],
            'argumentCount' => '3',
        ],
        'FORMULATEXT' => [
            'category' =>
Category::CATEGORY_LOOKUP_AND_REFERENCE,
            'functionCall' => [LookupRef::class,
'FORMULATEXT'],
            'argumentCount' => '1',
            'passCellReference' => true,
            'passByReference' => [true],
        ],
        'FREQUENCY' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Functions::class,
'DUMMY'],
            'argumentCount' => '2',
        ],
        'FTEST' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Functions::class,
'DUMMY'],
            'argumentCount' => '2',
        ],
        'FV' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'FV'],
            'argumentCount' => '3-5',
        ],
        'FVSCHEDULE' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'FVSCHEDULE'],
            'argumentCount' => '2',
        ],
        'GAMMADIST' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'GAMMADIST'],
            'argumentCount' => '4',
        ],
        'GAMMAINV' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'GAMMAINV'],
            'argumentCount' => '3',
        ],
        'GAMMALN' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'GAMMALN'],
            'argumentCount' => '1',
        ],
        'GCD' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'GCD'],
            'argumentCount' => '1+',
        ],
        'GEOMEAN' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'GEOMEAN'],
            'argumentCount' => '1+',
        ],
        'GESTEP' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'GESTEP'],
            'argumentCount' => '1,2',
        ],
        'GETPIVOTDATA' => [
            'category' =>
Category::CATEGORY_LOOKUP_AND_REFERENCE,
            'functionCall' => [Functions::class,
'DUMMY'],
            'argumentCount' => '2+',
        ],
        'GROWTH' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'GROWTH'],
            'argumentCount' => '1-4',
        ],
        'HARMEAN' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'HARMEAN'],
            'argumentCount' => '1+',
        ],
        'HEX2BIN' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'HEXTOBIN'],
            'argumentCount' => '1,2',
        ],
        'HEX2DEC' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'HEXTODEC'],
            'argumentCount' => '1',
        ],
        'HEX2OCT' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'HEXTOOCT'],
            'argumentCount' => '1,2',
        ],
        'HLOOKUP' => [
            'category' =>
Category::CATEGORY_LOOKUP_AND_REFERENCE,
            'functionCall' => [LookupRef::class,
'HLOOKUP'],
            'argumentCount' => '3,4',
        ],
        'HOUR' => [
            'category' => Category::CATEGORY_DATE_AND_TIME,
            'functionCall' => [DateTime::class,
'HOUROFDAY'],
            'argumentCount' => '1',
        ],
        'HYPERLINK' => [
            'category' =>
Category::CATEGORY_LOOKUP_AND_REFERENCE,
            'functionCall' => [LookupRef::class,
'HYPERLINK'],
            'argumentCount' => '1,2',
            'passCellReference' => true,
        ],
        'HYPGEOMDIST' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'HYPGEOMDIST'],
            'argumentCount' => '4',
        ],
        'IF' => [
            'category' => Category::CATEGORY_LOGICAL,
            'functionCall' => [Logical::class,
'statementIf'],
            'argumentCount' => '1-3',
        ],
        'IFERROR' => [
            'category' => Category::CATEGORY_LOGICAL,
            'functionCall' => [Logical::class,
'IFERROR'],
            'argumentCount' => '2',
        ],
        'IFNA' => [
            'category' => Category::CATEGORY_LOGICAL,
            'functionCall' => [Logical::class,
'IFNA'],
            'argumentCount' => '2',
        ],
        'IMABS' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'IMABS'],
            'argumentCount' => '1',
        ],
        'IMAGINARY' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'IMAGINARY'],
            'argumentCount' => '1',
        ],
        'IMARGUMENT' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'IMARGUMENT'],
            'argumentCount' => '1',
        ],
        'IMCONJUGATE' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'IMCONJUGATE'],
            'argumentCount' => '1',
        ],
        'IMCOS' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'IMCOS'],
            'argumentCount' => '1',
        ],
        'IMCOSH' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'IMCOSH'],
            'argumentCount' => '1',
        ],
        'IMCOT' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'IMCOT'],
            'argumentCount' => '1',
        ],
        'IMCSC' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'IMCSC'],
            'argumentCount' => '1',
        ],
        'IMCSCH' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'IMCSCH'],
            'argumentCount' => '1',
        ],
        'IMDIV' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'IMDIV'],
            'argumentCount' => '2',
        ],
        'IMEXP' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'IMEXP'],
            'argumentCount' => '1',
        ],
        'IMLN' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'IMLN'],
            'argumentCount' => '1',
        ],
        'IMLOG10' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'IMLOG10'],
            'argumentCount' => '1',
        ],
        'IMLOG2' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'IMLOG2'],
            'argumentCount' => '1',
        ],
        'IMPOWER' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'IMPOWER'],
            'argumentCount' => '2',
        ],
        'IMPRODUCT' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'IMPRODUCT'],
            'argumentCount' => '1+',
        ],
        'IMREAL' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'IMREAL'],
            'argumentCount' => '1',
        ],
        'IMSEC' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'IMSEC'],
            'argumentCount' => '1',
        ],
        'IMSECH' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'IMSECH'],
            'argumentCount' => '1',
        ],
        'IMSIN' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'IMSIN'],
            'argumentCount' => '1',
        ],
        'IMSINH' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'IMSINH'],
            'argumentCount' => '1',
        ],
        'IMSQRT' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'IMSQRT'],
            'argumentCount' => '1',
        ],
        'IMSUB' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'IMSUB'],
            'argumentCount' => '2',
        ],
        'IMSUM' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'IMSUM'],
            'argumentCount' => '1+',
        ],
        'IMTAN' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'IMTAN'],
            'argumentCount' => '1',
        ],
        'INDEX' => [
            'category' =>
Category::CATEGORY_LOOKUP_AND_REFERENCE,
            'functionCall' => [LookupRef::class,
'INDEX'],
            'argumentCount' => '1-4',
        ],
        'INDIRECT' => [
            'category' =>
Category::CATEGORY_LOOKUP_AND_REFERENCE,
            'functionCall' => [LookupRef::class,
'INDIRECT'],
            'argumentCount' => '1,2',
            'passCellReference' => true,
        ],
        'INFO' => [
            'category' => Category::CATEGORY_INFORMATION,
            'functionCall' => [Functions::class,
'DUMMY'],
            'argumentCount' => '1',
        ],
        'INT' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'INT'],
            'argumentCount' => '1',
        ],
        'INTERCEPT' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'INTERCEPT'],
            'argumentCount' => '2',
        ],
        'INTRATE' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'INTRATE'],
            'argumentCount' => '4,5',
        ],
        'IPMT' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'IPMT'],
            'argumentCount' => '4-6',
        ],
        'IRR' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'IRR'],
            'argumentCount' => '1,2',
        ],
        'ISBLANK' => [
            'category' => Category::CATEGORY_INFORMATION,
            'functionCall' => [Functions::class,
'isBlank'],
            'argumentCount' => '1',
        ],
        'ISERR' => [
            'category' => Category::CATEGORY_INFORMATION,
            'functionCall' => [Functions::class,
'isErr'],
            'argumentCount' => '1',
        ],
        'ISERROR' => [
            'category' => Category::CATEGORY_INFORMATION,
            'functionCall' => [Functions::class,
'isError'],
            'argumentCount' => '1',
        ],
        'ISEVEN' => [
            'category' => Category::CATEGORY_INFORMATION,
            'functionCall' => [Functions::class,
'isEven'],
            'argumentCount' => '1',
        ],
        'ISFORMULA' => [
            'category' => Category::CATEGORY_INFORMATION,
            'functionCall' => [Functions::class,
'isFormula'],
            'argumentCount' => '1',
            'passCellReference' => true,
            'passByReference' => [true],
        ],
        'ISLOGICAL' => [
            'category' => Category::CATEGORY_INFORMATION,
            'functionCall' => [Functions::class,
'isLogical'],
            'argumentCount' => '1',
        ],
        'ISNA' => [
            'category' => Category::CATEGORY_INFORMATION,
            'functionCall' => [Functions::class,
'isNa'],
            'argumentCount' => '1',
        ],
        'ISNONTEXT' => [
            'category' => Category::CATEGORY_INFORMATION,
            'functionCall' => [Functions::class,
'isNonText'],
            'argumentCount' => '1',
        ],
        'ISNUMBER' => [
            'category' => Category::CATEGORY_INFORMATION,
            'functionCall' => [Functions::class,
'isNumber'],
            'argumentCount' => '1',
        ],
        'ISODD' => [
            'category' => Category::CATEGORY_INFORMATION,
            'functionCall' => [Functions::class,
'isOdd'],
            'argumentCount' => '1',
        ],
        'ISOWEEKNUM' => [
            'category' => Category::CATEGORY_DATE_AND_TIME,
            'functionCall' => [DateTime::class,
'ISOWEEKNUM'],
            'argumentCount' => '1',
        ],
        'ISPMT' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'ISPMT'],
            'argumentCount' => '4',
        ],
        'ISREF' => [
            'category' => Category::CATEGORY_INFORMATION,
            'functionCall' => [Functions::class,
'DUMMY'],
            'argumentCount' => '1',
        ],
        'ISTEXT' => [
            'category' => Category::CATEGORY_INFORMATION,
            'functionCall' => [Functions::class,
'isText'],
            'argumentCount' => '1',
        ],
        'JIS' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [Functions::class,
'DUMMY'],
            'argumentCount' => '1',
        ],
        'KURT' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'KURT'],
            'argumentCount' => '1+',
        ],
        'LARGE' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'LARGE'],
            'argumentCount' => '2',
        ],
        'LCM' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'LCM'],
            'argumentCount' => '1+',
        ],
        'LEFT' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [TextData::class,
'LEFT'],
            'argumentCount' => '1,2',
        ],
        'LEFTB' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [TextData::class,
'LEFT'],
            'argumentCount' => '1,2',
        ],
        'LEN' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [TextData::class,
'STRINGLENGTH'],
            'argumentCount' => '1',
        ],
        'LENB' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [TextData::class,
'STRINGLENGTH'],
            'argumentCount' => '1',
        ],
        'LINEST' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'LINEST'],
            'argumentCount' => '1-4',
        ],
        'LN' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => 'log',
            'argumentCount' => '1',
        ],
        'LOG' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'logBase'],
            'argumentCount' => '1,2',
        ],
        'LOG10' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => 'log10',
            'argumentCount' => '1',
        ],
        'LOGEST' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'LOGEST'],
            'argumentCount' => '1-4',
        ],
        'LOGINV' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'LOGINV'],
            'argumentCount' => '3',
        ],
        'LOGNORMDIST' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'LOGNORMDIST'],
            'argumentCount' => '3',
        ],
        'LOOKUP' => [
            'category' =>
Category::CATEGORY_LOOKUP_AND_REFERENCE,
            'functionCall' => [LookupRef::class,
'LOOKUP'],
            'argumentCount' => '2,3',
        ],
        'LOWER' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [TextData::class,
'LOWERCASE'],
            'argumentCount' => '1',
        ],
        'MATCH' => [
            'category' =>
Category::CATEGORY_LOOKUP_AND_REFERENCE,
            'functionCall' => [LookupRef::class,
'MATCH'],
            'argumentCount' => '2,3',
        ],
        'MAX' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'MAX'],
            'argumentCount' => '1+',
        ],
        'MAXA' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'MAXA'],
            'argumentCount' => '1+',
        ],
        'MAXIFS' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'MAXIFS'],
            'argumentCount' => '3+',
        ],
        'MDETERM' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'MDETERM'],
            'argumentCount' => '1',
        ],
        'MDURATION' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Functions::class,
'DUMMY'],
            'argumentCount' => '5,6',
        ],
        'MEDIAN' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'MEDIAN'],
            'argumentCount' => '1+',
        ],
        'MEDIANIF' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Functions::class,
'DUMMY'],
            'argumentCount' => '2+',
        ],
        'MID' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [TextData::class,
'MID'],
            'argumentCount' => '3',
        ],
        'MIDB' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [TextData::class,
'MID'],
            'argumentCount' => '3',
        ],
        'MIN' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'MIN'],
            'argumentCount' => '1+',
        ],
        'MINA' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'MINA'],
            'argumentCount' => '1+',
        ],
        'MINIFS' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'MINIFS'],
            'argumentCount' => '3+',
        ],
        'MINUTE' => [
            'category' => Category::CATEGORY_DATE_AND_TIME,
            'functionCall' => [DateTime::class,
'MINUTE'],
            'argumentCount' => '1',
        ],
        'MINVERSE' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'MINVERSE'],
            'argumentCount' => '1',
        ],
        'MIRR' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'MIRR'],
            'argumentCount' => '3',
        ],
        'MMULT' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'MMULT'],
            'argumentCount' => '2',
        ],
        'MOD' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'MOD'],
            'argumentCount' => '2',
        ],
        'MODE' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'MODE'],
            'argumentCount' => '1+',
        ],
        'MODE.SNGL' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'MODE'],
            'argumentCount' => '1+',
        ],
        'MONTH' => [
            'category' => Category::CATEGORY_DATE_AND_TIME,
            'functionCall' => [DateTime::class,
'MONTHOFYEAR'],
            'argumentCount' => '1',
        ],
        'MROUND' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'MROUND'],
            'argumentCount' => '2',
        ],
        'MULTINOMIAL' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'MULTINOMIAL'],
            'argumentCount' => '1+',
        ],
        'N' => [
            'category' => Category::CATEGORY_INFORMATION,
            'functionCall' => [Functions::class,
'n'],
            'argumentCount' => '1',
        ],
        'NA' => [
            'category' => Category::CATEGORY_INFORMATION,
            'functionCall' => [Functions::class,
'NA'],
            'argumentCount' => '0',
        ],
        'NEGBINOMDIST' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'NEGBINOMDIST'],
            'argumentCount' => '3',
        ],
        'NETWORKDAYS' => [
            'category' => Category::CATEGORY_DATE_AND_TIME,
            'functionCall' => [DateTime::class,
'NETWORKDAYS'],
            'argumentCount' => '2+',
        ],
        'NOMINAL' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'NOMINAL'],
            'argumentCount' => '2',
        ],
        'NORMDIST' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'NORMDIST'],
            'argumentCount' => '4',
        ],
        'NORMINV' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'NORMINV'],
            'argumentCount' => '3',
        ],
        'NORMSDIST' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'NORMSDIST'],
            'argumentCount' => '1',
        ],
        'NORMSINV' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'NORMSINV'],
            'argumentCount' => '1',
        ],
        'NOT' => [
            'category' => Category::CATEGORY_LOGICAL,
            'functionCall' => [Logical::class,
'NOT'],
            'argumentCount' => '1',
        ],
        'NOW' => [
            'category' => Category::CATEGORY_DATE_AND_TIME,
            'functionCall' => [DateTime::class,
'DATETIMENOW'],
            'argumentCount' => '0',
        ],
        'NPER' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'NPER'],
            'argumentCount' => '3-5',
        ],
        'NPV' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'NPV'],
            'argumentCount' => '2+',
        ],
        'NUMBERVALUE' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [TextData::class,
'NUMBERVALUE'],
            'argumentCount' => '1+',
        ],
        'OCT2BIN' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'OCTTOBIN'],
            'argumentCount' => '1,2',
        ],
        'OCT2DEC' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'OCTTODEC'],
            'argumentCount' => '1',
        ],
        'OCT2HEX' => [
            'category' => Category::CATEGORY_ENGINEERING,
            'functionCall' => [Engineering::class,
'OCTTOHEX'],
            'argumentCount' => '1,2',
        ],
        'ODD' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'ODD'],
            'argumentCount' => '1',
        ],
        'ODDFPRICE' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Functions::class,
'DUMMY'],
            'argumentCount' => '8,9',
        ],
        'ODDFYIELD' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Functions::class,
'DUMMY'],
            'argumentCount' => '8,9',
        ],
        'ODDLPRICE' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Functions::class,
'DUMMY'],
            'argumentCount' => '7,8',
        ],
        'ODDLYIELD' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Functions::class,
'DUMMY'],
            'argumentCount' => '7,8',
        ],
        'OFFSET' => [
            'category' =>
Category::CATEGORY_LOOKUP_AND_REFERENCE,
            'functionCall' => [LookupRef::class,
'OFFSET'],
            'argumentCount' => '3-5',
            'passCellReference' => true,
            'passByReference' => [true],
        ],
        'OR' => [
            'category' => Category::CATEGORY_LOGICAL,
            'functionCall' => [Logical::class,
'logicalOr'],
            'argumentCount' => '1+',
        ],
        'PDURATION' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'PDURATION'],
            'argumentCount' => '3',
        ],
        'PEARSON' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'CORREL'],
            'argumentCount' => '2',
        ],
        'PERCENTILE' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'PERCENTILE'],
            'argumentCount' => '2',
        ],
        'PERCENTRANK' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'PERCENTRANK'],
            'argumentCount' => '2,3',
        ],
        'PERMUT' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'PERMUT'],
            'argumentCount' => '2',
        ],
        'PHONETIC' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [Functions::class,
'DUMMY'],
            'argumentCount' => '1',
        ],
        'PI' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => 'pi',
            'argumentCount' => '0',
        ],
        'PMT' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'PMT'],
            'argumentCount' => '3-5',
        ],
        'POISSON' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'POISSON'],
            'argumentCount' => '3',
        ],
        'POWER' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'POWER'],
            'argumentCount' => '2',
        ],
        'PPMT' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'PPMT'],
            'argumentCount' => '4-6',
        ],
        'PRICE' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'PRICE'],
            'argumentCount' => '6,7',
        ],
        'PRICEDISC' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'PRICEDISC'],
            'argumentCount' => '4,5',
        ],
        'PRICEMAT' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'PRICEMAT'],
            'argumentCount' => '5,6',
        ],
        'PROB' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Functions::class,
'DUMMY'],
            'argumentCount' => '3,4',
        ],
        'PRODUCT' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'PRODUCT'],
            'argumentCount' => '1+',
        ],
        'PROPER' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [TextData::class,
'PROPERCASE'],
            'argumentCount' => '1',
        ],
        'PV' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'PV'],
            'argumentCount' => '3-5',
        ],
        'QUARTILE' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'QUARTILE'],
            'argumentCount' => '2',
        ],
        'QUOTIENT' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'QUOTIENT'],
            'argumentCount' => '2',
        ],
        'RADIANS' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => 'deg2rad',
            'argumentCount' => '1',
        ],
        'RAND' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'RAND'],
            'argumentCount' => '0',
        ],
        'RANDBETWEEN' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'RAND'],
            'argumentCount' => '2',
        ],
        'RANK' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'RANK'],
            'argumentCount' => '2,3',
        ],
        'RATE' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'RATE'],
            'argumentCount' => '3-6',
        ],
        'RECEIVED' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'RECEIVED'],
            'argumentCount' => '4-5',
        ],
        'REPLACE' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [TextData::class,
'REPLACE'],
            'argumentCount' => '4',
        ],
        'REPLACEB' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [TextData::class,
'REPLACE'],
            'argumentCount' => '4',
        ],
        'REPT' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => 'str_repeat',
            'argumentCount' => '2',
        ],
        'RIGHT' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [TextData::class,
'RIGHT'],
            'argumentCount' => '1,2',
        ],
        'RIGHTB' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [TextData::class,
'RIGHT'],
            'argumentCount' => '1,2',
        ],
        'ROMAN' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'ROMAN'],
            'argumentCount' => '1,2',
        ],
        'ROUND' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => 'round',
            'argumentCount' => '2',
        ],
        'ROUNDDOWN' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'ROUNDDOWN'],
            'argumentCount' => '2',
        ],
        'ROUNDUP' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'ROUNDUP'],
            'argumentCount' => '2',
        ],
        'ROW' => [
            'category' =>
Category::CATEGORY_LOOKUP_AND_REFERENCE,
            'functionCall' => [LookupRef::class,
'ROW'],
            'argumentCount' => '-1',
            'passByReference' => [true],
        ],
        'ROWS' => [
            'category' =>
Category::CATEGORY_LOOKUP_AND_REFERENCE,
            'functionCall' => [LookupRef::class,
'ROWS'],
            'argumentCount' => '1',
        ],
        'RRI' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'RRI'],
            'argumentCount' => '3',
        ],
        'RSQ' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'RSQ'],
            'argumentCount' => '2',
        ],
        'RTD' => [
            'category' =>
Category::CATEGORY_LOOKUP_AND_REFERENCE,
            'functionCall' => [Functions::class,
'DUMMY'],
            'argumentCount' => '1+',
        ],
        'SEARCH' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [TextData::class,
'SEARCHINSENSITIVE'],
            'argumentCount' => '2,3',
        ],
        'SEARCHB' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [TextData::class,
'SEARCHINSENSITIVE'],
            'argumentCount' => '2,3',
        ],
        'SEC' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'SEC'],
            'argumentCount' => '1',
        ],
        'SECH' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'SECH'],
            'argumentCount' => '1',
        ],
        'SECOND' => [
            'category' => Category::CATEGORY_DATE_AND_TIME,
            'functionCall' => [DateTime::class,
'SECOND'],
            'argumentCount' => '1',
        ],
        'SERIESSUM' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'SERIESSUM'],
            'argumentCount' => '4',
        ],
        'SIGN' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'SIGN'],
            'argumentCount' => '1',
        ],
        'SIN' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => 'sin',
            'argumentCount' => '1',
        ],
        'SINH' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => 'sinh',
            'argumentCount' => '1',
        ],
        'SKEW' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'SKEW'],
            'argumentCount' => '1+',
        ],
        'SLN' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'SLN'],
            'argumentCount' => '3',
        ],
        'SLOPE' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'SLOPE'],
            'argumentCount' => '2',
        ],
        'SMALL' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'SMALL'],
            'argumentCount' => '2',
        ],
        'SQRT' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => 'sqrt',
            'argumentCount' => '1',
        ],
        'SQRTPI' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'SQRTPI'],
            'argumentCount' => '1',
        ],
        'STANDARDIZE' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'STANDARDIZE'],
            'argumentCount' => '3',
        ],
        'STDEV' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'STDEV'],
            'argumentCount' => '1+',
        ],
        'STDEV.S' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'STDEV'],
            'argumentCount' => '1+',
        ],
        'STDEV.P' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'STDEVP'],
            'argumentCount' => '1+',
        ],
        'STDEVA' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'STDEVA'],
            'argumentCount' => '1+',
        ],
        'STDEVP' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'STDEVP'],
            'argumentCount' => '1+',
        ],
        'STDEVPA' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'STDEVPA'],
            'argumentCount' => '1+',
        ],
        'STEYX' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'STEYX'],
            'argumentCount' => '2',
        ],
        'SUBSTITUTE' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [TextData::class,
'SUBSTITUTE'],
            'argumentCount' => '3,4',
        ],
        'SUBTOTAL' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'SUBTOTAL'],
            'argumentCount' => '2+',
            'passCellReference' => true,
        ],
        'SUM' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'SUM'],
            'argumentCount' => '1+',
        ],
        'SUMIF' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'SUMIF'],
            'argumentCount' => '2,3',
        ],
        'SUMIFS' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'SUMIFS'],
            'argumentCount' => '3+',
        ],
        'SUMPRODUCT' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'SUMPRODUCT'],
            'argumentCount' => '1+',
        ],
        'SUMSQ' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'SUMSQ'],
            'argumentCount' => '1+',
        ],
        'SUMX2MY2' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
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            'argumentCount' => '2',
        ],
        'SUMX2PY2' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'SUMX2PY2'],
            'argumentCount' => '2',
        ],
        'SUMXMY2' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'SUMXMY2'],
            'argumentCount' => '2',
        ],
        'SWITCH' => [
            'category' => Category::CATEGORY_LOGICAL,
            'functionCall' => [Logical::class,
'statementSwitch'],
            'argumentCount' => '3+',
        ],
        'SYD' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'SYD'],
            'argumentCount' => '4',
        ],
        'T' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [TextData::class,
'RETURNSTRING'],
            'argumentCount' => '1',
        ],
        'TAN' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => 'tan',
            'argumentCount' => '1',
        ],
        'TANH' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => 'tanh',
            'argumentCount' => '1',
        ],
        'TBILLEQ' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'TBILLEQ'],
            'argumentCount' => '3',
        ],
        'TBILLPRICE' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'TBILLPRICE'],
            'argumentCount' => '3',
        ],
        'TBILLYIELD' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'TBILLYIELD'],
            'argumentCount' => '3',
        ],
        'TDIST' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'TDIST'],
            'argumentCount' => '3',
        ],
        'TEXT' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [TextData::class,
'TEXTFORMAT'],
            'argumentCount' => '2',
        ],
        'TEXTJOIN' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [TextData::class,
'TEXTJOIN'],
            'argumentCount' => '3+',
        ],
        'TIME' => [
            'category' => Category::CATEGORY_DATE_AND_TIME,
            'functionCall' => [DateTime::class,
'TIME'],
            'argumentCount' => '3',
        ],
        'TIMEVALUE' => [
            'category' => Category::CATEGORY_DATE_AND_TIME,
            'functionCall' => [DateTime::class,
'TIMEVALUE'],
            'argumentCount' => '1',
        ],
        'TINV' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'TINV'],
            'argumentCount' => '2',
        ],
        'TODAY' => [
            'category' => Category::CATEGORY_DATE_AND_TIME,
            'functionCall' => [DateTime::class,
'DATENOW'],
            'argumentCount' => '0',
        ],
        'TRANSPOSE' => [
            'category' =>
Category::CATEGORY_LOOKUP_AND_REFERENCE,
            'functionCall' => [LookupRef::class,
'TRANSPOSE'],
            'argumentCount' => '1',
        ],
        'TREND' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'TREND'],
            'argumentCount' => '1-4',
        ],
        'TRIM' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [TextData::class,
'TRIMSPACES'],
            'argumentCount' => '1',
        ],
        'TRIMMEAN' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'TRIMMEAN'],
            'argumentCount' => '2',
        ],
        'TRUE' => [
            'category' => Category::CATEGORY_LOGICAL,
            'functionCall' => [Logical::class,
'TRUE'],
            'argumentCount' => '0',
        ],
        'TRUNC' => [
            'category' => Category::CATEGORY_MATH_AND_TRIG,
            'functionCall' => [MathTrig::class,
'TRUNC'],
            'argumentCount' => '1,2',
        ],
        'TTEST' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Functions::class,
'DUMMY'],
            'argumentCount' => '4',
        ],
        'TYPE' => [
            'category' => Category::CATEGORY_INFORMATION,
            'functionCall' => [Functions::class,
'TYPE'],
            'argumentCount' => '1',
        ],
        'UNICHAR' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [TextData::class,
'CHARACTER'],
            'argumentCount' => '1',
        ],
        'UNICODE' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [TextData::class,
'ASCIICODE'],
            'argumentCount' => '1',
        ],
        'UPPER' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [TextData::class,
'UPPERCASE'],
            'argumentCount' => '1',
        ],
        'USDOLLAR' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Functions::class,
'DUMMY'],
            'argumentCount' => '2',
        ],
        'VALUE' => [
            'category' => Category::CATEGORY_TEXT_AND_DATA,
            'functionCall' => [TextData::class,
'VALUE'],
            'argumentCount' => '1',
        ],
        'VAR' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'VARFunc'],
            'argumentCount' => '1+',
        ],
        'VAR.P' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'VARP'],
            'argumentCount' => '1+',
        ],
        'VAR.S' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'VARFunc'],
            'argumentCount' => '1+',
        ],
        'VARA' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'VARA'],
            'argumentCount' => '1+',
        ],
        'VARP' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'VARP'],
            'argumentCount' => '1+',
        ],
        'VARPA' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'VARPA'],
            'argumentCount' => '1+',
        ],
        'VDB' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Functions::class,
'DUMMY'],
            'argumentCount' => '5-7',
        ],
        'VLOOKUP' => [
            'category' =>
Category::CATEGORY_LOOKUP_AND_REFERENCE,
            'functionCall' => [LookupRef::class,
'VLOOKUP'],
            'argumentCount' => '3,4',
        ],
        'WEEKDAY' => [
            'category' => Category::CATEGORY_DATE_AND_TIME,
            'functionCall' => [DateTime::class,
'WEEKDAY'],
            'argumentCount' => '1,2',
        ],
        'WEEKNUM' => [
            'category' => Category::CATEGORY_DATE_AND_TIME,
            'functionCall' => [DateTime::class,
'WEEKNUM'],
            'argumentCount' => '1,2',
        ],
        'WEIBULL' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'WEIBULL'],
            'argumentCount' => '4',
        ],
        'WORKDAY' => [
            'category' => Category::CATEGORY_DATE_AND_TIME,
            'functionCall' => [DateTime::class,
'WORKDAY'],
            'argumentCount' => '2+',
        ],
        'XIRR' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'XIRR'],
            'argumentCount' => '2,3',
        ],
        'XNPV' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'XNPV'],
            'argumentCount' => '3',
        ],
        'XOR' => [
            'category' => Category::CATEGORY_LOGICAL,
            'functionCall' => [Logical::class,
'logicalXor'],
            'argumentCount' => '1+',
        ],
        'YEAR' => [
            'category' => Category::CATEGORY_DATE_AND_TIME,
            'functionCall' => [DateTime::class,
'YEAR'],
            'argumentCount' => '1',
        ],
        'YEARFRAC' => [
            'category' => Category::CATEGORY_DATE_AND_TIME,
            'functionCall' => [DateTime::class,
'YEARFRAC'],
            'argumentCount' => '2,3',
        ],
        'YIELD' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Functions::class,
'DUMMY'],
            'argumentCount' => '6,7',
        ],
        'YIELDDISC' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'YIELDDISC'],
            'argumentCount' => '4,5',
        ],
        'YIELDMAT' => [
            'category' => Category::CATEGORY_FINANCIAL,
            'functionCall' => [Financial::class,
'YIELDMAT'],
            'argumentCount' => '5,6',
        ],
        'ZTEST' => [
            'category' => Category::CATEGORY_STATISTICAL,
            'functionCall' => [Statistical::class,
'ZTEST'],
            'argumentCount' => '2-3',
        ],
    ];

    //    Internal functions used for special control purposes
    private static $controlFunctions = [
        'MKMATRIX' => [
            'argumentCount' => '*',
            'functionCall' => 'self::mkMatrix',
        ],
    ];

    public function __construct(Spreadsheet $spreadsheet = null)
    {
        $this->delta = 1 * pow(10, 0 - ini_get('precision'));

        $this->spreadsheet = $spreadsheet;
        $this->cyclicReferenceStack = new CyclicReferenceStack();
        $this->debugLog = new Logger($this->cyclicReferenceStack);
    }

    private static function loadLocales()
    {
        $localeFileDirectory = __DIR__ . '/locale/';
        foreach (glob($localeFileDirectory . '*', GLOB_ONLYDIR)
as $filename) {
            $filename = substr($filename, strlen($localeFileDirectory));
            if ($filename != 'en') {
                self::$validLocaleLanguages[] = $filename;
            }
        }
    }

    /**
     * Get an instance of this class.
     *
     * @param Spreadsheet $spreadsheet Injected spreadsheet for working
with a PhpSpreadsheet Spreadsheet object,
     *                                    or NULL to create a standalone
claculation engine
     *
     * @return Calculation
     */
    public static function getInstance(Spreadsheet $spreadsheet = null)
    {
        if ($spreadsheet !== null) {
            $instance = $spreadsheet->getCalculationEngine();
            if (isset($instance)) {
                return $instance;
            }
        }

        if (!isset(self::$instance) || (self::$instance === null)) {
            self::$instance = new self();
        }

        return self::$instance;
    }

    /**
     * Flush the calculation cache for any existing instance of this class
     *        but only if a Calculation instance exists.
     */
    public function flushInstance()
    {
        $this->clearCalculationCache();
        $this->clearBranchStore();
    }

    /**
     * Get the Logger for this calculation engine instance.
     *
     * @return Logger
     */
    public function getDebugLog()
    {
        return $this->debugLog;
    }

    /**
     * __clone implementation. Cloning should not be allowed in a
Singleton!
     *
     * @throws Exception
     */
    final public function __clone()
    {
        throw new Exception('Cloning the calculation engine is not
allowed!');
    }

    /**
     * Return the locale-specific translation of TRUE.
     *
     * @return string locale-specific translation of TRUE
     */
    public static function getTRUE()
    {
        return self::$localeBoolean['TRUE'];
    }

    /**
     * Return the locale-specific translation of FALSE.
     *
     * @return string locale-specific translation of FALSE
     */
    public static function getFALSE()
    {
        return self::$localeBoolean['FALSE'];
    }

    /**
     * Set the Array Return Type (Array or Value of first element in the
array).
     *
     * @param string $returnType Array return type
     *
     * @return bool Success or failure
     */
    public static function setArrayReturnType($returnType)
    {
        if (($returnType == self::RETURN_ARRAY_AS_VALUE) ||
            ($returnType == self::RETURN_ARRAY_AS_ERROR) ||
            ($returnType == self::RETURN_ARRAY_AS_ARRAY)) {
            self::$returnArrayAsType = $returnType;

            return true;
        }

        return false;
    }

    /**
     * Return the Array Return Type (Array or Value of first element in the
array).
     *
     * @return string $returnType Array return type
     */
    public static function getArrayReturnType()
    {
        return self::$returnArrayAsType;
    }

    /**
     * Is calculation caching enabled?
     *
     * @return bool
     */
    public function getCalculationCacheEnabled()
    {
        return $this->calculationCacheEnabled;
    }

    /**
     * Enable/disable calculation cache.
     *
     * @param bool $pValue
     */
    public function setCalculationCacheEnabled($pValue)
    {
        $this->calculationCacheEnabled = $pValue;
        $this->clearCalculationCache();
    }

    /**
     * Enable calculation cache.
     */
    public function enableCalculationCache()
    {
        $this->setCalculationCacheEnabled(true);
    }

    /**
     * Disable calculation cache.
     */
    public function disableCalculationCache()
    {
        $this->setCalculationCacheEnabled(false);
    }

    /**
     * Clear calculation cache.
     */
    public function clearCalculationCache()
    {
        $this->calculationCache = [];
    }

    /**
     * Clear calculation cache for a specified worksheet.
     *
     * @param string $worksheetName
     */
    public function clearCalculationCacheForWorksheet($worksheetName)
    {
        if (isset($this->calculationCache[$worksheetName])) {
            unset($this->calculationCache[$worksheetName]);
        }
    }

    /**
     * Rename calculation cache for a specified worksheet.
     *
     * @param string $fromWorksheetName
     * @param string $toWorksheetName
     */
    public function renameCalculationCacheForWorksheet($fromWorksheetName,
$toWorksheetName)
    {
        if (isset($this->calculationCache[$fromWorksheetName])) {
            $this->calculationCache[$toWorksheetName] =
&$this->calculationCache[$fromWorksheetName];
            unset($this->calculationCache[$fromWorksheetName]);
        }
    }

    /**
     * Enable/disable calculation cache.
     *
     * @param bool $pValue
     * @param mixed $enabled
     */
    public function setBranchPruningEnabled($enabled)
    {
        $this->branchPruningEnabled = $enabled;
    }

    public function enableBranchPruning()
    {
        $this->setBranchPruningEnabled(true);
    }

    public function disableBranchPruning()
    {
        $this->setBranchPruningEnabled(false);
    }

    public function clearBranchStore()
    {
        $this->branchStoreKeyCounter = 0;
    }

    /**
     * Get the currently defined locale code.
     *
     * @return string
     */
    public function getLocale()
    {
        return self::$localeLanguage;
    }

    /**
     * Set the locale code.
     *
     * @param string $locale The locale to use for formula translation, eg:
'en_us'
     *
     * @return bool
     */
    public function setLocale($locale)
    {
        //    Identify our locale and language
        $language = $locale = strtolower($locale);
        if (strpos($locale, '_') !== false) {
            [$language] = explode('_', $locale);
        }
        if (count(self::$validLocaleLanguages) == 1) {
            self::loadLocales();
        }
        //    Test whether we have any language data for this language (any
locale)
        if (in_array($language, self::$validLocaleLanguages)) {
            //    initialise language/locale settings
            self::$localeFunctions = [];
            self::$localeArgumentSeparator = ',';
            self::$localeBoolean = ['TRUE' =>
'TRUE', 'FALSE' => 'FALSE',
'NULL' => 'NULL'];
            //    Default is English, if user isn't requesting
english, then read the necessary data from the locale files
            if ($locale != 'en_us') {
                //    Search for a file with a list of function names for
locale
                $functionNamesFile = __DIR__ . '/locale/' .
str_replace('_', DIRECTORY_SEPARATOR, $locale) .
DIRECTORY_SEPARATOR . 'functions';
                if (!file_exists($functionNamesFile)) {
                    //    If there isn't a locale specific function
file, look for a language specific function file
                    $functionNamesFile = __DIR__ . '/locale/' .
$language . DIRECTORY_SEPARATOR . 'functions';
                    if (!file_exists($functionNamesFile)) {
                        return false;
                    }
                }
                //    Retrieve the list of locale or language specific
function names
                $localeFunctions = file($functionNamesFile,
FILE_IGNORE_NEW_LINES | FILE_SKIP_EMPTY_LINES);
                foreach ($localeFunctions as $localeFunction) {
                    [$localeFunction] = explode('##',
$localeFunction); //    Strip out comments
                    if (strpos($localeFunction, '=') !== false) {
                        [$fName, $lfName] = explode('=',
$localeFunction);
                        $fName = trim($fName);
                        $lfName = trim($lfName);
                        if ((isset(self::$phpSpreadsheetFunctions[$fName]))
&& ($lfName != '') && ($fName != $lfName)) {
                            self::$localeFunctions[$fName] = $lfName;
                        }
                    }
                }
                //    Default the TRUE and FALSE constants to the locale
names of the TRUE() and FALSE() functions
                if (isset(self::$localeFunctions['TRUE'])) {
                    self::$localeBoolean['TRUE'] =
self::$localeFunctions['TRUE'];
                }
                if (isset(self::$localeFunctions['FALSE'])) {
                    self::$localeBoolean['FALSE'] =
self::$localeFunctions['FALSE'];
                }

                $configFile = __DIR__ . '/locale/' .
str_replace('_', DIRECTORY_SEPARATOR, $locale) .
DIRECTORY_SEPARATOR . 'config';
                if (!file_exists($configFile)) {
                    $configFile = __DIR__ . '/locale/' .
$language . DIRECTORY_SEPARATOR . 'config';
                }
                if (file_exists($configFile)) {
                    $localeSettings = file($configFile,
FILE_IGNORE_NEW_LINES | FILE_SKIP_EMPTY_LINES);
                    foreach ($localeSettings as $localeSetting) {
                        [$localeSetting] = explode('##',
$localeSetting); //    Strip out comments
                        if (strpos($localeSetting, '=') !==
false) {
                            [$settingName, $settingValue] =
explode('=', $localeSetting);
                            $settingName = strtoupper(trim($settingName));
                            switch ($settingName) {
                                case 'ARGUMENTSEPARATOR':
                                    self::$localeArgumentSeparator =
trim($settingValue);

                                    break;
                            }
                        }
                    }
                }
            }

            self::$functionReplaceFromExcel = self::$functionReplaceToExcel
=
            self::$functionReplaceFromLocale =
self::$functionReplaceToLocale = null;
            self::$localeLanguage = $locale;

            return true;
        }

        return false;
    }

    /**
     * @param string $fromSeparator
     * @param string $toSeparator
     * @param string $formula
     * @param bool $inBraces
     *
     * @return string
     */
    public static function translateSeparator($fromSeparator, $toSeparator,
$formula, &$inBraces)
    {
        $strlen = mb_strlen($formula);
        for ($i = 0; $i < $strlen; ++$i) {
            $chr = mb_substr($formula, $i, 1);
            switch ($chr) {
                case '{':
                    $inBraces = true;

                    break;
                case '}':
                    $inBraces = false;

                    break;
                case $fromSeparator:
                    if (!$inBraces) {
                        $formula = mb_substr($formula, 0, $i) .
$toSeparator . mb_substr($formula, $i + 1);
                    }
            }
        }

        return $formula;
    }

    /**
     * @param string[] $from
     * @param string[] $to
     * @param string $formula
     * @param string $fromSeparator
     * @param string $toSeparator
     *
     * @return string
     */
    private static function translateFormula(array $from, array $to,
$formula, $fromSeparator, $toSeparator)
    {
        //    Convert any Excel function names to the required language
        if (self::$localeLanguage !== 'en_us') {
            $inBraces = false;
            //    If there is the possibility of braces within a quoted
string, then we don't treat those as matrix indicators
            if (strpos($formula, '"') !== false) {
                //    So instead we skip replacing in any quoted strings by
only replacing in every other array element after we've exploded
                //        the formula
                $temp = explode('"', $formula);
                $i = false;
                foreach ($temp as &$value) {
                    //    Only count/replace in alternating array entries
                    if ($i = !$i) {
                        $value = preg_replace($from, $to, $value);
                        $value = self::translateSeparator($fromSeparator,
$toSeparator, $value, $inBraces);
                    }
                }
                unset($value);
                //    Then rebuild the formula string
                $formula = implode('"', $temp);
            } else {
                //    If there's no quoted strings, then we do a
simple count/replace
                $formula = preg_replace($from, $to, $formula);
                $formula = self::translateSeparator($fromSeparator,
$toSeparator, $formula, $inBraces);
            }
        }

        return $formula;
    }

    private static $functionReplaceFromExcel = null;

    private static $functionReplaceToLocale = null;

    public function _translateFormulaToLocale($formula)
    {
        if (self::$functionReplaceFromExcel === null) {
            self::$functionReplaceFromExcel = [];
            foreach (array_keys(self::$localeFunctions) as
$excelFunctionName) {
                self::$functionReplaceFromExcel[] =
'/(@?[^\w\.])' . preg_quote($excelFunctionName, '/') .
'([\s]*\()/Ui';
            }
            foreach (array_keys(self::$localeBoolean) as $excelBoolean) {
                self::$functionReplaceFromExcel[] =
'/(@?[^\w\.])' . preg_quote($excelBoolean, '/') .
'([^\w\.])/Ui';
            }
        }

        if (self::$functionReplaceToLocale === null) {
            self::$functionReplaceToLocale = [];
            foreach (self::$localeFunctions as $localeFunctionName) {
                self::$functionReplaceToLocale[] = '$1' .
trim($localeFunctionName) . '$2';
            }
            foreach (self::$localeBoolean as $localeBoolean) {
                self::$functionReplaceToLocale[] = '$1' .
trim($localeBoolean) . '$2';
            }
        }

        return self::translateFormula(self::$functionReplaceFromExcel,
self::$functionReplaceToLocale, $formula, ',',
self::$localeArgumentSeparator);
    }

    private static $functionReplaceFromLocale = null;

    private static $functionReplaceToExcel = null;

    public function _translateFormulaToEnglish($formula)
    {
        if (self::$functionReplaceFromLocale === null) {
            self::$functionReplaceFromLocale = [];
            foreach (self::$localeFunctions as $localeFunctionName) {
                self::$functionReplaceFromLocale[] =
'/(@?[^\w\.])' . preg_quote($localeFunctionName, '/') .
'([\s]*\()/Ui';
            }
            foreach (self::$localeBoolean as $excelBoolean) {
                self::$functionReplaceFromLocale[] =
'/(@?[^\w\.])' . preg_quote($excelBoolean, '/') .
'([^\w\.])/Ui';
            }
        }

        if (self::$functionReplaceToExcel === null) {
            self::$functionReplaceToExcel = [];
            foreach (array_keys(self::$localeFunctions) as
$excelFunctionName) {
                self::$functionReplaceToExcel[] = '$1' .
trim($excelFunctionName) . '$2';
            }
            foreach (array_keys(self::$localeBoolean) as $excelBoolean) {
                self::$functionReplaceToExcel[] = '$1' .
trim($excelBoolean) . '$2';
            }
        }

        return self::translateFormula(self::$functionReplaceFromLocale,
self::$functionReplaceToExcel, $formula, self::$localeArgumentSeparator,
',');
    }

    public static function localeFunc($function)
    {
        if (self::$localeLanguage !== 'en_us') {
            $functionName = trim($function, '(');
            if (isset(self::$localeFunctions[$functionName])) {
                $brace = ($functionName != $function);
                $function = self::$localeFunctions[$functionName];
                if ($brace) {
                    $function .= '(';
                }
            }
        }

        return $function;
    }

    /**
     * Wrap string values in quotes.
     *
     * @param mixed $value
     *
     * @return mixed
     */
    public static function wrapResult($value)
    {
        if (is_string($value)) {
            //    Error values cannot be "wrapped"
            if (preg_match('/^' . self::CALCULATION_REGEXP_ERROR
. '$/i', $value, $match)) {
                //    Return Excel errors "as is"
                return $value;
            }
            //    Return strings wrapped in quotes
            return '"' . $value . '"';
        //    Convert numeric errors to NaN error
        } elseif ((is_float($value)) && ((is_nan($value)) ||
(is_infinite($value)))) {
            return Functions::NAN();
        }

        return $value;
    }

    /**
     * Remove quotes used as a wrapper to identify string values.
     *
     * @param mixed $value
     *
     * @return mixed
     */
    public static function unwrapResult($value)
    {
        if (is_string($value)) {
            if ((isset($value[0])) && ($value[0] ==
'"') && (substr($value, -1) == '"'))
{
                return substr($value, 1, -1);
            }
            //    Convert numeric errors to NAN error
        } elseif ((is_float($value)) && ((is_nan($value)) ||
(is_infinite($value)))) {
            return Functions::NAN();
        }

        return $value;
    }

    /**
     * Calculate cell value (using formula from a cell ID)
     * Retained for backward compatibility.
     *
     * @param Cell $pCell Cell to calculate
     *
     * @throws Exception
     *
     * @return mixed
     */
    public function calculate(Cell $pCell = null)
    {
        try {
            return $this->calculateCellValue($pCell);
        } catch (\Exception $e) {
            throw new Exception($e->getMessage());
        }
    }

    /**
     * Calculate the value of a cell formula.
     *
     * @param Cell $pCell Cell to calculate
     * @param bool $resetLog Flag indicating whether the debug log should
be reset or not
     *
     * @throws \PhpOffice\PhpSpreadsheet\Exception
     *
     * @return mixed
     */
    public function calculateCellValue(Cell $pCell = null, $resetLog =
true)
    {
        if ($pCell === null) {
            return null;
        }

        $returnArrayAsType = self::$returnArrayAsType;
        if ($resetLog) {
            //    Initialise the logging settings if requested
            $this->formulaError = null;
            $this->debugLog->clearLog();
            $this->cyclicReferenceStack->clear();
            $this->cyclicFormulaCounter = 1;

            self::$returnArrayAsType = self::RETURN_ARRAY_AS_ARRAY;
        }

        //    Execute the calculation for the cell formula
        $this->cellStack[] = [
            'sheet' =>
$pCell->getWorksheet()->getTitle(),
            'cell' => $pCell->getCoordinate(),
        ];

        try {
            $result =
self::unwrapResult($this->_calculateFormulaValue($pCell->getValue(),
$pCell->getCoordinate(), $pCell));
            $cellAddress = array_pop($this->cellStack);
           
$this->spreadsheet->getSheetByName($cellAddress['sheet'])->getCell($cellAddress['cell']);
        } catch (\Exception $e) {
            $cellAddress = array_pop($this->cellStack);
           
$this->spreadsheet->getSheetByName($cellAddress['sheet'])->getCell($cellAddress['cell']);

            throw new Exception($e->getMessage());
        }

        if ((is_array($result)) && (self::$returnArrayAsType !=
self::RETURN_ARRAY_AS_ARRAY)) {
            self::$returnArrayAsType = $returnArrayAsType;
            $testResult = Functions::flattenArray($result);
            if (self::$returnArrayAsType == self::RETURN_ARRAY_AS_ERROR) {
                return Functions::VALUE();
            }
            //    If there's only a single cell in the array, then we
allow it
            if (count($testResult) != 1) {
                //    If keys are numeric, then it's a matrix result
rather than a cell range result, so we permit it
                $r = array_keys($result);
                $r = array_shift($r);
                if (!is_numeric($r)) {
                    return Functions::VALUE();
                }
                if (is_array($result[$r])) {
                    $c = array_keys($result[$r]);
                    $c = array_shift($c);
                    if (!is_numeric($c)) {
                        return Functions::VALUE();
                    }
                }
            }
            $result = array_shift($testResult);
        }
        self::$returnArrayAsType = $returnArrayAsType;

        if ($result === null &&
$pCell->getWorksheet()->getSheetView()->getShowZeros()) {
            return 0;
        } elseif ((is_float($result)) && ((is_nan($result)) ||
(is_infinite($result)))) {
            return Functions::NAN();
        }

        return $result;
    }

    /**
     * Validate and parse a formula string.
     *
     * @param string $formula Formula to parse
     *
     * @return array|bool
     */
    public function parseFormula($formula)
    {
        //    Basic validation that this is indeed a formula
        //    We return an empty array if not
        $formula = trim($formula);
        if ((!isset($formula[0])) || ($formula[0] != '=')) {
            return [];
        }
        $formula = ltrim(substr($formula, 1));
        if (!isset($formula[0])) {
            return [];
        }

        //    Parse the formula and return the token stack
        return $this->_parseFormula($formula);
    }

    /**
     * Calculate the value of a formula.
     *
     * @param string $formula Formula to parse
     * @param string $cellID Address of the cell to calculate
     * @param Cell $pCell Cell to calculate
     *
     * @throws \PhpOffice\PhpSpreadsheet\Exception
     *
     * @return mixed
     */
    public function calculateFormula($formula, $cellID = null, Cell $pCell
= null)
    {
        //    Initialise the logging settings
        $this->formulaError = null;
        $this->debugLog->clearLog();
        $this->cyclicReferenceStack->clear();

        $resetCache = $this->getCalculationCacheEnabled();
        if ($this->spreadsheet !== null && $cellID === null
&& $pCell === null) {
            $cellID = 'A1';
            $pCell =
$this->spreadsheet->getActiveSheet()->getCell($cellID);
        } else {
            //    Disable calculation cacheing because it only applies to
cell calculations, not straight formulae
            //    But don't actually flush any cache
            $this->calculationCacheEnabled = false;
        }

        //    Execute the calculation
        try {
            $result =
self::unwrapResult($this->_calculateFormulaValue($formula, $cellID,
$pCell));
        } catch (\Exception $e) {
            throw new Exception($e->getMessage());
        }

        if ($this->spreadsheet === null) {
            //    Reset calculation cacheing to its previous state
            $this->calculationCacheEnabled = $resetCache;
        }

        return $result;
    }

    /**
     * @param string $cellReference
     * @param mixed $cellValue
     *
     * @return bool
     */
    public function getValueFromCache($cellReference, &$cellValue)
    {
        // Is calculation cacheing enabled?
        // Is the value present in calculation cache?
        $this->debugLog->writeDebugLog('Testing cache value for
cell ', $cellReference);
        if (($this->calculationCacheEnabled) &&
(isset($this->calculationCache[$cellReference]))) {
            $this->debugLog->writeDebugLog('Retrieving value for
cell ', $cellReference, ' from cache');
            // Return the cached result

            $cellValue = $this->calculationCache[$cellReference];

            return true;
        }

        return false;
    }

    /**
     * @param string $cellReference
     * @param mixed $cellValue
     */
    public function saveValueToCache($cellReference, $cellValue)
    {
        if ($this->calculationCacheEnabled) {
            $this->calculationCache[$cellReference] = $cellValue;
        }
    }

    /**
     * Parse a cell formula and calculate its value.
     *
     * @param string $formula The formula to parse and calculate
     * @param string $cellID The ID (e.g. A3) of the cell that we are
calculating
     * @param Cell $pCell Cell to calculate
     *
     * @throws Exception
     *
     * @return mixed
     */
    public function _calculateFormulaValue($formula, $cellID = null, Cell
$pCell = null)
    {
        $cellValue = null;

        //  Quote-Prefixed cell values cannot be formulae, but are treated
as strings
        if ($pCell !== null &&
$pCell->getStyle()->getQuotePrefix() === true) {
            return self::wrapResult((string) $formula);
        }

        if (preg_match('/^=\s*cmd\s*\|/miu', $formula) !== 0) {
            return self::wrapResult($formula);
        }

        //    Basic validation that this is indeed a formula
        //    We simply return the cell value if not
        $formula = trim($formula);
        if ($formula[0] != '=') {
            return self::wrapResult($formula);
        }
        $formula = ltrim(substr($formula, 1));
        if (!isset($formula[0])) {
            return self::wrapResult($formula);
        }

        $pCellParent = ($pCell !== null) ? $pCell->getWorksheet() :
null;
        $wsTitle = ($pCellParent !== null) ? $pCellParent->getTitle() :
"\x00Wrk";
        $wsCellReference = $wsTitle . '!' . $cellID;

        if (($cellID !== null) &&
($this->getValueFromCache($wsCellReference, $cellValue))) {
            return $cellValue;
        }

        if (($wsTitle[0] !== "\x00") &&
($this->cyclicReferenceStack->onStack($wsCellReference))) {
            if ($this->cyclicFormulaCount <= 0) {
                $this->cyclicFormulaCell = '';

                return $this->raiseFormulaError('Cyclic Reference
in Formula');
            } elseif ($this->cyclicFormulaCell === $wsCellReference) {
                ++$this->cyclicFormulaCounter;
                if ($this->cyclicFormulaCounter >=
$this->cyclicFormulaCount) {
                    $this->cyclicFormulaCell = '';

                    return $cellValue;
                }
            } elseif ($this->cyclicFormulaCell == '') {
                if ($this->cyclicFormulaCounter >=
$this->cyclicFormulaCount) {
                    return $cellValue;
                }
                $this->cyclicFormulaCell = $wsCellReference;
            }
        }

        //    Parse the formula onto the token stack and calculate the
value
        $this->cyclicReferenceStack->push($wsCellReference);
        $cellValue =
$this->processTokenStack($this->_parseFormula($formula, $pCell),
$cellID, $pCell);
        $this->cyclicReferenceStack->pop();

        // Save to calculation cache
        if ($cellID !== null) {
            $this->saveValueToCache($wsCellReference, $cellValue);
        }

        //    Return the calculated value
        return $cellValue;
    }

    /**
     * Ensure that paired matrix operands are both matrices and of the same
size.
     *
     * @param mixed &$operand1 First matrix operand
     * @param mixed &$operand2 Second matrix operand
     * @param int $resize Flag indicating whether the matrices should be
resized to match
     *                                        and (if so), whether the
smaller dimension should grow or the
     *                                        larger should shrink.
     *                                            0 = no resize
     *                                            1 = shrink to fit
     *                                            2 = extend to fit
     *
     * @return array
     */
    private static function checkMatrixOperands(&$operand1,
&$operand2, $resize = 1)
    {
        //    Examine each of the two operands, and turn them into an array
if they aren't one already
        //    Note that this function should only be called if one or both
of the operand is already an array
        if (!is_array($operand1)) {
            [$matrixRows, $matrixColumns] =
self::getMatrixDimensions($operand2);
            $operand1 = array_fill(0, $matrixRows, array_fill(0,
$matrixColumns, $operand1));
            $resize = 0;
        } elseif (!is_array($operand2)) {
            [$matrixRows, $matrixColumns] =
self::getMatrixDimensions($operand1);
            $operand2 = array_fill(0, $matrixRows, array_fill(0,
$matrixColumns, $operand2));
            $resize = 0;
        }

        [$matrix1Rows, $matrix1Columns] =
self::getMatrixDimensions($operand1);
        [$matrix2Rows, $matrix2Columns] =
self::getMatrixDimensions($operand2);
        if (($matrix1Rows == $matrix2Columns) && ($matrix2Rows ==
$matrix1Columns)) {
            $resize = 1;
        }

        if ($resize == 2) {
            //    Given two matrices of (potentially) unequal size, convert
the smaller in each dimension to match the larger
            self::resizeMatricesExtend($operand1, $operand2, $matrix1Rows,
$matrix1Columns, $matrix2Rows, $matrix2Columns);
        } elseif ($resize == 1) {
            //    Given two matrices of (potentially) unequal size, convert
the larger in each dimension to match the smaller
            self::resizeMatricesShrink($operand1, $operand2, $matrix1Rows,
$matrix1Columns, $matrix2Rows, $matrix2Columns);
        }

        return [$matrix1Rows, $matrix1Columns, $matrix2Rows,
$matrix2Columns];
    }

    /**
     * Read the dimensions of a matrix, and re-index it with straight
numeric keys starting from row 0, column 0.
     *
     * @param array &$matrix matrix operand
     *
     * @return int[] An array comprising the number of rows, and number of
columns
     */
    public static function getMatrixDimensions(array &$matrix)
    {
        $matrixRows = count($matrix);
        $matrixColumns = 0;
        foreach ($matrix as $rowKey => $rowValue) {
            if (!is_array($rowValue)) {
                $matrix[$rowKey] = [$rowValue];
                $matrixColumns = max(1, $matrixColumns);
            } else {
                $matrix[$rowKey] = array_values($rowValue);
                $matrixColumns = max(count($rowValue), $matrixColumns);
            }
        }
        $matrix = array_values($matrix);

        return [$matrixRows, $matrixColumns];
    }

    /**
     * Ensure that paired matrix operands are both matrices of the same
size.
     *
     * @param mixed &$matrix1 First matrix operand
     * @param mixed &$matrix2 Second matrix operand
     * @param int $matrix1Rows Row size of first matrix operand
     * @param int $matrix1Columns Column size of first matrix operand
     * @param int $matrix2Rows Row size of second matrix operand
     * @param int $matrix2Columns Column size of second matrix operand
     */
    private static function resizeMatricesShrink(&$matrix1,
&$matrix2, $matrix1Rows, $matrix1Columns, $matrix2Rows,
$matrix2Columns)
    {
        if (($matrix2Columns < $matrix1Columns) || ($matrix2Rows <
$matrix1Rows)) {
            if ($matrix2Rows < $matrix1Rows) {
                for ($i = $matrix2Rows; $i < $matrix1Rows; ++$i) {
                    unset($matrix1[$i]);
                }
            }
            if ($matrix2Columns < $matrix1Columns) {
                for ($i = 0; $i < $matrix1Rows; ++$i) {
                    for ($j = $matrix2Columns; $j < $matrix1Columns;
++$j) {
                        unset($matrix1[$i][$j]);
                    }
                }
            }
        }

        if (($matrix1Columns < $matrix2Columns) || ($matrix1Rows <
$matrix2Rows)) {
            if ($matrix1Rows < $matrix2Rows) {
                for ($i = $matrix1Rows; $i < $matrix2Rows; ++$i) {
                    unset($matrix2[$i]);
                }
            }
            if ($matrix1Columns < $matrix2Columns) {
                for ($i = 0; $i < $matrix2Rows; ++$i) {
                    for ($j = $matrix1Columns; $j < $matrix2Columns;
++$j) {
                        unset($matrix2[$i][$j]);
                    }
                }
            }
        }
    }

    /**
     * Ensure that paired matrix operands are both matrices of the same
size.
     *
     * @param mixed &$matrix1 First matrix operand
     * @param mixed &$matrix2 Second matrix operand
     * @param int $matrix1Rows Row size of first matrix operand
     * @param int $matrix1Columns Column size of first matrix operand
     * @param int $matrix2Rows Row size of second matrix operand
     * @param int $matrix2Columns Column size of second matrix operand
     */
    private static function resizeMatricesExtend(&$matrix1,
&$matrix2, $matrix1Rows, $matrix1Columns, $matrix2Rows,
$matrix2Columns)
    {
        if (($matrix2Columns < $matrix1Columns) || ($matrix2Rows <
$matrix1Rows)) {
            if ($matrix2Columns < $matrix1Columns) {
                for ($i = 0; $i < $matrix2Rows; ++$i) {
                    $x = $matrix2[$i][$matrix2Columns - 1];
                    for ($j = $matrix2Columns; $j < $matrix1Columns;
++$j) {
                        $matrix2[$i][$j] = $x;
                    }
                }
            }
            if ($matrix2Rows < $matrix1Rows) {
                $x = $matrix2[$matrix2Rows - 1];
                for ($i = 0; $i < $matrix1Rows; ++$i) {
                    $matrix2[$i] = $x;
                }
            }
        }

        if (($matrix1Columns < $matrix2Columns) || ($matrix1Rows <
$matrix2Rows)) {
            if ($matrix1Columns < $matrix2Columns) {
                for ($i = 0; $i < $matrix1Rows; ++$i) {
                    $x = $matrix1[$i][$matrix1Columns - 1];
                    for ($j = $matrix1Columns; $j < $matrix2Columns;
++$j) {
                        $matrix1[$i][$j] = $x;
                    }
                }
            }
            if ($matrix1Rows < $matrix2Rows) {
                $x = $matrix1[$matrix1Rows - 1];
                for ($i = 0; $i < $matrix2Rows; ++$i) {
                    $matrix1[$i] = $x;
                }
            }
        }
    }

    /**
     * Format details of an operand for display in the log (based on
operand type).
     *
     * @param mixed $value First matrix operand
     *
     * @return mixed
     */
    private function showValue($value)
    {
        if ($this->debugLog->getWriteDebugLog()) {
            $testArray = Functions::flattenArray($value);
            if (count($testArray) == 1) {
                $value = array_pop($testArray);
            }

            if (is_array($value)) {
                $returnMatrix = [];
                $pad = $rpad = ', ';
                foreach ($value as $row) {
                    if (is_array($row)) {
                        $returnMatrix[] = implode($pad, array_map([$this,
'showValue'], $row));
                        $rpad = '; ';
                    } else {
                        $returnMatrix[] = $this->showValue($row);
                    }
                }

                return '{ ' . implode($rpad, $returnMatrix) .
' }';
            } elseif (is_string($value) && (trim($value,
'"') == $value)) {
                return '"' . $value . '"';
            } elseif (is_bool($value)) {
                return ($value) ? self::$localeBoolean['TRUE'] :
self::$localeBoolean['FALSE'];
            }
        }

        return Functions::flattenSingleValue($value);
    }

    /**
     * Format type and details of an operand for display in the log (based
on operand type).
     *
     * @param mixed $value First matrix operand
     *
     * @return null|string
     */
    private function showTypeDetails($value)
    {
        if ($this->debugLog->getWriteDebugLog()) {
            $testArray = Functions::flattenArray($value);
            if (count($testArray) == 1) {
                $value = array_pop($testArray);
            }

            if ($value === null) {
                return 'a NULL value';
            } elseif (is_float($value)) {
                $typeString = 'a floating point number';
            } elseif (is_int($value)) {
                $typeString = 'an integer number';
            } elseif (is_bool($value)) {
                $typeString = 'a boolean';
            } elseif (is_array($value)) {
                $typeString = 'a matrix';
            } else {
                if ($value == '') {
                    return 'an empty string';
                } elseif ($value[0] == '#') {
                    return 'a ' . $value . ' error';
                }
                $typeString = 'a string';
            }

            return $typeString . ' with a value of ' .
$this->showValue($value);
        }
    }

    /**
     * @param string $formula
     *
     * @return false|string False indicates an error
     */
    private function convertMatrixReferences($formula)
    {
        static $matrixReplaceFrom = ['{', ';',
'}'];
        static $matrixReplaceTo = ['MKMATRIX(MKMATRIX(',
'),MKMATRIX(', '))'];

        //    Convert any Excel matrix references to the MKMATRIX()
function
        if (strpos($formula, '{') !== false) {
            //    If there is the possibility of braces within a quoted
string, then we don't treat those as matrix indicators
            if (strpos($formula, '"') !== false) {
                //    So instead we skip replacing in any quoted strings by
only replacing in every other array element after we've exploded
                //        the formula
                $temp = explode('"', $formula);
                //    Open and Closed counts used for trapping mismatched
braces in the formula
                $openCount = $closeCount = 0;
                $i = false;
                foreach ($temp as &$value) {
                    //    Only count/replace in alternating array entries
                    if ($i = !$i) {
                        $openCount += substr_count($value, '{');
                        $closeCount += substr_count($value, '}');
                        $value = str_replace($matrixReplaceFrom,
$matrixReplaceTo, $value);
                    }
                }
                unset($value);
                //    Then rebuild the formula string
                $formula = implode('"', $temp);
            } else {
                //    If there's no quoted strings, then we do a
simple count/replace
                $openCount = substr_count($formula, '{');
                $closeCount = substr_count($formula, '}');
                $formula = str_replace($matrixReplaceFrom,
$matrixReplaceTo, $formula);
            }
            //    Trap for mismatched braces and trigger an appropriate
error
            if ($openCount < $closeCount) {
                if ($openCount > 0) {
                    return $this->raiseFormulaError("Formula Error:
Mismatched matrix braces '}'");
                }

                return $this->raiseFormulaError("Formula Error:
Unexpected '}' encountered");
            } elseif ($openCount > $closeCount) {
                if ($closeCount > 0) {
                    return $this->raiseFormulaError("Formula Error:
Mismatched matrix braces '{'");
                }

                return $this->raiseFormulaError("Formula Error:
Unexpected '{' encountered");
            }
        }

        return $formula;
    }

    private static function mkMatrix(...$args)
    {
        return $args;
    }

    //    Binary Operators
    //    These operators always work on two values
    //    Array key is the operator, the value indicates whether this is a
left or right associative operator
    private static $operatorAssociativity = [
        '^' => 0, //    Exponentiation
        '*' => 0, '/' => 0, //    Multiplication
and Division
        '+' => 0, '-' => 0, //    Addition and
Subtraction
        '&' => 0, //    Concatenation
        '|' => 0, ':' => 0, //    Intersect and
Range
        '>' => 0, '<' => 0, '='
=> 0, '>=' => 0, '<=' => 0,
'<>' => 0, //    Comparison
    ];

    //    Comparison (Boolean) Operators
    //    These operators work on two values, but always return a boolean
result
    private static $comparisonOperators = ['>' => true,
'<' => true, '=' => true, '>='
=> true, '<=' => true, '<>' => true];

    //    Operator Precedence
    //    This list includes all valid operators, whether binary (including
boolean) or unary (such as %)
    //    Array key is the operator, the value is its precedence
    private static $operatorPrecedence = [
        ':' => 8, //    Range
        '|' => 7, //    Intersect
        '~' => 6, //    Negation
        '%' => 5, //    Percentage
        '^' => 4, //    Exponentiation
        '*' => 3, '/' => 3, //    Multiplication
and Division
        '+' => 2, '-' => 2, //    Addition and
Subtraction
        '&' => 1, //    Concatenation
        '>' => 0, '<' => 0, '='
=> 0, '>=' => 0, '<=' => 0,
'<>' => 0, //    Comparison
    ];

    // Convert infix to postfix notation

    /**
     * @param string $formula
     * @param null|\PhpOffice\PhpSpreadsheet\Cell\Cell $pCell
     *
     * @return bool
     */
    private function _parseFormula($formula, Cell $pCell = null)
    {
        if (($formula = $this->convertMatrixReferences(trim($formula)))
=== false) {
            return false;
        }

        //    If we're using cell caching, then $pCell may well be
flushed back to the cache (which detaches the parent worksheet),
        //        so we store the parent worksheet so that we can re-attach
it when necessary
        $pCellParent = ($pCell !== null) ? $pCell->getWorksheet() :
null;

        $regexpMatchString = '/^(' .
self::CALCULATION_REGEXP_FUNCTION .
                                '|' .
self::CALCULATION_REGEXP_CELLREF .
                                '|' .
self::CALCULATION_REGEXP_NUMBER .
                                '|' .
self::CALCULATION_REGEXP_STRING .
                                '|' .
self::CALCULATION_REGEXP_OPENBRACE .
                                '|' .
self::CALCULATION_REGEXP_NAMEDRANGE .
                                '|' .
self::CALCULATION_REGEXP_ERROR .
                                ')/si';

        //    Start with initialisation
        $index = 0;
        $stack = new Stack();
        $output = [];
        $expectingOperator = false; //    We use this test in
syntax-checking the expression to determine when a
                                                    //        - is a
negation or + is a positive operator rather than an operation
        $expectingOperand = false; //    We use this test in
syntax-checking the expression to determine whether an operand
                                                    //        should be
null in a function call

        // IF branch pruning
        // currently pending storeKey (last item of the storeKeysStack
        $pendingStoreKey = null;
        // stores a list of storeKeys (string[])
        $pendingStoreKeysStack = [];
        $expectingConditionMap = []; // ['storeKey' => true,
...]
        $expectingThenMap = []; // ['storeKey' => true, ...]
        $expectingElseMap = []; // ['storeKey' => true, ...]
        $parenthesisDepthMap = []; // ['storeKey' => 4, ...]

        //    The guts of the lexical parser
        //    Loop through the formula extracting each operator and operand
in turn
        while (true) {
            // Branch pruning: we adapt the output item to the context (it
will
            // be used to limit its computation)
            $currentCondition = null;
            $currentOnlyIf = null;
            $currentOnlyIfNot = null;
            $previousStoreKey = null;
            $pendingStoreKey = end($pendingStoreKeysStack);

            if ($this->branchPruningEnabled) {
                // this is a condition ?
                if (isset($expectingConditionMap[$pendingStoreKey])
&& $expectingConditionMap[$pendingStoreKey]) {
                    $currentCondition = $pendingStoreKey;
                    $stackDepth = count($pendingStoreKeysStack);
                    if ($stackDepth > 1) { // nested if
                        $previousStoreKey =
$pendingStoreKeysStack[$stackDepth - 2];
                    }
                }
                if (isset($expectingThenMap[$pendingStoreKey]) &&
$expectingThenMap[$pendingStoreKey]) {
                    $currentOnlyIf = $pendingStoreKey;
                } elseif (isset($previousStoreKey)) {
                    if (isset($expectingThenMap[$previousStoreKey])
&& $expectingThenMap[$previousStoreKey]) {
                        $currentOnlyIf = $previousStoreKey;
                    }
                }
                if (isset($expectingElseMap[$pendingStoreKey]) &&
$expectingElseMap[$pendingStoreKey]) {
                    $currentOnlyIfNot = $pendingStoreKey;
                } elseif (isset($previousStoreKey)) {
                    if (isset($expectingElseMap[$previousStoreKey])
&& $expectingElseMap[$previousStoreKey]) {
                        $currentOnlyIfNot = $previousStoreKey;
                    }
                }
            }

            $opCharacter = $formula[$index]; //    Get the first character
of the value at the current index position
            if ((isset(self::$comparisonOperators[$opCharacter]))
&& (strlen($formula) > $index) &&
(isset(self::$comparisonOperators[$formula[$index + 1]]))) {
                $opCharacter .= $formula[++$index];
            }

            //    Find out if we're currently at the beginning of a
number, variable, cell reference, function, parenthesis or operand
            $isOperandOrFunction = preg_match($regexpMatchString,
substr($formula, $index), $match);

            if ($opCharacter == '-' &&
!$expectingOperator) {                //    Is it a negation instead of a
minus?
                //    Put a negation on the stack
                $stack->push('Unary Operator', '~',
null, $currentCondition, $currentOnlyIf, $currentOnlyIfNot);
                ++$index; //        and drop the negation symbol
            } elseif ($opCharacter == '%' &&
$expectingOperator) {
                //    Put a percentage on the stack
                $stack->push('Unary Operator', '%',
null, $currentCondition, $currentOnlyIf, $currentOnlyIfNot);
                ++$index;
            } elseif ($opCharacter == '+' &&
!$expectingOperator) {            //    Positive (unary plus rather than
binary operator plus) can be discarded?
                ++$index; //    Drop the redundant plus symbol
            } elseif ((($opCharacter == '~') || ($opCharacter ==
'|')) && (!$isOperandOrFunction)) {    //    We have to
explicitly deny a tilde or pipe, because they are legal
                return $this->raiseFormulaError("Formula Error:
Illegal character '~'"); //        on the stack but not in
the input expression
            } elseif ((isset(self::$operators[$opCharacter]) or
$isOperandOrFunction) && $expectingOperator) {    //    Are we
putting an operator on the stack?
                while ($stack->count() > 0 &&
                    ($o2 = $stack->last()) &&
                    isset(self::$operators[$o2['value']])
&&
                    @(self::$operatorAssociativity[$opCharacter] ?
self::$operatorPrecedence[$opCharacter] <
self::$operatorPrecedence[$o2['value']] :
self::$operatorPrecedence[$opCharacter] <=
self::$operatorPrecedence[$o2['value']])) {
                    $output[] = $stack->pop(); //    Swap operands and
higher precedence operators from the stack to the output
                }

                //    Finally put our current operator onto the stack
                $stack->push('Binary Operator', $opCharacter,
null, $currentCondition, $currentOnlyIf, $currentOnlyIfNot);

                ++$index;
                $expectingOperator = false;
            } elseif ($opCharacter == ')' &&
$expectingOperator) {            //    Are we expecting to close a
parenthesis?
                $expectingOperand = false;
                while (($o2 = $stack->pop()) &&
$o2['value'] != '(') {        //    Pop off the stack
back to the last (
                    if ($o2 === null) {
                        return $this->raiseFormulaError('Formula
Error: Unexpected closing brace ")"');
                    }
                    $output[] = $o2;
                }
                $d = $stack->last(2);

                // Branch pruning we decrease the depth whether is it a
function
                // call or a parenthesis
                if (!empty($pendingStoreKey)) {
                    $parenthesisDepthMap[$pendingStoreKey] -= 1;
                }

                if (is_array($d) && preg_match('/^' .
self::CALCULATION_REGEXP_FUNCTION . '$/i', $d['value'],
$matches)) {    //    Did this parenthesis just close a function?
                    if (!empty($pendingStoreKey) &&
$parenthesisDepthMap[$pendingStoreKey] == -1) {
                        // we are closing an IF(
                        if ($d['value'] != 'IF(') {
                            return $this->raiseFormulaError('Parser
bug we should be in an "IF("');
                        }
                        if ($expectingConditionMap[$pendingStoreKey]) {
                            return $this->raiseFormulaError('We
should not be expecting a condition');
                        }
                        $expectingThenMap[$pendingStoreKey] = false;
                        $expectingElseMap[$pendingStoreKey] = false;
                        $parenthesisDepthMap[$pendingStoreKey] -= 1;
                        array_pop($pendingStoreKeysStack);
                        unset($pendingStoreKey);
                    }

                    $functionName = $matches[1]; //    Get the function
name
                    $d = $stack->pop();
                    $argumentCount = $d['value']; //    See how
many arguments there were (argument count is the next value stored on the
stack)
                    $output[] = $d; //    Dump the argument count on the
output
                    $output[] = $stack->pop(); //    Pop the function
and push onto the output
                    if (isset(self::$controlFunctions[$functionName])) {
                        $expectedArgumentCount =
self::$controlFunctions[$functionName]['argumentCount'];
                        $functionCall =
self::$controlFunctions[$functionName]['functionCall'];
                    } elseif
(isset(self::$phpSpreadsheetFunctions[$functionName])) {
                        $expectedArgumentCount =
self::$phpSpreadsheetFunctions[$functionName]['argumentCount'];
                        $functionCall =
self::$phpSpreadsheetFunctions[$functionName]['functionCall'];
                    } else {    // did we somehow push a non-function on
the stack? this should never happen
                        return $this->raiseFormulaError('Formula
Error: Internal error, non-function on stack');
                    }
                    //    Check the argument count
                    $argumentCountError = false;
                    if (is_numeric($expectedArgumentCount)) {
                        if ($expectedArgumentCount < 0) {
                            if ($argumentCount >
abs($expectedArgumentCount)) {
                                $argumentCountError = true;
                                $expectedArgumentCountString = 'no
more than ' . abs($expectedArgumentCount);
                            }
                        } else {
                            if ($argumentCount != $expectedArgumentCount) {
                                $argumentCountError = true;
                                $expectedArgumentCountString =
$expectedArgumentCount;
                            }
                        }
                    } elseif ($expectedArgumentCount != '*') {
                        $isOperandOrFunction =
preg_match('/(\d*)([-+,])(\d*)/', $expectedArgumentCount,
$argMatch);
                        switch ($argMatch[2]) {
                            case '+':
                                if ($argumentCount < $argMatch[1]) {
                                    $argumentCountError = true;
                                    $expectedArgumentCountString =
$argMatch[1] . ' or more ';
                                }

                                break;
                            case '-':
                                if (($argumentCount < $argMatch[1]) ||
($argumentCount > $argMatch[3])) {
                                    $argumentCountError = true;
                                    $expectedArgumentCountString =
'between ' . $argMatch[1] . ' and ' . $argMatch[3];
                                }

                                break;
                            case ',':
                                if (($argumentCount != $argMatch[1])
&& ($argumentCount != $argMatch[3])) {
                                    $argumentCountError = true;
                                    $expectedArgumentCountString =
'either ' . $argMatch[1] . ' or ' . $argMatch[3];
                                }

                                break;
                        }
                    }
                    if ($argumentCountError) {
                        return $this->raiseFormulaError("Formula
Error: Wrong number of arguments for $functionName() function:
$argumentCount given, " . $expectedArgumentCountString . '
expected');
                    }
                }
                ++$index;
            } elseif ($opCharacter == ',') {            //    Is
this the separator for function arguments?
                if (!empty($pendingStoreKey) &&
                    $parenthesisDepthMap[$pendingStoreKey] == 0
                ) {
                    // We must go to the IF next argument
                    if ($expectingConditionMap[$pendingStoreKey]) {
                        $expectingConditionMap[$pendingStoreKey] = false;
                        $expectingThenMap[$pendingStoreKey] = true;
                    } elseif ($expectingThenMap[$pendingStoreKey]) {
                        $expectingThenMap[$pendingStoreKey] = false;
                        $expectingElseMap[$pendingStoreKey] = true;
                    } elseif ($expectingElseMap[$pendingStoreKey]) {
                        return $this->raiseFormulaError('Reaching
fourth argument of an IF');
                    }
                }
                while (($o2 = $stack->pop()) &&
$o2['value'] != '(') {        //    Pop off the stack
back to the last (
                    if ($o2 === null) {
                        return $this->raiseFormulaError('Formula
Error: Unexpected ,');
                    }
                    $output[] = $o2; // pop the argument expression stuff
and push onto the output
                }
                //    If we've a comma when we're expecting an
operand, then what we actually have is a null operand;
                //        so push a null onto the stack
                if (($expectingOperand) || (!$expectingOperator)) {
                    $output[] = ['type' => 'NULL
Value', 'value' =>
self::$excelConstants['NULL'], 'reference' => null];
                }
                // make sure there was a function
                $d = $stack->last(2);
                if (!preg_match('/^' .
self::CALCULATION_REGEXP_FUNCTION . '$/i', $d['value'],
$matches)) {
                    return $this->raiseFormulaError('Formula Error:
Unexpected ,');
                }
                $d = $stack->pop();
                $itemStoreKey = $d['storeKey'] ?? null;
                $itemOnlyIf = $d['onlyIf'] ?? null;
                $itemOnlyIfNot = $d['onlyIfNot'] ?? null;
                $stack->push($d['type'],
++$d['value'], $d['reference'], $itemStoreKey,
$itemOnlyIf, $itemOnlyIfNot); // increment the argument count
                $stack->push('Brace', '(', null,
$itemStoreKey, $itemOnlyIf, $itemOnlyIfNot); // put the ( back on,
we'll need to pop back to it again
                $expectingOperator = false;
                $expectingOperand = true;
                ++$index;
            } elseif ($opCharacter == '(' &&
!$expectingOperator) {
                if (!empty($pendingStoreKey)) { // Branch pruning: we go
deeper
                    $parenthesisDepthMap[$pendingStoreKey] += 1;
                }
                $stack->push('Brace', '(', null,
$currentCondition, $currentOnlyIf, $currentOnlyIf);
                ++$index;
            } elseif ($isOperandOrFunction && !$expectingOperator)
{    // do we now have a function/variable/number?
                $expectingOperator = true;
                $expectingOperand = false;
                $val = $match[1];
                $length = strlen($val);

                if (preg_match('/^' .
self::CALCULATION_REGEXP_FUNCTION . '$/i', $val, $matches)) {
                    $val = preg_replace('/\s/u', '',
$val);
                    if
(isset(self::$phpSpreadsheetFunctions[strtoupper($matches[1])]) ||
isset(self::$controlFunctions[strtoupper($matches[1])])) {    // it's
a function
                        $valToUpper = strtoupper($val);
                        // here $matches[1] will contain values like
"IF"
                        // and $val "IF("
                        if ($this->branchPruningEnabled &&
($valToUpper == 'IF(')) { // we handle a new if
                            $pendingStoreKey =
$this->getUnusedBranchStoreKey();
                            $pendingStoreKeysStack[] = $pendingStoreKey;
                            $expectingConditionMap[$pendingStoreKey] =
true;
                            $parenthesisDepthMap[$pendingStoreKey] = 0;
                        } else { // this is not a if but we good deeper
                            if (!empty($pendingStoreKey) &&
array_key_exists($pendingStoreKey, $parenthesisDepthMap)) {
                                $parenthesisDepthMap[$pendingStoreKey] +=
1;
                            }
                        }

                        $stack->push('Function', $valToUpper,
null, $currentCondition, $currentOnlyIf, $currentOnlyIfNot);
                        // tests if the function is closed right after
opening
                        $ax = preg_match('/^\s*(\s*\))/ui',
substr($formula, $index + $length), $amatch);
                        if ($ax) {
                            $stack->push('Operand Count for
Function ' . $valToUpper . ')', 0, null, $currentCondition,
$currentOnlyIf, $currentOnlyIfNot);
                            $expectingOperator = true;
                        } else {
                            $stack->push('Operand Count for
Function ' . $valToUpper . ')', 1, null, $currentCondition,
$currentOnlyIf, $currentOnlyIfNot);
                            $expectingOperator = false;
                        }
                        $stack->push('Brace', '(');
                    } else {    // it's a var w/ implicit
multiplication
                        $output[] = ['type' =>
'Value', 'value' => $matches[1],
'reference' => null];
                    }
                } elseif (preg_match('/^' .
self::CALCULATION_REGEXP_CELLREF . '$/i', $val, $matches)) {
                    //    Watch for this case-change when modifying to
allow cell references in different worksheets...
                    //    Should only be applied to the actual cell column,
not the worksheet name

                    //    If the last entry on the stack was a : operator,
then we have a cell range reference
                    $testPrevOp = $stack->last(1);
                    if ($testPrevOp !== null &&
$testPrevOp['value'] == ':') {
                        //    If we have a worksheet reference, then
we're playing with a 3D reference
                        if ($matches[2] == '') {
                            //    Otherwise, we 'inherit' the
worksheet reference from the start cell reference
                            //    The start of the cell range reference
should be the last entry in $output
                            $startCellRef = $output[count($output) -
1]['value'];
                            preg_match('/^' .
self::CALCULATION_REGEXP_CELLREF . '$/i', $startCellRef,
$startMatches);
                            if ($startMatches[2] > '') {
                                $val = $startMatches[2] . '!' .
$val;
                            }
                        } else {
                            return $this->raiseFormulaError('3D
Range references are not yet supported');
                        }
                    }

                    $outputItem = $stack->getStackItem('Cell
Reference', $val, $val, $currentCondition, $currentOnlyIf,
$currentOnlyIfNot);

                    $output[] = $outputItem;
                } else {    // it's a variable, constant, string,
number or boolean
                    //    If the last entry on the stack was a : operator,
then we may have a row or column range reference
                    $testPrevOp = $stack->last(1);
                    if ($testPrevOp !== null &&
$testPrevOp['value'] === ':') {
                        $startRowColRef = $output[count($output) -
1]['value'];
                        [$rangeWS1, $startRowColRef] =
Worksheet::extractSheetTitle($startRowColRef, true);
                        $rangeSheetRef = $rangeWS1;
                        if ($rangeWS1 != '') {
                            $rangeWS1 .= '!';
                        }
                        [$rangeWS2, $val] =
Worksheet::extractSheetTitle($val, true);
                        if ($rangeWS2 != '') {
                            $rangeWS2 .= '!';
                        } else {
                            $rangeWS2 = $rangeWS1;
                        }
                        $refSheet = $pCellParent;
                        if ($pCellParent !== null && $rangeSheetRef
!== $pCellParent->getTitle()) {
                            $refSheet =
$pCellParent->getParent()->getSheetByName($rangeSheetRef);
                        }
                        if ((is_int($startRowColRef)) &&
(ctype_digit($val)) &&
                            ($startRowColRef <= 1048576) &&
($val <= 1048576)) {
                            //    Row range
                            $endRowColRef = ($refSheet !== null) ?
$refSheet->getHighestColumn() : 'XFD'; //    Max 16,384
columns for Excel2007
                            $output[count($output) - 1]['value']
= $rangeWS1 . 'A' . $startRowColRef;
                            $val = $rangeWS2 . $endRowColRef . $val;
                        } elseif ((ctype_alpha($startRowColRef)) &&
(ctype_alpha($val)) &&
                            (strlen($startRowColRef) <= 3) &&
(strlen($val) <= 3)) {
                            //    Column range
                            $endRowColRef = ($refSheet !== null) ?
$refSheet->getHighestRow() : 1048576; //    Max 1,048,576 rows for
Excel2007
                            $output[count($output) - 1]['value']
= $rangeWS1 . strtoupper($startRowColRef) . '1';
                            $val = $rangeWS2 . $val . $endRowColRef;
                        }
                    }

                    $localeConstant = false;
                    if ($opCharacter == '"') {
                        //    UnEscape any quotes within the string
                        $val =
self::wrapResult(str_replace('""', '"',
self::unwrapResult($val)));
                    } elseif (is_numeric($val)) {
                        if ((strpos($val, '.') !== false) ||
(stripos($val, 'e') !== false) || ($val > PHP_INT_MAX) ||
($val < -PHP_INT_MAX)) {
                            $val = (float) $val;
                        } else {
                            $val = (int) $val;
                        }
                    } elseif
(isset(self::$excelConstants[trim(strtoupper($val))])) {
                        $excelConstant = trim(strtoupper($val));
                        $val = self::$excelConstants[$excelConstant];
                    } elseif (($localeConstant =
array_search(trim(strtoupper($val)), self::$localeBoolean)) !== false) {
                        $val = self::$excelConstants[$localeConstant];
                    }
                    $details = $stack->getStackItem('Value',
$val, null, $currentCondition, $currentOnlyIf, $currentOnlyIfNot);
                    if ($localeConstant) {
                        $details['localeValue'] =
$localeConstant;
                    }
                    $output[] = $details;
                }
                $index += $length;
            } elseif ($opCharacter == '$') {    // absolute row
or column range
                ++$index;
            } elseif ($opCharacter == ')') {    // miscellaneous
error checking
                if ($expectingOperand) {
                    $output[] = ['type' => 'NULL
Value', 'value' =>
self::$excelConstants['NULL'], 'reference' => null];
                    $expectingOperand = false;
                    $expectingOperator = true;
                } else {
                    return $this->raiseFormulaError("Formula Error:
Unexpected ')'");
                }
            } elseif (isset(self::$operators[$opCharacter]) &&
!$expectingOperator) {
                return $this->raiseFormulaError("Formula Error:
Unexpected operator '$opCharacter'");
            } else {    // I don't even want to know what you did to
get here
                return $this->raiseFormulaError('Formula Error: An
unexpected error occured');
            }
            //    Test for end of formula string
            if ($index == strlen($formula)) {
                //    Did we end with an operator?.
                //    Only valid for the % unary operator
                if ((isset(self::$operators[$opCharacter])) &&
($opCharacter != '%')) {
                    return $this->raiseFormulaError("Formula Error:
Operator '$opCharacter' has no operands");
                }

                break;
            }
            //    Ignore white space
            while (($formula[$index] == "\n") ||
($formula[$index] == "\r")) {
                ++$index;
            }
            if ($formula[$index] == ' ') {
                while ($formula[$index] == ' ') {
                    ++$index;
                }
                //    If we're expecting an operator, but only have a
space between the previous and next operands (and both are
                //        Cell References) then we have an INTERSECTION
operator
                if (($expectingOperator) &&
(preg_match('/^' . self::CALCULATION_REGEXP_CELLREF .
'.*/Ui', substr($formula, $index), $match)) &&
                    ($output[count($output) - 1]['type'] ==
'Cell Reference')) {
                    while ($stack->count() > 0 &&
                        ($o2 = $stack->last()) &&
                        isset(self::$operators[$o2['value']])
&&
                        @(self::$operatorAssociativity[$opCharacter] ?
self::$operatorPrecedence[$opCharacter] <
self::$operatorPrecedence[$o2['value']] :
self::$operatorPrecedence[$opCharacter] <=
self::$operatorPrecedence[$o2['value']])) {
                        $output[] = $stack->pop(); //    Swap operands
and higher precedence operators from the stack to the output
                    }
                    $stack->push('Binary Operator',
'|'); //    Put an Intersect Operator on the stack
                    $expectingOperator = false;
                }
            }
        }

        while (($op = $stack->pop()) !== null) {    // pop everything
off the stack and push onto output
            if ((is_array($op) && $op['value'] ==
'(') || ($op === '(')) {
                return $this->raiseFormulaError("Formula Error:
Expecting ')'"); // if there are any opening braces on the
stack, then braces were unbalanced
            }
            $output[] = $op;
        }

        return $output;
    }

    private static function dataTestReference(&$operandData)
    {
        $operand = $operandData['value'];
        if (($operandData['reference'] === null) &&
(is_array($operand))) {
            $rKeys = array_keys($operand);
            $rowKey = array_shift($rKeys);
            $cKeys = array_keys(array_keys($operand[$rowKey]));
            $colKey = array_shift($cKeys);
            if (ctype_upper($colKey)) {
                $operandData['reference'] = $colKey . $rowKey;
            }
        }

        return $operand;
    }

    // evaluate postfix notation

    /**
     * @param mixed $tokens
     * @param null|string $cellID
     * @param null|Cell $pCell
     *
     * @return bool
     */
    private function processTokenStack($tokens, $cellID = null, Cell $pCell
= null)
    {
        if ($tokens == false) {
            return false;
        }

        //    If we're using cell caching, then $pCell may well be
flushed back to the cache (which detaches the parent cell collection),
        //        so we store the parent cell collection so that we can
re-attach it when necessary
        $pCellWorksheet = ($pCell !== null) ? $pCell->getWorksheet() :
null;
        $pCellParent = ($pCell !== null) ? $pCell->getParent() : null;
        $stack = new Stack();

        // Stores branches that have been pruned
        $fakedForBranchPruning = [];
        // help us to know when pruning ['branchTestId' =>
true/false]
        $branchStore = [];

        //    Loop through each token in turn
        foreach ($tokens as $tokenData) {
            $token = $tokenData['value'];

            // Branch pruning: skip useless resolutions
            $storeKey = $tokenData['storeKey'] ?? null;
            if ($this->branchPruningEnabled &&
isset($tokenData['onlyIf'])) {
                $onlyIfStoreKey = $tokenData['onlyIf'];
                $storeValue = $branchStore[$onlyIfStoreKey] ?? null;
                $storeValueAsBool = ($storeValue === null) ?
                    true : (bool)
Functions::flattenSingleValue($storeValue);
                if (is_array($storeValue)) {
                    $wrappedItem = end($storeValue);
                    $storeValue = end($wrappedItem);
                }

                if (isset($storeValue)
                    && (
                        !$storeValueAsBool
                        || Functions::isError($storeValue)
                        || ($storeValue === 'Pruned branch')
                    )
                ) {
                    // If branching value is not true, we don't need
to compute
                    if (!isset($fakedForBranchPruning['onlyIf-' .
$onlyIfStoreKey])) {
                        $stack->push('Value', 'Pruned
branch (only if ' . $onlyIfStoreKey . ') ' . $token);
                        $fakedForBranchPruning['onlyIf-' .
$onlyIfStoreKey] = true;
                    }

                    if (isset($storeKey)) {
                        // We are processing an if condition
                        // We cascade the pruning to the depending branches
                        $branchStore[$storeKey] = 'Pruned
branch';
                        $fakedForBranchPruning['onlyIfNot-' .
$storeKey] = true;
                        $fakedForBranchPruning['onlyIf-' .
$storeKey] = true;
                    }

                    continue;
                }
            }

            if ($this->branchPruningEnabled &&
isset($tokenData['onlyIfNot'])) {
                $onlyIfNotStoreKey = $tokenData['onlyIfNot'];
                $storeValue = $branchStore[$onlyIfNotStoreKey] ?? null;
                $storeValueAsBool = ($storeValue === null) ?
                    true : (bool)
Functions::flattenSingleValue($storeValue);
                if (is_array($storeValue)) {
                    $wrappedItem = end($storeValue);
                    $storeValue = end($wrappedItem);
                }
                if (isset($storeValue)
                    && (
                        $storeValueAsBool
                        || Functions::isError($storeValue)
                        || ($storeValue === 'Pruned branch'))
                ) {
                    // If branching value is true, we don't need to
compute
                    if
(!isset($fakedForBranchPruning['onlyIfNot-' .
$onlyIfNotStoreKey])) {
                        $stack->push('Value', 'Pruned
branch (only if not ' . $onlyIfNotStoreKey . ') ' . $token);
                        $fakedForBranchPruning['onlyIfNot-' .
$onlyIfNotStoreKey] = true;
                    }

                    if (isset($storeKey)) {
                        // We are processing an if condition
                        // We cascade the pruning to the depending branches
                        $branchStore[$storeKey] = 'Pruned
branch';
                        $fakedForBranchPruning['onlyIfNot-' .
$storeKey] = true;
                        $fakedForBranchPruning['onlyIf-' .
$storeKey] = true;
                    }

                    continue;
                }
            }

            // if the token is a binary operator, pop the top two values
off the stack, do the operation, and push the result back on the stack
            if (isset(self::$binaryOperators[$token])) {
                //    We must have two operands, error if we don't
                if (($operand2Data = $stack->pop()) === null) {
                    return $this->raiseFormulaError('Internal error
- Operand value missing from stack');
                }
                if (($operand1Data = $stack->pop()) === null) {
                    return $this->raiseFormulaError('Internal error
- Operand value missing from stack');
                }

                $operand1 = self::dataTestReference($operand1Data);
                $operand2 = self::dataTestReference($operand2Data);

                //    Log what we're doing
                if ($token == ':') {
                    $this->debugLog->writeDebugLog('Evaluating
Range ', $this->showValue($operand1Data['reference']),
' ', $token, ' ',
$this->showValue($operand2Data['reference']));
                } else {
                    $this->debugLog->writeDebugLog('Evaluating
', $this->showValue($operand1), ' ', $token, '
', $this->showValue($operand2));
                }

                //    Process the operation in the appropriate manner
                switch ($token) {
                    //    Comparison (Boolean) Operators
                    case '>':            //    Greater than
                    case '<':            //    Less than
                    case '>=':            //    Greater than
or Equal to
                    case '<=':            //    Less than or
Equal to
                    case '=':            //    Equality
                    case '<>':            //    Inequality
                        $result =
$this->executeBinaryComparisonOperation($cellID, $operand1, $operand2,
$token, $stack);
                        if (isset($storeKey)) {
                            $branchStore[$storeKey] = $result;
                        }

                        break;
                    //    Binary Operators
                    case ':':            //    Range
                        if (strpos($operand1Data['reference'],
'!') !== false) {
                            [$sheet1, $operand1Data['reference']]
= Worksheet::extractSheetTitle($operand1Data['reference'], true);
                        } else {
                            $sheet1 = ($pCellParent !== null) ?
$pCellWorksheet->getTitle() : '';
                        }

                        [$sheet2, $operand2Data['reference']] =
Worksheet::extractSheetTitle($operand2Data['reference'], true);
                        if (empty($sheet2)) {
                            $sheet2 = $sheet1;
                        }

                        if ($sheet1 == $sheet2) {
                            if ($operand1Data['reference'] ===
null) {
                                if ((trim($operand1Data['value'])
!= '') && (is_numeric($operand1Data['value'])))
{
                                    $operand1Data['reference'] =
$pCell->getColumn() . $operand1Data['value'];
                                } elseif
(trim($operand1Data['reference']) == '') {
                                    $operand1Data['reference'] =
$pCell->getCoordinate();
                                } else {
                                    $operand1Data['reference'] =
$operand1Data['value'] . $pCell->getRow();
                                }
                            }
                            if ($operand2Data['reference'] ===
null) {
                                if ((trim($operand2Data['value'])
!= '') && (is_numeric($operand2Data['value'])))
{
                                    $operand2Data['reference'] =
$pCell->getColumn() . $operand2Data['value'];
                                } elseif
(trim($operand2Data['reference']) == '') {
                                    $operand2Data['reference'] =
$pCell->getCoordinate();
                                } else {
                                    $operand2Data['reference'] =
$operand2Data['value'] . $pCell->getRow();
                                }
                            }

                            $oData = array_merge(explode(':',
$operand1Data['reference']), explode(':',
$operand2Data['reference']));
                            $oCol = $oRow = [];
                            foreach ($oData as $oDatum) {
                                $oCR =
Coordinate::coordinateFromString($oDatum);
                                $oCol[] =
Coordinate::columnIndexFromString($oCR[0]) - 1;
                                $oRow[] = $oCR[1];
                            }
                            $cellRef =
Coordinate::stringFromColumnIndex(min($oCol) + 1) . min($oRow) .
':' . Coordinate::stringFromColumnIndex(max($oCol) + 1) .
max($oRow);
                            if ($pCellParent !== null) {
                                $cellValue =
$this->extractCellRange($cellRef,
$this->spreadsheet->getSheetByName($sheet1), false);
                            } else {
                                return
$this->raiseFormulaError('Unable to access Cell Reference');
                            }
                            $stack->push('Cell Reference',
$cellValue, $cellRef);
                        } else {
                            $stack->push('Error',
Functions::REF(), null);
                        }

                        break;
                    case '+':            //    Addition
                        $result =
$this->executeNumericBinaryOperation($operand1, $operand2, $token,
'plusEquals', $stack);
                        if (isset($storeKey)) {
                            $branchStore[$storeKey] = $result;
                        }

                        break;
                    case '-':            //    Subtraction
                        $result =
$this->executeNumericBinaryOperation($operand1, $operand2, $token,
'minusEquals', $stack);
                        if (isset($storeKey)) {
                            $branchStore[$storeKey] = $result;
                        }

                        break;
                    case '*':            //    Multiplication
                        $result =
$this->executeNumericBinaryOperation($operand1, $operand2, $token,
'arrayTimesEquals', $stack);
                        if (isset($storeKey)) {
                            $branchStore[$storeKey] = $result;
                        }

                        break;
                    case '/':            //    Division
                        $result =
$this->executeNumericBinaryOperation($operand1, $operand2, $token,
'arrayRightDivide', $stack);
                        if (isset($storeKey)) {
                            $branchStore[$storeKey] = $result;
                        }

                        break;
                    case '^':            //    Exponential
                        $result =
$this->executeNumericBinaryOperation($operand1, $operand2, $token,
'power', $stack);
                        if (isset($storeKey)) {
                            $branchStore[$storeKey] = $result;
                        }

                        break;
                    case '&':            //    Concatenation
                        //    If either of the operands is a matrix, we
need to treat them both as matrices
                        //        (converting the other operand to a matrix
if need be); then perform the required
                        //        matrix operation
                        if (is_bool($operand1)) {
                            $operand1 = ($operand1) ?
self::$localeBoolean['TRUE'] :
self::$localeBoolean['FALSE'];
                        }
                        if (is_bool($operand2)) {
                            $operand2 = ($operand2) ?
self::$localeBoolean['TRUE'] :
self::$localeBoolean['FALSE'];
                        }
                        if ((is_array($operand1)) || (is_array($operand2)))
{
                            //    Ensure that both operands are
arrays/matrices
                            self::checkMatrixOperands($operand1, $operand2,
2);

                            try {
                                //    Convert operand 1 from a PHP array to
a matrix
                                $matrix = new
Shared\JAMA\Matrix($operand1);
                                //    Perform the required operation
against the operand 1 matrix, passing in operand 2
                                $matrixResult =
$matrix->concat($operand2);
                                $result = $matrixResult->getArray();
                            } catch (\Exception $ex) {
                               
$this->debugLog->writeDebugLog('JAMA Matrix Exception: ',
$ex->getMessage());
                                $result = '#VALUE!';
                            }
                        } else {
                            $result = '"' .
str_replace('""', '"',
self::unwrapResult($operand1) . self::unwrapResult($operand2)) .
'"';
                        }
                       
$this->debugLog->writeDebugLog('Evaluation Result is ',
$this->showTypeDetails($result));
                        $stack->push('Value', $result);

                        if (isset($storeKey)) {
                            $branchStore[$storeKey] = $result;
                        }

                        break;
                    case '|':            //    Intersect
                        $rowIntersect = array_intersect_key($operand1,
$operand2);
                        $cellIntersect = $oCol = $oRow = [];
                        foreach (array_keys($rowIntersect) as $row) {
                            $oRow[] = $row;
                            foreach ($rowIntersect[$row] as $col =>
$data) {
                                $oCol[] =
Coordinate::columnIndexFromString($col) - 1;
                                $cellIntersect[$row] =
array_intersect_key($operand1[$row], $operand2[$row]);
                            }
                        }
                        $cellRef =
Coordinate::stringFromColumnIndex(min($oCol) + 1) . min($oRow) .
':' . Coordinate::stringFromColumnIndex(max($oCol) + 1) .
max($oRow);
                       
$this->debugLog->writeDebugLog('Evaluation Result is ',
$this->showTypeDetails($cellIntersect));
                        $stack->push('Value', $cellIntersect,
$cellRef);

                        break;
                }

                // if the token is a unary operator, pop one value off the
stack, do the operation, and push it back on
            } elseif (($token === '~') || ($token ===
'%')) {
                if (($arg = $stack->pop()) === null) {
                    return $this->raiseFormulaError('Internal error
- Operand value missing from stack');
                }
                $arg = $arg['value'];
                if ($token === '~') {
                    $this->debugLog->writeDebugLog('Evaluating
Negation of ', $this->showValue($arg));
                    $multiplier = -1;
                } else {
                    $this->debugLog->writeDebugLog('Evaluating
Percentile of ', $this->showValue($arg));
                    $multiplier = 0.01;
                }
                if (is_array($arg)) {
                    self::checkMatrixOperands($arg, $multiplier, 2);

                    try {
                        $matrix1 = new Shared\JAMA\Matrix($arg);
                        $matrixResult =
$matrix1->arrayTimesEquals($multiplier);
                        $result = $matrixResult->getArray();
                    } catch (\Exception $ex) {
                        $this->debugLog->writeDebugLog('JAMA
Matrix Exception: ', $ex->getMessage());
                        $result = '#VALUE!';
                    }
                    $this->debugLog->writeDebugLog('Evaluation
Result is ', $this->showTypeDetails($result));
                    $stack->push('Value', $result);
                    if (isset($storeKey)) {
                        $branchStore[$storeKey] = $result;
                    }
                } else {
                    $this->executeNumericBinaryOperation($multiplier,
$arg, '*', 'arrayTimesEquals', $stack);
                }
            } elseif (preg_match('/^' .
self::CALCULATION_REGEXP_CELLREF . '$/i', $token, $matches)) {
                $cellRef = null;
                if (isset($matches[8])) {
                    if ($pCell === null) {
                        //                        We can't access the
range, so return a REF error
                        $cellValue = Functions::REF();
                    } else {
                        $cellRef = $matches[6] . $matches[7] .
':' . $matches[9] . $matches[10];
                        if ($matches[2] > '') {
                            $matches[2] = trim($matches[2],
"\"'");
                            if ((strpos($matches[2], '[') !==
false) || (strpos($matches[2], ']') !== false)) {
                                //    It's a Reference to an external
spreadsheet (not currently supported)
                                return
$this->raiseFormulaError('Unable to access External
Workbook');
                            }
                            $matches[2] = trim($matches[2],
"\"'");
                           
$this->debugLog->writeDebugLog('Evaluating Cell Range ',
$cellRef, ' in worksheet ', $matches[2]);
                            if ($pCellParent !== null) {
                                $cellValue =
$this->extractCellRange($cellRef,
$this->spreadsheet->getSheetByName($matches[2]), false);
                            } else {
                                return
$this->raiseFormulaError('Unable to access Cell Reference');
                            }
                           
$this->debugLog->writeDebugLog('Evaluation Result for cells
', $cellRef, ' in worksheet ', $matches[2], ' is
', $this->showTypeDetails($cellValue));
                        } else {
                           
$this->debugLog->writeDebugLog('Evaluating Cell Range ',
$cellRef, ' in current worksheet');
                            if ($pCellParent !== null) {
                                $cellValue =
$this->extractCellRange($cellRef, $pCellWorksheet, false);
                            } else {
                                return
$this->raiseFormulaError('Unable to access Cell Reference');
                            }
                           
$this->debugLog->writeDebugLog('Evaluation Result for cells
', $cellRef, ' is ', $this->showTypeDetails($cellValue));
                        }
                    }
                } else {
                    if ($pCell === null) {
                        //                        We can't access the
cell, so return a REF error
                        $cellValue = Functions::REF();
                    } else {
                        $cellRef = $matches[6] . $matches[7];
                        if ($matches[2] > '') {
                            $matches[2] = trim($matches[2],
"\"'");
                            if ((strpos($matches[2], '[') !==
false) || (strpos($matches[2], ']') !== false)) {
                                //    It's a Reference to an external
spreadsheet (not currently supported)
                                return
$this->raiseFormulaError('Unable to access External
Workbook');
                            }
                           
$this->debugLog->writeDebugLog('Evaluating Cell ',
$cellRef, ' in worksheet ', $matches[2]);
                            if ($pCellParent !== null) {
                                $cellSheet =
$this->spreadsheet->getSheetByName($matches[2]);
                                if ($cellSheet &&
$cellSheet->cellExists($cellRef)) {
                                    $cellValue =
$this->extractCellRange($cellRef,
$this->spreadsheet->getSheetByName($matches[2]), false);
                                    $pCell->attach($pCellParent);
                                } else {
                                    $cellValue = null;
                                }
                            } else {
                                return
$this->raiseFormulaError('Unable to access Cell Reference');
                            }
                           
$this->debugLog->writeDebugLog('Evaluation Result for cell
', $cellRef, ' in worksheet ', $matches[2], ' is
', $this->showTypeDetails($cellValue));
                        } else {
                           
$this->debugLog->writeDebugLog('Evaluating Cell ',
$cellRef, ' in current worksheet');
                            if ($pCellParent->has($cellRef)) {
                                $cellValue =
$this->extractCellRange($cellRef, $pCellWorksheet, false);
                                $pCell->attach($pCellParent);
                            } else {
                                $cellValue = null;
                            }
                           
$this->debugLog->writeDebugLog('Evaluation Result for cell
', $cellRef, ' is ', $this->showTypeDetails($cellValue));
                        }
                    }
                }
                $stack->push('Value', $cellValue, $cellRef);
                if (isset($storeKey)) {
                    $branchStore[$storeKey] = $cellValue;
                }

                // if the token is a function, pop arguments off the stack,
hand them to the function, and push the result back on
            } elseif (preg_match('/^' .
self::CALCULATION_REGEXP_FUNCTION . '$/i', $token, $matches)) {
                if ($pCellParent) {
                    $pCell->attach($pCellParent);
                }

                $functionName = $matches[1];
                $argCount = $stack->pop();
                $argCount = $argCount['value'];
                if ($functionName != 'MKMATRIX') {
                    $this->debugLog->writeDebugLog('Evaluating
Function ', self::localeFunc($functionName), '() with ',
(($argCount == 0) ? 'no' : $argCount), ' argument',
(($argCount == 1) ? '' : 's'));
                }
                if ((isset(self::$phpSpreadsheetFunctions[$functionName]))
|| (isset(self::$controlFunctions[$functionName]))) {    // function
                    if
(isset(self::$phpSpreadsheetFunctions[$functionName])) {
                        $functionCall =
self::$phpSpreadsheetFunctions[$functionName]['functionCall'];
                        $passByReference =
isset(self::$phpSpreadsheetFunctions[$functionName]['passByReference']);
                        $passCellReference =
isset(self::$phpSpreadsheetFunctions[$functionName]['passCellReference']);
                    } elseif
(isset(self::$controlFunctions[$functionName])) {
                        $functionCall =
self::$controlFunctions[$functionName]['functionCall'];
                        $passByReference =
isset(self::$controlFunctions[$functionName]['passByReference']);
                        $passCellReference =
isset(self::$controlFunctions[$functionName]['passCellReference']);
                    }
                    // get the arguments for this function
                    $args = $argArrayVals = [];
                    for ($i = 0; $i < $argCount; ++$i) {
                        $arg = $stack->pop();
                        $a = $argCount - $i - 1;
                        if (($passByReference) &&
                           
(isset(self::$phpSpreadsheetFunctions[$functionName]['passByReference'][$a]))
&&
                           
(self::$phpSpreadsheetFunctions[$functionName]['passByReference'][$a]))
{
                            if ($arg['reference'] === null) {
                                $args[] = $cellID;
                                if ($functionName != 'MKMATRIX')
{
                                    $argArrayVals[] =
$this->showValue($cellID);
                                }
                            } else {
                                $args[] = $arg['reference'];
                                if ($functionName != 'MKMATRIX')
{
                                    $argArrayVals[] =
$this->showValue($arg['reference']);
                                }
                            }
                        } else {
                            $args[] =
self::unwrapResult($arg['value']);
                            if ($functionName != 'MKMATRIX') {
                                $argArrayVals[] =
$this->showValue($arg['value']);
                            }
                        }
                    }

                    //    Reverse the order of the arguments
                    krsort($args);

                    if (($passByReference) && ($argCount == 0)) {
                        $args[] = $cellID;
                        $argArrayVals[] = $this->showValue($cellID);
                    }

                    if ($functionName != 'MKMATRIX') {
                        if ($this->debugLog->getWriteDebugLog()) {
                            krsort($argArrayVals);
                           
$this->debugLog->writeDebugLog('Evaluating ',
self::localeFunc($functionName), '( ',
implode(self::$localeArgumentSeparator . ' ',
Functions::flattenArray($argArrayVals)), ' )');
                        }
                    }

                    //    Process the argument with the appropriate
function call
                    $args = $this->addCellReference($args,
$passCellReference, $functionCall, $pCell);

                    if (!is_array($functionCall)) {
                        foreach ($args as &$arg) {
                            $arg = Functions::flattenSingleValue($arg);
                        }
                        unset($arg);
                    }

                    $result = call_user_func_array($functionCall, $args);

                    if ($functionName != 'MKMATRIX') {
                       
$this->debugLog->writeDebugLog('Evaluation Result for ',
self::localeFunc($functionName), '() function call is ',
$this->showTypeDetails($result));
                    }
                    $stack->push('Value',
self::wrapResult($result));
                    if (isset($storeKey)) {
                        $branchStore[$storeKey] = $result;
                    }
                }
            } else {
                // if the token is a number, boolean, string or an Excel
error, push it onto the stack
                if (isset(self::$excelConstants[strtoupper($token)])) {
                    $excelConstant = strtoupper($token);
                    $stack->push('Constant Value',
self::$excelConstants[$excelConstant]);
                    if (isset($storeKey)) {
                        $branchStore[$storeKey] =
self::$excelConstants[$excelConstant];
                    }
                    $this->debugLog->writeDebugLog('Evaluating
Constant ', $excelConstant, ' as ',
$this->showTypeDetails(self::$excelConstants[$excelConstant]));
                } elseif ((is_numeric($token)) || ($token === null) ||
(is_bool($token)) || ($token == '') || ($token[0] ==
'"') || ($token[0] == '#')) {
                    $stack->push('Value', $token);
                    if (isset($storeKey)) {
                        $branchStore[$storeKey] = $token;
                    }
                    // if the token is a named range, push the named range
name onto the stack
                } elseif (preg_match('/^' .
self::CALCULATION_REGEXP_NAMEDRANGE . '$/i', $token, $matches)) {
                    $namedRange = $matches[6];
                    $this->debugLog->writeDebugLog('Evaluating
Named Range ', $namedRange);

                    $cellValue = $this->extractNamedRange($namedRange,
((null !== $pCell) ? $pCellWorksheet : null), false);
                    $pCell->attach($pCellParent);
                    $this->debugLog->writeDebugLog('Evaluation
Result for named range ', $namedRange, ' is ',
$this->showTypeDetails($cellValue));
                    $stack->push('Named Range', $cellValue,
$namedRange);
                    if (isset($storeKey)) {
                        $branchStore[$storeKey] = $cellValue;
                    }
                } else {
                    return $this->raiseFormulaError("undefined
variable '$token'");
                }
            }
        }
        // when we're out of tokens, the stack should have a single
element, the final result
        if ($stack->count() != 1) {
            return $this->raiseFormulaError('internal error');
        }
        $output = $stack->pop();
        $output = $output['value'];

        return $output;
    }

    private function validateBinaryOperand(&$operand, &$stack)
    {
        if (is_array($operand)) {
            if ((count($operand, COUNT_RECURSIVE) - count($operand)) == 1)
{
                do {
                    $operand = array_pop($operand);
                } while (is_array($operand));
            }
        }
        //    Numbers, matrices and booleans can pass straight through, as
they're already valid
        if (is_string($operand)) {
            //    We only need special validations for the operand if it is
a string
            //    Start by stripping off the quotation marks we use to
identify true excel string values internally
            if ($operand > '' && $operand[0] ==
'"') {
                $operand = self::unwrapResult($operand);
            }
            //    If the string is a numeric value, we treat it as a
numeric, so no further testing
            if (!is_numeric($operand)) {
                //    If not a numeric, test to see if the value is an
Excel error, and so can't be used in normal binary operations
                if ($operand > '' && $operand[0] ==
'#') {
                    $stack->push('Value', $operand);
                    $this->debugLog->writeDebugLog('Evaluation
Result is ', $this->showTypeDetails($operand));

                    return false;
                } elseif
(!Shared\StringHelper::convertToNumberIfFraction($operand)) {
                    //    If not a numeric or a fraction, then it's a
text string, and so can't be used in mathematical binary operations
                    $stack->push('Value',
'#VALUE!');
                    $this->debugLog->writeDebugLog('Evaluation
Result is a ', $this->showTypeDetails('#VALUE!'));

                    return false;
                }
            }
        }

        //    return a true if the value of the operand is one that we can
use in normal binary operations
        return true;
    }

    /**
     * @param null|string $cellID
     * @param mixed $operand1
     * @param mixed $operand2
     * @param string $operation
     * @param Stack $stack
     * @param bool $recursingArrays
     *
     * @return mixed
     */
    private function executeBinaryComparisonOperation($cellID, $operand1,
$operand2, $operation, Stack &$stack, $recursingArrays = false)
    {
        //    If we're dealing with matrix operations, we want a
matrix result
        if ((is_array($operand1)) || (is_array($operand2))) {
            $result = [];
            if ((is_array($operand1)) && (!is_array($operand2))) {
                foreach ($operand1 as $x => $operandData) {
                    $this->debugLog->writeDebugLog('Evaluating
Comparison ', $this->showValue($operandData), ' ',
$operation, ' ', $this->showValue($operand2));
                    $this->executeBinaryComparisonOperation($cellID,
$operandData, $operand2, $operation, $stack);
                    $r = $stack->pop();
                    $result[$x] = $r['value'];
                }
            } elseif ((!is_array($operand1)) &&
(is_array($operand2))) {
                foreach ($operand2 as $x => $operandData) {
                    $this->debugLog->writeDebugLog('Evaluating
Comparison ', $this->showValue($operand1), ' ',
$operation, ' ', $this->showValue($operandData));
                    $this->executeBinaryComparisonOperation($cellID,
$operand1, $operandData, $operation, $stack);
                    $r = $stack->pop();
                    $result[$x] = $r['value'];
                }
            } else {
                if (!$recursingArrays) {
                    self::checkMatrixOperands($operand1, $operand2, 2);
                }
                foreach ($operand1 as $x => $operandData) {
                    $this->debugLog->writeDebugLog('Evaluating
Comparison ', $this->showValue($operandData), ' ',
$operation, ' ', $this->showValue($operand2[$x]));
                    $this->executeBinaryComparisonOperation($cellID,
$operandData, $operand2[$x], $operation, $stack, true);
                    $r = $stack->pop();
                    $result[$x] = $r['value'];
                }
            }
            //    Log the result details
            $this->debugLog->writeDebugLog('Comparison
Evaluation Result is ', $this->showTypeDetails($result));
            //    And push the result onto the stack
            $stack->push('Array', $result);

            return $result;
        }

        //    Simple validate the two operands if they are string values
        if (is_string($operand1) && $operand1 > ''
&& $operand1[0] == '"') {
            $operand1 = self::unwrapResult($operand1);
        }
        if (is_string($operand2) && $operand2 > ''
&& $operand2[0] == '"') {
            $operand2 = self::unwrapResult($operand2);
        }

        // Use case insensitive comparaison if not OpenOffice mode
        if (Functions::getCompatibilityMode() !=
Functions::COMPATIBILITY_OPENOFFICE) {
            if (is_string($operand1)) {
                $operand1 = strtoupper($operand1);
            }
            if (is_string($operand2)) {
                $operand2 = strtoupper($operand2);
            }
        }

        $useLowercaseFirstComparison = is_string($operand1) &&
is_string($operand2) && Functions::getCompatibilityMode() ==
Functions::COMPATIBILITY_OPENOFFICE;

        //    execute the necessary operation
        switch ($operation) {
            //    Greater than
            case '>':
                if ($useLowercaseFirstComparison) {
                    $result = $this->strcmpLowercaseFirst($operand1,
$operand2) > 0;
                } else {
                    $result = ($operand1 > $operand2);
                }

                break;
            //    Less than
            case '<':
                if ($useLowercaseFirstComparison) {
                    $result = $this->strcmpLowercaseFirst($operand1,
$operand2) < 0;
                } else {
                    $result = ($operand1 < $operand2);
                }

                break;
            //    Equality
            case '=':
                if (is_numeric($operand1) && is_numeric($operand2))
{
                    $result = (abs($operand1 - $operand2) <
$this->delta);
                } else {
                    $result = strcmp($operand1, $operand2) == 0;
                }

                break;
            //    Greater than or equal
            case '>=':
                if (is_numeric($operand1) && is_numeric($operand2))
{
                    $result = ((abs($operand1 - $operand2) <
$this->delta) || ($operand1 > $operand2));
                } elseif ($useLowercaseFirstComparison) {
                    $result = $this->strcmpLowercaseFirst($operand1,
$operand2) >= 0;
                } else {
                    $result = strcmp($operand1, $operand2) >= 0;
                }

                break;
            //    Less than or equal
            case '<=':
                if (is_numeric($operand1) && is_numeric($operand2))
{
                    $result = ((abs($operand1 - $operand2) <
$this->delta) || ($operand1 < $operand2));
                } elseif ($useLowercaseFirstComparison) {
                    $result = $this->strcmpLowercaseFirst($operand1,
$operand2) <= 0;
                } else {
                    $result = strcmp($operand1, $operand2) <= 0;
                }

                break;
            //    Inequality
            case '<>':
                if (is_numeric($operand1) && is_numeric($operand2))
{
                    $result = (abs($operand1 - $operand2) > 1E-14);
                } else {
                    $result = strcmp($operand1, $operand2) != 0;
                }

                break;
        }

        //    Log the result details
        $this->debugLog->writeDebugLog('Evaluation Result is
', $this->showTypeDetails($result));
        //    And push the result onto the stack
        $stack->push('Value', $result);

        return $result;
    }

    /**
     * Compare two strings in the same way as strcmp() except that
lowercase come before uppercase letters.
     *
     * @param string $str1 First string value for the comparison
     * @param string $str2 Second string value for the comparison
     *
     * @return int
     */
    private function strcmpLowercaseFirst($str1, $str2)
    {
        $inversedStr1 = Shared\StringHelper::strCaseReverse($str1);
        $inversedStr2 = Shared\StringHelper::strCaseReverse($str2);

        return strcmp($inversedStr1, $inversedStr2);
    }

    /**
     * @param mixed $operand1
     * @param mixed $operand2
     * @param mixed $operation
     * @param string $matrixFunction
     * @param mixed $stack
     *
     * @return bool|mixed
     */
    private function executeNumericBinaryOperation($operand1, $operand2,
$operation, $matrixFunction, &$stack)
    {
        //    Validate the two operands
        if (!$this->validateBinaryOperand($operand1, $stack)) {
            return false;
        }
        if (!$this->validateBinaryOperand($operand2, $stack)) {
            return false;
        }

        //    If either of the operands is a matrix, we need to treat them
both as matrices
        //        (converting the other operand to a matrix if need be);
then perform the required
        //        matrix operation
        if ((is_array($operand1)) || (is_array($operand2))) {
            //    Ensure that both operands are arrays/matrices of the same
size
            self::checkMatrixOperands($operand1, $operand2, 2);

            try {
                //    Convert operand 1 from a PHP array to a matrix
                $matrix = new Shared\JAMA\Matrix($operand1);
                //    Perform the required operation against the operand 1
matrix, passing in operand 2
                $matrixResult = $matrix->$matrixFunction($operand2);
                $result = $matrixResult->getArray();
            } catch (\Exception $ex) {
                $this->debugLog->writeDebugLog('JAMA Matrix
Exception: ', $ex->getMessage());
                $result = '#VALUE!';
            }
        } else {
            if ((Functions::getCompatibilityMode() !=
Functions::COMPATIBILITY_OPENOFFICE) &&
                ((is_string($operand1) && !is_numeric($operand1)
&& strlen($operand1) > 0) ||
                 (is_string($operand2) && !is_numeric($operand2)
&& strlen($operand2) > 0))) {
                $result = Functions::VALUE();
            } else {
                //    If we're dealing with non-matrix operations,
execute the necessary operation
                switch ($operation) {
                    //    Addition
                    case '+':
                        $result = $operand1 + $operand2;

                        break;
                    //    Subtraction
                    case '-':
                        $result = $operand1 - $operand2;

                        break;
                    //    Multiplication
                    case '*':
                        $result = $operand1 * $operand2;

                        break;
                    //    Division
                    case '/':
                        if ($operand2 == 0) {
                            //    Trap for Divide by Zero error
                            $stack->push('Value',
'#DIV/0!');
                           
$this->debugLog->writeDebugLog('Evaluation Result is ',
$this->showTypeDetails('#DIV/0!'));

                            return false;
                        }
                            $result = $operand1 / $operand2;

                        break;
                    //    Power
                    case '^':
                        $result = pow($operand1, $operand2);

                        break;
                }
            }
        }

        //    Log the result details
        $this->debugLog->writeDebugLog('Evaluation Result is
', $this->showTypeDetails($result));
        //    And push the result onto the stack
        $stack->push('Value', $result);

        return $result;
    }

    // trigger an error, but nicely, if need be
    protected function raiseFormulaError($errorMessage)
    {
        $this->formulaError = $errorMessage;
        $this->cyclicReferenceStack->clear();
        if (!$this->suppressFormulaErrors) {
            throw new Exception($errorMessage);
        }
        trigger_error($errorMessage, E_USER_ERROR);

        return false;
    }

    /**
     * Extract range values.
     *
     * @param string &$pRange String based range representation
     * @param Worksheet $pSheet Worksheet
     * @param bool $resetLog Flag indicating whether calculation log should
be reset or not
     *
     * @return mixed Array of values in range if range contains more than
one element. Otherwise, a single value is returned.
     */
    public function extractCellRange(&$pRange = 'A1',
Worksheet $pSheet = null, $resetLog = true)
    {
        // Return value
        $returnValue = [];

        if ($pSheet !== null) {
            $pSheetName = $pSheet->getTitle();
            if (strpos($pRange, '!') !== false) {
                [$pSheetName, $pRange] =
Worksheet::extractSheetTitle($pRange, true);
                $pSheet =
$this->spreadsheet->getSheetByName($pSheetName);
            }

            // Extract range
            $aReferences =
Coordinate::extractAllCellReferencesInRange($pRange);
            $pRange = $pSheetName . '!' . $pRange;
            if (!isset($aReferences[1])) {
                $currentCol = '';
                $currentRow = 0;
                //    Single cell in range
                sscanf($aReferences[0], '%[A-Z]%d', $currentCol,
$currentRow);
                if ($pSheet->cellExists($aReferences[0])) {
                    $returnValue[$currentRow][$currentCol] =
$pSheet->getCell($aReferences[0])->getCalculatedValue($resetLog);
                } else {
                    $returnValue[$currentRow][$currentCol] = null;
                }
            } else {
                // Extract cell data for all cells in the range
                foreach ($aReferences as $reference) {
                    $currentCol = '';
                    $currentRow = 0;
                    // Extract range
                    sscanf($reference, '%[A-Z]%d', $currentCol,
$currentRow);
                    if ($pSheet->cellExists($reference)) {
                        $returnValue[$currentRow][$currentCol] =
$pSheet->getCell($reference)->getCalculatedValue($resetLog);
                    } else {
                        $returnValue[$currentRow][$currentCol] = null;
                    }
                }
            }
        }

        return $returnValue;
    }

    /**
     * Extract range values.
     *
     * @param string &$pRange String based range representation
     * @param Worksheet $pSheet Worksheet
     * @param bool $resetLog Flag indicating whether calculation log should
be reset or not
     *
     * @return mixed Array of values in range if range contains more than
one element. Otherwise, a single value is returned.
     */
    public function extractNamedRange(&$pRange = 'A1',
Worksheet $pSheet = null, $resetLog = true)
    {
        // Return value
        $returnValue = [];

        if ($pSheet !== null) {
            $pSheetName = $pSheet->getTitle();
            if (strpos($pRange, '!') !== false) {
                [$pSheetName, $pRange] =
Worksheet::extractSheetTitle($pRange, true);
                $pSheet =
$this->spreadsheet->getSheetByName($pSheetName);
            }

            // Named range?
            $namedRange = NamedRange::resolveRange($pRange, $pSheet);
            if ($namedRange !== null) {
                $pSheet = $namedRange->getWorksheet();
                $pRange = $namedRange->getRange();
                $splitRange = Coordinate::splitRange($pRange);
                //    Convert row and column references
                if (ctype_alpha($splitRange[0][0])) {
                    $pRange = $splitRange[0][0] . '1:' .
$splitRange[0][1] . $namedRange->getWorksheet()->getHighestRow();
                } elseif (ctype_digit($splitRange[0][0])) {
                    $pRange = 'A' . $splitRange[0][0] .
':' . $namedRange->getWorksheet()->getHighestColumn() .
$splitRange[0][1];
                }
            } else {
                return Functions::REF();
            }

            // Extract range
            $aReferences =
Coordinate::extractAllCellReferencesInRange($pRange);
            if (!isset($aReferences[1])) {
                //    Single cell (or single column or row) in range
                [$currentCol, $currentRow] =
Coordinate::coordinateFromString($aReferences[0]);
                if ($pSheet->cellExists($aReferences[0])) {
                    $returnValue[$currentRow][$currentCol] =
$pSheet->getCell($aReferences[0])->getCalculatedValue($resetLog);
                } else {
                    $returnValue[$currentRow][$currentCol] = null;
                }
            } else {
                // Extract cell data for all cells in the range
                foreach ($aReferences as $reference) {
                    // Extract range
                    [$currentCol, $currentRow] =
Coordinate::coordinateFromString($reference);
                    if ($pSheet->cellExists($reference)) {
                        $returnValue[$currentRow][$currentCol] =
$pSheet->getCell($reference)->getCalculatedValue($resetLog);
                    } else {
                        $returnValue[$currentRow][$currentCol] = null;
                    }
                }
            }
        }

        return $returnValue;
    }

    /**
     * Is a specific function implemented?
     *
     * @param string $pFunction Function Name
     *
     * @return bool
     */
    public function isImplemented($pFunction)
    {
        $pFunction = strtoupper($pFunction);
        $notImplemented =
!isset(self::$phpSpreadsheetFunctions[$pFunction]) ||
(is_array(self::$phpSpreadsheetFunctions[$pFunction]['functionCall'])
&&
self::$phpSpreadsheetFunctions[$pFunction]['functionCall'][1] ===
'DUMMY');

        return !$notImplemented;
    }

    /**
     * Get a list of all implemented functions as an array of function
objects.
     *
     * @return array of Category
     */
    public function getFunctions()
    {
        return self::$phpSpreadsheetFunctions;
    }

    /**
     * Get a list of implemented Excel function names.
     *
     * @return array
     */
    public function getImplementedFunctionNames()
    {
        $returnValue = [];
        foreach (self::$phpSpreadsheetFunctions as $functionName =>
$function) {
            if ($this->isImplemented($functionName)) {
                $returnValue[] = $functionName;
            }
        }

        return $returnValue;
    }

    /**
     * Add cell reference if needed while making sure that it is the last
argument.
     *
     * @param array $args
     * @param bool $passCellReference
     * @param array|string $functionCall
     * @param null|Cell $pCell
     *
     * @return array
     */
    private function addCellReference(array $args, $passCellReference,
$functionCall, Cell $pCell = null)
    {
        if ($passCellReference) {
            if (is_array($functionCall)) {
                $className = $functionCall[0];
                $methodName = $functionCall[1];

                $reflectionMethod = new \ReflectionMethod($className,
$methodName);
                $argumentCount =
count($reflectionMethod->getParameters());
                while (count($args) < $argumentCount - 1) {
                    $args[] = null;
                }
            }

            $args[] = $pCell;
        }

        return $args;
    }

    private function getUnusedBranchStoreKey()
    {
        $storeKeyValue = 'storeKey-' .
$this->branchStoreKeyCounter;
        ++$this->branchStoreKeyCounter;

        return $storeKeyValue;
    }

    private function getTokensAsString($tokens)
    {
        $tokensStr = array_map(function ($token) {
            $value = $token['value'] ?? 'no value';
            while (is_array($value)) {
                $value = array_pop($value);
            }

            return $value;
        }, $tokens);

        return '[ ' . implode(' | ', $tokensStr) .
' ]';
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/Category.php000064400000001175151165413710023265
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Calculation;

abstract class Category
{
    // Function categories
    const CATEGORY_CUBE = 'Cube';
    const CATEGORY_DATABASE = 'Database';
    const CATEGORY_DATE_AND_TIME = 'Date and Time';
    const CATEGORY_ENGINEERING = 'Engineering';
    const CATEGORY_FINANCIAL = 'Financial';
    const CATEGORY_INFORMATION = 'Information';
    const CATEGORY_LOGICAL = 'Logical';
    const CATEGORY_LOOKUP_AND_REFERENCE = 'Lookup and Reference';
    const CATEGORY_MATH_AND_TRIG = 'Math and Trig';
    const CATEGORY_STATISTICAL = 'Statistical';
    const CATEGORY_TEXT_AND_DATA = 'Text and Data';
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/Database.php000064400000074022151165413710023215
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Calculation;

class Database
{
    /**
     * fieldExtract.
     *
     * Extracts the column ID to use for the data field.
     *
     * @param mixed[] $database The range of cells that makes up the list
or database.
     *                                        A database is a list of
related data in which rows of related
     *                                        information are records, and
columns of data are fields. The
     *                                        first row of the list
contains labels for each column.
     * @param mixed $field Indicates which column is used in the function.
Enter the
     *                                        column label enclosed between
double quotation marks, such as
     *                                        "Age" or
"Yield," or a number (without quotation marks) that
     *                                        represents the position of
the column within the list: 1 for
     *                                        the first column, 2 for the
second column, and so on.
     *
     * @return null|string
     */
    private static function fieldExtract($database, $field)
    {
        $field = strtoupper(Functions::flattenSingleValue($field));
        $fieldNames = array_map('strtoupper',
array_shift($database));

        if (is_numeric($field)) {
            $keys = array_keys($fieldNames);

            return $keys[$field - 1];
        }
        $key = array_search($field, $fieldNames);

        return ($key) ? $key : null;
    }

    /**
     * filter.
     *
     * Parses the selection criteria, extracts the database rows that match
those criteria, and
     * returns that subset of rows.
     *
     * @param mixed[] $database The range of cells that makes up the list
or database.
     *                                        A database is a list of
related data in which rows of related
     *                                        information are records, and
columns of data are fields. The
     *                                        first row of the list
contains labels for each column.
     * @param mixed[] $criteria The range of cells that contains the
conditions you specify.
     *                                        You can use any range for the
criteria argument, as long as it
     *                                        includes at least one column
label and at least one cell below
     *                                        the column label in which you
specify a condition for the
     *                                        column.
     *
     * @return array of mixed
     */
    private static function filter($database, $criteria)
    {
        $fieldNames = array_shift($database);
        $criteriaNames = array_shift($criteria);

        //    Convert the criteria into a set of AND/OR conditions with
[:placeholders]
        $testConditions = $testValues = [];
        $testConditionsCount = 0;
        foreach ($criteriaNames as $key => $criteriaName) {
            $testCondition = [];
            $testConditionCount = 0;
            foreach ($criteria as $row => $criterion) {
                if ($criterion[$key] > '') {
                    $testCondition[] = '[:' . $criteriaName .
']' . Functions::ifCondition($criterion[$key]);
                    ++$testConditionCount;
                }
            }
            if ($testConditionCount > 1) {
                $testConditions[] = 'OR(' .
implode(',', $testCondition) . ')';
                ++$testConditionsCount;
            } elseif ($testConditionCount == 1) {
                $testConditions[] = $testCondition[0];
                ++$testConditionsCount;
            }
        }

        if ($testConditionsCount > 1) {
            $testConditionSet = 'AND(' . implode(',',
$testConditions) . ')';
        } elseif ($testConditionsCount == 1) {
            $testConditionSet = $testConditions[0];
        }

        //    Loop through each row of the database
        foreach ($database as $dataRow => $dataValues) {
            //    Substitute actual values from the database row for our
[:placeholders]
            $testConditionList = $testConditionSet;
            foreach ($criteriaNames as $key => $criteriaName) {
                $k = array_search($criteriaName, $fieldNames);
                if (isset($dataValues[$k])) {
                    $dataValue = $dataValues[$k];
                    $dataValue = (is_string($dataValue)) ?
Calculation::wrapResult(strtoupper($dataValue)) : $dataValue;
                    $testConditionList = str_replace('[:' .
$criteriaName . ']', $dataValue, $testConditionList);
                }
            }
            //    evaluate the criteria against the row data
            $result =
Calculation::getInstance()->_calculateFormulaValue('=' .
$testConditionList);
            //    If the row failed to meet the criteria, remove it from
the database
            if (!$result) {
                unset($database[$dataRow]);
            }
        }

        return $database;
    }

    private static function getFilteredColumn($database, $field, $criteria)
    {
        //    reduce the database to a set of rows that match all the
criteria
        $database = self::filter($database, $criteria);
        //    extract an array of values for the requested column
        $colData = [];
        foreach ($database as $row) {
            $colData[] = $row[$field];
        }

        return $colData;
    }

    /**
     * DAVERAGE.
     *
     * Averages the values in a column of a list or database that match
conditions you specify.
     *
     * Excel Function:
     *        DAVERAGE(database,field,criteria)
     *
     * @category Database Functions
     *
     * @param mixed[] $database The range of cells that makes up the list
or database.
     *                                        A database is a list of
related data in which rows of related
     *                                        information are records, and
columns of data are fields. The
     *                                        first row of the list
contains labels for each column.
     * @param int|string $field Indicates which column is used in the
function. Enter the
     *                                        column label enclosed between
double quotation marks, such as
     *                                        "Age" or
"Yield," or a number (without quotation marks) that
     *                                        represents the position of
the column within the list: 1 for
     *                                        the first column, 2 for the
second column, and so on.
     * @param mixed[] $criteria The range of cells that contains the
conditions you specify.
     *                                        You can use any range for the
criteria argument, as long as it
     *                                        includes at least one column
label and at least one cell below
     *                                        the column label in which you
specify a condition for the
     *                                        column.
     *
     * @return float|string
     */
    public static function DAVERAGE($database, $field, $criteria)
    {
        $field = self::fieldExtract($database, $field);
        if ($field === null) {
            return null;
        }

        // Return
        return Statistical::AVERAGE(
            self::getFilteredColumn($database, $field, $criteria)
        );
    }

    /**
     * DCOUNT.
     *
     * Counts the cells that contain numbers in a column of a list or
database that match conditions
     * that you specify.
     *
     * Excel Function:
     *        DCOUNT(database,[field],criteria)
     *
     * Excel Function:
     *        DAVERAGE(database,field,criteria)
     *
     * @category Database Functions
     *
     * @param mixed[] $database The range of cells that makes up the list
or database.
     *                                        A database is a list of
related data in which rows of related
     *                                        information are records, and
columns of data are fields. The
     *                                        first row of the list
contains labels for each column.
     * @param int|string $field Indicates which column is used in the
function. Enter the
     *                                        column label enclosed between
double quotation marks, such as
     *                                        "Age" or
"Yield," or a number (without quotation marks) that
     *                                        represents the position of
the column within the list: 1 for
     *                                        the first column, 2 for the
second column, and so on.
     * @param mixed[] $criteria The range of cells that contains the
conditions you specify.
     *                                        You can use any range for the
criteria argument, as long as it
     *                                        includes at least one column
label and at least one cell below
     *                                        the column label in which you
specify a condition for the
     *                                        column.
     *
     * @return int
     *
     * @TODO    The field argument is optional. If field is omitted, DCOUNT
counts all records in the
     *            database that match the criteria.
     */
    public static function DCOUNT($database, $field, $criteria)
    {
        $field = self::fieldExtract($database, $field);
        if ($field === null) {
            return null;
        }

        // Return
        return Statistical::COUNT(
            self::getFilteredColumn($database, $field, $criteria)
        );
    }

    /**
     * DCOUNTA.
     *
     * Counts the nonblank cells in a column of a list or database that
match conditions that you specify.
     *
     * Excel Function:
     *        DCOUNTA(database,[field],criteria)
     *
     * @category Database Functions
     *
     * @param mixed[] $database The range of cells that makes up the list
or database.
     *                                        A database is a list of
related data in which rows of related
     *                                        information are records, and
columns of data are fields. The
     *                                        first row of the list
contains labels for each column.
     * @param int|string $field Indicates which column is used in the
function. Enter the
     *                                        column label enclosed between
double quotation marks, such as
     *                                        "Age" or
"Yield," or a number (without quotation marks) that
     *                                        represents the position of
the column within the list: 1 for
     *                                        the first column, 2 for the
second column, and so on.
     * @param mixed[] $criteria The range of cells that contains the
conditions you specify.
     *                                        You can use any range for the
criteria argument, as long as it
     *                                        includes at least one column
label and at least one cell below
     *                                        the column label in which you
specify a condition for the
     *                                        column.
     *
     * @return int
     *
     * @TODO    The field argument is optional. If field is omitted,
DCOUNTA counts all records in the
     *            database that match the criteria.
     */
    public static function DCOUNTA($database, $field, $criteria)
    {
        $field = self::fieldExtract($database, $field);
        if ($field === null) {
            return null;
        }

        //    reduce the database to a set of rows that match all the
criteria
        $database = self::filter($database, $criteria);
        //    extract an array of values for the requested column
        $colData = [];
        foreach ($database as $row) {
            $colData[] = $row[$field];
        }

        // Return
        return Statistical::COUNTA(
            self::getFilteredColumn($database, $field, $criteria)
        );
    }

    /**
     * DGET.
     *
     * Extracts a single value from a column of a list or database that
matches conditions that you
     * specify.
     *
     * Excel Function:
     *        DGET(database,field,criteria)
     *
     * @category Database Functions
     *
     * @param mixed[] $database The range of cells that makes up the list
or database.
     *                                        A database is a list of
related data in which rows of related
     *                                        information are records, and
columns of data are fields. The
     *                                        first row of the list
contains labels for each column.
     * @param int|string $field Indicates which column is used in the
function. Enter the
     *                                        column label enclosed between
double quotation marks, such as
     *                                        "Age" or
"Yield," or a number (without quotation marks) that
     *                                        represents the position of
the column within the list: 1 for
     *                                        the first column, 2 for the
second column, and so on.
     * @param mixed[] $criteria The range of cells that contains the
conditions you specify.
     *                                        You can use any range for the
criteria argument, as long as it
     *                                        includes at least one column
label and at least one cell below
     *                                        the column label in which you
specify a condition for the
     *                                        column.
     *
     * @return mixed
     */
    public static function DGET($database, $field, $criteria)
    {
        $field = self::fieldExtract($database, $field);
        if ($field === null) {
            return null;
        }

        // Return
        $colData = self::getFilteredColumn($database, $field, $criteria);
        if (count($colData) > 1) {
            return Functions::NAN();
        }

        return $colData[0];
    }

    /**
     * DMAX.
     *
     * Returns the largest number in a column of a list or database that
matches conditions you that
     * specify.
     *
     * Excel Function:
     *        DMAX(database,field,criteria)
     *
     * @category Database Functions
     *
     * @param mixed[] $database The range of cells that makes up the list
or database.
     *                                        A database is a list of
related data in which rows of related
     *                                        information are records, and
columns of data are fields. The
     *                                        first row of the list
contains labels for each column.
     * @param int|string $field Indicates which column is used in the
function. Enter the
     *                                        column label enclosed between
double quotation marks, such as
     *                                        "Age" or
"Yield," or a number (without quotation marks) that
     *                                        represents the position of
the column within the list: 1 for
     *                                        the first column, 2 for the
second column, and so on.
     * @param mixed[] $criteria The range of cells that contains the
conditions you specify.
     *                                        You can use any range for the
criteria argument, as long as it
     *                                        includes at least one column
label and at least one cell below
     *                                        the column label in which you
specify a condition for the
     *                                        column.
     *
     * @return float
     */
    public static function DMAX($database, $field, $criteria)
    {
        $field = self::fieldExtract($database, $field);
        if ($field === null) {
            return null;
        }

        // Return
        return Statistical::MAX(
            self::getFilteredColumn($database, $field, $criteria)
        );
    }

    /**
     * DMIN.
     *
     * Returns the smallest number in a column of a list or database that
matches conditions you that
     * specify.
     *
     * Excel Function:
     *        DMIN(database,field,criteria)
     *
     * @category Database Functions
     *
     * @param mixed[] $database The range of cells that makes up the list
or database.
     *                                        A database is a list of
related data in which rows of related
     *                                        information are records, and
columns of data are fields. The
     *                                        first row of the list
contains labels for each column.
     * @param int|string $field Indicates which column is used in the
function. Enter the
     *                                        column label enclosed between
double quotation marks, such as
     *                                        "Age" or
"Yield," or a number (without quotation marks) that
     *                                        represents the position of
the column within the list: 1 for
     *                                        the first column, 2 for the
second column, and so on.
     * @param mixed[] $criteria The range of cells that contains the
conditions you specify.
     *                                        You can use any range for the
criteria argument, as long as it
     *                                        includes at least one column
label and at least one cell below
     *                                        the column label in which you
specify a condition for the
     *                                        column.
     *
     * @return float
     */
    public static function DMIN($database, $field, $criteria)
    {
        $field = self::fieldExtract($database, $field);
        if ($field === null) {
            return null;
        }

        // Return
        return Statistical::MIN(
            self::getFilteredColumn($database, $field, $criteria)
        );
    }

    /**
     * DPRODUCT.
     *
     * Multiplies the values in a column of a list or database that match
conditions that you specify.
     *
     * Excel Function:
     *        DPRODUCT(database,field,criteria)
     *
     * @category Database Functions
     *
     * @param mixed[] $database The range of cells that makes up the list
or database.
     *                                        A database is a list of
related data in which rows of related
     *                                        information are records, and
columns of data are fields. The
     *                                        first row of the list
contains labels for each column.
     * @param int|string $field Indicates which column is used in the
function. Enter the
     *                                        column label enclosed between
double quotation marks, such as
     *                                        "Age" or
"Yield," or a number (without quotation marks) that
     *                                        represents the position of
the column within the list: 1 for
     *                                        the first column, 2 for the
second column, and so on.
     * @param mixed[] $criteria The range of cells that contains the
conditions you specify.
     *                                        You can use any range for the
criteria argument, as long as it
     *                                        includes at least one column
label and at least one cell below
     *                                        the column label in which you
specify a condition for the
     *                                        column.
     *
     * @return float
     */
    public static function DPRODUCT($database, $field, $criteria)
    {
        $field = self::fieldExtract($database, $field);
        if ($field === null) {
            return null;
        }

        // Return
        return MathTrig::PRODUCT(
            self::getFilteredColumn($database, $field, $criteria)
        );
    }

    /**
     * DSTDEV.
     *
     * Estimates the standard deviation of a population based on a sample
by using the numbers in a
     * column of a list or database that match conditions that you specify.
     *
     * Excel Function:
     *        DSTDEV(database,field,criteria)
     *
     * @category Database Functions
     *
     * @param mixed[] $database The range of cells that makes up the list
or database.
     *                                        A database is a list of
related data in which rows of related
     *                                        information are records, and
columns of data are fields. The
     *                                        first row of the list
contains labels for each column.
     * @param int|string $field Indicates which column is used in the
function. Enter the
     *                                        column label enclosed between
double quotation marks, such as
     *                                        "Age" or
"Yield," or a number (without quotation marks) that
     *                                        represents the position of
the column within the list: 1 for
     *                                        the first column, 2 for the
second column, and so on.
     * @param mixed[] $criteria The range of cells that contains the
conditions you specify.
     *                                        You can use any range for the
criteria argument, as long as it
     *                                        includes at least one column
label and at least one cell below
     *                                        the column label in which you
specify a condition for the
     *                                        column.
     *
     * @return float|string
     */
    public static function DSTDEV($database, $field, $criteria)
    {
        $field = self::fieldExtract($database, $field);
        if ($field === null) {
            return null;
        }

        // Return
        return Statistical::STDEV(
            self::getFilteredColumn($database, $field, $criteria)
        );
    }

    /**
     * DSTDEVP.
     *
     * Calculates the standard deviation of a population based on the
entire population by using the
     * numbers in a column of a list or database that match conditions that
you specify.
     *
     * Excel Function:
     *        DSTDEVP(database,field,criteria)
     *
     * @category Database Functions
     *
     * @param mixed[] $database The range of cells that makes up the list
or database.
     *                                        A database is a list of
related data in which rows of related
     *                                        information are records, and
columns of data are fields. The
     *                                        first row of the list
contains labels for each column.
     * @param int|string $field Indicates which column is used in the
function. Enter the
     *                                        column label enclosed between
double quotation marks, such as
     *                                        "Age" or
"Yield," or a number (without quotation marks) that
     *                                        represents the position of
the column within the list: 1 for
     *                                        the first column, 2 for the
second column, and so on.
     * @param mixed[] $criteria The range of cells that contains the
conditions you specify.
     *                                        You can use any range for the
criteria argument, as long as it
     *                                        includes at least one column
label and at least one cell below
     *                                        the column label in which you
specify a condition for the
     *                                        column.
     *
     * @return float|string
     */
    public static function DSTDEVP($database, $field, $criteria)
    {
        $field = self::fieldExtract($database, $field);
        if ($field === null) {
            return null;
        }

        // Return
        return Statistical::STDEVP(
            self::getFilteredColumn($database, $field, $criteria)
        );
    }

    /**
     * DSUM.
     *
     * Adds the numbers in a column of a list or database that match
conditions that you specify.
     *
     * Excel Function:
     *        DSUM(database,field,criteria)
     *
     * @category Database Functions
     *
     * @param mixed[] $database The range of cells that makes up the list
or database.
     *                                        A database is a list of
related data in which rows of related
     *                                        information are records, and
columns of data are fields. The
     *                                        first row of the list
contains labels for each column.
     * @param int|string $field Indicates which column is used in the
function. Enter the
     *                                        column label enclosed between
double quotation marks, such as
     *                                        "Age" or
"Yield," or a number (without quotation marks) that
     *                                        represents the position of
the column within the list: 1 for
     *                                        the first column, 2 for the
second column, and so on.
     * @param mixed[] $criteria The range of cells that contains the
conditions you specify.
     *                                        You can use any range for the
criteria argument, as long as it
     *                                        includes at least one column
label and at least one cell below
     *                                        the column label in which you
specify a condition for the
     *                                        column.
     *
     * @return float
     */
    public static function DSUM($database, $field, $criteria)
    {
        $field = self::fieldExtract($database, $field);
        if ($field === null) {
            return null;
        }

        // Return
        return MathTrig::SUM(
            self::getFilteredColumn($database, $field, $criteria)
        );
    }

    /**
     * DVAR.
     *
     * Estimates the variance of a population based on a sample by using
the numbers in a column
     * of a list or database that match conditions that you specify.
     *
     * Excel Function:
     *        DVAR(database,field,criteria)
     *
     * @category Database Functions
     *
     * @param mixed[] $database The range of cells that makes up the list
or database.
     *                                        A database is a list of
related data in which rows of related
     *                                        information are records, and
columns of data are fields. The
     *                                        first row of the list
contains labels for each column.
     * @param int|string $field Indicates which column is used in the
function. Enter the
     *                                        column label enclosed between
double quotation marks, such as
     *                                        "Age" or
"Yield," or a number (without quotation marks) that
     *                                        represents the position of
the column within the list: 1 for
     *                                        the first column, 2 for the
second column, and so on.
     * @param mixed[] $criteria The range of cells that contains the
conditions you specify.
     *                                        You can use any range for the
criteria argument, as long as it
     *                                        includes at least one column
label and at least one cell below
     *                                        the column label in which you
specify a condition for the
     *                                        column.
     *
     * @return float
     */
    public static function DVAR($database, $field, $criteria)
    {
        $field = self::fieldExtract($database, $field);
        if ($field === null) {
            return null;
        }

        // Return
        return Statistical::VARFunc(
            self::getFilteredColumn($database, $field, $criteria)
        );
    }

    /**
     * DVARP.
     *
     * Calculates the variance of a population based on the entire
population by using the numbers
     * in a column of a list or database that match conditions that you
specify.
     *
     * Excel Function:
     *        DVARP(database,field,criteria)
     *
     * @category Database Functions
     *
     * @param mixed[] $database The range of cells that makes up the list
or database.
     *                                        A database is a list of
related data in which rows of related
     *                                        information are records, and
columns of data are fields. The
     *                                        first row of the list
contains labels for each column.
     * @param int|string $field Indicates which column is used in the
function. Enter the
     *                                        column label enclosed between
double quotation marks, such as
     *                                        "Age" or
"Yield," or a number (without quotation marks) that
     *                                        represents the position of
the column within the list: 1 for
     *                                        the first column, 2 for the
second column, and so on.
     * @param mixed[] $criteria The range of cells that contains the
conditions you specify.
     *                                        You can use any range for the
criteria argument, as long as it
     *                                        includes at least one column
label and at least one cell below
     *                                        the column label in which you
specify a condition for the
     *                                        column.
     *
     * @return float
     */
    public static function DVARP($database, $field, $criteria)
    {
        $field = self::fieldExtract($database, $field);
        if ($field === null) {
            return null;
        }

        // Return
        return Statistical::VARP(
            self::getFilteredColumn($database, $field, $criteria)
        );
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/DateTime.php000064400000204421151165413710023203
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Calculation;

use PhpOffice\PhpSpreadsheet\Shared\Date;
use PhpOffice\PhpSpreadsheet\Shared\StringHelper;

class DateTime
{
    /**
     * Identify if a year is a leap year or not.
     *
     * @param int|string $year The year to test
     *
     * @return bool TRUE if the year is a leap year, otherwise FALSE
     */
    public static function isLeapYear($year)
    {
        return (($year % 4) === 0) && (($year % 100) !== 0) ||
(($year % 400) === 0);
    }

    /**
     * Return the number of days between two dates based on a 360 day
calendar.
     *
     * @param int $startDay Day of month of the start date
     * @param int $startMonth Month of the start date
     * @param int $startYear Year of the start date
     * @param int $endDay Day of month of the start date
     * @param int $endMonth Month of the start date
     * @param int $endYear Year of the start date
     * @param bool $methodUS Whether to use the US method or the European
method of calculation
     *
     * @return int Number of days between the start date and the end date
     */
    private static function dateDiff360($startDay, $startMonth, $startYear,
$endDay, $endMonth, $endYear, $methodUS)
    {
        if ($startDay == 31) {
            --$startDay;
        } elseif ($methodUS && ($startMonth == 2 &&
($startDay == 29 || ($startDay == 28 &&
!self::isLeapYear($startYear))))) {
            $startDay = 30;
        }
        if ($endDay == 31) {
            if ($methodUS && $startDay != 30) {
                $endDay = 1;
                if ($endMonth == 12) {
                    ++$endYear;
                    $endMonth = 1;
                } else {
                    ++$endMonth;
                }
            } else {
                $endDay = 30;
            }
        }

        return $endDay + $endMonth * 30 + $endYear * 360 - $startDay -
$startMonth * 30 - $startYear * 360;
    }

    /**
     * getDateValue.
     *
     * @param string $dateValue
     *
     * @return mixed Excel date/time serial value, or string if error
     */
    public static function getDateValue($dateValue)
    {
        if (!is_numeric($dateValue)) {
            if ((is_string($dateValue)) &&
                (Functions::getCompatibilityMode() ==
Functions::COMPATIBILITY_GNUMERIC)) {
                return Functions::VALUE();
            }
            if ((is_object($dateValue)) && ($dateValue instanceof
\DateTimeInterface)) {
                $dateValue = Date::PHPToExcel($dateValue);
            } else {
                $saveReturnDateType = Functions::getReturnDateType();
                Functions::setReturnDateType(Functions::RETURNDATE_EXCEL);
                $dateValue = self::DATEVALUE($dateValue);
                Functions::setReturnDateType($saveReturnDateType);
            }
        }

        return $dateValue;
    }

    /**
     * getTimeValue.
     *
     * @param string $timeValue
     *
     * @return mixed Excel date/time serial value, or string if error
     */
    private static function getTimeValue($timeValue)
    {
        $saveReturnDateType = Functions::getReturnDateType();
        Functions::setReturnDateType(Functions::RETURNDATE_EXCEL);
        $timeValue = self::TIMEVALUE($timeValue);
        Functions::setReturnDateType($saveReturnDateType);

        return $timeValue;
    }

    private static function adjustDateByMonths($dateValue = 0,
$adjustmentMonths = 0)
    {
        // Execute function
        $PHPDateObject = Date::excelToDateTimeObject($dateValue);
        $oMonth = (int) $PHPDateObject->format('m');
        $oYear = (int) $PHPDateObject->format('Y');

        $adjustmentMonthsString = (string) $adjustmentMonths;
        if ($adjustmentMonths > 0) {
            $adjustmentMonthsString = '+' . $adjustmentMonths;
        }
        if ($adjustmentMonths != 0) {
            $PHPDateObject->modify($adjustmentMonthsString . '
months');
        }
        $nMonth = (int) $PHPDateObject->format('m');
        $nYear = (int) $PHPDateObject->format('Y');

        $monthDiff = ($nMonth - $oMonth) + (($nYear - $oYear) * 12);
        if ($monthDiff != $adjustmentMonths) {
            $adjustDays = (int) $PHPDateObject->format('d');
            $adjustDaysString = '-' . $adjustDays . '
days';
            $PHPDateObject->modify($adjustDaysString);
        }

        return $PHPDateObject;
    }

    /**
     * DATETIMENOW.
     *
     * Returns the current date and time.
     * The NOW function is useful when you need to display the current date
and time on a worksheet or
     * calculate a value based on the current date and time, and have that
value updated each time you
     * open the worksheet.
     *
     * NOTE: When used in a Cell Formula, MS Excel changes the cell format
so that it matches the date
     * and time format of your regional settings. PhpSpreadsheet does not
change cell formatting in this way.
     *
     * Excel Function:
     *        NOW()
     *
     * @category Date/Time Functions
     *
     * @return mixed Excel date/time serial value, PHP date/time serial
value or PHP date/time object,
     *                        depending on the value of the ReturnDateType
flag
     */
    public static function DATETIMENOW()
    {
        $saveTimeZone = date_default_timezone_get();
        date_default_timezone_set('UTC');
        $retValue = false;
        switch (Functions::getReturnDateType()) {
            case Functions::RETURNDATE_EXCEL:
                $retValue = (float) Date::PHPToExcel(time());

                break;
            case Functions::RETURNDATE_UNIX_TIMESTAMP:
                $retValue = (int) time();

                break;
            case Functions::RETURNDATE_PHP_DATETIME_OBJECT:
                $retValue = new \DateTime();

                break;
        }
        date_default_timezone_set($saveTimeZone);

        return $retValue;
    }

    /**
     * DATENOW.
     *
     * Returns the current date.
     * The NOW function is useful when you need to display the current date
and time on a worksheet or
     * calculate a value based on the current date and time, and have that
value updated each time you
     * open the worksheet.
     *
     * NOTE: When used in a Cell Formula, MS Excel changes the cell format
so that it matches the date
     * and time format of your regional settings. PhpSpreadsheet does not
change cell formatting in this way.
     *
     * Excel Function:
     *        TODAY()
     *
     * @category Date/Time Functions
     *
     * @return mixed Excel date/time serial value, PHP date/time serial
value or PHP date/time object,
     *                        depending on the value of the ReturnDateType
flag
     */
    public static function DATENOW()
    {
        $saveTimeZone = date_default_timezone_get();
        date_default_timezone_set('UTC');
        $retValue = false;
        $excelDateTime = floor(Date::PHPToExcel(time()));
        switch (Functions::getReturnDateType()) {
            case Functions::RETURNDATE_EXCEL:
                $retValue = (float) $excelDateTime;

                break;
            case Functions::RETURNDATE_UNIX_TIMESTAMP:
                $retValue = (int) Date::excelToTimestamp($excelDateTime);

                break;
            case Functions::RETURNDATE_PHP_DATETIME_OBJECT:
                $retValue = Date::excelToDateTimeObject($excelDateTime);

                break;
        }
        date_default_timezone_set($saveTimeZone);

        return $retValue;
    }

    /**
     * DATE.
     *
     * The DATE function returns a value that represents a particular date.
     *
     * NOTE: When used in a Cell Formula, MS Excel changes the cell format
so that it matches the date
     * format of your regional settings. PhpSpreadsheet does not change
cell formatting in this way.
     *
     * Excel Function:
     *        DATE(year,month,day)
     *
     * PhpSpreadsheet is a lot more forgiving than MS Excel when passing
non numeric values to this function.
     * A Month name or abbreviation (English only at this point) such as
'January' or 'Jan' will still be accepted,
     *     as will a day value with a suffix (e.g. '21st' rather
than simply 21); again only English language.
     *
     * @category Date/Time Functions
     *
     * @param int $year The value of the year argument can include one to
four digits.
     *                                Excel interprets the year argument
according to the configured
     *                                date system: 1900 or 1904.
     *                                If year is between 0 (zero) and 1899
(inclusive), Excel adds that
     *                                value to 1900 to calculate the year.
For example, DATE(108,1,2)
     *                                returns January 2, 2008 (1900+108).
     *                                If year is between 1900 and 9999
(inclusive), Excel uses that
     *                                value as the year. For example,
DATE(2008,1,2) returns January 2,
     *                                2008.
     *                                If year is less than 0 or is 10000 or
greater, Excel returns the
     *                                #NUM! error value.
     * @param int $month A positive or negative integer representing the
month of the year
     *                                from 1 to 12 (January to December).
     *                                If month is greater than 12, month
adds that number of months to
     *                                the first month in the year
specified. For example, DATE(2008,14,2)
     *                                returns the serial number
representing February 2, 2009.
     *                                If month is less than 1, month
subtracts the magnitude of that
     *                                number of months, plus 1, from the
first month in the year
     *                                specified. For example,
DATE(2008,-3,2) returns the serial number
     *                                representing September 2, 2007.
     * @param int $day A positive or negative integer representing the day
of the month
     *                                from 1 to 31.
     *                                If day is greater than the number of
days in the month specified,
     *                                day adds that number of days to the
first day in the month. For
     *                                example, DATE(2008,1,35) returns the
serial number representing
     *                                February 4, 2008.
     *                                If day is less than 1, day subtracts
the magnitude that number of
     *                                days, plus one, from the first day of
the month specified. For
     *                                example, DATE(2008,1,-15) returns the
serial number representing
     *                                December 16, 2007.
     *
     * @return mixed Excel date/time serial value, PHP date/time serial
value or PHP date/time object,
     *                        depending on the value of the ReturnDateType
flag
     */
    public static function DATE($year = 0, $month = 1, $day = 1)
    {
        $year = Functions::flattenSingleValue($year);
        $month = Functions::flattenSingleValue($month);
        $day = Functions::flattenSingleValue($day);

        if (($month !== null) && (!is_numeric($month))) {
            $month = Date::monthStringToNumber($month);
        }

        if (($day !== null) && (!is_numeric($day))) {
            $day = Date::dayStringToNumber($day);
        }

        $year = ($year !== null) ? StringHelper::testStringAsNumeric($year)
: 0;
        $month = ($month !== null) ?
StringHelper::testStringAsNumeric($month) : 0;
        $day = ($day !== null) ? StringHelper::testStringAsNumeric($day) :
0;
        if ((!is_numeric($year)) ||
            (!is_numeric($month)) ||
            (!is_numeric($day))) {
            return Functions::VALUE();
        }
        $year = (int) $year;
        $month = (int) $month;
        $day = (int) $day;

        $baseYear = Date::getExcelCalendar();
        // Validate parameters
        if ($year < ($baseYear - 1900)) {
            return Functions::NAN();
        }
        if ((($baseYear - 1900) != 0) && ($year < $baseYear)
&& ($year >= 1900)) {
            return Functions::NAN();
        }

        if (($year < $baseYear) && ($year >= ($baseYear -
1900))) {
            $year += 1900;
        }

        if ($month < 1) {
            //    Handle year/month adjustment if month < 1
            --$month;
            $year += ceil($month / 12) - 1;
            $month = 13 - abs($month % 12);
        } elseif ($month > 12) {
            //    Handle year/month adjustment if month > 12
            $year += floor($month / 12);
            $month = ($month % 12);
        }

        // Re-validate the year parameter after adjustments
        if (($year < $baseYear) || ($year >= 10000)) {
            return Functions::NAN();
        }

        // Execute function
        $excelDateValue = Date::formattedPHPToExcel($year, $month, $day);
        switch (Functions::getReturnDateType()) {
            case Functions::RETURNDATE_EXCEL:
                return (float) $excelDateValue;
            case Functions::RETURNDATE_UNIX_TIMESTAMP:
                return (int) Date::excelToTimestamp($excelDateValue);
            case Functions::RETURNDATE_PHP_DATETIME_OBJECT:
                return Date::excelToDateTimeObject($excelDateValue);
        }
    }

    /**
     * TIME.
     *
     * The TIME function returns a value that represents a particular time.
     *
     * NOTE: When used in a Cell Formula, MS Excel changes the cell format
so that it matches the time
     * format of your regional settings. PhpSpreadsheet does not change
cell formatting in this way.
     *
     * Excel Function:
     *        TIME(hour,minute,second)
     *
     * @category Date/Time Functions
     *
     * @param int $hour A number from 0 (zero) to 32767 representing the
hour.
     *                                    Any value greater than 23 will be
divided by 24 and the remainder
     *                                    will be treated as the hour
value. For example, TIME(27,0,0) =
     *                                    TIME(3,0,0) = .125 or 3:00 AM.
     * @param int $minute A number from 0 to 32767 representing the minute.
     *                                    Any value greater than 59 will be
converted to hours and minutes.
     *                                    For example, TIME(0,750,0) =
TIME(12,30,0) = .520833 or 12:30 PM.
     * @param int $second A number from 0 to 32767 representing the second.
     *                                    Any value greater than 59 will be
converted to hours, minutes,
     *                                    and seconds. For example,
TIME(0,0,2000) = TIME(0,33,22) = .023148
     *                                    or 12:33:20 AM
     *
     * @return mixed Excel date/time serial value, PHP date/time serial
value or PHP date/time object,
     *                        depending on the value of the ReturnDateType
flag
     */
    public static function TIME($hour = 0, $minute = 0, $second = 0)
    {
        $hour = Functions::flattenSingleValue($hour);
        $minute = Functions::flattenSingleValue($minute);
        $second = Functions::flattenSingleValue($second);

        if ($hour == '') {
            $hour = 0;
        }
        if ($minute == '') {
            $minute = 0;
        }
        if ($second == '') {
            $second = 0;
        }

        if ((!is_numeric($hour)) || (!is_numeric($minute)) ||
(!is_numeric($second))) {
            return Functions::VALUE();
        }
        $hour = (int) $hour;
        $minute = (int) $minute;
        $second = (int) $second;

        if ($second < 0) {
            $minute += floor($second / 60);
            $second = 60 - abs($second % 60);
            if ($second == 60) {
                $second = 0;
            }
        } elseif ($second >= 60) {
            $minute += floor($second / 60);
            $second = $second % 60;
        }
        if ($minute < 0) {
            $hour += floor($minute / 60);
            $minute = 60 - abs($minute % 60);
            if ($minute == 60) {
                $minute = 0;
            }
        } elseif ($minute >= 60) {
            $hour += floor($minute / 60);
            $minute = $minute % 60;
        }

        if ($hour > 23) {
            $hour = $hour % 24;
        } elseif ($hour < 0) {
            return Functions::NAN();
        }

        // Execute function
        switch (Functions::getReturnDateType()) {
            case Functions::RETURNDATE_EXCEL:
                $date = 0;
                $calendar = Date::getExcelCalendar();
                if ($calendar != Date::CALENDAR_WINDOWS_1900) {
                    $date = 1;
                }

                return (float) Date::formattedPHPToExcel($calendar, 1,
$date, $hour, $minute, $second);
            case Functions::RETURNDATE_UNIX_TIMESTAMP:
                return (int)
Date::excelToTimestamp(Date::formattedPHPToExcel(1970, 1, 1, $hour,
$minute, $second)); // -2147468400; //    -2147472000 + 3600
            case Functions::RETURNDATE_PHP_DATETIME_OBJECT:
                $dayAdjust = 0;
                if ($hour < 0) {
                    $dayAdjust = floor($hour / 24);
                    $hour = 24 - abs($hour % 24);
                    if ($hour == 24) {
                        $hour = 0;
                    }
                } elseif ($hour >= 24) {
                    $dayAdjust = floor($hour / 24);
                    $hour = $hour % 24;
                }
                $phpDateObject = new \DateTime('1900-01-01 ' .
$hour . ':' . $minute . ':' . $second);
                if ($dayAdjust != 0) {
                    $phpDateObject->modify($dayAdjust . '
days');
                }

                return $phpDateObject;
        }
    }

    /**
     * DATEVALUE.
     *
     * Returns a value that represents a particular date.
     * Use DATEVALUE to convert a date represented by a text string to an
Excel or PHP date/time stamp
     * value.
     *
     * NOTE: When used in a Cell Formula, MS Excel changes the cell format
so that it matches the date
     * format of your regional settings. PhpSpreadsheet does not change
cell formatting in this way.
     *
     * Excel Function:
     *        DATEVALUE(dateValue)
     *
     * @category Date/Time Functions
     *
     * @param string $dateValue Text that represents a date in a Microsoft
Excel date format.
     *                                    For example,
"1/30/2008" or "30-Jan-2008" are text strings within
     *                                    quotation marks that represent
dates. Using the default date
     *                                    system in Excel for Windows,
date_text must represent a date from
     *                                    January 1, 1900, to December 31,
9999. Using the default date
     *                                    system in Excel for the
Macintosh, date_text must represent a date
     *                                    from January 1, 1904, to December
31, 9999. DATEVALUE returns the
     *                                    #VALUE! error value if date_text
is out of this range.
     *
     * @return mixed Excel date/time serial value, PHP date/time serial
value or PHP date/time object,
     *                        depending on the value of the ReturnDateType
flag
     */
    public static function DATEVALUE($dateValue = 1)
    {
        $dateValue = trim(Functions::flattenSingleValue($dateValue),
'"');
        //    Strip any ordinals because they're allowed in Excel
(English only)
        $dateValue = preg_replace('/(\d)(st|nd|rd|th)([
-\/])/Ui', '$1$3', $dateValue);
        //    Convert separators (/ . or space) to hyphens (should also
handle dot used for ordinals in some countries, e.g. Denmark, Germany)
        $dateValue = str_replace(['/', '.',
'-', '  '], ' ', $dateValue);

        $yearFound = false;
        $t1 = explode(' ', $dateValue);
        foreach ($t1 as &$t) {
            if ((is_numeric($t)) && ($t > 31)) {
                if ($yearFound) {
                    return Functions::VALUE();
                }
                if ($t < 100) {
                    $t += 1900;
                }
                $yearFound = true;
            }
        }
        if ((count($t1) == 1) && (strpos($t, ':') !==
false)) {
            //    We've been fed a time value without any date
            return 0.0;
        } elseif (count($t1) == 2) {
            //    We only have two parts of the date: either day/month or
month/year
            if ($yearFound) {
                array_unshift($t1, 1);
            } else {
                if ($t1[1] > 29) {
                    $t1[1] += 1900;
                    array_unshift($t1, 1);
                } else {
                    $t1[] = date('Y');
                }
            }
        }
        unset($t);
        $dateValue = implode(' ', $t1);

        $PHPDateArray = date_parse($dateValue);
        if (($PHPDateArray === false) ||
($PHPDateArray['error_count'] > 0)) {
            $testVal1 = strtok($dateValue, '- ');
            if ($testVal1 !== false) {
                $testVal2 = strtok('- ');
                if ($testVal2 !== false) {
                    $testVal3 = strtok('- ');
                    if ($testVal3 === false) {
                        $testVal3 = strftime('%Y');
                    }
                } else {
                    return Functions::VALUE();
                }
            } else {
                return Functions::VALUE();
            }
            if ($testVal1 < 31 && $testVal2 < 12 &&
$testVal3 < 12 && strlen($testVal3) == 2) {
                $testVal3 += 2000;
            }
            $PHPDateArray = date_parse($testVal1 . '-' .
$testVal2 . '-' . $testVal3);
            if (($PHPDateArray === false) ||
($PHPDateArray['error_count'] > 0)) {
                $PHPDateArray = date_parse($testVal2 . '-' .
$testVal1 . '-' . $testVal3);
                if (($PHPDateArray === false) ||
($PHPDateArray['error_count'] > 0)) {
                    return Functions::VALUE();
                }
            }
        }

        if (($PHPDateArray !== false) &&
($PHPDateArray['error_count'] == 0)) {
            // Execute function
            if ($PHPDateArray['year'] == '') {
                $PHPDateArray['year'] = strftime('%Y');
            }
            if ($PHPDateArray['year'] < 1900) {
                return Functions::VALUE();
            }
            if ($PHPDateArray['month'] == '') {
                $PHPDateArray['month'] =
strftime('%m');
            }
            if ($PHPDateArray['day'] == '') {
                $PHPDateArray['day'] = strftime('%d');
            }
            if (!checkdate($PHPDateArray['month'],
$PHPDateArray['day'], $PHPDateArray['year'])) {
                return Functions::VALUE();
            }
            $excelDateValue = floor(
                Date::formattedPHPToExcel(
                    $PHPDateArray['year'],
                    $PHPDateArray['month'],
                    $PHPDateArray['day'],
                    $PHPDateArray['hour'],
                    $PHPDateArray['minute'],
                    $PHPDateArray['second']
                )
            );
            switch (Functions::getReturnDateType()) {
                case Functions::RETURNDATE_EXCEL:
                    return (float) $excelDateValue;
                case Functions::RETURNDATE_UNIX_TIMESTAMP:
                    return (int) Date::excelToTimestamp($excelDateValue);
                case Functions::RETURNDATE_PHP_DATETIME_OBJECT:
                    return new \DateTime($PHPDateArray['year'] .
'-' . $PHPDateArray['month'] . '-' .
$PHPDateArray['day'] . ' 00:00:00');
            }
        }

        return Functions::VALUE();
    }

    /**
     * TIMEVALUE.
     *
     * Returns a value that represents a particular time.
     * Use TIMEVALUE to convert a time represented by a text string to an
Excel or PHP date/time stamp
     * value.
     *
     * NOTE: When used in a Cell Formula, MS Excel changes the cell format
so that it matches the time
     * format of your regional settings. PhpSpreadsheet does not change
cell formatting in this way.
     *
     * Excel Function:
     *        TIMEVALUE(timeValue)
     *
     * @category Date/Time Functions
     *
     * @param string $timeValue A text string that represents a time in any
one of the Microsoft
     *                                    Excel time formats; for example,
"6:45 PM" and "18:45" text strings
     *                                    within quotation marks that
represent time.
     *                                    Date information in time_text is
ignored.
     *
     * @return mixed Excel date/time serial value, PHP date/time serial
value or PHP date/time object,
     *                        depending on the value of the ReturnDateType
flag
     */
    public static function TIMEVALUE($timeValue)
    {
        $timeValue = trim(Functions::flattenSingleValue($timeValue),
'"');
        $timeValue = str_replace(['/', '.'],
'-', $timeValue);

        $arraySplit = preg_split('/[\/:\-\s]/', $timeValue);
        if ((count($arraySplit) == 2 || count($arraySplit) == 3) &&
$arraySplit[0] > 24) {
            $arraySplit[0] = ($arraySplit[0] % 24);
            $timeValue = implode(':', $arraySplit);
        }

        $PHPDateArray = date_parse($timeValue);
        if (($PHPDateArray !== false) &&
($PHPDateArray['error_count'] == 0)) {
            if (Functions::getCompatibilityMode() ==
Functions::COMPATIBILITY_OPENOFFICE) {
                $excelDateValue = Date::formattedPHPToExcel(
                    $PHPDateArray['year'],
                    $PHPDateArray['month'],
                    $PHPDateArray['day'],
                    $PHPDateArray['hour'],
                    $PHPDateArray['minute'],
                    $PHPDateArray['second']
                );
            } else {
                $excelDateValue = Date::formattedPHPToExcel(1900, 1, 1,
$PHPDateArray['hour'], $PHPDateArray['minute'],
$PHPDateArray['second']) - 1;
            }

            switch (Functions::getReturnDateType()) {
                case Functions::RETURNDATE_EXCEL:
                    return (float) $excelDateValue;
                case Functions::RETURNDATE_UNIX_TIMESTAMP:
                    return (int) $phpDateValue =
Date::excelToTimestamp($excelDateValue + 25569) - 3600;
                case Functions::RETURNDATE_PHP_DATETIME_OBJECT:
                    return new \DateTime('1900-01-01 ' .
$PHPDateArray['hour'] . ':' .
$PHPDateArray['minute'] . ':' .
$PHPDateArray['second']);
            }
        }

        return Functions::VALUE();
    }

    /**
     * DATEDIF.
     *
     * @param mixed $startDate Excel date serial value, PHP date/time
stamp, PHP DateTime object
     *                                    or a standard date string
     * @param mixed $endDate Excel date serial value, PHP date/time stamp,
PHP DateTime object
     *                                    or a standard date string
     * @param string $unit
     *
     * @return int|string Interval between the dates
     */
    public static function DATEDIF($startDate = 0, $endDate = 0, $unit =
'D')
    {
        $startDate = Functions::flattenSingleValue($startDate);
        $endDate = Functions::flattenSingleValue($endDate);
        $unit = strtoupper(Functions::flattenSingleValue($unit));

        if (is_string($startDate = self::getDateValue($startDate))) {
            return Functions::VALUE();
        }
        if (is_string($endDate = self::getDateValue($endDate))) {
            return Functions::VALUE();
        }

        // Validate parameters
        if ($startDate > $endDate) {
            return Functions::NAN();
        }

        // Execute function
        $difference = $endDate - $startDate;

        $PHPStartDateObject = Date::excelToDateTimeObject($startDate);
        $startDays = $PHPStartDateObject->format('j');
        $startMonths = $PHPStartDateObject->format('n');
        $startYears = $PHPStartDateObject->format('Y');

        $PHPEndDateObject = Date::excelToDateTimeObject($endDate);
        $endDays = $PHPEndDateObject->format('j');
        $endMonths = $PHPEndDateObject->format('n');
        $endYears = $PHPEndDateObject->format('Y');

        switch ($unit) {
            case 'D':
                $retVal = (int) $difference;

                break;
            case 'M':
                $retVal = (int) ($endMonths - $startMonths) + ((int)
($endYears - $startYears) * 12);
                //    We're only interested in full months
                if ($endDays < $startDays) {
                    --$retVal;
                }

                break;
            case 'Y':
                $retVal = (int) ($endYears - $startYears);
                //    We're only interested in full months
                if ($endMonths < $startMonths) {
                    --$retVal;
                } elseif (($endMonths == $startMonths) && ($endDays
< $startDays)) {
                    // Remove start month
                    --$retVal;
                    // Remove end month
                    --$retVal;
                }

                break;
            case 'MD':
                if ($endDays < $startDays) {
                    $retVal = $endDays;
                    $PHPEndDateObject->modify('-' . $endDays .
' days');
                    $adjustDays =
$PHPEndDateObject->format('j');
                    $retVal += ($adjustDays - $startDays);
                } else {
                    $retVal = $endDays - $startDays;
                }

                break;
            case 'YM':
                $retVal = (int) ($endMonths - $startMonths);
                if ($retVal < 0) {
                    $retVal += 12;
                }
                //    We're only interested in full months
                if ($endDays < $startDays) {
                    --$retVal;
                }

                break;
            case 'YD':
                $retVal = (int) $difference;
                if ($endYears > $startYears) {
                    $isLeapStartYear =
$PHPStartDateObject->format('L');
                    $wasLeapEndYear =
$PHPEndDateObject->format('L');

                    // Adjust end year to be as close as possible as start
year
                    while ($PHPEndDateObject >= $PHPStartDateObject) {
                        $PHPEndDateObject->modify('-1 year');
                        $endYears =
$PHPEndDateObject->format('Y');
                    }
                    $PHPEndDateObject->modify('+1 year');

                    // Get the result
                    $retVal =
$PHPEndDateObject->diff($PHPStartDateObject)->days;

                    // Adjust for leap years cases
                    $isLeapEndYear =
$PHPEndDateObject->format('L');
                    $limit = new
\DateTime($PHPEndDateObject->format('Y-02-29'));
                    if (!$isLeapStartYear && !$wasLeapEndYear
&& $isLeapEndYear && $PHPEndDateObject >= $limit) {
                        --$retVal;
                    }
                }

                break;
            default:
                $retVal = Functions::VALUE();
        }

        return $retVal;
    }

    /**
     * DAYS.
     *
     * Returns the number of days between two dates
     *
     * Excel Function:
     *        DAYS(endDate, startDate)
     *
     * @category Date/Time Functions
     *
     * @param \DateTimeImmutable|float|int|string $endDate Excel date
serial value (float),
     * PHP date timestamp (integer), PHP DateTime object, or a standard
date string
     * @param \DateTimeImmutable|float|int|string $startDate Excel date
serial value (float),
     * PHP date timestamp (integer), PHP DateTime object, or a standard
date string
     *
     * @return int|string Number of days between start date and end date or
an error
     */
    public static function DAYS($endDate = 0, $startDate = 0)
    {
        $startDate = Functions::flattenSingleValue($startDate);
        $endDate = Functions::flattenSingleValue($endDate);

        $startDate = self::getDateValue($startDate);
        if (is_string($startDate)) {
            return Functions::VALUE();
        }

        $endDate = self::getDateValue($endDate);
        if (is_string($endDate)) {
            return Functions::VALUE();
        }

        // Execute function
        $PHPStartDateObject = Date::excelToDateTimeObject($startDate);
        $PHPEndDateObject = Date::excelToDateTimeObject($endDate);

        $diff = $PHPStartDateObject->diff($PHPEndDateObject);
        $days = $diff->days;

        if ($diff->invert) {
            $days = -$days;
        }

        return $days;
    }

    /**
     * DAYS360.
     *
     * Returns the number of days between two dates based on a 360-day year
(twelve 30-day months),
     * which is used in some accounting calculations. Use this function to
help compute payments if
     * your accounting system is based on twelve 30-day months.
     *
     * Excel Function:
     *        DAYS360(startDate,endDate[,method])
     *
     * @category Date/Time Functions
     *
     * @param mixed $startDate Excel date serial value (float), PHP date
timestamp (integer),
     *                                        PHP DateTime object, or a
standard date string
     * @param mixed $endDate Excel date serial value (float), PHP date
timestamp (integer),
     *                                        PHP DateTime object, or a
standard date string
     * @param bool $method US or European Method
     *                                        FALSE or omitted: U.S. (NASD)
method. If the starting date is
     *                                        the last day of a month, it
becomes equal to the 30th of the
     *                                        same month. If the ending
date is the last day of a month and
     *                                        the starting date is earlier
than the 30th of a month, the
     *                                        ending date becomes equal to
the 1st of the next month;
     *                                        otherwise the ending date
becomes equal to the 30th of the
     *                                        same month.
     *                                        TRUE: European method.
Starting dates and ending dates that
     *                                        occur on the 31st of a month
become equal to the 30th of the
     *                                        same month.
     *
     * @return int|string Number of days between start date and end date
     */
    public static function DAYS360($startDate = 0, $endDate = 0, $method =
false)
    {
        $startDate = Functions::flattenSingleValue($startDate);
        $endDate = Functions::flattenSingleValue($endDate);

        if (is_string($startDate = self::getDateValue($startDate))) {
            return Functions::VALUE();
        }
        if (is_string($endDate = self::getDateValue($endDate))) {
            return Functions::VALUE();
        }

        if (!is_bool($method)) {
            return Functions::VALUE();
        }

        // Execute function
        $PHPStartDateObject = Date::excelToDateTimeObject($startDate);
        $startDay = $PHPStartDateObject->format('j');
        $startMonth = $PHPStartDateObject->format('n');
        $startYear = $PHPStartDateObject->format('Y');

        $PHPEndDateObject = Date::excelToDateTimeObject($endDate);
        $endDay = $PHPEndDateObject->format('j');
        $endMonth = $PHPEndDateObject->format('n');
        $endYear = $PHPEndDateObject->format('Y');

        return self::dateDiff360($startDay, $startMonth, $startYear,
$endDay, $endMonth, $endYear, !$method);
    }

    /**
     * YEARFRAC.
     *
     * Calculates the fraction of the year represented by the number of
whole days between two dates
     * (the start_date and the end_date).
     * Use the YEARFRAC worksheet function to identify the proportion of a
whole year's benefits or
     * obligations to assign to a specific term.
     *
     * Excel Function:
     *        YEARFRAC(startDate,endDate[,method])
     * See
https://lists.oasis-open.org/archives/office-formula/200806/msg00039.html
     *     for description of algorithm used in Excel
     *
     * @category Date/Time Functions
     *
     * @param mixed $startDate Excel date serial value (float), PHP date
timestamp (integer),
     *                                    PHP DateTime object, or a
standard date string
     * @param mixed $endDate Excel date serial value (float), PHP date
timestamp (integer),
     *                                    PHP DateTime object, or a
standard date string
     * @param int $method Method used for the calculation
     *                                        0 or omitted    US (NASD)
30/360
     *                                        1               
Actual/actual
     *                                        2                Actual/360
     *                                        3                Actual/365
     *                                        4                European
30/360
     *
     * @return float|string fraction of the year, or a string containing an
error
     */
    public static function YEARFRAC($startDate = 0, $endDate = 0, $method =
0)
    {
        $startDate = Functions::flattenSingleValue($startDate);
        $endDate = Functions::flattenSingleValue($endDate);
        $method = Functions::flattenSingleValue($method);

        if (is_string($startDate = self::getDateValue($startDate))) {
            return Functions::VALUE();
        }
        if (is_string($endDate = self::getDateValue($endDate))) {
            return Functions::VALUE();
        }
        if ($startDate > $endDate) {
            $temp = $startDate;
            $startDate = $endDate;
            $endDate = $temp;
        }

        if (((is_numeric($method)) && (!is_string($method))) ||
($method == '')) {
            switch ($method) {
                case 0:
                    return self::DAYS360($startDate, $endDate) / 360;
                case 1:
                    $days = self::DATEDIF($startDate, $endDate);
                    $startYear = self::YEAR($startDate);
                    $endYear = self::YEAR($endDate);
                    $years = $endYear - $startYear + 1;
                    $startMonth = self::MONTHOFYEAR($startDate);
                    $startDay = self::DAYOFMONTH($startDate);
                    $endMonth = self::MONTHOFYEAR($endDate);
                    $endDay = self::DAYOFMONTH($endDate);
                    $startMonthDay = 100 * $startMonth + $startDay;
                    $endMonthDay = 100 * $endMonth + $endDay;
                    if ($years == 1) {
                        if (self::isLeapYear($endYear)) {
                            $tmpCalcAnnualBasis = 366;
                        } else {
                            $tmpCalcAnnualBasis = 365;
                        }
                    } elseif ($years == 2 && $startMonthDay >=
$endMonthDay) {
                        if (self::isLeapYear($startYear)) {
                            if ($startMonthDay <= 229) {
                                $tmpCalcAnnualBasis = 366;
                            } else {
                                $tmpCalcAnnualBasis = 365;
                            }
                        } elseif (self::isLeapYear($endYear)) {
                            if ($endMonthDay >= 229) {
                                $tmpCalcAnnualBasis = 366;
                            } else {
                                $tmpCalcAnnualBasis = 365;
                            }
                        } else {
                            $tmpCalcAnnualBasis = 365;
                        }
                    } else {
                        $tmpCalcAnnualBasis = 0;
                        for ($year = $startYear; $year <= $endYear;
++$year) {
                            $tmpCalcAnnualBasis += self::isLeapYear($year)
? 366 : 365;
                        }
                        $tmpCalcAnnualBasis /= $years;
                    }

                    return $days / $tmpCalcAnnualBasis;
                case 2:
                    return self::DATEDIF($startDate, $endDate) / 360;
                case 3:
                    return self::DATEDIF($startDate, $endDate) / 365;
                case 4:
                    return self::DAYS360($startDate, $endDate, true) / 360;
            }
        }

        return Functions::VALUE();
    }

    /**
     * NETWORKDAYS.
     *
     * Returns the number of whole working days between start_date and
end_date. Working days
     * exclude weekends and any dates identified in holidays.
     * Use NETWORKDAYS to calculate employee benefits that accrue based on
the number of days
     * worked during a specific term.
     *
     * Excel Function:
     *        NETWORKDAYS(startDate,endDate[,holidays[,holiday[,...]]])
     *
     * @category Date/Time Functions
     *
     * @param mixed $startDate Excel date serial value (float), PHP date
timestamp (integer),
     *                                            PHP DateTime object, or a
standard date string
     * @param mixed $endDate Excel date serial value (float), PHP date
timestamp (integer),
     *                                            PHP DateTime object, or a
standard date string
     *
     * @return int|string Interval between the dates
     */
    public static function NETWORKDAYS($startDate, $endDate, ...$dateArgs)
    {
        //    Retrieve the mandatory start and end date that are referenced
in the function definition
        $startDate = Functions::flattenSingleValue($startDate);
        $endDate = Functions::flattenSingleValue($endDate);
        //    Get the optional days
        $dateArgs = Functions::flattenArray($dateArgs);

        //    Validate the start and end dates
        if (is_string($startDate = $sDate =
self::getDateValue($startDate))) {
            return Functions::VALUE();
        }
        $startDate = (float) floor($startDate);
        if (is_string($endDate = $eDate = self::getDateValue($endDate))) {
            return Functions::VALUE();
        }
        $endDate = (float) floor($endDate);

        if ($sDate > $eDate) {
            $startDate = $eDate;
            $endDate = $sDate;
        }

        // Execute function
        $startDoW = 6 - self::WEEKDAY($startDate, 2);
        if ($startDoW < 0) {
            $startDoW = 0;
        }
        $endDoW = self::WEEKDAY($endDate, 2);
        if ($endDoW >= 6) {
            $endDoW = 0;
        }

        $wholeWeekDays = floor(($endDate - $startDate) / 7) * 5;
        $partWeekDays = $endDoW + $startDoW;
        if ($partWeekDays > 5) {
            $partWeekDays -= 5;
        }

        //    Test any extra holiday parameters
        $holidayCountedArray = [];
        foreach ($dateArgs as $holidayDate) {
            if (is_string($holidayDate = self::getDateValue($holidayDate)))
{
                return Functions::VALUE();
            }
            if (($holidayDate >= $startDate) && ($holidayDate
<= $endDate)) {
                if ((self::WEEKDAY($holidayDate, 2) < 6) &&
(!in_array($holidayDate, $holidayCountedArray))) {
                    --$partWeekDays;
                    $holidayCountedArray[] = $holidayDate;
                }
            }
        }

        if ($sDate > $eDate) {
            return 0 - ($wholeWeekDays + $partWeekDays);
        }

        return $wholeWeekDays + $partWeekDays;
    }

    /**
     * WORKDAY.
     *
     * Returns the date that is the indicated number of working days before
or after a date (the
     * starting date). Working days exclude weekends and any dates
identified as holidays.
     * Use WORKDAY to exclude weekends or holidays when you calculate
invoice due dates, expected
     * delivery times, or the number of days of work performed.
     *
     * Excel Function:
     *        WORKDAY(startDate,endDays[,holidays[,holiday[,...]]])
     *
     * @category Date/Time Functions
     *
     * @param mixed $startDate Excel date serial value (float), PHP date
timestamp (integer),
     *                                        PHP DateTime object, or a
standard date string
     * @param int $endDays The number of nonweekend and nonholiday days
before or after
     *                                        startDate. A positive value
for days yields a future date; a
     *                                        negative value yields a past
date.
     *
     * @return mixed Excel date/time serial value, PHP date/time serial
value or PHP date/time object,
     *                        depending on the value of the ReturnDateType
flag
     */
    public static function WORKDAY($startDate, $endDays, ...$dateArgs)
    {
        //    Retrieve the mandatory start date and days that are
referenced in the function definition
        $startDate = Functions::flattenSingleValue($startDate);
        $endDays = Functions::flattenSingleValue($endDays);
        //    Get the optional days
        $dateArgs = Functions::flattenArray($dateArgs);

        if ((is_string($startDate = self::getDateValue($startDate))) ||
(!is_numeric($endDays))) {
            return Functions::VALUE();
        }
        $startDate = (float) floor($startDate);
        $endDays = (int) floor($endDays);
        //    If endDays is 0, we always return startDate
        if ($endDays == 0) {
            return $startDate;
        }

        $decrementing = $endDays < 0;

        //    Adjust the start date if it falls over a weekend

        $startDoW = self::WEEKDAY($startDate, 3);
        if (self::WEEKDAY($startDate, 3) >= 5) {
            $startDate += ($decrementing) ? -$startDoW + 4 : 7 - $startDoW;
            ($decrementing) ? $endDays++ : $endDays--;
        }

        //    Add endDays
        $endDate = (float) $startDate + ((int) ($endDays / 5) * 7) +
($endDays % 5);

        //    Adjust the calculated end date if it falls over a weekend
        $endDoW = self::WEEKDAY($endDate, 3);
        if ($endDoW >= 5) {
            $endDate += ($decrementing) ? -$endDoW + 4 : 7 - $endDoW;
        }

        //    Test any extra holiday parameters
        if (!empty($dateArgs)) {
            $holidayCountedArray = $holidayDates = [];
            foreach ($dateArgs as $holidayDate) {
                if (($holidayDate !== null) && (trim($holidayDate)
> '')) {
                    if (is_string($holidayDate =
self::getDateValue($holidayDate))) {
                        return Functions::VALUE();
                    }
                    if (self::WEEKDAY($holidayDate, 3) < 5) {
                        $holidayDates[] = $holidayDate;
                    }
                }
            }
            if ($decrementing) {
                rsort($holidayDates, SORT_NUMERIC);
            } else {
                sort($holidayDates, SORT_NUMERIC);
            }
            foreach ($holidayDates as $holidayDate) {
                if ($decrementing) {
                    if (($holidayDate <= $startDate) &&
($holidayDate >= $endDate)) {
                        if (!in_array($holidayDate, $holidayCountedArray))
{
                            --$endDate;
                            $holidayCountedArray[] = $holidayDate;
                        }
                    }
                } else {
                    if (($holidayDate >= $startDate) &&
($holidayDate <= $endDate)) {
                        if (!in_array($holidayDate, $holidayCountedArray))
{
                            ++$endDate;
                            $holidayCountedArray[] = $holidayDate;
                        }
                    }
                }
                //    Adjust the calculated end date if it falls over a
weekend
                $endDoW = self::WEEKDAY($endDate, 3);
                if ($endDoW >= 5) {
                    $endDate += ($decrementing) ? -$endDoW + 4 : 7 -
$endDoW;
                }
            }
        }

        switch (Functions::getReturnDateType()) {
            case Functions::RETURNDATE_EXCEL:
                return (float) $endDate;
            case Functions::RETURNDATE_UNIX_TIMESTAMP:
                return (int) Date::excelToTimestamp($endDate);
            case Functions::RETURNDATE_PHP_DATETIME_OBJECT:
                return Date::excelToDateTimeObject($endDate);
        }
    }

    /**
     * DAYOFMONTH.
     *
     * Returns the day of the month, for a specified date. The day is given
as an integer
     * ranging from 1 to 31.
     *
     * Excel Function:
     *        DAY(dateValue)
     *
     * @param mixed $dateValue Excel date serial value (float), PHP date
timestamp (integer),
     *                                    PHP DateTime object, or a
standard date string
     *
     * @return int|string Day of the month
     */
    public static function DAYOFMONTH($dateValue = 1)
    {
        $dateValue = Functions::flattenSingleValue($dateValue);

        if ($dateValue === null) {
            $dateValue = 1;
        } elseif (is_string($dateValue = self::getDateValue($dateValue))) {
            return Functions::VALUE();
        }

        if (Functions::getCompatibilityMode() ==
Functions::COMPATIBILITY_EXCEL) {
            if ($dateValue < 0.0) {
                return Functions::NAN();
            } elseif ($dateValue < 1.0) {
                return 0;
            }
        }

        // Execute function
        $PHPDateObject = Date::excelToDateTimeObject($dateValue);

        return (int) $PHPDateObject->format('j');
    }

    /**
     * WEEKDAY.
     *
     * Returns the day of the week for a specified date. The day is given
as an integer
     * ranging from 0 to 7 (dependent on the requested style).
     *
     * Excel Function:
     *        WEEKDAY(dateValue[,style])
     *
     * @param int $dateValue Excel date serial value (float), PHP date
timestamp (integer),
     *                                    PHP DateTime object, or a
standard date string
     * @param int $style A number that determines the type of return value
     *                                        1 or omitted    Numbers 1
(Sunday) through 7 (Saturday).
     *                                        2                Numbers 1
(Monday) through 7 (Sunday).
     *                                        3                Numbers 0
(Monday) through 6 (Sunday).
     *
     * @return int|string Day of the week value
     */
    public static function WEEKDAY($dateValue = 1, $style = 1)
    {
        $dateValue = Functions::flattenSingleValue($dateValue);
        $style = Functions::flattenSingleValue($style);

        if (!is_numeric($style)) {
            return Functions::VALUE();
        } elseif (($style < 1) || ($style > 3)) {
            return Functions::NAN();
        }
        $style = floor($style);

        if ($dateValue === null) {
            $dateValue = 1;
        } elseif (is_string($dateValue = self::getDateValue($dateValue))) {
            return Functions::VALUE();
        } elseif ($dateValue < 0.0) {
            return Functions::NAN();
        }

        // Execute function
        $PHPDateObject = Date::excelToDateTimeObject($dateValue);
        $DoW = (int) $PHPDateObject->format('w');

        $firstDay = 1;
        switch ($style) {
            case 1:
                ++$DoW;

                break;
            case 2:
                if ($DoW === 0) {
                    $DoW = 7;
                }

                break;
            case 3:
                if ($DoW === 0) {
                    $DoW = 7;
                }
                $firstDay = 0;
                --$DoW;

                break;
        }
        if (Functions::getCompatibilityMode() ==
Functions::COMPATIBILITY_EXCEL) {
            //    Test for Excel's 1900 leap year, and introduce the
error as required
            if (($PHPDateObject->format('Y') == 1900)
&& ($PHPDateObject->format('n') <= 2)) {
                --$DoW;
                if ($DoW < $firstDay) {
                    $DoW += 7;
                }
            }
        }

        return $DoW;
    }

    const STARTWEEK_SUNDAY = 1;
    const STARTWEEK_MONDAY = 2;
    const STARTWEEK_MONDAY_ALT = 11;
    const STARTWEEK_TUESDAY = 12;
    const STARTWEEK_WEDNESDAY = 13;
    const STARTWEEK_THURSDAY = 14;
    const STARTWEEK_FRIDAY = 15;
    const STARTWEEK_SATURDAY = 16;
    const STARTWEEK_SUNDAY_ALT = 17;
    const DOW_SUNDAY = 1;
    const DOW_MONDAY = 2;
    const DOW_TUESDAY = 3;
    const DOW_WEDNESDAY = 4;
    const DOW_THURSDAY = 5;
    const DOW_FRIDAY = 6;
    const DOW_SATURDAY = 7;
    const STARTWEEK_MONDAY_ISO = 21;
    const METHODARR = [
        self::STARTWEEK_SUNDAY => self::DOW_SUNDAY,
        self::DOW_MONDAY,
        self::STARTWEEK_MONDAY_ALT => self::DOW_MONDAY,
        self::DOW_TUESDAY,
        self::DOW_WEDNESDAY,
        self::DOW_THURSDAY,
        self::DOW_FRIDAY,
        self::DOW_SATURDAY,
        self::DOW_SUNDAY,
        self::STARTWEEK_MONDAY_ISO => self::STARTWEEK_MONDAY_ISO,
        ];

    /**
     * WEEKNUM.
     *
     * Returns the week of the year for a specified date.
     * The WEEKNUM function considers the week containing January 1 to be
the first week of the year.
     * However, there is a European standard that defines the first week as
the one with the majority
     * of days (four or more) falling in the new year. This means that for
years in which there are
     * three days or less in the first week of January, the WEEKNUM
function returns week numbers
     * that are incorrect according to the European standard.
     *
     * Excel Function:
     *        WEEKNUM(dateValue[,style])
     *
     * @param mixed $dateValue Excel date serial value (float), PHP date
timestamp (integer),
     *                                    PHP DateTime object, or a
standard date string
     * @param int $method Week begins on Sunday or Monday
     *                                        1 or omitted    Week begins
on Sunday.
     *                                        2                Week begins
on Monday.
     *                                        11               Week begins
on Monday.
     *                                        12               Week begins
on Tuesday.
     *                                        13               Week begins
on Wednesday.
     *                                        14               Week begins
on Thursday.
     *                                        15               Week begins
on Friday.
     *                                        16               Week begins
on Saturday.
     *                                        17               Week begins
on Sunday.
     *                                        21               ISO (Jan. 4
is week 1, begins on Monday).
     *
     * @return int|string Week Number
     */
    public static function WEEKNUM($dateValue = 1, $method =
self::STARTWEEK_SUNDAY)
    {
        $dateValue = Functions::flattenSingleValue($dateValue);
        $method = Functions::flattenSingleValue($method);

        if (!is_numeric($method)) {
            return Functions::VALUE();
        }
        $method = (int) $method;
        if (!array_key_exists($method, self::METHODARR)) {
            return Functions::NaN();
        }
        $method = self::METHODARR[$method];

        $dateValue = self::getDateValue($dateValue);
        if (is_string($dateValue)) {
            return Functions::VALUE();
        }
        if ($dateValue < 0.0) {
            return Functions::NAN();
        }

        // Execute function
        $PHPDateObject = Date::excelToDateTimeObject($dateValue);
        if ($method == self::STARTWEEK_MONDAY_ISO) {
            return (int) $PHPDateObject->format('W');
        }
        $dayOfYear = $PHPDateObject->format('z');
        $PHPDateObject->modify('-' . $dayOfYear . '
days');
        $firstDayOfFirstWeek = $PHPDateObject->format('w');
        $daysInFirstWeek = (6 - $firstDayOfFirstWeek + $method) % 7;
        $daysInFirstWeek += 7 * !$daysInFirstWeek;
        $endFirstWeek = $daysInFirstWeek - 1;
        $weekOfYear = floor(($dayOfYear - $endFirstWeek + 13) / 7);

        return (int) $weekOfYear;
    }

    /**
     * ISOWEEKNUM.
     *
     * Returns the ISO 8601 week number of the year for a specified date.
     *
     * Excel Function:
     *        ISOWEEKNUM(dateValue)
     *
     * @param mixed $dateValue Excel date serial value (float), PHP date
timestamp (integer),
     *                                    PHP DateTime object, or a
standard date string
     *
     * @return int|string Week Number
     */
    public static function ISOWEEKNUM($dateValue = 1)
    {
        $dateValue = Functions::flattenSingleValue($dateValue);

        if ($dateValue === null) {
            $dateValue = 1;
        } elseif (is_string($dateValue = self::getDateValue($dateValue))) {
            return Functions::VALUE();
        } elseif ($dateValue < 0.0) {
            return Functions::NAN();
        }

        // Execute function
        $PHPDateObject = Date::excelToDateTimeObject($dateValue);

        return (int) $PHPDateObject->format('W');
    }

    /**
     * MONTHOFYEAR.
     *
     * Returns the month of a date represented by a serial number.
     * The month is given as an integer, ranging from 1 (January) to 12
(December).
     *
     * Excel Function:
     *        MONTH(dateValue)
     *
     * @param mixed $dateValue Excel date serial value (float), PHP date
timestamp (integer),
     *                                    PHP DateTime object, or a
standard date string
     *
     * @return int|string Month of the year
     */
    public static function MONTHOFYEAR($dateValue = 1)
    {
        $dateValue = Functions::flattenSingleValue($dateValue);

        if (empty($dateValue)) {
            $dateValue = 1;
        }
        if (is_string($dateValue = self::getDateValue($dateValue))) {
            return Functions::VALUE();
        } elseif ($dateValue < 0.0) {
            return Functions::NAN();
        }

        // Execute function
        $PHPDateObject = Date::excelToDateTimeObject($dateValue);

        return (int) $PHPDateObject->format('n');
    }

    /**
     * YEAR.
     *
     * Returns the year corresponding to a date.
     * The year is returned as an integer in the range 1900-9999.
     *
     * Excel Function:
     *        YEAR(dateValue)
     *
     * @param mixed $dateValue Excel date serial value (float), PHP date
timestamp (integer),
     *                                    PHP DateTime object, or a
standard date string
     *
     * @return int|string Year
     */
    public static function YEAR($dateValue = 1)
    {
        $dateValue = Functions::flattenSingleValue($dateValue);

        if ($dateValue === null) {
            $dateValue = 1;
        } elseif (is_string($dateValue = self::getDateValue($dateValue))) {
            return Functions::VALUE();
        } elseif ($dateValue < 0.0) {
            return Functions::NAN();
        }

        // Execute function
        $PHPDateObject = Date::excelToDateTimeObject($dateValue);

        return (int) $PHPDateObject->format('Y');
    }

    /**
     * HOUROFDAY.
     *
     * Returns the hour of a time value.
     * The hour is given as an integer, ranging from 0 (12:00 A.M.) to 23
(11:00 P.M.).
     *
     * Excel Function:
     *        HOUR(timeValue)
     *
     * @param mixed $timeValue Excel date serial value (float), PHP date
timestamp (integer),
     *                                    PHP DateTime object, or a
standard time string
     *
     * @return int|string Hour
     */
    public static function HOUROFDAY($timeValue = 0)
    {
        $timeValue = Functions::flattenSingleValue($timeValue);

        if (!is_numeric($timeValue)) {
            if (Functions::getCompatibilityMode() ==
Functions::COMPATIBILITY_GNUMERIC) {
                $testVal = strtok($timeValue, '/-: ');
                if (strlen($testVal) < strlen($timeValue)) {
                    return Functions::VALUE();
                }
            }
            $timeValue = self::getTimeValue($timeValue);
            if (is_string($timeValue)) {
                return Functions::VALUE();
            }
        }
        // Execute function
        if ($timeValue >= 1) {
            $timeValue = fmod($timeValue, 1);
        } elseif ($timeValue < 0.0) {
            return Functions::NAN();
        }
        $timeValue = Date::excelToTimestamp($timeValue);

        return (int) gmdate('G', $timeValue);
    }

    /**
     * MINUTE.
     *
     * Returns the minutes of a time value.
     * The minute is given as an integer, ranging from 0 to 59.
     *
     * Excel Function:
     *        MINUTE(timeValue)
     *
     * @param mixed $timeValue Excel date serial value (float), PHP date
timestamp (integer),
     *                                    PHP DateTime object, or a
standard time string
     *
     * @return int|string Minute
     */
    public static function MINUTE($timeValue = 0)
    {
        $timeValue = $timeTester =
Functions::flattenSingleValue($timeValue);

        if (!is_numeric($timeValue)) {
            if (Functions::getCompatibilityMode() ==
Functions::COMPATIBILITY_GNUMERIC) {
                $testVal = strtok($timeValue, '/-: ');
                if (strlen($testVal) < strlen($timeValue)) {
                    return Functions::VALUE();
                }
            }
            $timeValue = self::getTimeValue($timeValue);
            if (is_string($timeValue)) {
                return Functions::VALUE();
            }
        }
        // Execute function
        if ($timeValue >= 1) {
            $timeValue = fmod($timeValue, 1);
        } elseif ($timeValue < 0.0) {
            return Functions::NAN();
        }
        $timeValue = Date::excelToTimestamp($timeValue);

        return (int) gmdate('i', $timeValue);
    }

    /**
     * SECOND.
     *
     * Returns the seconds of a time value.
     * The second is given as an integer in the range 0 (zero) to 59.
     *
     * Excel Function:
     *        SECOND(timeValue)
     *
     * @param mixed $timeValue Excel date serial value (float), PHP date
timestamp (integer),
     *                                    PHP DateTime object, or a
standard time string
     *
     * @return int|string Second
     */
    public static function SECOND($timeValue = 0)
    {
        $timeValue = Functions::flattenSingleValue($timeValue);

        if (!is_numeric($timeValue)) {
            if (Functions::getCompatibilityMode() ==
Functions::COMPATIBILITY_GNUMERIC) {
                $testVal = strtok($timeValue, '/-: ');
                if (strlen($testVal) < strlen($timeValue)) {
                    return Functions::VALUE();
                }
            }
            $timeValue = self::getTimeValue($timeValue);
            if (is_string($timeValue)) {
                return Functions::VALUE();
            }
        }
        // Execute function
        if ($timeValue >= 1) {
            $timeValue = fmod($timeValue, 1);
        } elseif ($timeValue < 0.0) {
            return Functions::NAN();
        }
        $timeValue = Date::excelToTimestamp($timeValue);

        return (int) gmdate('s', $timeValue);
    }

    /**
     * EDATE.
     *
     * Returns the serial number that represents the date that is the
indicated number of months
     * before or after a specified date (the start_date).
     * Use EDATE to calculate maturity dates or due dates that fall on the
same day of the month
     * as the date of issue.
     *
     * Excel Function:
     *        EDATE(dateValue,adjustmentMonths)
     *
     * @param mixed $dateValue Excel date serial value (float), PHP date
timestamp (integer),
     *                                        PHP DateTime object, or a
standard date string
     * @param int $adjustmentMonths The number of months before or after
start_date.
     *                                        A positive value for months
yields a future date;
     *                                        a negative value yields a
past date.
     *
     * @return mixed Excel date/time serial value, PHP date/time serial
value or PHP date/time object,
     *                        depending on the value of the ReturnDateType
flag
     */
    public static function EDATE($dateValue = 1, $adjustmentMonths = 0)
    {
        $dateValue = Functions::flattenSingleValue($dateValue);
        $adjustmentMonths =
Functions::flattenSingleValue($adjustmentMonths);

        if (!is_numeric($adjustmentMonths)) {
            return Functions::VALUE();
        }
        $adjustmentMonths = floor($adjustmentMonths);

        if (is_string($dateValue = self::getDateValue($dateValue))) {
            return Functions::VALUE();
        }

        // Execute function
        $PHPDateObject = self::adjustDateByMonths($dateValue,
$adjustmentMonths);

        switch (Functions::getReturnDateType()) {
            case Functions::RETURNDATE_EXCEL:
                return (float) Date::PHPToExcel($PHPDateObject);
            case Functions::RETURNDATE_UNIX_TIMESTAMP:
                return (int)
Date::excelToTimestamp(Date::PHPToExcel($PHPDateObject));
            case Functions::RETURNDATE_PHP_DATETIME_OBJECT:
                return $PHPDateObject;
        }
    }

    /**
     * EOMONTH.
     *
     * Returns the date value for the last day of the month that is the
indicated number of months
     * before or after start_date.
     * Use EOMONTH to calculate maturity dates or due dates that fall on
the last day of the month.
     *
     * Excel Function:
     *        EOMONTH(dateValue,adjustmentMonths)
     *
     * @param mixed $dateValue Excel date serial value (float), PHP date
timestamp (integer),
     *                                        PHP DateTime object, or a
standard date string
     * @param int $adjustmentMonths The number of months before or after
start_date.
     *                                        A positive value for months
yields a future date;
     *                                        a negative value yields a
past date.
     *
     * @return mixed Excel date/time serial value, PHP date/time serial
value or PHP date/time object,
     *                        depending on the value of the ReturnDateType
flag
     */
    public static function EOMONTH($dateValue = 1, $adjustmentMonths = 0)
    {
        $dateValue = Functions::flattenSingleValue($dateValue);
        $adjustmentMonths =
Functions::flattenSingleValue($adjustmentMonths);

        if (!is_numeric($adjustmentMonths)) {
            return Functions::VALUE();
        }
        $adjustmentMonths = floor($adjustmentMonths);

        if (is_string($dateValue = self::getDateValue($dateValue))) {
            return Functions::VALUE();
        }

        // Execute function
        $PHPDateObject = self::adjustDateByMonths($dateValue,
$adjustmentMonths + 1);
        $adjustDays = (int) $PHPDateObject->format('d');
        $adjustDaysString = '-' . $adjustDays . '
days';
        $PHPDateObject->modify($adjustDaysString);

        switch (Functions::getReturnDateType()) {
            case Functions::RETURNDATE_EXCEL:
                return (float) Date::PHPToExcel($PHPDateObject);
            case Functions::RETURNDATE_UNIX_TIMESTAMP:
                return (int)
Date::excelToTimestamp(Date::PHPToExcel($PHPDateObject));
            case Functions::RETURNDATE_PHP_DATETIME_OBJECT:
                return $PHPDateObject;
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/Engine/CyclicReferenceStack.php000064400000002334151165413710026726
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Calculation\Engine;

class CyclicReferenceStack
{
    /**
     * The call stack for calculated cells.
     *
     * @var mixed[]
     */
    private $stack = [];

    /**
     * Return the number of entries on the stack.
     *
     * @return int
     */
    public function count()
    {
        return count($this->stack);
    }

    /**
     * Push a new entry onto the stack.
     *
     * @param mixed $value
     */
    public function push($value)
    {
        $this->stack[$value] = $value;
    }

    /**
     * Pop the last entry from the stack.
     *
     * @return mixed
     */
    public function pop()
    {
        return array_pop($this->stack);
    }

    /**
     * Test to see if a specified entry exists on the stack.
     *
     * @param mixed $value The value to test
     *
     * @return bool
     */
    public function onStack($value)
    {
        return isset($this->stack[$value]);
    }

    /**
     * Clear the stack.
     */
    public function clear()
    {
        $this->stack = [];
    }

    /**
     * Return an array of all entries on the stack.
     *
     * @return mixed[]
     */
    public function showStack()
    {
        return $this->stack;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/Engine/Logger.php000064400000005720151165413710024134
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Calculation\Engine;

class Logger
{
    /**
     * Flag to determine whether a debug log should be generated by the
calculation engine
     *        If true, then a debug log will be generated
     *        If false, then a debug log will not be generated.
     *
     * @var bool
     */
    private $writeDebugLog = false;

    /**
     * Flag to determine whether a debug log should be echoed by the
calculation engine
     *        If true, then a debug log will be echoed
     *        If false, then a debug log will not be echoed
     * A debug log can only be echoed if it is generated.
     *
     * @var bool
     */
    private $echoDebugLog = false;

    /**
     * The debug log generated by the calculation engine.
     *
     * @var string[]
     */
    private $debugLog = [];

    /**
     * The calculation engine cell reference stack.
     *
     * @var CyclicReferenceStack
     */
    private $cellStack;

    /**
     * Instantiate a Calculation engine logger.
     *
     * @param CyclicReferenceStack $stack
     */
    public function __construct(CyclicReferenceStack $stack)
    {
        $this->cellStack = $stack;
    }

    /**
     * Enable/Disable Calculation engine logging.
     *
     * @param bool $pValue
     */
    public function setWriteDebugLog($pValue)
    {
        $this->writeDebugLog = $pValue;
    }

    /**
     * Return whether calculation engine logging is enabled or disabled.
     *
     * @return bool
     */
    public function getWriteDebugLog()
    {
        return $this->writeDebugLog;
    }

    /**
     * Enable/Disable echoing of debug log information.
     *
     * @param bool $pValue
     */
    public function setEchoDebugLog($pValue)
    {
        $this->echoDebugLog = $pValue;
    }

    /**
     * Return whether echoing of debug log information is enabled or
disabled.
     *
     * @return bool
     */
    public function getEchoDebugLog()
    {
        return $this->echoDebugLog;
    }

    /**
     * Write an entry to the calculation engine debug log.
     */
    public function writeDebugLog(...$args)
    {
        //    Only write the debug log if logging is enabled
        if ($this->writeDebugLog) {
            $message = implode($args);
            $cellReference = implode(' -> ',
$this->cellStack->showStack());
            if ($this->echoDebugLog) {
                echo $cellReference,
                    ($this->cellStack->count() > 0 ? ' =>
' : ''),
                    $message,
                    PHP_EOL;
            }
            $this->debugLog[] = $cellReference .
                ($this->cellStack->count() > 0 ? ' =>
' : '') .
                $message;
        }
    }

    /**
     * Clear the calculation engine debug log.
     */
    public function clearLog()
    {
        $this->debugLog = [];
    }

    /**
     * Return the calculation engine debug log.
     *
     * @return string[]
     */
    public function getLog()
    {
        return $this->debugLog;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/Engineering.php000064400000310004151165413710023734
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Calculation;

use Complex\Complex;
use Complex\Exception as ComplexException;

class Engineering
{
    /**
     * EULER.
     */
    const EULER = 2.71828182845904523536;

    /**
     * Details of the Units of measure that can be used in CONVERTUOM().
     *
     * @var mixed[]
     */
    private static $conversionUnits = [
        'g' => ['Group' => 'Mass',
'Unit Name' => 'Gram', 'AllowPrefix' =>
true],
        'sg' => ['Group' => 'Mass',
'Unit Name' => 'Slug', 'AllowPrefix' =>
false],
        'lbm' => ['Group' => 'Mass',
'Unit Name' => 'Pound mass (avoirdupois)',
'AllowPrefix' => false],
        'u' => ['Group' => 'Mass',
'Unit Name' => 'U (atomic mass unit)',
'AllowPrefix' => true],
        'ozm' => ['Group' => 'Mass',
'Unit Name' => 'Ounce mass (avoirdupois)',
'AllowPrefix' => false],
        'm' => ['Group' => 'Distance',
'Unit Name' => 'Meter', 'AllowPrefix'
=> true],
        'mi' => ['Group' => 'Distance',
'Unit Name' => 'Statute mile',
'AllowPrefix' => false],
        'Nmi' => ['Group' =>
'Distance', 'Unit Name' => 'Nautical
mile', 'AllowPrefix' => false],
        'in' => ['Group' => 'Distance',
'Unit Name' => 'Inch', 'AllowPrefix' =>
false],
        'ft' => ['Group' => 'Distance',
'Unit Name' => 'Foot', 'AllowPrefix' =>
false],
        'yd' => ['Group' => 'Distance',
'Unit Name' => 'Yard', 'AllowPrefix' =>
false],
        'ang' => ['Group' =>
'Distance', 'Unit Name' => 'Angstrom',
'AllowPrefix' => true],
        'Pica' => ['Group' =>
'Distance', 'Unit Name' => 'Pica (1/72
in)', 'AllowPrefix' => false],
        'yr' => ['Group' => 'Time',
'Unit Name' => 'Year', 'AllowPrefix' =>
false],
        'day' => ['Group' => 'Time',
'Unit Name' => 'Day', 'AllowPrefix' =>
false],
        'hr' => ['Group' => 'Time',
'Unit Name' => 'Hour', 'AllowPrefix' =>
false],
        'mn' => ['Group' => 'Time',
'Unit Name' => 'Minute', 'AllowPrefix'
=> false],
        'sec' => ['Group' => 'Time',
'Unit Name' => 'Second', 'AllowPrefix'
=> true],
        'Pa' => ['Group' => 'Pressure',
'Unit Name' => 'Pascal', 'AllowPrefix'
=> true],
        'p' => ['Group' => 'Pressure',
'Unit Name' => 'Pascal', 'AllowPrefix'
=> true],
        'atm' => ['Group' =>
'Pressure', 'Unit Name' => 'Atmosphere',
'AllowPrefix' => true],
        'at' => ['Group' => 'Pressure',
'Unit Name' => 'Atmosphere', 'AllowPrefix'
=> true],
        'mmHg' => ['Group' =>
'Pressure', 'Unit Name' => 'mm of
Mercury', 'AllowPrefix' => true],
        'N' => ['Group' => 'Force',
'Unit Name' => 'Newton', 'AllowPrefix'
=> true],
        'dyn' => ['Group' => 'Force',
'Unit Name' => 'Dyne', 'AllowPrefix' =>
true],
        'dy' => ['Group' => 'Force',
'Unit Name' => 'Dyne', 'AllowPrefix' =>
true],
        'lbf' => ['Group' => 'Force',
'Unit Name' => 'Pound force',
'AllowPrefix' => false],
        'J' => ['Group' => 'Energy',
'Unit Name' => 'Joule', 'AllowPrefix'
=> true],
        'e' => ['Group' => 'Energy',
'Unit Name' => 'Erg', 'AllowPrefix' =>
true],
        'c' => ['Group' => 'Energy',
'Unit Name' => 'Thermodynamic calorie',
'AllowPrefix' => true],
        'cal' => ['Group' => 'Energy',
'Unit Name' => 'IT calorie', 'AllowPrefix'
=> true],
        'eV' => ['Group' => 'Energy',
'Unit Name' => 'Electron volt',
'AllowPrefix' => true],
        'ev' => ['Group' => 'Energy',
'Unit Name' => 'Electron volt',
'AllowPrefix' => true],
        'HPh' => ['Group' => 'Energy',
'Unit Name' => 'Horsepower-hour',
'AllowPrefix' => false],
        'hh' => ['Group' => 'Energy',
'Unit Name' => 'Horsepower-hour',
'AllowPrefix' => false],
        'Wh' => ['Group' => 'Energy',
'Unit Name' => 'Watt-hour', 'AllowPrefix'
=> true],
        'wh' => ['Group' => 'Energy',
'Unit Name' => 'Watt-hour', 'AllowPrefix'
=> true],
        'flb' => ['Group' => 'Energy',
'Unit Name' => 'Foot-pound', 'AllowPrefix'
=> false],
        'BTU' => ['Group' => 'Energy',
'Unit Name' => 'BTU', 'AllowPrefix' =>
false],
        'btu' => ['Group' => 'Energy',
'Unit Name' => 'BTU', 'AllowPrefix' =>
false],
        'HP' => ['Group' => 'Power',
'Unit Name' => 'Horsepower', 'AllowPrefix'
=> false],
        'h' => ['Group' => 'Power',
'Unit Name' => 'Horsepower', 'AllowPrefix'
=> false],
        'W' => ['Group' => 'Power',
'Unit Name' => 'Watt', 'AllowPrefix' =>
true],
        'w' => ['Group' => 'Power',
'Unit Name' => 'Watt', 'AllowPrefix' =>
true],
        'T' => ['Group' => 'Magnetism',
'Unit Name' => 'Tesla', 'AllowPrefix'
=> true],
        'ga' => ['Group' =>
'Magnetism', 'Unit Name' => 'Gauss',
'AllowPrefix' => true],
        'C' => ['Group' =>
'Temperature', 'Unit Name' => 'Celsius',
'AllowPrefix' => false],
        'cel' => ['Group' =>
'Temperature', 'Unit Name' => 'Celsius',
'AllowPrefix' => false],
        'F' => ['Group' =>
'Temperature', 'Unit Name' =>
'Fahrenheit', 'AllowPrefix' => false],
        'fah' => ['Group' =>
'Temperature', 'Unit Name' =>
'Fahrenheit', 'AllowPrefix' => false],
        'K' => ['Group' =>
'Temperature', 'Unit Name' => 'Kelvin',
'AllowPrefix' => false],
        'kel' => ['Group' =>
'Temperature', 'Unit Name' => 'Kelvin',
'AllowPrefix' => false],
        'tsp' => ['Group' => 'Liquid',
'Unit Name' => 'Teaspoon', 'AllowPrefix'
=> false],
        'tbs' => ['Group' => 'Liquid',
'Unit Name' => 'Tablespoon', 'AllowPrefix'
=> false],
        'oz' => ['Group' => 'Liquid',
'Unit Name' => 'Fluid Ounce',
'AllowPrefix' => false],
        'cup' => ['Group' => 'Liquid',
'Unit Name' => 'Cup', 'AllowPrefix' =>
false],
        'pt' => ['Group' => 'Liquid',
'Unit Name' => 'U.S. Pint', 'AllowPrefix'
=> false],
        'us_pt' => ['Group' =>
'Liquid', 'Unit Name' => 'U.S. Pint',
'AllowPrefix' => false],
        'uk_pt' => ['Group' =>
'Liquid', 'Unit Name' => 'U.K. Pint',
'AllowPrefix' => false],
        'qt' => ['Group' => 'Liquid',
'Unit Name' => 'Quart', 'AllowPrefix'
=> false],
        'gal' => ['Group' => 'Liquid',
'Unit Name' => 'Gallon', 'AllowPrefix'
=> false],
        'l' => ['Group' => 'Liquid',
'Unit Name' => 'Litre', 'AllowPrefix'
=> true],
        'lt' => ['Group' => 'Liquid',
'Unit Name' => 'Litre', 'AllowPrefix'
=> true],
    ];

    /**
     * Details of the Multiplier prefixes that can be used with Units of
Measure in CONVERTUOM().
     *
     * @var mixed[]
     */
    private static $conversionMultipliers = [
        'Y' => ['multiplier' => 1E24,
'name' => 'yotta'],
        'Z' => ['multiplier' => 1E21,
'name' => 'zetta'],
        'E' => ['multiplier' => 1E18,
'name' => 'exa'],
        'P' => ['multiplier' => 1E15,
'name' => 'peta'],
        'T' => ['multiplier' => 1E12,
'name' => 'tera'],
        'G' => ['multiplier' => 1E9,
'name' => 'giga'],
        'M' => ['multiplier' => 1E6,
'name' => 'mega'],
        'k' => ['multiplier' => 1E3,
'name' => 'kilo'],
        'h' => ['multiplier' => 1E2,
'name' => 'hecto'],
        'e' => ['multiplier' => 1E1,
'name' => 'deka'],
        'd' => ['multiplier' => 1E-1,
'name' => 'deci'],
        'c' => ['multiplier' => 1E-2,
'name' => 'centi'],
        'm' => ['multiplier' => 1E-3,
'name' => 'milli'],
        'u' => ['multiplier' => 1E-6,
'name' => 'micro'],
        'n' => ['multiplier' => 1E-9,
'name' => 'nano'],
        'p' => ['multiplier' => 1E-12,
'name' => 'pico'],
        'f' => ['multiplier' => 1E-15,
'name' => 'femto'],
        'a' => ['multiplier' => 1E-18,
'name' => 'atto'],
        'z' => ['multiplier' => 1E-21,
'name' => 'zepto'],
        'y' => ['multiplier' => 1E-24,
'name' => 'yocto'],
    ];

    /**
     * Details of the Units of measure conversion factors, organised by
group.
     *
     * @var mixed[]
     */
    private static $unitConversions = [
        'Mass' => [
            'g' => [
                'g' => 1.0,
                'sg' => 6.85220500053478E-05,
                'lbm' => 2.20462291469134E-03,
                'u' => 6.02217000000000E+23,
                'ozm' => 3.52739718003627E-02,
            ],
            'sg' => [
                'g' => 1.45938424189287E+04,
                'sg' => 1.0,
                'lbm' => 3.21739194101647E+01,
                'u' => 8.78866000000000E+27,
                'ozm' => 5.14782785944229E+02,
            ],
            'lbm' => [
                'g' => 4.5359230974881148E+02,
                'sg' => 3.10810749306493E-02,
                'lbm' => 1.0,
                'u' => 2.73161000000000E+26,
                'ozm' => 1.60000023429410E+01,
            ],
            'u' => [
                'g' => 1.66053100460465E-24,
                'sg' => 1.13782988532950E-28,
                'lbm' => 3.66084470330684E-27,
                'u' => 1.0,
                'ozm' => 5.85735238300524E-26,
            ],
            'ozm' => [
                'g' => 2.83495152079732E+01,
                'sg' => 1.94256689870811E-03,
                'lbm' => 6.24999908478882E-02,
                'u' => 1.70725600000000E+25,
                'ozm' => 1.0,
            ],
        ],
        'Distance' => [
            'm' => [
                'm' => 1.0,
                'mi' => 6.21371192237334E-04,
                'Nmi' => 5.39956803455724E-04,
                'in' => 3.93700787401575E+01,
                'ft' => 3.28083989501312E+00,
                'yd' => 1.09361329797891E+00,
                'ang' => 1.00000000000000E+10,
                'Pica' => 2.83464566929116E+03,
            ],
            'mi' => [
                'm' => 1.60934400000000E+03,
                'mi' => 1.0,
                'Nmi' => 8.68976241900648E-01,
                'in' => 6.33600000000000E+04,
                'ft' => 5.28000000000000E+03,
                'yd' => 1.76000000000000E+03,
                'ang' => 1.60934400000000E+13,
                'Pica' => 4.56191999999971E+06,
            ],
            'Nmi' => [
                'm' => 1.85200000000000E+03,
                'mi' => 1.15077944802354E+00,
                'Nmi' => 1.0,
                'in' => 7.29133858267717E+04,
                'ft' => 6.07611548556430E+03,
                'yd' => 2.02537182785694E+03,
                'ang' => 1.85200000000000E+13,
                'Pica' => 5.24976377952723E+06,
            ],
            'in' => [
                'm' => 2.54000000000000E-02,
                'mi' => 1.57828282828283E-05,
                'Nmi' => 1.37149028077754E-05,
                'in' => 1.0,
                'ft' => 8.33333333333333E-02,
                'yd' => 2.77777777686643E-02,
                'ang' => 2.54000000000000E+08,
                'Pica' => 7.19999999999955E+01,
            ],
            'ft' => [
                'm' => 3.04800000000000E-01,
                'mi' => 1.89393939393939E-04,
                'Nmi' => 1.64578833693305E-04,
                'in' => 1.20000000000000E+01,
                'ft' => 1.0,
                'yd' => 3.33333333223972E-01,
                'ang' => 3.04800000000000E+09,
                'Pica' => 8.63999999999946E+02,
            ],
            'yd' => [
                'm' => 9.14400000300000E-01,
                'mi' => 5.68181818368230E-04,
                'Nmi' => 4.93736501241901E-04,
                'in' => 3.60000000118110E+01,
                'ft' => 3.00000000000000E+00,
                'yd' => 1.0,
                'ang' => 9.14400000300000E+09,
                'Pica' => 2.59200000085023E+03,
            ],
            'ang' => [
                'm' => 1.00000000000000E-10,
                'mi' => 6.21371192237334E-14,
                'Nmi' => 5.39956803455724E-14,
                'in' => 3.93700787401575E-09,
                'ft' => 3.28083989501312E-10,
                'yd' => 1.09361329797891E-10,
                'ang' => 1.0,
                'Pica' => 2.83464566929116E-07,
            ],
            'Pica' => [
                'm' => 3.52777777777800E-04,
                'mi' => 2.19205948372629E-07,
                'Nmi' => 1.90484761219114E-07,
                'in' => 1.38888888888898E-02,
                'ft' => 1.15740740740748E-03,
                'yd' => 3.85802469009251E-04,
                'ang' => 3.52777777777800E+06,
                'Pica' => 1.0,
            ],
        ],
        'Time' => [
            'yr' => [
                'yr' => 1.0,
                'day' => 365.25,
                'hr' => 8766.0,
                'mn' => 525960.0,
                'sec' => 31557600.0,
            ],
            'day' => [
                'yr' => 2.73785078713210E-03,
                'day' => 1.0,
                'hr' => 24.0,
                'mn' => 1440.0,
                'sec' => 86400.0,
            ],
            'hr' => [
                'yr' => 1.14077116130504E-04,
                'day' => 4.16666666666667E-02,
                'hr' => 1.0,
                'mn' => 60.0,
                'sec' => 3600.0,
            ],
            'mn' => [
                'yr' => 1.90128526884174E-06,
                'day' => 6.94444444444444E-04,
                'hr' => 1.66666666666667E-02,
                'mn' => 1.0,
                'sec' => 60.0,
            ],
            'sec' => [
                'yr' => 3.16880878140289E-08,
                'day' => 1.15740740740741E-05,
                'hr' => 2.77777777777778E-04,
                'mn' => 1.66666666666667E-02,
                'sec' => 1.0,
            ],
        ],
        'Pressure' => [
            'Pa' => [
                'Pa' => 1.0,
                'p' => 1.0,
                'atm' => 9.86923299998193E-06,
                'at' => 9.86923299998193E-06,
                'mmHg' => 7.50061707998627E-03,
            ],
            'p' => [
                'Pa' => 1.0,
                'p' => 1.0,
                'atm' => 9.86923299998193E-06,
                'at' => 9.86923299998193E-06,
                'mmHg' => 7.50061707998627E-03,
            ],
            'atm' => [
                'Pa' => 1.01324996583000E+05,
                'p' => 1.01324996583000E+05,
                'atm' => 1.0,
                'at' => 1.0,
                'mmHg' => 760.0,
            ],
            'at' => [
                'Pa' => 1.01324996583000E+05,
                'p' => 1.01324996583000E+05,
                'atm' => 1.0,
                'at' => 1.0,
                'mmHg' => 760.0,
            ],
            'mmHg' => [
                'Pa' => 1.33322363925000E+02,
                'p' => 1.33322363925000E+02,
                'atm' => 1.31578947368421E-03,
                'at' => 1.31578947368421E-03,
                'mmHg' => 1.0,
            ],
        ],
        'Force' => [
            'N' => [
                'N' => 1.0,
                'dyn' => 1.0E+5,
                'dy' => 1.0E+5,
                'lbf' => 2.24808923655339E-01,
            ],
            'dyn' => [
                'N' => 1.0E-5,
                'dyn' => 1.0,
                'dy' => 1.0,
                'lbf' => 2.24808923655339E-06,
            ],
            'dy' => [
                'N' => 1.0E-5,
                'dyn' => 1.0,
                'dy' => 1.0,
                'lbf' => 2.24808923655339E-06,
            ],
            'lbf' => [
                'N' => 4.448222,
                'dyn' => 4.448222E+5,
                'dy' => 4.448222E+5,
                'lbf' => 1.0,
            ],
        ],
        'Energy' => [
            'J' => [
                'J' => 1.0,
                'e' => 9.99999519343231E+06,
                'c' => 2.39006249473467E-01,
                'cal' => 2.38846190642017E-01,
                'eV' => 6.24145700000000E+18,
                'ev' => 6.24145700000000E+18,
                'HPh' => 3.72506430801000E-07,
                'hh' => 3.72506430801000E-07,
                'Wh' => 2.77777916238711E-04,
                'wh' => 2.77777916238711E-04,
                'flb' => 2.37304222192651E+01,
                'BTU' => 9.47815067349015E-04,
                'btu' => 9.47815067349015E-04,
            ],
            'e' => [
                'J' => 1.00000048065700E-07,
                'e' => 1.0,
                'c' => 2.39006364353494E-08,
                'cal' => 2.38846305445111E-08,
                'eV' => 6.24146000000000E+11,
                'ev' => 6.24146000000000E+11,
                'HPh' => 3.72506609848824E-14,
                'hh' => 3.72506609848824E-14,
                'Wh' => 2.77778049754611E-11,
                'wh' => 2.77778049754611E-11,
                'flb' => 2.37304336254586E-06,
                'BTU' => 9.47815522922962E-11,
                'btu' => 9.47815522922962E-11,
            ],
            'c' => [
                'J' => 4.18399101363672E+00,
                'e' => 4.18398900257312E+07,
                'c' => 1.0,
                'cal' => 9.99330315287563E-01,
                'eV' => 2.61142000000000E+19,
                'ev' => 2.61142000000000E+19,
                'HPh' => 1.55856355899327E-06,
                'hh' => 1.55856355899327E-06,
                'Wh' => 1.16222030532950E-03,
                'wh' => 1.16222030532950E-03,
                'flb' => 9.92878733152102E+01,
                'BTU' => 3.96564972437776E-03,
                'btu' => 3.96564972437776E-03,
            ],
            'cal' => [
                'J' => 4.18679484613929E+00,
                'e' => 4.18679283372801E+07,
                'c' => 1.00067013349059E+00,
                'cal' => 1.0,
                'eV' => 2.61317000000000E+19,
                'ev' => 2.61317000000000E+19,
                'HPh' => 1.55960800463137E-06,
                'hh' => 1.55960800463137E-06,
                'Wh' => 1.16299914807955E-03,
                'wh' => 1.16299914807955E-03,
                'flb' => 9.93544094443283E+01,
                'BTU' => 3.96830723907002E-03,
                'btu' => 3.96830723907002E-03,
            ],
            'eV' => [
                'J' => 1.60219000146921E-19,
                'e' => 1.60218923136574E-12,
                'c' => 3.82933423195043E-20,
                'cal' => 3.82676978535648E-20,
                'eV' => 1.0,
                'ev' => 1.0,
                'HPh' => 5.96826078912344E-26,
                'hh' => 5.96826078912344E-26,
                'Wh' => 4.45053000026614E-23,
                'wh' => 4.45053000026614E-23,
                'flb' => 3.80206452103492E-18,
                'BTU' => 1.51857982414846E-22,
                'btu' => 1.51857982414846E-22,
            ],
            'ev' => [
                'J' => 1.60219000146921E-19,
                'e' => 1.60218923136574E-12,
                'c' => 3.82933423195043E-20,
                'cal' => 3.82676978535648E-20,
                'eV' => 1.0,
                'ev' => 1.0,
                'HPh' => 5.96826078912344E-26,
                'hh' => 5.96826078912344E-26,
                'Wh' => 4.45053000026614E-23,
                'wh' => 4.45053000026614E-23,
                'flb' => 3.80206452103492E-18,
                'BTU' => 1.51857982414846E-22,
                'btu' => 1.51857982414846E-22,
            ],
            'HPh' => [
                'J' => 2.68451741316170E+06,
                'e' => 2.68451612283024E+13,
                'c' => 6.41616438565991E+05,
                'cal' => 6.41186757845835E+05,
                'eV' => 1.67553000000000E+25,
                'ev' => 1.67553000000000E+25,
                'HPh' => 1.0,
                'hh' => 1.0,
                'Wh' => 7.45699653134593E+02,
                'wh' => 7.45699653134593E+02,
                'flb' => 6.37047316692964E+07,
                'BTU' => 2.54442605275546E+03,
                'btu' => 2.54442605275546E+03,
            ],
            'hh' => [
                'J' => 2.68451741316170E+06,
                'e' => 2.68451612283024E+13,
                'c' => 6.41616438565991E+05,
                'cal' => 6.41186757845835E+05,
                'eV' => 1.67553000000000E+25,
                'ev' => 1.67553000000000E+25,
                'HPh' => 1.0,
                'hh' => 1.0,
                'Wh' => 7.45699653134593E+02,
                'wh' => 7.45699653134593E+02,
                'flb' => 6.37047316692964E+07,
                'BTU' => 2.54442605275546E+03,
                'btu' => 2.54442605275546E+03,
            ],
            'Wh' => [
                'J' => 3.59999820554720E+03,
                'e' => 3.59999647518369E+10,
                'c' => 8.60422069219046E+02,
                'cal' => 8.59845857713046E+02,
                'eV' => 2.24692340000000E+22,
                'ev' => 2.24692340000000E+22,
                'HPh' => 1.34102248243839E-03,
                'hh' => 1.34102248243839E-03,
                'Wh' => 1.0,
                'wh' => 1.0,
                'flb' => 8.54294774062316E+04,
                'BTU' => 3.41213254164705E+00,
                'btu' => 3.41213254164705E+00,
            ],
            'wh' => [
                'J' => 3.59999820554720E+03,
                'e' => 3.59999647518369E+10,
                'c' => 8.60422069219046E+02,
                'cal' => 8.59845857713046E+02,
                'eV' => 2.24692340000000E+22,
                'ev' => 2.24692340000000E+22,
                'HPh' => 1.34102248243839E-03,
                'hh' => 1.34102248243839E-03,
                'Wh' => 1.0,
                'wh' => 1.0,
                'flb' => 8.54294774062316E+04,
                'BTU' => 3.41213254164705E+00,
                'btu' => 3.41213254164705E+00,
            ],
            'flb' => [
                'J' => 4.21400003236424E-02,
                'e' => 4.21399800687660E+05,
                'c' => 1.00717234301644E-02,
                'cal' => 1.00649785509554E-02,
                'eV' => 2.63015000000000E+17,
                'ev' => 2.63015000000000E+17,
                'HPh' => 1.56974211145130E-08,
                'hh' => 1.56974211145130E-08,
                'Wh' => 1.17055614802000E-05,
                'wh' => 1.17055614802000E-05,
                'flb' => 1.0,
                'BTU' => 3.99409272448406E-05,
                'btu' => 3.99409272448406E-05,
            ],
            'BTU' => [
                'J' => 1.05505813786749E+03,
                'e' => 1.05505763074665E+10,
                'c' => 2.52165488508168E+02,
                'cal' => 2.51996617135510E+02,
                'eV' => 6.58510000000000E+21,
                'ev' => 6.58510000000000E+21,
                'HPh' => 3.93015941224568E-04,
                'hh' => 3.93015941224568E-04,
                'Wh' => 2.93071851047526E-01,
                'wh' => 2.93071851047526E-01,
                'flb' => 2.50369750774671E+04,
                'BTU' => 1.0,
                'btu' => 1.0,
            ],
            'btu' => [
                'J' => 1.05505813786749E+03,
                'e' => 1.05505763074665E+10,
                'c' => 2.52165488508168E+02,
                'cal' => 2.51996617135510E+02,
                'eV' => 6.58510000000000E+21,
                'ev' => 6.58510000000000E+21,
                'HPh' => 3.93015941224568E-04,
                'hh' => 3.93015941224568E-04,
                'Wh' => 2.93071851047526E-01,
                'wh' => 2.93071851047526E-01,
                'flb' => 2.50369750774671E+04,
                'BTU' => 1.0,
                'btu' => 1.0,
            ],
        ],
        'Power' => [
            'HP' => [
                'HP' => 1.0,
                'h' => 1.0,
                'W' => 7.45701000000000E+02,
                'w' => 7.45701000000000E+02,
            ],
            'h' => [
                'HP' => 1.0,
                'h' => 1.0,
                'W' => 7.45701000000000E+02,
                'w' => 7.45701000000000E+02,
            ],
            'W' => [
                'HP' => 1.34102006031908E-03,
                'h' => 1.34102006031908E-03,
                'W' => 1.0,
                'w' => 1.0,
            ],
            'w' => [
                'HP' => 1.34102006031908E-03,
                'h' => 1.34102006031908E-03,
                'W' => 1.0,
                'w' => 1.0,
            ],
        ],
        'Magnetism' => [
            'T' => [
                'T' => 1.0,
                'ga' => 10000.0,
            ],
            'ga' => [
                'T' => 0.0001,
                'ga' => 1.0,
            ],
        ],
        'Liquid' => [
            'tsp' => [
                'tsp' => 1.0,
                'tbs' => 3.33333333333333E-01,
                'oz' => 1.66666666666667E-01,
                'cup' => 2.08333333333333E-02,
                'pt' => 1.04166666666667E-02,
                'us_pt' => 1.04166666666667E-02,
                'uk_pt' => 8.67558516821960E-03,
                'qt' => 5.20833333333333E-03,
                'gal' => 1.30208333333333E-03,
                'l' => 4.92999408400710E-03,
                'lt' => 4.92999408400710E-03,
            ],
            'tbs' => [
                'tsp' => 3.00000000000000E+00,
                'tbs' => 1.0,
                'oz' => 5.00000000000000E-01,
                'cup' => 6.25000000000000E-02,
                'pt' => 3.12500000000000E-02,
                'us_pt' => 3.12500000000000E-02,
                'uk_pt' => 2.60267555046588E-02,
                'qt' => 1.56250000000000E-02,
                'gal' => 3.90625000000000E-03,
                'l' => 1.47899822520213E-02,
                'lt' => 1.47899822520213E-02,
            ],
            'oz' => [
                'tsp' => 6.00000000000000E+00,
                'tbs' => 2.00000000000000E+00,
                'oz' => 1.0,
                'cup' => 1.25000000000000E-01,
                'pt' => 6.25000000000000E-02,
                'us_pt' => 6.25000000000000E-02,
                'uk_pt' => 5.20535110093176E-02,
                'qt' => 3.12500000000000E-02,
                'gal' => 7.81250000000000E-03,
                'l' => 2.95799645040426E-02,
                'lt' => 2.95799645040426E-02,
            ],
            'cup' => [
                'tsp' => 4.80000000000000E+01,
                'tbs' => 1.60000000000000E+01,
                'oz' => 8.00000000000000E+00,
                'cup' => 1.0,
                'pt' => 5.00000000000000E-01,
                'us_pt' => 5.00000000000000E-01,
                'uk_pt' => 4.16428088074541E-01,
                'qt' => 2.50000000000000E-01,
                'gal' => 6.25000000000000E-02,
                'l' => 2.36639716032341E-01,
                'lt' => 2.36639716032341E-01,
            ],
            'pt' => [
                'tsp' => 9.60000000000000E+01,
                'tbs' => 3.20000000000000E+01,
                'oz' => 1.60000000000000E+01,
                'cup' => 2.00000000000000E+00,
                'pt' => 1.0,
                'us_pt' => 1.0,
                'uk_pt' => 8.32856176149081E-01,
                'qt' => 5.00000000000000E-01,
                'gal' => 1.25000000000000E-01,
                'l' => 4.73279432064682E-01,
                'lt' => 4.73279432064682E-01,
            ],
            'us_pt' => [
                'tsp' => 9.60000000000000E+01,
                'tbs' => 3.20000000000000E+01,
                'oz' => 1.60000000000000E+01,
                'cup' => 2.00000000000000E+00,
                'pt' => 1.0,
                'us_pt' => 1.0,
                'uk_pt' => 8.32856176149081E-01,
                'qt' => 5.00000000000000E-01,
                'gal' => 1.25000000000000E-01,
                'l' => 4.73279432064682E-01,
                'lt' => 4.73279432064682E-01,
            ],
            'uk_pt' => [
                'tsp' => 1.15266000000000E+02,
                'tbs' => 3.84220000000000E+01,
                'oz' => 1.92110000000000E+01,
                'cup' => 2.40137500000000E+00,
                'pt' => 1.20068750000000E+00,
                'us_pt' => 1.20068750000000E+00,
                'uk_pt' => 1.0,
                'qt' => 6.00343750000000E-01,
                'gal' => 1.50085937500000E-01,
                'l' => 5.68260698087162E-01,
                'lt' => 5.68260698087162E-01,
            ],
            'qt' => [
                'tsp' => 1.92000000000000E+02,
                'tbs' => 6.40000000000000E+01,
                'oz' => 3.20000000000000E+01,
                'cup' => 4.00000000000000E+00,
                'pt' => 2.00000000000000E+00,
                'us_pt' => 2.00000000000000E+00,
                'uk_pt' => 1.66571235229816E+00,
                'qt' => 1.0,
                'gal' => 2.50000000000000E-01,
                'l' => 9.46558864129363E-01,
                'lt' => 9.46558864129363E-01,
            ],
            'gal' => [
                'tsp' => 7.68000000000000E+02,
                'tbs' => 2.56000000000000E+02,
                'oz' => 1.28000000000000E+02,
                'cup' => 1.60000000000000E+01,
                'pt' => 8.00000000000000E+00,
                'us_pt' => 8.00000000000000E+00,
                'uk_pt' => 6.66284940919265E+00,
                'qt' => 4.00000000000000E+00,
                'gal' => 1.0,
                'l' => 3.78623545651745E+00,
                'lt' => 3.78623545651745E+00,
            ],
            'l' => [
                'tsp' => 2.02840000000000E+02,
                'tbs' => 6.76133333333333E+01,
                'oz' => 3.38066666666667E+01,
                'cup' => 4.22583333333333E+00,
                'pt' => 2.11291666666667E+00,
                'us_pt' => 2.11291666666667E+00,
                'uk_pt' => 1.75975569552166E+00,
                'qt' => 1.05645833333333E+00,
                'gal' => 2.64114583333333E-01,
                'l' => 1.0,
                'lt' => 1.0,
            ],
            'lt' => [
                'tsp' => 2.02840000000000E+02,
                'tbs' => 6.76133333333333E+01,
                'oz' => 3.38066666666667E+01,
                'cup' => 4.22583333333333E+00,
                'pt' => 2.11291666666667E+00,
                'us_pt' => 2.11291666666667E+00,
                'uk_pt' => 1.75975569552166E+00,
                'qt' => 1.05645833333333E+00,
                'gal' => 2.64114583333333E-01,
                'l' => 1.0,
                'lt' => 1.0,
            ],
        ],
    ];

    /**
     * parseComplex.
     *
     * Parses a complex number into its real and imaginary parts, and an I
or J suffix
     *
     * @deprecated 2.0.0 No longer used by internal code. Please use the
Complex\Complex class instead
     *
     * @param string $complexNumber The complex number
     *
     * @return mixed[] Indexed on "real", "imaginary"
and "suffix"
     */
    public static function parseComplex($complexNumber)
    {
        $complex = new Complex($complexNumber);

        return [
            'real' => $complex->getReal(),
            'imaginary' => $complex->getImaginary(),
            'suffix' => $complex->getSuffix(),
        ];
    }

    /**
     * Formats a number base string value with leading zeroes.
     *
     * @param string $xVal The "number" to pad
     * @param int $places The length that we want to pad this value
     *
     * @return string The padded "number"
     */
    private static function nbrConversionFormat($xVal, $places)
    {
        if ($places !== null) {
            if (is_numeric($places)) {
                $places = (int) $places;
            } else {
                return Functions::VALUE();
            }
            if ($places < 0) {
                return Functions::NAN();
            }
            if (strlen($xVal) <= $places) {
                return substr(str_pad($xVal, $places, '0',
STR_PAD_LEFT), -10);
            }

            return Functions::NAN();
        }

        return substr($xVal, -10);
    }

    /**
     * BESSELI.
     *
     *    Returns the modified Bessel function In(x), which is equivalent
to the Bessel function evaluated
     *        for purely imaginary arguments
     *
     *    Excel Function:
     *        BESSELI(x,ord)
     *
     * @category Engineering Functions
     *
     * @param float $x The value at which to evaluate the function.
     *                                If x is nonnumeric, BESSELI returns
the #VALUE! error value.
     * @param int $ord The order of the Bessel function.
     *                                If ord is not an integer, it is
truncated.
     *                                If $ord is nonnumeric, BESSELI
returns the #VALUE! error value.
     *                                If $ord < 0, BESSELI returns the
#NUM! error value.
     *
     * @return float|string Result, or a string containing an error
     */
    public static function BESSELI($x, $ord)
    {
        $x = ($x === null) ? 0.0 : Functions::flattenSingleValue($x);
        $ord = ($ord === null) ? 0.0 : Functions::flattenSingleValue($ord);

        if ((is_numeric($x)) && (is_numeric($ord))) {
            $ord = floor($ord);
            if ($ord < 0) {
                return Functions::NAN();
            }

            if (abs($x) <= 30) {
                $fResult = $fTerm = pow($x / 2, $ord) /
MathTrig::FACT($ord);
                $ordK = 1;
                $fSqrX = ($x * $x) / 4;
                do {
                    $fTerm *= $fSqrX;
                    $fTerm /= ($ordK * ($ordK + $ord));
                    $fResult += $fTerm;
                } while ((abs($fTerm) > 1e-12) && (++$ordK <
100));
            } else {
                $f_2_PI = 2 * M_PI;

                $fXAbs = abs($x);
                $fResult = exp($fXAbs) / sqrt($f_2_PI * $fXAbs);
                if (($ord & 1) && ($x < 0)) {
                    $fResult = -$fResult;
                }
            }

            return (is_nan($fResult)) ? Functions::NAN() : $fResult;
        }

        return Functions::VALUE();
    }

    /**
     * BESSELJ.
     *
     *    Returns the Bessel function
     *
     *    Excel Function:
     *        BESSELJ(x,ord)
     *
     * @category Engineering Functions
     *
     * @param float $x The value at which to evaluate the function.
     *                                If x is nonnumeric, BESSELJ returns
the #VALUE! error value.
     * @param int $ord The order of the Bessel function. If n is not an
integer, it is truncated.
     *                                If $ord is nonnumeric, BESSELJ
returns the #VALUE! error value.
     *                                If $ord < 0, BESSELJ returns the
#NUM! error value.
     *
     * @return float|string Result, or a string containing an error
     */
    public static function BESSELJ($x, $ord)
    {
        $x = ($x === null) ? 0.0 : Functions::flattenSingleValue($x);
        $ord = ($ord === null) ? 0.0 : Functions::flattenSingleValue($ord);

        if ((is_numeric($x)) && (is_numeric($ord))) {
            $ord = floor($ord);
            if ($ord < 0) {
                return Functions::NAN();
            }

            $fResult = 0;
            if (abs($x) <= 30) {
                $fResult = $fTerm = pow($x / 2, $ord) /
MathTrig::FACT($ord);
                $ordK = 1;
                $fSqrX = ($x * $x) / -4;
                do {
                    $fTerm *= $fSqrX;
                    $fTerm /= ($ordK * ($ordK + $ord));
                    $fResult += $fTerm;
                } while ((abs($fTerm) > 1e-12) && (++$ordK <
100));
            } else {
                $f_PI_DIV_2 = M_PI / 2;
                $f_PI_DIV_4 = M_PI / 4;

                $fXAbs = abs($x);
                $fResult = sqrt(Functions::M_2DIVPI / $fXAbs) * cos($fXAbs
- $ord * $f_PI_DIV_2 - $f_PI_DIV_4);
                if (($ord & 1) && ($x < 0)) {
                    $fResult = -$fResult;
                }
            }

            return (is_nan($fResult)) ? Functions::NAN() : $fResult;
        }

        return Functions::VALUE();
    }

    private static function besselK0($fNum)
    {
        if ($fNum <= 2) {
            $fNum2 = $fNum * 0.5;
            $y = ($fNum2 * $fNum2);
            $fRet = -log($fNum2) * self::BESSELI($fNum, 0) +
                (-0.57721566 + $y * (0.42278420 + $y * (0.23069756 + $y *
(0.3488590e-1 + $y * (0.262698e-2 + $y *
                                    (0.10750e-3 + $y * 0.74e-5))))));
        } else {
            $y = 2 / $fNum;
            $fRet = exp(-$fNum) / sqrt($fNum) *
                (1.25331414 + $y * (-0.7832358e-1 + $y * (0.2189568e-1 + $y
* (-0.1062446e-1 + $y *
                                (0.587872e-2 + $y * (-0.251540e-2 + $y *
0.53208e-3))))));
        }

        return $fRet;
    }

    private static function besselK1($fNum)
    {
        if ($fNum <= 2) {
            $fNum2 = $fNum * 0.5;
            $y = ($fNum2 * $fNum2);
            $fRet = log($fNum2) * self::BESSELI($fNum, 1) +
                (1 + $y * (0.15443144 + $y * (-0.67278579 + $y *
(-0.18156897 + $y * (-0.1919402e-1 + $y *
                                    (-0.110404e-2 + $y * (-0.4686e-4)))))))
/ $fNum;
        } else {
            $y = 2 / $fNum;
            $fRet = exp(-$fNum) / sqrt($fNum) *
                (1.25331414 + $y * (0.23498619 + $y * (-0.3655620e-1 + $y *
(0.1504268e-1 + $y * (-0.780353e-2 + $y *
                                    (0.325614e-2 + $y *
(-0.68245e-3)))))));
        }

        return $fRet;
    }

    /**
     * BESSELK.
     *
     *    Returns the modified Bessel function Kn(x), which is equivalent
to the Bessel functions evaluated
     *        for purely imaginary arguments.
     *
     *    Excel Function:
     *        BESSELK(x,ord)
     *
     * @category Engineering Functions
     *
     * @param float $x The value at which to evaluate the function.
     *                                If x is nonnumeric, BESSELK returns
the #VALUE! error value.
     * @param int $ord The order of the Bessel function. If n is not an
integer, it is truncated.
     *                                If $ord is nonnumeric, BESSELK
returns the #VALUE! error value.
     *                                If $ord < 0, BESSELK returns the
#NUM! error value.
     *
     * @return float|string Result, or a string containing an error
     */
    public static function BESSELK($x, $ord)
    {
        $x = ($x === null) ? 0.0 : Functions::flattenSingleValue($x);
        $ord = ($ord === null) ? 0.0 : Functions::flattenSingleValue($ord);

        if ((is_numeric($x)) && (is_numeric($ord))) {
            if (($ord < 0) || ($x == 0.0)) {
                return Functions::NAN();
            }

            switch (floor($ord)) {
                case 0:
                    $fBk = self::besselK0($x);

                    break;
                case 1:
                    $fBk = self::besselK1($x);

                    break;
                default:
                    $fTox = 2 / $x;
                    $fBkm = self::besselK0($x);
                    $fBk = self::besselK1($x);
                    for ($n = 1; $n < $ord; ++$n) {
                        $fBkp = $fBkm + $n * $fTox * $fBk;
                        $fBkm = $fBk;
                        $fBk = $fBkp;
                    }
            }

            return (is_nan($fBk)) ? Functions::NAN() : $fBk;
        }

        return Functions::VALUE();
    }

    private static function besselY0($fNum)
    {
        if ($fNum < 8.0) {
            $y = ($fNum * $fNum);
            $f1 = -2957821389.0 + $y * (7062834065.0 + $y * (-512359803.6 +
$y * (10879881.29 + $y * (-86327.92757 + $y * 228.4622733))));
            $f2 = 40076544269.0 + $y * (745249964.8 + $y * (7189466.438 +
$y * (47447.26470 + $y * (226.1030244 + $y))));
            $fRet = $f1 / $f2 + 0.636619772 * self::BESSELJ($fNum, 0) *
log($fNum);
        } else {
            $z = 8.0 / $fNum;
            $y = ($z * $z);
            $xx = $fNum - 0.785398164;
            $f1 = 1 + $y * (-0.1098628627e-2 + $y * (0.2734510407e-4 + $y *
(-0.2073370639e-5 + $y * 0.2093887211e-6)));
            $f2 = -0.1562499995e-1 + $y * (0.1430488765e-3 + $y *
(-0.6911147651e-5 + $y * (0.7621095161e-6 + $y * (-0.934945152e-7))));
            $fRet = sqrt(0.636619772 / $fNum) * (sin($xx) * $f1 + $z *
cos($xx) * $f2);
        }

        return $fRet;
    }

    private static function besselY1($fNum)
    {
        if ($fNum < 8.0) {
            $y = ($fNum * $fNum);
            $f1 = $fNum * (-0.4900604943e13 + $y * (0.1275274390e13 + $y *
(-0.5153438139e11 + $y * (0.7349264551e9 + $y *
                                (-0.4237922726e7 + $y *
0.8511937935e4)))));
            $f2 = 0.2499580570e14 + $y * (0.4244419664e12 + $y *
(0.3733650367e10 + $y * (0.2245904002e8 + $y *
                            (0.1020426050e6 + $y * (0.3549632885e3 +
$y)))));
            $fRet = $f1 / $f2 + 0.636619772 * (self::BESSELJ($fNum, 1) *
log($fNum) - 1 / $fNum);
        } else {
            $fRet = sqrt(0.636619772 / $fNum) * sin($fNum - 2.356194491);
        }

        return $fRet;
    }

    /**
     * BESSELY.
     *
     * Returns the Bessel function, which is also called the Weber function
or the Neumann function.
     *
     *    Excel Function:
     *        BESSELY(x,ord)
     *
     * @category Engineering Functions
     *
     * @param float $x The value at which to evaluate the function.
     *                                If x is nonnumeric, BESSELK returns
the #VALUE! error value.
     * @param int $ord The order of the Bessel function. If n is not an
integer, it is truncated.
     *                                If $ord is nonnumeric, BESSELK
returns the #VALUE! error value.
     *                                If $ord < 0, BESSELK returns the
#NUM! error value.
     *
     * @return float|string Result, or a string containing an error
     */
    public static function BESSELY($x, $ord)
    {
        $x = ($x === null) ? 0.0 : Functions::flattenSingleValue($x);
        $ord = ($ord === null) ? 0.0 : Functions::flattenSingleValue($ord);

        if ((is_numeric($x)) && (is_numeric($ord))) {
            if (($ord < 0) || ($x == 0.0)) {
                return Functions::NAN();
            }

            switch (floor($ord)) {
                case 0:
                    $fBy = self::besselY0($x);

                    break;
                case 1:
                    $fBy = self::besselY1($x);

                    break;
                default:
                    $fTox = 2 / $x;
                    $fBym = self::besselY0($x);
                    $fBy = self::besselY1($x);
                    for ($n = 1; $n < $ord; ++$n) {
                        $fByp = $n * $fTox * $fBy - $fBym;
                        $fBym = $fBy;
                        $fBy = $fByp;
                    }
            }

            return (is_nan($fBy)) ? Functions::NAN() : $fBy;
        }

        return Functions::VALUE();
    }

    /**
     * BINTODEC.
     *
     * Return a binary value as decimal.
     *
     * Excel Function:
     *        BIN2DEC(x)
     *
     * @category Engineering Functions
     *
     * @param string $x The binary number (as a string) that you want to
convert. The number
     *                                cannot contain more than 10
characters (10 bits). The most significant
     *                                bit of number is the sign bit. The
remaining 9 bits are magnitude bits.
     *                                Negative numbers are represented
using two's-complement notation.
     *                                If number is not a valid binary
number, or if number contains more than
     *                                10 characters (10 bits), BIN2DEC
returns the #NUM! error value.
     *
     * @return string
     */
    public static function BINTODEC($x)
    {
        $x = Functions::flattenSingleValue($x);

        if (is_bool($x)) {
            if (Functions::getCompatibilityMode() ==
Functions::COMPATIBILITY_OPENOFFICE) {
                $x = (int) $x;
            } else {
                return Functions::VALUE();
            }
        }
        if (Functions::getCompatibilityMode() ==
Functions::COMPATIBILITY_GNUMERIC) {
            $x = floor($x);
        }
        $x = (string) $x;
        if (strlen($x) > preg_match_all('/[01]/', $x, $out)) {
            return Functions::NAN();
        }
        if (strlen($x) > 10) {
            return Functions::NAN();
        } elseif (strlen($x) == 10) {
            //    Two's Complement
            $x = substr($x, -9);

            return '-' . (512 - bindec($x));
        }

        return bindec($x);
    }

    /**
     * BINTOHEX.
     *
     * Return a binary value as hex.
     *
     * Excel Function:
     *        BIN2HEX(x[,places])
     *
     * @category Engineering Functions
     *
     * @param string $x The binary number (as a string) that you want to
convert. The number
     *                                cannot contain more than 10
characters (10 bits). The most significant
     *                                bit of number is the sign bit. The
remaining 9 bits are magnitude bits.
     *                                Negative numbers are represented
using two's-complement notation.
     *                                If number is not a valid binary
number, or if number contains more than
     *                                10 characters (10 bits), BIN2HEX
returns the #NUM! error value.
     * @param int $places The number of characters to use. If places is
omitted, BIN2HEX uses the
     *                                minimum number of characters
necessary. Places is useful for padding the
     *                                return value with leading 0s (zeros).
     *                                If places is not an integer, it is
truncated.
     *                                If places is nonnumeric, BIN2HEX
returns the #VALUE! error value.
     *                                If places is negative, BIN2HEX
returns the #NUM! error value.
     *
     * @return string
     */
    public static function BINTOHEX($x, $places = null)
    {
        $x = Functions::flattenSingleValue($x);
        $places = Functions::flattenSingleValue($places);

        // Argument X
        if (is_bool($x)) {
            if (Functions::getCompatibilityMode() ==
Functions::COMPATIBILITY_OPENOFFICE) {
                $x = (int) $x;
            } else {
                return Functions::VALUE();
            }
        }
        if (Functions::getCompatibilityMode() ==
Functions::COMPATIBILITY_GNUMERIC) {
            $x = floor($x);
        }
        $x = (string) $x;
        if (strlen($x) > preg_match_all('/[01]/', $x, $out)) {
            return Functions::NAN();
        }
        if (strlen($x) > 10) {
            return Functions::NAN();
        } elseif (strlen($x) == 10) {
            //    Two's Complement
            return str_repeat('F', 8) .
substr(strtoupper(dechex(bindec(substr($x, -9)))), -2);
        }
        $hexVal = (string) strtoupper(dechex(bindec($x)));

        return self::nbrConversionFormat($hexVal, $places);
    }

    /**
     * BINTOOCT.
     *
     * Return a binary value as octal.
     *
     * Excel Function:
     *        BIN2OCT(x[,places])
     *
     * @category Engineering Functions
     *
     * @param string $x The binary number (as a string) that you want to
convert. The number
     *                                cannot contain more than 10
characters (10 bits). The most significant
     *                                bit of number is the sign bit. The
remaining 9 bits are magnitude bits.
     *                                Negative numbers are represented
using two's-complement notation.
     *                                If number is not a valid binary
number, or if number contains more than
     *                                10 characters (10 bits), BIN2OCT
returns the #NUM! error value.
     * @param int $places The number of characters to use. If places is
omitted, BIN2OCT uses the
     *                                minimum number of characters
necessary. Places is useful for padding the
     *                                return value with leading 0s (zeros).
     *                                If places is not an integer, it is
truncated.
     *                                If places is nonnumeric, BIN2OCT
returns the #VALUE! error value.
     *                                If places is negative, BIN2OCT
returns the #NUM! error value.
     *
     * @return string
     */
    public static function BINTOOCT($x, $places = null)
    {
        $x = Functions::flattenSingleValue($x);
        $places = Functions::flattenSingleValue($places);

        if (is_bool($x)) {
            if (Functions::getCompatibilityMode() ==
Functions::COMPATIBILITY_OPENOFFICE) {
                $x = (int) $x;
            } else {
                return Functions::VALUE();
            }
        }
        if (Functions::getCompatibilityMode() ==
Functions::COMPATIBILITY_GNUMERIC) {
            $x = floor($x);
        }
        $x = (string) $x;
        if (strlen($x) > preg_match_all('/[01]/', $x, $out)) {
            return Functions::NAN();
        }
        if (strlen($x) > 10) {
            return Functions::NAN();
        } elseif (strlen($x) == 10) {
            //    Two's Complement
            return str_repeat('7', 7) .
substr(strtoupper(decoct(bindec(substr($x, -9)))), -3);
        }
        $octVal = (string) decoct(bindec($x));

        return self::nbrConversionFormat($octVal, $places);
    }

    /**
     * DECTOBIN.
     *
     * Return a decimal value as binary.
     *
     * Excel Function:
     *        DEC2BIN(x[,places])
     *
     * @category Engineering Functions
     *
     * @param string $x The decimal integer you want to convert. If number
is negative,
     *                                valid place values are ignored and
DEC2BIN returns a 10-character
     *                                (10-bit) binary number in which the
most significant bit is the sign
     *                                bit. The remaining 9 bits are
magnitude bits. Negative numbers are
     *                                represented using
two's-complement notation.
     *                                If number < -512 or if number >
511, DEC2BIN returns the #NUM! error
     *                                value.
     *                                If number is nonnumeric, DEC2BIN
returns the #VALUE! error value.
     *                                If DEC2BIN requires more than places
characters, it returns the #NUM!
     *                                error value.
     * @param int $places The number of characters to use. If places is
omitted, DEC2BIN uses
     *                                the minimum number of characters
necessary. Places is useful for
     *                                padding the return value with leading
0s (zeros).
     *                                If places is not an integer, it is
truncated.
     *                                If places is nonnumeric, DEC2BIN
returns the #VALUE! error value.
     *                                If places is zero or negative,
DEC2BIN returns the #NUM! error value.
     *
     * @return string
     */
    public static function DECTOBIN($x, $places = null)
    {
        $x = Functions::flattenSingleValue($x);
        $places = Functions::flattenSingleValue($places);

        if (is_bool($x)) {
            if (Functions::getCompatibilityMode() ==
Functions::COMPATIBILITY_OPENOFFICE) {
                $x = (int) $x;
            } else {
                return Functions::VALUE();
            }
        }
        $x = (string) $x;
        if (strlen($x) > preg_match_all('/[-0123456789.]/',
$x, $out)) {
            return Functions::VALUE();
        }

        $x = (string) floor($x);
        if ($x < -512 || $x > 511) {
            return Functions::NAN();
        }

        $r = decbin($x);
        // Two's Complement
        $r = substr($r, -10);
        if (strlen($r) >= 11) {
            return Functions::NAN();
        }

        return self::nbrConversionFormat($r, $places);
    }

    /**
     * DECTOHEX.
     *
     * Return a decimal value as hex.
     *
     * Excel Function:
     *        DEC2HEX(x[,places])
     *
     * @category Engineering Functions
     *
     * @param string $x The decimal integer you want to convert. If number
is negative,
     *                                places is ignored and DEC2HEX returns
a 10-character (40-bit)
     *                                hexadecimal number in which the most
significant bit is the sign
     *                                bit. The remaining 39 bits are
magnitude bits. Negative numbers
     *                                are represented using
two's-complement notation.
     *                                If number < -549,755,813,888 or if
number > 549,755,813,887,
     *                                DEC2HEX returns the #NUM! error
value.
     *                                If number is nonnumeric, DEC2HEX
returns the #VALUE! error value.
     *                                If DEC2HEX requires more than places
characters, it returns the
     *                                #NUM! error value.
     * @param int $places The number of characters to use. If places is
omitted, DEC2HEX uses
     *                                the minimum number of characters
necessary. Places is useful for
     *                                padding the return value with leading
0s (zeros).
     *                                If places is not an integer, it is
truncated.
     *                                If places is nonnumeric, DEC2HEX
returns the #VALUE! error value.
     *                                If places is zero or negative,
DEC2HEX returns the #NUM! error value.
     *
     * @return string
     */
    public static function DECTOHEX($x, $places = null)
    {
        $x = Functions::flattenSingleValue($x);
        $places = Functions::flattenSingleValue($places);

        if (is_bool($x)) {
            if (Functions::getCompatibilityMode() ==
Functions::COMPATIBILITY_OPENOFFICE) {
                $x = (int) $x;
            } else {
                return Functions::VALUE();
            }
        }
        $x = (string) $x;
        if (strlen($x) > preg_match_all('/[-0123456789.]/',
$x, $out)) {
            return Functions::VALUE();
        }
        $x = (string) floor($x);
        $r = strtoupper(dechex($x));
        if (strlen($r) == 8) {
            //    Two's Complement
            $r = 'FF' . $r;
        }

        return self::nbrConversionFormat($r, $places);
    }

    /**
     * DECTOOCT.
     *
     * Return an decimal value as octal.
     *
     * Excel Function:
     *        DEC2OCT(x[,places])
     *
     * @category Engineering Functions
     *
     * @param string $x The decimal integer you want to convert. If number
is negative,
     *                                places is ignored and DEC2OCT returns
a 10-character (30-bit)
     *                                octal number in which the most
significant bit is the sign bit.
     *                                The remaining 29 bits are magnitude
bits. Negative numbers are
     *                                represented using
two's-complement notation.
     *                                If number < -536,870,912 or if
number > 536,870,911, DEC2OCT
     *                                returns the #NUM! error value.
     *                                If number is nonnumeric, DEC2OCT
returns the #VALUE! error value.
     *                                If DEC2OCT requires more than places
characters, it returns the
     *                                #NUM! error value.
     * @param int $places The number of characters to use. If places is
omitted, DEC2OCT uses
     *                                the minimum number of characters
necessary. Places is useful for
     *                                padding the return value with leading
0s (zeros).
     *                                If places is not an integer, it is
truncated.
     *                                If places is nonnumeric, DEC2OCT
returns the #VALUE! error value.
     *                                If places is zero or negative,
DEC2OCT returns the #NUM! error value.
     *
     * @return string
     */
    public static function DECTOOCT($x, $places = null)
    {
        $xorig = $x;
        $x = Functions::flattenSingleValue($x);
        $places = Functions::flattenSingleValue($places);

        if (is_bool($x)) {
            if (Functions::getCompatibilityMode() ==
Functions::COMPATIBILITY_OPENOFFICE) {
                $x = (int) $x;
            } else {
                return Functions::VALUE();
            }
        }
        $x = (string) $x;
        if (strlen($x) > preg_match_all('/[-0123456789.]/',
$x, $out)) {
            return Functions::VALUE();
        }
        $x = (string) floor($x);
        $r = decoct($x);
        if (strlen($r) == 11) {
            //    Two's Complement
            $r = substr($r, -10);
        }

        return self::nbrConversionFormat($r, $places);
    }

    /**
     * HEXTOBIN.
     *
     * Return a hex value as binary.
     *
     * Excel Function:
     *        HEX2BIN(x[,places])
     *
     * @category Engineering Functions
     *
     * @param string $x the hexadecimal number you want to convert.
     *                  Number cannot contain more than 10 characters.
     *                  The most significant bit of number is the sign bit
(40th bit from the right).
     *                  The remaining 9 bits are magnitude bits.
     *                  Negative numbers are represented using
two's-complement notation.
     *                  If number is negative, HEX2BIN ignores places and
returns a 10-character binary number.
     *                  If number is negative, it cannot be less than
FFFFFFFE00,
     *                      and if number is positive, it cannot be greater
than 1FF.
     *                  If number is not a valid hexadecimal number,
HEX2BIN returns the #NUM! error value.
     *                  If HEX2BIN requires more than places characters, it
returns the #NUM! error value.
     * @param int $places The number of characters to use. If places is
omitted,
     *                                    HEX2BIN uses the minimum number
of characters necessary. Places
     *                                    is useful for padding the return
value with leading 0s (zeros).
     *                                    If places is not an integer, it
is truncated.
     *                                    If places is nonnumeric, HEX2BIN
returns the #VALUE! error value.
     *                                    If places is negative, HEX2BIN
returns the #NUM! error value.
     *
     * @return string
     */
    public static function HEXTOBIN($x, $places = null)
    {
        $x = Functions::flattenSingleValue($x);
        $places = Functions::flattenSingleValue($places);

        if (is_bool($x)) {
            return Functions::VALUE();
        }
        $x = (string) $x;
        if (strlen($x) >
preg_match_all('/[0123456789ABCDEF]/', strtoupper($x), $out)) {
            return Functions::NAN();
        }

        return self::DECTOBIN(self::HEXTODEC($x), $places);
    }

    /**
     * HEXTODEC.
     *
     * Return a hex value as decimal.
     *
     * Excel Function:
     *        HEX2DEC(x)
     *
     * @category Engineering Functions
     *
     * @param string $x The hexadecimal number you want to convert. This
number cannot
     *                                contain more than 10 characters (40
bits). The most significant
     *                                bit of number is the sign bit. The
remaining 39 bits are magnitude
     *                                bits. Negative numbers are
represented using two's-complement
     *                                notation.
     *                                If number is not a valid hexadecimal
number, HEX2DEC returns the
     *                                #NUM! error value.
     *
     * @return string
     */
    public static function HEXTODEC($x)
    {
        $x = Functions::flattenSingleValue($x);

        if (is_bool($x)) {
            return Functions::VALUE();
        }
        $x = (string) $x;
        if (strlen($x) >
preg_match_all('/[0123456789ABCDEF]/', strtoupper($x), $out)) {
            return Functions::NAN();
        }

        if (strlen($x) > 10) {
            return Functions::NAN();
        }

        $binX = '';
        foreach (str_split($x) as $char) {
            $binX .= str_pad(base_convert($char, 16, 2), 4, '0',
STR_PAD_LEFT);
        }
        if (strlen($binX) == 40 && $binX[0] == '1') {
            for ($i = 0; $i < 40; ++$i) {
                $binX[$i] = ($binX[$i] == '1' ? '0' :
'1');
            }

            return (bindec($binX) + 1) * -1;
        }

        return bindec($binX);
    }

    /**
     * HEXTOOCT.
     *
     * Return a hex value as octal.
     *
     * Excel Function:
     *        HEX2OCT(x[,places])
     *
     * @category Engineering Functions
     *
     * @param string $x The hexadecimal number you want to convert. Number
cannot
     *                                    contain more than 10 characters.
The most significant bit of
     *                                    number is the sign bit. The
remaining 39 bits are magnitude
     *                                    bits. Negative numbers are
represented using two's-complement
     *                                    notation.
     *                                    If number is negative, HEX2OCT
ignores places and returns a
     *                                    10-character octal number.
     *                                    If number is negative, it cannot
be less than FFE0000000, and
     *                                    if number is positive, it cannot
be greater than 1FFFFFFF.
     *                                    If number is not a valid
hexadecimal number, HEX2OCT returns
     *                                    the #NUM! error value.
     *                                    If HEX2OCT requires more than
places characters, it returns
     *                                    the #NUM! error value.
     * @param int $places The number of characters to use. If places is
omitted, HEX2OCT
     *                                    uses the minimum number of
characters necessary. Places is
     *                                    useful for padding the return
value with leading 0s (zeros).
     *                                    If places is not an integer, it
is truncated.
     *                                    If places is nonnumeric, HEX2OCT
returns the #VALUE! error
     *                                    value.
     *                                    If places is negative, HEX2OCT
returns the #NUM! error value.
     *
     * @return string
     */
    public static function HEXTOOCT($x, $places = null)
    {
        $x = Functions::flattenSingleValue($x);
        $places = Functions::flattenSingleValue($places);

        if (is_bool($x)) {
            return Functions::VALUE();
        }
        $x = (string) $x;
        if (strlen($x) >
preg_match_all('/[0123456789ABCDEF]/', strtoupper($x), $out)) {
            return Functions::NAN();
        }

        $decimal = self::HEXTODEC($x);
        if ($decimal < -536870912 || $decimal > 536870911) {
            return Functions::NAN();
        }

        return self::DECTOOCT($decimal, $places);
    }

    /**
     * OCTTOBIN.
     *
     * Return an octal value as binary.
     *
     * Excel Function:
     *        OCT2BIN(x[,places])
     *
     * @category Engineering Functions
     *
     * @param string $x The octal number you want to convert. Number may
not
     *                                    contain more than 10 characters.
The most significant
     *                                    bit of number is the sign bit.
The remaining 29 bits
     *                                    are magnitude bits. Negative
numbers are represented
     *                                    using two's-complement
notation.
     *                                    If number is negative, OCT2BIN
ignores places and returns
     *                                    a 10-character binary number.
     *                                    If number is negative, it cannot
be less than 7777777000,
     *                                    and if number is positive, it
cannot be greater than 777.
     *                                    If number is not a valid octal
number, OCT2BIN returns
     *                                    the #NUM! error value.
     *                                    If OCT2BIN requires more than
places characters, it
     *                                    returns the #NUM! error value.
     * @param int $places The number of characters to use. If places is
omitted,
     *                                    OCT2BIN uses the minimum number
of characters necessary.
     *                                    Places is useful for padding the
return value with
     *                                    leading 0s (zeros).
     *                                    If places is not an integer, it
is truncated.
     *                                    If places is nonnumeric, OCT2BIN
returns the #VALUE!
     *                                    error value.
     *                                    If places is negative, OCT2BIN
returns the #NUM! error
     *                                    value.
     *
     * @return string
     */
    public static function OCTTOBIN($x, $places = null)
    {
        $x = Functions::flattenSingleValue($x);
        $places = Functions::flattenSingleValue($places);

        if (is_bool($x)) {
            return Functions::VALUE();
        }
        $x = (string) $x;
        if (preg_match_all('/[01234567]/', $x, $out) !=
strlen($x)) {
            return Functions::NAN();
        }

        return self::DECTOBIN(self::OCTTODEC($x), $places);
    }

    /**
     * OCTTODEC.
     *
     * Return an octal value as decimal.
     *
     * Excel Function:
     *        OCT2DEC(x)
     *
     * @category Engineering Functions
     *
     * @param string $x The octal number you want to convert. Number may
not contain
     *                                more than 10 octal characters (30
bits). The most significant
     *                                bit of number is the sign bit. The
remaining 29 bits are
     *                                magnitude bits. Negative numbers are
represented using
     *                                two's-complement notation.
     *                                If number is not a valid octal
number, OCT2DEC returns the
     *                                #NUM! error value.
     *
     * @return string
     */
    public static function OCTTODEC($x)
    {
        $x = Functions::flattenSingleValue($x);

        if (is_bool($x)) {
            return Functions::VALUE();
        }
        $x = (string) $x;
        if (preg_match_all('/[01234567]/', $x, $out) !=
strlen($x)) {
            return Functions::NAN();
        }
        $binX = '';
        foreach (str_split($x) as $char) {
            $binX .= str_pad(decbin((int) $char), 3, '0',
STR_PAD_LEFT);
        }
        if (strlen($binX) == 30 && $binX[0] == '1') {
            for ($i = 0; $i < 30; ++$i) {
                $binX[$i] = ($binX[$i] == '1' ? '0' :
'1');
            }

            return (bindec($binX) + 1) * -1;
        }

        return bindec($binX);
    }

    /**
     * OCTTOHEX.
     *
     * Return an octal value as hex.
     *
     * Excel Function:
     *        OCT2HEX(x[,places])
     *
     * @category Engineering Functions
     *
     * @param string $x The octal number you want to convert. Number may
not contain
     *                                    more than 10 octal characters (30
bits). The most significant
     *                                    bit of number is the sign bit.
The remaining 29 bits are
     *                                    magnitude bits. Negative numbers
are represented using
     *                                    two's-complement notation.
     *                                    If number is negative, OCT2HEX
ignores places and returns a
     *                                    10-character hexadecimal number.
     *                                    If number is not a valid octal
number, OCT2HEX returns the
     *                                    #NUM! error value.
     *                                    If OCT2HEX requires more than
places characters, it returns
     *                                    the #NUM! error value.
     * @param int $places The number of characters to use. If places is
omitted, OCT2HEX
     *                                    uses the minimum number of
characters necessary. Places is useful
     *                                    for padding the return value with
leading 0s (zeros).
     *                                    If places is not an integer, it
is truncated.
     *                                    If places is nonnumeric, OCT2HEX
returns the #VALUE! error value.
     *                                    If places is negative, OCT2HEX
returns the #NUM! error value.
     *
     * @return string
     */
    public static function OCTTOHEX($x, $places = null)
    {
        $x = Functions::flattenSingleValue($x);
        $places = Functions::flattenSingleValue($places);

        if (is_bool($x)) {
            return Functions::VALUE();
        }
        $x = (string) $x;
        if (preg_match_all('/[01234567]/', $x, $out) !=
strlen($x)) {
            return Functions::NAN();
        }
        $hexVal = strtoupper(dechex(self::OCTTODEC($x)));

        return self::nbrConversionFormat($hexVal, $places);
    }

    /**
     * COMPLEX.
     *
     * Converts real and imaginary coefficients into a complex number of
the form x +/- yi or x +/- yj.
     *
     * Excel Function:
     *        COMPLEX(realNumber,imaginary[,suffix])
     *
     * @category Engineering Functions
     *
     * @param float $realNumber the real coefficient of the complex number
     * @param float $imaginary the imaginary coefficient of the complex
number
     * @param string $suffix The suffix for the imaginary component of the
complex number.
     *                                        If omitted, the suffix is
assumed to be "i".
     *
     * @return string
     */
    public static function COMPLEX($realNumber = 0.0, $imaginary = 0.0,
$suffix = 'i')
    {
        $realNumber = ($realNumber === null) ? 0.0 :
Functions::flattenSingleValue($realNumber);
        $imaginary = ($imaginary === null) ? 0.0 :
Functions::flattenSingleValue($imaginary);
        $suffix = ($suffix === null) ? 'i' :
Functions::flattenSingleValue($suffix);

        if (((is_numeric($realNumber)) && (is_numeric($imaginary)))
&&
            (($suffix == 'i') || ($suffix == 'j') ||
($suffix == ''))
        ) {
            $complex = new Complex($realNumber, $imaginary, $suffix);

            return (string) $complex;
        }

        return Functions::VALUE();
    }

    /**
     * IMAGINARY.
     *
     * Returns the imaginary coefficient of a complex number in x + yi or x
+ yj text format.
     *
     * Excel Function:
     *        IMAGINARY(complexNumber)
     *
     * @category Engineering Functions
     *
     * @param string $complexNumber the complex number for which you want
the imaginary
     *                                         coefficient
     *
     * @return float
     */
    public static function IMAGINARY($complexNumber)
    {
        $complexNumber = Functions::flattenSingleValue($complexNumber);

        return (new Complex($complexNumber))->getImaginary();
    }

    /**
     * IMREAL.
     *
     * Returns the real coefficient of a complex number in x + yi or x + yj
text format.
     *
     * Excel Function:
     *        IMREAL(complexNumber)
     *
     * @category Engineering Functions
     *
     * @param string $complexNumber the complex number for which you want
the real coefficient
     *
     * @return float
     */
    public static function IMREAL($complexNumber)
    {
        $complexNumber = Functions::flattenSingleValue($complexNumber);

        return (new Complex($complexNumber))->getReal();
    }

    /**
     * IMABS.
     *
     * Returns the absolute value (modulus) of a complex number in x + yi
or x + yj text format.
     *
     * Excel Function:
     *        IMABS(complexNumber)
     *
     * @param string $complexNumber the complex number for which you want
the absolute value
     *
     * @return float
     */
    public static function IMABS($complexNumber)
    {
        $complexNumber = Functions::flattenSingleValue($complexNumber);

        return (new Complex($complexNumber))->abs();
    }

    /**
     * IMARGUMENT.
     *
     * Returns the argument theta of a complex number, i.e. the angle in
radians from the real
     * axis to the representation of the number in polar coordinates.
     *
     * Excel Function:
     *        IMARGUMENT(complexNumber)
     *
     * @param string $complexNumber the complex number for which you want
the argument theta
     *
     * @return float|string
     */
    public static function IMARGUMENT($complexNumber)
    {
        $complexNumber = Functions::flattenSingleValue($complexNumber);

        $complex = new Complex($complexNumber);
        if ($complex->getReal() == 0.0 &&
$complex->getImaginary() == 0.0) {
            return Functions::DIV0();
        }

        return $complex->argument();
    }

    /**
     * IMCONJUGATE.
     *
     * Returns the complex conjugate of a complex number in x + yi or x +
yj text format.
     *
     * Excel Function:
     *        IMCONJUGATE(complexNumber)
     *
     * @param string $complexNumber the complex number for which you want
the conjugate
     *
     * @return string
     */
    public static function IMCONJUGATE($complexNumber)
    {
        $complexNumber = Functions::flattenSingleValue($complexNumber);

        return (string) (new Complex($complexNumber))->conjugate();
    }

    /**
     * IMCOS.
     *
     * Returns the cosine of a complex number in x + yi or x + yj text
format.
     *
     * Excel Function:
     *        IMCOS(complexNumber)
     *
     * @param string $complexNumber the complex number for which you want
the cosine
     *
     * @return float|string
     */
    public static function IMCOS($complexNumber)
    {
        $complexNumber = Functions::flattenSingleValue($complexNumber);

        return (string) (new Complex($complexNumber))->cos();
    }

    /**
     * IMCOSH.
     *
     * Returns the hyperbolic cosine of a complex number in x + yi or x +
yj text format.
     *
     * Excel Function:
     *        IMCOSH(complexNumber)
     *
     * @param string $complexNumber the complex number for which you want
the hyperbolic cosine
     *
     * @return float|string
     */
    public static function IMCOSH($complexNumber)
    {
        $complexNumber = Functions::flattenSingleValue($complexNumber);

        return (string) (new Complex($complexNumber))->cosh();
    }

    /**
     * IMCOT.
     *
     * Returns the cotangent of a complex number in x + yi or x + yj text
format.
     *
     * Excel Function:
     *        IMCOT(complexNumber)
     *
     * @param string $complexNumber the complex number for which you want
the cotangent
     *
     * @return float|string
     */
    public static function IMCOT($complexNumber)
    {
        $complexNumber = Functions::flattenSingleValue($complexNumber);

        return (string) (new Complex($complexNumber))->cot();
    }

    /**
     * IMCSC.
     *
     * Returns the cosecant of a complex number in x + yi or x + yj text
format.
     *
     * Excel Function:
     *        IMCSC(complexNumber)
     *
     * @param string $complexNumber the complex number for which you want
the cosecant
     *
     * @return float|string
     */
    public static function IMCSC($complexNumber)
    {
        $complexNumber = Functions::flattenSingleValue($complexNumber);

        return (string) (new Complex($complexNumber))->csc();
    }

    /**
     * IMCSCH.
     *
     * Returns the hyperbolic cosecant of a complex number in x + yi or x +
yj text format.
     *
     * Excel Function:
     *        IMCSCH(complexNumber)
     *
     * @param string $complexNumber the complex number for which you want
the hyperbolic cosecant
     *
     * @return float|string
     */
    public static function IMCSCH($complexNumber)
    {
        $complexNumber = Functions::flattenSingleValue($complexNumber);

        return (string) (new Complex($complexNumber))->csch();
    }

    /**
     * IMSIN.
     *
     * Returns the sine of a complex number in x + yi or x + yj text
format.
     *
     * Excel Function:
     *        IMSIN(complexNumber)
     *
     * @param string $complexNumber the complex number for which you want
the sine
     *
     * @return float|string
     */
    public static function IMSIN($complexNumber)
    {
        $complexNumber = Functions::flattenSingleValue($complexNumber);

        return (string) (new Complex($complexNumber))->sin();
    }

    /**
     * IMSINH.
     *
     * Returns the hyperbolic sine of a complex number in x + yi or x + yj
text format.
     *
     * Excel Function:
     *        IMSINH(complexNumber)
     *
     * @param string $complexNumber the complex number for which you want
the hyperbolic sine
     *
     * @return float|string
     */
    public static function IMSINH($complexNumber)
    {
        $complexNumber = Functions::flattenSingleValue($complexNumber);

        return (string) (new Complex($complexNumber))->sinh();
    }

    /**
     * IMSEC.
     *
     * Returns the secant of a complex number in x + yi or x + yj text
format.
     *
     * Excel Function:
     *        IMSEC(complexNumber)
     *
     * @param string $complexNumber the complex number for which you want
the secant
     *
     * @return float|string
     */
    public static function IMSEC($complexNumber)
    {
        $complexNumber = Functions::flattenSingleValue($complexNumber);

        return (string) (new Complex($complexNumber))->sec();
    }

    /**
     * IMSECH.
     *
     * Returns the hyperbolic secant of a complex number in x + yi or x +
yj text format.
     *
     * Excel Function:
     *        IMSECH(complexNumber)
     *
     * @param string $complexNumber the complex number for which you want
the hyperbolic secant
     *
     * @return float|string
     */
    public static function IMSECH($complexNumber)
    {
        $complexNumber = Functions::flattenSingleValue($complexNumber);

        return (string) (new Complex($complexNumber))->sech();
    }

    /**
     * IMTAN.
     *
     * Returns the tangent of a complex number in x + yi or x + yj text
format.
     *
     * Excel Function:
     *        IMTAN(complexNumber)
     *
     * @param string $complexNumber the complex number for which you want
the tangent
     *
     * @return float|string
     */
    public static function IMTAN($complexNumber)
    {
        $complexNumber = Functions::flattenSingleValue($complexNumber);

        return (string) (new Complex($complexNumber))->tan();
    }

    /**
     * IMSQRT.
     *
     * Returns the square root of a complex number in x + yi or x + yj text
format.
     *
     * Excel Function:
     *        IMSQRT(complexNumber)
     *
     * @param string $complexNumber the complex number for which you want
the square root
     *
     * @return string
     */
    public static function IMSQRT($complexNumber)
    {
        $complexNumber = Functions::flattenSingleValue($complexNumber);

        $theta = self::IMARGUMENT($complexNumber);
        if ($theta === Functions::DIV0()) {
            return '0';
        }

        return (string) (new Complex($complexNumber))->sqrt();
    }

    /**
     * IMLN.
     *
     * Returns the natural logarithm of a complex number in x + yi or x +
yj text format.
     *
     * Excel Function:
     *        IMLN(complexNumber)
     *
     * @param string $complexNumber the complex number for which you want
the natural logarithm
     *
     * @return string
     */
    public static function IMLN($complexNumber)
    {
        $complexNumber = Functions::flattenSingleValue($complexNumber);

        $complex = new Complex($complexNumber);
        if ($complex->getReal() == 0.0 &&
$complex->getImaginary() == 0.0) {
            return Functions::NAN();
        }

        return (string) (new Complex($complexNumber))->ln();
    }

    /**
     * IMLOG10.
     *
     * Returns the common logarithm (base 10) of a complex number in x + yi
or x + yj text format.
     *
     * Excel Function:
     *        IMLOG10(complexNumber)
     *
     * @param string $complexNumber the complex number for which you want
the common logarithm
     *
     * @return string
     */
    public static function IMLOG10($complexNumber)
    {
        $complexNumber = Functions::flattenSingleValue($complexNumber);

        $complex = new Complex($complexNumber);
        if ($complex->getReal() == 0.0 &&
$complex->getImaginary() == 0.0) {
            return Functions::NAN();
        }

        return (string) (new Complex($complexNumber))->log10();
    }

    /**
     * IMLOG2.
     *
     * Returns the base-2 logarithm of a complex number in x + yi or x + yj
text format.
     *
     * Excel Function:
     *        IMLOG2(complexNumber)
     *
     * @param string $complexNumber the complex number for which you want
the base-2 logarithm
     *
     * @return string
     */
    public static function IMLOG2($complexNumber)
    {
        $complexNumber = Functions::flattenSingleValue($complexNumber);

        $complex = new Complex($complexNumber);
        if ($complex->getReal() == 0.0 &&
$complex->getImaginary() == 0.0) {
            return Functions::NAN();
        }

        return (string) (new Complex($complexNumber))->log2();
    }

    /**
     * IMEXP.
     *
     * Returns the exponential of a complex number in x + yi or x + yj text
format.
     *
     * Excel Function:
     *        IMEXP(complexNumber)
     *
     * @param string $complexNumber the complex number for which you want
the exponential
     *
     * @return string
     */
    public static function IMEXP($complexNumber)
    {
        $complexNumber = Functions::flattenSingleValue($complexNumber);

        return (string) (new Complex($complexNumber))->exp();
    }

    /**
     * IMPOWER.
     *
     * Returns a complex number in x + yi or x + yj text format raised to a
power.
     *
     * Excel Function:
     *        IMPOWER(complexNumber,realNumber)
     *
     * @param string $complexNumber the complex number you want to raise to
a power
     * @param float $realNumber the power to which you want to raise the
complex number
     *
     * @return string
     */
    public static function IMPOWER($complexNumber, $realNumber)
    {
        $complexNumber = Functions::flattenSingleValue($complexNumber);
        $realNumber = Functions::flattenSingleValue($realNumber);

        if (!is_numeric($realNumber)) {
            return Functions::VALUE();
        }

        return (string) (new Complex($complexNumber))->pow($realNumber);
    }

    /**
     * IMDIV.
     *
     * Returns the quotient of two complex numbers in x + yi or x + yj text
format.
     *
     * Excel Function:
     *        IMDIV(complexDividend,complexDivisor)
     *
     * @param string $complexDividend the complex numerator or dividend
     * @param string $complexDivisor the complex denominator or divisor
     *
     * @return string
     */
    public static function IMDIV($complexDividend, $complexDivisor)
    {
        $complexDividend = Functions::flattenSingleValue($complexDividend);
        $complexDivisor = Functions::flattenSingleValue($complexDivisor);

        try {
            return (string) (new
Complex($complexDividend))->divideby(new Complex($complexDivisor));
        } catch (ComplexException $e) {
            return Functions::NAN();
        }
    }

    /**
     * IMSUB.
     *
     * Returns the difference of two complex numbers in x + yi or x + yj
text format.
     *
     * Excel Function:
     *        IMSUB(complexNumber1,complexNumber2)
     *
     * @param string $complexNumber1 the complex number from which to
subtract complexNumber2
     * @param string $complexNumber2 the complex number to subtract from
complexNumber1
     *
     * @return string
     */
    public static function IMSUB($complexNumber1, $complexNumber2)
    {
        $complexNumber1 = Functions::flattenSingleValue($complexNumber1);
        $complexNumber2 = Functions::flattenSingleValue($complexNumber2);

        try {
            return (string) (new Complex($complexNumber1))->subtract(new
Complex($complexNumber2));
        } catch (ComplexException $e) {
            return Functions::NAN();
        }
    }

    /**
     * IMSUM.
     *
     * Returns the sum of two or more complex numbers in x + yi or x + yj
text format.
     *
     * Excel Function:
     *        IMSUM(complexNumber[,complexNumber[,...]])
     *
     * @param string ...$complexNumbers Series of complex numbers to add
     *
     * @return string
     */
    public static function IMSUM(...$complexNumbers)
    {
        // Return value
        $returnValue = new Complex(0.0);
        $aArgs = Functions::flattenArray($complexNumbers);

        try {
            // Loop through the arguments
            foreach ($aArgs as $complex) {
                $returnValue = $returnValue->add(new Complex($complex));
            }
        } catch (ComplexException $e) {
            return Functions::NAN();
        }

        return (string) $returnValue;
    }

    /**
     * IMPRODUCT.
     *
     * Returns the product of two or more complex numbers in x + yi or x +
yj text format.
     *
     * Excel Function:
     *        IMPRODUCT(complexNumber[,complexNumber[,...]])
     *
     * @param string ...$complexNumbers Series of complex numbers to
multiply
     *
     * @return string
     */
    public static function IMPRODUCT(...$complexNumbers)
    {
        // Return value
        $returnValue = new Complex(1.0);
        $aArgs = Functions::flattenArray($complexNumbers);

        try {
            // Loop through the arguments
            foreach ($aArgs as $complex) {
                $returnValue = $returnValue->multiply(new
Complex($complex));
            }
        } catch (ComplexException $e) {
            return Functions::NAN();
        }

        return (string) $returnValue;
    }

    /**
     * DELTA.
     *
     * Tests whether two values are equal. Returns 1 if number1 = number2;
returns 0 otherwise.
     *    Use this function to filter a set of values. For example, by
summing several DELTA
     *    functions you calculate the count of equal pairs. This function
is also known as the
     * Kronecker Delta function.
     *
     *    Excel Function:
     *        DELTA(a[,b])
     *
     * @param float $a the first number
     * @param float $b The second number. If omitted, b is assumed to be
zero.
     *
     * @return int
     */
    public static function DELTA($a, $b = 0)
    {
        $a = Functions::flattenSingleValue($a);
        $b = Functions::flattenSingleValue($b);

        return (int) ($a == $b);
    }

    /**
     * GESTEP.
     *
     *    Excel Function:
     *        GESTEP(number[,step])
     *
     *    Returns 1 if number >= step; returns 0 (zero) otherwise
     *    Use this function to filter a set of values. For example, by
summing several GESTEP
     * functions you calculate the count of values that exceed a threshold.
     *
     * @param float $number the value to test against step
     * @param float $step The threshold value.
     *                                    If you omit a value for step,
GESTEP uses zero.
     *
     * @return int
     */
    public static function GESTEP($number, $step = 0)
    {
        $number = Functions::flattenSingleValue($number);
        $step = Functions::flattenSingleValue($step);

        return (int) ($number >= $step);
    }

    //
    //    Private method to calculate the erf value
    //
    private static $twoSqrtPi = 1.128379167095512574;

    public static function erfVal($x)
    {
        if (abs($x) > 2.2) {
            return 1 - self::erfcVal($x);
        }
        $sum = $term = $x;
        $xsqr = ($x * $x);
        $j = 1;
        do {
            $term *= $xsqr / $j;
            $sum -= $term / (2 * $j + 1);
            ++$j;
            $term *= $xsqr / $j;
            $sum += $term / (2 * $j + 1);
            ++$j;
            if ($sum == 0.0) {
                break;
            }
        } while (abs($term / $sum) > Functions::PRECISION);

        return self::$twoSqrtPi * $sum;
    }

    /**
     * Validate arguments passed to the bitwise functions.
     *
     * @param mixed $value
     *
     * @throws Exception
     *
     * @return int
     */
    private static function validateBitwiseArgument($value)
    {
        $value = Functions::flattenSingleValue($value);

        if (is_int($value)) {
            return $value;
        } elseif (is_numeric($value)) {
            if ($value == (int) ($value)) {
                $value = (int) ($value);
                if (($value > pow(2, 48) - 1) || ($value < 0)) {
                    throw new Exception(Functions::NAN());
                }

                return $value;
            }

            throw new Exception(Functions::NAN());
        }

        throw new Exception(Functions::VALUE());
    }

    /**
     * BITAND.
     *
     * Returns the bitwise AND of two integer values.
     *
     * Excel Function:
     *        BITAND(number1, number2)
     *
     * @category Engineering Functions
     *
     * @param int $number1
     * @param int $number2
     *
     * @return int|string
     */
    public static function BITAND($number1, $number2)
    {
        try {
            $number1 = self::validateBitwiseArgument($number1);
            $number2 = self::validateBitwiseArgument($number2);
        } catch (Exception $e) {
            return $e->getMessage();
        }

        return $number1 & $number2;
    }

    /**
     * BITOR.
     *
     * Returns the bitwise OR of two integer values.
     *
     * Excel Function:
     *        BITOR(number1, number2)
     *
     * @category Engineering Functions
     *
     * @param int $number1
     * @param int $number2
     *
     * @return int|string
     */
    public static function BITOR($number1, $number2)
    {
        try {
            $number1 = self::validateBitwiseArgument($number1);
            $number2 = self::validateBitwiseArgument($number2);
        } catch (Exception $e) {
            return $e->getMessage();
        }

        return $number1 | $number2;
    }

    /**
     * BITXOR.
     *
     * Returns the bitwise XOR of two integer values.
     *
     * Excel Function:
     *        BITXOR(number1, number2)
     *
     * @category Engineering Functions
     *
     * @param int $number1
     * @param int $number2
     *
     * @return int|string
     */
    public static function BITXOR($number1, $number2)
    {
        try {
            $number1 = self::validateBitwiseArgument($number1);
            $number2 = self::validateBitwiseArgument($number2);
        } catch (Exception $e) {
            return $e->getMessage();
        }

        return $number1 ^ $number2;
    }

    /**
     * BITLSHIFT.
     *
     * Returns the number value shifted left by shift_amount bits.
     *
     * Excel Function:
     *        BITLSHIFT(number, shift_amount)
     *
     * @category Engineering Functions
     *
     * @param int $number
     * @param int $shiftAmount
     *
     * @return int|string
     */
    public static function BITLSHIFT($number, $shiftAmount)
    {
        try {
            $number = self::validateBitwiseArgument($number);
        } catch (Exception $e) {
            return $e->getMessage();
        }

        $shiftAmount = Functions::flattenSingleValue($shiftAmount);

        $result = $number << $shiftAmount;
        if ($result > pow(2, 48) - 1) {
            return Functions::NAN();
        }

        return $result;
    }

    /**
     * BITRSHIFT.
     *
     * Returns the number value shifted right by shift_amount bits.
     *
     * Excel Function:
     *        BITRSHIFT(number, shift_amount)
     *
     * @category Engineering Functions
     *
     * @param int $number
     * @param int $shiftAmount
     *
     * @return int|string
     */
    public static function BITRSHIFT($number, $shiftAmount)
    {
        try {
            $number = self::validateBitwiseArgument($number);
        } catch (Exception $e) {
            return $e->getMessage();
        }

        $shiftAmount = Functions::flattenSingleValue($shiftAmount);

        return $number >> $shiftAmount;
    }

    /**
     * ERF.
     *
     * Returns the error function integrated between the lower and upper
bound arguments.
     *
     *    Note: In Excel 2007 or earlier, if you input a negative value for
the upper or lower bound arguments,
     *            the function would return a #NUM! error. However, in
Excel 2010, the function algorithm was
     *            improved, so that it can now calculate the function for
both positive and negative ranges.
     *            PhpSpreadsheet follows Excel 2010 behaviour, and accepts
negative arguments.
     *
     *    Excel Function:
     *        ERF(lower[,upper])
     *
     * @param float $lower lower bound for integrating ERF
     * @param float $upper upper bound for integrating ERF.
     *                                If omitted, ERF integrates between
zero and lower_limit
     *
     * @return float|string
     */
    public static function ERF($lower, $upper = null)
    {
        $lower = Functions::flattenSingleValue($lower);
        $upper = Functions::flattenSingleValue($upper);

        if (is_numeric($lower)) {
            if ($upper === null) {
                return self::erfVal($lower);
            }
            if (is_numeric($upper)) {
                return self::erfVal($upper) - self::erfVal($lower);
            }
        }

        return Functions::VALUE();
    }

    /**
     * ERFPRECISE.
     *
     * Returns the error function integrated between the lower and upper
bound arguments.
     *
     *    Excel Function:
     *        ERF.PRECISE(limit)
     *
     * @param float $limit bound for integrating ERF
     *
     * @return float|string
     */
    public static function ERFPRECISE($limit)
    {
        $limit = Functions::flattenSingleValue($limit);

        return self::ERF($limit);
    }

    //
    //    Private method to calculate the erfc value
    //
    private static $oneSqrtPi = 0.564189583547756287;

    private static function erfcVal($x)
    {
        if (abs($x) < 2.2) {
            return 1 - self::erfVal($x);
        }
        if ($x < 0) {
            return 2 - self::ERFC(-$x);
        }
        $a = $n = 1;
        $b = $c = $x;
        $d = ($x * $x) + 0.5;
        $q1 = $q2 = $b / $d;
        $t = 0;
        do {
            $t = $a * $n + $b * $x;
            $a = $b;
            $b = $t;
            $t = $c * $n + $d * $x;
            $c = $d;
            $d = $t;
            $n += 0.5;
            $q1 = $q2;
            $q2 = $b / $d;
        } while ((abs($q1 - $q2) / $q2) > Functions::PRECISION);

        return self::$oneSqrtPi * exp(-$x * $x) * $q2;
    }

    /**
     * ERFC.
     *
     *    Returns the complementary ERF function integrated between x and
infinity
     *
     *    Note: In Excel 2007 or earlier, if you input a negative value for
the lower bound argument,
     *        the function would return a #NUM! error. However, in Excel
2010, the function algorithm was
     *        improved, so that it can now calculate the function for both
positive and negative x values.
     *            PhpSpreadsheet follows Excel 2010 behaviour, and accepts
nagative arguments.
     *
     *    Excel Function:
     *        ERFC(x)
     *
     * @param float $x The lower bound for integrating ERFC
     *
     * @return float|string
     */
    public static function ERFC($x)
    {
        $x = Functions::flattenSingleValue($x);

        if (is_numeric($x)) {
            return self::erfcVal($x);
        }

        return Functions::VALUE();
    }

    /**
     *    getConversionGroups
     * Returns a list of the different conversion groups for UOM
conversions.
     *
     * @return array
     */
    public static function getConversionGroups()
    {
        $conversionGroups = [];
        foreach (self::$conversionUnits as $conversionUnit) {
            $conversionGroups[] = $conversionUnit['Group'];
        }

        return array_merge(array_unique($conversionGroups));
    }

    /**
     *    getConversionGroupUnits
     * Returns an array of units of measure, for a specified conversion
group, or for all groups.
     *
     * @param string $group The group whose units of measure you want to
retrieve
     *
     * @return array
     */
    public static function getConversionGroupUnits($group = null)
    {
        $conversionGroups = [];
        foreach (self::$conversionUnits as $conversionUnit =>
$conversionGroup) {
            if (($group === null) || ($conversionGroup['Group']
== $group)) {
                $conversionGroups[$conversionGroup['Group']][] =
$conversionUnit;
            }
        }

        return $conversionGroups;
    }

    /**
     * getConversionGroupUnitDetails.
     *
     * @param string $group The group whose units of measure you want to
retrieve
     *
     * @return array
     */
    public static function getConversionGroupUnitDetails($group = null)
    {
        $conversionGroups = [];
        foreach (self::$conversionUnits as $conversionUnit =>
$conversionGroup) {
            if (($group === null) || ($conversionGroup['Group']
== $group)) {
                $conversionGroups[$conversionGroup['Group']][] =
[
                    'unit' => $conversionUnit,
                    'description' =>
$conversionGroup['Unit Name'],
                ];
            }
        }

        return $conversionGroups;
    }

    /**
     *    getConversionMultipliers
     * Returns an array of the Multiplier prefixes that can be used with
Units of Measure in CONVERTUOM().
     *
     * @return array of mixed
     */
    public static function getConversionMultipliers()
    {
        return self::$conversionMultipliers;
    }

    /**
     * CONVERTUOM.
     *
     * Converts a number from one measurement system to another.
     *    For example, CONVERT can translate a table of distances in miles
to a table of distances
     * in kilometers.
     *
     *    Excel Function:
     *        CONVERT(value,fromUOM,toUOM)
     *
     * @param float $value the value in fromUOM to convert
     * @param string $fromUOM the units for value
     * @param string $toUOM the units for the result
     *
     * @return float|string
     */
    public static function CONVERTUOM($value, $fromUOM, $toUOM)
    {
        $value = Functions::flattenSingleValue($value);
        $fromUOM = Functions::flattenSingleValue($fromUOM);
        $toUOM = Functions::flattenSingleValue($toUOM);

        if (!is_numeric($value)) {
            return Functions::VALUE();
        }
        $fromMultiplier = 1.0;
        if (isset(self::$conversionUnits[$fromUOM])) {
            $unitGroup1 =
self::$conversionUnits[$fromUOM]['Group'];
        } else {
            $fromMultiplier = substr($fromUOM, 0, 1);
            $fromUOM = substr($fromUOM, 1);
            if (isset(self::$conversionMultipliers[$fromMultiplier])) {
                $fromMultiplier =
self::$conversionMultipliers[$fromMultiplier]['multiplier'];
            } else {
                return Functions::NA();
            }
            if ((isset(self::$conversionUnits[$fromUOM])) &&
(self::$conversionUnits[$fromUOM]['AllowPrefix'])) {
                $unitGroup1 =
self::$conversionUnits[$fromUOM]['Group'];
            } else {
                return Functions::NA();
            }
        }
        $value *= $fromMultiplier;

        $toMultiplier = 1.0;
        if (isset(self::$conversionUnits[$toUOM])) {
            $unitGroup2 =
self::$conversionUnits[$toUOM]['Group'];
        } else {
            $toMultiplier = substr($toUOM, 0, 1);
            $toUOM = substr($toUOM, 1);
            if (isset(self::$conversionMultipliers[$toMultiplier])) {
                $toMultiplier =
self::$conversionMultipliers[$toMultiplier]['multiplier'];
            } else {
                return Functions::NA();
            }
            if ((isset(self::$conversionUnits[$toUOM])) &&
(self::$conversionUnits[$toUOM]['AllowPrefix'])) {
                $unitGroup2 =
self::$conversionUnits[$toUOM]['Group'];
            } else {
                return Functions::NA();
            }
        }
        if ($unitGroup1 != $unitGroup2) {
            return Functions::NA();
        }

        if (($fromUOM == $toUOM) && ($fromMultiplier ==
$toMultiplier)) {
            //    We've already factored $fromMultiplier into the
value, so we need
            //        to reverse it again
            return $value / $fromMultiplier;
        } elseif ($unitGroup1 == 'Temperature') {
            if (($fromUOM == 'F') || ($fromUOM ==
'fah')) {
                if (($toUOM == 'F') || ($toUOM ==
'fah')) {
                    return $value;
                }
                $value = (($value - 32) / 1.8);
                if (($toUOM == 'K') || ($toUOM ==
'kel')) {
                    $value += 273.15;
                }

                return $value;
            } elseif ((($fromUOM == 'K') || ($fromUOM ==
'kel')) &&
                (($toUOM == 'K') || ($toUOM == 'kel'))
            ) {
                return $value;
            } elseif ((($fromUOM == 'C') || ($fromUOM ==
'cel')) &&
                (($toUOM == 'C') || ($toUOM == 'cel'))
            ) {
                return $value;
            }
            if (($toUOM == 'F') || ($toUOM == 'fah')) {
                if (($fromUOM == 'K') || ($fromUOM ==
'kel')) {
                    $value -= 273.15;
                }

                return ($value * 1.8) + 32;
            }
            if (($toUOM == 'C') || ($toUOM == 'cel')) {
                return $value - 273.15;
            }

            return $value + 273.15;
        }

        return ($value *
self::$unitConversions[$unitGroup1][$fromUOM][$toUOM]) / $toMultiplier;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/Exception.php000064400000001077151165413710023447
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Calculation;

use PhpOffice\PhpSpreadsheet\Exception as PhpSpreadsheetException;

class Exception extends PhpSpreadsheetException
{
    /**
     * Error handler callback.
     *
     * @param mixed $code
     * @param mixed $string
     * @param mixed $file
     * @param mixed $line
     * @param mixed $context
     */
    public static function errorHandlerCallback($code, $string, $file,
$line, $context)
    {
        $e = new self($string, $code);
        $e->line = $line;
        $e->file = $file;

        throw $e;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/ExceptionHandler.php000064400000000574151165413710024746
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Calculation;

class ExceptionHandler
{
    /**
     * Register errorhandler.
     */
    public function __construct()
    {
        set_error_handler([Exception::class,
'errorHandlerCallback'], E_ALL);
    }

    /**
     * Unregister errorhandler.
     */
    public function __destruct()
    {
        restore_error_handler();
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/Financial.php000064400000303543151165413710023400
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Calculation;

use PhpOffice\PhpSpreadsheet\Shared\Date;

class Financial
{
    const FINANCIAL_MAX_ITERATIONS = 32;

    const FINANCIAL_PRECISION = 1.0e-08;

    /**
     * isLastDayOfMonth.
     *
     * Returns a boolean TRUE/FALSE indicating if this date is the last
date of the month
     *
     * @param \DateTime $testDate The date for testing
     *
     * @return bool
     */
    private static function isLastDayOfMonth(\DateTime $testDate)
    {
        return $testDate->format('d') ==
$testDate->format('t');
    }

    private static function couponFirstPeriodDate($settlement, $maturity,
$frequency, $next)
    {
        $months = 12 / $frequency;

        $result = Date::excelToDateTimeObject($maturity);
        $eom = self::isLastDayOfMonth($result);

        while ($settlement < Date::PHPToExcel($result)) {
            $result->modify('-' . $months . '
months');
        }
        if ($next) {
            $result->modify('+' . $months . '
months');
        }

        if ($eom) {
            $result->modify('-1 day');
        }

        return Date::PHPToExcel($result);
    }

    private static function isValidFrequency($frequency)
    {
        if (($frequency == 1) || ($frequency == 2) || ($frequency == 4)) {
            return true;
        }
        if ((Functions::getCompatibilityMode() ==
Functions::COMPATIBILITY_GNUMERIC) &&
            (($frequency == 6) || ($frequency == 12))) {
            return true;
        }

        return false;
    }

    /**
     * daysPerYear.
     *
     * Returns the number of days in a specified year, as defined by the
"basis" value
     *
     * @param int|string $year The year against which we're testing
     * @param int|string $basis The type of day count:
     *                                    0 or omitted US (NASD)    360
     *                                    1                        Actual
(365 or 366 in a leap year)
     *                                    2                        360
     *                                    3                        365
     *                                    4                        European
360
     *
     * @return int|string Result, or a string containing an error
     */
    private static function daysPerYear($year, $basis = 0)
    {
        switch ($basis) {
            case 0:
            case 2:
            case 4:
                $daysPerYear = 360;

                break;
            case 3:
                $daysPerYear = 365;

                break;
            case 1:
                $daysPerYear = (DateTime::isLeapYear($year)) ? 366 : 365;

                break;
            default:
                return Functions::NAN();
        }

        return $daysPerYear;
    }

    private static function interestAndPrincipal($rate = 0, $per = 0, $nper
= 0, $pv = 0, $fv = 0, $type = 0)
    {
        $pmt = self::PMT($rate, $nper, $pv, $fv, $type);
        $capital = $pv;
        for ($i = 1; $i <= $per; ++$i) {
            $interest = ($type && $i == 1) ? 0 : -$capital * $rate;
            $principal = $pmt - $interest;
            $capital += $principal;
        }

        return [$interest, $principal];
    }

    /**
     * ACCRINT.
     *
     * Returns the accrued interest for a security that pays periodic
interest.
     *
     * Excel Function:
     *       
ACCRINT(issue,firstinterest,settlement,rate,par,frequency[,basis])
     *
     * @category Financial Functions
     *
     * @param mixed $issue the security's issue date
     * @param mixed $firstinterest the security's first interest date
     * @param mixed $settlement The security's settlement date.
     *                                    The security settlement date is
the date after the issue date
     *                                    when the security is traded to
the buyer.
     * @param float $rate the security's annual coupon rate
     * @param float $par The security's par value.
     *                                    If you omit par, ACCRINT uses
$1,000.
     * @param int $frequency the number of coupon payments per year.
     *                                    Valid frequency values are:
     *                                        1    Annual
     *                                        2    Semi-Annual
     *                                        4    Quarterly
     *                                    If working in Gnumeric Mode, the
following frequency options are
     *                                    also available
     *                                        6    Bimonthly
     *                                        12    Monthly
     * @param int $basis The type of day count to use.
     *                                        0 or omitted    US (NASD)
30/360
     *                                        1               
Actual/actual
     *                                        2                Actual/360
     *                                        3                Actual/365
     *                                        4                European
30/360
     *
     * @return float|string Result, or a string containing an error
     */
    public static function ACCRINT($issue, $firstinterest, $settlement,
$rate, $par = 1000, $frequency = 1, $basis = 0)
    {
        $issue = Functions::flattenSingleValue($issue);
        $firstinterest = Functions::flattenSingleValue($firstinterest);
        $settlement = Functions::flattenSingleValue($settlement);
        $rate = Functions::flattenSingleValue($rate);
        $par = ($par === null) ? 1000 :
Functions::flattenSingleValue($par);
        $frequency = ($frequency === null) ? 1 :
Functions::flattenSingleValue($frequency);
        $basis = ($basis === null) ? 0 :
Functions::flattenSingleValue($basis);

        //    Validate
        if ((is_numeric($rate)) && (is_numeric($par))) {
            $rate = (float) $rate;
            $par = (float) $par;
            if (($rate <= 0) || ($par <= 0)) {
                return Functions::NAN();
            }
            $daysBetweenIssueAndSettlement = DateTime::YEARFRAC($issue,
$settlement, $basis);
            if (!is_numeric($daysBetweenIssueAndSettlement)) {
                //    return date error
                return $daysBetweenIssueAndSettlement;
            }

            return $par * $rate * $daysBetweenIssueAndSettlement;
        }

        return Functions::VALUE();
    }

    /**
     * ACCRINTM.
     *
     * Returns the accrued interest for a security that pays interest at
maturity.
     *
     * Excel Function:
     *        ACCRINTM(issue,settlement,rate[,par[,basis]])
     *
     * @category Financial Functions
     *
     * @param mixed $issue The security's issue date
     * @param mixed $settlement The security's settlement (or
maturity) date
     * @param float $rate The security's annual coupon rate
     * @param float $par The security's par value.
     *                                    If you omit par, ACCRINT uses
$1,000.
     * @param int $basis The type of day count to use.
     *                                        0 or omitted    US (NASD)
30/360
     *                                        1               
Actual/actual
     *                                        2                Actual/360
     *                                        3                Actual/365
     *                                        4                European
30/360
     *
     * @return float|string Result, or a string containing an error
     */
    public static function ACCRINTM($issue, $settlement, $rate, $par =
1000, $basis = 0)
    {
        $issue = Functions::flattenSingleValue($issue);
        $settlement = Functions::flattenSingleValue($settlement);
        $rate = Functions::flattenSingleValue($rate);
        $par = ($par === null) ? 1000 :
Functions::flattenSingleValue($par);
        $basis = ($basis === null) ? 0 :
Functions::flattenSingleValue($basis);

        //    Validate
        if ((is_numeric($rate)) && (is_numeric($par))) {
            $rate = (float) $rate;
            $par = (float) $par;
            if (($rate <= 0) || ($par <= 0)) {
                return Functions::NAN();
            }
            $daysBetweenIssueAndSettlement = DateTime::YEARFRAC($issue,
$settlement, $basis);
            if (!is_numeric($daysBetweenIssueAndSettlement)) {
                //    return date error
                return $daysBetweenIssueAndSettlement;
            }

            return $par * $rate * $daysBetweenIssueAndSettlement;
        }

        return Functions::VALUE();
    }

    /**
     * AMORDEGRC.
     *
     * Returns the depreciation for each accounting period.
     * This function is provided for the French accounting system. If an
asset is purchased in
     * the middle of the accounting period, the prorated depreciation is
taken into account.
     * The function is similar to AMORLINC, except that a depreciation
coefficient is applied in
     * the calculation depending on the life of the assets.
     * This function will return the depreciation until the last period of
the life of the assets
     * or until the cumulated value of depreciation is greater than the
cost of the assets minus
     * the salvage value.
     *
     * Excel Function:
     *       
AMORDEGRC(cost,purchased,firstPeriod,salvage,period,rate[,basis])
     *
     * @category Financial Functions
     *
     * @param float $cost The cost of the asset
     * @param mixed $purchased Date of the purchase of the asset
     * @param mixed $firstPeriod Date of the end of the first period
     * @param mixed $salvage The salvage value at the end of the life of
the asset
     * @param float $period The period
     * @param float $rate Rate of depreciation
     * @param int $basis The type of day count to use.
     *                                        0 or omitted    US (NASD)
30/360
     *                                        1               
Actual/actual
     *                                        2                Actual/360
     *                                        3                Actual/365
     *                                        4                European
30/360
     *
     * @return float
     */
    public static function AMORDEGRC($cost, $purchased, $firstPeriod,
$salvage, $period, $rate, $basis = 0)
    {
        $cost = Functions::flattenSingleValue($cost);
        $purchased = Functions::flattenSingleValue($purchased);
        $firstPeriod = Functions::flattenSingleValue($firstPeriod);
        $salvage = Functions::flattenSingleValue($salvage);
        $period = floor(Functions::flattenSingleValue($period));
        $rate = Functions::flattenSingleValue($rate);
        $basis = ($basis === null) ? 0 : (int)
Functions::flattenSingleValue($basis);

        //    The depreciation coefficients are:
        //    Life of assets (1/rate)        Depreciation coefficient
        //    Less than 3 years            1
        //    Between 3 and 4 years        1.5
        //    Between 5 and 6 years        2
        //    More than 6 years            2.5
        $fUsePer = 1.0 / $rate;
        if ($fUsePer < 3.0) {
            $amortiseCoeff = 1.0;
        } elseif ($fUsePer < 5.0) {
            $amortiseCoeff = 1.5;
        } elseif ($fUsePer <= 6.0) {
            $amortiseCoeff = 2.0;
        } else {
            $amortiseCoeff = 2.5;
        }

        $rate *= $amortiseCoeff;
        $fNRate = round(DateTime::YEARFRAC($purchased, $firstPeriod,
$basis) * $rate * $cost, 0);
        $cost -= $fNRate;
        $fRest = $cost - $salvage;

        for ($n = 0; $n < $period; ++$n) {
            $fNRate = round($rate * $cost, 0);
            $fRest -= $fNRate;

            if ($fRest < 0.0) {
                switch ($period - $n) {
                    case 0:
                    case 1:
                        return round($cost * 0.5, 0);
                    default:
                        return 0.0;
                }
            }
            $cost -= $fNRate;
        }

        return $fNRate;
    }

    /**
     * AMORLINC.
     *
     * Returns the depreciation for each accounting period.
     * This function is provided for the French accounting system. If an
asset is purchased in
     * the middle of the accounting period, the prorated depreciation is
taken into account.
     *
     * Excel Function:
     *       
AMORLINC(cost,purchased,firstPeriod,salvage,period,rate[,basis])
     *
     * @category Financial Functions
     *
     * @param float $cost The cost of the asset
     * @param mixed $purchased Date of the purchase of the asset
     * @param mixed $firstPeriod Date of the end of the first period
     * @param mixed $salvage The salvage value at the end of the life of
the asset
     * @param float $period The period
     * @param float $rate Rate of depreciation
     * @param int $basis The type of day count to use.
     *                                        0 or omitted    US (NASD)
30/360
     *                                        1               
Actual/actual
     *                                        2                Actual/360
     *                                        3                Actual/365
     *                                        4                European
30/360
     *
     * @return float
     */
    public static function AMORLINC($cost, $purchased, $firstPeriod,
$salvage, $period, $rate, $basis = 0)
    {
        $cost = Functions::flattenSingleValue($cost);
        $purchased = Functions::flattenSingleValue($purchased);
        $firstPeriod = Functions::flattenSingleValue($firstPeriod);
        $salvage = Functions::flattenSingleValue($salvage);
        $period = Functions::flattenSingleValue($period);
        $rate = Functions::flattenSingleValue($rate);
        $basis = ($basis === null) ? 0 : (int)
Functions::flattenSingleValue($basis);

        $fOneRate = $cost * $rate;
        $fCostDelta = $cost - $salvage;
        //    Note, quirky variation for leap years on the YEARFRAC for
this function
        $purchasedYear = DateTime::YEAR($purchased);
        $yearFrac = DateTime::YEARFRAC($purchased, $firstPeriod, $basis);

        if (($basis == 1) && ($yearFrac < 1) &&
(DateTime::isLeapYear($purchasedYear))) {
            $yearFrac *= 365 / 366;
        }

        $f0Rate = $yearFrac * $rate * $cost;
        $nNumOfFullPeriods = (int) (($cost - $salvage - $f0Rate) /
$fOneRate);

        if ($period == 0) {
            return $f0Rate;
        } elseif ($period <= $nNumOfFullPeriods) {
            return $fOneRate;
        } elseif ($period == ($nNumOfFullPeriods + 1)) {
            return $fCostDelta - $fOneRate * $nNumOfFullPeriods - $f0Rate;
        }

        return 0.0;
    }

    /**
     * COUPDAYBS.
     *
     * Returns the number of days from the beginning of the coupon period
to the settlement date.
     *
     * Excel Function:
     *        COUPDAYBS(settlement,maturity,frequency[,basis])
     *
     * @category Financial Functions
     *
     * @param mixed $settlement The security's settlement date.
     *                                The security settlement date is the
date after the issue
     *                                date when the security is traded to
the buyer.
     * @param mixed $maturity The security's maturity date.
     *                                The maturity date is the date when
the security expires.
     * @param int $frequency the number of coupon payments per year.
     *                                    Valid frequency values are:
     *                                        1    Annual
     *                                        2    Semi-Annual
     *                                        4    Quarterly
     *                                    If working in Gnumeric Mode, the
following frequency options are
     *                                    also available
     *                                        6    Bimonthly
     *                                        12    Monthly
     * @param int $basis The type of day count to use.
     *                                        0 or omitted    US (NASD)
30/360
     *                                        1               
Actual/actual
     *                                        2                Actual/360
     *                                        3                Actual/365
     *                                        4                European
30/360
     *
     * @return float|string
     */
    public static function COUPDAYBS($settlement, $maturity, $frequency,
$basis = 0)
    {
        $settlement = Functions::flattenSingleValue($settlement);
        $maturity = Functions::flattenSingleValue($maturity);
        $frequency = (int) Functions::flattenSingleValue($frequency);
        $basis = ($basis === null) ? 0 : (int)
Functions::flattenSingleValue($basis);

        if (is_string($settlement = DateTime::getDateValue($settlement))) {
            return Functions::VALUE();
        }
        if (is_string($maturity = DateTime::getDateValue($maturity))) {
            return Functions::VALUE();
        }

        if (($settlement >= $maturity) ||
            (!self::isValidFrequency($frequency)) ||
            (($basis < 0) || ($basis > 4))) {
            return Functions::NAN();
        }

        $daysPerYear = self::daysPerYear(DateTime::YEAR($settlement),
$basis);
        $prev = self::couponFirstPeriodDate($settlement, $maturity,
$frequency, false);

        return DateTime::YEARFRAC($prev, $settlement, $basis) *
$daysPerYear;
    }

    /**
     * COUPDAYS.
     *
     * Returns the number of days in the coupon period that contains the
settlement date.
     *
     * Excel Function:
     *        COUPDAYS(settlement,maturity,frequency[,basis])
     *
     * @category Financial Functions
     *
     * @param mixed $settlement The security's settlement date.
     *                                The security settlement date is the
date after the issue
     *                                date when the security is traded to
the buyer.
     * @param mixed $maturity The security's maturity date.
     *                                The maturity date is the date when
the security expires.
     * @param mixed $frequency the number of coupon payments per year.
     *                                    Valid frequency values are:
     *                                        1    Annual
     *                                        2    Semi-Annual
     *                                        4    Quarterly
     *                                    If working in Gnumeric Mode, the
following frequency options are
     *                                    also available
     *                                        6    Bimonthly
     *                                        12    Monthly
     * @param int $basis The type of day count to use.
     *                                        0 or omitted    US (NASD)
30/360
     *                                        1               
Actual/actual
     *                                        2                Actual/360
     *                                        3                Actual/365
     *                                        4                European
30/360
     *
     * @return float|string
     */
    public static function COUPDAYS($settlement, $maturity, $frequency,
$basis = 0)
    {
        $settlement = Functions::flattenSingleValue($settlement);
        $maturity = Functions::flattenSingleValue($maturity);
        $frequency = (int) Functions::flattenSingleValue($frequency);
        $basis = ($basis === null) ? 0 : (int)
Functions::flattenSingleValue($basis);

        if (is_string($settlement = DateTime::getDateValue($settlement))) {
            return Functions::VALUE();
        }
        if (is_string($maturity = DateTime::getDateValue($maturity))) {
            return Functions::VALUE();
        }

        if (($settlement >= $maturity) ||
            (!self::isValidFrequency($frequency)) ||
            (($basis < 0) || ($basis > 4))) {
            return Functions::NAN();
        }

        switch ($basis) {
            case 3:
                // Actual/365
                return 365 / $frequency;
            case 1:
                // Actual/actual
                if ($frequency == 1) {
                    $daysPerYear =
self::daysPerYear(DateTime::YEAR($settlement), $basis);

                    return $daysPerYear / $frequency;
                }
                $prev = self::couponFirstPeriodDate($settlement, $maturity,
$frequency, false);
                $next = self::couponFirstPeriodDate($settlement, $maturity,
$frequency, true);

                return $next - $prev;
            default:
                // US (NASD) 30/360, Actual/360 or European 30/360
                return 360 / $frequency;
        }
    }

    /**
     * COUPDAYSNC.
     *
     * Returns the number of days from the settlement date to the next
coupon date.
     *
     * Excel Function:
     *        COUPDAYSNC(settlement,maturity,frequency[,basis])
     *
     * @category Financial Functions
     *
     * @param mixed $settlement The security's settlement date.
     *                                The security settlement date is the
date after the issue
     *                                date when the security is traded to
the buyer.
     * @param mixed $maturity The security's maturity date.
     *                                The maturity date is the date when
the security expires.
     * @param mixed $frequency the number of coupon payments per year.
     *                                    Valid frequency values are:
     *                                        1    Annual
     *                                        2    Semi-Annual
     *                                        4    Quarterly
     *                                    If working in Gnumeric Mode, the
following frequency options are
     *                                    also available
     *                                        6    Bimonthly
     *                                        12    Monthly
     * @param int $basis The type of day count to use.
     *                                        0 or omitted    US (NASD)
30/360
     *                                        1               
Actual/actual
     *                                        2                Actual/360
     *                                        3                Actual/365
     *                                        4                European
30/360
     *
     * @return float|string
     */
    public static function COUPDAYSNC($settlement, $maturity, $frequency,
$basis = 0)
    {
        $settlement = Functions::flattenSingleValue($settlement);
        $maturity = Functions::flattenSingleValue($maturity);
        $frequency = (int) Functions::flattenSingleValue($frequency);
        $basis = ($basis === null) ? 0 : (int)
Functions::flattenSingleValue($basis);

        if (is_string($settlement = DateTime::getDateValue($settlement))) {
            return Functions::VALUE();
        }
        if (is_string($maturity = DateTime::getDateValue($maturity))) {
            return Functions::VALUE();
        }

        if (($settlement >= $maturity) ||
            (!self::isValidFrequency($frequency)) ||
            (($basis < 0) || ($basis > 4))) {
            return Functions::NAN();
        }

        $daysPerYear = self::daysPerYear(DateTime::YEAR($settlement),
$basis);
        $next = self::couponFirstPeriodDate($settlement, $maturity,
$frequency, true);

        return DateTime::YEARFRAC($settlement, $next, $basis) *
$daysPerYear;
    }

    /**
     * COUPNCD.
     *
     * Returns the next coupon date after the settlement date.
     *
     * Excel Function:
     *        COUPNCD(settlement,maturity,frequency[,basis])
     *
     * @category Financial Functions
     *
     * @param mixed $settlement The security's settlement date.
     *                                The security settlement date is the
date after the issue
     *                                date when the security is traded to
the buyer.
     * @param mixed $maturity The security's maturity date.
     *                                The maturity date is the date when
the security expires.
     * @param mixed $frequency the number of coupon payments per year.
     *                                    Valid frequency values are:
     *                                        1    Annual
     *                                        2    Semi-Annual
     *                                        4    Quarterly
     *                                    If working in Gnumeric Mode, the
following frequency options are
     *                                    also available
     *                                        6    Bimonthly
     *                                        12    Monthly
     * @param int $basis The type of day count to use.
     *                                        0 or omitted    US (NASD)
30/360
     *                                        1               
Actual/actual
     *                                        2                Actual/360
     *                                        3                Actual/365
     *                                        4                European
30/360
     *
     * @return mixed Excel date/time serial value, PHP date/time serial
value or PHP date/time object,
     *                        depending on the value of the ReturnDateType
flag
     */
    public static function COUPNCD($settlement, $maturity, $frequency,
$basis = 0)
    {
        $settlement = Functions::flattenSingleValue($settlement);
        $maturity = Functions::flattenSingleValue($maturity);
        $frequency = (int) Functions::flattenSingleValue($frequency);
        $basis = ($basis === null) ? 0 : (int)
Functions::flattenSingleValue($basis);

        if (is_string($settlement = DateTime::getDateValue($settlement))) {
            return Functions::VALUE();
        }
        if (is_string($maturity = DateTime::getDateValue($maturity))) {
            return Functions::VALUE();
        }

        if (($settlement >= $maturity) ||
            (!self::isValidFrequency($frequency)) ||
            (($basis < 0) || ($basis > 4))) {
            return Functions::NAN();
        }

        return self::couponFirstPeriodDate($settlement, $maturity,
$frequency, true);
    }

    /**
     * COUPNUM.
     *
     * Returns the number of coupons payable between the settlement date
and maturity date,
     * rounded up to the nearest whole coupon.
     *
     * Excel Function:
     *        COUPNUM(settlement,maturity,frequency[,basis])
     *
     * @category Financial Functions
     *
     * @param mixed $settlement The security's settlement date.
     *                                The security settlement date is the
date after the issue
     *                                date when the security is traded to
the buyer.
     * @param mixed $maturity The security's maturity date.
     *                                The maturity date is the date when
the security expires.
     * @param mixed $frequency the number of coupon payments per year.
     *                                    Valid frequency values are:
     *                                        1    Annual
     *                                        2    Semi-Annual
     *                                        4    Quarterly
     *                                    If working in Gnumeric Mode, the
following frequency options are
     *                                    also available
     *                                        6    Bimonthly
     *                                        12    Monthly
     * @param int $basis The type of day count to use.
     *                                        0 or omitted    US (NASD)
30/360
     *                                        1               
Actual/actual
     *                                        2                Actual/360
     *                                        3                Actual/365
     *                                        4                European
30/360
     *
     * @return int|string
     */
    public static function COUPNUM($settlement, $maturity, $frequency,
$basis = 0)
    {
        $settlement = Functions::flattenSingleValue($settlement);
        $maturity = Functions::flattenSingleValue($maturity);
        $frequency = (int) Functions::flattenSingleValue($frequency);
        $basis = ($basis === null) ? 0 : (int)
Functions::flattenSingleValue($basis);

        if (is_string($settlement = DateTime::getDateValue($settlement))) {
            return Functions::VALUE();
        }
        if (is_string($maturity = DateTime::getDateValue($maturity))) {
            return Functions::VALUE();
        }

        if (($settlement >= $maturity) ||
            (!self::isValidFrequency($frequency)) ||
            (($basis < 0) || ($basis > 4))) {
            return Functions::NAN();
        }

        $daysPerYear = self::daysPerYear(DateTime::YEAR($settlement),
$basis);
        $daysBetweenSettlementAndMaturity = DateTime::YEARFRAC($settlement,
$maturity, $basis) * $daysPerYear;

        switch ($frequency) {
            case 1: // annual payments
            case 2: // half-yearly
            case 4: // quarterly
            case 6: // bimonthly
            case 12: // monthly
                return ceil($daysBetweenSettlementAndMaturity /
$daysPerYear * $frequency);
        }

        return Functions::VALUE();
    }

    /**
     * COUPPCD.
     *
     * Returns the previous coupon date before the settlement date.
     *
     * Excel Function:
     *        COUPPCD(settlement,maturity,frequency[,basis])
     *
     * @category Financial Functions
     *
     * @param mixed $settlement The security's settlement date.
     *                                The security settlement date is the
date after the issue
     *                                date when the security is traded to
the buyer.
     * @param mixed $maturity The security's maturity date.
     *                                The maturity date is the date when
the security expires.
     * @param mixed $frequency the number of coupon payments per year.
     *                                    Valid frequency values are:
     *                                        1    Annual
     *                                        2    Semi-Annual
     *                                        4    Quarterly
     *                                    If working in Gnumeric Mode, the
following frequency options are
     *                                    also available
     *                                        6    Bimonthly
     *                                        12    Monthly
     * @param int $basis The type of day count to use.
     *                                        0 or omitted    US (NASD)
30/360
     *                                        1               
Actual/actual
     *                                        2                Actual/360
     *                                        3                Actual/365
     *                                        4                European
30/360
     *
     * @return mixed Excel date/time serial value, PHP date/time serial
value or PHP date/time object,
     *                        depending on the value of the ReturnDateType
flag
     */
    public static function COUPPCD($settlement, $maturity, $frequency,
$basis = 0)
    {
        $settlement = Functions::flattenSingleValue($settlement);
        $maturity = Functions::flattenSingleValue($maturity);
        $frequency = (int) Functions::flattenSingleValue($frequency);
        $basis = ($basis === null) ? 0 : (int)
Functions::flattenSingleValue($basis);

        if (is_string($settlement = DateTime::getDateValue($settlement))) {
            return Functions::VALUE();
        }
        if (is_string($maturity = DateTime::getDateValue($maturity))) {
            return Functions::VALUE();
        }

        if (($settlement >= $maturity) ||
            (!self::isValidFrequency($frequency)) ||
            (($basis < 0) || ($basis > 4))) {
            return Functions::NAN();
        }

        return self::couponFirstPeriodDate($settlement, $maturity,
$frequency, false);
    }

    /**
     * CUMIPMT.
     *
     * Returns the cumulative interest paid on a loan between the start and
end periods.
     *
     * Excel Function:
     *        CUMIPMT(rate,nper,pv,start,end[,type])
     *
     * @category Financial Functions
     *
     * @param float $rate The Interest rate
     * @param int $nper The total number of payment periods
     * @param float $pv Present Value
     * @param int $start The first period in the calculation.
     *                            Payment periods are numbered beginning
with 1.
     * @param int $end the last period in the calculation
     * @param int $type A number 0 or 1 and indicates when payments are
due:
     *                                0 or omitted    At the end of the
period.
     *                                1                At the beginning of
the period.
     *
     * @return float|string
     */
    public static function CUMIPMT($rate, $nper, $pv, $start, $end, $type =
0)
    {
        $rate = Functions::flattenSingleValue($rate);
        $nper = (int) Functions::flattenSingleValue($nper);
        $pv = Functions::flattenSingleValue($pv);
        $start = (int) Functions::flattenSingleValue($start);
        $end = (int) Functions::flattenSingleValue($end);
        $type = (int) Functions::flattenSingleValue($type);

        // Validate parameters
        if ($type != 0 && $type != 1) {
            return Functions::NAN();
        }
        if ($start < 1 || $start > $end) {
            return Functions::VALUE();
        }

        // Calculate
        $interest = 0;
        for ($per = $start; $per <= $end; ++$per) {
            $interest += self::IPMT($rate, $per, $nper, $pv, 0, $type);
        }

        return $interest;
    }

    /**
     * CUMPRINC.
     *
     * Returns the cumulative principal paid on a loan between the start
and end periods.
     *
     * Excel Function:
     *        CUMPRINC(rate,nper,pv,start,end[,type])
     *
     * @category Financial Functions
     *
     * @param float $rate The Interest rate
     * @param int $nper The total number of payment periods
     * @param float $pv Present Value
     * @param int $start The first period in the calculation.
     *                            Payment periods are numbered beginning
with 1.
     * @param int $end the last period in the calculation
     * @param int $type A number 0 or 1 and indicates when payments are
due:
     *                                0 or omitted    At the end of the
period.
     *                                1                At the beginning of
the period.
     *
     * @return float|string
     */
    public static function CUMPRINC($rate, $nper, $pv, $start, $end, $type
= 0)
    {
        $rate = Functions::flattenSingleValue($rate);
        $nper = (int) Functions::flattenSingleValue($nper);
        $pv = Functions::flattenSingleValue($pv);
        $start = (int) Functions::flattenSingleValue($start);
        $end = (int) Functions::flattenSingleValue($end);
        $type = (int) Functions::flattenSingleValue($type);

        // Validate parameters
        if ($type != 0 && $type != 1) {
            return Functions::NAN();
        }
        if ($start < 1 || $start > $end) {
            return Functions::VALUE();
        }

        // Calculate
        $principal = 0;
        for ($per = $start; $per <= $end; ++$per) {
            $principal += self::PPMT($rate, $per, $nper, $pv, 0, $type);
        }

        return $principal;
    }

    /**
     * DB.
     *
     * Returns the depreciation of an asset for a specified period using
the
     * fixed-declining balance method.
     * This form of depreciation is used if you want to get a higher
depreciation value
     * at the beginning of the depreciation (as opposed to linear
depreciation). The
     * depreciation value is reduced with every depreciation period by the
depreciation
     * already deducted from the initial cost.
     *
     * Excel Function:
     *        DB(cost,salvage,life,period[,month])
     *
     * @category Financial Functions
     *
     * @param float $cost Initial cost of the asset
     * @param float $salvage Value at the end of the depreciation.
     *                                (Sometimes called the salvage value
of the asset)
     * @param int $life Number of periods over which the asset is
depreciated.
     *                                (Sometimes called the useful life of
the asset)
     * @param int $period The period for which you want to calculate the
     *                                depreciation. Period must use the
same units as life.
     * @param int $month Number of months in the first year. If month is
omitted,
     *                                it defaults to 12.
     *
     * @return float|string
     */
    public static function DB($cost, $salvage, $life, $period, $month = 12)
    {
        $cost = Functions::flattenSingleValue($cost);
        $salvage = Functions::flattenSingleValue($salvage);
        $life = Functions::flattenSingleValue($life);
        $period = Functions::flattenSingleValue($period);
        $month = Functions::flattenSingleValue($month);

        //    Validate
        if ((is_numeric($cost)) && (is_numeric($salvage))
&& (is_numeric($life)) && (is_numeric($period)) &&
(is_numeric($month))) {
            $cost = (float) $cost;
            $salvage = (float) $salvage;
            $life = (int) $life;
            $period = (int) $period;
            $month = (int) $month;
            if ($cost == 0) {
                return 0.0;
            } elseif (($cost < 0) || (($salvage / $cost) < 0) ||
($life <= 0) || ($period < 1) || ($month < 1)) {
                return Functions::NAN();
            }
            //    Set Fixed Depreciation Rate
            $fixedDepreciationRate = 1 - pow(($salvage / $cost), (1 /
$life));
            $fixedDepreciationRate = round($fixedDepreciationRate, 3);

            //    Loop through each period calculating the depreciation
            $previousDepreciation = 0;
            for ($per = 1; $per <= $period; ++$per) {
                if ($per == 1) {
                    $depreciation = $cost * $fixedDepreciationRate * $month
/ 12;
                } elseif ($per == ($life + 1)) {
                    $depreciation = ($cost - $previousDepreciation) *
$fixedDepreciationRate * (12 - $month) / 12;
                } else {
                    $depreciation = ($cost - $previousDepreciation) *
$fixedDepreciationRate;
                }
                $previousDepreciation += $depreciation;
            }
            if (Functions::getCompatibilityMode() ==
Functions::COMPATIBILITY_GNUMERIC) {
                $depreciation = round($depreciation, 2);
            }

            return $depreciation;
        }

        return Functions::VALUE();
    }

    /**
     * DDB.
     *
     * Returns the depreciation of an asset for a specified period using
the
     * double-declining balance method or some other method you specify.
     *
     * Excel Function:
     *        DDB(cost,salvage,life,period[,factor])
     *
     * @category Financial Functions
     *
     * @param float $cost Initial cost of the asset
     * @param float $salvage Value at the end of the depreciation.
     *                                (Sometimes called the salvage value
of the asset)
     * @param int $life Number of periods over which the asset is
depreciated.
     *                                (Sometimes called the useful life of
the asset)
     * @param int $period The period for which you want to calculate the
     *                                depreciation. Period must use the
same units as life.
     * @param float $factor The rate at which the balance declines.
     *                                If factor is omitted, it is assumed
to be 2 (the
     *                                double-declining balance method).
     *
     * @return float|string
     */
    public static function DDB($cost, $salvage, $life, $period, $factor =
2.0)
    {
        $cost = Functions::flattenSingleValue($cost);
        $salvage = Functions::flattenSingleValue($salvage);
        $life = Functions::flattenSingleValue($life);
        $period = Functions::flattenSingleValue($period);
        $factor = Functions::flattenSingleValue($factor);

        //    Validate
        if ((is_numeric($cost)) && (is_numeric($salvage))
&& (is_numeric($life)) && (is_numeric($period)) &&
(is_numeric($factor))) {
            $cost = (float) $cost;
            $salvage = (float) $salvage;
            $life = (int) $life;
            $period = (int) $period;
            $factor = (float) $factor;
            if (($cost <= 0) || (($salvage / $cost) < 0) || ($life
<= 0) || ($period < 1) || ($factor <= 0.0) || ($period >
$life)) {
                return Functions::NAN();
            }
            //    Set Fixed Depreciation Rate
            $fixedDepreciationRate = 1 - pow(($salvage / $cost), (1 /
$life));
            $fixedDepreciationRate = round($fixedDepreciationRate, 3);

            //    Loop through each period calculating the depreciation
            $previousDepreciation = 0;
            for ($per = 1; $per <= $period; ++$per) {
                $depreciation = min(($cost - $previousDepreciation) *
($factor / $life), ($cost - $salvage - $previousDepreciation));
                $previousDepreciation += $depreciation;
            }
            if (Functions::getCompatibilityMode() ==
Functions::COMPATIBILITY_GNUMERIC) {
                $depreciation = round($depreciation, 2);
            }

            return $depreciation;
        }

        return Functions::VALUE();
    }

    /**
     * DISC.
     *
     * Returns the discount rate for a security.
     *
     * Excel Function:
     *        DISC(settlement,maturity,price,redemption[,basis])
     *
     * @category Financial Functions
     *
     * @param mixed $settlement The security's settlement date.
     *                                The security settlement date is the
date after the issue
     *                                date when the security is traded to
the buyer.
     * @param mixed $maturity The security's maturity date.
     *                                The maturity date is the date when
the security expires.
     * @param int $price The security's price per $100 face value
     * @param int $redemption The security's redemption value per $100
face value
     * @param int $basis The type of day count to use.
     *                                        0 or omitted    US (NASD)
30/360
     *                                        1               
Actual/actual
     *                                        2                Actual/360
     *                                        3                Actual/365
     *                                        4                European
30/360
     *
     * @return float|string
     */
    public static function DISC($settlement, $maturity, $price,
$redemption, $basis = 0)
    {
        $settlement = Functions::flattenSingleValue($settlement);
        $maturity = Functions::flattenSingleValue($maturity);
        $price = Functions::flattenSingleValue($price);
        $redemption = Functions::flattenSingleValue($redemption);
        $basis = Functions::flattenSingleValue($basis);

        //    Validate
        if ((is_numeric($price)) && (is_numeric($redemption))
&& (is_numeric($basis))) {
            $price = (float) $price;
            $redemption = (float) $redemption;
            $basis = (int) $basis;
            if (($price <= 0) || ($redemption <= 0)) {
                return Functions::NAN();
            }
            $daysBetweenSettlementAndMaturity =
DateTime::YEARFRAC($settlement, $maturity, $basis);
            if (!is_numeric($daysBetweenSettlementAndMaturity)) {
                //    return date error
                return $daysBetweenSettlementAndMaturity;
            }

            return (1 - $price / $redemption) /
$daysBetweenSettlementAndMaturity;
        }

        return Functions::VALUE();
    }

    /**
     * DOLLARDE.
     *
     * Converts a dollar price expressed as an integer part and a fraction
     *        part into a dollar price expressed as a decimal number.
     * Fractional dollar numbers are sometimes used for security prices.
     *
     * Excel Function:
     *        DOLLARDE(fractional_dollar,fraction)
     *
     * @category Financial Functions
     *
     * @param float $fractional_dollar Fractional Dollar
     * @param int $fraction Fraction
     *
     * @return float|string
     */
    public static function DOLLARDE($fractional_dollar = null, $fraction =
0)
    {
        $fractional_dollar =
Functions::flattenSingleValue($fractional_dollar);
        $fraction = (int) Functions::flattenSingleValue($fraction);

        // Validate parameters
        if ($fractional_dollar === null || $fraction < 0) {
            return Functions::NAN();
        }
        if ($fraction == 0) {
            return Functions::DIV0();
        }

        $dollars = floor($fractional_dollar);
        $cents = fmod($fractional_dollar, 1);
        $cents /= $fraction;
        $cents *= pow(10, ceil(log10($fraction)));

        return $dollars + $cents;
    }

    /**
     * DOLLARFR.
     *
     * Converts a dollar price expressed as a decimal number into a dollar
price
     *        expressed as a fraction.
     * Fractional dollar numbers are sometimes used for security prices.
     *
     * Excel Function:
     *        DOLLARFR(decimal_dollar,fraction)
     *
     * @category Financial Functions
     *
     * @param float $decimal_dollar Decimal Dollar
     * @param int $fraction Fraction
     *
     * @return float|string
     */
    public static function DOLLARFR($decimal_dollar = null, $fraction = 0)
    {
        $decimal_dollar = Functions::flattenSingleValue($decimal_dollar);
        $fraction = (int) Functions::flattenSingleValue($fraction);

        // Validate parameters
        if ($decimal_dollar === null || $fraction < 0) {
            return Functions::NAN();
        }
        if ($fraction == 0) {
            return Functions::DIV0();
        }

        $dollars = floor($decimal_dollar);
        $cents = fmod($decimal_dollar, 1);
        $cents *= $fraction;
        $cents *= pow(10, -ceil(log10($fraction)));

        return $dollars + $cents;
    }

    /**
     * EFFECT.
     *
     * Returns the effective interest rate given the nominal rate and the
number of
     *        compounding payments per year.
     *
     * Excel Function:
     *        EFFECT(nominal_rate,npery)
     *
     * @category Financial Functions
     *
     * @param float $nominal_rate Nominal interest rate
     * @param int $npery Number of compounding payments per year
     *
     * @return float|string
     */
    public static function EFFECT($nominal_rate = 0, $npery = 0)
    {
        $nominal_rate = Functions::flattenSingleValue($nominal_rate);
        $npery = (int) Functions::flattenSingleValue($npery);

        // Validate parameters
        if ($nominal_rate <= 0 || $npery < 1) {
            return Functions::NAN();
        }

        return pow((1 + $nominal_rate / $npery), $npery) - 1;
    }

    /**
     * FV.
     *
     * Returns the Future Value of a cash flow with constant payments and
interest rate (annuities).
     *
     * Excel Function:
     *        FV(rate,nper,pmt[,pv[,type]])
     *
     * @category Financial Functions
     *
     * @param float $rate The interest rate per period
     * @param int $nper Total number of payment periods in an annuity
     * @param float $pmt The payment made each period: it cannot change
over the
     *                            life of the annuity. Typically, pmt
contains principal
     *                            and interest but no other fees or taxes.
     * @param float $pv present Value, or the lump-sum amount that a series
of
     *                            future payments is worth right now
     * @param int $type A number 0 or 1 and indicates when payments are
due:
     *                                0 or omitted    At the end of the
period.
     *                                1                At the beginning of
the period.
     *
     * @return float|string
     */
    public static function FV($rate = 0, $nper = 0, $pmt = 0, $pv = 0,
$type = 0)
    {
        $rate = Functions::flattenSingleValue($rate);
        $nper = Functions::flattenSingleValue($nper);
        $pmt = Functions::flattenSingleValue($pmt);
        $pv = Functions::flattenSingleValue($pv);
        $type = Functions::flattenSingleValue($type);

        // Validate parameters
        if ($type != 0 && $type != 1) {
            return Functions::NAN();
        }

        // Calculate
        if ($rate !== null && $rate != 0) {
            return -$pv * pow(1 + $rate, $nper) - $pmt * (1 + $rate *
$type) * (pow(1 + $rate, $nper) - 1) / $rate;
        }

        return -$pv - $pmt * $nper;
    }

    /**
     * FVSCHEDULE.
     *
     * Returns the future value of an initial principal after applying a
series of compound interest rates.
     * Use FVSCHEDULE to calculate the future value of an investment with a
variable or adjustable rate.
     *
     * Excel Function:
     *        FVSCHEDULE(principal,schedule)
     *
     * @param float $principal the present value
     * @param float[] $schedule an array of interest rates to apply
     *
     * @return float
     */
    public static function FVSCHEDULE($principal, $schedule)
    {
        $principal = Functions::flattenSingleValue($principal);
        $schedule = Functions::flattenArray($schedule);

        foreach ($schedule as $rate) {
            $principal *= 1 + $rate;
        }

        return $principal;
    }

    /**
     * INTRATE.
     *
     * Returns the interest rate for a fully invested security.
     *
     * Excel Function:
     *        INTRATE(settlement,maturity,investment,redemption[,basis])
     *
     * @param mixed $settlement The security's settlement date.
     *                                The security settlement date is the
date after the issue date when the security is traded to the buyer.
     * @param mixed $maturity The security's maturity date.
     *                                The maturity date is the date when
the security expires.
     * @param int $investment the amount invested in the security
     * @param int $redemption the amount to be received at maturity
     * @param int $basis The type of day count to use.
     *                                        0 or omitted    US (NASD)
30/360
     *                                        1               
Actual/actual
     *                                        2                Actual/360
     *                                        3                Actual/365
     *                                        4                European
30/360
     *
     * @return float|string
     */
    public static function INTRATE($settlement, $maturity, $investment,
$redemption, $basis = 0)
    {
        $settlement = Functions::flattenSingleValue($settlement);
        $maturity = Functions::flattenSingleValue($maturity);
        $investment = Functions::flattenSingleValue($investment);
        $redemption = Functions::flattenSingleValue($redemption);
        $basis = Functions::flattenSingleValue($basis);

        //    Validate
        if ((is_numeric($investment)) && (is_numeric($redemption))
&& (is_numeric($basis))) {
            $investment = (float) $investment;
            $redemption = (float) $redemption;
            $basis = (int) $basis;
            if (($investment <= 0) || ($redemption <= 0)) {
                return Functions::NAN();
            }
            $daysBetweenSettlementAndMaturity =
DateTime::YEARFRAC($settlement, $maturity, $basis);
            if (!is_numeric($daysBetweenSettlementAndMaturity)) {
                //    return date error
                return $daysBetweenSettlementAndMaturity;
            }

            return (($redemption / $investment) - 1) /
($daysBetweenSettlementAndMaturity);
        }

        return Functions::VALUE();
    }

    /**
     * IPMT.
     *
     * Returns the interest payment for a given period for an investment
based on periodic, constant payments and a constant interest rate.
     *
     * Excel Function:
     *        IPMT(rate,per,nper,pv[,fv][,type])
     *
     * @param float $rate Interest rate per period
     * @param int $per Period for which we want to find the interest
     * @param int $nper Number of periods
     * @param float $pv Present Value
     * @param float $fv Future Value
     * @param int $type Payment type: 0 = at the end of each period, 1 = at
the beginning of each period
     *
     * @return float|string
     */
    public static function IPMT($rate, $per, $nper, $pv, $fv = 0, $type =
0)
    {
        $rate = Functions::flattenSingleValue($rate);
        $per = (int) Functions::flattenSingleValue($per);
        $nper = (int) Functions::flattenSingleValue($nper);
        $pv = Functions::flattenSingleValue($pv);
        $fv = Functions::flattenSingleValue($fv);
        $type = (int) Functions::flattenSingleValue($type);

        // Validate parameters
        if ($type != 0 && $type != 1) {
            return Functions::NAN();
        }
        if ($per <= 0 || $per > $nper) {
            return Functions::VALUE();
        }

        // Calculate
        $interestAndPrincipal = self::interestAndPrincipal($rate, $per,
$nper, $pv, $fv, $type);

        return $interestAndPrincipal[0];
    }

    /**
     * IRR.
     *
     * Returns the internal rate of return for a series of cash flows
represented by the numbers in values.
     * These cash flows do not have to be even, as they would be for an
annuity. However, the cash flows must occur
     * at regular intervals, such as monthly or annually. The internal rate
of return is the interest rate received
     * for an investment consisting of payments (negative values) and
income (positive values) that occur at regular
     * periods.
     *
     * Excel Function:
     *        IRR(values[,guess])
     *
     * @param float[] $values An array or a reference to cells that contain
numbers for which you want
     *                                    to calculate the internal rate of
return.
     *                                Values must contain at least one
positive value and one negative value to
     *                                    calculate the internal rate of
return.
     * @param float $guess A number that you guess is close to the result
of IRR
     *
     * @return float|string
     */
    public static function IRR($values, $guess = 0.1)
    {
        if (!is_array($values)) {
            return Functions::VALUE();
        }
        $values = Functions::flattenArray($values);
        $guess = Functions::flattenSingleValue($guess);

        // create an initial range, with a root somewhere between 0 and
guess
        $x1 = 0.0;
        $x2 = $guess;
        $f1 = self::NPV($x1, $values);
        $f2 = self::NPV($x2, $values);
        for ($i = 0; $i < self::FINANCIAL_MAX_ITERATIONS; ++$i) {
            if (($f1 * $f2) < 0.0) {
                break;
            }
            if (abs($f1) < abs($f2)) {
                $f1 = self::NPV($x1 += 1.6 * ($x1 - $x2), $values);
            } else {
                $f2 = self::NPV($x2 += 1.6 * ($x2 - $x1), $values);
            }
        }
        if (($f1 * $f2) > 0.0) {
            return Functions::VALUE();
        }

        $f = self::NPV($x1, $values);
        if ($f < 0.0) {
            $rtb = $x1;
            $dx = $x2 - $x1;
        } else {
            $rtb = $x2;
            $dx = $x1 - $x2;
        }

        for ($i = 0; $i < self::FINANCIAL_MAX_ITERATIONS; ++$i) {
            $dx *= 0.5;
            $x_mid = $rtb + $dx;
            $f_mid = self::NPV($x_mid, $values);
            if ($f_mid <= 0.0) {
                $rtb = $x_mid;
            }
            if ((abs($f_mid) < self::FINANCIAL_PRECISION) || (abs($dx)
< self::FINANCIAL_PRECISION)) {
                return $x_mid;
            }
        }

        return Functions::VALUE();
    }

    /**
     * ISPMT.
     *
     * Returns the interest payment for an investment based on an interest
rate and a constant payment schedule.
     *
     * Excel Function:
     *     =ISPMT(interest_rate, period, number_payments, PV)
     *
     * interest_rate is the interest rate for the investment
     *
     * period is the period to calculate the interest rate.  It must be
betweeen 1 and number_payments.
     *
     * number_payments is the number of payments for the annuity
     *
     * PV is the loan amount or present value of the payments
     */
    public static function ISPMT(...$args)
    {
        // Return value
        $returnValue = 0;

        // Get the parameters
        $aArgs = Functions::flattenArray($args);
        $interestRate = array_shift($aArgs);
        $period = array_shift($aArgs);
        $numberPeriods = array_shift($aArgs);
        $principleRemaining = array_shift($aArgs);

        // Calculate
        $principlePayment = ($principleRemaining * 1.0) / ($numberPeriods *
1.0);
        for ($i = 0; $i <= $period; ++$i) {
            $returnValue = $interestRate * $principleRemaining * -1;
            $principleRemaining -= $principlePayment;
            // principle needs to be 0 after the last payment, don't
let floating point screw it up
            if ($i == $numberPeriods) {
                $returnValue = 0;
            }
        }

        return $returnValue;
    }

    /**
     * MIRR.
     *
     * Returns the modified internal rate of return for a series of
periodic cash flows. MIRR considers both
     *        the cost of the investment and the interest received on
reinvestment of cash.
     *
     * Excel Function:
     *        MIRR(values,finance_rate, reinvestment_rate)
     *
     * @param float[] $values An array or a reference to cells that contain
a series of payments and
     *                                            income occurring at
regular intervals.
     *                                        Payments are negative value,
income is positive values.
     * @param float $finance_rate The interest rate you pay on the money
used in the cash flows
     * @param float $reinvestment_rate The interest rate you receive on the
cash flows as you reinvest them
     *
     * @return float|string Result, or a string containing an error
     */
    public static function MIRR($values, $finance_rate, $reinvestment_rate)
    {
        if (!is_array($values)) {
            return Functions::VALUE();
        }
        $values = Functions::flattenArray($values);
        $finance_rate = Functions::flattenSingleValue($finance_rate);
        $reinvestment_rate =
Functions::flattenSingleValue($reinvestment_rate);
        $n = count($values);

        $rr = 1.0 + $reinvestment_rate;
        $fr = 1.0 + $finance_rate;

        $npv_pos = $npv_neg = 0.0;
        foreach ($values as $i => $v) {
            if ($v >= 0) {
                $npv_pos += $v / pow($rr, $i);
            } else {
                $npv_neg += $v / pow($fr, $i);
            }
        }

        if (($npv_neg == 0) || ($npv_pos == 0) || ($reinvestment_rate <=
-1)) {
            return Functions::VALUE();
        }

        $mirr = pow((-$npv_pos * pow($rr, $n))
                / ($npv_neg * ($rr)), (1.0 / ($n - 1))) - 1.0;

        return is_finite($mirr) ? $mirr : Functions::VALUE();
    }

    /**
     * NOMINAL.
     *
     * Returns the nominal interest rate given the effective rate and the
number of compounding payments per year.
     *
     * @param float $effect_rate Effective interest rate
     * @param int $npery Number of compounding payments per year
     *
     * @return float|string Result, or a string containing an error
     */
    public static function NOMINAL($effect_rate = 0, $npery = 0)
    {
        $effect_rate = Functions::flattenSingleValue($effect_rate);
        $npery = (int) Functions::flattenSingleValue($npery);

        // Validate parameters
        if ($effect_rate <= 0 || $npery < 1) {
            return Functions::NAN();
        }

        // Calculate
        return $npery * (pow($effect_rate + 1, 1 / $npery) - 1);
    }

    /**
     * NPER.
     *
     * Returns the number of periods for a cash flow with constant periodic
payments (annuities), and interest rate.
     *
     * @param float $rate Interest rate per period
     * @param int $pmt Periodic payment (annuity)
     * @param float $pv Present Value
     * @param float $fv Future Value
     * @param int $type Payment type: 0 = at the end of each period, 1 = at
the beginning of each period
     *
     * @return float|string Result, or a string containing an error
     */
    public static function NPER($rate = 0, $pmt = 0, $pv = 0, $fv = 0,
$type = 0)
    {
        $rate = Functions::flattenSingleValue($rate);
        $pmt = Functions::flattenSingleValue($pmt);
        $pv = Functions::flattenSingleValue($pv);
        $fv = Functions::flattenSingleValue($fv);
        $type = Functions::flattenSingleValue($type);

        // Validate parameters
        if ($type != 0 && $type != 1) {
            return Functions::NAN();
        }

        // Calculate
        if ($rate !== null && $rate != 0) {
            if ($pmt == 0 && $pv == 0) {
                return Functions::NAN();
            }

            return log(($pmt * (1 + $rate * $type) / $rate - $fv) / ($pv +
$pmt * (1 + $rate * $type) / $rate)) / log(1 + $rate);
        }
        if ($pmt == 0) {
            return Functions::NAN();
        }

        return (-$pv - $fv) / $pmt;
    }

    /**
     * NPV.
     *
     * Returns the Net Present Value of a cash flow series given a discount
rate.
     *
     * @return float
     */
    public static function NPV(...$args)
    {
        // Return value
        $returnValue = 0;

        // Loop through arguments
        $aArgs = Functions::flattenArray($args);

        // Calculate
        $rate = array_shift($aArgs);
        $countArgs = count($aArgs);
        for ($i = 1; $i <= $countArgs; ++$i) {
            // Is it a numeric value?
            if (is_numeric($aArgs[$i - 1])) {
                $returnValue += $aArgs[$i - 1] / pow(1 + $rate, $i);
            }
        }

        // Return
        return $returnValue;
    }

    /**
     * PDURATION.
     *
     * Calculates the number of periods required for an investment to reach
a specified value.
     *
     * @param float $rate Interest rate per period
     * @param float $pv Present Value
     * @param float $fv Future Value
     *
     * @return float|string Result, or a string containing an error
     */
    public static function PDURATION($rate = 0, $pv = 0, $fv = 0)
    {
        $rate = Functions::flattenSingleValue($rate);
        $pv = Functions::flattenSingleValue($pv);
        $fv = Functions::flattenSingleValue($fv);

        // Validate parameters
        if (!is_numeric($rate) || !is_numeric($pv) || !is_numeric($fv)) {
            return Functions::VALUE();
        } elseif ($rate <= 0.0 || $pv <= 0.0 || $fv <= 0.0) {
            return Functions::NAN();
        }

        return (log($fv) - log($pv)) / log(1 + $rate);
    }

    /**
     * PMT.
     *
     * Returns the constant payment (annuity) for a cash flow with a
constant interest rate.
     *
     * @param float $rate Interest rate per period
     * @param int $nper Number of periods
     * @param float $pv Present Value
     * @param float $fv Future Value
     * @param int $type Payment type: 0 = at the end of each period, 1 = at
the beginning of each period
     *
     * @return float|string Result, or a string containing an error
     */
    public static function PMT($rate = 0, $nper = 0, $pv = 0, $fv = 0,
$type = 0)
    {
        $rate = Functions::flattenSingleValue($rate);
        $nper = Functions::flattenSingleValue($nper);
        $pv = Functions::flattenSingleValue($pv);
        $fv = Functions::flattenSingleValue($fv);
        $type = Functions::flattenSingleValue($type);

        // Validate parameters
        if ($type != 0 && $type != 1) {
            return Functions::NAN();
        }

        // Calculate
        if ($rate !== null && $rate != 0) {
            return (-$fv - $pv * pow(1 + $rate, $nper)) / (1 + $rate *
$type) / ((pow(1 + $rate, $nper) - 1) / $rate);
        }

        return (-$pv - $fv) / $nper;
    }

    /**
     * PPMT.
     *
     * Returns the interest payment for a given period for an investment
based on periodic, constant payments and a constant interest rate.
     *
     * @param float $rate Interest rate per period
     * @param int $per Period for which we want to find the interest
     * @param int $nper Number of periods
     * @param float $pv Present Value
     * @param float $fv Future Value
     * @param int $type Payment type: 0 = at the end of each period, 1 = at
the beginning of each period
     *
     * @return float|string Result, or a string containing an error
     */
    public static function PPMT($rate, $per, $nper, $pv, $fv = 0, $type =
0)
    {
        $rate = Functions::flattenSingleValue($rate);
        $per = (int) Functions::flattenSingleValue($per);
        $nper = (int) Functions::flattenSingleValue($nper);
        $pv = Functions::flattenSingleValue($pv);
        $fv = Functions::flattenSingleValue($fv);
        $type = (int) Functions::flattenSingleValue($type);

        // Validate parameters
        if ($type != 0 && $type != 1) {
            return Functions::NAN();
        }
        if ($per <= 0 || $per > $nper) {
            return Functions::VALUE();
        }

        // Calculate
        $interestAndPrincipal = self::interestAndPrincipal($rate, $per,
$nper, $pv, $fv, $type);

        return $interestAndPrincipal[1];
    }

    public static function PRICE($settlement, $maturity, $rate, $yield,
$redemption, $frequency, $basis = 0)
    {
        $settlement = Functions::flattenSingleValue($settlement);
        $maturity = Functions::flattenSingleValue($maturity);
        $rate = (float) Functions::flattenSingleValue($rate);
        $yield = (float) Functions::flattenSingleValue($yield);
        $redemption = (float) Functions::flattenSingleValue($redemption);
        $frequency = (int) Functions::flattenSingleValue($frequency);
        $basis = ($basis === null) ? 0 : (int)
Functions::flattenSingleValue($basis);

        if (is_string($settlement = DateTime::getDateValue($settlement))) {
            return Functions::VALUE();
        }
        if (is_string($maturity = DateTime::getDateValue($maturity))) {
            return Functions::VALUE();
        }

        if (($settlement > $maturity) ||
            (!self::isValidFrequency($frequency)) ||
            (($basis < 0) || ($basis > 4))) {
            return Functions::NAN();
        }

        $dsc = self::COUPDAYSNC($settlement, $maturity, $frequency,
$basis);
        $e = self::COUPDAYS($settlement, $maturity, $frequency, $basis);
        $n = self::COUPNUM($settlement, $maturity, $frequency, $basis);
        $a = self::COUPDAYBS($settlement, $maturity, $frequency, $basis);

        $baseYF = 1.0 + ($yield / $frequency);
        $rfp = 100 * ($rate / $frequency);
        $de = $dsc / $e;

        $result = $redemption / pow($baseYF, (--$n + $de));
        for ($k = 0; $k <= $n; ++$k) {
            $result += $rfp / (pow($baseYF, ($k + $de)));
        }
        $result -= $rfp * ($a / $e);

        return $result;
    }

    /**
     * PRICEDISC.
     *
     * Returns the price per $100 face value of a discounted security.
     *
     * @param mixed $settlement The security's settlement date.
     *                                The security settlement date is the
date after the issue date when the security is traded to the buyer.
     * @param mixed $maturity The security's maturity date.
     *                                The maturity date is the date when
the security expires.
     * @param int $discount The security's discount rate
     * @param int $redemption The security's redemption value per $100
face value
     * @param int $basis The type of day count to use.
     *                                        0 or omitted    US (NASD)
30/360
     *                                        1               
Actual/actual
     *                                        2                Actual/360
     *                                        3                Actual/365
     *                                        4                European
30/360
     *
     * @return float|string Result, or a string containing an error
     */
    public static function PRICEDISC($settlement, $maturity, $discount,
$redemption, $basis = 0)
    {
        $settlement = Functions::flattenSingleValue($settlement);
        $maturity = Functions::flattenSingleValue($maturity);
        $discount = (float) Functions::flattenSingleValue($discount);
        $redemption = (float) Functions::flattenSingleValue($redemption);
        $basis = (int) Functions::flattenSingleValue($basis);

        //    Validate
        if ((is_numeric($discount)) && (is_numeric($redemption))
&& (is_numeric($basis))) {
            if (($discount <= 0) || ($redemption <= 0)) {
                return Functions::NAN();
            }
            $daysBetweenSettlementAndMaturity =
DateTime::YEARFRAC($settlement, $maturity, $basis);
            if (!is_numeric($daysBetweenSettlementAndMaturity)) {
                //    return date error
                return $daysBetweenSettlementAndMaturity;
            }

            return $redemption * (1 - $discount *
$daysBetweenSettlementAndMaturity);
        }

        return Functions::VALUE();
    }

    /**
     * PRICEMAT.
     *
     * Returns the price per $100 face value of a security that pays
interest at maturity.
     *
     * @param mixed $settlement The security's settlement date.
     *                                The security's settlement date
is the date after the issue date when the security is traded to the buyer.
     * @param mixed $maturity The security's maturity date.
     *                                The maturity date is the date when
the security expires.
     * @param mixed $issue The security's issue date
     * @param int $rate The security's interest rate at date of issue
     * @param int $yield The security's annual yield
     * @param int $basis The type of day count to use.
     *                                        0 or omitted    US (NASD)
30/360
     *                                        1               
Actual/actual
     *                                        2                Actual/360
     *                                        3                Actual/365
     *                                        4                European
30/360
     *
     * @return float|string Result, or a string containing an error
     */
    public static function PRICEMAT($settlement, $maturity, $issue, $rate,
$yield, $basis = 0)
    {
        $settlement = Functions::flattenSingleValue($settlement);
        $maturity = Functions::flattenSingleValue($maturity);
        $issue = Functions::flattenSingleValue($issue);
        $rate = Functions::flattenSingleValue($rate);
        $yield = Functions::flattenSingleValue($yield);
        $basis = (int) Functions::flattenSingleValue($basis);

        //    Validate
        if (is_numeric($rate) && is_numeric($yield)) {
            if (($rate <= 0) || ($yield <= 0)) {
                return Functions::NAN();
            }
            $daysPerYear = self::daysPerYear(DateTime::YEAR($settlement),
$basis);
            if (!is_numeric($daysPerYear)) {
                return $daysPerYear;
            }
            $daysBetweenIssueAndSettlement = DateTime::YEARFRAC($issue,
$settlement, $basis);
            if (!is_numeric($daysBetweenIssueAndSettlement)) {
                //    return date error
                return $daysBetweenIssueAndSettlement;
            }
            $daysBetweenIssueAndSettlement *= $daysPerYear;
            $daysBetweenIssueAndMaturity = DateTime::YEARFRAC($issue,
$maturity, $basis);
            if (!is_numeric($daysBetweenIssueAndMaturity)) {
                //    return date error
                return $daysBetweenIssueAndMaturity;
            }
            $daysBetweenIssueAndMaturity *= $daysPerYear;
            $daysBetweenSettlementAndMaturity =
DateTime::YEARFRAC($settlement, $maturity, $basis);
            if (!is_numeric($daysBetweenSettlementAndMaturity)) {
                //    return date error
                return $daysBetweenSettlementAndMaturity;
            }
            $daysBetweenSettlementAndMaturity *= $daysPerYear;

            return (100 + (($daysBetweenIssueAndMaturity / $daysPerYear) *
$rate * 100)) /
                   (1 + (($daysBetweenSettlementAndMaturity / $daysPerYear)
* $yield)) -
                   (($daysBetweenIssueAndSettlement / $daysPerYear) * $rate
* 100);
        }

        return Functions::VALUE();
    }

    /**
     * PV.
     *
     * Returns the Present Value of a cash flow with constant payments and
interest rate (annuities).
     *
     * @param float $rate Interest rate per period
     * @param int $nper Number of periods
     * @param float $pmt Periodic payment (annuity)
     * @param float $fv Future Value
     * @param int $type Payment type: 0 = at the end of each period, 1 = at
the beginning of each period
     *
     * @return float|string Result, or a string containing an error
     */
    public static function PV($rate = 0, $nper = 0, $pmt = 0, $fv = 0,
$type = 0)
    {
        $rate = Functions::flattenSingleValue($rate);
        $nper = Functions::flattenSingleValue($nper);
        $pmt = Functions::flattenSingleValue($pmt);
        $fv = Functions::flattenSingleValue($fv);
        $type = Functions::flattenSingleValue($type);

        // Validate parameters
        if ($type != 0 && $type != 1) {
            return Functions::NAN();
        }

        // Calculate
        if ($rate !== null && $rate != 0) {
            return (-$pmt * (1 + $rate * $type) * ((pow(1 + $rate, $nper) -
1) / $rate) - $fv) / pow(1 + $rate, $nper);
        }

        return -$fv - $pmt * $nper;
    }

    /**
     * RATE.
     *
     * Returns the interest rate per period of an annuity.
     * RATE is calculated by iteration and can have zero or more solutions.
     * If the successive results of RATE do not converge to within
0.0000001 after 20 iterations,
     * RATE returns the #NUM! error value.
     *
     * Excel Function:
     *        RATE(nper,pmt,pv[,fv[,type[,guess]]])
     *
     * @category Financial Functions
     *
     * @param float $nper The total number of payment periods in an annuity
     * @param float $pmt The payment made each period and cannot change
over the life
     *                                    of the annuity.
     *                                Typically, pmt includes principal and
interest but no other
     *                                    fees or taxes.
     * @param float $pv The present value - the total amount that a series
of future
     *                                    payments is worth now
     * @param float $fv The future value, or a cash balance you want to
attain after
     *                                    the last payment is made. If fv
is omitted, it is assumed
     *                                    to be 0 (the future value of a
loan, for example, is 0).
     * @param int $type A number 0 or 1 and indicates when payments are
due:
     *                                        0 or omitted    At the end of
the period.
     *                                        1                At the
beginning of the period.
     * @param float $guess Your guess for what the rate will be.
     *                                    If you omit guess, it is assumed
to be 10 percent.
     *
     * @return float
     */
    public static function RATE($nper, $pmt, $pv, $fv = 0.0, $type = 0,
$guess = 0.1)
    {
        $nper = (int) Functions::flattenSingleValue($nper);
        $pmt = Functions::flattenSingleValue($pmt);
        $pv = Functions::flattenSingleValue($pv);
        $fv = ($fv === null) ? 0.0 : Functions::flattenSingleValue($fv);
        $type = ($type === null) ? 0 : (int)
Functions::flattenSingleValue($type);
        $guess = ($guess === null) ? 0.1 :
Functions::flattenSingleValue($guess);

        $rate = $guess;
        if (abs($rate) < self::FINANCIAL_PRECISION) {
            $y = $pv * (1 + $nper * $rate) + $pmt * (1 + $rate * $type) *
$nper + $fv;
        } else {
            $f = exp($nper * log(1 + $rate));
            $y = $pv * $f + $pmt * (1 / $rate + $type) * ($f - 1) + $fv;
        }
        $y0 = $pv + $pmt * $nper + $fv;
        $y1 = $pv * $f + $pmt * (1 / $rate + $type) * ($f - 1) + $fv;

        // find root by secant method
        $i = $x0 = 0.0;
        $x1 = $rate;
        while ((abs($y0 - $y1) > self::FINANCIAL_PRECISION) &&
($i < self::FINANCIAL_MAX_ITERATIONS)) {
            $rate = ($y1 * $x0 - $y0 * $x1) / ($y1 - $y0);
            $x0 = $x1;
            $x1 = $rate;
            if (($nper * abs($pmt)) > ($pv - $fv)) {
                $x1 = abs($x1);
            }
            if (abs($rate) < self::FINANCIAL_PRECISION) {
                $y = $pv * (1 + $nper * $rate) + $pmt * (1 + $rate * $type)
* $nper + $fv;
            } else {
                $f = exp($nper * log(1 + $rate));
                $y = $pv * $f + $pmt * (1 / $rate + $type) * ($f - 1) +
$fv;
            }

            $y0 = $y1;
            $y1 = $y;
            ++$i;
        }

        return $rate;
    }

    /**
     * RECEIVED.
     *
     * Returns the price per $100 face value of a discounted security.
     *
     * @param mixed $settlement The security's settlement date.
     *                                The security settlement date is the
date after the issue date when the security is traded to the buyer.
     * @param mixed $maturity The security's maturity date.
     *                                The maturity date is the date when
the security expires.
     * @param int $investment The amount invested in the security
     * @param int $discount The security's discount rate
     * @param int $basis The type of day count to use.
     *                                        0 or omitted    US (NASD)
30/360
     *                                        1               
Actual/actual
     *                                        2                Actual/360
     *                                        3                Actual/365
     *                                        4                European
30/360
     *
     * @return float|string Result, or a string containing an error
     */
    public static function RECEIVED($settlement, $maturity, $investment,
$discount, $basis = 0)
    {
        $settlement = Functions::flattenSingleValue($settlement);
        $maturity = Functions::flattenSingleValue($maturity);
        $investment = (float) Functions::flattenSingleValue($investment);
        $discount = (float) Functions::flattenSingleValue($discount);
        $basis = (int) Functions::flattenSingleValue($basis);

        //    Validate
        if ((is_numeric($investment)) && (is_numeric($discount))
&& (is_numeric($basis))) {
            if (($investment <= 0) || ($discount <= 0)) {
                return Functions::NAN();
            }
            $daysBetweenSettlementAndMaturity =
DateTime::YEARFRAC($settlement, $maturity, $basis);
            if (!is_numeric($daysBetweenSettlementAndMaturity)) {
                //    return date error
                return $daysBetweenSettlementAndMaturity;
            }

            return $investment / (1 - ($discount *
$daysBetweenSettlementAndMaturity));
        }

        return Functions::VALUE();
    }

    /**
     * RRI.
     *
     * Calculates the interest rate required for an investment to grow to a
specified future value .
     *
     * @param float $nper The number of periods over which the investment
is made
     * @param float $pv Present Value
     * @param float $fv Future Value
     *
     * @return float|string Result, or a string containing an error
     */
    public static function RRI($nper = 0, $pv = 0, $fv = 0)
    {
        $nper = Functions::flattenSingleValue($nper);
        $pv = Functions::flattenSingleValue($pv);
        $fv = Functions::flattenSingleValue($fv);

        // Validate parameters
        if (!is_numeric($nper) || !is_numeric($pv) || !is_numeric($fv)) {
            return Functions::VALUE();
        } elseif ($nper <= 0.0 || $pv <= 0.0 || $fv < 0.0) {
            return Functions::NAN();
        }

        return pow($fv / $pv, 1 / $nper) - 1;
    }

    /**
     * SLN.
     *
     * Returns the straight-line depreciation of an asset for one period
     *
     * @param mixed $cost Initial cost of the asset
     * @param mixed $salvage Value at the end of the depreciation
     * @param mixed $life Number of periods over which the asset is
depreciated
     *
     * @return float|string Result, or a string containing an error
     */
    public static function SLN($cost, $salvage, $life)
    {
        $cost = Functions::flattenSingleValue($cost);
        $salvage = Functions::flattenSingleValue($salvage);
        $life = Functions::flattenSingleValue($life);

        // Calculate
        if ((is_numeric($cost)) && (is_numeric($salvage))
&& (is_numeric($life))) {
            if ($life < 0) {
                return Functions::NAN();
            }

            return ($cost - $salvage) / $life;
        }

        return Functions::VALUE();
    }

    /**
     * SYD.
     *
     * Returns the sum-of-years' digits depreciation of an asset for a
specified period.
     *
     * @param mixed $cost Initial cost of the asset
     * @param mixed $salvage Value at the end of the depreciation
     * @param mixed $life Number of periods over which the asset is
depreciated
     * @param mixed $period Period
     *
     * @return float|string Result, or a string containing an error
     */
    public static function SYD($cost, $salvage, $life, $period)
    {
        $cost = Functions::flattenSingleValue($cost);
        $salvage = Functions::flattenSingleValue($salvage);
        $life = Functions::flattenSingleValue($life);
        $period = Functions::flattenSingleValue($period);

        // Calculate
        if ((is_numeric($cost)) && (is_numeric($salvage))
&& (is_numeric($life)) && (is_numeric($period))) {
            if (($life < 1) || ($period > $life)) {
                return Functions::NAN();
            }

            return (($cost - $salvage) * ($life - $period + 1) * 2) /
($life * ($life + 1));
        }

        return Functions::VALUE();
    }

    /**
     * TBILLEQ.
     *
     * Returns the bond-equivalent yield for a Treasury bill.
     *
     * @param mixed $settlement The Treasury bill's settlement date.
     *                                The Treasury bill's settlement
date is the date after the issue date when the Treasury bill is traded to
the buyer.
     * @param mixed $maturity The Treasury bill's maturity date.
     *                                The maturity date is the date when
the Treasury bill expires.
     * @param int $discount The Treasury bill's discount rate
     *
     * @return float|string Result, or a string containing an error
     */
    public static function TBILLEQ($settlement, $maturity, $discount)
    {
        $settlement = Functions::flattenSingleValue($settlement);
        $maturity = Functions::flattenSingleValue($maturity);
        $discount = Functions::flattenSingleValue($discount);

        //    Use TBILLPRICE for validation
        $testValue = self::TBILLPRICE($settlement, $maturity, $discount);
        if (is_string($testValue)) {
            return $testValue;
        }

        if (is_string($maturity = DateTime::getDateValue($maturity))) {
            return Functions::VALUE();
        }

        if (Functions::getCompatibilityMode() ==
Functions::COMPATIBILITY_OPENOFFICE) {
            ++$maturity;
            $daysBetweenSettlementAndMaturity =
DateTime::YEARFRAC($settlement, $maturity) * 360;
        } else {
            $daysBetweenSettlementAndMaturity =
(DateTime::getDateValue($maturity) - DateTime::getDateValue($settlement));
        }

        return (365 * $discount) / (360 - $discount *
$daysBetweenSettlementAndMaturity);
    }

    /**
     * TBILLPRICE.
     *
     * Returns the yield for a Treasury bill.
     *
     * @param mixed $settlement The Treasury bill's settlement date.
     *                                The Treasury bill's settlement
date is the date after the issue date when the Treasury bill is traded to
the buyer.
     * @param mixed $maturity The Treasury bill's maturity date.
     *                                The maturity date is the date when
the Treasury bill expires.
     * @param int $discount The Treasury bill's discount rate
     *
     * @return float|string Result, or a string containing an error
     */
    public static function TBILLPRICE($settlement, $maturity, $discount)
    {
        $settlement = Functions::flattenSingleValue($settlement);
        $maturity = Functions::flattenSingleValue($maturity);
        $discount = Functions::flattenSingleValue($discount);

        if (is_string($maturity = DateTime::getDateValue($maturity))) {
            return Functions::VALUE();
        }

        //    Validate
        if (is_numeric($discount)) {
            if ($discount <= 0) {
                return Functions::NAN();
            }

            if (Functions::getCompatibilityMode() ==
Functions::COMPATIBILITY_OPENOFFICE) {
                ++$maturity;
                $daysBetweenSettlementAndMaturity =
DateTime::YEARFRAC($settlement, $maturity) * 360;
                if (!is_numeric($daysBetweenSettlementAndMaturity)) {
                    //    return date error
                    return $daysBetweenSettlementAndMaturity;
                }
            } else {
                $daysBetweenSettlementAndMaturity =
(DateTime::getDateValue($maturity) - DateTime::getDateValue($settlement));
            }

            if ($daysBetweenSettlementAndMaturity > 360) {
                return Functions::NAN();
            }

            $price = 100 * (1 - (($discount *
$daysBetweenSettlementAndMaturity) / 360));
            if ($price <= 0) {
                return Functions::NAN();
            }

            return $price;
        }

        return Functions::VALUE();
    }

    /**
     * TBILLYIELD.
     *
     * Returns the yield for a Treasury bill.
     *
     * @param mixed $settlement The Treasury bill's settlement date.
     *                                The Treasury bill's settlement
date is the date after the issue date when the Treasury bill is traded to
the buyer.
     * @param mixed $maturity The Treasury bill's maturity date.
     *                                The maturity date is the date when
the Treasury bill expires.
     * @param int $price The Treasury bill's price per $100 face value
     *
     * @return float|mixed|string
     */
    public static function TBILLYIELD($settlement, $maturity, $price)
    {
        $settlement = Functions::flattenSingleValue($settlement);
        $maturity = Functions::flattenSingleValue($maturity);
        $price = Functions::flattenSingleValue($price);

        //    Validate
        if (is_numeric($price)) {
            if ($price <= 0) {
                return Functions::NAN();
            }

            if (Functions::getCompatibilityMode() ==
Functions::COMPATIBILITY_OPENOFFICE) {
                ++$maturity;
                $daysBetweenSettlementAndMaturity =
DateTime::YEARFRAC($settlement, $maturity) * 360;
                if (!is_numeric($daysBetweenSettlementAndMaturity)) {
                    //    return date error
                    return $daysBetweenSettlementAndMaturity;
                }
            } else {
                $daysBetweenSettlementAndMaturity =
(DateTime::getDateValue($maturity) - DateTime::getDateValue($settlement));
            }

            if ($daysBetweenSettlementAndMaturity > 360) {
                return Functions::NAN();
            }

            return ((100 - $price) / $price) * (360 /
$daysBetweenSettlementAndMaturity);
        }

        return Functions::VALUE();
    }

    /**
     * XIRR.
     *
     * Returns the internal rate of return for a schedule of cash flows
that is not necessarily periodic.
     *
     * Excel Function:
     *        =XIRR(values,dates,guess)
     *
     * @param float[] $values     A series of cash flow payments
     *                                The series of values must contain at
least one positive value & one negative value
     * @param mixed[] $dates      A series of payment dates
     *                                The first payment date indicates the
beginning of the schedule of payments
     *                                All other dates must be later than
this date, but they may occur in any order
     * @param float $guess        An optional guess at the expected answer
     *
     * @return float|mixed|string
     */
    public static function XIRR($values, $dates, $guess = 0.1)
    {
        if ((!is_array($values)) && (!is_array($dates))) {
            return Functions::VALUE();
        }
        $values = Functions::flattenArray($values);
        $dates = Functions::flattenArray($dates);
        $guess = Functions::flattenSingleValue($guess);
        if (count($values) != count($dates)) {
            return Functions::NAN();
        }

        $datesCount = count($dates);
        for ($i = 0; $i < $datesCount; ++$i) {
            $dates[$i] = DateTime::getDateValue($dates[$i]);
            if (!is_numeric($dates[$i])) {
                return Functions::VALUE();
            }
        }
        if (min($dates) != $dates[0]) {
            return Functions::NAN();
        }

        // create an initial range, with a root somewhere between 0 and
guess
        $x1 = 0.0;
        $x2 = $guess;
        $f1 = self::XNPV($x1, $values, $dates);
        if (!is_numeric($f1)) {
            return $f1;
        }
        $f2 = self::XNPV($x2, $values, $dates);
        if (!is_numeric($f2)) {
            return $f2;
        }
        for ($i = 0; $i < self::FINANCIAL_MAX_ITERATIONS; ++$i) {
            if (($f1 * $f2) < 0.0) {
                break;
            } elseif (abs($f1) < abs($f2)) {
                $f1 = self::XNPV($x1 += 1.6 * ($x1 - $x2), $values,
$dates);
            } else {
                $f2 = self::XNPV($x2 += 1.6 * ($x2 - $x1), $values,
$dates);
            }
        }
        if (($f1 * $f2) > 0.0) {
            return Functions::NAN();
        }

        $f = self::XNPV($x1, $values, $dates);
        if ($f < 0.0) {
            $rtb = $x1;
            $dx = $x2 - $x1;
        } else {
            $rtb = $x2;
            $dx = $x1 - $x2;
        }

        for ($i = 0; $i < self::FINANCIAL_MAX_ITERATIONS; ++$i) {
            $dx *= 0.5;
            $x_mid = $rtb + $dx;
            $f_mid = self::XNPV($x_mid, $values, $dates);
            if ($f_mid <= 0.0) {
                $rtb = $x_mid;
            }
            if ((abs($f_mid) < self::FINANCIAL_PRECISION) || (abs($dx)
< self::FINANCIAL_PRECISION)) {
                return $x_mid;
            }
        }

        return Functions::VALUE();
    }

    /**
     * XNPV.
     *
     * Returns the net present value for a schedule of cash flows that is
not necessarily periodic.
     * To calculate the net present value for a series of cash flows that
is periodic, use the NPV function.
     *
     * Excel Function:
     *        =XNPV(rate,values,dates)
     *
     * @param float $rate the discount rate to apply to the cash flows
     * @param float[] $values     A series of cash flows that corresponds
to a schedule of payments in dates.
     *                                         The first payment is
optional and corresponds to a cost or payment that occurs at the beginning
of the investment.
     *                                         If the first value is a cost
or payment, it must be a negative value. All succeeding payments are
discounted based on a 365-day year.
     *                                         The series of values must
contain at least one positive value and one negative value.
     * @param mixed[] $dates      A schedule of payment dates that
corresponds to the cash flow payments.
     *                                         The first payment date
indicates the beginning of the schedule of payments.
     *                                         All other dates must be
later than this date, but they may occur in any order.
     *
     * @return float|mixed|string
     */
    public static function XNPV($rate, $values, $dates)
    {
        $rate = Functions::flattenSingleValue($rate);
        if (!is_numeric($rate)) {
            return Functions::VALUE();
        }
        if ((!is_array($values)) || (!is_array($dates))) {
            return Functions::VALUE();
        }
        $values = Functions::flattenArray($values);
        $dates = Functions::flattenArray($dates);
        $valCount = count($values);
        if ($valCount != count($dates)) {
            return Functions::NAN();
        }
        if ((min($values) > 0) || (max($values) < 0)) {
            return Functions::NAN();
        }

        $xnpv = 0.0;
        for ($i = 0; $i < $valCount; ++$i) {
            if (!is_numeric($values[$i])) {
                return Functions::VALUE();
            }
            $xnpv += $values[$i] / pow(1 + $rate,
DateTime::DATEDIF($dates[0], $dates[$i], 'd') / 365);
        }

        return (is_finite($xnpv)) ? $xnpv : Functions::VALUE();
    }

    /**
     * YIELDDISC.
     *
     * Returns the annual yield of a security that pays interest at
maturity.
     *
     * @param mixed $settlement The security's settlement date.
     *                                    The security's settlement
date is the date after the issue date when the security is traded to the
buyer.
     * @param mixed $maturity The security's maturity date.
     *                                    The maturity date is the date
when the security expires.
     * @param int $price The security's price per $100 face value
     * @param int $redemption The security's redemption value per $100
face value
     * @param int $basis The type of day count to use.
     *                                        0 or omitted    US (NASD)
30/360
     *                                        1               
Actual/actual
     *                                        2                Actual/360
     *                                        3                Actual/365
     *                                        4                European
30/360
     *
     * @return float|string Result, or a string containing an error
     */
    public static function YIELDDISC($settlement, $maturity, $price,
$redemption, $basis = 0)
    {
        $settlement = Functions::flattenSingleValue($settlement);
        $maturity = Functions::flattenSingleValue($maturity);
        $price = Functions::flattenSingleValue($price);
        $redemption = Functions::flattenSingleValue($redemption);
        $basis = (int) Functions::flattenSingleValue($basis);

        //    Validate
        if (is_numeric($price) && is_numeric($redemption)) {
            if (($price <= 0) || ($redemption <= 0)) {
                return Functions::NAN();
            }
            $daysPerYear = self::daysPerYear(DateTime::YEAR($settlement),
$basis);
            if (!is_numeric($daysPerYear)) {
                return $daysPerYear;
            }
            $daysBetweenSettlementAndMaturity =
DateTime::YEARFRAC($settlement, $maturity, $basis);
            if (!is_numeric($daysBetweenSettlementAndMaturity)) {
                //    return date error
                return $daysBetweenSettlementAndMaturity;
            }
            $daysBetweenSettlementAndMaturity *= $daysPerYear;

            return (($redemption - $price) / $price) * ($daysPerYear /
$daysBetweenSettlementAndMaturity);
        }

        return Functions::VALUE();
    }

    /**
     * YIELDMAT.
     *
     * Returns the annual yield of a security that pays interest at
maturity.
     *
     * @param mixed $settlement The security's settlement date.
     *                                   The security's settlement
date is the date after the issue date when the security is traded to the
buyer.
     * @param mixed $maturity The security's maturity date.
     *                                   The maturity date is the date when
the security expires.
     * @param mixed $issue The security's issue date
     * @param int $rate The security's interest rate at date of issue
     * @param int $price The security's price per $100 face value
     * @param int $basis The type of day count to use.
     *                                        0 or omitted    US (NASD)
30/360
     *                                        1               
Actual/actual
     *                                        2                Actual/360
     *                                        3                Actual/365
     *                                        4                European
30/360
     *
     * @return float|string Result, or a string containing an error
     */
    public static function YIELDMAT($settlement, $maturity, $issue, $rate,
$price, $basis = 0)
    {
        $settlement = Functions::flattenSingleValue($settlement);
        $maturity = Functions::flattenSingleValue($maturity);
        $issue = Functions::flattenSingleValue($issue);
        $rate = Functions::flattenSingleValue($rate);
        $price = Functions::flattenSingleValue($price);
        $basis = (int) Functions::flattenSingleValue($basis);

        //    Validate
        if (is_numeric($rate) && is_numeric($price)) {
            if (($rate <= 0) || ($price <= 0)) {
                return Functions::NAN();
            }
            $daysPerYear = self::daysPerYear(DateTime::YEAR($settlement),
$basis);
            if (!is_numeric($daysPerYear)) {
                return $daysPerYear;
            }
            $daysBetweenIssueAndSettlement = DateTime::YEARFRAC($issue,
$settlement, $basis);
            if (!is_numeric($daysBetweenIssueAndSettlement)) {
                //    return date error
                return $daysBetweenIssueAndSettlement;
            }
            $daysBetweenIssueAndSettlement *= $daysPerYear;
            $daysBetweenIssueAndMaturity = DateTime::YEARFRAC($issue,
$maturity, $basis);
            if (!is_numeric($daysBetweenIssueAndMaturity)) {
                //    return date error
                return $daysBetweenIssueAndMaturity;
            }
            $daysBetweenIssueAndMaturity *= $daysPerYear;
            $daysBetweenSettlementAndMaturity =
DateTime::YEARFRAC($settlement, $maturity, $basis);
            if (!is_numeric($daysBetweenSettlementAndMaturity)) {
                //    return date error
                return $daysBetweenSettlementAndMaturity;
            }
            $daysBetweenSettlementAndMaturity *= $daysPerYear;

            return ((1 + (($daysBetweenIssueAndMaturity / $daysPerYear) *
$rate) - (($price / 100) + (($daysBetweenIssueAndSettlement / $daysPerYear)
* $rate))) /
                   (($price / 100) + (($daysBetweenIssueAndSettlement /
$daysPerYear) * $rate))) *
                   ($daysPerYear / $daysBetweenSettlementAndMaturity);
        }

        return Functions::VALUE();
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/FormulaParser.php000064400000053701151165413710024274
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Calculation;

/**
 * PARTLY BASED ON:
 * Copyright (c) 2007 E. W. Bachtal, Inc.
 *
 * Permission is hereby granted, free of charge, to any person obtaining a
copy of this software
 * and associated documentation files (the "Software"), to deal
in the Software without restriction,
 * including without limitation the rights to use, copy, modify, merge,
publish, distribute, sublicense,
 * and/or sell copies of the Software, and to permit persons to whom the
Software is furnished to do so,
 * subject to the following conditions:
 *
 * The above copyright notice and this permission notice shall be included
in all copies or substantial
 * portions of the Software.
 *
 * The software is provided "as is", without warranty of any
kind, express or implied, including but not
 * limited to the warranties of merchantability, fitness for a particular
purpose and noninfringement. In
 * no event shall the authors or copyright holders be liable for any claim,
damages or other liability,
 * whether in an action of contract, tort or otherwise, arising from, out
of or in connection with the
 * software or the use or other dealings in the software.
 *
 * https://ewbi.blogs.com/develops/2007/03/excel_formula_p.html
 * https://ewbi.blogs.com/develops/2004/12/excel_formula_p.html
 */
class FormulaParser
{
    // Character constants
    const QUOTE_DOUBLE = '"';
    const QUOTE_SINGLE = '\'';
    const BRACKET_CLOSE = ']';
    const BRACKET_OPEN = '[';
    const BRACE_OPEN = '{';
    const BRACE_CLOSE = '}';
    const PAREN_OPEN = '(';
    const PAREN_CLOSE = ')';
    const SEMICOLON = ';';
    const WHITESPACE = ' ';
    const COMMA = ',';
    const ERROR_START = '#';

    const OPERATORS_SN = '+-';
    const OPERATORS_INFIX = '+-*/^&=><';
    const OPERATORS_POSTFIX = '%';

    /**
     * Formula.
     *
     * @var string
     */
    private $formula;

    /**
     * Tokens.
     *
     * @var FormulaToken[]
     */
    private $tokens = [];

    /**
     * Create a new FormulaParser.
     *
     * @param string $pFormula Formula to parse
     *
     * @throws Exception
     */
    public function __construct($pFormula = '')
    {
        // Check parameters
        if ($pFormula === null) {
            throw new Exception('Invalid parameter passed:
formula');
        }

        // Initialise values
        $this->formula = trim($pFormula);
        // Parse!
        $this->parseToTokens();
    }

    /**
     * Get Formula.
     *
     * @return string
     */
    public function getFormula()
    {
        return $this->formula;
    }

    /**
     * Get Token.
     *
     * @param int $pId Token id
     *
     * @throws Exception
     *
     * @return string
     */
    public function getToken($pId = 0)
    {
        if (isset($this->tokens[$pId])) {
            return $this->tokens[$pId];
        }

        throw new Exception("Token with id $pId does not
exist.");
    }

    /**
     * Get Token count.
     *
     * @return int
     */
    public function getTokenCount()
    {
        return count($this->tokens);
    }

    /**
     * Get Tokens.
     *
     * @return FormulaToken[]
     */
    public function getTokens()
    {
        return $this->tokens;
    }

    /**
     * Parse to tokens.
     */
    private function parseToTokens()
    {
        // No attempt is made to verify formulas; assumes formulas are
derived from Excel, where
        // they can only exist if valid; stack overflows/underflows sunk as
nulls without exceptions.

        // Check if the formula has a valid starting =
        $formulaLength = strlen($this->formula);
        if ($formulaLength < 2 || $this->formula[0] != '=')
{
            return;
        }

        // Helper variables
        $tokens1 = $tokens2 = $stack = [];
        $inString = $inPath = $inRange = $inError = false;
        $token = $previousToken = $nextToken = null;

        $index = 1;
        $value = '';

        $ERRORS = ['#NULL!', '#DIV/0!',
'#VALUE!', '#REF!', '#NAME?',
'#NUM!', '#N/A'];
        $COMPARATORS_MULTI = ['>=', '<=',
'<>'];

        while ($index < $formulaLength) {
            // state-dependent character evaluation (order is important)

            // double-quoted strings
            // embeds are doubled
            // end marks token
            if ($inString) {
                if ($this->formula[$index] == self::QUOTE_DOUBLE) {
                    if ((($index + 2) <= $formulaLength) &&
($this->formula[$index + 1] == self::QUOTE_DOUBLE)) {
                        $value .= self::QUOTE_DOUBLE;
                        ++$index;
                    } else {
                        $inString = false;
                        $tokens1[] = new FormulaToken($value,
FormulaToken::TOKEN_TYPE_OPERAND, FormulaToken::TOKEN_SUBTYPE_TEXT);
                        $value = '';
                    }
                } else {
                    $value .= $this->formula[$index];
                }
                ++$index;

                continue;
            }

            // single-quoted strings (links)
            // embeds are double
            // end does not mark a token
            if ($inPath) {
                if ($this->formula[$index] == self::QUOTE_SINGLE) {
                    if ((($index + 2) <= $formulaLength) &&
($this->formula[$index + 1] == self::QUOTE_SINGLE)) {
                        $value .= self::QUOTE_SINGLE;
                        ++$index;
                    } else {
                        $inPath = false;
                    }
                } else {
                    $value .= $this->formula[$index];
                }
                ++$index;

                continue;
            }

            // bracked strings (R1C1 range index or linked workbook name)
            // no embeds (changed to "()" by Excel)
            // end does not mark a token
            if ($inRange) {
                if ($this->formula[$index] == self::BRACKET_CLOSE) {
                    $inRange = false;
                }
                $value .= $this->formula[$index];
                ++$index;

                continue;
            }

            // error values
            // end marks a token, determined from absolute list of values
            if ($inError) {
                $value .= $this->formula[$index];
                ++$index;
                if (in_array($value, $ERRORS)) {
                    $inError = false;
                    $tokens1[] = new FormulaToken($value,
FormulaToken::TOKEN_TYPE_OPERAND, FormulaToken::TOKEN_SUBTYPE_ERROR);
                    $value = '';
                }

                continue;
            }

            // scientific notation check
            if (strpos(self::OPERATORS_SN, $this->formula[$index]) !==
false) {
                if (strlen($value) > 1) {
                    if (preg_match('/^[1-9]{1}(\\.\\d+)?E{1}$/',
$this->formula[$index]) != 0) {
                        $value .= $this->formula[$index];
                        ++$index;

                        continue;
                    }
                }
            }

            // independent character evaluation (order not important)

            // establish state-dependent character evaluations
            if ($this->formula[$index] == self::QUOTE_DOUBLE) {
                if (strlen($value) > 0) {
                    // unexpected
                    $tokens1[] = new FormulaToken($value,
FormulaToken::TOKEN_TYPE_UNKNOWN);
                    $value = '';
                }
                $inString = true;
                ++$index;

                continue;
            }

            if ($this->formula[$index] == self::QUOTE_SINGLE) {
                if (strlen($value) > 0) {
                    // unexpected
                    $tokens1[] = new FormulaToken($value,
FormulaToken::TOKEN_TYPE_UNKNOWN);
                    $value = '';
                }
                $inPath = true;
                ++$index;

                continue;
            }

            if ($this->formula[$index] == self::BRACKET_OPEN) {
                $inRange = true;
                $value .= self::BRACKET_OPEN;
                ++$index;

                continue;
            }

            if ($this->formula[$index] == self::ERROR_START) {
                if (strlen($value) > 0) {
                    // unexpected
                    $tokens1[] = new FormulaToken($value,
FormulaToken::TOKEN_TYPE_UNKNOWN);
                    $value = '';
                }
                $inError = true;
                $value .= self::ERROR_START;
                ++$index;

                continue;
            }

            // mark start and end of arrays and array rows
            if ($this->formula[$index] == self::BRACE_OPEN) {
                if (strlen($value) > 0) {
                    // unexpected
                    $tokens1[] = new FormulaToken($value,
FormulaToken::TOKEN_TYPE_UNKNOWN);
                    $value = '';
                }

                $tmp = new FormulaToken('ARRAY',
FormulaToken::TOKEN_TYPE_FUNCTION, FormulaToken::TOKEN_SUBTYPE_START);
                $tokens1[] = $tmp;
                $stack[] = clone $tmp;

                $tmp = new FormulaToken('ARRAYROW',
FormulaToken::TOKEN_TYPE_FUNCTION, FormulaToken::TOKEN_SUBTYPE_START);
                $tokens1[] = $tmp;
                $stack[] = clone $tmp;

                ++$index;

                continue;
            }

            if ($this->formula[$index] == self::SEMICOLON) {
                if (strlen($value) > 0) {
                    $tokens1[] = new FormulaToken($value,
FormulaToken::TOKEN_TYPE_OPERAND);
                    $value = '';
                }

                $tmp = array_pop($stack);
                $tmp->setValue('');
                $tmp->setTokenSubType(FormulaToken::TOKEN_SUBTYPE_STOP);
                $tokens1[] = $tmp;

                $tmp = new FormulaToken(',',
FormulaToken::TOKEN_TYPE_ARGUMENT);
                $tokens1[] = $tmp;

                $tmp = new FormulaToken('ARRAYROW',
FormulaToken::TOKEN_TYPE_FUNCTION, FormulaToken::TOKEN_SUBTYPE_START);
                $tokens1[] = $tmp;
                $stack[] = clone $tmp;

                ++$index;

                continue;
            }

            if ($this->formula[$index] == self::BRACE_CLOSE) {
                if (strlen($value) > 0) {
                    $tokens1[] = new FormulaToken($value,
FormulaToken::TOKEN_TYPE_OPERAND);
                    $value = '';
                }

                $tmp = array_pop($stack);
                $tmp->setValue('');
                $tmp->setTokenSubType(FormulaToken::TOKEN_SUBTYPE_STOP);
                $tokens1[] = $tmp;

                $tmp = array_pop($stack);
                $tmp->setValue('');
                $tmp->setTokenSubType(FormulaToken::TOKEN_SUBTYPE_STOP);
                $tokens1[] = $tmp;

                ++$index;

                continue;
            }

            // trim white-space
            if ($this->formula[$index] == self::WHITESPACE) {
                if (strlen($value) > 0) {
                    $tokens1[] = new FormulaToken($value,
FormulaToken::TOKEN_TYPE_OPERAND);
                    $value = '';
                }
                $tokens1[] = new FormulaToken('',
FormulaToken::TOKEN_TYPE_WHITESPACE);
                ++$index;
                while (($this->formula[$index] == self::WHITESPACE)
&& ($index < $formulaLength)) {
                    ++$index;
                }

                continue;
            }

            // multi-character comparators
            if (($index + 2) <= $formulaLength) {
                if (in_array(substr($this->formula, $index, 2),
$COMPARATORS_MULTI)) {
                    if (strlen($value) > 0) {
                        $tokens1[] = new FormulaToken($value,
FormulaToken::TOKEN_TYPE_OPERAND);
                        $value = '';
                    }
                    $tokens1[] = new FormulaToken(substr($this->formula,
$index, 2), FormulaToken::TOKEN_TYPE_OPERATORINFIX,
FormulaToken::TOKEN_SUBTYPE_LOGICAL);
                    $index += 2;

                    continue;
                }
            }

            // standard infix operators
            if (strpos(self::OPERATORS_INFIX, $this->formula[$index])
!== false) {
                if (strlen($value) > 0) {
                    $tokens1[] = new FormulaToken($value,
FormulaToken::TOKEN_TYPE_OPERAND);
                    $value = '';
                }
                $tokens1[] = new FormulaToken($this->formula[$index],
FormulaToken::TOKEN_TYPE_OPERATORINFIX);
                ++$index;

                continue;
            }

            // standard postfix operators (only one)
            if (strpos(self::OPERATORS_POSTFIX, $this->formula[$index])
!== false) {
                if (strlen($value) > 0) {
                    $tokens1[] = new FormulaToken($value,
FormulaToken::TOKEN_TYPE_OPERAND);
                    $value = '';
                }
                $tokens1[] = new FormulaToken($this->formula[$index],
FormulaToken::TOKEN_TYPE_OPERATORPOSTFIX);
                ++$index;

                continue;
            }

            // start subexpression or function
            if ($this->formula[$index] == self::PAREN_OPEN) {
                if (strlen($value) > 0) {
                    $tmp = new FormulaToken($value,
FormulaToken::TOKEN_TYPE_FUNCTION, FormulaToken::TOKEN_SUBTYPE_START);
                    $tokens1[] = $tmp;
                    $stack[] = clone $tmp;
                    $value = '';
                } else {
                    $tmp = new FormulaToken('',
FormulaToken::TOKEN_TYPE_SUBEXPRESSION, FormulaToken::TOKEN_SUBTYPE_START);
                    $tokens1[] = $tmp;
                    $stack[] = clone $tmp;
                }
                ++$index;

                continue;
            }

            // function, subexpression, or array parameters, or operand
unions
            if ($this->formula[$index] == self::COMMA) {
                if (strlen($value) > 0) {
                    $tokens1[] = new FormulaToken($value,
FormulaToken::TOKEN_TYPE_OPERAND);
                    $value = '';
                }

                $tmp = array_pop($stack);
                $tmp->setValue('');
                $tmp->setTokenSubType(FormulaToken::TOKEN_SUBTYPE_STOP);
                $stack[] = $tmp;

                if ($tmp->getTokenType() ==
FormulaToken::TOKEN_TYPE_FUNCTION) {
                    $tokens1[] = new FormulaToken(',',
FormulaToken::TOKEN_TYPE_OPERATORINFIX, FormulaToken::TOKEN_SUBTYPE_UNION);
                } else {
                    $tokens1[] = new FormulaToken(',',
FormulaToken::TOKEN_TYPE_ARGUMENT);
                }
                ++$index;

                continue;
            }

            // stop subexpression
            if ($this->formula[$index] == self::PAREN_CLOSE) {
                if (strlen($value) > 0) {
                    $tokens1[] = new FormulaToken($value,
FormulaToken::TOKEN_TYPE_OPERAND);
                    $value = '';
                }

                $tmp = array_pop($stack);
                $tmp->setValue('');
                $tmp->setTokenSubType(FormulaToken::TOKEN_SUBTYPE_STOP);
                $tokens1[] = $tmp;

                ++$index;

                continue;
            }

            // token accumulation
            $value .= $this->formula[$index];
            ++$index;
        }

        // dump remaining accumulation
        if (strlen($value) > 0) {
            $tokens1[] = new FormulaToken($value,
FormulaToken::TOKEN_TYPE_OPERAND);
        }

        // move tokenList to new set, excluding unnecessary white-space
tokens and converting necessary ones to intersections
        $tokenCount = count($tokens1);
        for ($i = 0; $i < $tokenCount; ++$i) {
            $token = $tokens1[$i];
            if (isset($tokens1[$i - 1])) {
                $previousToken = $tokens1[$i - 1];
            } else {
                $previousToken = null;
            }
            if (isset($tokens1[$i + 1])) {
                $nextToken = $tokens1[$i + 1];
            } else {
                $nextToken = null;
            }

            if ($token === null) {
                continue;
            }

            if ($token->getTokenType() !=
FormulaToken::TOKEN_TYPE_WHITESPACE) {
                $tokens2[] = $token;

                continue;
            }

            if ($previousToken === null) {
                continue;
            }

            if (!(
                (($previousToken->getTokenType() ==
FormulaToken::TOKEN_TYPE_FUNCTION) &&
($previousToken->getTokenSubType() == FormulaToken::TOKEN_SUBTYPE_STOP))
||
                (($previousToken->getTokenType() ==
FormulaToken::TOKEN_TYPE_SUBEXPRESSION) &&
($previousToken->getTokenSubType() == FormulaToken::TOKEN_SUBTYPE_STOP))
||
                ($previousToken->getTokenType() ==
FormulaToken::TOKEN_TYPE_OPERAND)
            )) {
                continue;
            }

            if ($nextToken === null) {
                continue;
            }

            if (!(
                (($nextToken->getTokenType() ==
FormulaToken::TOKEN_TYPE_FUNCTION) &&
($nextToken->getTokenSubType() == FormulaToken::TOKEN_SUBTYPE_START)) ||
                (($nextToken->getTokenType() ==
FormulaToken::TOKEN_TYPE_SUBEXPRESSION) &&
($nextToken->getTokenSubType() == FormulaToken::TOKEN_SUBTYPE_START)) ||
                ($nextToken->getTokenType() ==
FormulaToken::TOKEN_TYPE_OPERAND)
            )) {
                continue;
            }

            $tokens2[] = new FormulaToken($value,
FormulaToken::TOKEN_TYPE_OPERATORINFIX,
FormulaToken::TOKEN_SUBTYPE_INTERSECTION);
        }

        // move tokens to final list, switching infix "-"
operators to prefix when appropriate, switching infix "+"
operators
        // to noop when appropriate, identifying operand and infix-operator
subtypes, and pulling "@" from function names
        $this->tokens = [];

        $tokenCount = count($tokens2);
        for ($i = 0; $i < $tokenCount; ++$i) {
            $token = $tokens2[$i];
            if (isset($tokens2[$i - 1])) {
                $previousToken = $tokens2[$i - 1];
            } else {
                $previousToken = null;
            }
            if (isset($tokens2[$i + 1])) {
                $nextToken = $tokens2[$i + 1];
            } else {
                $nextToken = null;
            }

            if ($token === null) {
                continue;
            }

            if ($token->getTokenType() ==
FormulaToken::TOKEN_TYPE_OPERATORINFIX && $token->getValue() ==
'-') {
                if ($i == 0) {
                   
$token->setTokenType(FormulaToken::TOKEN_TYPE_OPERATORPREFIX);
                } elseif ((($previousToken->getTokenType() ==
FormulaToken::TOKEN_TYPE_FUNCTION) &&
                        ($previousToken->getTokenSubType() ==
FormulaToken::TOKEN_SUBTYPE_STOP)) ||
                    (($previousToken->getTokenType() ==
FormulaToken::TOKEN_TYPE_SUBEXPRESSION) &&
                        ($previousToken->getTokenSubType() ==
FormulaToken::TOKEN_SUBTYPE_STOP)) ||
                    ($previousToken->getTokenType() ==
FormulaToken::TOKEN_TYPE_OPERATORPOSTFIX) ||
                    ($previousToken->getTokenType() ==
FormulaToken::TOKEN_TYPE_OPERAND)) {
                   
$token->setTokenSubType(FormulaToken::TOKEN_SUBTYPE_MATH);
                } else {
                   
$token->setTokenType(FormulaToken::TOKEN_TYPE_OPERATORPREFIX);
                }

                $this->tokens[] = $token;

                continue;
            }

            if ($token->getTokenType() ==
FormulaToken::TOKEN_TYPE_OPERATORINFIX && $token->getValue() ==
'+') {
                if ($i == 0) {
                    continue;
                } elseif ((($previousToken->getTokenType() ==
FormulaToken::TOKEN_TYPE_FUNCTION) &&
                        ($previousToken->getTokenSubType() ==
FormulaToken::TOKEN_SUBTYPE_STOP)) ||
                    (($previousToken->getTokenType() ==
FormulaToken::TOKEN_TYPE_SUBEXPRESSION) &&
                        ($previousToken->getTokenSubType() ==
FormulaToken::TOKEN_SUBTYPE_STOP)) ||
                    ($previousToken->getTokenType() ==
FormulaToken::TOKEN_TYPE_OPERATORPOSTFIX) ||
                    ($previousToken->getTokenType() ==
FormulaToken::TOKEN_TYPE_OPERAND)) {
                   
$token->setTokenSubType(FormulaToken::TOKEN_SUBTYPE_MATH);
                } else {
                    continue;
                }

                $this->tokens[] = $token;

                continue;
            }

            if ($token->getTokenType() ==
FormulaToken::TOKEN_TYPE_OPERATORINFIX &&
                $token->getTokenSubType() ==
FormulaToken::TOKEN_SUBTYPE_NOTHING) {
                if (strpos('<>=',
substr($token->getValue(), 0, 1)) !== false) {
                   
$token->setTokenSubType(FormulaToken::TOKEN_SUBTYPE_LOGICAL);
                } elseif ($token->getValue() == '&') {
                   
$token->setTokenSubType(FormulaToken::TOKEN_SUBTYPE_CONCATENATION);
                } else {
                   
$token->setTokenSubType(FormulaToken::TOKEN_SUBTYPE_MATH);
                }

                $this->tokens[] = $token;

                continue;
            }

            if ($token->getTokenType() ==
FormulaToken::TOKEN_TYPE_OPERAND &&
                $token->getTokenSubType() ==
FormulaToken::TOKEN_SUBTYPE_NOTHING) {
                if (!is_numeric($token->getValue())) {
                    if (strtoupper($token->getValue()) ==
'TRUE' || strtoupper($token->getValue()) == 'FALSE')
{
                       
$token->setTokenSubType(FormulaToken::TOKEN_SUBTYPE_LOGICAL);
                    } else {
                       
$token->setTokenSubType(FormulaToken::TOKEN_SUBTYPE_RANGE);
                    }
                } else {
                   
$token->setTokenSubType(FormulaToken::TOKEN_SUBTYPE_NUMBER);
                }

                $this->tokens[] = $token;

                continue;
            }

            if ($token->getTokenType() ==
FormulaToken::TOKEN_TYPE_FUNCTION) {
                if (strlen($token->getValue()) > 0) {
                    if (substr($token->getValue(), 0, 1) ==
'@') {
                        $token->setValue(substr($token->getValue(),
1));
                    }
                }
            }

            $this->tokens[] = $token;
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/FormulaToken.php000064400000010306151165413710024112
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Calculation;

/**
 * PARTLY BASED ON:
 * Copyright (c) 2007 E. W. Bachtal, Inc.
 *
 * Permission is hereby granted, free of charge, to any person obtaining a
copy of this software
 * and associated documentation files (the "Software"), to deal
in the Software without restriction,
 * including without limitation the rights to use, copy, modify, merge,
publish, distribute, sublicense,
 * and/or sell copies of the Software, and to permit persons to whom the
Software is furnished to do so,
 * subject to the following conditions:
 *
 * The above copyright notice and this permission notice shall be included
in all copies or substantial
 * portions of the Software.
 *
 * The software is provided "as is", without warranty of any
kind, express or implied, including but not
 * limited to the warranties of merchantability, fitness for a particular
purpose and noninfringement. In
 * no event shall the authors or copyright holders be liable for any claim,
damages or other liability,
 * whether in an action of contract, tort or otherwise, arising from, out
of or in connection with the
 * software or the use or other dealings in the software.
 *
 * https://ewbi.blogs.com/develops/2007/03/excel_formula_p.html
 * https://ewbi.blogs.com/develops/2004/12/excel_formula_p.html
 */
class FormulaToken
{
    // Token types
    const TOKEN_TYPE_NOOP = 'Noop';
    const TOKEN_TYPE_OPERAND = 'Operand';
    const TOKEN_TYPE_FUNCTION = 'Function';
    const TOKEN_TYPE_SUBEXPRESSION = 'Subexpression';
    const TOKEN_TYPE_ARGUMENT = 'Argument';
    const TOKEN_TYPE_OPERATORPREFIX = 'OperatorPrefix';
    const TOKEN_TYPE_OPERATORINFIX = 'OperatorInfix';
    const TOKEN_TYPE_OPERATORPOSTFIX = 'OperatorPostfix';
    const TOKEN_TYPE_WHITESPACE = 'Whitespace';
    const TOKEN_TYPE_UNKNOWN = 'Unknown';

    // Token subtypes
    const TOKEN_SUBTYPE_NOTHING = 'Nothing';
    const TOKEN_SUBTYPE_START = 'Start';
    const TOKEN_SUBTYPE_STOP = 'Stop';
    const TOKEN_SUBTYPE_TEXT = 'Text';
    const TOKEN_SUBTYPE_NUMBER = 'Number';
    const TOKEN_SUBTYPE_LOGICAL = 'Logical';
    const TOKEN_SUBTYPE_ERROR = 'Error';
    const TOKEN_SUBTYPE_RANGE = 'Range';
    const TOKEN_SUBTYPE_MATH = 'Math';
    const TOKEN_SUBTYPE_CONCATENATION = 'Concatenation';
    const TOKEN_SUBTYPE_INTERSECTION = 'Intersection';
    const TOKEN_SUBTYPE_UNION = 'Union';

    /**
     * Value.
     *
     * @var string
     */
    private $value;

    /**
     * Token Type (represented by TOKEN_TYPE_*).
     *
     * @var string
     */
    private $tokenType;

    /**
     * Token SubType (represented by TOKEN_SUBTYPE_*).
     *
     * @var string
     */
    private $tokenSubType;

    /**
     * Create a new FormulaToken.
     *
     * @param string $pValue
     * @param string $pTokenType Token type (represented by TOKEN_TYPE_*)
     * @param string $pTokenSubType Token Subtype (represented by
TOKEN_SUBTYPE_*)
     */
    public function __construct($pValue, $pTokenType =
self::TOKEN_TYPE_UNKNOWN, $pTokenSubType = self::TOKEN_SUBTYPE_NOTHING)
    {
        // Initialise values
        $this->value = $pValue;
        $this->tokenType = $pTokenType;
        $this->tokenSubType = $pTokenSubType;
    }

    /**
     * Get Value.
     *
     * @return string
     */
    public function getValue()
    {
        return $this->value;
    }

    /**
     * Set Value.
     *
     * @param string $value
     */
    public function setValue($value)
    {
        $this->value = $value;
    }

    /**
     * Get Token Type (represented by TOKEN_TYPE_*).
     *
     * @return string
     */
    public function getTokenType()
    {
        return $this->tokenType;
    }

    /**
     * Set Token Type (represented by TOKEN_TYPE_*).
     *
     * @param string $value
     */
    public function setTokenType($value)
    {
        $this->tokenType = $value;
    }

    /**
     * Get Token SubType (represented by TOKEN_SUBTYPE_*).
     *
     * @return string
     */
    public function getTokenSubType()
    {
        return $this->tokenSubType;
    }

    /**
     * Set Token SubType (represented by TOKEN_SUBTYPE_*).
     *
     * @param string $value
     */
    public function setTokenSubType($value)
    {
        $this->tokenSubType = $value;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/functionlist.txt000064400000005340151165413730024261
0ustar00ABS
ACCRINT
ACCRINTM
ACOS
ACOSH
ACOT
ACOTH
ADDRESS
AMORDEGRC
AMORLINC
AND
ARABIC
AREAS
ASC
ASIN
ASINH
ATAN
ATAN2
ATANH
AVEDEV
AVERAGE
AVERAGEA
AVERAGEIF
AVERAGEIFS
BAHTTEXT
BASE
BESSELI
BESSELJ
BESSELK
BESSELY
BETADIST
BETAINV
BIN2DEC
BIN2HEX
BIN2OCT
BINOMDIST
BITAND
BITLSHIFT
BITOR
BITRSHIFT
BITXOR
CEILING
CELL
CHAR
CHIDIST
CHIINV
CHITEST
CHOOSE
CLEAN
CODE
COLUMN
COLUMNS
COMBIN
COMPLEX
CONCAT
CONCATENATE
CONFIDENCE
CONVERT
CORREL
COS
COSH
COT
COTH
COUNT
COUNTA
COUNTBLANK
COUNTIF
COUNTIFS
COUPDAYBS
COUPDAYBS
COUPDAYSNC
COUPNCD
COUPNUM
COUPPCD
COVAR
CRITBINOM
CSC
CSCH
CUBEKPIMEMBER
CUBEMEMBER
CUBEMEMBERPROPERTY
CUBERANKEDMEMBER
CUBESET
CUBESETCOUNT
CUBEVALUE
CUMIPMT
CUMPRINC
DATE
DATEDIF
DATEVALUE
DAVERAGE
DAY
DAYS
DAYS360
DB
DCOUNT
DCOUNTA
DDB
DEC2BIN
DEC2HEX
DEC2OCT
DEGREES
DELTA
DEVSQ
DGET
DISC
DMAX
DMIN
DOLLAR
DOLLARDE
DOLLARFR
DPRODUCT
DSTDEV
DSTDEVP
DSUM
DURATION
DVAR
DVARP
EDATE
EFFECT
EOMONTH
ERF
ERF.PRECISE
ERFC
ERFC.PRECISE
ERROR.TYPE
EVEN
EXACT
EXP
EXPONDIST
FACT
FACTDOUBLE
FALSE
FDIST
FIND
FINDB
FINV
FISHER
FISHERINV
FIXED
FLOOR
FORECAST
FREQUENCY
FTEST
FV
FVSCHEDULE
GAMAMDIST
GAMMAINV
GAMMALN
GCD
GEOMEAN
GESTEP
GETPIVOTDATA
GROWTH
HARMEAN
HEX2BIN
HEX2OCT
HLOOKUP
HOUR
HYPERLINK
HYPGEOMDIST
IF
IFERROR
IMABS
IMAGINARY
IMARGUMENT
IMCONJUGATE
IMCOS
IMCOSH
IMCOT
IMCSC
IMCSCH
IMEXP
IMLN
IMLOG10
IMLOG2
IMPOWER
IMPRODUCT
IMREAL
IMSEC
IMSECH
IMSIN
IMSINH
IMSQRT
IMSUB
IMSUM
IMTAN
INDEX
INDIRECT
INFO
INT
INTERCEPT
INTRATE
IPMT
IRR
ISBLANK
ISERR
ISERROR
ISEVEN
ISLOGICAL
ISNA
ISNONTEXT
ISNUMBER
ISODD
ISOWEEKNUM
ISPMT
ISREF
ISTEXT
JIS
KURT
LARGE
LCM
LEFT
LEFTB
LEN
LENB
LINEST
LN
LOG
LOG10
LOGEST
LOGINV
LOGNORMDIST
LOOKUP
LOWER
MATCH
MAX
MAXA
MAXIFS
MDETERM
MDURATION
MEDIAN
MID
MIDB
MIN
MINA
MINIFS
MINUTE
MINVERSE
MIRR
MMULT
MOD
MODE
MONTH
MROUND
MULTINOMIAL
N
NA
NEGBINOMDIST
NETWORKDAYS
NOMINAL
NORMDIST
NORMINV
NORMSDIST
NORMSINV
NOT
NOW
NPER
NPV
NUMBERVALUE
OCT2BIN
OCT2DEC
OCT2HEX
ODD
ODDFPRICE
ODDFYIELD
ODDLPRICE
ODDLYIELD
OFFSET
OR
PDURATION
PEARSON
PERCENTILE
PERCENTRANK
PERMUT
PHONETIC
PI
PMT
POISSON
POWER
PPMT
PRICE
PRICEDISC
PRICEMAT
PROB
PRODUCT
PROPER
PV
QUARTILE
QUOTIENT
RADIANS
RAND
RANDBETWEEN
RANK
RATE
RECEIVED
REPLACE
REPLACEB
REPT
RIGHT
RIGHTB
ROMAN
ROUND
ROUNDDOWN
ROUNDUP
ROW
ROWS
RRI
RSQ
RTD
SEARCH
SEARCHB
SEC
SECH
SECOND
SERIESSUM
SIGN
SIN
SINH
SKEW
SLN
SLOPE
SMALL
SQRT
SQRTPI
STANDARDIZE
STDEV
STDEV.A
STDEV.P
STDEVA
STDEVP
STDEVPA
STEYX
SUBSTITUTE
SUBTOTAL
SUM
SUMIF
SUMIFS
SUMPRODUCT
SUMSQ
SUMX2MY2
SUMX2PY2
SUMXMY2
SWITCH
SYD
T
TAN
TANH
TBILLEQ
TBILLPRICE
TBILLYIELD
TDIST
TEXT
TEXTJOIN
TIME
TIMEVALUE
TINV
TODAY
TRANSPOSE
TREND
TRIM
TRIMMEAN
TRUE
TRUNC
TTEST
TYPE
UNICHAR
UNIORD
UPPER
USDOLLAR
VALUE
VAR
VARA
VARP
VARPA
VDB
VLOOKUP
WEEKDAY
WEEKNUM
WEIBULL
WORKDAY
XIRR
XNPV
XOR
YEAR
YEARFRAC
YIELD
YIELDDISC
YIELDMAT
ZTEST
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/Functions.php000064400000041472151165413730023466
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Calculation;

use PhpOffice\PhpSpreadsheet\Cell\Cell;

class Functions
{
    const PRECISION = 8.88E-016;

    /**
     * 2 / PI.
     */
    const M_2DIVPI = 0.63661977236758134307553505349006;

    /** constants */
    const COMPATIBILITY_EXCEL = 'Excel';
    const COMPATIBILITY_GNUMERIC = 'Gnumeric';
    const COMPATIBILITY_OPENOFFICE = 'OpenOfficeCalc';

    const RETURNDATE_PHP_NUMERIC = 'P';
    const RETURNDATE_UNIX_TIMESTAMP = 'P';
    const RETURNDATE_PHP_OBJECT = 'O';
    const RETURNDATE_PHP_DATETIME_OBJECT = 'O';
    const RETURNDATE_EXCEL = 'E';

    /**
     * Compatibility mode to use for error checking and responses.
     *
     * @var string
     */
    protected static $compatibilityMode = self::COMPATIBILITY_EXCEL;

    /**
     * Data Type to use when returning date values.
     *
     * @var string
     */
    protected static $returnDateType = self::RETURNDATE_EXCEL;

    /**
     * List of error codes.
     *
     * @var array
     */
    protected static $errorCodes = [
        'null' => '#NULL!',
        'divisionbyzero' => '#DIV/0!',
        'value' => '#VALUE!',
        'reference' => '#REF!',
        'name' => '#NAME?',
        'num' => '#NUM!',
        'na' => '#N/A',
        'gettingdata' => '#GETTING_DATA',
    ];

    /**
     * Set the Compatibility Mode.
     *
     * @category Function Configuration
     *
     * @param string $compatibilityMode Compatibility Mode
     *                                                Permitted values are:
     *                                                   
Functions::COMPATIBILITY_EXCEL            'Excel'
     *                                                   
Functions::COMPATIBILITY_GNUMERIC        'Gnumeric'
     *                                                   
Functions::COMPATIBILITY_OPENOFFICE    'OpenOfficeCalc'
     *
     * @return bool (Success or Failure)
     */
    public static function setCompatibilityMode($compatibilityMode)
    {
        if (($compatibilityMode == self::COMPATIBILITY_EXCEL) ||
            ($compatibilityMode == self::COMPATIBILITY_GNUMERIC) ||
            ($compatibilityMode == self::COMPATIBILITY_OPENOFFICE)
        ) {
            self::$compatibilityMode = $compatibilityMode;

            return true;
        }

        return false;
    }

    /**
     * Return the current Compatibility Mode.
     *
     * @category Function Configuration
     *
     * @return string Compatibility Mode
     *                            Possible Return values are:
     *                                Functions::COMPATIBILITY_EXCEL       
    'Excel'
     *                                Functions::COMPATIBILITY_GNUMERIC    
   'Gnumeric'
     *                                Functions::COMPATIBILITY_OPENOFFICE  
 'OpenOfficeCalc'
     */
    public static function getCompatibilityMode()
    {
        return self::$compatibilityMode;
    }

    /**
     * Set the Return Date Format used by functions that return a date/time
(Excel, PHP Serialized Numeric or PHP Object).
     *
     * @category Function Configuration
     *
     * @param string $returnDateType Return Date Format
     *                                                Permitted values are:
     *                                                   
Functions::RETURNDATE_UNIX_TIMESTAMP        'P'
     *                                                   
Functions::RETURNDATE_PHP_DATETIME_OBJECT        'O'
     *                                                   
Functions::RETURNDATE_EXCEL            'E'
     *
     * @return bool Success or failure
     */
    public static function setReturnDateType($returnDateType)
    {
        if (($returnDateType == self::RETURNDATE_UNIX_TIMESTAMP) ||
            ($returnDateType == self::RETURNDATE_PHP_DATETIME_OBJECT) ||
            ($returnDateType == self::RETURNDATE_EXCEL)
        ) {
            self::$returnDateType = $returnDateType;

            return true;
        }

        return false;
    }

    /**
     * Return the current Return Date Format for functions that return a
date/time (Excel, PHP Serialized Numeric or PHP Object).
     *
     * @category Function Configuration
     *
     * @return string Return Date Format
     *                            Possible Return values are:
     *                                Functions::RETURNDATE_UNIX_TIMESTAMP 
      'P'
     *                               
Functions::RETURNDATE_PHP_DATETIME_OBJECT        'O'
     *                                Functions::RETURNDATE_EXCEL          
 'E'
     */
    public static function getReturnDateType()
    {
        return self::$returnDateType;
    }

    /**
     * DUMMY.
     *
     * @category Error Returns
     *
     * @return string #Not Yet Implemented
     */
    public static function DUMMY()
    {
        return '#Not Yet Implemented';
    }

    /**
     * DIV0.
     *
     * @category Error Returns
     *
     * @return string #Not Yet Implemented
     */
    public static function DIV0()
    {
        return self::$errorCodes['divisionbyzero'];
    }

    /**
     * NA.
     *
     * Excel Function:
     *        =NA()
     *
     * Returns the error value #N/A
     *        #N/A is the error value that means "no value is
available."
     *
     * @category Logical Functions
     *
     * @return string #N/A!
     */
    public static function NA()
    {
        return self::$errorCodes['na'];
    }

    /**
     * NaN.
     *
     * Returns the error value #NUM!
     *
     * @category Error Returns
     *
     * @return string #NUM!
     */
    public static function NAN()
    {
        return self::$errorCodes['num'];
    }

    /**
     * NAME.
     *
     * Returns the error value #NAME?
     *
     * @category Error Returns
     *
     * @return string #NAME?
     */
    public static function NAME()
    {
        return self::$errorCodes['name'];
    }

    /**
     * REF.
     *
     * Returns the error value #REF!
     *
     * @category Error Returns
     *
     * @return string #REF!
     */
    public static function REF()
    {
        return self::$errorCodes['reference'];
    }

    /**
     * NULL.
     *
     * Returns the error value #NULL!
     *
     * @category Error Returns
     *
     * @return string #NULL!
     */
    public static function null()
    {
        return self::$errorCodes['null'];
    }

    /**
     * VALUE.
     *
     * Returns the error value #VALUE!
     *
     * @category Error Returns
     *
     * @return string #VALUE!
     */
    public static function VALUE()
    {
        return self::$errorCodes['value'];
    }

    public static function isMatrixValue($idx)
    {
        return (substr_count($idx, '.') <= 1) ||
(preg_match('/\.[A-Z]/', $idx) > 0);
    }

    public static function isValue($idx)
    {
        return substr_count($idx, '.') == 0;
    }

    public static function isCellValue($idx)
    {
        return substr_count($idx, '.') > 1;
    }

    public static function ifCondition($condition)
    {
        $condition = self::flattenSingleValue($condition);

        if ($condition === '') {
            $condition = '=""';
        }

        if (!is_string($condition) || !in_array($condition[0],
['>', '<', '='])) {
            if (!is_numeric($condition)) {
                $condition =
Calculation::wrapResult(strtoupper($condition));
            }

            return str_replace('""""',
'""', '=' . $condition);
        }
        preg_match('/(=|<[>=]?|>=?)(.*)/', $condition,
$matches);
        [, $operator, $operand] = $matches;

        if (is_numeric(trim($operand, '"'))) {
            $operand = trim($operand, '"');
        } elseif (!is_numeric($operand)) {
            $operand = str_replace('"',
'""', $operand);
            $operand = Calculation::wrapResult(strtoupper($operand));
        }

        return str_replace('""""',
'""', $operator . $operand);
    }

    /**
     * ERROR_TYPE.
     *
     * @param mixed $value Value to check
     *
     * @return bool
     */
    public static function errorType($value = '')
    {
        $value = self::flattenSingleValue($value);

        $i = 1;
        foreach (self::$errorCodes as $errorCode) {
            if ($value === $errorCode) {
                return $i;
            }
            ++$i;
        }

        return self::NA();
    }

    /**
     * IS_BLANK.
     *
     * @param mixed $value Value to check
     *
     * @return bool
     */
    public static function isBlank($value = null)
    {
        if ($value !== null) {
            $value = self::flattenSingleValue($value);
        }

        return $value === null;
    }

    /**
     * IS_ERR.
     *
     * @param mixed $value Value to check
     *
     * @return bool
     */
    public static function isErr($value = '')
    {
        $value = self::flattenSingleValue($value);

        return self::isError($value) && (!self::isNa(($value)));
    }

    /**
     * IS_ERROR.
     *
     * @param mixed $value Value to check
     *
     * @return bool
     */
    public static function isError($value = '')
    {
        $value = self::flattenSingleValue($value);

        if (!is_string($value)) {
            return false;
        }

        return in_array($value, self::$errorCodes);
    }

    /**
     * IS_NA.
     *
     * @param mixed $value Value to check
     *
     * @return bool
     */
    public static function isNa($value = '')
    {
        $value = self::flattenSingleValue($value);

        return $value === self::NA();
    }

    /**
     * IS_EVEN.
     *
     * @param mixed $value Value to check
     *
     * @return bool|string
     */
    public static function isEven($value = null)
    {
        $value = self::flattenSingleValue($value);

        if ($value === null) {
            return self::NAME();
        } elseif ((is_bool($value)) || ((is_string($value)) &&
(!is_numeric($value)))) {
            return self::VALUE();
        }

        return $value % 2 == 0;
    }

    /**
     * IS_ODD.
     *
     * @param mixed $value Value to check
     *
     * @return bool|string
     */
    public static function isOdd($value = null)
    {
        $value = self::flattenSingleValue($value);

        if ($value === null) {
            return self::NAME();
        } elseif ((is_bool($value)) || ((is_string($value)) &&
(!is_numeric($value)))) {
            return self::VALUE();
        }

        return abs($value) % 2 == 1;
    }

    /**
     * IS_NUMBER.
     *
     * @param mixed $value Value to check
     *
     * @return bool
     */
    public static function isNumber($value = null)
    {
        $value = self::flattenSingleValue($value);

        if (is_string($value)) {
            return false;
        }

        return is_numeric($value);
    }

    /**
     * IS_LOGICAL.
     *
     * @param mixed $value Value to check
     *
     * @return bool
     */
    public static function isLogical($value = null)
    {
        $value = self::flattenSingleValue($value);

        return is_bool($value);
    }

    /**
     * IS_TEXT.
     *
     * @param mixed $value Value to check
     *
     * @return bool
     */
    public static function isText($value = null)
    {
        $value = self::flattenSingleValue($value);

        return is_string($value) && !self::isError($value);
    }

    /**
     * IS_NONTEXT.
     *
     * @param mixed $value Value to check
     *
     * @return bool
     */
    public static function isNonText($value = null)
    {
        return !self::isText($value);
    }

    /**
     * N.
     *
     * Returns a value converted to a number
     *
     * @param null|mixed $value The value you want converted
     *
     * @return number N converts values listed in the following table
     *        If value is or refers to N returns
     *        A number            That number
     *        A date                The serial number of that date
     *        TRUE                1
     *        FALSE                0
     *        An error value        The error value
     *        Anything else        0
     */
    public static function n($value = null)
    {
        while (is_array($value)) {
            $value = array_shift($value);
        }

        switch (gettype($value)) {
            case 'double':
            case 'float':
            case 'integer':
                return $value;
            case 'boolean':
                return (int) $value;
            case 'string':
                //    Errors
                if ((strlen($value) > 0) && ($value[0] ==
'#')) {
                    return $value;
                }

                break;
        }

        return 0;
    }

    /**
     * TYPE.
     *
     * Returns a number that identifies the type of a value
     *
     * @param null|mixed $value The value you want tested
     *
     * @return number N converts values listed in the following table
     *        If value is or refers to N returns
     *        A number            1
     *        Text                2
     *        Logical Value        4
     *        An error value        16
     *        Array or Matrix        64
     */
    public static function TYPE($value = null)
    {
        $value = self::flattenArrayIndexed($value);
        if (is_array($value) && (count($value) > 1)) {
            end($value);
            $a = key($value);
            //    Range of cells is an error
            if (self::isCellValue($a)) {
                return 16;
            //    Test for Matrix
            } elseif (self::isMatrixValue($a)) {
                return 64;
            }
        } elseif (empty($value)) {
            //    Empty Cell
            return 1;
        }
        $value = self::flattenSingleValue($value);

        if (($value === null) || (is_float($value)) || (is_int($value))) {
            return 1;
        } elseif (is_bool($value)) {
            return 4;
        } elseif (is_array($value)) {
            return 64;
        } elseif (is_string($value)) {
            //    Errors
            if ((strlen($value) > 0) && ($value[0] ==
'#')) {
                return 16;
            }

            return 2;
        }

        return 0;
    }

    /**
     * Convert a multi-dimensional array to a simple 1-dimensional array.
     *
     * @param array $array Array to be flattened
     *
     * @return array Flattened array
     */
    public static function flattenArray($array)
    {
        if (!is_array($array)) {
            return (array) $array;
        }

        $arrayValues = [];
        foreach ($array as $value) {
            if (is_array($value)) {
                foreach ($value as $val) {
                    if (is_array($val)) {
                        foreach ($val as $v) {
                            $arrayValues[] = $v;
                        }
                    } else {
                        $arrayValues[] = $val;
                    }
                }
            } else {
                $arrayValues[] = $value;
            }
        }

        return $arrayValues;
    }

    /**
     * Convert a multi-dimensional array to a simple 1-dimensional array,
but retain an element of indexing.
     *
     * @param array $array Array to be flattened
     *
     * @return array Flattened array
     */
    public static function flattenArrayIndexed($array)
    {
        if (!is_array($array)) {
            return (array) $array;
        }

        $arrayValues = [];
        foreach ($array as $k1 => $value) {
            if (is_array($value)) {
                foreach ($value as $k2 => $val) {
                    if (is_array($val)) {
                        foreach ($val as $k3 => $v) {
                            $arrayValues[$k1 . '.' . $k2 .
'.' . $k3] = $v;
                        }
                    } else {
                        $arrayValues[$k1 . '.' . $k2] = $val;
                    }
                }
            } else {
                $arrayValues[$k1] = $value;
            }
        }

        return $arrayValues;
    }

    /**
     * Convert an array to a single scalar value by extracting the first
element.
     *
     * @param mixed $value Array or scalar value
     *
     * @return mixed
     */
    public static function flattenSingleValue($value = '')
    {
        while (is_array($value)) {
            $value = array_pop($value);
        }

        return $value;
    }

    /**
     * ISFORMULA.
     *
     * @param mixed $cellReference The cell to check
     * @param Cell $pCell The current cell (containing this formula)
     *
     * @return bool|string
     */
    public static function isFormula($cellReference = '', Cell
$pCell = null)
    {
        if ($pCell === null) {
            return self::REF();
        }

        preg_match('/^' . Calculation::CALCULATION_REGEXP_CELLREF
. '$/i', $cellReference, $matches);

        $cellReference = $matches[6] . $matches[7];
        $worksheetName = trim($matches[3], "'");

        $worksheet = (!empty($worksheetName))
            ?
$pCell->getWorksheet()->getParent()->getSheetByName($worksheetName)
            : $pCell->getWorksheet();

        return $worksheet->getCell($cellReference)->isFormula();
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/locale/bg/config000064400000000430151165413730024011
0ustar00##
## PhpSpreadsheet
##
##
##


ArgumentSeparator	= ;


##
##	(For future use)
##
currencySymbol	= лв


##
##	Excel Error Codes	(For future use)

##
NULL	= #ПРАЗНО!
DIV0	= #ДЕЛ/0!
VALUE	= #СТОЙНОСТ!
REF	= #РЕФ!
NAME	= #ИМЕ?
NUM	= #ЧИСЛО!
NA	= #Н/Д
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/locale/bg/functions000064400000147436151165413730024576
0ustar00##
## PhpSpreadsheet
##
##
## Data in this file derived from information provided by web-junior
(http://www.web-junior.net/)
##
##


##
##	Add-in and Automation functions				Функции надстроек и
автоматизации
##
GETPIVOTDATA		=
ПОЛУЧИТЬ.ДАННЫЕ.СВОДНОЙ.ТАБЛИЦЫ	##	Возвращает
данные, хранящиеся в отчете сводной
таблицы.


##
##	Cube functions						Функции Куб
##
CUBEKPIMEMBER		= КУБЭЛЕМЕНТКИП				##	Возвращает
свойство ключевого индикатора
производительности «(КИП)» и отображает
имя «КИП» в ячейке. «КИП» представляет
собой количественную величину, такую как
ежемесячная валовая прибыль или
ежеквартальная текучесть кадров,
используемой для контроля эффективности
работы организации.
CUBEMEMBER		= КУБЭЛЕМЕНТ				##	Возвращает
элемент или кортеж из куба. Используется
для проверки существования элемента или
кортежа в кубе.
CUBEMEMBERPROPERTY	=
КУБСВОЙСТВОЭЛЕМЕНТА			##	Возвращает
значение свойства элемента из куба.
Используется для проверки существования
имени элемента в кубе и возвращает
указанное свойство для этого элемента.
CUBERANKEDMEMBER	= КУБПОРЭЛЕМЕНТ				##	Возвращает
n-ый или ранжированный элемент в
множество. Используется для возвращения
одного или нескольких элементов в
множество, например, лучшего продавца
или 10 лучших студентов.
CUBESET			= КУБМНОЖ				##	Определяет
вычислительное множество элементов или
кортежей, отправляя на сервер выражение,
которое создает множество, а затем
возвращает его в Microsoft Office Excel.
CUBESETCOUNT		= КУБЧИСЛОЭЛМНОЖ			##	Возвращает
число элементов множества.
CUBEVALUE		= КУБЗНАЧЕНИЕ				##	Возвращает
обобщенное значение из куба.


##
##	Database functions					Функции для работы с
базами данных
##
DAVERAGE		= ДСРЗНАЧ				##	Возвращает среднее
значение выбранных записей базы данных.
DCOUNT			= БСЧЁТ					##	Подсчитывает количество
числовых ячеек в базе данных.
DCOUNTA			= БСЧЁТА				##	Подсчитывает
количество непустых ячеек в базе данных.
DGET			= БИЗВЛЕЧЬ				##	Извлекает из базы
данных одну запись, удовлетворяющую
заданному условию.
DMAX			= ДМАКС					##	Возвращает максимальное
значение среди выделенных записей базы
данных.
DMIN			= ДМИН					##	Возвращает минимальное
значение среди выделенных записей базы
данных.
DPRODUCT		= БДПРОИЗВЕД				##	Перемножает
значения определенного поля в записях
базы данных, удовлетворяющих условию.
DSTDEV			= ДСТАНДОТКЛ				##	Оценивает
стандартное отклонение по выборке для
выделенных записей базы данных.
DSTDEVP			= ДСТАНДОТКЛП				##	Вычисляет
стандартное отклонение по генеральной
совокупности для выделенных записей
базы данных
DSUM			= БДСУММ				##	Суммирует числа в поле
для записей базы данных, удовлетворяющих
условию.
DVAR			= БДДИСП				##	Оценивает дисперсию по
выборке из выделенных записей базы
данных
DVARP			= БДДИСПП				##	Вычисляет дисперсию по
генеральной совокупности для выделенных
записей базы данных


##
##	Date and time functions					Функции даты и времени
##
DATE			= ДАТА					##	Возвращает заданную дату в
числовом формате.
DATEVALUE		= ДАТАЗНАЧ				##	Преобразует дату из
текстового формата в числовой формат.
DAY			= ДЕНЬ					##	Преобразует дату в числовом
формате в день месяца.
DAYS360			= ДНЕЙ360				##	Вычисляет количество
дней между двумя датами на основе
360-дневного года.
EDATE			= ДАТАМЕС				##	Возвращает дату в
числовом формате, отстоящую на заданное
число месяцев вперед или назад от
начальной даты.
EOMONTH			= КОНМЕСЯЦА				##	Возвращает дату в
числовом формате для последнего дня
месяца, отстоящего вперед или назад на
заданное число месяцев.
HOUR			= ЧАС					##	Преобразует дату в числовом
формате в часы.
MINUTE			= МИНУТЫ				##	Преобразует дату в
числовом формате в минуты.
MONTH			= МЕСЯЦ					##	Преобразует дату в
числовом формате в месяцы.
NETWORKDAYS		= ЧИСТРАБДНИ				##	Возвращает
количество рабочих дней между двумя
датами.
NOW			= ТДАТА					##	Возвращает текущую дату и
время в числовом формате.
SECOND			= СЕКУНДЫ				##	Преобразует дату в
числовом формате в секунды.
TIME			= ВРЕМЯ					##	Возвращает заданное время
в числовом формате.
TIMEVALUE		= ВРЕМЗНАЧ				##	Преобразует время из
текстового формата в числовой формат.
TODAY			= СЕГОДНЯ				##	Возвращает текущую дату
в числовом формате.
WEEKDAY			= ДЕНЬНЕД				##	Преобразует дату в
числовом формате в день недели.
WEEKNUM			= НОМНЕДЕЛИ				##	Преобразует
числовое представление в число, которое
указывает, на какую неделю года
приходится указанная дата.
WORKDAY			= РАБДЕНЬ				##	Возвращает дату в
числовом формате, отстоящую вперед или
назад на заданное количество рабочих
дней.
YEAR			= ГОД					##	Преобразует дату в числовом
формате в год.
YEARFRAC		= ДОЛЯГОДА				##	Возвращает долю года,
которую составляет количество дней
между начальной и конечной датами.


##
##	Engineering functions					Инженерные функции
##
BESSELI			= БЕССЕЛЬ.I	 			##	Возвращает
модифицированную функцию Бесселя In(x).
BESSELJ			= БЕССЕЛЬ.J				##	Возвращает функцию
Бесселя Jn(x).
BESSELK			= БЕССЕЛЬ.K				##	Возвращает
модифицированную функцию Бесселя Kn(x).
BESSELY			= БЕССЕЛЬ.Y				##	Возвращает функцию
Бесселя Yn(x).
BIN2DEC			= ДВ.В.ДЕС				##	Преобразует двоичное
число в десятичное.
BIN2HEX			= ДВ.В.ШЕСТН				##	Преобразует
двоичное число в шестнадцатеричное.
BIN2OCT			= ДВ.В.ВОСЬМ				##	Преобразует
двоичное число в восьмеричное.
COMPLEX			= КОМПЛЕКСН				##	Преобразует
коэффициенты при вещественной и мнимой
частях комплексного числа в комплексное
число.
CONVERT			= ПРЕОБР				##	Преобразует число из
одной системы единиц измерения в другую.
DEC2BIN			= ДЕС.В.ДВ				##	Преобразует
десятичное число в двоичное.
DEC2HEX			= ДЕС.В.ШЕСТН				##	Преобразует
десятичное число в шестнадцатеричное.
DEC2OCT			= ДЕС.В.ВОСЬМ				##	Преобразует
десятичное число в восьмеричное.
DELTA			= ДЕЛЬТА				##	Проверяет равенство двух
значений.
ERF			= ФОШ					##	Возвращает функцию ошибки.
ERFC			= ДФОШ					##	Возвращает дополнительную
функцию ошибки.
GESTEP			= ПОРОГ					##	Проверяет, не превышает
ли данное число порогового значения.
HEX2BIN			= ШЕСТН.В.ДВ				##	Преобразует
шестнадцатеричное число в двоичное.
HEX2DEC			= ШЕСТН.В.ДЕС				##	Преобразует
шестнадцатеричное число в десятичное.
HEX2OCT			= ШЕСТН.В.ВОСЬМ				##	Преобразует
шестнадцатеричное число в восьмеричное.
IMABS			= МНИМ.ABS				##	Возвращает абсолютную
величину (модуль) комплексного числа.
IMAGINARY		= МНИМ.ЧАСТЬ				##	Возвращает
коэффициент при мнимой части
комплексного числа.
IMARGUMENT		= МНИМ.АРГУМЕНТ				##	Возвращает
значение аргумента комплексного числа
(тета) — угол, выраженный в радианах.
IMCONJUGATE		= МНИМ.СОПРЯЖ				##	Возвращает
комплексно-сопряженное комплексное
число.
IMCOS			= МНИМ.COS				##	Возвращает косинус
комплексного числа.
IMDIV			= МНИМ.ДЕЛ				##	Возвращает частное от
деления двух комплексных чисел.
IMEXP			= МНИМ.EXP				##	Возвращает экспоненту
комплексного числа.
IMLN			= МНИМ.LN				##	Возвращает натуральный
логарифм комплексного числа.
IMLOG10			= МНИМ.LOG10				##	Возвращает обычный
(десятичный) логарифм комплексного
числа.
IMLOG2			= МНИМ.LOG2				##	Возвращает двоичный
логарифм комплексного числа.
IMPOWER			= МНИМ.СТЕПЕНЬ				##	Возвращает
комплексное число, возведенное в целую
степень.
IMPRODUCT		= МНИМ.ПРОИЗВЕД				##	Возвращает
произведение от 2 до 29 комплексных чисел.
IMREAL			= МНИМ.ВЕЩ				##	Возвращает
коэффициент при вещественной части
комплексного числа.
IMSIN			= МНИМ.SIN				##	Возвращает синус
комплексного числа.
IMSQRT			= МНИМ.КОРЕНЬ				##	Возвращает
значение квадратного корня из
комплексного числа.
IMSUB			= МНИМ.РАЗН				##	Возвращает разность
двух комплексных чисел.
IMSUM			= МНИМ.СУММ				##	Возвращает сумму
комплексных чисел.
OCT2BIN			= ВОСЬМ.В.ДВ				##	Преобразует
восьмеричное число в двоичное.
OCT2DEC			= ВОСЬМ.В.ДЕС				##	Преобразует
восьмеричное число в десятичное.
OCT2HEX			= ВОСЬМ.В.ШЕСТН				##	Преобразует
восьмеричное число в шестнадцатеричное.


##
##	Financial functions					Финансовые функции
##
ACCRINT			= НАКОПДОХОД				##	Возвращает
накопленный процент по ценным бумагам с
периодической выплатой процентов.
ACCRINTM		= НАКОПДОХОДПОГАШ			##	Возвращает
накопленный процент по ценным бумагам,
проценты по которым выплачиваются в срок
погашения.
AMORDEGRC		= АМОРУМ				##	Возвращает величину
амортизации для каждого периода,
используя коэффициент амортизации.
AMORLINC		= АМОРУВ				##	Возвращает величину
амортизации для каждого периода.
COUPDAYBS		= ДНЕЙКУПОНДО				##	Возвращает
количество дней от начала действия
купона до даты соглашения.
COUPDAYS		= ДНЕЙКУПОН				##	Возвращает число
дней в периоде купона, содержащем дату
соглашения.
COUPDAYSNC		= ДНЕЙКУПОНПОСЛЕ			##	Возвращает
число дней от даты соглашения до срока
следующего купона.
COUPNCD			= ДАТАКУПОНПОСЛЕ			##	Возвращает
следующую дату купона после даты
соглашения.
COUPNUM			= ЧИСЛКУПОН				##	Возвращает
количество купонов, которые могут быть
оплачены между датой соглашения и сроком
вступления в силу.
COUPPCD			= ДАТАКУПОНДО				##	Возвращает
предыдущую дату купона перед датой
соглашения.
CUMIPMT			= ОБЩПЛАТ				##	Возвращает общую
выплату, произведенную между двумя
периодическими выплатами.
CUMPRINC		= ОБЩДОХОД				##	Возвращает общую
выплату по займу между двумя периодами.
DB			= ФУО					##	Возвращает величину
амортизации актива для заданного
периода, рассчитанную методом
фиксированного уменьшения остатка.
DDB			= ДДОБ					##	Возвращает величину
амортизации актива за данный период,
используя метод двойного уменьшения
остатка или иной явно указанный метод.
DISC			= СКИДКА				##	Возвращает норму скидки
для ценных бумаг.
DOLLARDE		= РУБЛЬ.ДЕС				##	Преобразует цену в
рублях, выраженную в виде дроби, в цену в
рублях, выраженную десятичным числом.
DOLLARFR		= РУБЛЬ.ДРОБЬ				##	Преобразует цену в
рублях, выраженную десятичным числом, в
цену в рублях, выраженную в виде дроби.
DURATION		= ДЛИТ					##	Возвращает ежегодную
продолжительность действия ценных бумаг
с периодическими выплатами по процентам.
EFFECT			= ЭФФЕКТ				##	Возвращает действующие
ежегодные процентные ставки.
FV			= БС					##	Возвращает будущую стоимость
инвестиции.
FVSCHEDULE		= БЗРАСПИС				##	Возвращает будущую
стоимость первоначальной основной суммы
после начисления ряда сложных процентов.
INTRATE			= ИНОРМА				##	Возвращает процентную
ставку для полностью инвестированных
ценных бумаг.
IPMT			= ПРПЛТ					##	Возвращает величину
выплаты прибыли на вложения за данный
период.
IRR			= ВСД					##	Возвращает внутреннюю
ставку доходности для ряда потоков
денежных средств.
ISPMT			= ПРОЦПЛАТ				##	Вычисляет выплаты за
указанный период инвестиции.
MDURATION		= МДЛИТ					##	Возвращает
модифицированную длительность Маколея
для ценных бумаг с предполагаемой
номинальной стоимостью 100 рублей.
MIRR			= МВСД					##	Возвращает внутреннюю
ставку доходности, при которой
положительные и отрицательные денежные
потоки имеют разные значения ставки.
NOMINAL			= НОМИНАЛ				##	Возвращает
номинальную годовую процентную ставку.
NPER			= КПЕР					##	Возвращает общее
количество периодов выплаты для данного
вклада.
NPV			= ЧПС					##	Возвращает чистую
приведенную стоимость инвестиции,
основанной на серии периодических
денежных потоков и ставке
дисконтирования.
ODDFPRICE		= ЦЕНАПЕРВНЕРЕГ				##	Возвращает цену
за 100 рублей нарицательной стоимости
ценных бумаг с нерегулярным первым
периодом.
ODDFYIELD		= ДОХОДПЕРВНЕРЕГ			##	Возвращает
доход по ценным бумагам с нерегулярным
первым периодом.
ODDLPRICE		= ЦЕНАПОСЛНЕРЕГ				##	Возвращает цену
за 100 рублей нарицательной стоимости
ценных бумаг с нерегулярным последним
периодом.
ODDLYIELD		= ДОХОДПОСЛНЕРЕГ			##	Возвращает
доход по ценным бумагам с нерегулярным
последним периодом.
PMT			= ПЛТ					##	Возвращает величину выплаты
за один период аннуитета.
PPMT			= ОСПЛТ					##	Возвращает величину
выплат в погашение основной суммы по
инвестиции за заданный период.
PRICE			= ЦЕНА					##	Возвращает цену за 100
рублей нарицательной стоимости ценных
бумаг, по которым производится
периодическая выплата процентов.
PRICEDISC		= ЦЕНАСКИДКА				##	Возвращает цену за
100 рублей номинальной стоимости ценных
бумаг, на которые сделана скидка.
PRICEMAT		= ЦЕНАПОГАШ				##	Возвращает цену за 100
рублей номинальной стоимости ценных
бумаг, проценты по которым выплачиваются
в срок погашения.
PV			= ПС					##	Возвращает приведенную (к
текущему моменту) стоимость инвестиции.
RATE			= СТАВКА				##	Возвращает процентную
ставку по аннуитету за один период.
RECEIVED		= ПОЛУЧЕНО				##	Возвращает сумму,
полученную к сроку погашения полностью
обеспеченных ценных бумаг.
SLN			= АПЛ					##	Возвращает величину
линейной амортизации актива за один
период.
SYD			= АСЧ					##	Возвращает величину
амортизации актива за данный период,
рассчитанную методом суммы годовых
чисел.
TBILLEQ			= РАВНОКЧЕК				##	Возвращает
эквивалентный облигации доход по
казначейскому чеку.
TBILLPRICE		= ЦЕНАКЧЕК				##	Возвращает цену за 100
рублей нарицательной стоимости для
казначейского чека.
TBILLYIELD		= ДОХОДКЧЕК				##	Возвращает доход по
казначейскому чеку.
VDB			= ПУО					##	Возвращает величину
амортизации актива для указанного или
частичного периода при использовании
метода сокращающегося баланса.
XIRR			= ЧИСТВНДОХ				##	Возвращает внутреннюю
ставку доходности для графика денежных
потоков, которые не обязательно носят
периодический характер.
XNPV			= ЧИСТНЗ				##	Возвращает чистую
приведенную стоимость для денежных
потоков, которые не обязательно являются
периодическими.
YIELD			= ДОХОД					##	Возвращает доход от
ценных бумаг, по которым производятся
периодические выплаты процентов.
YIELDDISC		= ДОХОДСКИДКА				##	Возвращает
годовой доход по ценным бумагам, на
которые сделана скидка (пример —
казначейские чеки).
YIELDMAT		= ДОХОДПОГАШ				##	Возвращает годовой
доход от ценных бумаг, проценты по
которым выплачиваются в срок погашения.


##
##	Information functions					Информационные функции
##
CELL			= ЯЧЕЙКА				##	Возвращает информацию о
формате, расположении или содержимом
ячейки.
ERROR.TYPE		= ТИП.ОШИБКИ				##	Возвращает
числовой код, соответствующий типу
ошибки.
INFO			= ИНФОРМ				##	Возвращает информацию о
текущей операционной среде.
ISBLANK			= ЕПУСТО				##	Возвращает значение
ИСТИНА, если аргумент является ссылкой
на пустую ячейку.
ISERR			= ЕОШ					##	Возвращает значение ИСТИНА,
если аргумент ссылается на любое
значение ошибки, кроме #Н/Д.
ISERROR			= ЕОШИБКА				##	Возвращает значение
ИСТИНА, если аргумент ссылается на любое
значение ошибки.
ISEVEN			= ЕЧЁТН					##	Возвращает значение
ИСТИНА, если значение аргумента является
четным числом.
ISLOGICAL		= ЕЛОГИЧ				##	Возвращает значение
ИСТИНА, если аргумент ссылается на
логическое значение.
ISNA			= ЕНД					##	Возвращает значение ИСТИНА,
если аргумент ссылается на значение
ошибки #Н/Д.
ISNONTEXT		= ЕНЕТЕКСТ				##	Возвращает значение
ИСТИНА, если значение аргумента не
является текстом.
ISNUMBER		= ЕЧИСЛО				##	Возвращает значение
ИСТИНА, если аргумент ссылается на число.
ISODD			= ЕНЕЧЁТ				##	Возвращает значение
ИСТИНА, если значение аргумента является
нечетным числом.
ISREF			= ЕССЫЛКА				##	Возвращает значение
ИСТИНА, если значение аргумента является
ссылкой.
ISTEXT			= ЕТЕКСТ				##	Возвращает значение
ИСТИНА, если значение аргумента является
текстом.
N			= Ч					##	Возвращает значение,
преобразованное в число.
NA			= НД					##	Возвращает значение ошибки
#Н/Д.
TYPE			= ТИП					##	Возвращает число,
обозначающее тип данных значения.


##
##	Logical functions					Логические функции
##
AND			= И					##	Renvoie VRAI si tous ses arguments sont VRAI.
FALSE			= ЛОЖЬ					##	Возвращает логическое
значение ЛОЖЬ.
IF			= ЕСЛИ					##	Выполняет проверку условия.
IFERROR			= ЕСЛИОШИБКА				##	Возвращает
введённое значение, если вычисление по
формуле вызывает ошибку; в противном
случае функция возвращает результат
вычисления.
NOT			= НЕ					##	Меняет логическое значение
своего аргумента на противоположное.
OR			= ИЛИ					##	Возвращает значение ИСТИНА,
если хотя бы один аргумент имеет
значение ИСТИНА.
TRUE			= ИСТИНА				##	Возвращает логическое
значение ИСТИНА.


##
##	Lookup and reference functions				Функции ссылки и
поиска
##
ADDRESS			= АДРЕС					##	Возвращает ссылку на
отдельную ячейку листа в виде текста.
AREAS			= ОБЛАСТИ				##	Возвращает количество
областей в ссылке.
CHOOSE			= ВЫБОР					##	Выбирает значение из
списка значений по индексу.
COLUMN			= СТОЛБЕЦ				##	Возвращает номер
столбца, на который указывает ссылка.
COLUMNS			= ЧИСЛСТОЛБ				##	Возвращает
количество столбцов в ссылке.
HLOOKUP			= ГПР					##	Ищет в первой строке
массива и возвращает значение
отмеченной ячейки
HYPERLINK		= ГИПЕРССЫЛКА				##	Создает ссылку,
открывающую документ, который находится
на сервере сети, в интрасети или в
Интернете.
INDEX			= ИНДЕКС				##	Использует индекс для
выбора значения из ссылки или массива.
INDIRECT		= ДВССЫЛ				##	Возвращает ссылку,
заданную текстовым значением.
LOOKUP			= ПРОСМОТР				##	Ищет значения в
векторе или массиве.
MATCH			= ПОИСКПОЗ				##	Ищет значения в ссылке
или массиве.
OFFSET			= СМЕЩ					##	Возвращает смещение
ссылки относительно заданной ссылки.
ROW			= СТРОКА				##	Возвращает номер строки,
определяемой ссылкой.
ROWS			= ЧСТРОК				##	Возвращает количество
строк в ссылке.
RTD			= ДРВ					##	Извлекает данные реального
времени из программ, поддерживающих
автоматизацию COM (Программирование
объектов. Стандартное средство для
работы с объектами некоторого
приложения из другого приложения или
средства разработки. Программирование
объектов (ранее называемое
программированием OLE) является функцией
модели COM (Component Object Model, модель
компонентных объектов).).
TRANSPOSE		= ТРАНСП				##	Возвращает
транспонированный массив.
VLOOKUP			= ВПР					##	Ищет значение в первом
столбце массива и возвращает значение из
ячейки в найденной строке и указанном
столбце.


##
##	Math and trigonometry functions				Математические и
тригонометрические функции
##
ABS			= ABS					##	Возвращает модуль (абсолютную
величину) числа.
ACOS			= ACOS					##	Возвращает арккосинус числа.
ACOSH			= ACOSH					##	Возвращает гиперболический
арккосинус числа.
ASIN			= ASIN					##	Возвращает арксинус числа.
ASINH			= ASINH					##	Возвращает гиперболический
арксинус числа.
ATAN			= ATAN					##	Возвращает арктангенс числа.
ATAN2			= ATAN2					##	Возвращает арктангенс для
заданных координат x и y.
ATANH			= ATANH					##	Возвращает гиперболический
арктангенс числа.
CEILING			= ОКРВВЕРХ				##	Округляет число до
ближайшего целого или до ближайшего
кратного указанному значению.
COMBIN			= ЧИСЛКОМБ				##	Возвращает количество
комбинаций для заданного числа объектов.
COS			= COS					##	Возвращает косинус числа.
COSH			= COSH					##	Возвращает гиперболический
косинус числа.
DEGREES			= ГРАДУСЫ				##	Преобразует радианы в
градусы.
EVEN			= ЧЁТН					##	Округляет число до
ближайшего четного целого.
EXP			= EXP					##	Возвращает число e,
возведенное в указанную степень.
FACT			= ФАКТР					##	Возвращает факториал
числа.
FACTDOUBLE		= ДВФАКТР				##	Возвращает двойной
факториал числа.
FLOOR			= ОКРВНИЗ				##	Округляет число до
ближайшего меньшего по модулю значения.
GCD			= НОД					##	Возвращает наибольший общий
делитель.
INT			= ЦЕЛОЕ					##	Округляет число до
ближайшего меньшего целого.
LCM			= НОК					##	Возвращает наименьшее общее
кратное.
LN			= LN					##	Возвращает натуральный
логарифм числа.
LOG			= LOG					##	Возвращает логарифм числа по
заданному основанию.
LOG10			= LOG10					##	Возвращает десятичный
логарифм числа.
MDETERM			= МОПРЕД				##	Возвращает
определитель матрицы массива.
MINVERSE		= МОБР					##	Возвращает обратную
матрицу массива.
MMULT			= МУМНОЖ				##	Возвращает произведение
матриц двух массивов.
MOD			= ОСТАТ					##	Возвращает остаток от
деления.
MROUND			= ОКРУГЛТ				##	Возвращает число,
округленное с требуемой точностью.
MULTINOMIAL		= МУЛЬТИНОМ				##	Возвращает
мультиномиальный коэффициент множества
чисел.
ODD			= НЕЧЁТ					##	Округляет число до
ближайшего нечетного целого.
PI			= ПИ					##	Возвращает число пи.
POWER			= СТЕПЕНЬ				##	Возвращает результат
возведения числа в степень.
PRODUCT			= ПРОИЗВЕД				##	Возвращает
произведение аргументов.
QUOTIENT		= ЧАСТНОЕ				##	Возвращает целую часть
частного при делении.
RADIANS			= РАДИАНЫ				##	Преобразует градусы в
радианы.
RAND			= СЛЧИС					##	Возвращает случайное
число в интервале от 0 до 1.
RANDBETWEEN		= СЛУЧМЕЖДУ				##	Возвращает
случайное число в интервале между двумя
заданными числами.
ROMAN			= РИМСКОЕ				##	Преобразует арабские
цифры в римские в виде текста.
ROUND			= ОКРУГЛ				##	Округляет число до
указанного количества десятичных
разрядов.
ROUNDDOWN		= ОКРУГЛВНИЗ				##	Округляет число до
ближайшего меньшего по модулю значения.
ROUNDUP			= ОКРУГЛВВЕРХ				##	Округляет число до
ближайшего большего по модулю значения.
SERIESSUM		= РЯД.СУММ				##	Возвращает сумму
степенного ряда, вычисленную по формуле.
SIGN			= ЗНАК					##	Возвращает знак числа.
SIN			= SIN					##	Возвращает синус заданного
угла.
SINH			= SINH					##	Возвращает гиперболический
синус числа.
SQRT			= КОРЕНЬ				##	Возвращает положительное
значение квадратного корня.
SQRTPI			= КОРЕНЬПИ				##	Возвращает квадратный
корень из значения выражения (число * ПИ).
SUBTOTAL		= ПРОМЕЖУТОЧНЫЕ.ИТОГИ			##	Возвращает
промежуточный итог в списке или базе
данных.
SUM			= СУММ					##	Суммирует аргументы.
SUMIF			= СУММЕСЛИ				##	Суммирует ячейки,
удовлетворяющие заданному условию.
SUMIFS			= СУММЕСЛИМН				##	Суммирует диапазон
ячеек, удовлетворяющих нескольким
условиям.
SUMPRODUCT		= СУММПРОИЗВ				##	Возвращает сумму
произведений соответствующих элементов
массивов.
SUMSQ			= СУММКВ				##	Возвращает сумму
квадратов аргументов.
SUMX2MY2		= СУММРАЗНКВ				##	Возвращает сумму
разностей квадратов соответствующих
значений в двух массивах.
SUMX2PY2		= СУММСУММКВ				##	Возвращает сумму
сумм квадратов соответствующих
элементов двух массивов.
SUMXMY2			= СУММКВРАЗН				##	Возвращает сумму
квадратов разностей соответствующих
значений в двух массивах.
TAN			= TAN					##	Возвращает тангенс числа.
TANH			= TANH					##	Возвращает гиперболический
тангенс числа.
TRUNC			= ОТБР					##	Отбрасывает дробную часть
числа.


##
##	Statistical functions					Статистические функции
##
AVEDEV			= СРОТКЛ				##	Возвращает среднее
арифметическое абсолютных значений
отклонений точек данных от среднего.
AVERAGE			= СРЗНАЧ				##	Возвращает среднее
арифметическое аргументов.
AVERAGEA		= СРЗНАЧА				##	Возвращает среднее
арифметическое аргументов, включая
числа, текст и логические значения.
AVERAGEIF		= СРЗНАЧЕСЛИ 				##	Возвращает
среднее значение (среднее
арифметическое) всех ячеек в диапазоне,
которые удовлетворяют данному условию.
AVERAGEIFS		= СРЗНАЧЕСЛИМН 				##	Возвращает
среднее значение (среднее
арифметическое) всех ячеек, которые
удовлетворяют нескольким условиям.
BETADIST		= БЕТАРАСП				##	Возвращает
интегральную функцию
бета-распределения.
BETAINV			= БЕТАОБР				##	Возвращает обратную
интегральную функцию указанного
бета-распределения.
BINOMDIST		= БИНОМРАСП				##	Возвращает
отдельное значение биномиального
распределения.
CHIDIST			= ХИ2РАСП				##	Возвращает
одностороннюю вероятность
распределения хи-квадрат.
CHIINV			= ХИ2ОБР				##	Возвращает обратное
значение односторонней вероятности
распределения хи-квадрат.
CHITEST			= ХИ2ТЕСТ				##	Возвращает тест на
независимость.
CONFIDENCE		= ДОВЕРИТ				##	Возвращает
доверительный интервал для среднего
значения по генеральной совокупности.
CORREL			= КОРРЕЛ				##	Возвращает коэффициент
корреляции между двумя множествами
данных.
COUNT			= СЧЁТ					##	Подсчитывает количество
чисел в списке аргументов.
COUNTA			= СЧЁТЗ					##	Подсчитывает количество
значений в списке аргументов.
COUNTBLANK		= СЧИТАТЬПУСТОТЫ			##	Подсчитывает
количество пустых ячеек в диапазоне
COUNTIF			= СЧЁТЕСЛИ 				##	Подсчитывает
количество ячеек в диапазоне,
удовлетворяющих заданному условию
COUNTIFS		= СЧЁТЕСЛИМН				##	Подсчитывает
количество ячеек внутри диапазона,
удовлетворяющих нескольким условиям.
COVAR			= КОВАР					##	Возвращает ковариацию,
среднее произведений парных отклонений
CRITBINOM		= КРИТБИНОМ				##	Возвращает
наименьшее значение, для которого
интегральное биномиальное
распределение меньше или равно
заданному критерию.
DEVSQ			= КВАДРОТКЛ				##	Возвращает сумму
квадратов отклонений.
EXPONDIST		= ЭКСПРАСП				##	Возвращает
экспоненциальное распределение.
FDIST			= FРАСП					##	Возвращает
F-распределение вероятности.
FINV			= FРАСПОБР				##	Возвращает обратное
значение для F-распределения
вероятности.
FISHER			= ФИШЕР					##	Возвращает
преобразование Фишера.
FISHERINV		= ФИШЕРОБР				##	Возвращает обратное
преобразование Фишера.
FORECAST		= ПРЕДСКАЗ				##	Возвращает значение
линейного тренда.
FREQUENCY		= ЧАСТОТА				##	Возвращает
распределение частот в виде
вертикального массива.
FTEST			= ФТЕСТ					##	Возвращает результат
F-теста.
GAMMADIST		= ГАММАРАСП				##	Возвращает
гамма-распределение.
GAMMAINV		= ГАММАОБР				##	Возвращает обратное
гамма-распределение.
GAMMALN			= ГАММАНЛОГ				##	Возвращает
натуральный логарифм гамма функции, Γ(x).
GEOMEAN			= СРГЕОМ				##	Возвращает среднее
геометрическое.
GROWTH			= РОСТ					##	Возвращает значения в
соответствии с экспоненциальным
трендом.
HARMEAN			= СРГАРМ				##	Возвращает среднее
гармоническое.
HYPGEOMDIST		= ГИПЕРГЕОМЕТ				##	Возвращает
гипергеометрическое распределение.
INTERCEPT		= ОТРЕЗОК				##	Возвращает отрезок,
отсекаемый на оси линией линейной
регрессии.
KURT			= ЭКСЦЕСС				##	Возвращает эксцесс
множества данных.
LARGE			= НАИБОЛЬШИЙ				##	Возвращает k-ое
наибольшее значение в множестве данных.
LINEST			= ЛИНЕЙН				##	Возвращает параметры
линейного тренда.
LOGEST			= ЛГРФПРИБЛ				##	Возвращает параметры
экспоненциального тренда.
LOGINV			= ЛОГНОРМОБР				##	Возвращает обратное
логарифмическое нормальное
распределение.
LOGNORMDIST		= ЛОГНОРМРАСП				##	Возвращает
интегральное логарифмическое
нормальное распределение.
MAX			= МАКС					##	Возвращает наибольшее
значение в списке аргументов.
MAXA			= МАКСА					##	Возвращает наибольшее
значение в списке аргументов, включая
числа, текст и логические значения.
MEDIAN			= МЕДИАНА				##	Возвращает медиану
заданных чисел.
MIN			= МИН					##	Возвращает наименьшее
значение в списке аргументов.
MINA			= МИНА					##	Возвращает наименьшее
значение в списке аргументов, включая
числа, текст и логические значения.
MODE			= МОДА					##	Возвращает значение моды
множества данных.
NEGBINOMDIST		= ОТРБИНОМРАСП				##	Возвращает
отрицательное биномиальное
распределение.
NORMDIST		= НОРМРАСП				##	Возвращает
нормальную функцию распределения.
NORMINV			= НОРМОБР				##	Возвращает обратное
нормальное распределение.
NORMSDIST		= НОРМСТРАСП				##	Возвращает
стандартное нормальное интегральное
распределение.
NORMSINV		= НОРМСТОБР				##	Возвращает обратное
значение стандартного нормального
распределения.
PEARSON			= ПИРСОН				##	Возвращает коэффициент
корреляции Пирсона.
PERCENTILE		= ПЕРСЕНТИЛЬ				##	Возвращает k-ую
персентиль для значений диапазона.
PERCENTRANK		= ПРОЦЕНТРАНГ				##	Возвращает
процентную норму значения в множестве
данных.
PERMUT			= ПЕРЕСТ				##	Возвращает количество
перестановок для заданного числа
объектов.
POISSON			= ПУАССОН				##	Возвращает
распределение Пуассона.
PROB			= ВЕРОЯТНОСТЬ				##	Возвращает
вероятность того, что значение из
диапазона находится внутри заданных
пределов.
QUARTILE		= КВАРТИЛЬ				##	Возвращает квартиль
множества данных.
RANK			= РАНГ					##	Возвращает ранг числа в
списке чисел.
RSQ			= КВПИРСОН				##	Возвращает квадрат
коэффициента корреляции Пирсона.
SKEW			= СКОС					##	Возвращает асимметрию
распределения.
SLOPE			= НАКЛОН				##	Возвращает наклон линии
линейной регрессии.
SMALL			= НАИМЕНЬШИЙ				##	Возвращает k-ое
наименьшее значение в множестве данных.
STANDARDIZE		= НОРМАЛИЗАЦИЯ				##	Возвращает
нормализованное значение.
STDEV			= СТАНДОТКЛОН				##	Оценивает
стандартное отклонение по выборке.
STDEVA			= СТАНДОТКЛОНА				##	Оценивает
стандартное отклонение по выборке,
включая числа, текст и логические
значения.
STDEVP			= СТАНДОТКЛОНП				##	Вычисляет
стандартное отклонение по генеральной
совокупности.
STDEVPA			= СТАНДОТКЛОНПА				##	Вычисляет
стандартное отклонение по генеральной
совокупности, включая числа, текст и
логические значения.
STEYX			= СТОШYX				##	Возвращает стандартную
ошибку предсказанных значений y для
каждого значения x в регрессии.
TDIST			= СТЬЮДРАСП				##	Возвращает
t-распределение Стьюдента.
TINV			= СТЬЮДРАСПОБР				##	Возвращает
обратное t-распределение Стьюдента.
TREND			= ТЕНДЕНЦИЯ				##	Возвращает значения в
соответствии с линейным трендом.
TRIMMEAN		= УРЕЗСРЕДНЕЕ				##	Возвращает
среднее внутренности множества данных.
TTEST			= ТТЕСТ					##	Возвращает вероятность,
соответствующую критерию Стьюдента.
VAR			= ДИСП					##	Оценивает дисперсию по
выборке.
VARA			= ДИСПА					##	Оценивает дисперсию по
выборке, включая числа, текст и
логические значения.
VARP			= ДИСПР					##	Вычисляет дисперсию для
генеральной совокупности.
VARPA			= ДИСПРА				##	Вычисляет дисперсию для
генеральной совокупности, включая числа,
текст и логические значения.
WEIBULL			= ВЕЙБУЛЛ				##	Возвращает
распределение Вейбулла.
ZTEST			= ZТЕСТ					##	Возвращает двустороннее
P-значение z-теста.


##
##	Text functions						Текстовые функции
##
ASC			= ASC					##	Для языков с двухбайтовыми
наборами знаков (например, катакана)
преобразует полноширинные
(двухбайтовые) знаки в полуширинные
(однобайтовые).
BAHTTEXT		= БАТТЕКСТ				##	Преобразует число в
текст, используя денежный формат ß (БАТ).
CHAR			= СИМВОЛ				##	Возвращает знак с
заданным кодом.
CLEAN			= ПЕЧСИМВ				##	Удаляет все
непечатаемые знаки из текста.
CODE			= КОДСИМВ				##	Возвращает числовой код
первого знака в текстовой строке.
CONCATENATE		= СЦЕПИТЬ				##	Объединяет несколько
текстовых элементов в один.
DOLLAR			= РУБЛЬ					##	Преобразует число в
текст, используя денежный формат.
EXACT			= СОВПАД				##	Проверяет идентичность
двух текстовых значений.
FIND			= НАЙТИ					##	Ищет вхождения одного
текстового значения в другом (с учетом
регистра).
FINDB			= НАЙТИБ				##	Ищет вхождения одного
текстового значения в другом (с учетом
регистра).
FIXED			= ФИКСИРОВАННЫЙ				##	Форматирует
число и преобразует его в текст с
заданным числом десятичных знаков.
JIS			= JIS					##	Для языков с двухбайтовыми
наборами знаков (например, катакана)
преобразует полуширинные (однобайтовые)
знаки в текстовой строке в полноширинные
(двухбайтовые).
LEFT			= ЛЕВСИМВ				##	Возвращает крайние
слева знаки текстового значения.
LEFTB			= ЛЕВБ					##	Возвращает крайние слева
знаки текстового значения.
LEN			= ДЛСТР					##	Возвращает количество
знаков в текстовой строке.
LENB			= ДЛИНБ					##	Возвращает количество
знаков в текстовой строке.
LOWER			= СТРОЧН				##	Преобразует все буквы
текста в строчные.
MID			= ПСТР					##	Возвращает заданное число
знаков из строки текста, начиная с
указанной позиции.
MIDB			= ПСТРБ					##	Возвращает заданное число
знаков из строки текста, начиная с
указанной позиции.
PHONETIC		= PHONETIC				##	Извлекает фонетические
(фуригана) знаки из текстовой строки.
PROPER			= ПРОПНАЧ				##	Преобразует первую
букву в каждом слове текста в прописную.
REPLACE			= ЗАМЕНИТЬ				##	Заменяет знаки в
тексте.
REPLACEB		= ЗАМЕНИТЬБ				##	Заменяет знаки в
тексте.
REPT			= ПОВТОР				##	Повторяет текст заданное
число раз.
RIGHT			= ПРАВСИМВ				##	Возвращает крайние
справа знаки текстовой строки.
RIGHTB			= ПРАВБ					##	Возвращает крайние
справа знаки текстовой строки.
SEARCH			= ПОИСК					##	Ищет вхождения одного
текстового значения в другом (без учета
регистра).
SEARCHB			= ПОИСКБ				##	Ищет вхождения одного
текстового значения в другом (без учета
регистра).
SUBSTITUTE		= ПОДСТАВИТЬ				##	Заменяет в
текстовой строке старый текст новым.
T			= Т					##	Преобразует аргументы в текст.
TEXT			= ТЕКСТ					##	Форматирует число и
преобразует его в текст.
TRIM			= СЖПРОБЕЛЫ				##	Удаляет из текста
пробелы.
UPPER			= ПРОПИСН				##	Преобразует все буквы
текста в прописные.
VALUE			= ЗНАЧЕН				##	Преобразует текстовый
аргумент в число.
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/locale/cs/config000064400000000357151165413730024036
0ustar00##
## PhpSpreadsheet
##

ArgumentSeparator	= ;


##
##	(For future use)
##
currencySymbol	= Kč


##
##	Excel Error Codes	(For future use)
##
NULL	= #NULL!
DIV0	= #DIV/0!
VALUE	= #HODNOTA!
REF	= #REF!
NAME	= #NÁZEV?
NUM	= #NUM!
NA	= #N/A
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/locale/cs/functions000064400000073364151165413730024611
0ustar00##
## PhpSpreadsheet
##
## Data in this file derived from
https://www.excel-function-translation.com/
##
##


##
##	Add-in and Automation functions		Funkce doplňků a automatizace
##
GETPIVOTDATA		= ZÍSKATKONTDATA	##	Vrátí data uložená v kontingenční
tabulce. Pomocí funkce ZÍSKATKONTDATA můžete načíst souhrnná data z
kontingenční tabulky, pokud jsou tato data v kontingenční sestavě
zobrazena.


##
##	Cube functions				Funkce pro práci s krychlemi
##
CUBEKPIMEMBER		= CUBEKPIMEMBER		##	Vrátí název, vlastnost a velikost
klíčového ukazatele výkonu (KUV) a zobrazí v buňce název a
vlastnost. Klíčový ukazatel výkonu je kvantifikovatelná veličina,
například hrubý měsíční zisk nebo čtvrtletní obrat na
zaměstnance, která se používá pro sledování výkonnosti organizace.
CUBEMEMBER		= CUBEMEMBER		##	Vrátí člen nebo n-tici v hierarchii
krychle. Slouží k ověření, zda v krychli existuje člen nebo n-tice.
CUBEMEMBERPROPERTY	= CUBEMEMBERPROPERTY	##	Vrátí hodnotu vlastnosti
člena v krychli. Slouží k ověření, zda v krychli existuje člen s
daným názvem, a k vrácení konkrétní vlastnosti tohoto člena.
CUBERANKEDMEMBER	= CUBERANKEDMEMBER	##	Vrátí n-tý nebo pořadový člen
sady. Použijte ji pro vrácení jednoho nebo více prvků sady,
například obchodníka s nejvyšším obratem nebo deseti nejlepších
studentů.
CUBESET			= CUBESET		##	Definuje vypočtenou sadu členů nebo n-tic
odesláním výrazu sady do krychle na serveru, který vytvoří sadu a
potom ji vrátí do aplikace Microsoft Office Excel.
CUBESETCOUNT		= CUBESETCOUNT		##	Vrátí počet položek v množině
CUBEVALUE		= CUBEVALUE		##	Vrátí úhrnnou hodnotu z krychle.


##
##	Database functions			Funkce databáze
##
DAVERAGE		= DPRŮMĚR		##	Vrátí průměr vybraných položek databáze.
DCOUNT			= DPOČET		##	Spočítá buňky databáze obsahující čísla.
DCOUNTA			= DPOČET2		##	Spočítá buňky databáze, které nejsou
prázdné.
DGET			= DZÍSKAT		##	Extrahuje z databáze jeden záznam splňující
zadaná kritéria.
DMAX			= DMAX			##	Vrátí maximální hodnotu z vybraných položek
databáze.
DMIN			= DMIN			##	Vrátí minimální hodnotu z vybraných položek
databáze.
DPRODUCT		= DSOUČIN		##	Vynásobí hodnoty určitého pole záznamů v
databázi, které splňují daná kritéria.
DSTDEV			= DSMODCH.VÝBĚR		##	Odhadne směrodatnou odchylku výběru
vybraných položek databáze.
DSTDEVP			= DSMODCH		##	Vypočte směrodatnou odchylku základního souboru
vybraných položek databáze.
DSUM			= DSUMA			##	Sečte čísla ve sloupcovém poli záznamů databáze,
která splňují daná kritéria.
DVAR			= DVAR.VÝBĚR		##	Odhadne rozptyl výběru vybraných položek
databáze.
DVARP			= DVAR			##	Vypočte rozptyl základního souboru vybraných
položek databáze.


##
##	Date and time functions			Funkce data a času
##
DATE			= DATUM			##	Vrátí pořadové číslo určitého data.
DATEVALUE		= DATUMHODN		##	Převede datum ve formě textu na pořadové
číslo.
DAY			= DEN			##	Převede pořadové číslo na den v měsíci.
DAYS360			= ROK360		##	Vrátí počet dní mezi dvěma daty na základě
roku s 360 dny.
EDATE			= EDATE			##	Vrátí pořadové číslo data, které označuje
určený počet měsíců před nebo po počátečním datu.
EOMONTH			= EOMONTH		##	Vrátí pořadové číslo posledního dne měsíce
před nebo po zadaném počtu měsíců.
HOUR			= HODINA		##	Převede pořadové číslo na hodinu.
MINUTE			= MINUTA		##	Převede pořadové číslo na minutu.
MONTH			= MĚSÍC			##	Převede pořadové číslo na měsíc.
NETWORKDAYS		= NETWORKDAYS		##	Vrátí počet celých pracovních dní mezi
dvěma daty.
NOW			= NYNÍ			##	Vrátí pořadové číslo aktuálního data a času.
SECOND			= SEKUNDA		##	Převede pořadové číslo na sekundu.
TIME			= ČAS			##	Vrátí pořadové číslo určitého času.
TIMEVALUE		= ČASHODN		##	Převede čas ve formě textu na pořadové
číslo.
TODAY			= DNES			##	Vrátí pořadové číslo dnešního data.
WEEKDAY			= DENTÝDNE		##	Převede pořadové číslo na den v týdnu.
WEEKNUM			= WEEKNUM		##	Převede pořadové číslo na číslo
představující číselnou pozici týdne v roce.
WORKDAY			= WORKDAY		##	Vrátí pořadové číslo data před nebo po
zadaném počtu pracovních dní.
YEAR			= ROK			##	Převede pořadové číslo na rok.
YEARFRAC		= YEARFRAC		##	Vrátí část roku vyjádřenou zlomkem a
představující počet celých dní mezi počátečním a koncovým datem.


##
##	Engineering functions			Inženýrské funkce (Technické funkce)
##
BESSELI			= BESSELI		##	Vrátí modifikovanou Besselovu funkci In(x).
BESSELJ			= BESSELJ		##	Vrátí modifikovanou Besselovu funkci Jn(x).
BESSELK			= BESSELK		##	Vrátí modifikovanou Besselovu funkci Kn(x).
BESSELY			= BESSELY		##	Vrátí Besselovu funkci Yn(x).
BIN2DEC			= BIN2DEC		##	Převede binární číslo na desítkové.
BIN2HEX			= BIN2HEX		##	Převede binární číslo na šestnáctkové.
BIN2OCT			= BIN2OCT		##	Převede binární číslo na osmičkové.
COMPLEX			= COMPLEX		##	Převede reálnou a imaginární část na
komplexní číslo.
CONVERT			= CONVERT		##	Převede číslo do jiného jednotkového měrného
systému.
DEC2BIN			= DEC2BIN		##	Převede desítkového čísla na dvojkové
DEC2HEX			= DEC2HEX		##	Převede desítkové číslo na šestnáctkové.
DEC2OCT			= DEC2OCT		##	Převede desítkové číslo na osmičkové.
DELTA			= DELTA			##	Testuje rovnost dvou hodnot.
ERF			= ERF			##	Vrátí chybovou funkci.
ERFC			= ERFC			##	Vrátí doplňkovou chybovou funkci.
GESTEP			= GESTEP		##	Testuje, zda je číslo větší než mezní hodnota.
HEX2BIN			= HEX2BIN		##	Převede šestnáctkové číslo na binární.
HEX2DEC			= HEX2DEC		##	Převede šestnáctkové číslo na desítkové.
HEX2OCT			= HEX2OCT		##	Převede šestnáctkové číslo na osmičkové.
IMABS			= IMABS			##	Vrátí absolutní hodnotu (modul) komplexního
čísla.
IMAGINARY		= IMAGINARY		##	Vrátí imaginární část komplexního
čísla.
IMARGUMENT		= IMARGUMENT		##	Vrátí argument théta, úhel vyjádřený v
radiánech.
IMCONJUGATE		= IMCONJUGATE		##	Vrátí komplexně sdružené číslo ke
komplexnímu číslu.
IMCOS			= IMCOS			##	Vrátí kosinus komplexního čísla.
IMDIV			= IMDIV			##	Vrátí podíl dvou komplexních čísel.
IMEXP			= IMEXP			##	Vrátí exponenciální tvar komplexního čísla.
IMLN			= IMLN			##	Vrátí přirozený logaritmus komplexního čísla.
IMLOG10			= IMLOG10		##	Vrátí dekadický logaritmus komplexního čísla.
IMLOG2			= IMLOG2		##	Vrátí logaritmus komplexního čísla při základu
2.
IMPOWER			= IMPOWER		##	Vrátí komplexní číslo umocněné na celé
číslo.
IMPRODUCT		= IMPRODUCT		##	Vrátí součin komplexních čísel.
IMREAL			= IMREAL		##	Vrátí reálnou část komplexního čísla.
IMSIN			= IMSIN			##	Vrátí sinus komplexního čísla.
IMSQRT			= IMSQRT		##	Vrátí druhou odmocninu komplexního čísla.
IMSUB			= IMSUB			##	Vrátí rozdíl mezi dvěma komplexními čísly.
IMSUM			= IMSUM			##	Vrátí součet dvou komplexních čísel.
OCT2BIN			= OCT2BIN		##	Převede osmičkové číslo na binární.
OCT2DEC			= OCT2DEC		##	Převede osmičkové číslo na desítkové.
OCT2HEX			= OCT2HEX		##	Převede osmičkové číslo na šestnáctkové.


##
##	Financial functions			Finanční funkce
##
ACCRINT			= ACCRINT		##	Vrátí nahromaděný úrok z cenného papíru, ze
kterého je úrok placen v pravidelných termínech.
ACCRINTM		= ACCRINTM		##	Vrátí nahromaděný úrok z cenného papíru, ze
kterého je úrok placen k datu splatnosti.
AMORDEGRC		= AMORDEGRC		##	Vrátí lineární amortizaci v každém
účetním období pomocí koeficientu amortizace.
AMORLINC		= AMORLINC		##	Vrátí lineární amortizaci v každém
účetním období.
COUPDAYBS		= COUPDAYBS		##	Vrátí počet dnů od začátku období
placení kupónů do data splatnosti.
COUPDAYS		= COUPDAYS		##	Vrátí počet dnů v období placení kupónů,
které obsahuje den zúčtování.
COUPDAYSNC		= COUPDAYSNC		##	Vrátí počet dnů od data zúčtování do
následujícího data placení kupónu.
COUPNCD			= COUPNCD		##	Vrátí následující datum placení kupónu po
datu zúčtování.
COUPNUM			= COUPNUM		##	Vrátí počet kupónů splatných mezi datem
zúčtování a datem splatnosti.
COUPPCD			= COUPPCD		##	Vrátí předchozí datum placení kupónu před
datem zúčtování.
CUMIPMT			= CUMIPMT		##	Vrátí kumulativní úrok splacený mezi dvěma
obdobími.
CUMPRINC		= CUMPRINC		##	Vrátí kumulativní jistinu splacenou mezi dvěma
obdobími půjčky.
DB			= ODPIS.ZRYCH		##	Vrátí odpis aktiva za určité období pomocí
degresivní metody odpisu s pevným zůstatkem.
DDB			= ODPIS.ZRYCH2		##	Vrátí odpis aktiva za určité období pomocí
dvojité degresivní metody odpisu nebo jiné metody, kterou zadáte.
DISC			= DISC			##	Vrátí diskontní sazbu cenného papíru.
DOLLARDE		= DOLLARDE		##	Převede částku v korunách vyjádřenou zlomkem
na částku v korunách vyjádřenou desetinným číslem.
DOLLARFR		= DOLLARFR		##	Převede částku v korunách vyjádřenou
desetinným číslem na částku v korunách vyjádřenou zlomkem.
DURATION		= DURATION		##	Vrátí roční dobu cenného papíru s
pravidelnými úrokovými sazbami.
EFFECT			= EFFECT		##	Vrátí efektivní roční úrokovou sazbu.
FV			= BUDHODNOTA		##	Vrátí budoucí hodnotu investice.
FVSCHEDULE		= FVSCHEDULE		##	Vrátí budoucí hodnotu počáteční jistiny
po použití série sazeb složitého úroku.
INTRATE			= INTRATE		##	Vrátí úrokovou sazbu plně investovaného
cenného papíru.
IPMT			= PLATBA.ÚROK		##	Vrátí výšku úroku investice za dané
období.
IRR			= MÍRA.VÝNOSNOSTI	##	Vrátí vnitřní výnosové procento série
peněžních toků.
ISPMT			= ISPMT			##	Vypočte výši úroku z investice zaplaceného během
určitého období.
MDURATION		= MDURATION		##	Vrátí Macauleyho modifikovanou dobu cenného
papíru o nominální hodnotě 100 Kč.
MIRR			= MOD.MÍRA.VÝNOSNOSTI	##	Vrátí vnitřní sazbu výnosu,
přičemž kladné a záporné hodnoty peněžních prostředků jsou
financovány podle různých sazeb.
NOMINAL			= NOMINAL		##	Vrátí nominální roční úrokovou sazbu.
NPER			= POČET.OBDOBÍ		##	Vrátí počet období pro investici.
NPV			= ČISTÁ.SOUČHODNOTA	##	Vrátí čistou současnou hodnotu
investice vypočítanou na základě série pravidelných peněžních
toků a diskontní sazby.
ODDFPRICE		= ODDFPRICE		##	Vrátí cenu cenného papíru o nominální
hodnotě 100 Kč s odlišným prvním obdobím.
ODDFYIELD		= ODDFYIELD		##	Vrátí výnos cenného papíru s odlišným
prvním obdobím.
ODDLPRICE		= ODDLPRICE		##	Vrátí cenu cenného papíru o nominální
hodnotě 100 Kč s odlišným posledním obdobím.
ODDLYIELD		= ODDLYIELD		##	Vrátí výnos cenného papíru s odlišným
posledním obdobím.
PMT			= PLATBA		##	Vrátí hodnotu pravidelné splátky anuity.
PPMT			= PLATBA.ZÁKLAD		##	Vrátí hodnotu splátky jistiny pro zadanou
investici za dané období.
PRICE			= PRICE			##	Vrátí cenu cenného papíru o nominální hodnotě
100 Kč, ze kterého je úrok placen v pravidelných termínech.
PRICEDISC		= PRICEDISC		##	Vrátí cenu diskontního cenného papíru o
nominální hodnotě 100 Kč.
PRICEMAT		= PRICEMAT		##	Vrátí cenu cenného papíru o nominální
hodnotě 100 Kč, ze kterého je úrok placen k datu splatnosti.
PV			= SOUČHODNOTA		##	Vrátí současnou hodnotu investice.
RATE			= ÚROKOVÁ.MÍRA		##	Vrátí úrokovou sazbu vztaženou na období
anuity.
RECEIVED		= RECEIVED		##	Vrátí částku obdrženou k datu splatnosti
plně investovaného cenného papíru.
SLN			= ODPIS.LIN		##	Vrátí přímé odpisy aktiva pro jedno období.
SYD			= ODPIS.NELIN		##	Vrátí směrné číslo ročních odpisů aktiva
pro zadané období.
TBILLEQ			= TBILLEQ		##	Vrátí výnos směnky státní pokladny
ekvivalentní výnosu obligace.
TBILLPRICE		= TBILLPRICE		##	Vrátí cenu směnky státní pokladny o
nominální hodnotě 100 Kč.
TBILLYIELD		= TBILLYIELD		##	Vrátí výnos směnky státní pokladny.
VDB			= ODPIS.ZA.INT		##	Vrátí odpis aktiva pro určité období nebo
část období pomocí degresivní metody odpisu.
XIRR			= XIRR			##	Vrátí vnitřní výnosnost pro harmonogram
peněžních toků, který nemusí být nutně periodický.
XNPV			= XNPV			##	Vrátí čistou současnou hodnotu pro harmonogram
peněžních toků, který nemusí být nutně periodický.
YIELD			= YIELD			##	Vrátí výnos cenného papíru, ze kterého je úrok
placen v pravidelných termínech.
YIELDDISC		= YIELDDISC		##	Vrátí roční výnos diskontního cenného
papíru, například směnky státní pokladny.
YIELDMAT		= YIELDMAT		##	Vrátí roční výnos cenného papíru, ze
kterého je úrok placen k datu splatnosti.


##
##	Information functions			Informační funkce
##
CELL			= POLÍČKO		##	Vrátí informace o formátování, umístění nebo
obsahu buňky.
ERROR.TYPE		= CHYBA.TYP		##	Vrátí číslo odpovídající typu chyby.
INFO			= O.PROSTŘEDÍ		##	Vrátí informace o aktuálním pracovním
prostředí.
ISBLANK			= JE.PRÁZDNÉ		##	Vrátí hodnotu PRAVDA, pokud se argument
hodnota odkazuje na prázdnou buňku.
ISERR			= JE.CHYBA		##	Vrátí hodnotu PRAVDA, pokud je argument hodnota
libovolná chybová hodnota (kromě #N/A).
ISERROR			= JE.CHYBHODN		##	Vrátí hodnotu PRAVDA, pokud je argument
hodnota libovolná chybová hodnota.
ISEVEN			= ISEVEN		##	Vrátí hodnotu PRAVDA, pokud je číslo sudé.
ISLOGICAL		= JE.LOGHODN		##	Vrátí hodnotu PRAVDA, pokud je argument
hodnota logická hodnota.
ISNA			= JE.NEDEF		##	Vrátí hodnotu PRAVDA, pokud je argument hodnota
chybová hodnota #N/A.
ISNONTEXT		= JE.NETEXT		##	Vrátí hodnotu PRAVDA, pokud argument hodnota
není text.
ISNUMBER		= JE.ČÍSLO		##	Vrátí hodnotu PRAVDA, pokud je argument
hodnota číslo.
ISODD			= ISODD			##	Vrátí hodnotu PRAVDA, pokud je číslo liché.
ISREF			= JE.ODKAZ		##	Vrátí hodnotu PRAVDA, pokud je argument hodnota
odkaz.
ISTEXT			= JE.TEXT		##	Vrátí hodnotu PRAVDA, pokud je argument hodnota
text.
N			= N			##	Vrátí hodnotu převedenou na číslo.
NA			= NEDEF			##	Vrátí chybovou hodnotu #N/A.
TYPE			= TYP			##	Vrátí číslo označující datový typ hodnoty.


##
##	Logical functions			Logické funkce
##
AND			= A			##	Vrátí hodnotu PRAVDA, mají-li všechny argumenty hodnotu
PRAVDA.
FALSE			= NEPRAVDA		##	Vrátí logickou hodnotu NEPRAVDA.
IF			= KDYŽ			##	Určí, který logický test má proběhnout.
IFERROR			= IFERROR		##	Pokud je vzorec vyhodnocen jako chyba, vrátí
zadanou hodnotu. V opačném případě vrátí výsledek vzorce.
NOT			= NE			##	Provede logickou negaci argumentu funkce.
OR			= NEBO			##	Vrátí hodnotu PRAVDA, je-li alespoň jeden argument
roven hodnotě PRAVDA.
TRUE			= PRAVDA		##	Vrátí logickou hodnotu PRAVDA.


##
##	Lookup and reference functions		Vyhledávací funkce
##
ADDRESS			= ODKAZ			##	Vrátí textový odkaz na jednu buňku listu.
AREAS			= POČET.BLOKŮ		##	Vrátí počet oblastí v odkazu.
CHOOSE			= ZVOLIT		##	Zvolí hodnotu ze seznamu hodnot.
COLUMN			= SLOUPEC		##	Vrátí číslo sloupce odkazu.
COLUMNS			= SLOUPCE		##	Vrátí počet sloupců v odkazu.
HLOOKUP			= VVYHLEDAT		##	Prohledá horní řádek matice a vrátí hodnotu
určené buňky.
HYPERLINK		= HYPERTEXTOVÝ.ODKAZ	##	Vytvoří zástupce nebo odkaz, který
otevře dokument uložený na síťovém serveru, v síti intranet nebo
Internet.
INDEX			= INDEX			##	Pomocí rejstříku zvolí hodnotu z odkazu nebo
matice.
INDIRECT		= NEPŘÍMÝ.ODKAZ		##	Vrátí odkaz určený textovou hodnotou.
LOOKUP			= VYHLEDAT		##	Vyhledá hodnoty ve vektoru nebo matici.
MATCH			= POZVYHLEDAT		##	Vyhledá hodnoty v odkazu nebo matici.
OFFSET			= POSUN			##	Vrátí posun odkazu od zadaného odkazu.
ROW			= ŘÁDEK			##	Vrátí číslo řádku odkazu.
ROWS			= ŘÁDKY			##	Vrátí počet řádků v odkazu.
RTD			= RTD			##	Načte data reálného času z programu, který podporuje
automatizaci modelu COM (Automatizace: Způsob práce s objekty určité
aplikace z jiné aplikace nebo nástroje pro vývoj. Automatizace (dříve
nazývaná automatizace OLE) je počítačovým standardem a je funkcí
modelu COM (Component Object Model).).
TRANSPOSE		= TRANSPOZICE		##	Vrátí transponovanou matici.
VLOOKUP			= SVYHLEDAT		##	Prohledá první sloupec matice, přesune kurzor
v řádku a vrátí hodnotu buňky.


##
##	Math and trigonometry functions		Matematické a trigonometrické funkce
##
ABS			= ABS			##	Vrátí absolutní hodnotu čísla.
ACOS			= ARCCOS		##	Vrátí arkuskosinus čísla.
ACOSH			= ARCCOSH		##	Vrátí hyperbolický arkuskosinus čísla.
ASIN			= ARCSIN		##	Vrátí arkussinus čísla.
ASINH			= ARCSINH		##	Vrátí hyperbolický arkussinus čísla.
ATAN			= ARCTG			##	Vrátí arkustangens čísla.
ATAN2			= ARCTG2		##	Vrátí arkustangens x-ové a y-ové souřadnice.
ATANH			= ARCTGH		##	Vrátí hyperbolický arkustangens čísla.
CEILING			= ZAOKR.NAHORU		##	Zaokrouhlí číslo na nejbližší celé
číslo nebo na nejbližší násobek zadané hodnoty.
COMBIN			= KOMBINACE		##	Vrátí počet kombinací pro daný počet
položek.
COS			= COS			##	Vrátí kosinus čísla.
COSH			= COSH			##	Vrátí hyperbolický kosinus čísla.
DEGREES			= DEGREES		##	Převede radiány na stupně.
EVEN			= ZAOKROUHLIT.NA.SUDÉ	##	Zaokrouhlí číslo nahoru na nejbližší
celé sudé číslo.
EXP			= EXP			##	Vrátí základ přirozeného logaritmu e umocněný na
zadané číslo.
FACT			= FAKTORIÁL		##	Vrátí faktoriál čísla.
FACTDOUBLE		= FACTDOUBLE		##	Vrátí dvojitý faktoriál čísla.
FLOOR			= ZAOKR.DOLŮ		##	Zaokrouhlí číslo dolů, směrem k nule.
GCD			= GCD			##	Vrátí největší společný dělitel.
INT			= CELÁ.ČÁST		##	Zaokrouhlí číslo dolů na nejbližší celé
číslo.
LCM			= LCM			##	Vrátí nejmenší společný násobek.
LN			= LN			##	Vrátí přirozený logaritmus čísla.
LOG			= LOGZ			##	Vrátí logaritmus čísla při zadaném základu.
LOG10			= LOG			##	Vrátí dekadický logaritmus čísla.
MDETERM			= DETERMINANT		##	Vrátí determinant matice.
MINVERSE		= INVERZE		##	Vrátí inverzní matici.
MMULT			= SOUČIN.MATIC		##	Vrátí součin dvou matic.
MOD			= MOD			##	Vrátí zbytek po dělení.
MROUND			= MROUND		##	Vrátí číslo zaokrouhlené na požadovaný
násobek.
MULTINOMIAL		= MULTINOMIAL		##	Vrátí mnohočlen z množiny čísel.
ODD			= ZAOKROUHLIT.NA.LICHÉ	##	Zaokrouhlí číslo nahoru na nejbližší
celé liché číslo.
PI			= PI			##	Vrátí hodnotu čísla pí.
POWER			= POWER			##	Umocní číslo na zadanou mocninu.
PRODUCT			= SOUČIN		##	Vynásobí argumenty funkce.
QUOTIENT		= QUOTIENT		##	Vrátí celou část dělení.
RADIANS			= RADIANS		##	Převede stupně na radiány.
RAND			= NÁHČÍSLO		##	Vrátí náhodné číslo mezi 0 a 1.
RANDBETWEEN		= RANDBETWEEN		##	Vrátí náhodné číslo mezi zadanými
čísly.
ROMAN			= ROMAN			##	Převede arabskou číslici na římskou ve formátu
textu.
ROUND			= ZAOKROUHLIT		##	Zaokrouhlí číslo na zadaný počet číslic.
ROUNDDOWN		= ROUNDDOWN		##	Zaokrouhlí číslo dolů, směrem k nule.
ROUNDUP			= ROUNDUP		##	Zaokrouhlí číslo nahoru, směrem od nuly.
SERIESSUM		= SERIESSUM		##	Vrátí součet mocninné řady určené podle
vzorce.
SIGN			= SIGN			##	Vrátí znaménko čísla.
SIN			= SIN			##	Vrátí sinus daného úhlu.
SINH			= SINH			##	Vrátí hyperbolický sinus čísla.
SQRT			= ODMOCNINA		##	Vrátí kladnou druhou odmocninu.
SQRTPI			= SQRTPI		##	Vrátí druhou odmocninu výrazu (číslo * pí).
SUBTOTAL		= SUBTOTAL		##	Vrátí souhrn v seznamu nebo databázi.
SUM			= SUMA			##	Sečte argumenty funkce.
SUMIF			= SUMIF			##	Sečte buňky vybrané podle zadaných kritérií.
SUMIFS			= SUMIFS		##	Sečte buňky určené více zadanými podmínkami.
SUMPRODUCT		= SOUČIN.SKALÁRNÍ	##	Vrátí součet součinů
odpovídajících prvků matic.
SUMSQ			= SUMA.ČTVERCŮ		##	Vrátí součet čtverců argumentů.
SUMX2MY2		= SUMX2MY2		##	Vrátí součet rozdílu čtverců
odpovídajících hodnot ve dvou maticích.
SUMX2PY2		= SUMX2PY2		##	Vrátí součet součtu čtverců
odpovídajících hodnot ve dvou maticích.
SUMXMY2			= SUMXMY2		##	Vrátí součet čtverců rozdílů
odpovídajících hodnot ve dvou maticích.
TAN			= TGTG			##	Vrátí tangens čísla.
TANH			= TGH			##	Vrátí hyperbolický tangens čísla.
TRUNC			= USEKNOUT		##	Zkrátí číslo na celé číslo.


##
##	Statistical functions			Statistické funkce
##
AVEDEV			= PRŮMODCHYLKA		##	Vrátí průměrnou hodnotu absolutních
odchylek datových bodů od jejich střední hodnoty.
AVERAGE			= PRŮMĚR		##	Vrátí průměrnou hodnotu argumentů.
AVERAGEA		= AVERAGEA		##	Vrátí průměrnou hodnotu argumentů včetně
čísel, textu a logických hodnot.
AVERAGEIF		= AVERAGEIF		##	Vrátí průměrnou hodnotu (aritmetický
průměr) všech buněk v oblasti, které vyhovují příslušné
podmínce.
AVERAGEIFS		= AVERAGEIFS		##	Vrátí průměrnou hodnotu (aritmetický
průměr) všech buněk vyhovujících několika podmínkám.
BETADIST		= BETADIST		##	Vrátí hodnotu součtového rozdělení beta.
BETAINV			= BETAINV		##	Vrátí inverzní hodnotu součtového rozdělení
pro zadané rozdělení beta.
BINOMDIST		= BINOMDIST		##	Vrátí hodnotu binomického rozdělení
pravděpodobnosti jednotlivých veličin.
CHIDIST			= CHIDIST		##	Vrátí jednostrannou pravděpodobnost rozdělení
chí-kvadrát.
CHIINV			= CHIINV		##	Vrátí hodnotu funkce inverzní k distribuční
funkci jednostranné pravděpodobnosti rozdělení chí-kvadrát.
CHITEST			= CHITEST		##	Vrátí test nezávislosti.
CONFIDENCE		= CONFIDENCE		##	Vrátí interval spolehlivosti pro střední
hodnotu základního souboru.
CORREL			= CORREL		##	Vrátí korelační koeficient mezi dvěma množinami
dat.
COUNT			= POČET			##	Vrátí počet čísel v seznamu argumentů.
COUNTA			= POČET2		##	Vrátí počet hodnot v seznamu argumentů.
COUNTBLANK		= COUNTBLANK		##	Spočítá počet prázdných buněk v
oblasti.
COUNTIF			= COUNTIF		##	Spočítá buňky v oblasti, které odpovídají
zadaným kritériím.
COUNTIFS		= COUNTIFS		##	Spočítá buňky v oblasti, které odpovídají
více kritériím.
COVAR			= COVAR			##	Vrátí hodnotu kovariance, průměrnou hodnotu
součinů párových odchylek
CRITBINOM		= CRITBINOM		##	Vrátí nejmenší hodnotu, pro kterou má
součtové binomické rozdělení hodnotu větší nebo rovnu hodnotě
kritéria.
DEVSQ			= DEVSQ			##	Vrátí součet čtverců odchylek.
EXPONDIST		= EXPONDIST		##	Vrátí hodnotu exponenciálního rozdělení.
FDIST			= FDIST			##	Vrátí hodnotu rozdělení pravděpodobnosti F.
FINV			= FINV			##	Vrátí hodnotu inverzní funkce k distribuční funkci
rozdělení F.
FISHER			= FISHER		##	Vrátí hodnotu Fisherovy transformace.
FISHERINV		= FISHERINV		##	Vrátí hodnotu inverzní funkce k Fisherově
transformaci.
FORECAST		= FORECAST		##	Vrátí hodnotu lineárního trendu.
FREQUENCY		= ČETNOSTI		##	Vrátí četnost rozdělení jako svislou
matici.
FTEST			= FTEST			##	Vrátí výsledek F-testu.
GAMMADIST		= GAMMADIST		##	Vrátí hodnotu rozdělení gama.
GAMMAINV		= GAMMAINV		##	Vrátí hodnotu inverzní funkce k distribuční
funkci součtového rozdělení gama.
GAMMALN			= GAMMALN		##	Vrátí přirozený logaritmus funkce gama, Γ(x).
GEOMEAN			= GEOMEAN		##	Vrátí geometrický průměr.
GROWTH			= LOGLINTREND		##	Vrátí hodnoty exponenciálního trendu.
HARMEAN			= HARMEAN		##	Vrátí harmonický průměr.
HYPGEOMDIST		= HYPGEOMDIST		##	Vrátí hodnotu hypergeometrického
rozdělení.
INTERCEPT		= INTERCEPT		##	Vrátí úsek lineární regresní čáry.
KURT			= KURT			##	Vrátí hodnotu excesu množiny dat.
LARGE			= LARGE			##	Vrátí k-tou největší hodnotu množiny dat.
LINEST			= LINREGRESE		##	Vrátí parametry lineárního trendu.
LOGEST			= LOGLINREGRESE		##	Vrátí parametry exponenciálního trendu.
LOGINV			= LOGINV		##	Vrátí inverzní funkci k distribuční funkci
logaritmicko-normálního rozdělení.
LOGNORMDIST		= LOGNORMDIST		##	Vrátí hodnotu součtového
logaritmicko-normálního rozdělení.
MAX			= MAX			##	Vrátí maximální hodnotu seznamu argumentů.
MAXA			= MAXA			##	Vrátí maximální hodnotu seznamu argumentů včetně
čísel, textu a logických hodnot.
MEDIAN			= MEDIAN		##	Vrátí střední hodnotu zadaných čísel.
MIN			= MIN			##	Vrátí minimální hodnotu seznamu argumentů.
MINA			= MINA			##	Vrátí nejmenší hodnotu v seznamu argumentů včetně
čísel, textu a logických hodnot.
MODE			= MODE			##	Vrátí hodnotu, která se v množině dat vyskytuje
nejčastěji.
NEGBINOMDIST		= NEGBINOMDIST		##	Vrátí hodnotu negativního binomického
rozdělení.
NORMDIST		= NORMDIST		##	Vrátí hodnotu normálního součtového
rozdělení.
NORMINV			= NORMINV		##	Vrátí inverzní funkci k funkci normálního
součtového rozdělení.
NORMSDIST		= NORMSDIST		##	Vrátí hodnotu standardního normálního
součtového rozdělení.
NORMSINV		= NORMSINV		##	Vrátí inverzní funkci k funkci standardního
normálního součtového rozdělení.
PEARSON			= PEARSON		##	Vrátí Pearsonův výsledný momentový
korelační koeficient.
PERCENTILE		= PERCENTIL		##	Vrátí hodnotu k-tého percentilu hodnot v
oblasti.
PERCENTRANK		= PERCENTRANK		##	Vrátí pořadí hodnoty v množině dat
vyjádřené procentuální částí množiny dat.
PERMUT			= PERMUTACE		##	Vrátí počet permutací pro zadaný počet
objektů.
POISSON			= POISSON		##	Vrátí hodnotu distribuční funkce Poissonova
rozdělení.
PROB			= PROB			##	Vrátí pravděpodobnost výskytu hodnot v oblasti mezi
dvěma mezními hodnotami.
QUARTILE		= QUARTIL		##	Vrátí hodnotu kvartilu množiny dat.
RANK			= RANK			##	Vrátí pořadí čísla v seznamu čísel.
RSQ			= RKQ			##	Vrátí druhou mocninu Pearsonova výsledného
momentového korelačního koeficientu.
SKEW			= SKEW			##	Vrátí zešikmení rozdělení.
SLOPE			= SLOPE			##	Vrátí směrnici lineární regresní čáry.
SMALL			= SMALL			##	Vrátí k-tou nejmenší hodnotu množiny dat.
STANDARDIZE		= STANDARDIZE		##	Vrátí normalizovanou hodnotu.
STDEV			= SMODCH.VÝBĚR		##	Vypočte směrodatnou odchylku výběru.
STDEVA			= STDEVA		##	Vypočte směrodatnou odchylku výběru včetně
čísel, textu a logických hodnot.
STDEVP			= SMODCH		##	Vypočte směrodatnou odchylku základního souboru.
STDEVPA			= STDEVPA		##	Vypočte směrodatnou odchylku základního souboru
včetně čísel, textu a logických hodnot.
STEYX			= STEYX			##	Vrátí standardní chybu předpovězené hodnoty y
pro každou hodnotu x v regresi.
TDIST			= TDIST			##	Vrátí hodnotu Studentova t-rozdělení.
TINV			= TINV			##	Vrátí inverzní funkci k distribuční funkci
Studentova t-rozdělení.
TREND			= LINTREND		##	Vrátí hodnoty lineárního trendu.
TRIMMEAN		= TRIMMEAN		##	Vrátí střední hodnotu vnitřní části
množiny dat.
TTEST			= TTEST			##	Vrátí pravděpodobnost spojenou se Studentovým
t-testem.
VAR			= VAR.VÝBĚR		##	Vypočte rozptyl výběru.
VARA			= VARA			##	Vypočte rozptyl výběru včetně čísel, textu a
logických hodnot.
VARP			= VAR			##	Vypočte rozptyl základního souboru.
VARPA			= VARPA			##	Vypočte rozptyl základního souboru včetně
čísel, textu a logických hodnot.
WEIBULL			= WEIBULL		##	Vrátí hodnotu Weibullova rozdělení.
ZTEST			= ZTEST			##	Vrátí jednostrannou P-hodnotu z-testu.


##
##	Text functions				Textové funkce
##
ASC			= ASC			##	Změní znaky s plnou šířkou (dvoubajtové)v řetězci
znaků na znaky s poloviční šířkou (jednobajtové).
BAHTTEXT		= BAHTTEXT		##	Převede číslo na text ve formátu, měny ß
(baht).
CHAR			= ZNAK			##	Vrátí znak určený číslem kódu.
CLEAN			= VYČISTIT		##	Odebere z textu všechny netisknutelné znaky.
CODE			= KÓD			##	Vrátí číselný kód prvního znaku zadaného
textového řetězce.
CONCATENATE		= CONCATENATE		##	Spojí několik textových položek do
jedné.
DOLLAR			= KČ			##	Převede číslo na text ve formátu měny Kč (česká
koruna).
EXACT			= STEJNÉ		##	Zkontroluje, zda jsou dvě textové hodnoty shodné.
FIND			= NAJÍT			##	Nalezne textovou hodnotu uvnitř jiné (rozlišuje
malá a velká písmena).
FINDB			= FINDB			##	Nalezne textovou hodnotu uvnitř jiné (rozlišuje
malá a velká písmena).
FIXED			= ZAOKROUHLIT.NA.TEXT	##	Zformátuje číslo jako text s pevným
počtem desetinných míst.
JIS			= JIS			##	Změní znaky s poloviční šířkou (jednobajtové) v
řetězci znaků na znaky s plnou šířkou (dvoubajtové).
LEFT			= ZLEVA			##	Vrátí první znaky textové hodnoty umístěné
nejvíce vlevo.
LEFTB			= LEFTB			##	Vrátí první znaky textové hodnoty umístěné
nejvíce vlevo.
LEN			= DÉLKA			##	Vrátí počet znaků textového řetězce.
LENB			= LENB			##	Vrátí počet znaků textového řetězce.
LOWER			= MALÁ			##	Převede text na malá písmena.
MID			= ČÁST			##	Vrátí určitý počet znaků textového řetězce
počínaje zadaným místem.
MIDB			= MIDB			##	Vrátí určitý počet znaků textového řetězce
počínaje zadaným místem.
PHONETIC		= ZVUKOVÉ		##	Extrahuje fonetické znaky (furigana) z textového
řetězce.
PROPER			= VELKÁ2		##	Převede první písmeno každého slova textové
hodnoty na velké.
REPLACE			= NAHRADIT		##	Nahradí znaky uvnitř textu.
REPLACEB		= NAHRADITB		##	Nahradí znaky uvnitř textu.
REPT			= OPAKOVAT		##	Zopakuje text podle zadaného počtu opakování.
RIGHT			= ZPRAVA		##	Vrátí první znaky textové hodnoty umístěné
nejvíce vpravo.
RIGHTB			= RIGHTB		##	Vrátí první znaky textové hodnoty umístěné
nejvíce vpravo.
SEARCH			= HLEDAT		##	Nalezne textovou hodnotu uvnitř jiné (malá a
velká písmena nejsou rozlišována).
SEARCHB			= SEARCHB		##	Nalezne textovou hodnotu uvnitř jiné (malá a
velká písmena nejsou rozlišována).
SUBSTITUTE		= DOSADIT		##	V textovém řetězci nahradí starý text
novým.
T			= T			##	Převede argumenty na text.
TEXT			= HODNOTA.NA.TEXT	##	Zformátuje číslo a převede ho na text.
TRIM			= PROČISTIT		##	Odstraní z textu mezery.
UPPER			= VELKÁ			##	Převede text na velká písmena.
VALUE			= HODNOTA		##	Převede textový argument na číslo.
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/locale/da/config000064400000000367151165413740024017
0ustar00##
## PhpSpreadsheet
##

ArgumentSeparator	= ;


##
##	(For future use)
##
currencySymbol	= kr



##
##	Excel Error Codes	(For future use)

##
NULL	= #NUL!
DIV0	= #DIVISION/0!
VALUE	= #VÆRDI!
REF	= #REFERENCE!
NAME	= #NAVN?
NUM	= #NUM!
NA	= #I/T
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/locale/da/functions000064400000074630151165413740024566
0ustar00##
## PhpSpreadsheet
##
## Data in this file derived from
https://www.excel-function-translation.com/
##
##


##
##	Add-in and Automation functions			Tilføjelsesprogram- og
automatiseringsfunktioner
##
GETPIVOTDATA		= HENTPIVOTDATA			##	Returnerer data, der er lagret i en
pivottabelrapport


##
##	Cube functions					Kubefunktioner
##
CUBEKPIMEMBER		= KUBE.KPI.MEDLEM		##	Returnerer navn, egenskab og mål for
en KPI-indikator og viser navnet og egenskaben i cellen. En KPI-indikator
er en målbar størrelse, f.eks. bruttooverskud pr. måned eller
personaleudskiftning pr. kvartal, der bruges til at overvåge en
organisations præstationer.
CUBEMEMBER		= KUBE.MEDLEM			##	Returnerer et medlem eller en tupel fra
kubehierarkiet. Bruges til at validere, om et medlem eller en tupel findes
i kuben.
CUBEMEMBERPROPERTY	= KUBEMEDLEM.EGENSKAB		##	Returnerer værdien af en
egenskab for et medlem i kuben. Bruges til at validere, om et medlemsnavn
findes i kuben, og returnere den angivne egenskab for medlemmet.
CUBERANKEDMEMBER	= KUBEMEDLEM.RANG		##	Returnerer det n'te eller
rangordnede medlem i et sæt. Bruges til at returnere et eller flere
elementer i et sæt, f.eks. topsælgere eller de 10 bedste elever.
CUBESET			= KUBESÆT			##	Definerer et beregnet sæt medlemmer eller tupler
ved at sende et sætudtryk til kuben på serveren, som opretter sættet og
returnerer det til Microsoft Office Excel.
CUBESETCOUNT		= KUBESÆT.TÆL			##	Returnerer antallet af elementer i et
sæt.
CUBEVALUE		= KUBEVÆRDI			##	Returnerer en sammenlagt (aggregeret) værdi
fra en kube.


##
##	Database functions				Databasefunktioner
##
DAVERAGE		= DMIDDEL			##	Returnerer gennemsnittet af markerede
databaseposter
DCOUNT			= DTÆL				##	Tæller de celler, der indeholder tal, i en database
DCOUNTA			= DTÆLV				##	Tæller udfyldte celler i en database
DGET			= DHENT				##	Uddrager en enkelt post, der opfylder de angivne
kriterier, fra en database
DMAX			= DMAKS				##	Returnerer den største værdi blandt markerede
databaseposter
DMIN			= DMIN				##	Returnerer den mindste værdi blandt markerede
databaseposter
DPRODUCT		= DPRODUKT			##	Ganger værdierne i et bestemt felt med poster,
der opfylder kriterierne i en database
DSTDEV			= DSTDAFV			##	Beregner et skøn over standardafvigelsen baseret
på en stikprøve af markerede databaseposter
DSTDEVP			= DSTDAFVP			##	Beregner standardafvigelsen baseret på hele
populationen af markerede databaseposter
DSUM			= DSUM				##	Sammenlægger de tal i feltkolonnen i databasen, der
opfylder kriterierne
DVAR			= DVARIANS			##	Beregner varians baseret på en stikprøve af
markerede databaseposter
DVARP			= DVARIANSP			##	Beregner varians baseret på hele populationen af
markerede databaseposter


##
##	Date and time functions				Dato- og klokkeslætsfunktioner
##
DATE			= DATO				##	Returnerer serienummeret for en bestemt dato
DATEVALUE		= DATOVÆRDI			##	Konverterer en dato i form af tekst til et
serienummer
DAY			= DAG				##	Konverterer et serienummer til en dag i måneden
DAYS360			= DAGE360			##	Beregner antallet af dage mellem to datoer på
grundlag af et år med 360 dage
EDATE			= EDATO				##	Returnerer serienummeret for den dato, der ligger det
angivne antal måneder før eller efter startdatoen
EOMONTH			= SLUT.PÅ.MÅNED			##	Returnerer serienummeret på den sidste
dag i måneden før eller efter et angivet antal måneder
HOUR			= TIME				##	Konverterer et serienummer til en time
MINUTE			= MINUT				##	Konverterer et serienummer til et minut
MONTH			= MÅNED				##	Konverterer et serienummer til en måned
NETWORKDAYS		= ANTAL.ARBEJDSDAGE		##	Returnerer antallet af hele
arbejdsdage mellem to datoer
NOW			= NU				##	Returnerer serienummeret for den aktuelle dato eller det
aktuelle klokkeslæt
SECOND			= SEKUND			##	Konverterer et serienummer til et sekund
TIME			= KLOKKESLÆT			##	Returnerer serienummeret for et bestemt
klokkeslæt
TIMEVALUE		= TIDSVÆRDI			##	Konverterer et klokkeslæt i form af tekst til
et serienummer
TODAY			= IDAG				##	Returnerer serienummeret for dags dato
WEEKDAY			= UGEDAG			##	Konverterer et serienummer til en ugedag
WEEKNUM			= UGE.NR			##	Konverterer et serienummer til et tal, der angiver
ugenummeret i året
WORKDAY			= ARBEJDSDAG			##	Returnerer serienummeret for dagen før eller
efter det angivne antal arbejdsdage
YEAR			= ÅR				##	Konverterer et serienummer til et år
YEARFRAC		= ÅR.BRØK			##	Returnerer årsbrøken, der repræsenterer
antallet af hele dage mellem startdato og slutdato


##
##	Engineering functions				Tekniske funktioner
##
BESSELI			= BESSELI			##	Returnerer den modificerede Bessel-funktion In(x)
BESSELJ			= BESSELJ			##	Returnerer Bessel-funktionen Jn(x)
BESSELK			= BESSELK			##	Returnerer den modificerede Bessel-funktion Kn(x)
BESSELY			= BESSELY			##	Returnerer Bessel-funktionen Yn(x)
BIN2DEC			= BIN.TIL.DEC			##	Konverterer et binært tal til et decimaltal
BIN2HEX			= BIN.TIL.HEX			##	Konverterer et binært tal til et
heksadecimalt tal
BIN2OCT			= BIN.TIL.OKT			##	Konverterer et binært tal til et oktaltal.
COMPLEX			= KOMPLEKS			##	Konverterer reelle og imaginære koefficienter
til et komplekst tal
CONVERT			= KONVERTER			##	Konverterer et tal fra én måleenhed til en
anden
DEC2BIN			= DEC.TIL.BIN			##	Konverterer et decimaltal til et binært tal
DEC2HEX			= DEC.TIL.HEX			##	Konverterer et decimaltal til et heksadecimalt
tal
DEC2OCT			= DEC.TIL.OKT			##	Konverterer et decimaltal til et oktaltal
DELTA			= DELTA				##	Tester, om to værdier er ens
ERF			= FEJLFUNK			##	Returner fejlfunktionen
ERFC			= FEJLFUNK.KOMP			##	Returnerer den komplementære fejlfunktion
GESTEP			= GETRIN			##	Tester, om et tal er større end en grænseværdi
HEX2BIN			= HEX.TIL.BIN			##	Konverterer et heksadecimalt tal til et
binært tal
HEX2DEC			= HEX.TIL.DEC			##	Konverterer et decimaltal til et heksadecimalt
tal
HEX2OCT			= HEX.TIL.OKT			##	Konverterer et heksadecimalt tal til et
oktaltal
IMABS			= IMAGABS			##	Returnerer den absolutte værdi (modulus) for et
komplekst tal
IMAGINARY		= IMAGINÆR			##	Returnerer den imaginære koefficient for et
komplekst tal
IMARGUMENT		= IMAGARGUMENT			##	Returnerer argumentet theta, en vinkel
udtrykt i radianer
IMCONJUGATE		= IMAGKONJUGERE			##	Returnerer den komplekse konjugation af
et komplekst tal
IMCOS			= IMAGCOS			##	Returnerer et komplekst tals cosinus
IMDIV			= IMAGDIV			##	Returnerer kvotienten for to komplekse tal
IMEXP			= IMAGEKSP			##	Returnerer et komplekst tals eksponentialfunktion
IMLN			= IMAGLN			##	Returnerer et komplekst tals naturlige logaritme
IMLOG10			= IMAGLOG10			##	Returnerer et komplekst tals sædvanlige
logaritme (titalslogaritme)
IMLOG2			= IMAGLOG2			##	Returnerer et komplekst tals sædvanlige logaritme
(totalslogaritme)
IMPOWER			= IMAGPOTENS			##	Returnerer et komplekst tal opløftet i en
heltalspotens
IMPRODUCT		= IMAGPRODUKT			##	Returnerer produktet af komplekse tal
IMREAL			= IMAGREELT			##	Returnerer den reelle koefficient for et
komplekst tal
IMSIN			= IMAGSIN			##	Returnerer et komplekst tals sinus
IMSQRT			= IMAGKVROD			##	Returnerer et komplekst tals kvadratrod
IMSUB			= IMAGSUB			##	Returnerer forskellen mellem to komplekse tal
IMSUM			= IMAGSUM			##	Returnerer summen af komplekse tal
OCT2BIN			= OKT.TIL.BIN			##	Konverterer et oktaltal til et binært tal
OCT2DEC			= OKT.TIL.DEC			##	Konverterer et oktaltal til et decimaltal
OCT2HEX			= OKT.TIL.HEX			##	Konverterer et oktaltal til et heksadecimalt
tal


##
##	Financial functions				Finansielle funktioner
##
ACCRINT			= PÅLØBRENTE			##	Returnerer den påløbne rente for et
værdipapir med periodiske renteudbetalinger
ACCRINTM		= PÅLØBRENTE.UDLØB		##	Returnerer den påløbne rente for et
værdipapir, hvor renteudbetalingen finder sted ved papirets udløb
AMORDEGRC		= AMORDEGRC			##	Returnerer afskrivningsbeløbet for hver
regnskabsperiode ved hjælp af en afskrivningskoefficient
AMORLINC		= AMORLINC			##	Returnerer afskrivningsbeløbet for hver
regnskabsperiode
COUPDAYBS		= KUPONDAGE.SA			##	Returnerer antallet af dage fra starten af
kuponperioden til afregningsdatoen
COUPDAYS		= KUPONDAGE.A			##	Returnerer antallet af dage fra begyndelsen af
kuponperioden til afregningsdatoen
COUPDAYSNC		= KUPONDAGE.ANK			##	Returnerer antallet af dage i den
kuponperiode, der indeholder afregningsdatoen
COUPNCD			= KUPONDAG.NÆSTE		##	Returnerer den næste kupondato efter
afregningsdatoen
COUPNUM			= KUPONBETALINGER		##	Returnerer antallet af kuponudbetalinger
mellem afregnings- og udløbsdatoen
COUPPCD			= KUPONDAG.FORRIGE		##	Returnerer den forrige kupondato før
afregningsdatoen
CUMIPMT			= AKKUM.RENTE			##	Returnerer den akkumulerede rente, der betales
på et lån mellem to perioder
CUMPRINC		= AKKUM.HOVEDSTOL		##	Returnerer den akkumulerede nedbringelse af
hovedstol mellem to perioder
DB			= DB				##	Returnerer afskrivningen på et aktiv i en angivet periode
ved anvendelse af saldometoden
DDB			= DSA				##	Returnerer afskrivningsbeløbet for et aktiv over en
bestemt periode ved anvendelse af dobbeltsaldometoden eller en anden
afskrivningsmetode, som du angiver
DISC			= DISKONTO			##	Returnerer et værdipapirs diskonto
DOLLARDE		= KR.DECIMAL			##	Konverterer en kronepris udtrykt som brøk til
en kronepris udtrykt som decimaltal
DOLLARFR		= KR.BRØK			##	Konverterer en kronepris udtrykt som decimaltal
til en kronepris udtrykt som brøk
DURATION		= VARIGHED			##	Returnerer den årlige løbetid for et
værdipapir med periodiske renteudbetalinger
EFFECT			= EFFEKTIV.RENTE		##	Returnerer den årlige effektive rente
FV			= FV				##	Returnerer fremtidsværdien af en investering
FVSCHEDULE		= FVTABEL			##	Returnerer den fremtidige værdi af en
hovedstol, når der er tilskrevet rente og rentes rente efter forskellige
rentesatser
INTRATE			= RENTEFOD			##	Returnerer renten på et fuldt ud investeret
værdipapir
IPMT			= R.YDELSE			##	Returnerer renten fra en investering for en given
periode
IRR			= IA				##	Returnerer den interne rente for en række pengestrømme
ISPMT			= ISPMT				##	Beregner den betalte rente i løbet af en bestemt
investeringsperiode
MDURATION		= MVARIGHED			##	Returnerer Macauleys modificerede løbetid for
et værdipapir med en formodet pari på kr. 100
MIRR			= MIA				##	Returnerer den interne forrentning, hvor positive og
negative pengestrømme finansieres til forskellig rente
NOMINAL			= NOMINEL			##	Returnerer den årlige nominelle rente
NPER			= NPER				##	Returnerer antallet af perioder for en investering
NPV			= NUTIDSVÆRDI			##	Returnerer nettonutidsværdien for en investering
baseret på en række periodiske pengestrømme og en diskonteringssats
ODDFPRICE		= ULIGE.KURS.PÅLYDENDE		##	Returnerer kursen pr. kr. 100
nominel værdi for et værdipapir med en ulige (kort eller lang) første
periode
ODDFYIELD		= ULIGE.FØRSTE.AFKAST		##	Returnerer afkastet for et
værdipapir med ulige første periode
ODDLPRICE		= ULIGE.SIDSTE.KURS		##	Returnerer kursen pr. kr. 100 nominel
værdi for et værdipapir med ulige sidste periode
ODDLYIELD		= ULIGE.SIDSTE.AFKAST		##	Returnerer afkastet for et værdipapir
med ulige sidste periode
PMT			= YDELSE			##	Returnerer renten fra en investering for en given
periode
PPMT			= H.YDELSE			##	Returnerer ydelsen på hovedstolen for en
investering i en given periode
PRICE			= KURS				##	Returnerer kursen pr. kr 100 nominel værdi for et
værdipapir med periodiske renteudbetalinger
PRICEDISC		= KURS.DISKONTO			##	Returnerer kursen pr. kr 100 nominel værdi
for et diskonteret værdipapir
PRICEMAT		= KURS.UDLØB			##	Returnerer kursen pr. kr 100 nominel værdi
for et værdipapir, hvor renten udbetales ved papirets udløb
PV			= NV				##	Returnerer den nuværende værdi af en investering
RATE			= RENTE				##	Returnerer renten i hver periode for en annuitet
RECEIVED		= MODTAGET.VED.UDLØB		##	Returnerer det beløb, der modtages ved
udløbet af et fuldt ud investeret værdipapir
SLN			= LA				##	Returnerer den lineære afskrivning for et aktiv i en
enkelt periode
SYD			= ÅRSAFSKRIVNING		##	Returnerer den årlige afskrivning på et aktiv
i en bestemt periode
TBILLEQ			= STATSOBLIGATION		##	Returnerer det obligationsækvivalente
afkast for en statsobligation
TBILLPRICE		= STATSOBLIGATION.KURS		##	Returnerer kursen pr. kr 100 nominel
værdi for en statsobligation
TBILLYIELD		= STATSOBLIGATION.AFKAST	##	Returnerer en afkastet på en
statsobligation
VDB			= VSA				##	Returnerer afskrivningen på et aktiv i en angivet
periode, herunder delperioder, ved brug af dobbeltsaldometoden
XIRR			= INTERN.RENTE			##	Returnerer den interne rente for en plan over
pengestrømme, der ikke behøver at være periodiske
XNPV			= NETTO.NUTIDSVÆRDI		##	Returnerer nutidsværdien for en plan over
pengestrømme, der ikke behøver at være periodiske
YIELD			= AFKAST			##	Returnerer afkastet for et værdipapir med periodiske
renteudbetalinger
YIELDDISC		= AFKAST.DISKONTO		##	Returnerer det årlige afkast for et
diskonteret værdipapir, f.eks. en statsobligation
YIELDMAT		= AFKAST.UDLØBSDATO		##	Returnerer det årlige afkast for et
værdipapir, hvor renten udbetales ved papirets udløb


##
##	Information functions				Informationsfunktioner
##
CELL			= CELLE				##	Returnerer oplysninger om formatering, placering eller
indhold af en celle
ERROR.TYPE		= FEJLTYPE			##	Returnerer et tal, der svarer til en fejltype
INFO			= INFO				##	Returnerer oplysninger om det aktuelle operativmiljø
ISBLANK			= ER.TOM			##	Returnerer SAND, hvis værdien er tom
ISERR			= ER.FJL			##	Returnerer SAND, hvis værdien er en fejlværdi
undtagen #I/T
ISERROR			= ER.FEJL			##	Returnerer SAND, hvis værdien er en fejlværdi
ISEVEN			= ER.LIGE			##	Returnerer SAND, hvis tallet er lige
ISLOGICAL		= ER.LOGISK			##	Returnerer SAND, hvis værdien er en logisk
værdi
ISNA			= ER.IKKE.TILGÆNGELIG		##	Returnerer SAND, hvis værdien er
fejlværdien #I/T
ISNONTEXT		= ER.IKKE.TEKST			##	Returnerer SAND, hvis værdien ikke er
tekst
ISNUMBER		= ER.TAL			##	Returnerer SAND, hvis værdien er et tal
ISODD			= ER.ULIGE			##	Returnerer SAND, hvis tallet er ulige
ISREF			= ER.REFERENCE			##	Returnerer SAND, hvis værdien er en reference
ISTEXT			= ER.TEKST			##	Returnerer SAND, hvis værdien er tekst
N			= TAL				##	Returnerer en værdi konverteret til et tal
NA			= IKKE.TILGÆNGELIG		##	Returnerer fejlværdien #I/T
TYPE			= VÆRDITYPE			##	Returnerer et tal, der angiver datatypen for en
værdi


##
##	Logical functions				Logiske funktioner
##
AND			= OG				##	Returnerer SAND, hvis alle argumenterne er sande
FALSE			= FALSK				##	Returnerer den logiske værdi FALSK
IF			= HVIS				##	Angiver en logisk test, der skal udføres
IFERROR			= HVIS.FEJL			##	Returnerer en værdi, du angiver, hvis en formel
evauleres som en fejl. Returnerer i modsat fald resultatet af formlen
NOT			= IKKE				##	Vender argumentets logik om
OR			= ELLER				##	Returneret værdien SAND, hvis mindst ét argument er
sandt
TRUE			= SAND				##	Returnerer den logiske værdi SAND


##
##	Lookup and reference functions			Opslags- og referencefunktioner
##
ADDRESS			= ADRESSE			##	Returnerer en reference som tekst til en enkelt
celle i et regneark
AREAS			= OMRÅDER			##	Returnerer antallet af områder i en reference
CHOOSE			= VÆLG				##	Vælger en værdi på en liste med værdier
COLUMN			= KOLONNE			##	Returnerer kolonnenummeret i en reference
COLUMNS			= KOLONNER			##	Returnerer antallet af kolonner i en reference
HLOOKUP			= VOPSLAG			##	Søger i den øverste række af en matrix og
returnerer værdien af den angivne celle
HYPERLINK		= HYPERLINK			##	Opretter en genvej kaldet et hyperlink, der
åbner et dokument, som er lagret på en netværksserver, på et intranet
eller på internettet
INDEX			= INDEKS			##	Anvender et indeks til at vælge en værdi fra en
reference eller en matrix
INDIRECT		= INDIREKTE			##	Returnerer en reference, der er angivet af en
tekstværdi
LOOKUP			= SLÅ.OP			##	Søger værdier i en vektor eller en matrix
MATCH			= SAMMENLIGN			##	Søger værdier i en reference eller en matrix
OFFSET			= FORSKYDNING			##	Returnerer en reference forskudt i forhold til
en given reference
ROW			= RÆKKE				##	Returnerer rækkenummeret for en reference
ROWS			= RÆKKER			##	Returnerer antallet af rækker i en reference
RTD			= RTD				##	Henter realtidsdata fra et program, der understøtter
COM-automatisering (Automation: En metode til at arbejde med objekter fra
et andet program eller udviklingsværktøj. Automation, som tidligere blev
kaldt OLE Automation, er en industristandard og en funktion i COM
(Component Object Model).)
TRANSPOSE		= TRANSPONER			##	Returnerer en transponeret matrix
VLOOKUP			= LOPSLAG			##	Søger i øverste række af en matrix og flytter
på tværs af rækken for at returnere en celleværdi


##
##	Math and trigonometry functions			Matematiske og trigonometriske
funktioner
##
ABS			= ABS				##	Returnerer den absolutte værdi af et tal
ACOS			= ARCCOS			##	Returnerer et tals arcus cosinus
ACOSH			= ARCCOSH			##	Returnerer den inverse hyperbolske cosinus af tal
ASIN			= ARCSIN			##	Returnerer et tals arcus sinus
ASINH			= ARCSINH			##	Returnerer den inverse hyperbolske sinus for tal
ATAN			= ARCTAN			##	Returnerer et tals arcus tangens
ATAN2			= ARCTAN2			##	Returnerer de angivne x- og y-koordinaters arcus
tangens
ATANH			= ARCTANH			##	Returnerer et tals inverse hyperbolske tangens
CEILING			= AFRUND.LOFT			##	Afrunder et tal til nærmeste heltal eller til
nærmeste multiplum af betydning
COMBIN			= KOMBIN			##	Returnerer antallet af kombinationer for et givet
antal objekter
COS			= COS				##	Returnerer et tals cosinus
COSH			= COSH				##	Returnerer den inverse hyperbolske cosinus af et tal
DEGREES			= GRADER			##	Konverterer radianer til grader
EVEN			= LIGE				##	Runder et tal op til nærmeste lige heltal
EXP			= EKSP				##	Returnerer e opløftet til en potens af et angivet tal
FACT			= FAKULTET			##	Returnerer et tals fakultet
FACTDOUBLE		= DOBBELT.FAKULTET		##	Returnerer et tals dobbelte fakultet
FLOOR			= AFRUND.GULV			##	Runder et tal ned mod nul
GCD			= STØRSTE.FÆLLES.DIVISOR	##	Returnerer den største fælles divisor
INT			= HELTAL			##	Nedrunder et tal til det nærmeste heltal
LCM			= MINDSTE.FÆLLES.MULTIPLUM	##	Returnerer det mindste fælles
multiplum
LN			= LN				##	Returnerer et tals naturlige logaritme
LOG			= LOG				##	Returnerer logaritmen for et tal på grundlag af et
angivet grundtal
LOG10			= LOG10				##	Returnerer titalslogaritmen af et tal
MDETERM			= MDETERM			##	Returnerer determinanten for en matrix
MINVERSE		= MINVERT			##	Returnerer den inverse matrix for en matrix
MMULT			= MPRODUKT			##	Returnerer matrixproduktet af to matrixer
MOD			= REST				##	Returnerer restværdien fra division
MROUND			= MAFRUND			##	Returnerer et tal afrundet til det ønskede
multiplum
MULTINOMIAL		= MULTINOMIAL			##	Returnerer et multinomialt talsæt
ODD			= ULIGE				##	Runder et tal op til nærmeste ulige heltal
PI			= PI				##	Returnerer værdien af pi
POWER			= POTENS			##	Returnerer resultatet af et tal opløftet til en
potens
PRODUCT			= PRODUKT			##	Multiplicerer argumenterne
QUOTIENT		= KVOTIENT			##	Returnerer heltalsdelen ved division
RADIANS			= RADIANER			##	Konverterer grader til radianer
RAND			= SLUMP				##	Returnerer et tilfældigt tal mellem 0 og 1
RANDBETWEEN		= SLUMP.MELLEM			##	Returnerer et tilfældigt tal mellem de
tal, der angives
ROMAN			= ROMERTAL			##	Konverterer et arabertal til romertal som tekst
ROUND			= AFRUND			##	Afrunder et tal til et angivet antal decimaler
ROUNDDOWN		= RUND.NED			##	Runder et tal ned mod nul
ROUNDUP			= RUND.OP			##	Runder et tal op, væk fra 0 (nul)
SERIESSUM		= SERIESUM			##	Returnerer summen af en potensserie baseret på
en formel
SIGN			= FORTEGN			##	Returnerer et tals fortegn
SIN			= SIN				##	Returnerer en given vinkels sinusværdi
SINH			= SINH				##	Returnerer den hyperbolske sinus af et tal
SQRT			= KVROD				##	Returnerer en positiv kvadratrod
SQRTPI			= KVRODPI			##	Returnerer kvadratroden af (tal * pi;)
SUBTOTAL		= SUBTOTAL			##	Returnerer en subtotal på en liste eller i en
database
SUM			= SUM				##	Lægger argumenterne sammen
SUMIF			= SUM.HVIS			##	Lægger de celler sammen, der er specificeret af et
givet kriterium.
SUMIFS			= SUM.HVISER			##	Lægger de celler i et område sammen, der
opfylder flere kriterier.
SUMPRODUCT		= SUMPRODUKT			##	Returnerer summen af produkter af ens
matrixkomponenter
SUMSQ			= SUMKV				##	Returnerer summen af argumenternes kvadrater
SUMX2MY2		= SUMX2MY2			##	Returnerer summen af differensen mellem kvadrater
af ens værdier i to matrixer
SUMX2PY2		= SUMX2PY2			##	Returnerer summen af summen af kvadrater af
tilsvarende værdier i to matrixer
SUMXMY2			= SUMXMY2			##	Returnerer summen af kvadrater af differenser
mellem ens værdier i to matrixer
TAN			= TAN				##	Returnerer et tals tangens
TANH			= TANH				##	Returnerer et tals hyperbolske tangens
TRUNC			= AFKORT			##	Afkorter et tal til et heltal


##
##	Statistical functions				Statistiske funktioner
##
AVEDEV			= MAD				##	Returnerer den gennemsnitlige numeriske afvigelse fra
stikprøvens middelværdi
AVERAGE			= MIDDEL			##	Returnerer middelværdien af argumenterne
AVERAGEA		= MIDDELV			##	Returnerer middelværdien af argumenterne og
medtager tal, tekst og logiske værdier
AVERAGEIF		= MIDDEL.HVIS			##	Returnerer gennemsnittet (den aritmetiske
middelværdi) af alle de celler, der opfylder et givet kriterium, i et
område
AVERAGEIFS		= MIDDEL.HVISER			##	Returnerer gennemsnittet (den aritmetiske
middelværdi) af alle de celler, der opfylder flere kriterier.
BETADIST		= BETAFORDELING			##	Returnerer den kumulative
betafordelingsfunktion
BETAINV			= BETAINV			##	Returnerer den inverse kumulative
fordelingsfunktion for en angivet betafordeling
BINOMDIST		= BINOMIALFORDELING		##	Returnerer punktsandsynligheden for
binomialfordelingen
CHIDIST			= CHIFORDELING			##	Returnerer fraktilsandsynligheden for en
chi2-fordeling
CHIINV			= CHIINV			##	Returnerer den inverse fraktilsandsynlighed for en
chi2-fordeling
CHITEST			= CHITEST			##	Foretager en test for uafhængighed
CONFIDENCE		= KONFIDENSINTERVAL		##	Returnerer et konfidensinterval for en
population
CORREL			= KORRELATION			##	Returnerer korrelationskoefficienten mellem to
datasæt
COUNT			= TÆL				##	Tæller antallet af tal på en liste med argumenter
COUNTA			= TÆLV				##	Tæller antallet af værdier på en liste med
argumenter
COUNTBLANK		= ANTAL.BLANKE			##	Tæller antallet af tomme celler i et
område
COUNTIF			= TÆLHVIS			##	Tæller antallet af celler, som opfylder de givne
kriterier, i et område
COUNTIFS		= TÆL.HVISER			##	Tæller antallet af de celler, som opfylder
flere kriterier, i et område
COVAR			= KOVARIANS			##	Beregner kovariansen mellem to stokastiske
variabler
CRITBINOM		= KRITBINOM			##	Returnerer den mindste værdi for x, for
hvilken det gælder, at fordelingsfunktionen er mindre end eller lig med
kriterieværdien.
DEVSQ			= SAK				##	Returnerer summen af de kvadrerede afvigelser fra
middelværdien
EXPONDIST		= EKSPFORDELING			##	Returnerer eksponentialfordelingen
FDIST			= FFORDELING			##	Returnerer fraktilsandsynligheden for
F-fordelingen
FINV			= FINV				##	Returnerer den inverse fraktilsandsynlighed for
F-fordelingen
FISHER			= FISHER			##	Returnerer Fisher-transformationen
FISHERINV		= FISHERINV			##	Returnerer den inverse Fisher-transformation
FORECAST		= PROGNOSE			##	Returnerer en prognoseværdi baseret på lineær
tendens
FREQUENCY		= FREKVENS			##	Returnerer en frekvensfordeling i en
søjlevektor
FTEST			= FTEST				##	Returnerer resultatet af en F-test til sammenligning
af varians
GAMMADIST		= GAMMAFORDELING		##	Returnerer fordelingsfunktionen for
gammafordelingen
GAMMAINV		= GAMMAINV			##	Returnerer den inverse fordelingsfunktion for
gammafordelingen
GAMMALN			= GAMMALN			##	Returnerer den naturlige logaritme til
gammafordelingen, G(x)
GEOMEAN			= GEOMIDDELVÆRDI		##	Returnerer det geometriske gennemsnit
GROWTH			= FORØGELSE			##	Returnerer værdier langs en eksponentiel
tendens
HARMEAN			= HARMIDDELVÆRDI		##	Returnerer det harmoniske gennemsnit
HYPGEOMDIST		= HYPGEOFORDELING		##	Returnerer punktsandsynligheden i en
hypergeometrisk fordeling
INTERCEPT		= SKÆRING			##	Returnerer afskæringsværdien på y-aksen i en
lineær regression
KURT			= TOPSTEJL			##	Returnerer kurtosisværdien for en stokastisk
variabel
LARGE			= STOR				##	Returnerer den k'te største værdi i et datasæt
LINEST			= LINREGR			##	Returnerer parameterestimaterne for en lineær
tendens
LOGEST			= LOGREGR			##	Returnerer parameterestimaterne for en eksponentiel
tendens
LOGINV			= LOGINV			##	Returnerer den inverse fordelingsfunktion for
lognormalfordelingen
LOGNORMDIST		= LOGNORMFORDELING		##	Returnerer fordelingsfunktionen for
lognormalfordelingen
MAX			= MAKS				##	Returnerer den maksimale værdi på en liste med
argumenter.
MAXA			= MAKSV				##	Returnerer den maksimale værdi på en liste med
argumenter og medtager tal, tekst og logiske værdier
MEDIAN			= MEDIAN			##	Returnerer medianen for de angivne tal
MIN			= MIN				##	Returnerer den mindste værdi på en liste med
argumenter.
MINA			= MINV				##	Returnerer den mindste værdi på en liste med
argumenter og medtager tal, tekst og logiske værdier
MODE			= HYPPIGST			##	Returnerer den hyppigste værdi i et datasæt
NEGBINOMDIST		= NEGBINOMFORDELING		##	Returnerer den negative
binomialfordeling
NORMDIST		= NORMFORDELING			##	Returnerer fordelingsfunktionen for
normalfordelingen
NORMINV			= NORMINV			##	Returnerer den inverse fordelingsfunktion for
normalfordelingen
NORMSDIST		= STANDARDNORMFORDELING		##	Returnerer fordelingsfunktionen for
standardnormalfordelingen
NORMSINV		= STANDARDNORMINV		##	Returnerer den inverse fordelingsfunktion
for standardnormalfordelingen
PEARSON			= PEARSON			##	Returnerer Pearsons korrelationskoefficient
PERCENTILE		= FRAKTIL			##	Returnerer den k'te fraktil for datasættet
PERCENTRANK		= PROCENTPLADS			##	Returnerer den procentuelle rang for en
given værdi i et datasæt
PERMUT			= PERMUT			##	Returnerer antallet af permutationer for et givet
sæt objekter
POISSON			= POISSON			##	Returnerer fordelingsfunktionen for en
Poisson-fordeling
PROB			= SANDSYNLIGHED			##	Returnerer intervalsandsynligheden
QUARTILE		= KVARTIL			##	Returnerer kvartilen i et givet datasæt
RANK			= PLADS				##	Returnerer rangen for et tal på en liste med tal
RSQ			= FORKLARINGSGRAD		##	Returnerer R2-værdien fra en simpel lineær
regression
SKEW			= SKÆVHED			##	Returnerer skævheden for en stokastisk variabel
SLOPE			= HÆLDNING			##	Returnerer estimatet på hældningen fra en simpel
lineær regression
SMALL			= MINDSTE			##	Returnerer den k'te mindste værdi i
datasættet
STANDARDIZE		= STANDARDISER			##	Returnerer en standardiseret værdi
STDEV			= STDAFV			##	Estimerer standardafvigelsen på basis af en
stikprøve
STDEVA			= STDAFVV			##	Beregner standardafvigelsen på basis af en prøve
og medtager tal, tekst og logiske værdier
STDEVP			= STDAFVP			##	Beregner standardafvigelsen på basis af en hel
population
STDEVPA			= STDAFVPV			##	Beregner standardafvigelsen på basis af en hel
population og medtager tal, tekst og logiske værdier
STEYX			= STFYX				##	Returnerer standardafvigelsen for de estimerede
y-værdier i den simple lineære regression
TDIST			= TFORDELING			##	Returnerer fordelingsfunktionen for
Student's t-fordeling
TINV			= TINV				##	Returnerer den inverse fordelingsfunktion for
Student's t-fordeling
TREND			= TENDENS			##	Returnerer værdi under antagelse af en lineær
tendens
TRIMMEAN		= TRIMMIDDELVÆRDI		##	Returnerer den trimmede middelværdi for
datasættet
TTEST			= TTEST				##	Returnerer den sandsynlighed, der er forbundet med
Student's t-test
VAR			= VARIANS			##	Beregner variansen på basis af en prøve
VARA			= VARIANSV			##	Beregner variansen på basis af en prøve og
medtager tal, tekst og logiske værdier
VARP			= VARIANSP			##	Beregner variansen på basis af hele populationen
VARPA			= VARIANSPV			##	Beregner variansen på basis af hele populationen
og medtager tal, tekst og logiske værdier
WEIBULL			= WEIBULL			##	Returnerer fordelingsfunktionen for
Weibull-fordelingen
ZTEST			= ZTEST				##	Returnerer sandsynlighedsværdien ved en en-sidet
z-test


##
##	Text functions					Tekstfunktioner
##
ASC			= ASC				##	Ændrer engelske tegn i fuld bredde (dobbelt-byte) eller
katakana i en tegnstreng til tegn i halv bredde (enkelt-byte)
BAHTTEXT		= BAHTTEKST			##	Konverterer et tal til tekst ved hjælp af
valutaformatet ß (baht)
CHAR			= TEGN				##	Returnerer det tegn, der svarer til kodenummeret
CLEAN			= RENS				##	Fjerner alle tegn, der ikke kan udskrives, fra tekst
CODE			= KODE				##	Returnerer en numerisk kode for det første tegn i en
tekststreng
CONCATENATE		= SAMMENKÆDNING			##	Sammenkæder adskillige tekstelementer
til ét tekstelement
DOLLAR			= KR				##	Konverterer et tal til tekst ved hjælp af
valutaformatet kr. (kroner)
EXACT			= EKSAKT			##	Kontrollerer, om to tekstværdier er identiske
FIND			= FIND				##	Søger efter en tekstværdi i en anden tekstværdi (der
skelnes mellem store og små bogstaver)
FINDB			= FINDB				##	Søger efter en tekstværdi i en anden tekstværdi
(der skelnes mellem store og små bogstaver)
FIXED			= FAST				##	Formaterer et tal som tekst med et fast antal
decimaler
JIS			= JIS				##	Ændrer engelske tegn i halv bredde (enkelt-byte) eller
katakana i en tegnstreng til tegn i fuld bredde (dobbelt-byte)
LEFT			= VENSTRE			##	Returnerer tegnet længst til venstre i en
tekstværdi
LEFTB			= VENSTREB			##	Returnerer tegnet længst til venstre i en
tekstværdi
LEN			= LÆNGDE			##	Returnerer antallet af tegn i en tekststreng
LENB			= LÆNGDEB			##	Returnerer antallet af tegn i en tekststreng
LOWER			= SMÅ.BOGSTAVER			##	Konverterer tekst til små bogstaver
MID			= MIDT				##	Returnerer et bestemt antal tegn fra en tekststreng fra
og med den angivne startposition
MIDB			= MIDTB				##	Returnerer et bestemt antal tegn fra en tekststreng
fra og med den angivne startposition
PHONETIC		= FONETISK			##	Uddrager de fonetiske (furigana) tegn fra en
tekststreng
PROPER			= STORT.FORBOGSTAV		##	Konverterer første bogstav i hvert ord i
teksten til stort bogstav
REPLACE			= ERSTAT			##	Erstatter tegn i tekst
REPLACEB		= ERSTATB			##	Erstatter tegn i tekst
REPT			= GENTAG			##	Gentager tekst et givet antal gange
RIGHT			= HØJRE				##	Returnerer tegnet længste til højre i en
tekstværdi
RIGHTB			= HØJREB			##	Returnerer tegnet længste til højre i en
tekstværdi
SEARCH			= SØG				##	Søger efter en tekstværdi i en anden tekstværdi
(der skelnes ikke mellem store og små bogstaver)
SEARCHB			= SØGB				##	Søger efter en tekstværdi i en anden tekstværdi
(der skelnes ikke mellem store og små bogstaver)
SUBSTITUTE		= UDSKIFT			##	Udskifter gammel tekst med ny tekst i en
tekststreng
T			= T				##	Konverterer argumenterne til tekst
TEXT			= TEKST				##	Formaterer et tal og konverterer det til tekst
TRIM			= FJERN.OVERFLØDIGE.BLANKE	##	Fjerner mellemrum fra tekst
UPPER			= STORE.BOGSTAVER		##	Konverterer tekst til store bogstaver
VALUE			= VÆRDI				##	Konverterer et tekstargument til et tal
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/locale/de/config000064400000000355151165413740024020
0ustar00##
## PhpSpreadsheet
##

ArgumentSeparator	= ;


##
##	(For future use)
##
currencySymbol	= €


##
##	Excel Error Codes	(For future use)

##
NULL	= #NULL!
DIV0	= #DIV/0!
VALUE	= #WERT!
REF	= #BEZUG!
NAME	= #NAME?
NUM	= #ZAHL!
NA	= #NV
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/locale/de/functions000064400000103203151165413740024557
0ustar00##
## PhpSpreadsheet
##
## Data in this file derived from
https://www.excel-function-translation.com/
##
##


##
##	Add-in and Automation functions			Add-In- und Automatisierungsfunktionen
##
GETPIVOTDATA	= PIVOTDATENZUORDNEN			##	In einem PivotTable-Bericht
gespeicherte Daten werden zurückgegeben.


##
##	Cube functions					Cubefunktionen
##
CUBEKPIMEMBER		= CUBEKPIELEMENT		##	Gibt Name, Eigenschaft und Measure
eines Key Performance Indicators (KPI) zurück und zeigt den Namen und die
Eigenschaft in der Zelle an. Ein KPI ist ein quantifizierbares Maß, wie z.
B. der monatliche Bruttogewinn oder die vierteljährliche
Mitarbeiterfluktuation, mit dessen Hilfe das Leistungsverhalten eines
Unternehmens überwacht werden kann.
CUBEMEMBER		= CUBEELEMENT			##	Gibt ein Element oder ein Tuple in einer
Cubehierarchie zurück. Wird verwendet, um zu überprüfen, ob das Element
oder Tuple im Cube vorhanden ist.
CUBEMEMBERPROPERTY	= CUBEELEMENTEIGENSCHAFT	##	Gibt den Wert einer
Elementeigenschaft im Cube zurück. Wird verwendet, um zu überprüfen, ob
ein Elementname im Cube vorhanden ist, und um die für dieses Element
angegebene Eigenschaft zurückzugeben.
CUBERANKEDMEMBER	= CUBERANGELEMENT		##	Gibt das n-te oder n-rangige Element
in einer Menge zurück. Wird verwendet, um mindestens ein Element in einer
Menge zurückzugeben, wie z. B. bester Vertriebsmitarbeiter oder 10 beste
Kursteilnehmer.
CUBESET			= CUBEMENGE			##	Definiert eine berechnete Menge Elemente oder
Tuples durch Senden eines Mengenausdrucks an den Cube auf dem Server, der
die Menge erstellt und an Microsoft Office Excel zurückgibt.
CUBESETCOUNT		= CUBEMENGENANZAHL		##	Gibt die Anzahl der Elemente in einer
Menge zurück.
CUBEVALUE		= CUBEWERT			##	Gibt einen Aggregatwert aus einem Cube zurück.


##
##	Database functions				Datenbankfunktionen
##
DAVERAGE		= DBMITTELWERT			##	Gibt den Mittelwert der ausgewählten
Datenbankeinträge zurück
DCOUNT			= DBANZAHL			##	Zählt die Zellen mit Zahlen in einer Datenbank
DCOUNTA			= DBANZAHL2			##	Zählt nicht leere Zellen in einer Datenbank
DGET			= DBAUSZUG			##	Extrahiert aus einer Datenbank einen einzelnen
Datensatz, der den angegebenen Kriterien entspricht
DMAX			= DBMAX				##	Gibt den größten Wert aus ausgewählten
Datenbankeinträgen zurück
DMIN			= DBMIN				##	Gibt den kleinsten Wert aus ausgewählten
Datenbankeinträgen zurück
DPRODUCT		= DBPRODUKT			##	Multipliziert die Werte in einem bestimmten Feld
mit Datensätzen, die den Kriterien in einer Datenbank entsprechen
DSTDEV			= DBSTDABW			##	Schätzt die Standardabweichung auf der Grundlage
einer Stichprobe aus ausgewählten Datenbankeinträgen
DSTDEVP			= DBSTDABWN			##	Berechnet die Standardabweichung auf der
Grundlage der Grundgesamtheit ausgewählter Datenbankeinträge
DSUM			= DBSUMME			##	Addiert die Zahlen in der Feldspalte mit Datensätzen
in der Datenbank, die den Kriterien entsprechen
DVAR			= DBVARIANZ			##	Schätzt die Varianz auf der Grundlage
ausgewählter Datenbankeinträge
DVARP			= DBVARIANZEN			##	Berechnet die Varianz auf der Grundlage der
Grundgesamtheit ausgewählter Datenbankeinträge


##
##	Date and time functions				Datums- und Zeitfunktionen
##
DATE			= DATUM				##	Gibt die fortlaufende Zahl eines bestimmten Datums
zurück
DATEVALUE		= DATWERT			##	Wandelt ein Datum in Form von Text in eine
fortlaufende Zahl um
DAY			= TAG				##	Wandelt eine fortlaufende Zahl in den Tag des Monats um
DAYS360			= TAGE360			##	Berechnet die Anzahl der Tage zwischen zwei
Datumsangaben ausgehend von einem Jahr, das 360 Tage hat
EDATE			= EDATUM			##	Gibt die fortlaufende Zahl des Datums zurück, bei
dem es sich um die angegebene Anzahl von Monaten vor oder nach dem
Anfangstermin handelt
EOMONTH			= MONATSENDE			##	Gibt die fortlaufende Zahl des letzten Tags des
Monats vor oder nach einer festgelegten Anzahl von Monaten zurück
HOUR			= STUNDE			##	Wandelt eine fortlaufende Zahl in eine Stunde um
MINUTE			= MINUTE			##	Wandelt eine fortlaufende Zahl in eine Minute um
MONTH			= MONAT				##	Wandelt eine fortlaufende Zahl in einen Monat um
NETWORKDAYS		= NETTOARBEITSTAGE		##	Gibt die Anzahl von ganzen Arbeitstagen
zwischen zwei Datumswerten zurück
NOW			= JETZT				##	Gibt die fortlaufende Zahl des aktuellen Datums und der
aktuellen Uhrzeit zurück
SECOND			= SEKUNDE			##	Wandelt eine fortlaufende Zahl in eine Sekunde um
TIME			= ZEIT				##	Gibt die fortlaufende Zahl einer bestimmten Uhrzeit
zurück
TIMEVALUE		= ZEITWERT			##	Wandelt eine Uhrzeit in Form von Text in eine
fortlaufende Zahl um
TODAY			= HEUTE				##	Gibt die fortlaufende Zahl des heutigen Datums
zurück
WEEKDAY			= WOCHENTAG			##	Wandelt eine fortlaufende Zahl in den Wochentag
um
WEEKNUM			= KALENDERWOCHE			##	Wandelt eine fortlaufende Zahl in eine Zahl
um, die angibt, in welche Woche eines Jahres das angegebene Datum fällt
WORKDAY			= ARBEITSTAG			##	Gibt die fortlaufende Zahl des Datums vor oder
nach einer bestimmten Anzahl von Arbeitstagen zurück
YEAR			= JAHR				##	Wandelt eine fortlaufende Zahl in ein Jahr um
YEARFRAC		= BRTEILJAHRE			##	Gibt die Anzahl der ganzen Tage zwischen
Ausgangsdatum und Enddatum in Bruchteilen von Jahren zurück


##
##	Engineering functions				Konstruktionsfunktionen
##
BESSELI			= BESSELI			##	Gibt die geänderte Besselfunktion In(x) zurück
BESSELJ			= BESSELJ			##	Gibt die Besselfunktion Jn(x) zurück
BESSELK			= BESSELK			##	Gibt die geänderte Besselfunktion Kn(x) zurück
BESSELY			= BESSELY			##	Gibt die Besselfunktion Yn(x) zurück
BIN2DEC			= BININDEZ			##	Wandelt eine binäre Zahl (Dualzahl) in eine
dezimale Zahl um
BIN2HEX			= BININHEX			##	Wandelt eine binäre Zahl (Dualzahl) in eine
hexadezimale Zahl um
BIN2OCT			= BININOKT			##	Wandelt eine binäre Zahl (Dualzahl) in eine
oktale Zahl um
COMPLEX			= KOMPLEXE			##	Wandelt den Real- und Imaginärteil in eine
komplexe Zahl um
CONVERT			= UMWANDELN			##	Wandelt eine Zahl von einem Maßsystem in ein
anderes um
DEC2BIN			= DEZINBIN			##	Wandelt eine dezimale Zahl in eine binäre Zahl
(Dualzahl) um
DEC2HEX			= DEZINHEX			##	Wandelt eine dezimale Zahl in eine hexadezimale
Zahl um
DEC2OCT			= DEZINOKT			##	Wandelt eine dezimale Zahl in eine oktale Zahl um
DELTA			= DELTA				##	Überprüft, ob zwei Werte gleich sind
ERF			= GAUSSFEHLER			##	Gibt die Gauss'sche Fehlerfunktion zurück
ERFC			= GAUSSFKOMPL			##	Gibt das Komplement zur Gauss'schen
Fehlerfunktion zurück
GESTEP			= GGANZZAHL			##	Überprüft, ob eine Zahl größer als ein
gegebener Schwellenwert ist
HEX2BIN			= HEXINBIN			##	Wandelt eine hexadezimale Zahl in eine Binärzahl
um
HEX2DEC			= HEXINDEZ			##	Wandelt eine hexadezimale Zahl in eine dezimale
Zahl um
HEX2OCT			= HEXINOKT			##	Wandelt eine hexadezimale Zahl in eine Oktalzahl
um
IMABS			= IMABS				##	Gibt den Absolutbetrag (Modulo) einer komplexen Zahl
zurück
IMAGINARY		= IMAGINÄRTEIL			##	Gibt den Imaginärteil einer komplexen Zahl
zurück
IMARGUMENT		= IMARGUMENT			##	Gibt das Argument Theta zurück, einen
Winkel, der als Bogenmaß ausgedrückt wird
IMCONJUGATE		= IMKONJUGIERTE			##	Gibt die konjugierte komplexe Zahl zu
einer komplexen Zahl zurück
IMCOS			= IMCOS				##	Gibt den Kosinus einer komplexen Zahl zurück
IMDIV			= IMDIV				##	Gibt den Quotienten zweier komplexer Zahlen zurück
IMEXP			= IMEXP				##	Gibt die algebraische Form einer in exponentieller
Schreibweise vorliegenden komplexen Zahl zurück
IMLN			= IMLN				##	Gibt den natürlichen Logarithmus einer komplexen Zahl
zurück
IMLOG10			= IMLOG10			##	Gibt den Logarithmus einer komplexen Zahl zur
Basis 10 zurück
IMLOG2			= IMLOG2			##	Gibt den Logarithmus einer komplexen Zahl zur Basis
2 zurück
IMPOWER			= IMAPOTENZ			##	Potenziert eine komplexe Zahl mit einer ganzen
Zahl
IMPRODUCT		= IMPRODUKT			##	Gibt das Produkt von komplexen Zahlen zurück
IMREAL			= IMREALTEIL			##	Gibt den Realteil einer komplexen Zahl zurück
IMSIN			= IMSIN				##	Gibt den Sinus einer komplexen Zahl zurück
IMSQRT			= IMWURZEL			##	Gibt die Quadratwurzel einer komplexen Zahl
zurück
IMSUB			= IMSUB				##	Gibt die Differenz zwischen zwei komplexen Zahlen
zurück
IMSUM			= IMSUMME			##	Gibt die Summe von komplexen Zahlen zurück
OCT2BIN			= OKTINBIN			##	Wandelt eine oktale Zahl in eine binäre Zahl
(Dualzahl) um
OCT2DEC			= OKTINDEZ			##	Wandelt eine oktale Zahl in eine dezimale Zahl um
OCT2HEX			= OKTINHEX			##	Wandelt eine oktale Zahl in eine hexadezimale
Zahl um


##
##	Financial functions				Finanzmathematische Funktionen
##
ACCRINT			= AUFGELZINS			##	Gibt die aufgelaufenen Zinsen (Stückzinsen)
eines Wertpapiers mit periodischen Zinszahlungen zurück
ACCRINTM		= AUFGELZINSF			##	Gibt die aufgelaufenen Zinsen (Stückzinsen)
eines Wertpapiers zurück, die bei Fälligkeit ausgezahlt werden
AMORDEGRC		= AMORDEGRK			##	Gibt die Abschreibung für die einzelnen
Abschreibungszeiträume mithilfe eines Abschreibungskoeffizienten zurück
AMORLINC		= AMORLINEARK			##	Gibt die Abschreibung für die einzelnen
Abschreibungszeiträume zurück
COUPDAYBS		= ZINSTERMTAGVA			##	Gibt die Anzahl der Tage vom Anfang des
Zinstermins bis zum Abrechnungstermin zurück
COUPDAYS		= ZINSTERMTAGE			##	Gibt die Anzahl der Tage der Zinsperiode
zurück, die den Abrechnungstermin einschließt
COUPDAYSNC		= ZINSTERMTAGNZ			##	Gibt die Anzahl der Tage vom
Abrechnungstermin bis zum nächsten Zinstermin zurück
COUPNCD			= ZINSTERMNZ			##	Gibt das Datum des ersten Zinstermins nach dem
Abrechnungstermin zurück
COUPNUM			= ZINSTERMZAHL			##	Gibt die Anzahl der Zinstermine zwischen
Abrechnungs- und Fälligkeitsdatum zurück
COUPPCD			= ZINSTERMVZ			##	Gibt das Datum des letzten Zinstermins vor dem
Abrechnungstermin zurück
CUMIPMT			= KUMZINSZ			##	Berechnet die kumulierten Zinsen, die zwischen
zwei Perioden zu zahlen sind
CUMPRINC		= KUMKAPITAL			##	Berechnet die aufgelaufene Tilgung eines
Darlehens, die zwischen zwei Perioden zu zahlen ist
DB			= GDA2				##	Gibt die geometrisch-degressive Abschreibung eines
Wirtschaftsguts für eine bestimmte Periode zurück
DDB			= GDA				##	Gibt die Abschreibung eines Anlageguts für einen
angegebenen Zeitraum unter Verwendung der degressiven
Doppelraten-Abschreibung oder eines anderen von Ihnen angegebenen
Abschreibungsverfahrens zurück
DISC			= DISAGIO			##	Gibt den in Prozent ausgedrückten Abzinsungssatz
eines Wertpapiers zurück
DOLLARDE		= NOTIERUNGDEZ			##	Wandelt eine Notierung, die als Dezimalbruch
ausgedrückt wurde, in eine Dezimalzahl um
DOLLARFR		= NOTIERUNGBRU			##	Wandelt eine Notierung, die als Dezimalzahl
ausgedrückt wurde, in einen Dezimalbruch um
DURATION		= DURATION			##	Gibt die jährliche Duration eines Wertpapiers
mit periodischen Zinszahlungen zurück
EFFECT			= EFFEKTIV			##	Gibt die jährliche Effektivverzinsung zurück
FV			= ZW				##	Gibt den zukünftigen Wert (Endwert) einer Investition
zurück
FVSCHEDULE		= ZW2				##	Gibt den aufgezinsten Wert des Anfangskapitals für
eine Reihe periodisch unterschiedlicher Zinssätze zurück
INTRATE			= ZINSSATZ			##	Gibt den Zinssatz eines voll investierten
Wertpapiers zurück
IPMT			= ZINSZ				##	Gibt die Zinszahlung einer Investition für die
angegebene Periode zurück
IRR			= IKV				##	Gibt den internen Zinsfuß einer Investition ohne
Finanzierungskosten oder Reinvestitionsgewinne zurück
ISPMT			= ISPMT				##	Berechnet die während eines bestimmten Zeitraums
für eine Investition gezahlten Zinsen
MDURATION		= MDURATION			##	Gibt die geänderte Dauer für ein Wertpapier
mit einem angenommenen Nennwert von 100 € zurück
MIRR			= QIKV				##	Gibt den internen Zinsfuß zurück, wobei positive und
negative Zahlungen zu unterschiedlichen Sätzen finanziert werden
NOMINAL			= NOMINAL			##	Gibt die jährliche Nominalverzinsung zurück
NPER			= ZZR				##	Gibt die Anzahl der Zahlungsperioden einer Investition
zurück
NPV			= NBW				##	Gibt den Nettobarwert einer Investition auf Basis
periodisch anfallender Zahlungen und eines Abzinsungsfaktors zurück
ODDFPRICE		= UNREGER.KURS			##	Gibt den Kurs pro 100 € Nennwert eines
Wertpapiers mit einem unregelmäßigen ersten Zinstermin zurück
ODDFYIELD		= UNREGER.REND			##	Gibt die Rendite eines Wertpapiers mit einem
unregelmäßigen ersten Zinstermin zurück
ODDLPRICE		= UNREGLE.KURS			##	Gibt den Kurs pro 100 € Nennwert eines
Wertpapiers mit einem unregelmäßigen letzten Zinstermin zurück
ODDLYIELD		= UNREGLE.REND			##	Gibt die Rendite eines Wertpapiers mit einem
unregelmäßigen letzten Zinstermin zurück
PMT			= RMZ				##	Gibt die periodische Zahlung für eine Annuität zurück
PPMT			= KAPZ				##	Gibt die Kapitalrückzahlung einer Investition für
eine angegebene Periode zurück
PRICE			= KURS				##	Gibt den Kurs pro 100 € Nennwert eines Wertpapiers
zurück, das periodisch Zinsen auszahlt
PRICEDISC		= KURSDISAGIO			##	Gibt den Kurs pro 100 € Nennwert eines
unverzinslichen Wertpapiers zurück
PRICEMAT		= KURSFÄLLIG			##	Gibt den Kurs pro 100 € Nennwert eines
Wertpapiers zurück, das Zinsen am Fälligkeitsdatum auszahlt
PV			= BW				##	Gibt den Barwert einer Investition zurück
RATE			= ZINS				##	Gibt den Zinssatz pro Zeitraum einer Annuität zurück
RECEIVED		= AUSZAHLUNG			##	Gibt den Auszahlungsbetrag eines voll
investierten Wertpapiers am Fälligkeitstermin zurück
SLN			= LIA				##	Gibt die lineare Abschreibung eines Wirtschaftsguts pro
Periode zurück
SYD			= DIA				##	Gibt die arithmetisch-degressive Abschreibung eines
Wirtschaftsguts für eine bestimmte Periode zurück
TBILLEQ			= TBILLÄQUIV			##	Gibt die Rendite für ein Wertpapier zurück
TBILLPRICE		= TBILLKURS			##	Gibt den Kurs pro 100 € Nennwert eines
Wertpapiers zurück
TBILLYIELD		= TBILLRENDITE			##	Gibt die Rendite für ein Wertpapier
zurück
VDB			= VDB				##	Gibt die degressive Abschreibung eines Wirtschaftsguts
für eine bestimmte Periode oder Teilperiode zurück
XIRR			= XINTZINSFUSS			##	Gibt den internen Zinsfuß einer Reihe nicht
periodisch anfallender Zahlungen zurück
XNPV			= XKAPITALWERT			##	Gibt den Nettobarwert (Kapitalwert) einer Reihe
nicht periodisch anfallender Zahlungen zurück
YIELD			= RENDITE			##	Gibt die Rendite eines Wertpapiers zurück, das
periodisch Zinsen auszahlt
YIELDDISC		= RENDITEDIS			##	Gibt die jährliche Rendite eines
unverzinslichen Wertpapiers zurück
YIELDMAT		= RENDITEFÄLL			##	Gibt die jährliche Rendite eines Wertpapiers
zurück, das Zinsen am Fälligkeitsdatum auszahlt


##
##	Information functions				Informationsfunktionen
##
CELL			= ZELLE				##	Gibt Informationen zu Formatierung, Position oder
Inhalt einer Zelle zurück
ERROR.TYPE		= FEHLER.TYP			##	Gibt eine Zahl zurück, die einem Fehlertyp
entspricht
INFO			= INFO				##	Gibt Informationen zur aktuellen Betriebssystemumgebung
zurück
ISBLANK			= ISTLEER			##	Gibt WAHR zurück, wenn der Wert leer ist
ISERR			= ISTFEHL			##	Gibt WAHR zurück, wenn der Wert ein beliebiger
Fehlerwert außer #N/V ist
ISERROR			= ISTFEHLER			##	Gibt WAHR zurück, wenn der Wert ein beliebiger
Fehlerwert ist
ISEVEN			= ISTGERADE			##	Gibt WAHR zurück, wenn es sich um eine gerade
Zahl handelt
ISLOGICAL		= ISTLOG			##	Gibt WAHR zurück, wenn der Wert ein Wahrheitswert
ist
ISNA			= ISTNV				##	Gibt WAHR zurück, wenn der Wert der Fehlerwert #N/V
ist
ISNONTEXT		= ISTKTEXT			##	Gibt WAHR zurück, wenn der Wert ein Element
ist, das keinen Text enthält
ISNUMBER		= ISTZAHL			##	Gibt WAHR zurück, wenn der Wert eine Zahl ist
ISODD			= ISTUNGERADE			##	Gibt WAHR zurück, wenn es sich um eine ungerade
Zahl handelt
ISREF			= ISTBEZUG			##	Gibt WAHR zurück, wenn der Wert ein Bezug ist
ISTEXT			= ISTTEXT			##	Gibt WAHR zurück, wenn der Wert ein Element ist,
das Text enthält
N			= N				##	Gibt den in eine Zahl umgewandelten Wert zurück
NA			= NV				##	Gibt den Fehlerwert #NV zurück
TYPE			= TYP				##	Gibt eine Zahl zurück, die den Datentyp des angegebenen
Werts anzeigt


##
##	Logical functions				Logische Funktionen
##
AND			= UND				##	Gibt WAHR zurück, wenn alle zugehörigen Argumente WAHR
sind
FALSE			= FALSCH			##	Gibt den Wahrheitswert FALSCH zurück
IF			= WENN				##	Gibt einen logischen Test zum Ausführen an
IFERROR			= WENNFEHLER			##	Gibt einen von Ihnen festgelegten Wert zurück,
wenn die Auswertung der Formel zu einem Fehler führt; andernfalls wird das
Ergebnis der Formel zurückgegeben
NOT			= NICHT				##	Kehrt den Wahrheitswert der zugehörigen Argumente um
OR			= ODER				##	Gibt WAHR zurück, wenn ein Argument WAHR ist
TRUE			= WAHR				##	Gibt den Wahrheitswert WAHR zurück


##
##	Lookup and reference functions			Nachschlage- und Verweisfunktionen
##
ADDRESS			= ADRESSE			##	Gibt einen Bezug auf eine einzelne Zelle in einem
Tabellenblatt als Text zurück
AREAS			= BEREICHE			##	Gibt die Anzahl der innerhalb eines Bezugs
aufgeführten Bereiche zurück
CHOOSE			= WAHL				##	Wählt einen Wert aus eine Liste mit Werten aus
COLUMN			= SPALTE			##	Gibt die Spaltennummer eines Bezugs zurück
COLUMNS			= SPALTEN			##	Gibt die Anzahl der Spalten in einem Bezug zurück
HLOOKUP			= HVERWEIS			##	Sucht in der obersten Zeile einer Matrix und gibt
den Wert der angegebenen Zelle zurück
HYPERLINK		= HYPERLINK			##	Erstellt eine Verknüpfung, über die ein auf
einem Netzwerkserver, in einem Intranet oder im Internet gespeichertes
Dokument geöffnet wird
INDEX			= INDEX				##	Verwendet einen Index, um einen Wert aus einem Bezug
oder einer Matrix auszuwählen
INDIRECT		= INDIREKT			##	Gibt einen Bezug zurück, der von einem Textwert
angegeben wird
LOOKUP			= LOOKUP			##	Sucht Werte in einem Vektor oder einer Matrix
MATCH			= VERGLEICH			##	Sucht Werte in einem Bezug oder einer Matrix
OFFSET			= BEREICH.VERSCHIEBEN		##	Gibt einen Bezugoffset aus einem
gegebenen Bezug zurück
ROW			= ZEILE				##	Gibt die Zeilennummer eines Bezugs zurück
ROWS			= ZEILEN			##	Gibt die Anzahl der Zeilen in einem Bezug zurück
RTD			= RTD				##	Ruft Echtzeitdaten von einem Programm ab, das die
COM-Automatisierung (Automatisierung: Ein Verfahren, bei dem aus einer
Anwendung oder einem Entwicklungstool heraus mit den Objekten einer anderen
Anwendung gearbeitet wird. Die früher als OLE-Automatisierung bezeichnete
Automatisierung ist ein Industriestandard und eine Funktion von COM
(Component Object Model).) unterstützt
TRANSPOSE		= MTRANS			##	Gibt die transponierte Matrix einer Matrix zurück
VLOOKUP			= SVERWEIS			##	Sucht in der ersten Spalte einer Matrix und
arbeitet sich durch die Zeile, um den Wert einer Zelle zurückzugeben


##
##	Math and trigonometry functions			Mathematische und trigonometrische
Funktionen
##
ABS			= ABS				##	Gibt den Absolutwert einer Zahl zurück
ACOS			= ARCCOS			##	Gibt den Arkuskosinus einer Zahl zurück
ACOSH			= ARCCOSHYP			##	Gibt den umgekehrten hyperbolischen Kosinus einer
Zahl zurück
ASIN			= ARCSIN			##	Gibt den Arkussinus einer Zahl zurück
ASINH			= ARCSINHYP			##	Gibt den umgekehrten hyperbolischen Sinus einer
Zahl zurück
ATAN			= ARCTAN			##	Gibt den Arkustangens einer Zahl zurück
ATAN2			= ARCTAN2			##	Gibt den Arkustangens einer x- und einer
y-Koordinate zurück
ATANH			= ARCTANHYP			##	Gibt den umgekehrten hyperbolischen Tangens einer
Zahl zurück
CEILING			= OBERGRENZE			##	Rundet eine Zahl auf die nächste ganze Zahl
oder das nächste Vielfache von Schritt
COMBIN			= KOMBINATIONEN			##	Gibt die Anzahl der Kombinationen für eine
bestimmte Anzahl von Objekten zurück
COS			= COS				##	Gibt den Kosinus einer Zahl zurück
COSH			= COSHYP			##	Gibt den hyperbolischen Kosinus einer Zahl zurück
DEGREES			= GRAD				##	Wandelt Bogenmaß (Radiant) in Grad um
EVEN			= GERADE			##	Rundet eine Zahl auf die nächste gerade ganze Zahl
auf
EXP			= EXP				##	Potenziert die Basis e mit der als Argument angegebenen
Zahl
FACT			= FAKULTÄT			##	Gibt die Fakultät einer Zahl zurück
FACTDOUBLE		= ZWEIFAKULTÄT			##	Gibt die Fakultät zu Zahl mit
Schrittlänge 2 zurück
FLOOR			= UNTERGRENZE			##	Rundet die Zahl auf Anzahl_Stellen ab
GCD			= GGT				##	Gibt den größten gemeinsamen Teiler zurück
INT			= GANZZAHL			##	Rundet eine Zahl auf die nächstkleinere ganze Zahl
ab
LCM			= KGV				##	Gibt das kleinste gemeinsame Vielfache zurück
LN			= LN				##	Gibt den natürlichen Logarithmus einer Zahl zurück
LOG			= LOG				##	Gibt den Logarithmus einer Zahl zu der angegebenen Basis
zurück
LOG10			= LOG10				##	Gibt den Logarithmus einer Zahl zur Basis 10 zurück
MDETERM			= MDET				##	Gibt die Determinante einer Matrix zurück
MINVERSE		= MINV				##	Gibt die inverse Matrix einer Matrix zurück
MMULT			= MMULT				##	Gibt das Produkt zweier Matrizen zurück
MOD			= REST				##	Gibt den Rest einer Division zurück
MROUND			= VRUNDEN			##	Gibt eine auf das gewünschte Vielfache gerundete
Zahl zurück
MULTINOMIAL		= POLYNOMIAL			##	Gibt den Polynomialkoeffizienten einer
Gruppe von Zahlen zurück
ODD			= UNGERADE			##	Rundet eine Zahl auf die nächste ungerade ganze Zahl
auf
PI			= PI				##	Gibt den Wert Pi zurück
POWER			= POTENZ			##	Gibt als Ergebnis eine potenzierte Zahl zurück
PRODUCT			= PRODUKT			##	Multipliziert die zugehörigen Argumente
QUOTIENT		= QUOTIENT			##	Gibt den ganzzahligen Anteil einer Division
zurück
RADIANS			= BOGENMASS			##	Wandelt Grad in Bogenmaß (Radiant) um
RAND			= ZUFALLSZAHL			##	Gibt eine Zufallszahl zwischen 0 und 1 zurück
RANDBETWEEN		= ZUFALLSBEREICH		##	Gibt eine Zufallszahl aus dem
festgelegten Bereich zurück
ROMAN			= RÖMISCH			##	Wandelt eine arabische Zahl in eine römische Zahl
als Text um
ROUND			= RUNDEN			##	Rundet eine Zahl auf eine bestimmte Anzahl von
Dezimalstellen
ROUNDDOWN		= ABRUNDEN			##	Rundet die Zahl auf Anzahl_Stellen ab
ROUNDUP			= AUFRUNDEN			##	Rundet die Zahl auf Anzahl_Stellen auf
SERIESSUM		= POTENZREIHE			##	Gibt die Summe von Potenzen (zur Berechnung
von Potenzreihen und dichotomen Wahrscheinlichkeiten) zurück
SIGN			= VORZEICHEN			##	Gibt das Vorzeichen einer Zahl zurück
SIN			= SIN				##	Gibt den Sinus einer Zahl zurück
SINH			= SINHYP			##	Gibt den hyperbolischen Sinus einer Zahl zurück
SQRT			= WURZEL			##	Gibt die Quadratwurzel einer Zahl zurück
SQRTPI			= WURZELPI			##	Gibt die Wurzel aus der mit Pi (pi)
multiplizierten Zahl zurück
SUBTOTAL		= TEILERGEBNIS			##	Gibt ein Teilergebnis in einer Liste oder
Datenbank zurück
SUM			= SUMME				##	Addiert die zugehörigen Argumente
SUMIF			= SUMMEWENN			##	Addiert Zahlen, die mit den Suchkriterien
übereinstimmen
SUMIFS			= SUMMEWENNS			##	Die Zellen, die mehrere Kriterien erfüllen,
werden in einem Bereich hinzugefügt
SUMPRODUCT		= SUMMENPRODUKT			##	Gibt die Summe der Produkte
zusammengehöriger Matrixkomponenten zurück
SUMSQ			= QUADRATESUMME			##	Gibt die Summe der quadrierten Argumente
zurück
SUMX2MY2		= SUMMEX2MY2			##	Gibt die Summe der Differenzen der Quadrate
für zusammengehörige Komponenten zweier Matrizen zurück
SUMX2PY2		= SUMMEX2PY2			##	Gibt die Summe der Quadrate für
zusammengehörige Komponenten zweier Matrizen zurück
SUMXMY2			= SUMMEXMY2			##	Gibt die Summe der quadrierten Differenzen für
zusammengehörige Komponenten zweier Matrizen zurück
TAN			= TAN				##	Gibt den Tangens einer Zahl zurück
TANH			= TANHYP			##	Gibt den hyperbolischen Tangens einer Zahl zurück
TRUNC			= KÜRZEN			##	Schneidet die Kommastellen einer Zahl ab und gibt
als Ergebnis eine ganze Zahl zurück


##
##	Statistical functions				Statistische Funktionen
##
AVEDEV			= MITTELABW			##	Gibt die durchschnittliche absolute Abweichung
einer Reihe von Merkmalsausprägungen und ihrem Mittelwert zurück
AVERAGE			= MITTELWERT			##	Gibt den Mittelwert der zugehörigen Argumente
zurück
AVERAGEA		= MITTELWERTA			##	Gibt den Mittelwert der zugehörigen
Argumente, die Zahlen, Text und Wahrheitswerte enthalten, zurück
AVERAGEIF		= MITTELWERTWENN		##	Der Durchschnittswert (arithmetisches
Mittel) für alle Zellen in einem Bereich, die einem angegebenen Kriterium
entsprechen, wird zurückgegeben
AVERAGEIFS		= MITTELWERTWENNS		##	Gibt den Durchschnittswert
(arithmetisches Mittel) aller Zellen zurück, die mehreren Kriterien
entsprechen
BETADIST		= BETAVERT			##	Gibt die Werte der kumulierten
Betaverteilungsfunktion zurück
BETAINV			= BETAINV			##	Gibt das Quantil der angegebenen Betaverteilung
zurück
BINOMDIST		= BINOMVERT			##	Gibt Wahrscheinlichkeiten einer
binomialverteilten Zufallsvariablen zurück
CHIDIST			= CHIVERT			##	Gibt Werte der Verteilungsfunktion (1-Alpha) einer
Chi-Quadrat-verteilten Zufallsgröße zurück
CHIINV			= CHIINV			##	Gibt Quantile der Verteilungsfunktion (1-Alpha) der
Chi-Quadrat-Verteilung zurück
CHITEST			= CHITEST			##	Gibt die Teststatistik eines Unabhängigkeitstests
zurück
CONFIDENCE		= KONFIDENZ			##	Ermöglicht die Berechnung des 1-Alpha
Konfidenzintervalls für den Erwartungswert einer Zufallsvariablen
CORREL			= KORREL			##	Gibt den Korrelationskoeffizienten zweier Reihen von
Merkmalsausprägungen zurück
COUNT			= ANZAHL			##	Gibt die Anzahl der Zahlen in der Liste mit
Argumenten an
COUNTA			= ANZAHL2			##	Gibt die Anzahl der Werte in der Liste mit
Argumenten an
COUNTBLANK		= ANZAHLLEEREZELLEN		##	Gibt die Anzahl der leeren Zellen in
einem Bereich an
COUNTIF			= ZÄHLENWENN			##	Gibt die Anzahl der Zellen in einem Bereich
an, deren Inhalte mit den Suchkriterien übereinstimmen
COUNTIFS		= ZÄHLENWENNS			##	Gibt die Anzahl der Zellen in einem Bereich
an, deren Inhalte mit mehreren Suchkriterien übereinstimmen
COVAR			= KOVAR				##	Gibt die Kovarianz zurück, den Mittelwert der für
alle Datenpunktpaare gebildeten Produkte der Abweichungen
CRITBINOM		= KRITBINOM			##	Gibt den kleinsten Wert zurück, für den die
kumulierten Wahrscheinlichkeiten der Binomialverteilung kleiner oder gleich
einer Grenzwahrscheinlichkeit sind
DEVSQ			= SUMQUADABW			##	Gibt die Summe der quadrierten Abweichungen der
Datenpunkte von ihrem Stichprobenmittelwert zurück
EXPONDIST		= EXPONVERT			##	Gibt Wahrscheinlichkeiten einer exponential
verteilten Zufallsvariablen zurück
FDIST			= FVERT				##	Gibt Werte der Verteilungsfunktion (1-Alpha) einer
F-verteilten Zufallsvariablen zurück
FINV			= FINV				##	Gibt Quantile der F-Verteilung zurück
FISHER			= FISHER			##	Gibt die Fisher-Transformation zurück
FISHERINV		= FISHERINV			##	Gibt die Umkehrung der Fisher-Transformation
zurück
FORECAST		= PROGNOSE			##	Gibt einen Wert zurück, der sich aus einem
linearen Trend ergibt
FREQUENCY		= HÄUFIGKEIT			##	Gibt eine Häufigkeitsverteilung als
vertikale Matrix zurück
FTEST			= FTEST				##	Gibt die Teststatistik eines F-Tests zurück
GAMMADIST		= GAMMAVERT			##	Gibt Wahrscheinlichkeiten einer gammaverteilten
Zufallsvariablen zurück
GAMMAINV		= GAMMAINV			##	Gibt Quantile der Gammaverteilung zurück
GAMMALN			= GAMMALN			##	Gibt den natürlichen Logarithmus der
Gammafunktion zurück, Γ(x)
GEOMEAN			= GEOMITTEL			##	Gibt das geometrische Mittel zurück
GROWTH			= VARIATION			##	Gibt Werte zurück, die sich aus einem
exponentiellen Trend ergeben
HARMEAN			= HARMITTEL			##	Gibt das harmonische Mittel zurück
HYPGEOMDIST		= HYPGEOMVERT			##	Gibt Wahrscheinlichkeiten einer
hypergeometrisch-verteilten Zufallsvariablen zurück
INTERCEPT		= ACHSENABSCHNITT		##	Gibt den Schnittpunkt der
Regressionsgeraden zurück
KURT			= KURT				##	Gibt die Kurtosis (Exzess) einer Datengruppe zurück
LARGE			= KGRÖSSTE			##	Gibt den k-größten Wert einer Datengruppe
zurück
LINEST			= RGP				##	Gibt die Parameter eines linearen Trends zurück
LOGEST			= RKP				##	Gibt die Parameter eines exponentiellen Trends zurück
LOGINV			= LOGINV			##	Gibt Quantile der Lognormalverteilung zurück
LOGNORMDIST		= LOGNORMVERT			##	Gibt Werte der Verteilungsfunktion einer
lognormalverteilten Zufallsvariablen zurück
MAX			= MAX				##	Gibt den Maximalwert einer Liste mit Argumenten zurück
MAXA			= MAXA				##	Gibt den Maximalwert einer Liste mit Argumenten
zurück, die Zahlen, Text und Wahrheitswerte enthalten
MEDIAN			= MEDIAN			##	Gibt den Median der angegebenen Zahlen zurück
MIN			= MIN				##	Gibt den Minimalwert einer Liste mit Argumenten zurück
MINA			= MINA				##	Gibt den kleinsten Wert einer Liste mit Argumenten
zurück, die Zahlen, Text und Wahrheitswerte enthalten
MODE			= MODALWERT			##	Gibt den am häufigsten vorkommenden Wert in einer
Datengruppe zurück
NEGBINOMDIST		= NEGBINOMVERT			##	Gibt Wahrscheinlichkeiten einer
negativen, binominal verteilten Zufallsvariablen zurück
NORMDIST		= NORMVERT			##	Gibt Wahrscheinlichkeiten einer normal verteilten
Zufallsvariablen zurück
NORMINV			= NORMINV			##	Gibt Quantile der Normalverteilung zurück
NORMSDIST		= STANDNORMVERT			##	Gibt Werte der Verteilungsfunktion einer
standardnormalverteilten Zufallsvariablen zurück
NORMSINV		= STANDNORMINV			##	Gibt Quantile der Standardnormalverteilung
zurück
PEARSON			= PEARSON			##	Gibt den Pearsonschen Korrelationskoeffizienten
zurück
PERCENTILE		= QUANTIL			##	Gibt das Alpha-Quantil einer Gruppe von Daten
zurück
PERCENTRANK		= QUANTILSRANG			##	Gibt den prozentualen Rang (Alpha) eines
Werts in einer Datengruppe zurück
PERMUT			= VARIATIONEN			##	Gibt die Anzahl der Möglichkeiten zurück, um
k Elemente aus einer Menge von n Elementen ohne Zurücklegen zu ziehen
POISSON			= POISSON			##	Gibt Wahrscheinlichkeiten einer poissonverteilten
Zufallsvariablen zurück
PROB			= WAHRSCHBEREICH		##	Gibt die Wahrscheinlichkeit für ein von zwei
Werten eingeschlossenes Intervall zurück
QUARTILE		= QUARTILE			##	Gibt die Quartile der Datengruppe zurück
RANK			= RANG				##	Gibt den Rang zurück, den eine Zahl innerhalb einer
Liste von Zahlen einnimmt
RSQ			= BESTIMMTHEITSMASS		##	Gibt das Quadrat des Pearsonschen
Korrelationskoeffizienten zurück
SKEW			= SCHIEFE			##	Gibt die Schiefe einer Verteilung zurück
SLOPE			= STEIGUNG			##	Gibt die Steigung der Regressionsgeraden zurück
SMALL			= KKLEINSTE			##	Gibt den k-kleinsten Wert einer Datengruppe
zurück
STANDARDIZE		= STANDARDISIERUNG		##	Gibt den standardisierten Wert zurück
STDEV			= STABW				##	Schätzt die Standardabweichung ausgehend von einer
Stichprobe
STDEVA			= STABWA			##	Schätzt die Standardabweichung ausgehend von einer
Stichprobe, die Zahlen, Text und Wahrheitswerte enthält
STDEVP			= STABWN			##	Berechnet die Standardabweichung ausgehend von der
Grundgesamtheit
STDEVPA			= STABWNA			##	Berechnet die Standardabweichung ausgehend von der
Grundgesamtheit, die Zahlen, Text und Wahrheitswerte enthält
STEYX			= STFEHLERYX			##	Gibt den Standardfehler der geschätzten y-Werte
für alle x-Werte der Regression zurück
TDIST			= TVERT				##	Gibt Werte der Verteilungsfunktion (1-Alpha) einer
(Student) t-verteilten Zufallsvariablen zurück
TINV			= TINV				##	Gibt Quantile der t-Verteilung zurück
TREND			= TREND				##	Gibt Werte zurück, die sich aus einem linearen Trend
ergeben
TRIMMEAN		= GESTUTZTMITTEL		##	Gibt den Mittelwert einer Datengruppe
zurück, ohne die Randwerte zu berücksichtigen
TTEST			= TTEST				##	Gibt die Teststatistik eines Student'schen
t-Tests zurück
VAR			= VARIANZ			##	Schätzt die Varianz ausgehend von einer Stichprobe
VARA			= VARIANZA			##	Schätzt die Varianz ausgehend von einer Stichprobe,
die Zahlen, Text und Wahrheitswerte enthält
VARP			= VARIANZEN			##	Berechnet die Varianz ausgehend von der
Grundgesamtheit
VARPA			= VARIANZENA			##	Berechnet die Varianz ausgehend von der
Grundgesamtheit, die Zahlen, Text und Wahrheitswerte enthält
WEIBULL			= WEIBULL			##	Gibt Wahrscheinlichkeiten einer weibullverteilten
Zufallsvariablen zurück
ZTEST			= GTEST				##	Gibt den einseitigen Wahrscheinlichkeitswert für
einen Gausstest (Normalverteilung) zurück


##
##	Text functions					Textfunktionen
##
ASC			= ASC				##	Konvertiert DB-Text in einer Zeichenfolge (lateinische
Buchstaben oder Katakana) in SB-Text
BAHTTEXT		= BAHTTEXT			##	Wandelt eine Zahl in Text im Währungsformat ß
(Baht) um
CHAR			= ZEICHEN			##	Gibt das der Codezahl entsprechende Zeichen zurück
CLEAN			= SÄUBERN			##	Löscht alle nicht druckbaren Zeichen aus einem
Text
CODE			= CODE				##	Gibt die Codezahl des ersten Zeichens in einem Text
zurück
CONCATENATE		= VERKETTEN			##	Verknüpft mehrere Textelemente zu einem
Textelement
DOLLAR			= DM				##	Wandelt eine Zahl in Text im Währungsformat € (Euro)
um
EXACT			= IDENTISCH			##	Prüft, ob zwei Textwerte identisch sind
FIND			= FINDEN			##	Sucht nach einem Textwert, der in einem anderen
Textwert enthalten ist (Groß-/Kleinschreibung wird unterschieden)
FINDB			= FINDENB			##	Sucht nach einem Textwert, der in einem anderen
Textwert enthalten ist (Groß-/Kleinschreibung wird unterschieden)
FIXED			= FEST				##	Formatiert eine Zahl als Text mit einer festen Anzahl
von Dezimalstellen
JIS			= JIS				##	Konvertiert SB-Text in einer Zeichenfolge (lateinische
Buchstaben oder Katakana) in DB-Text
LEFT			= LINKS				##	Gibt die Zeichen ganz links in einem Textwert zurück
LEFTB			= LINKSB			##	Gibt die Zeichen ganz links in einem Textwert zurück
LEN			= LÄNGE				##	Gibt die Anzahl der Zeichen in einer Zeichenfolge
zurück
LENB			= LÄNGEB			##	Gibt die Anzahl der Zeichen in einer Zeichenfolge
zurück
LOWER			= KLEIN				##	Wandelt Text in Kleinbuchstaben um
MID			= TEIL				##	Gibt eine bestimmte Anzahl Zeichen aus einer
Zeichenfolge ab der von Ihnen angegebenen Stelle zurück
MIDB			= TEILB				##	Gibt eine bestimmte Anzahl Zeichen aus einer
Zeichenfolge ab der von Ihnen angegebenen Stelle zurück
PHONETIC		= PHONETIC			##	Extrahiert die phonetischen (Furigana-)Zeichen
aus einer Textzeichenfolge
PROPER			= GROSS2			##	Wandelt den ersten Buchstaben aller Wörter eines
Textwerts in Großbuchstaben um
REPLACE			= ERSETZEN			##	Ersetzt Zeichen in Text
REPLACEB		= ERSETZENB			##	Ersetzt Zeichen in Text
REPT			= WIEDERHOLEN			##	Wiederholt einen Text so oft wie angegeben
RIGHT			= RECHTS			##	Gibt die Zeichen ganz rechts in einem Textwert
zurück
RIGHTB			= RECHTSB			##	Gibt die Zeichen ganz rechts in einem Textwert
zurück
SEARCH			= SUCHEN			##	Sucht nach einem Textwert, der in einem anderen
Textwert enthalten ist (Groß-/Kleinschreibung wird nicht unterschieden)
SEARCHB			= SUCHENB			##	Sucht nach einem Textwert, der in einem anderen
Textwert enthalten ist (Groß-/Kleinschreibung wird nicht unterschieden)
SUBSTITUTE		= WECHSELN			##	Ersetzt in einer Zeichenfolge neuen Text gegen
alten
T			= T				##	Wandelt die zugehörigen Argumente in Text um
TEXT			= TEXT				##	Formatiert eine Zahl und wandelt sie in Text um
TRIM			= GLÄTTEN			##	Entfernt Leerzeichen aus Text
UPPER			= GROSS				##	Wandelt Text in Großbuchstaben um
VALUE			= WERT				##	Wandelt ein Textargument in eine Zahl um
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/locale/en/uk/config000064400000000107151165413740024444
0ustar00##
## PhpSpreadsheet
##

##
##	(For future use)
##
currencySymbol	= £
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/locale/es/config000064400000000502151165413740024031
0ustar00##
## PhpSpreadsheet
##

ArgumentSeparator	= ;


##
##	(For future use)
##
currencySymbol	= $	##	I'm surprised that the Excel Documentation
suggests $ rather than €


##
##	Excel Error Codes	(For future use)

##
NULL	= #¡NULO!
DIV0	= #¡DIV/0!
VALUE	= #¡VALOR!
REF	= #¡REF!
NAME	= #¿NOMBRE?
NUM	= #¡NÚM!
NA	= #N/A
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/locale/es/functions000064400000102571151165413740024605
0ustar00##
## PhpSpreadsheet
##
## Data in this file derived from
https://www.excel-function-translation.com/
##
##


##
##	Add-in and Automation functions				Funciones de complementos y
automatización
##
GETPIVOTDATA		= IMPORTARDATOSDINAMICOS		##	Devuelve los datos almacenados
en un informe de tabla dinámica.


##
##	Cube functions						Funciones de cubo
##
CUBEKPIMEMBER		= MIEMBROKPICUBO			##	Devuelve un nombre, propiedad y medida
de indicador de rendimiento clave (KPI) y muestra el nombre y la propiedad
en la celda. Un KPI es una medida cuantificable, como los beneficios brutos
mensuales o la facturación trimestral por empleado, que se usa para
supervisar el rendimiento de una organización.
CUBEMEMBER		= MIEMBROCUBO				##	Devuelve un miembro o tupla en una
jerarquía de cubo. Se usa para validar la existencia del miembro o la
tupla en el cubo.
CUBEMEMBERPROPERTY	= PROPIEDADMIEMBROCUBO			##	Devuelve el valor de una
propiedad de miembro del cubo Se usa para validar la existencia de un
nombre de miembro en el cubo y para devolver la propiedad especificada para
este miembro.
CUBERANKEDMEMBER	= MIEMBRORANGOCUBO			##	Devuelve el miembro n, o
clasificado, de un conjunto. Se usa para devolver uno o más elementos de
un conjunto, por ejemplo, el representante con mejores ventas o los diez
mejores alumnos.
CUBESET			= CONJUNTOCUBO				##	Define un conjunto calculado de miembros o
tuplas mediante el envío de una expresión de conjunto al cubo en el
servidor, lo que crea el conjunto y, después, devuelve dicho conjunto a
Microsoft Office Excel.
CUBESETCOUNT		= RECUENTOCONJUNTOCUBO			##	Devuelve el número de elementos
de un conjunto.
CUBEVALUE		= VALORCUBO				##	Devuelve un valor agregado de un cubo.


##
##	Database functions					Funciones de base de datos
##
DAVERAGE		= BDPROMEDIO				##	Devuelve el promedio de las entradas
seleccionadas en la base de datos.
DCOUNT			= BDCONTAR				##	Cuenta el número de celdas que contienen
números en una base de datos.
DCOUNTA			= BDCONTARA				##	Cuenta el número de celdas no vacías en una
base de datos.
DGET			= BDEXTRAER				##	Extrae de una base de datos un único registro que
cumple los criterios especificados.
DMAX			= BDMAX					##	Devuelve el valor máximo de las entradas
seleccionadas de la base de datos.
DMIN			= BDMIN					##	Devuelve el valor mínimo de las entradas
seleccionadas de la base de datos.
DPRODUCT		= BDPRODUCTO				##	Multiplica los valores de un campo concreto de
registros de una base de datos que cumplen los criterios especificados.
DSTDEV			= BDDESVEST				##	Calcula la desviación estándar a partir de una
muestra de entradas seleccionadas en la base de datos.
DSTDEVP			= BDDESVESTP				##	Calcula la desviación estándar en función
de la población total de las entradas seleccionadas de la base de datos.
DSUM			= BDSUMA				##	Suma los números de la columna de campo de los
registros de la base de datos que cumplen los criterios.
DVAR			= BDVAR					##	Calcula la varianza a partir de una muestra de
entradas seleccionadas de la base de datos.
DVARP			= BDVARP				##	Calcula la varianza a partir de la población total
de entradas seleccionadas de la base de datos.


##
##	Date and time functions					Funciones de fecha y hora
##
DATE			= FECHA					##	Devuelve el número de serie correspondiente a una
fecha determinada.
DATEVALUE		= FECHANUMERO				##	Convierte una fecha con formato de texto en
un valor de número de serie.
DAY			= DIA					##	Convierte un número de serie en un valor de día del
mes.
DAYS360			= DIAS360				##	Calcula el número de días entre dos fechas a
partir de un año de 360 días.
EDATE			= FECHA.MES				##	Devuelve el número de serie de la fecha
equivalente al número indicado de meses anteriores o posteriores a la
fecha inicial.
EOMONTH			= FIN.MES				##	Devuelve el número de serie correspondiente al
último día del mes anterior o posterior a un número de meses
especificado.
HOUR			= HORA					##	Convierte un número de serie en un valor de hora.
MINUTE			= MINUTO				##	Convierte un número de serie en un valor de
minuto.
MONTH			= MES					##	Convierte un número de serie en un valor de mes.
NETWORKDAYS		= DIAS.LAB				##	Devuelve el número de todos los días
laborables existentes entre dos fechas.
NOW			= AHORA					##	Devuelve el número de serie correspondiente a la
fecha y hora actuales.
SECOND			= SEGUNDO				##	Convierte un número de serie en un valor de
segundo.
TIME			= HORA					##	Devuelve el número de serie correspondiente a una
hora determinada.
TIMEVALUE		= HORANUMERO				##	Convierte una hora con formato de texto en un
valor de número de serie.
TODAY			= HOY					##	Devuelve el número de serie correspondiente al día
actual.
WEEKDAY			= DIASEM				##	Convierte un número de serie en un valor de día
de la semana.
WEEKNUM			= NUM.DE.SEMANA				##	Convierte un número de serie en un número
que representa el lugar numérico correspondiente a una semana de un año.
WORKDAY			= DIA.LAB				##	Devuelve el número de serie de la fecha que
tiene lugar antes o después de un número determinado de días laborables.
YEAR			= AÑO					##	Convierte un número de serie en un valor de año.
YEARFRAC		= FRAC.AÑO				##	Devuelve la fracción de año que representa el
número total de días existentes entre el valor de fecha_inicial y el de
fecha_final.


##
##	Engineering functions					Funciones de ingeniería
##
BESSELI			= BESSELI				##	Devuelve la función Bessel In(x) modificada.
BESSELJ			= BESSELJ				##	Devuelve la función Bessel Jn(x).
BESSELK			= BESSELK				##	Devuelve la función Bessel Kn(x) modificada.
BESSELY			= BESSELY				##	Devuelve la función Bessel Yn(x).
BIN2DEC			= BIN.A.DEC				##	Convierte un número binario en decimal.
BIN2HEX			= BIN.A.HEX				##	Convierte un número binario en hexadecimal.
BIN2OCT			= BIN.A.OCT				##	Convierte un número binario en octal.
COMPLEX			= COMPLEJO				##	Convierte coeficientes reales e imaginarios en
un número complejo.
CONVERT			= CONVERTIR				##	Convierte un número de un sistema de medida a
otro.
DEC2BIN			= DEC.A.BIN				##	Convierte un número decimal en binario.
DEC2HEX			= DEC.A.HEX				##	Convierte un número decimal en hexadecimal.
DEC2OCT			= DEC.A.OCT				##	Convierte un número decimal en octal.
DELTA			= DELTA					##	Comprueba si dos valores son iguales.
ERF			= FUN.ERROR				##	Devuelve la función de error.
ERFC			= FUN.ERROR.COMPL			##	Devuelve la función de error complementario.
GESTEP			= MAYOR.O.IGUAL				##	Comprueba si un número es mayor que un
valor de umbral.
HEX2BIN			= HEX.A.BIN				##	Convierte un número hexadecimal en binario.
HEX2DEC			= HEX.A.DEC				##	Convierte un número hexadecimal en decimal.
HEX2OCT			= HEX.A.OCT				##	Convierte un número hexadecimal en octal.
IMABS			= IM.ABS				##	Devuelve el valor absoluto (módulo) de un número
complejo.
IMAGINARY		= IMAGINARIO				##	Devuelve el coeficiente imaginario de un
número complejo.
IMARGUMENT		= IM.ANGULO				##	Devuelve el argumento theta, un ángulo
expresado en radianes.
IMCONJUGATE		= IM.CONJUGADA				##	Devuelve la conjugada compleja de un
número complejo.
IMCOS			= IM.COS				##	Devuelve el coseno de un número complejo.
IMDIV			= IM.DIV				##	Devuelve el cociente de dos números complejos.
IMEXP			= IM.EXP				##	Devuelve el valor exponencial de un número
complejo.
IMLN			= IM.LN					##	Devuelve el logaritmo natural (neperiano) de un
número complejo.
IMLOG10			= IM.LOG10				##	Devuelve el logaritmo en base 10 de un número
complejo.
IMLOG2			= IM.LOG2				##	Devuelve el logaritmo en base 2 de un número
complejo.
IMPOWER			= IM.POT				##	Devuelve un número complejo elevado a una
potencia entera.
IMPRODUCT		= IM.PRODUCT				##	Devuelve el producto de números complejos.
IMREAL			= IM.REAL				##	Devuelve el coeficiente real de un número
complejo.
IMSIN			= IM.SENO				##	Devuelve el seno de un número complejo.
IMSQRT			= IM.RAIZ2				##	Devuelve la raíz cuadrada de un número
complejo.
IMSUB			= IM.SUSTR				##	Devuelve la diferencia entre dos números
complejos.
IMSUM			= IM.SUM				##	Devuelve la suma de números complejos.
OCT2BIN			= OCT.A.BIN				##	Convierte un número octal en binario.
OCT2DEC			= OCT.A.DEC				##	Convierte un número octal en decimal.
OCT2HEX			= OCT.A.HEX				##	Convierte un número octal en hexadecimal.


##
##	Financial functions					Funciones financieras
##
ACCRINT			= INT.ACUM				##	Devuelve el interés acumulado de un valor
bursátil con pagos de interés periódicos.
ACCRINTM		= INT.ACUM.V				##	Devuelve el interés acumulado de un valor
bursátil con pagos de interés al vencimiento.
AMORDEGRC		= AMORTIZ.PROGRE			##	Devuelve la amortización de cada período
contable mediante el uso de un coeficiente de amortización.
AMORLINC		= AMORTIZ.LIN				##	Devuelve la amortización de cada uno de los
períodos contables.
COUPDAYBS		= CUPON.DIAS.L1				##	Devuelve el número de días desde el
principio del período de un cupón hasta la fecha de liquidación.
COUPDAYS		= CUPON.DIAS				##	Devuelve el número de días del período
(entre dos cupones) donde se encuentra la fecha de liquidación.
COUPDAYSNC		= CUPON.DIAS.L2				##	Devuelve el número de días desde la
fecha de liquidación hasta la fecha del próximo cupón.
COUPNCD			= CUPON.FECHA.L2			##	Devuelve la fecha del próximo cupón
después de la fecha de liquidación.
COUPNUM			= CUPON.NUM				##	Devuelve el número de pagos de cupón entre la
fecha de liquidación y la fecha de vencimiento.
COUPPCD			= CUPON.FECHA.L1			##	Devuelve la fecha de cupón anterior a la
fecha de liquidación.
CUMIPMT			= PAGO.INT.ENTRE			##	Devuelve el interés acumulado pagado entre
dos períodos.
CUMPRINC		= PAGO.PRINC.ENTRE			##	Devuelve el capital acumulado pagado de
un préstamo entre dos períodos.
DB			= DB					##	Devuelve la amortización de un bien durante un período
específico a través del método de amortización de saldo fijo.
DDB			= DDB					##	Devuelve la amortización de un bien durante un período
específico a través del método de amortización por doble disminución
de saldo u otro método que se especifique.
DISC			= TASA.DESC				##	Devuelve la tasa de descuento de un valor
bursátil.
DOLLARDE		= MONEDA.DEC				##	Convierte una cotización de un valor
bursátil expresada en forma fraccionaria en una cotización de un valor
bursátil expresada en forma decimal.
DOLLARFR		= MONEDA.FRAC				##	Convierte una cotización de un valor
bursátil expresada en forma decimal en una cotización de un valor
bursátil expresada en forma fraccionaria.
DURATION		= DURACION				##	Devuelve la duración anual de un valor
bursátil con pagos de interés periódico.
EFFECT			= INT.EFECTIVO				##	Devuelve la tasa de interés anual efectiva.
FV			= VF					##	Devuelve el valor futuro de una inversión.
FVSCHEDULE		= VF.PLAN				##	Devuelve el valor futuro de un capital inicial
después de aplicar una serie de tasas de interés compuesto.
INTRATE			= TASA.INT				##	Devuelve la tasa de interés para la inversión
total de un valor bursátil.
IPMT			= PAGOINT				##	Devuelve el pago de intereses de una inversión
durante un período determinado.
IRR			= TIR					##	Devuelve la tasa interna de retorno para una serie de
flujos de efectivo periódicos.
ISPMT			= INT.PAGO.DIR				##	Calcula el interés pagado durante un período
específico de una inversión.
MDURATION		= DURACION.MODIF			##	Devuelve la duración de Macauley
modificada de un valor bursátil con un valor nominal supuesto de 100 $.
MIRR			= TIRM					##	Devuelve la tasa interna de retorno donde se financian
flujos de efectivo positivos y negativos a tasas diferentes.
NOMINAL			= TASA.NOMINAL				##	Devuelve la tasa nominal de interés anual.
NPER			= NPER					##	Devuelve el número de períodos de una inversión.
NPV			= VNA					##	Devuelve el valor neto actual de una inversión en
función de una serie de flujos periódicos de efectivo y una tasa de
descuento.
ODDFPRICE		= PRECIO.PER.IRREGULAR.1		##	Devuelve el precio por un valor
nominal de 100 $ de un valor bursátil con un primer período impar.
ODDFYIELD		= RENDTO.PER.IRREGULAR.1		##	Devuelve el rendimiento de un valor
bursátil con un primer período impar.
ODDLPRICE		= PRECIO.PER.IRREGULAR.2		##	Devuelve el precio por un valor
nominal de 100 $ de un valor bursátil con un último período impar.
ODDLYIELD		= RENDTO.PER.IRREGULAR.2		##	Devuelve el rendimiento de un valor
bursátil con un último período impar.
PMT			= PAGO					##	Devuelve el pago periódico de una anualidad.
PPMT			= PAGOPRIN				##	Devuelve el pago de capital de una inversión
durante un período determinado.
PRICE			= PRECIO				##	Devuelve el precio por un valor nominal de 100 $ de
un valor bursátil que paga una tasa de interés periódico.
PRICEDISC		= PRECIO.DESCUENTO			##	Devuelve el precio por un valor nominal
de 100 $ de un valor bursátil con descuento.
PRICEMAT		= PRECIO.VENCIMIENTO			##	Devuelve el precio por un valor nominal
de 100 $ de un valor bursátil que paga interés a su vencimiento.
PV			= VALACT				##	Devuelve el valor actual de una inversión.
RATE			= TASA					##	Devuelve la tasa de interés por período de una
anualidad.
RECEIVED		= CANTIDAD.RECIBIDA			##	Devuelve la cantidad recibida al
vencimiento de un valor bursátil completamente invertido.
SLN			= SLN					##	Devuelve la amortización por método directo de un bien
en un período dado.
SYD			= SYD					##	Devuelve la amortización por suma de dígitos de los
años de un bien durante un período especificado.
TBILLEQ			= LETRA.DE.TES.EQV.A.BONO		##	Devuelve el rendimiento de un bono
equivalente a una letra del Tesoro (de EE.UU.)
TBILLPRICE		= LETRA.DE.TES.PRECIO			##	Devuelve el precio por un valor
nominal de 100 $ de una letra del Tesoro (de EE.UU.)
TBILLYIELD		= LETRA.DE.TES.RENDTO			##	Devuelve el rendimiento de una letra
del Tesoro (de EE.UU.)
VDB			= DVS					##	Devuelve la amortización de un bien durante un período
específico o parcial a través del método de cálculo del saldo en
disminución.
XIRR			= TIR.NO.PER				##	Devuelve la tasa interna de retorno para un flujo
de efectivo que no es necesariamente periódico.
XNPV			= VNA.NO.PER				##	Devuelve el valor neto actual para un flujo de
efectivo que no es necesariamente periódico.
YIELD			= RENDTO				##	Devuelve el rendimiento de un valor bursátil que
paga intereses periódicos.
YIELDDISC		= RENDTO.DESC				##	Devuelve el rendimiento anual de un valor
bursátil con descuento; por ejemplo, una letra del Tesoro (de EE.UU.)
YIELDMAT		= RENDTO.VENCTO				##	Devuelve el rendimiento anual de un valor
bursátil que paga intereses al vencimiento.


##
##	Information functions					Funciones de información
##
CELL			= CELDA					##	Devuelve información acerca del formato, la
ubicación o el contenido de una celda.
ERROR.TYPE		= TIPO.DE.ERROR				##	Devuelve un número que corresponde a un
tipo de error.
INFO			= INFO					##	Devuelve información acerca del entorno operativo en
uso.
ISBLANK			= ESBLANCO				##	Devuelve VERDADERO si el valor está en blanco.
ISERR			= ESERR					##	Devuelve VERDADERO si el valor es cualquier valor de
error excepto #N/A.
ISERROR			= ESERROR				##	Devuelve VERDADERO si el valor es cualquier valor
de error.
ISEVEN			= ES.PAR				##	Devuelve VERDADERO si el número es par.
ISLOGICAL		= ESLOGICO				##	Devuelve VERDADERO si el valor es un valor
lógico.
ISNA			= ESNOD					##	Devuelve VERDADERO si el valor es el valor de error
#N/A.
ISNONTEXT		= ESNOTEXTO				##	Devuelve VERDADERO si el valor no es texto.
ISNUMBER		= ESNUMERO				##	Devuelve VERDADERO si el valor es un número.
ISODD			= ES.IMPAR				##	Devuelve VERDADERO si el número es impar.
ISREF			= ESREF					##	Devuelve VERDADERO si el valor es una referencia.
ISTEXT			= ESTEXTO				##	Devuelve VERDADERO si el valor es texto.
N			= N					##	Devuelve un valor convertido en un número.
NA			= ND					##	Devuelve el valor de error #N/A.
TYPE			= TIPO					##	Devuelve un número que indica el tipo de datos de un
valor.


##
##	Logical functions					Funciones lógicas
##
AND			= Y					##	Devuelve VERDADERO si todos sus argumentos son VERDADERO.
FALSE			= FALSO					##	Devuelve el valor lógico FALSO.
IF			= SI					##	Especifica una prueba lógica que realizar.
IFERROR			= SI.ERROR				##	Devuelve un valor que se especifica si una
fórmula lo evalúa como un error; de lo contrario, devuelve el resultado
de la fórmula.
NOT			= NO					##	Invierte el valor lógico del argumento.
OR			= O					##	Devuelve VERDADERO si cualquier argumento es VERDADERO.
TRUE			= VERDADERO				##	Devuelve el valor lógico VERDADERO.


##
##	Lookup and reference functions				Funciones de búsqueda y referencia
##
ADDRESS			= DIRECCION				##	Devuelve una referencia como texto a una sola
celda de una hoja de cálculo.
AREAS			= AREAS					##	Devuelve el número de áreas de una referencia.
CHOOSE			= ELEGIR				##	Elige un valor de una lista de valores.
COLUMN			= COLUMNA				##	Devuelve el número de columna de una referencia.
COLUMNS			= COLUMNAS				##	Devuelve el número de columnas de una
referencia.
HLOOKUP			= BUSCARH				##	Busca en la fila superior de una matriz y
devuelve el valor de la celda indicada.
HYPERLINK		= HIPERVINCULO				##	Crea un acceso directo o un salto que abre
un documento almacenado en un servidor de red, en una intranet o en
Internet.
INDEX			= INDICE				##	Usa un índice para elegir un valor de una
referencia o matriz.
INDIRECT		= INDIRECTO				##	Devuelve una referencia indicada por un valor
de texto.
LOOKUP			= BUSCAR				##	Busca valores de un vector o una matriz.
MATCH			= COINCIDIR				##	Busca valores de una referencia o matriz.
OFFSET			= DESREF				##	Devuelve un desplazamiento de referencia respecto a
una referencia dada.
ROW			= FILA					##	Devuelve el número de fila de una referencia.
ROWS			= FILAS					##	Devuelve el número de filas de una referencia.
RTD			= RDTR					##	Recupera datos en tiempo real desde un programa
compatible con la automatización COM (automatización: modo de trabajar
con los objetos de una aplicación desde otra aplicación o herramienta de
entorno. La automatización, antes denominada automatización OLE, es un
estándar de la industria y una función del Modelo de objetos componentes
(COM).).
TRANSPOSE		= TRANSPONER				##	Devuelve la transposición de una matriz.
VLOOKUP			= BUSCARV				##	Busca en la primera columna de una matriz y se
mueve en horizontal por la fila para devolver el valor de una celda.


##
##	Math and trigonometry functions				Funciones matemáticas y
trigonométricas
##
ABS			= ABS					##	Devuelve el valor absoluto de un número.
ACOS			= ACOS					##	Devuelve el arcocoseno de un número.
ACOSH			= ACOSH					##	Devuelve el coseno hiperbólico inverso de un
número.
ASIN			= ASENO					##	Devuelve el arcoseno de un número.
ASINH			= ASENOH				##	Devuelve el seno hiperbólico inverso de un número.
ATAN			= ATAN					##	Devuelve la arcotangente de un número.
ATAN2			= ATAN2					##	Devuelve la arcotangente de las coordenadas
"x" e "y".
ATANH			= ATANH					##	Devuelve la tangente hiperbólica inversa de un
número.
CEILING			= MULTIPLO.SUPERIOR			##	Redondea un número al entero más
próximo o al múltiplo significativo más cercano.
COMBIN			= COMBINAT				##	Devuelve el número de combinaciones para un
número determinado de objetos.
COS			= COS					##	Devuelve el coseno de un número.
COSH			= COSH					##	Devuelve el coseno hiperbólico de un número.
DEGREES			= GRADOS				##	Convierte radianes en grados.
EVEN			= REDONDEA.PAR				##	Redondea un número hasta el entero par más
próximo.
EXP			= EXP					##	Devuelve e elevado a la potencia de un número dado.
FACT			= FACT					##	Devuelve el factorial de un número.
FACTDOUBLE		= FACT.DOBLE				##	Devuelve el factorial doble de un número.
FLOOR			= MULTIPLO.INFERIOR			##	Redondea un número hacia abajo, en
dirección hacia cero.
GCD			= M.C.D					##	Devuelve el máximo común divisor.
INT			= ENTERO				##	Redondea un número hacia abajo hasta el entero más
próximo.
LCM			= M.C.M					##	Devuelve el mínimo común múltiplo.
LN			= LN					##	Devuelve el logaritmo natural (neperiano) de un número.
LOG			= LOG					##	Devuelve el logaritmo de un número en una base
especificada.
LOG10			= LOG10					##	Devuelve el logaritmo en base 10 de un número.
MDETERM			= MDETERM				##	Devuelve la determinante matricial de una matriz.
MINVERSE		= MINVERSA				##	Devuelve la matriz inversa de una matriz.
MMULT			= MMULT					##	Devuelve el producto de matriz de dos matrices.
MOD			= RESIDUO				##	Devuelve el resto de la división.
MROUND			= REDOND.MULT				##	Devuelve un número redondeado al múltiplo
deseado.
MULTINOMIAL		= MULTINOMIAL				##	Devuelve el polinomio de un conjunto de
números.
ODD			= REDONDEA.IMPAR			##	Redondea un número hacia arriba hasta el
entero impar más próximo.
PI			= PI					##	Devuelve el valor de pi.
POWER			= POTENCIA				##	Devuelve el resultado de elevar un número a una
potencia.
PRODUCT			= PRODUCTO				##	Multiplica sus argumentos.
QUOTIENT		= COCIENTE				##	Devuelve la parte entera de una división.
RADIANS			= RADIANES				##	Convierte grados en radianes.
RAND			= ALEATORIO				##	Devuelve un número aleatorio entre 0 y 1.
RANDBETWEEN		= ALEATORIO.ENTRE			##	Devuelve un número aleatorio entre los
números que especifique.
ROMAN			= NUMERO.ROMANO				##	Convierte un número arábigo en número
romano, con formato de texto.
ROUND			= REDONDEAR				##	Redondea un número al número de decimales
especificado.
ROUNDDOWN		= REDONDEAR.MENOS			##	Redondea un número hacia abajo, en
dirección hacia cero.
ROUNDUP			= REDONDEAR.MAS				##	Redondea un número hacia arriba, en
dirección contraria a cero.
SERIESSUM		= SUMA.SERIES				##	Devuelve la suma de una serie de potencias
en función de la fórmula.
SIGN			= SIGNO					##	Devuelve el signo de un número.
SIN			= SENO					##	Devuelve el seno de un ángulo determinado.
SINH			= SENOH					##	Devuelve el seno hiperbólico de un número.
SQRT			= RAIZ					##	Devuelve la raíz cuadrada positiva de un número.
SQRTPI			= RAIZ2PI				##	Devuelve la raíz cuadrada de un número
multiplicado por PI (número * pi).
SUBTOTAL		= SUBTOTALES				##	Devuelve un subtotal en una lista o base de
datos.
SUM			= SUMA					##	Suma sus argumentos.
SUMIF			= SUMAR.SI				##	Suma las celdas especificadas que cumplen unos
criterios determinados.
SUMIFS			= SUMAR.SI.CONJUNTO			##	Suma las celdas de un rango que cumplen
varios criterios.
SUMPRODUCT		= SUMAPRODUCTO				##	Devuelve la suma de los productos de los
correspondientes componentes de matriz.
SUMSQ			= SUMA.CUADRADOS			##	Devuelve la suma de los cuadrados de los
argumentos.
SUMX2MY2		= SUMAX2MENOSY2				##	Devuelve la suma de la diferencia de los
cuadrados de los valores correspondientes de dos matrices.
SUMX2PY2		= SUMAX2MASY2				##	Devuelve la suma de la suma de los cuadrados
de los valores correspondientes de dos matrices.
SUMXMY2			= SUMAXMENOSY2				##	Devuelve la suma de los cuadrados de las
diferencias de los valores correspondientes de dos matrices.
TAN			= TAN					##	Devuelve la tangente de un número.
TANH			= TANH					##	Devuelve la tangente hiperbólica de un número.
TRUNC			= TRUNCAR				##	Trunca un número a un entero.


##
##	Statistical functions					Funciones estadísticas
##
AVEDEV			= DESVPROM				##	Devuelve el promedio de las desviaciones
absolutas de la media de los puntos de datos.
AVERAGE			= PROMEDIO				##	Devuelve el promedio de sus argumentos.
AVERAGEA		= PROMEDIOA				##	Devuelve el promedio de sus argumentos,
incluidos números, texto y valores lógicos.
AVERAGEIF		= PROMEDIO.SI				##	Devuelve el promedio (media aritmética) de
todas las celdas de un rango que cumplen unos criterios determinados.
AVERAGEIFS		= PROMEDIO.SI.CONJUNTO			##	Devuelve el promedio (media
aritmética) de todas las celdas que cumplen múltiples criterios.
BETADIST		= DISTR.BETA				##	Devuelve la función de distribución beta
acumulativa.
BETAINV			= DISTR.BETA.INV			##	Devuelve la función inversa de la función
de distribución acumulativa de una distribución beta especificada.
BINOMDIST		= DISTR.BINOM				##	Devuelve la probabilidad de una variable
aleatoria discreta siguiendo una distribución binomial.
CHIDIST			= DISTR.CHI				##	Devuelve la probabilidad de una variable
aleatoria continua siguiendo una distribución chi cuadrado de una sola
cola.
CHIINV			= PRUEBA.CHI.INV			##	Devuelve la función inversa de la
probabilidad de una variable aleatoria continua siguiendo una distribución
chi cuadrado de una sola cola.
CHITEST			= PRUEBA.CHI				##	Devuelve la prueba de independencia.
CONFIDENCE		= INTERVALO.CONFIANZA			##	Devuelve el intervalo de confianza
de la media de una población.
CORREL			= COEF.DE.CORREL			##	Devuelve el coeficiente de correlación
entre dos conjuntos de datos.
COUNT			= CONTAR				##	Cuenta cuántos números hay en la lista de
argumentos.
COUNTA			= CONTARA				##	Cuenta cuántos valores hay en la lista de
argumentos.
COUNTBLANK		= CONTAR.BLANCO				##	Cuenta el número de celdas en blanco de
un rango.
COUNTIF			= CONTAR.SI				##	Cuenta el número de celdas, dentro del rango,
que cumplen el criterio especificado.
COUNTIFS		= CONTAR.SI.CONJUNTO			##	Cuenta el número de celdas, dentro del
rango, que cumplen varios criterios.
COVAR			= COVAR					##	Devuelve la covarianza, que es el promedio de los
productos de las desviaciones para cada pareja de puntos de datos.
CRITBINOM		= BINOM.CRIT				##	Devuelve el menor valor cuya distribución
binomial acumulativa es menor o igual a un valor de criterio.
DEVSQ			= DESVIA2				##	Devuelve la suma de los cuadrados de las
desviaciones.
EXPONDIST		= DISTR.EXP				##	Devuelve la distribución exponencial.
FDIST			= DISTR.F				##	Devuelve la distribución de probabilidad F.
FINV			= DISTR.F.INV				##	Devuelve la función inversa de la distribución
de probabilidad F.
FISHER			= FISHER				##	Devuelve la transformación Fisher.
FISHERINV		= PRUEBA.FISHER.INV			##	Devuelve la función inversa de la
transformación Fisher.
FORECAST		= PRONOSTICO				##	Devuelve un valor en una tendencia lineal.
FREQUENCY		= FRECUENCIA				##	Devuelve una distribución de frecuencia como
una matriz vertical.
FTEST			= PRUEBA.F				##	Devuelve el resultado de una prueba F.
GAMMADIST		= DISTR.GAMMA				##	Devuelve la distribución gamma.
GAMMAINV		= DISTR.GAMMA.INV			##	Devuelve la función inversa de la
distribución gamma acumulativa.
GAMMALN			= GAMMA.LN				##	Devuelve el logaritmo natural de la función
gamma, G(x).
GEOMEAN			= MEDIA.GEOM				##	Devuelve la media geométrica.
GROWTH			= CRECIMIENTO				##	Devuelve valores en una tendencia exponencial.
HARMEAN			= MEDIA.ARMO				##	Devuelve la media armónica.
HYPGEOMDIST		= DISTR.HIPERGEOM			##	Devuelve la distribución
hipergeométrica.
INTERCEPT		= INTERSECCION.EJE			##	Devuelve la intersección de la línea
de regresión lineal.
KURT			= CURTOSIS				##	Devuelve la curtosis de un conjunto de datos.
LARGE			= K.ESIMO.MAYOR				##	Devuelve el k-ésimo mayor valor de un
conjunto de datos.
LINEST			= ESTIMACION.LINEAL			##	Devuelve los parámetros de una tendencia
lineal.
LOGEST			= ESTIMACION.LOGARITMICA		##	Devuelve los parámetros de una
tendencia exponencial.
LOGINV			= DISTR.LOG.INV				##	Devuelve la función inversa de la
distribución logarítmico-normal.
LOGNORMDIST		= DISTR.LOG.NORM			##	Devuelve la distribución
logarítmico-normal acumulativa.
MAX			= MAX					##	Devuelve el valor máximo de una lista de argumentos.
MAXA			= MAXA					##	Devuelve el valor máximo de una lista de argumentos,
incluidos números, texto y valores lógicos.
MEDIAN			= MEDIANA				##	Devuelve la mediana de los números dados.
MIN			= MIN					##	Devuelve el valor mínimo de una lista de argumentos.
MINA			= MINA					##	Devuelve el valor mínimo de una lista de argumentos,
incluidos números, texto y valores lógicos.
MODE			= MODA					##	Devuelve el valor más común de un conjunto de datos.
NEGBINOMDIST		= NEGBINOMDIST				##	Devuelve la distribución binomial
negativa.
NORMDIST		= DISTR.NORM				##	Devuelve la distribución normal acumulativa.
NORMINV			= DISTR.NORM.INV			##	Devuelve la función inversa de la
distribución normal acumulativa.
NORMSDIST		= DISTR.NORM.ESTAND			##	Devuelve la distribución normal
estándar acumulativa.
NORMSINV		= DISTR.NORM.ESTAND.INV			##	Devuelve la función inversa de la
distribución normal estándar acumulativa.
PEARSON			= PEARSON				##	Devuelve el coeficiente de momento de
correlación de producto Pearson.
PERCENTILE		= PERCENTIL				##	Devuelve el k-ésimo percentil de los valores
de un rango.
PERCENTRANK		= RANGO.PERCENTIL			##	Devuelve el rango porcentual de un
valor de un conjunto de datos.
PERMUT			= PERMUTACIONES				##	Devuelve el número de permutaciones de un
número determinado de objetos.
POISSON			= POISSON				##	Devuelve la distribución de Poisson.
PROB			= PROBABILIDAD				##	Devuelve la probabilidad de que los valores de
un rango se encuentren entre dos límites.
QUARTILE		= CUARTIL				##	Devuelve el cuartil de un conjunto de datos.
RANK			= JERARQUIA				##	Devuelve la jerarquía de un número en una lista
de números.
RSQ			= COEFICIENTE.R2			##	Devuelve el cuadrado del coeficiente de momento
de correlación de producto Pearson.
SKEW			= COEFICIENTE.ASIMETRIA			##	Devuelve la asimetría de una
distribución.
SLOPE			= PENDIENTE				##	Devuelve la pendiente de la línea de regresión
lineal.
SMALL			= K.ESIMO.MENOR				##	Devuelve el k-ésimo menor valor de un
conjunto de datos.
STANDARDIZE		= NORMALIZACION				##	Devuelve un valor normalizado.
STDEV			= DESVEST				##	Calcula la desviación estándar a partir de una
muestra.
STDEVA			= DESVESTA				##	Calcula la desviación estándar a partir de una
muestra, incluidos números, texto y valores lógicos.
STDEVP			= DESVESTP				##	Calcula la desviación estándar en función de
toda la población.
STDEVPA			= DESVESTPA				##	Calcula la desviación estándar en función de
toda la población, incluidos números, texto y valores lógicos.
STEYX			= ERROR.TIPICO.XY			##	Devuelve el error estándar del valor de
"y" previsto para cada "x" de la regresión.
TDIST			= DISTR.T				##	Devuelve la distribución de t de Student.
TINV			= DISTR.T.INV				##	Devuelve la función inversa de la distribución
de t de Student.
TREND			= TENDENCIA				##	Devuelve valores en una tendencia lineal.
TRIMMEAN		= MEDIA.ACOTADA				##	Devuelve la media del interior de un
conjunto de datos.
TTEST			= PRUEBA.T				##	Devuelve la probabilidad asociada a una prueba t
de Student.
VAR			= VAR					##	Calcula la varianza en función de una muestra.
VARA			= VARA					##	Calcula la varianza en función de una muestra,
incluidos números, texto y valores lógicos.
VARP			= VARP					##	Calcula la varianza en función de toda la población.
VARPA			= VARPA					##	Calcula la varianza en función de toda la
población, incluidos números, texto y valores lógicos.
WEIBULL			= DIST.WEIBULL				##	Devuelve la distribución de Weibull.
ZTEST			= PRUEBA.Z				##	Devuelve el valor de una probabilidad de una cola
de una prueba z.


##
##	Text functions						Funciones de texto
##
ASC			= ASC					##	Convierte las letras inglesas o katakana de ancho
completo (de dos bytes) dentro de una cadena de caracteres en caracteres de
ancho medio (de un byte).
BAHTTEXT		= TEXTOBAHT				##	Convierte un número en texto, con el formato
de moneda ß (Baht).
CHAR			= CARACTER				##	Devuelve el carácter especificado por el número
de código.
CLEAN			= LIMPIAR				##	Quita del texto todos los caracteres no
imprimibles.
CODE			= CODIGO				##	Devuelve un código numérico del primer carácter de
una cadena de texto.
CONCATENATE		= CONCATENAR				##	Concatena varios elementos de texto en uno
solo.
DOLLAR			= MONEDA				##	Convierte un número en texto, con el formato de
moneda $ (dólar).
EXACT			= IGUAL					##	Comprueba si dos valores de texto son idénticos.
FIND			= ENCONTRAR				##	Busca un valor de texto dentro de otro (distingue
mayúsculas de minúsculas).
FINDB			= ENCONTRARB				##	Busca un valor de texto dentro de otro
(distingue mayúsculas de minúsculas).
FIXED			= DECIMAL				##	Da formato a un número como texto con un número
fijo de decimales.
JIS			= JIS					##	Convierte las letras inglesas o katakana de ancho medio
(de un byte) dentro de una cadena de caracteres en caracteres de ancho
completo (de dos bytes).
LEFT			= IZQUIERDA				##	Devuelve los caracteres del lado izquierdo de un
valor de texto.
LEFTB			= IZQUIERDAB				##	Devuelve los caracteres del lado izquierdo de un
valor de texto.
LEN			= LARGO					##	Devuelve el número de caracteres de una cadena de
texto.
LENB			= LARGOB				##	Devuelve el número de caracteres de una cadena de
texto.
LOWER			= MINUSC				##	Pone el texto en minúsculas.
MID			= EXTRAE				##	Devuelve un número específico de caracteres de una
cadena de texto que comienza en la posición que se especifique.
MIDB			= EXTRAEB				##	Devuelve un número específico de caracteres de una
cadena de texto que comienza en la posición que se especifique.
PHONETIC		= FONETICO				##	Extrae los caracteres fonéticos (furigana) de
una cadena de texto.
PROPER			= NOMPROPIO				##	Pone en mayúscula la primera letra de cada
palabra de un valor de texto.
REPLACE			= REEMPLAZAR				##	Reemplaza caracteres de texto.
REPLACEB		= REEMPLAZARB				##	Reemplaza caracteres de texto.
REPT			= REPETIR				##	Repite el texto un número determinado de veces.
RIGHT			= DERECHA				##	Devuelve los caracteres del lado derecho de un
valor de texto.
RIGHTB			= DERECHAB				##	Devuelve los caracteres del lado derecho de un
valor de texto.
SEARCH			= HALLAR				##	Busca un valor de texto dentro de otro (no
distingue mayúsculas de minúsculas).
SEARCHB			= HALLARB				##	Busca un valor de texto dentro de otro (no
distingue mayúsculas de minúsculas).
SUBSTITUTE		= SUSTITUIR				##	Sustituye texto nuevo por texto antiguo en
una cadena de texto.
T			= T					##	Convierte sus argumentos a texto.
TEXT			= TEXTO					##	Da formato a un número y lo convierte en texto.
TRIM			= ESPACIOS				##	Quita los espacios del texto.
UPPER			= MAYUSC				##	Pone el texto en mayúsculas.
VALUE			= VALOR					##	Convierte un argumento de texto en un número.
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/locale/fi/config000064400000000445151165413740024026
0ustar00##
## PhpSpreadsheet
##

ArgumentSeparator	= ;


##
##	(For future use)
##
currencySymbol	= $	#	Symbol not known, should it be a € (Euro)?


##
##	Excel Error Codes	(For future use)

##
NULL	= #TYHJÄ!
DIV0	= #JAKO/0!
VALUE	= #ARVO!
REF	= #VIITTAUS!
NAME	= #NIMI?
NUM	= #LUKU!
NA	= #PUUTTUU
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/locale/fi/functions000064400000074744151165413740024606
0ustar00##
## PhpSpreadsheet
##
## Data in this file derived from
https://www.excel-function-translation.com/
##
##


##
##	Add-in and Automation functions			Apuohjelma- ja automaatiofunktiot
##
GETPIVOTDATA		= NOUDA.PIVOT.TIEDOT		##	Palauttaa pivot-taulukkoraporttiin
tallennettuja tietoja.


##
##	Cube functions					Kuutiofunktiot
##
CUBEKPIMEMBER		= KUUTIOKPIJÄSEN		##	Palauttaa suorituskykyilmaisimen (KPI)
nimen, ominaisuuden sekä mitan ja näyttää nimen sekä ominaisuuden
solussa. KPI on mitattavissa oleva suure, kuten kuukauden bruttotuotto tai
vuosineljänneksen työntekijäkohtainen liikevaihto, joiden avulla
tarkkaillaan organisaation suorituskykyä.
CUBEMEMBER		= KUUTIONJÄSEN			##	Palauttaa kuutiohierarkian jäsenen tai
monikon. Tällä funktiolla voit tarkistaa, että jäsen tai monikko on
olemassa kuutiossa.
CUBEMEMBERPROPERTY	= KUUTIONJÄSENENOMINAISUUS	##	Palauttaa kuution
jäsenominaisuuden arvon. Tällä funktiolla voit tarkistaa, että nimi on
olemassa kuutiossa, ja palauttaa tämän jäsenen määritetyn
ominaisuuden.
CUBERANKEDMEMBER	= KUUTIONLUOKITELTUJÄSEN	##	Palauttaa joukon n:nnen
jäsenen. Tällä funktiolla voit palauttaa joukosta elementtejä, kuten
parhaan myyjän tai 10 parasta opiskelijaa.
CUBESET			= KUUTIOJOUKKO			##	Määrittää lasketun jäsen- tai
monikkojoukon lähettämällä joukon lausekkeita palvelimessa olevalle
kuutiolle. Palvelin luo joukon ja palauttaa sen Microsoft Office Excelille.
CUBESETCOUNT		= KUUTIOJOUKKOJENMÄÄRÄ		##	Palauttaa joukon kohteiden
määrän.
CUBEVALUE		= KUUTIONARVO			##	Palauttaa koostetun arvon kuutiosta.


##
##	Database functions				Tietokantafunktiot
##
DAVERAGE		= TKESKIARVO			##	Palauttaa valittujen tietokantamerkintöjen
keskiarvon.
DCOUNT			= TLASKE			##	Laskee tietokannan lukuja sisältävien solujen
määrän.
DCOUNTA			= TLASKEA			##	Laskee tietokannan tietoja sisältävien solujen
määrän.
DGET			= TNOUDA			##	Hakee määritettyjä ehtoja vastaavan tietueen
tietokannasta.
DMAX			= TMAKS				##	Palauttaa suurimman arvon tietokannasta valittujen
arvojen joukosta.
DMIN			= TMIN				##	Palauttaa pienimmän arvon tietokannasta valittujen
arvojen joukosta.
DPRODUCT		= TTULO				##	Kertoo määritetyn ehdon täyttävien tietokannan
tietueiden tietyssä kentässä olevat arvot.
DSTDEV			= TKESKIHAJONTA			##	Laskee keskihajonnan tietokannasta valituista
arvoista muodostuvan otoksen perusteella.
DSTDEVP			= TKESKIHAJONTAP		##	Laskee keskihajonnan tietokannasta
valittujen arvojen koko populaation perusteella.
DSUM			= TSUMMA			##	Lisää luvut määritetyn ehdon täyttävien
tietokannan tietueiden kenttäsarakkeeseen.
DVAR			= TVARIANSSI			##	Laskee varianssin tietokannasta valittujen arvojen
otoksen perusteella.
DVARP			= TVARIANSSIP			##	Laskee varianssin tietokannasta valittujen
arvojen koko populaation perusteella.


##
##	Date and time functions				Päivämäärä- ja aikafunktiot
##
DATE			= PÄIVÄYS			##	Palauttaa annetun päivämäärän järjestysluvun.
DATEVALUE		= PÄIVÄYSARVO			##	Muuntaa tekstimuodossa olevan
päivämäärän järjestysluvuksi.
DAY			= PÄIVÄ				##	Muuntaa järjestysluvun kuukauden päiväksi.
DAYS360			= PÄIVÄT360			##	Laskee kahden päivämäärän välisten
päivien määrän käyttäen perustana 360-päiväistä vuotta.
EDATE			= PÄIVÄ.KUUKAUSI		##	Palauttaa järjestyslukuna päivämäärän,
joka poikkeaa aloituspäivän päivämäärästä annetun kuukausimäärän
verran joko eteen- tai taaksepäin.
EOMONTH			= KUUKAUSI.LOPPU		##	Palauttaa järjestyslukuna sen kuukauden
viimeisen päivämäärän, joka poikkeaa annetun kuukausimäärän verran
eteen- tai taaksepäin.
HOUR			= TUNNIT			##	Muuntaa järjestysluvun tunneiksi.
MINUTE			= MINUUTIT			##	Muuntaa järjestysluvun minuuteiksi.
MONTH			= KUUKAUSI			##	Muuntaa järjestysluvun kuukausiksi.
NETWORKDAYS		= TYÖPÄIVÄT			##	Palauttaa kahden päivämäärän
välissä olevien täysien työpäivien määrän.
NOW			= NYT				##	Palauttaa kuluvan päivämäärän ja ajan
järjestysnumeron.
SECOND			= SEKUNNIT			##	Muuntaa järjestysluvun sekunneiksi.
TIME			= AIKA				##	Palauttaa annetun kellonajan järjestysluvun.
TIMEVALUE		= AIKA_ARVO			##	Muuntaa tekstimuodossa olevan kellonajan
järjestysluvuksi.
TODAY			= TÄMÄ.PÄIVÄ			##	Palauttaa kuluvan päivän päivämäärän
järjestysluvun.
WEEKDAY			= VIIKONPÄIVÄ			##	Muuntaa järjestysluvun viikonpäiväksi.
WEEKNUM			= VIIKKO.NRO			##	Muuntaa järjestysluvun luvuksi, joka ilmaisee
viikon järjestysluvun vuoden alusta laskettuna.
WORKDAY			= TYÖPÄIVÄ			##	Palauttaa järjestysluvun päivämäärälle,
joka sijaitsee annettujen työpäivien verran eteen tai taaksepäin.
YEAR			= VUOSI				##	Muuntaa järjestysluvun vuosiksi.
YEARFRAC		= VUOSI.OSA			##	Palauttaa määritettyjen päivämäärien
(aloituspäivä ja lopetuspäivä) välisen osan vuodesta.


##
##	Engineering functions				Tekniset funktiot
##
BESSELI			= BESSELI			##	Palauttaa muunnetun Bessel-funktion In(x).
BESSELJ			= BESSELJ			##	Palauttaa Bessel-funktion Jn(x).
BESSELK			= BESSELK			##	Palauttaa muunnetun Bessel-funktion Kn(x).
BESSELY			= BESSELY			##	Palauttaa Bessel-funktion Yn(x).
BIN2DEC			= BINDES			##	Muuntaa binaariluvun desimaaliluvuksi.
BIN2HEX			= BINHEKSA			##	Muuntaa binaariluvun heksadesimaaliluvuksi.
BIN2OCT			= BINOKT			##	Muuntaa binaariluvun oktaaliluvuksi.
COMPLEX			= KOMPLEKSI			##	Muuntaa reaali- ja imaginaariosien kertoimet
kompleksiluvuksi.
CONVERT			= MUUNNA			##	Muuntaa luvun toisen mittajärjestelmän
mukaiseksi.
DEC2BIN			= DESBIN			##	Muuntaa desimaaliluvun binaariluvuksi.
DEC2HEX			= DESHEKSA			##	Muuntaa kymmenjärjestelmän luvun
heksadesimaaliluvuksi.
DEC2OCT			= DESOKT			##	Muuntaa kymmenjärjestelmän luvun oktaaliluvuksi.
DELTA			= SAMA.ARVO			##	Tarkistaa, ovatko kaksi arvoa yhtä suuria.
ERF			= VIRHEFUNKTIO			##	Palauttaa virhefunktion.
ERFC			= VIRHEFUNKTIO.KOMPLEMENTTI	##	Palauttaa komplementtivirhefunktion.
GESTEP			= RAJA				##	Testaa, onko luku suurempi kuin kynnysarvo.
HEX2BIN			= HEKSABIN			##	Muuntaa heksadesimaaliluvun binaariluvuksi.
HEX2DEC			= HEKSADES			##	Muuntaa heksadesimaaliluvun desimaaliluvuksi.
HEX2OCT			= HEKSAOKT			##	Muuntaa heksadesimaaliluvun oktaaliluvuksi.
IMABS			= KOMPLEKSI.ITSEISARVO		##	Palauttaa kompleksiluvun itseisarvon
(moduluksen).
IMAGINARY		= KOMPLEKSI.IMAG		##	Palauttaa kompleksiluvun imaginaariosan
kertoimen.
IMARGUMENT		= KOMPLEKSI.ARG			##	Palauttaa theeta-argumentin, joka on
radiaaneina annettu kulma.
IMCONJUGATE		= KOMPLEKSI.KONJ		##	Palauttaa kompleksiluvun
konjugaattiluvun.
IMCOS			= KOMPLEKSI.COS			##	Palauttaa kompleksiluvun kosinin.
IMDIV			= KOMPLEKSI.OSAM		##	Palauttaa kahden kompleksiluvun osamäärän.
IMEXP			= KOMPLEKSI.EKSP		##	Palauttaa kompleksiluvun eksponentin.
IMLN			= KOMPLEKSI.LN			##	Palauttaa kompleksiluvun luonnollisen
logaritmin.
IMLOG10			= KOMPLEKSI.LOG10		##	Palauttaa kompleksiluvun kymmenkantaisen
logaritmin.
IMLOG2			= KOMPLEKSI.LOG2		##	Palauttaa kompleksiluvun kaksikantaisen
logaritmin.
IMPOWER			= KOMPLEKSI.POT			##	Palauttaa kokonaislukupotenssiin korotetun
kompleksiluvun.
IMPRODUCT		= KOMPLEKSI.TULO		##	Palauttaa kompleksilukujen tulon.
IMREAL			= KOMPLEKSI.REAALI		##	Palauttaa kompleksiluvun reaaliosan
kertoimen.
IMSIN			= KOMPLEKSI.SIN			##	Palauttaa kompleksiluvun sinin.
IMSQRT			= KOMPLEKSI.NELIÖJ		##	Palauttaa kompleksiluvun neliöjuuren.
IMSUB			= KOMPLEKSI.EROTUS		##	Palauttaa kahden kompleksiluvun erotuksen.
IMSUM			= KOMPLEKSI.SUM			##	Palauttaa kompleksilukujen summan.
OCT2BIN			= OKTBIN			##	Muuntaa oktaaliluvun binaariluvuksi.
OCT2DEC			= OKTDES			##	Muuntaa oktaaliluvun desimaaliluvuksi.
OCT2HEX			= OKTHEKSA			##	Muuntaa oktaaliluvun heksadesimaaliluvuksi.


##
##	Financial functions				Rahoitusfunktiot
##
ACCRINT			= KERTYNYT.KORKO		##	Laskee arvopaperille kertyneen koron, kun
korko kertyy säännöllisin väliajoin.
ACCRINTM		= KERTYNYT.KORKO.LOPUSSA	##	Laskee arvopaperille kertyneen koron,
kun korko maksetaan eräpäivänä.
AMORDEGRC		= AMORDEGRC			##	Laskee kunkin laskentakauden poiston
poistokerrointa käyttämällä.
AMORLINC		= AMORLINC			##	Palauttaa kunkin laskentakauden poiston.
COUPDAYBS		= KORKOPÄIVÄT.ALUSTA		##	Palauttaa koronmaksukauden
aloituspäivän ja tilityspäivän välisen ajanjakson päivien määrän.
COUPDAYS		= KORKOPÄIVÄT			##	Palauttaa päivien määrän
koronmaksukaudelta, johon tilityspäivä kuuluu.
COUPDAYSNC		= KORKOPÄIVÄT.SEURAAVA		##	Palauttaa tilityspäivän ja
seuraavan koronmaksupäivän välisen ajanjakson päivien määrän.
COUPNCD			= KORKOMAKSU.SEURAAVA		##	Palauttaa tilityspäivän jälkeisen
seuraavan koronmaksupäivän.
COUPNUM			= KORKOPÄIVÄJAKSOT		##	Palauttaa arvopaperin ostopäivän ja
erääntymispäivän välisten koronmaksupäivien määrän.
COUPPCD			= KORKOPÄIVÄ.EDELLINEN		##	Palauttaa tilityspäivää
edeltävän koronmaksupäivän.
CUMIPMT			= MAKSETTU.KORKO		##	Palauttaa kahden jakson välisenä aikana
kertyneen koron.
CUMPRINC		= MAKSETTU.LYHENNYS		##	Palauttaa lainalle kahden jakson
välisenä aikana kertyneen lyhennyksen.
DB			= DB				##	Palauttaa kauden kirjanpidollisen poiston amerikkalaisen
DB-menetelmän (Fixed-declining balance) mukaan.
DDB			= DDB				##	Palauttaa kauden kirjanpidollisen poiston amerikkalaisen
DDB-menetelmän (Double-Declining Balance) tai jonkin muun määrittämäsi
menetelmän mukaan.
DISC			= DISKONTTOKORKO		##	Palauttaa arvopaperin diskonttokoron.
DOLLARDE		= VALUUTTA.DES			##	Muuntaa murtolukuna ilmoitetun
valuuttamäärän desimaaliluvuksi.
DOLLARFR		= VALUUTTA.MURTO		##	Muuntaa desimaalilukuna ilmaistun
valuuttamäärän murtoluvuksi.
DURATION		= KESTO				##	Palauttaa keston arvopaperille, jonka koronmaksu
tapahtuu säännöllisesti.
EFFECT			= KORKO.EFEKT			##	Palauttaa todellisen vuosikoron.
FV			= TULEVA.ARVO			##	Palauttaa sijoituksen tulevan arvon.
FVSCHEDULE		= TULEVA.ARVO.ERIKORKO		##	Palauttaa pääoman tulevan arvon,
kun pääomalle on kertynyt korkoa vaihtelevasti.
INTRATE			= KORKO.ARVOPAPERI		##	Palauttaa arvopaperin korkokannan täysin
sijoitetulle arvopaperille.
IPMT			= IPMT				##	Laskee sijoitukselle tai lainalle tiettynä ajanjaksona
kertyvän koron.
IRR			= SISÄINEN.KORKO		##	Laskee sisäisen korkokannan kassavirrasta
muodostuvalle sarjalle.
ISPMT			= ONMAKSU			##	Laskee sijoituksen maksetun koron tietyllä
jaksolla.
MDURATION		= KESTO.MUUNN			##	Palauttaa muunnetun Macauley-keston
arvopaperille, jonka oletettu nimellisarvo on 100 euroa.
MIRR			= MSISÄINEN			##	Palauttaa sisäisen korkokannan, kun positiivisten
ja negatiivisten kassavirtojen rahoituskorko on erilainen.
NOMINAL			= KORKO.VUOSI			##	Palauttaa vuosittaisen nimelliskoron.
NPER			= NJAKSO			##	Palauttaa sijoituksen jaksojen määrän.
NPV			= NNA				##	Palauttaa sijoituksen nykyarvon toistuvista
kassavirroista muodostuvan sarjan ja diskonttokoron perusteella.
ODDFPRICE		= PARITON.ENS.NIMELLISARVO	##	Palauttaa arvopaperin hinnan
tilanteessa, jossa ensimmäinen jakso on pariton.
ODDFYIELD		= PARITON.ENS.TUOTTO		##	Palauttaa arvopaperin tuoton
tilanteessa, jossa ensimmäinen jakso on pariton.
ODDLPRICE		= PARITON.VIIM.NIMELLISARVO	##	Palauttaa arvopaperin hinnan
tilanteessa, jossa viimeinen jakso on pariton.
ODDLYIELD		= PARITON.VIIM.TUOTTO		##	Palauttaa arvopaperin tuoton
tilanteessa, jossa viimeinen jakso on pariton.
PMT			= MAKSU				##	Palauttaa annuiteetin kausittaisen maksuerän.
PPMT			= PPMT				##	Laskee sijoitukselle tai lainalle tiettynä ajanjaksona
maksettavan lyhennyksen.
PRICE			= HINTA				##	Palauttaa hinnan 100 euron nimellisarvoa kohden
arvopaperille, jonka korko maksetaan säännöllisin väliajoin.
PRICEDISC		= HINTA.DISK			##	Palauttaa diskontatun arvopaperin hinnan 100
euron nimellisarvoa kohden.
PRICEMAT		= HINTA.LUNASTUS		##	Palauttaa hinnan 100 euron nimellisarvoa
kohden arvopaperille, jonka korko maksetaan erääntymispäivänä.
PV			= NA				##	Palauttaa sijoituksen nykyarvon.
RATE			= KORKO				##	Palauttaa annuiteetin kausittaisen korkokannan.
RECEIVED		= SAATU.HINTA			##	Palauttaa arvopaperin tuoton
erääntymispäivänä kokonaan maksetulle sijoitukselle.
SLN			= STP				##	Palauttaa sijoituksen tasapoiston yhdeltä jaksolta.
SYD			= VUOSIPOISTO			##	Palauttaa sijoituksen vuosipoiston annettuna
kautena amerikkalaisen SYD-menetelmän (Sum-of-Year's Digits) avulla.
TBILLEQ			= OBLIG.TUOTTOPROS		##	Palauttaa valtion obligaation tuoton
vastaavana joukkovelkakirjan tuottona.
TBILLPRICE		= OBLIG.HINTA			##	Palauttaa obligaation hinnan 100 euron
nimellisarvoa kohden.
TBILLYIELD		= OBLIG.TUOTTO			##	Palauttaa obligaation tuoton.
VDB			= VDB				##	Palauttaa annetun kauden tai kauden osan kirjanpidollisen
poiston amerikkalaisen DB-menetelmän (Fixed-declining balance) mukaan.
XIRR			= SISÄINEN.KORKO.JAKSOTON	##	Palauttaa sisäisen korkokannan
kassavirtojen sarjoille, jotka eivät välttämättä ole säännöllisiä.
XNPV			= NNA.JAKSOTON			##	Palauttaa nettonykyarvon kassavirtasarjalle,
joka ei välttämättä ole kausittainen.
YIELD			= TUOTTO			##	Palauttaa tuoton arvopaperille, jonka korko maksetaan
säännöllisin väliajoin.
YIELDDISC		= TUOTTO.DISK			##	Palauttaa diskontatun arvopaperin, kuten
obligaation, vuosittaisen tuoton.
YIELDMAT		= TUOTTO.ERÄP			##	Palauttaa erääntymispäivänään korkoa
tuottavan arvopaperin vuosittaisen tuoton.


##
##	Information functions				Erikoisfunktiot
##
CELL			= SOLU				##	Palauttaa tietoja solun muotoilusta, sijainnista ja
sisällöstä.
ERROR.TYPE		= VIRHEEN.LAJI			##	Palauttaa virhetyyppiä vastaavan luvun.
INFO			= KUVAUS			##	Palauttaa tietoja nykyisestä käyttöympäristöstä.
ISBLANK			= ONTYHJÄ			##	Palauttaa arvon TOSI, jos arvo on tyhjä.
ISERR			= ONVIRH			##	Palauttaa arvon TOSI, jos arvo on mikä tahansa
virhearvo paitsi arvo #PUUTTUU!.
ISERROR			= ONVIRHE			##	Palauttaa arvon TOSI, jos arvo on mikä tahansa
virhearvo.
ISEVEN			= ONPARILLINEN			##	Palauttaa arvon TOSI, jos arvo on parillinen.
ISLOGICAL		= ONTOTUUS			##	Palauttaa arvon TOSI, jos arvo on mikä tahansa
looginen arvo.
ISNA			= ONPUUTTUU			##	Palauttaa arvon TOSI, jos virhearvo on #PUUTTUU!.
ISNONTEXT		= ONEI_TEKSTI			##	Palauttaa arvon TOSI, jos arvo ei ole teksti.
ISNUMBER		= ONLUKU			##	Palauttaa arvon TOSI, jos arvo on luku.
ISODD			= ONPARITON			##	Palauttaa arvon TOSI, jos arvo on pariton.
ISREF			= ONVIITT			##	Palauttaa arvon TOSI, jos arvo on viittaus.
ISTEXT			= ONTEKSTI			##	Palauttaa arvon TOSI, jos arvo on teksti.
N			= N				##	Palauttaa arvon luvuksi muunnettuna.
NA			= PUUTTUU			##	Palauttaa virhearvon #PUUTTUU!.
TYPE			= TYYPPI			##	Palauttaa luvun, joka ilmaisee arvon tietotyypin.


##
##	Logical functions				Loogiset funktiot
##
AND			= JA				##	Palauttaa arvon TOSI, jos kaikkien argumenttien arvo on
TOSI.
FALSE			= EPÄTOSI			##	Palauttaa totuusarvon EPÄTOSI.
IF			= JOS				##	Määrittää suoritettavan loogisen testin.
IFERROR			= JOSVIRHE			##	Palauttaa määrittämäsi arvon, jos kaavan
tulos on virhe; muussa tapauksessa palauttaa kaavan tuloksen.
NOT			= EI				##	Kääntää argumentin loogisen arvon.
OR			= TAI				##	Palauttaa arvon TOSI, jos minkä tahansa argumentin arvo
on TOSI.
TRUE			= TOSI				##	Palauttaa totuusarvon TOSI.


##
##	Lookup and reference functions			Haku- ja viitefunktiot
##
ADDRESS			= OSOITE			##	Palauttaa laskentataulukon soluun osoittavan
viittauksen tekstinä.
AREAS			= ALUEET			##	Palauttaa viittauksessa olevien alueiden määrän.
CHOOSE			= VALITSE.INDEKSI		##	Valitsee arvon arvoluettelosta.
COLUMN			= SARAKE			##	Palauttaa viittauksen sarakenumeron.
COLUMNS			= SARAKKEET			##	Palauttaa viittauksessa olevien sarakkeiden
määrän.
HLOOKUP			= VHAKU				##	Suorittaa haun matriisin ylimmältä riviltä ja
palauttaa määritetyn solun arvon.
HYPERLINK		= HYPERLINKKI			##	Luo pikakuvakkeen tai tekstin, joka avaa
verkkopalvelimeen, intranetiin tai Internetiin tallennetun tiedoston.
INDEX			= INDEKSI			##	Valitsee arvon viittauksesta tai matriisista
indeksin mukaan.
INDIRECT		= EPÄSUORA			##	Palauttaa tekstiarvona ilmaistun viittauksen.
LOOKUP			= HAKU				##	Etsii arvoja vektorista tai matriisista.
MATCH			= VASTINE			##	Etsii arvoja viittauksesta tai matriisista.
OFFSET			= SIIRTYMÄ			##	Palauttaa annetun viittauksen siirtymän.
ROW			= RIVI				##	Palauttaa viittauksen rivinumeron.
ROWS			= RIVIT				##	Palauttaa viittauksessa olevien rivien määrän.
RTD			= RTD				##	Noutaa COM-automaatiota (automaatio: Tapa käsitellä
sovelluksen objekteja toisesta sovelluksesta tai kehitystyökalusta.
Automaatio, jota aiemmin kutsuttiin OLE-automaatioksi, on
teollisuusstandardi ja COM-mallin (Component Object Model) ominaisuus.)
tukevasta ohjelmasta reaaliaikaisia tietoja.
TRANSPOSE		= TRANSPONOI			##	Palauttaa matriisin käänteismatriisin.
VLOOKUP			= PHAKU				##	Suorittaa haun matriisin ensimmäisestä
sarakkeesta ja palauttaa rivillä olevan solun arvon.


##
##	Math and trigonometry functions			Matemaattiset ja trigonometriset
funktiot
##
ABS			= ITSEISARVO			##	Palauttaa luvun itseisarvon.
ACOS			= ACOS				##	Palauttaa luvun arkuskosinin.
ACOSH			= ACOSH				##	Palauttaa luvun käänteisen hyperbolisen kosinin.
ASIN			= ASIN				##	Palauttaa luvun arkussinin.
ASINH			= ASINH				##	Palauttaa luvun käänteisen hyperbolisen sinin.
ATAN			= ATAN				##	Palauttaa luvun arkustangentin.
ATAN2			= ATAN2				##	Palauttaa arkustangentin x- ja y-koordinaatin
perusteella.
ATANH			= ATANH				##	Palauttaa luvun käänteisen hyperbolisen tangentin.
CEILING			= PYÖRISTÄ.KERR.YLÖS		##	Pyöristää luvun lähimpään
kokonaislukuun tai tarkkuusargumentin lähimpään kerrannaiseen.
COMBIN			= KOMBINAATIO			##	Palauttaa mahdollisten kombinaatioiden
määrän annetulle objektien määrälle.
COS			= COS				##	Palauttaa luvun kosinin.
COSH			= COSH				##	Palauttaa luvun hyperbolisen kosinin.
DEGREES			= ASTEET			##	Muuntaa radiaanit asteiksi.
EVEN			= PARILLINEN			##	Pyöristää luvun ylöspäin lähimpään
parilliseen kokonaislukuun.
EXP			= EKSPONENTTI			##	Palauttaa e:n korotettuna annetun luvun
osoittamaan potenssiin.
FACT			= KERTOMA			##	Palauttaa luvun kertoman.
FACTDOUBLE		= KERTOMA.OSA			##	Palauttaa luvun osakertoman.
FLOOR			= PYÖRISTÄ.KERR.ALAS		##	Pyöristää luvun alaspäin (nollaa
kohti).
GCD			= SUURIN.YHT.TEKIJÄ		##	Palauttaa suurimman yhteisen tekijän.
INT			= KOKONAISLUKU			##	Pyöristää luvun alaspäin lähimpään
kokonaislukuun.
LCM			= PIENIN.YHT.JAETTAVA		##	Palauttaa pienimmän yhteisen tekijän.
LN			= LUONNLOG			##	Palauttaa luvun luonnollisen logaritmin.
LOG			= LOG				##	Laskee luvun logaritmin käyttämällä annettua
kantalukua.
LOG10			= LOG10				##	Palauttaa luvun kymmenkantaisen logaritmin.
MDETERM			= MDETERM			##	Palauttaa matriisin matriisideterminantin.
MINVERSE		= MKÄÄNTEINEN			##	Palauttaa matriisin käänteismatriisin.
MMULT			= MKERRO			##	Palauttaa kahden matriisin tulon.
MOD			= JAKOJ				##	Palauttaa jakolaskun jäännöksen.
MROUND			= PYÖRISTÄ.KERR			##	Palauttaa luvun pyöristettynä annetun
luvun kerrannaiseen.
MULTINOMIAL		= MULTINOMI			##	Palauttaa lukujoukon multinomin.
ODD			= PARITON			##	Pyöristää luvun ylöspäin lähimpään parittomaan
kokonaislukuun.
PI			= PII				##	Palauttaa piin arvon.
POWER			= POTENSSI			##	Palauttaa luvun korotettuna haluttuun potenssiin.
PRODUCT			= TULO				##	Kertoo annetut argumentit.
QUOTIENT		= OSAMÄÄRÄ			##	Palauttaa osamäärän kokonaislukuosan.
RADIANS			= RADIAANIT			##	Muuntaa asteet radiaaneiksi.
RAND			= SATUNNAISLUKU			##	Palauttaa satunnaisluvun väliltä 0–1.
RANDBETWEEN		= SATUNNAISLUKU.VÄLILTÄ		##	Palauttaa satunnaisluvun
määritettyjen lukujen väliltä.
ROMAN			= ROMAN				##	Muuntaa arabialaisen numeron tekstimuotoiseksi
roomalaiseksi numeroksi.
ROUND			= PYÖRISTÄ			##	Pyöristää luvun annettuun määrään
desimaaleja.
ROUNDDOWN		= PYÖRISTÄ.DES.ALAS		##	Pyöristää luvun alaspäin (nollaa
kohti).
ROUNDUP			= PYÖRISTÄ.DES.YLÖS		##	Pyöristää luvun ylöspäin
(poispäin nollasta).
SERIESSUM		= SARJA.SUMMA			##	Palauttaa kaavaan perustuvan potenssisarjan
arvon.
SIGN			= ETUMERKKI			##	Palauttaa luvun etumerkin.
SIN			= SIN				##	Palauttaa annetun kulman sinin.
SINH			= SINH				##	Palauttaa luvun hyperbolisen sinin.
SQRT			= NELIÖJUURI			##	Palauttaa positiivisen neliöjuuren.
SQRTPI			= NELIÖJUURI.PII		##	Palauttaa tulon (luku * pii) neliöjuuren.
SUBTOTAL		= VÄLISUMMA			##	Palauttaa luettelon tai tietokannan
välisumman.
SUM			= SUMMA				##	Laskee yhteen annetut argumentit.
SUMIF			= SUMMA.JOS			##	Laskee ehdot täyttävien solujen summan.
SUMIFS			= SUMMA.JOS.JOUKKO		##	Laskee yhteen solualueen useita ehtoja
vastaavat solut.
SUMPRODUCT		= TULOJEN.SUMMA			##	Palauttaa matriisin toisiaan vastaavien
osien tulojen summan.
SUMSQ			= NELIÖSUMMA			##	Palauttaa argumenttien neliöiden summan.
SUMX2MY2		= NELIÖSUMMIEN.EROTUS		##	Palauttaa kahden matriisin toisiaan
vastaavien arvojen laskettujen neliösummien erotuksen.
SUMX2PY2		= NELIÖSUMMIEN.SUMMA		##	Palauttaa kahden matriisin toisiaan
vastaavien arvojen neliösummien summan.
SUMXMY2			= EROTUSTEN.NELIÖSUMMA		##	Palauttaa kahden matriisin toisiaan
vastaavien arvojen erotusten neliösumman.
TAN			= TAN				##	Palauttaa luvun tangentin.
TANH			= TANH				##	Palauttaa luvun hyperbolisen tangentin.
TRUNC			= KATKAISE			##	Katkaisee luvun kokonaisluvuksi.


##
##	Statistical functions				Tilastolliset funktiot
##
AVEDEV			= KESKIPOIKKEAMA		##	Palauttaa hajontojen itseisarvojen
keskiarvon.
AVERAGE			= KESKIARVO			##	Palauttaa argumenttien keskiarvon.
AVERAGEA		= KESKIARVOA			##	Palauttaa argumenttien, mukaan lukien lukujen,
tekstin ja loogisten arvojen, keskiarvon.
AVERAGEIF		= KESKIARVO.JOS			##	Palauttaa alueen niiden solujen keskiarvon
(aritmeettisen keskiarvon), jotka täyttävät annetut ehdot.
AVERAGEIFS		= KESKIARVO.JOS.JOUKKO		##	Palauttaa niiden solujen keskiarvon
(aritmeettisen keskiarvon), jotka vastaavat useita ehtoja.
BETADIST		= BEETAJAKAUMA			##	Palauttaa kumulatiivisen beetajakaumafunktion
arvon.
BETAINV			= BEETAJAKAUMA.KÄÄNT		##	Palauttaa määritetyn beetajakauman
käänteisen kumulatiivisen jakaumafunktion arvon.
BINOMDIST		= BINOMIJAKAUMA			##	Palauttaa yksittäisen termin
binomijakaumatodennäköisyyden.
CHIDIST			= CHIJAKAUMA			##	Palauttaa yksisuuntaisen chi-neliön jakauman
todennäköisyyden.
CHIINV			= CHIJAKAUMA.KÄÄNT		##	Palauttaa yksisuuntaisen chi-neliön
jakauman todennäköisyyden käänteisarvon.
CHITEST			= CHITESTI			##	Palauttaa riippumattomuustestin tuloksen.
CONFIDENCE		= LUOTTAMUSVÄLI			##	Palauttaa luottamusvälin populaation
keskiarvolle.
CORREL			= KORRELAATIO			##	Palauttaa kahden arvojoukon
korrelaatiokertoimen.
COUNT			= LASKE				##	Laskee argumenttiluettelossa olevien lukujen
määrän.
COUNTA			= LASKE.A			##	Laskee argumenttiluettelossa olevien arvojen
määrän.
COUNTBLANK		= LASKE.TYHJÄT			##	Laskee alueella olevien tyhjien solujen
määrän.
COUNTIF			= LASKE.JOS			##	Laskee alueella olevien sellaisten solujen
määrän, joiden sisältö vastaa annettuja ehtoja.
COUNTIFS		= LASKE.JOS.JOUKKO		##	Laskee alueella olevien sellaisten solujen
määrän, joiden sisältö vastaa useita ehtoja.
COVAR			= KOVARIANSSI			##	Palauttaa kovarianssin, joka on keskiarvo
havaintoaineiston kunkin pisteparin poikkeamien tuloista.
CRITBINOM		= BINOMIJAKAUMA.KRIT		##	Palauttaa pienimmän arvon, jossa
binomijakauman kertymäfunktion arvo on pienempi tai yhtä suuri kuin
vertailuarvo.
DEVSQ			= OIKAISTU.NELIÖSUMMA		##	Palauttaa keskipoikkeamien neliösumman.
EXPONDIST		= EKSPONENTIAALIJAKAUMA		##	Palauttaa eksponentiaalijakauman.
FDIST			= FJAKAUMA			##	Palauttaa F-todennäköisyysjakauman.
FINV			= FJAKAUMA.KÄÄNT		##	Palauttaa F-todennäköisyysjakauman
käänteisfunktion.
FISHER			= FISHER			##	Palauttaa Fisher-muunnoksen.
FISHERINV		= FISHER.KÄÄNT			##	Palauttaa käänteisen Fisher-muunnoksen.
FORECAST		= ENNUSTE			##	Palauttaa lineaarisen trendin arvon.
FREQUENCY		= TAAJUUS			##	Palauttaa frekvenssijakautuman pystysuuntaisena
matriisina.
FTEST			= FTESTI			##	Palauttaa F-testin tuloksen.
GAMMADIST		= GAMMAJAKAUMA			##	Palauttaa gammajakauman.
GAMMAINV		= GAMMAJAKAUMA.KÄÄNT		##	Palauttaa käänteisen gammajakauman
kertymäfunktion.
GAMMALN			= GAMMALN			##	Palauttaa gammafunktion luonnollisen logaritmin
G(x).
GEOMEAN			= KESKIARVO.GEOM		##	Palauttaa geometrisen keskiarvon.
GROWTH			= KASVU				##	Palauttaa eksponentiaalisen trendin arvon.
HARMEAN			= KESKIARVO.HARM		##	Palauttaa harmonisen keskiarvon.
HYPGEOMDIST		= HYPERGEOM.JAKAUMA		##	Palauttaa hypergeometrisen jakauman.
INTERCEPT		= LEIKKAUSPISTE			##	Palauttaa lineaarisen regressiosuoran
leikkauspisteen.
KURT			= KURT				##	Palauttaa tietoalueen vinous-arvon eli huipukkuuden.
LARGE			= SUURI				##	Palauttaa tietojoukon k:nneksi suurimman arvon.
LINEST			= LINREGR			##	Palauttaa lineaarisen trendin parametrit.
LOGEST			= LOGREGR			##	Palauttaa eksponentiaalisen trendin parametrit.
LOGINV			= LOGNORM.JAKAUMA.KÄÄNT		##	Palauttaa lognormeeratun jakauman
käänteisfunktion.
LOGNORMDIST		= LOGNORM.JAKAUMA		##	Palauttaa lognormaalisen jakauman
kertymäfunktion.
MAX			= MAKS				##	Palauttaa suurimman arvon argumenttiluettelosta.
MAXA			= MAKSA				##	Palauttaa argumenttien, mukaan lukien lukujen, tekstin
ja loogisten arvojen, suurimman arvon.
MEDIAN			= MEDIAANI			##	Palauttaa annettujen lukujen mediaanin.
MIN			= MIN				##	Palauttaa pienimmän arvon argumenttiluettelosta.
MINA			= MINA				##	Palauttaa argumenttien, mukaan lukien lukujen, tekstin
ja loogisten arvojen, pienimmän arvon.
MODE			= MOODI				##	Palauttaa tietojoukossa useimmin esiintyvän arvon.
NEGBINOMDIST		= BINOMIJAKAUMA.NEG		##	Palauttaa negatiivisen
binomijakauman.
NORMDIST		= NORM.JAKAUMA			##	Palauttaa normaalijakauman kertymäfunktion.
NORMINV			= NORM.JAKAUMA.KÄÄNT		##	Palauttaa käänteisen
normaalijakauman kertymäfunktion.
NORMSDIST		= NORM.JAKAUMA.NORMIT		##	Palauttaa normitetun normaalijakauman
kertymäfunktion.
NORMSINV		= NORM.JAKAUMA.NORMIT.KÄÄNT	##	Palauttaa normitetun
normaalijakauman kertymäfunktion käänteisarvon.
PEARSON			= PEARSON			##	Palauttaa Pearsonin
tulomomenttikorrelaatiokertoimen.
PERCENTILE		= PROSENTTIPISTE		##	Palauttaa alueen arvojen k:nnen
prosenttipisteen.
PERCENTRANK		= PROSENTTIJÄRJESTYS		##	Palauttaa tietojoukon arvon
prosentuaalisen järjestysluvun.
PERMUT			= PERMUTAATIO			##	Palauttaa mahdollisten permutaatioiden
määrän annetulle objektien määrälle.
POISSON			= POISSON			##	Palauttaa Poissonin todennäköisyysjakauman.
PROB			= TODENNÄKÖISYYS		##	Palauttaa todennäköisyyden sille, että
arvot ovat tietyltä väliltä.
QUARTILE		= NELJÄNNES			##	Palauttaa tietoalueen neljänneksen.
RANK			= ARVON.MUKAAN			##	Palauttaa luvun paikan lukuarvoluettelossa.
RSQ			= PEARSON.NELIÖ			##	Palauttaa Pearsonin
tulomomenttikorrelaatiokertoimen neliön.
SKEW			= JAKAUMAN.VINOUS		##	Palauttaa jakauman vinouden.
SLOPE			= KULMAKERROIN			##	Palauttaa lineaarisen regressiosuoran
kulmakertoimen.
SMALL			= PIENI				##	Palauttaa tietojoukon k:nneksi pienimmän arvon.
STANDARDIZE		= NORMITA			##	Palauttaa normitetun arvon.
STDEV			= KESKIHAJONTA			##	Laskee populaation keskihajonnan otoksen
perusteella.
STDEVA			= KESKIHAJONTAA			##	Laskee populaation keskihajonnan otoksen
perusteella, mukaan lukien luvut, tekstin ja loogiset arvot.
STDEVP			= KESKIHAJONTAP			##	Laskee normaalijakautuman koko populaation
perusteella.
STDEVPA			= KESKIHAJONTAPA		##	Laskee populaation keskihajonnan koko
populaation perusteella, mukaan lukien luvut, tekstin ja totuusarvot.
STEYX			= KESKIVIRHE			##	Palauttaa regression kutakin x-arvoa vastaavan
ennustetun y-arvon keskivirheen.
TDIST			= TJAKAUMA			##	Palauttaa t-jakautuman.
TINV			= TJAKAUMA.KÄÄNT		##	Palauttaa käänteisen t-jakauman.
TREND			= SUUNTAUS			##	Palauttaa lineaarisen trendin arvoja.
TRIMMEAN		= KESKIARVO.TASATTU		##	Palauttaa tietojoukon tasatun keskiarvon.
TTEST			= TTESTI			##	Palauttaa t-testiin liittyvän todennäköisyyden.
VAR			= VAR				##	Arvioi populaation varianssia otoksen perusteella.
VARA			= VARA				##	Laskee populaation varianssin otoksen perusteella,
mukaan lukien luvut, tekstin ja loogiset arvot.
VARP			= VARP				##	Laskee varianssin koko populaation perusteella.
VARPA			= VARPA				##	Laskee populaation varianssin koko populaation
perusteella, mukaan lukien luvut, tekstin ja totuusarvot.
WEIBULL			= WEIBULL			##	Palauttaa Weibullin jakauman.
ZTEST			= ZTESTI			##	Palauttaa z-testin yksisuuntaisen
todennäköisyysarvon.


##
##	Text functions					Tekstifunktiot
##
ASC			= ASC				##	Muuntaa merkkijonossa olevat englanninkieliset DBCS- tai
katakana-merkit SBCS-merkeiksi.
BAHTTEXT		= BAHTTEKSTI			##	Muuntaa luvun tekstiksi ß (baht)
-valuuttamuotoa käyttämällä.
CHAR			= MERKKI			##	Palauttaa koodin lukua vastaavan merkin.
CLEAN			= SIIVOA			##	Poistaa tekstistä kaikki tulostumattomat merkit.
CODE			= KOODI				##	Palauttaa tekstimerkkijonon ensimmäisen merkin
numerokoodin.
CONCATENATE		= KETJUTA			##	Yhdistää useat merkkijonot yhdeksi
merkkijonoksi.
DOLLAR			= VALUUTTA			##	Muuntaa luvun tekstiksi $ (dollari)
-valuuttamuotoa käyttämällä.
EXACT			= VERTAA			##	Tarkistaa, ovatko kaksi tekstiarvoa samanlaiset.
FIND			= ETSI				##	Etsii tekstiarvon toisen tekstin sisältä (tunnistaa
isot ja pienet kirjaimet).
FINDB			= ETSIB				##	Etsii tekstiarvon toisen tekstin sisältä (tunnistaa
isot ja pienet kirjaimet).
FIXED			= KIINTEÄ			##	Muotoilee luvun tekstiksi, jossa on kiinteä
määrä desimaaleja.
JIS			= JIS				##	Muuntaa merkkijonossa olevat englanninkieliset SBCS- tai
katakana-merkit DBCS-merkeiksi.
LEFT			= VASEN				##	Palauttaa tekstiarvon vasemmanpuoliset merkit.
LEFTB			= VASENB			##	Palauttaa tekstiarvon vasemmanpuoliset merkit.
LEN			= PITUUS			##	Palauttaa tekstimerkkijonon merkkien määrän.
LENB			= PITUUSB			##	Palauttaa tekstimerkkijonon merkkien määrän.
LOWER			= PIENET			##	Muuntaa tekstin pieniksi kirjaimiksi.
MID			= POIMI.TEKSTI			##	Palauttaa määritetyn määrän merkkejä
merkkijonosta alkaen annetusta kohdasta.
MIDB			= POIMI.TEKSTIB			##	Palauttaa määritetyn määrän merkkejä
merkkijonosta alkaen annetusta kohdasta.
PHONETIC		= FONEETTINEN			##	Hakee foneettiset (furigana) merkit
merkkijonosta.
PROPER			= ERISNIMI			##	Muuttaa merkkijonon kunkin sanan ensimmäisen
kirjaimen isoksi.
REPLACE			= KORVAA			##	Korvaa tekstissä olevat merkit.
REPLACEB		= KORVAAB			##	Korvaa tekstissä olevat merkit.
REPT			= TOISTA			##	Toistaa tekstin annetun määrän kertoja.
RIGHT			= OIKEA				##	Palauttaa tekstiarvon oikeanpuoliset merkit.
RIGHTB			= OIKEAB			##	Palauttaa tekstiarvon oikeanpuoliset merkit.
SEARCH			= KÄY.LÄPI			##	Etsii tekstiarvon toisen tekstin sisältä (isot
ja pienet kirjaimet tulkitaan samoiksi merkeiksi).
SEARCHB			= KÄY.LÄPIB			##	Etsii tekstiarvon toisen tekstin sisältä
(isot ja pienet kirjaimet tulkitaan samoiksi merkeiksi).
SUBSTITUTE		= VAIHDA			##	Korvaa merkkijonossa olevan tekstin toisella.
T			= T				##	Muuntaa argumentit tekstiksi.
TEXT			= TEKSTI			##	Muotoilee luvun ja muuntaa sen tekstiksi.
TRIM			= POISTA.VÄLIT			##	Poistaa välilyönnit tekstistä.
UPPER			= ISOT				##	Muuntaa tekstin isoiksi kirjaimiksi.
VALUE			= ARVO				##	Muuntaa tekstiargumentin luvuksi.
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/locale/fr/config000064400000000356151165413740024040
0ustar00##
## PhpSpreadsheet
##

ArgumentSeparator	= ;


##
##	(For future use)
##
currencySymbol	= €


##
##	Excel Error Codes	(For future use)

##
NULL	= #NUL!
DIV0	= #DIV/0!
VALUE	= #VALEUR!
REF	= #REF!
NAME	= #NOM?
NUM	= #NOMBRE!
NA	= #N/A
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/locale/fr/functions000064400000105424151165413740024605
0ustar00##
## PhpSpreadsheet
##
## Data in this file derived from
https://www.excel-function-translation.com/
##
##


##
##	Add-in and Automation functions			Fonctions de complément et
d’automatisation
##
GETPIVOTDATA		= LIREDONNEESTABCROISDYNAMIQUE	##	Renvoie les données
stockées dans un rapport de tableau croisé dynamique.


##
##	Cube functions					Fonctions Cube
##
CUBEKPIMEMBER		= MEMBREKPICUBE			##	Renvoie un nom, une propriété et une
mesure d’indicateur de performance clé et affiche le nom et la
propriété dans la cellule. Un indicateur de performance clé est une
mesure quantifiable, telle que la marge bénéficiaire brute mensuelle ou
la rotation trimestrielle du personnel, utilisée pour évaluer les
performances d’une entreprise.
CUBEMEMBER		= MEMBRECUBE			##	Renvoie un membre ou un uplet dans une
hiérarchie de cubes. Utilisez cette fonction pour valider l’existence du
membre ou de l’uplet dans le cube.
CUBEMEMBERPROPERTY	= PROPRIETEMEMBRECUBE		##	Renvoie la valeur d’une
propriété de membre du cube. Utilisez cette fonction pour valider
l’existence d’un nom de membre dans le cube et pour renvoyer la
propriété spécifiée pour ce membre.
CUBERANKEDMEMBER	= RANGMEMBRECUBE		##	Renvoie le nième membre ou le membre
placé à un certain rang dans un ensemble. Utilisez cette fonction pour
renvoyer un ou plusieurs éléments d’un ensemble, tels que les meilleurs
vendeurs ou les 10 meilleurs étudiants.
CUBESET			= JEUCUBE			##	Définit un ensemble calculé de membres ou
d’uplets en envoyant une expression définie au cube sur le serveur qui
crée l’ensemble et le renvoie à Microsoft Office Excel.
CUBESETCOUNT		= NBJEUCUBE			##	Renvoie le nombre d’éléments dans un
jeu.
CUBEVALUE		= VALEURCUBE			##	Renvoie une valeur d’agrégation issue
d’un cube.


##
##	Database functions				Fonctions de base de données
##
DAVERAGE		= BDMOYENNE			##	Renvoie la moyenne des entrées de base de
données sélectionnées.
DCOUNT			= BCOMPTE			##	Compte le nombre de cellules d’une base de
données qui contiennent des nombres.
DCOUNTA			= BDNBVAL			##	Compte les cellules non vides d’une base de
données.
DGET			= BDLIRE			##	Extrait d’une base de données un enregistrement
unique répondant aux critères spécifiés.
DMAX			= BDMAX				##	Renvoie la valeur maximale des entrées de base de
données sélectionnées.
DMIN			= BDMIN				##	Renvoie la valeur minimale des entrées de base de
données sélectionnées.
DPRODUCT		= BDPRODUIT			##	Multiplie les valeurs d’un champ particulier
des enregistrements d’une base de données, qui répondent aux critères
spécifiés.
DSTDEV			= BDECARTYPE			##	Calcule l’écart type pour un échantillon
d’entrées de base de données sélectionnées.
DSTDEVP			= BDECARTYPEP			##	Calcule l’écart type pour l’ensemble
d’une population d’entrées de base de données sélectionnées.
DSUM			= BDSOMME			##	Ajoute les nombres dans la colonne de champ des
enregistrements de la base de données, qui répondent aux critères.
DVAR			= BDVAR				##	Calcule la variance pour un échantillon d’entrées
de base de données sélectionnées.
DVARP			= BDVARP			##	Calcule la variance pour l’ensemble d’une
population d’entrées de base de données sélectionnées.


##
##	Date and time functions				Fonctions de date et d’heure
##
DATE			= DATE				##	Renvoie le numéro de série d’une date précise.
DATEVALUE		= DATEVAL			##	Convertit une date représentée sous forme de
texte en numéro de série.
DAY			= JOUR				##	Convertit un numéro de série en jour du mois.
DAYS360			= JOURS360			##	Calcule le nombre de jours qui séparent deux
dates sur la base d’une année de 360 jours.
EDATE			= MOIS.DECALER			##	Renvoie le numéro séquentiel de la date qui
représente une date spécifiée (l’argument date_départ), corrigée en
plus ou en moins du nombre de mois indiqué.
EOMONTH			= FIN.MOIS			##	Renvoie le numéro séquentiel de la date du
dernier jour du mois précédant ou suivant la date_départ du nombre de
mois indiqué.
HOUR			= HEURE				##	Convertit un numéro de série en heure.
MINUTE			= MINUTE			##	Convertit un numéro de série en minute.
MONTH			= MOIS				##	Convertit un numéro de série en mois.
NETWORKDAYS		= NB.JOURS.OUVRES		##	Renvoie le nombre de jours ouvrés
entiers compris entre deux dates.
NOW			= MAINTENANT			##	Renvoie le numéro de série de la date et de
l’heure du jour.
SECOND			= SECONDE			##	Convertit un numéro de série en seconde.
TIME			= TEMPS				##	Renvoie le numéro de série d’une heure précise.
TIMEVALUE		= TEMPSVAL			##	Convertit une date représentée sous forme de
texte en numéro de série.
TODAY			= AUJOURDHUI			##	Renvoie le numéro de série de la date du jour.
WEEKDAY			= JOURSEM			##	Convertit un numéro de série en jour de la
semaine.
WEEKNUM			= NO.SEMAINE			##	Convertit un numéro de série en un numéro
représentant l’ordre de la semaine dans l’année.
WORKDAY			= SERIE.JOUR.OUVRE		##	Renvoie le numéro de série de la date
avant ou après le nombre de jours ouvrés spécifiés.
YEAR			= ANNEE				##	Convertit un numéro de série en année.
YEARFRAC		= FRACTION.ANNEE		##	Renvoie la fraction de l’année
représentant le nombre de jours entre la date de début et la date de fin.


##
##	Engineering functions				Fonctions d’ingénierie
##
BESSELI			= BESSELI			##	Renvoie la fonction Bessel modifiée In(x).
BESSELJ			= BESSELJ			##	Renvoie la fonction Bessel Jn(x).
BESSELK			= BESSELK			##	Renvoie la fonction Bessel modifiée Kn(x).
BESSELY			= BESSELY			##	Renvoie la fonction Bessel Yn(x).
BIN2DEC			= BINDEC			##	Convertit un nombre binaire en nombre décimal.
BIN2HEX			= BINHEX			##	Convertit un nombre binaire en nombre hexadécimal.
BIN2OCT			= BINOCT			##	Convertit un nombre binaire en nombre octal.
COMPLEX			= COMPLEXE			##	Convertit des coefficients réel et imaginaire en
un nombre complexe.
CONVERT			= CONVERT			##	Convertit un nombre d’une unité de mesure à
une autre.
DEC2BIN			= DECBIN			##	Convertit un nombre décimal en nombre binaire.
DEC2HEX			= DECHEX			##	Convertit un nombre décimal en nombre
hexadécimal.
DEC2OCT			= DECOCT			##	Convertit un nombre décimal en nombre octal.
DELTA			= DELTA				##	Teste l’égalité de deux nombres.
ERF			= ERF				##	Renvoie la valeur de la fonction d’erreur.
ERFC			= ERFC				##	Renvoie la valeur de la fonction d’erreur
complémentaire.
GESTEP			= SUP.SEUIL			##	Teste si un nombre est supérieur à une valeur
de seuil.
HEX2BIN			= HEXBIN			##	Convertit un nombre hexadécimal en nombre binaire.
HEX2DEC			= HEXDEC			##	Convertit un nombre hexadécimal en nombre
décimal.
HEX2OCT			= HEXOCT			##	Convertit un nombre hexadécimal en nombre octal.
IMABS			= COMPLEXE.MODULE		##	Renvoie la valeur absolue (module) d’un
nombre complexe.
IMAGINARY		= COMPLEXE.IMAGINAIRE		##	Renvoie le coefficient imaginaire
d’un nombre complexe.
IMARGUMENT		= COMPLEXE.ARGUMENT		##	Renvoie l’argument thêta, un angle
exprimé en radians.
IMCONJUGATE		= COMPLEXE.CONJUGUE		##	Renvoie le nombre complexe conjugué
d’un nombre complexe.
IMCOS			= IMCOS				##	Renvoie le cosinus d’un nombre complexe.
IMDIV			= COMPLEXE.DIV			##	Renvoie le quotient de deux nombres complexes.
IMEXP			= COMPLEXE.EXP			##	Renvoie la fonction exponentielle d’un nombre
complexe.
IMLN			= COMPLEXE.LN			##	Renvoie le logarithme népérien d’un nombre
complexe.
IMLOG10			= COMPLEXE.LOG10		##	Calcule le logarithme en base 10 d’un
nombre complexe.
IMLOG2			= COMPLEXE.LOG2			##	Calcule le logarithme en base 2 d’un nombre
complexe.
IMPOWER			= COMPLEXE.PUISSANCE		##	Renvoie un nombre complexe élevé à
une puissance entière.
IMPRODUCT		= COMPLEXE.PRODUIT		##	Renvoie le produit de plusieurs nombres
complexes.
IMREAL			= COMPLEXE.REEL			##	Renvoie le coefficient réel d’un nombre
complexe.
IMSIN			= COMPLEXE.SIN			##	Renvoie le sinus d’un nombre complexe.
IMSQRT			= COMPLEXE.RACINE		##	Renvoie la racine carrée d’un nombre
complexe.
IMSUB			= COMPLEXE.DIFFERENCE		##	Renvoie la différence entre deux nombres
complexes.
IMSUM			= COMPLEXE.SOMME		##	Renvoie la somme de plusieurs nombres
complexes.
OCT2BIN			= OCTBIN			##	Convertit un nombre octal en nombre binaire.
OCT2DEC			= OCTDEC			##	Convertit un nombre octal en nombre décimal.
OCT2HEX			= OCTHEX			##	Convertit un nombre octal en nombre hexadécimal.


##
##	Financial functions				Fonctions financières
##
ACCRINT			= INTERET.ACC			##	Renvoie l’intérêt couru non échu d’un
titre dont l’intérêt est perçu périodiquement.
ACCRINTM		= INTERET.ACC.MAT		##	Renvoie l’intérêt couru non échu
d’un titre dont l’intérêt est perçu à l’échéance.
AMORDEGRC		= AMORDEGRC			##	Renvoie l’amortissement correspondant à
chaque période comptable en utilisant un coefficient d’amortissement.
AMORLINC		= AMORLINC			##	Renvoie l’amortissement d’un bien à la fin
d’une période fiscale donnée.
COUPDAYBS		= NB.JOURS.COUPON.PREC		##	Renvoie le nombre de jours entre le
début de la période de coupon et la date de liquidation.
COUPDAYS		= NB.JOURS.COUPONS		##	Renvoie le nombre de jours pour la
période du coupon contenant la date de liquidation.
COUPDAYSNC		= NB.JOURS.COUPON.SUIV		##	Renvoie le nombre de jours entre la
date de liquidation et la date du coupon suivant la date de liquidation.
COUPNCD			= DATE.COUPON.SUIV		##	Renvoie la première date de coupon
ultérieure à la date de règlement.
COUPNUM			= NB.COUPONS			##	Renvoie le nombre de coupons dus entre la date
de règlement et la date d’échéance.
COUPPCD			= DATE.COUPON.PREC		##	Renvoie la date de coupon précédant la
date de règlement.
CUMIPMT			= CUMUL.INTER			##	Renvoie l’intérêt cumulé payé sur un
emprunt entre deux périodes.
CUMPRINC		= CUMUL.PRINCPER		##	Renvoie le montant cumulé des
remboursements du capital d’un emprunt effectués entre deux périodes.
DB			= DB				##	Renvoie l’amortissement d’un bien pour une période
spécifiée en utilisant la méthode de l’amortissement dégressif à
taux fixe.
DDB			= DDB				##	Renvoie l’amortissement d’un bien pour toute période
spécifiée, en utilisant la méthode de l’amortissement dégressif à
taux double ou selon un coefficient à spécifier.
DISC			= TAUX.ESCOMPTE			##	Calcule le taux d’escompte d’une
transaction.
DOLLARDE		= PRIX.DEC			##	Convertit un prix en euros, exprimé sous forme
de fraction, en un prix en euros exprimé sous forme de nombre décimal.
DOLLARFR		= PRIX.FRAC			##	Convertit un prix en euros, exprimé sous forme
de nombre décimal, en un prix en euros exprimé sous forme de fraction.
DURATION		= DUREE				##	Renvoie la durée, en années, d’un titre dont
l’intérêt est perçu périodiquement.
EFFECT			= TAUX.EFFECTIF			##	Renvoie le taux d’intérêt annuel
effectif.
FV			= VC				##	Renvoie la valeur future d’un investissement.
FVSCHEDULE		= VC.PAIEMENTS			##	Calcule la valeur future d’un
investissement en appliquant une série de taux d’intérêt composites.
INTRATE			= TAUX.INTERET			##	Affiche le taux d’intérêt d’un titre
totalement investi.
IPMT			= INTPER			##	Calcule le montant des intérêts d’un
investissement pour une période donnée.
IRR			= TRI				##	Calcule le taux de rentabilité interne d’un
investissement pour une succession de trésoreries.
ISPMT			= ISPMT				##	Calcule le montant des intérêts d’un
investissement pour une période donnée.
MDURATION		= DUREE.MODIFIEE		##	Renvoie la durée de Macauley modifiée
pour un titre ayant une valeur nominale hypothétique de 100_euros.
MIRR			= TRIM				##	Calcule le taux de rentabilité interne lorsque les
paiements positifs et négatifs sont financés à des taux différents.
NOMINAL			= TAUX.NOMINAL			##	Calcule le taux d’intérêt nominal annuel.
NPER			= NPM				##	Renvoie le nombre de versements nécessaires pour
rembourser un emprunt.
NPV			= VAN				##	Calcule la valeur actuelle nette d’un investissement
basé sur une série de décaissements et un taux d’escompte.
ODDFPRICE		= PRIX.PCOUPON.IRREG		##	Renvoie le prix par tranche de valeur
nominale de 100 euros d’un titre dont la première période de coupon est
irrégulière.
ODDFYIELD		= REND.PCOUPON.IRREG		##	Renvoie le taux de rendement d’un
titre dont la première période de coupon est irrégulière.
ODDLPRICE		= PRIX.DCOUPON.IRREG		##	Renvoie le prix par tranche de valeur
nominale de 100 euros d’un titre dont la première période de coupon est
irrégulière.
ODDLYIELD		= REND.DCOUPON.IRREG		##	Renvoie le taux de rendement d’un
titre dont la dernière période de coupon est irrégulière.
PMT			= VPM				##	Calcule le paiement périodique d’un investissement
donné.
PPMT			= PRINCPER			##	Calcule, pour une période donnée, la part de
remboursement du principal d’un investissement.
PRICE			= PRIX.TITRE			##	Renvoie le prix d’un titre rapportant des
intérêts périodiques, pour une valeur nominale de 100 euros.
PRICEDISC		= VALEUR.ENCAISSEMENT		##	Renvoie la valeur d’encaissement
d’un escompte commercial, pour une valeur nominale de 100 euros.
PRICEMAT		= PRIX.TITRE.ECHEANCE		##	Renvoie le prix d’un titre dont la
valeur nominale est 100 euros et qui rapporte des intérêts à
l’échéance.
PV			= PV				##	Calcule la valeur actuelle d’un investissement.
RATE			= TAUX				##	Calcule le taux d’intérêt par période pour une
annuité.
RECEIVED		= VALEUR.NOMINALE		##	Renvoie la valeur nominale à échéance
d’un effet de commerce.
SLN			= AMORLIN			##	Calcule l’amortissement linéaire d’un bien pour
une période donnée.
SYD			= SYD				##	Calcule l’amortissement d’un bien pour une période
donnée sur la base de la méthode américaine Sum-of-Years Digits
(amortissement dégressif à taux décroissant appliqué à une valeur
constante).
TBILLEQ			= TAUX.ESCOMPTE.R		##	Renvoie le taux d’escompte rationnel
d’un bon du Trésor.
TBILLPRICE		= PRIX.BON.TRESOR		##	Renvoie le prix d’un bon du Trésor
d’une valeur nominale de 100 euros.
TBILLYIELD		= RENDEMENT.BON.TRESOR		##	Calcule le taux de rendement d’un
bon du Trésor.
VDB			= VDB				##	Renvoie l’amortissement d’un bien pour une période
spécifiée ou partielle en utilisant une méthode de l’amortissement
dégressif à taux fixe.
XIRR			= TRI.PAIEMENTS			##	Calcule le taux de rentabilité interne d’un
ensemble de paiements non périodiques.
XNPV			= VAN.PAIEMENTS			##	Renvoie la valeur actuelle nette d’un
ensemble de paiements non périodiques.
YIELD			= RENDEMENT.TITRE		##	Calcule le rendement d’un titre rapportant
des intérêts périodiquement.
YIELDDISC		= RENDEMENT.SIMPLE		##	Calcule le taux de rendement d’un
emprunt à intérêt simple (par exemple, un bon du Trésor).
YIELDMAT		= RENDEMENT.TITRE.ECHEANCE	##	Renvoie le rendement annuel d’un
titre qui rapporte des intérêts à l’échéance.


##
##	Information functions				Fonctions d’information
##
CELL			= CELLULE			##	Renvoie des informations sur la mise en forme,
l’emplacement et le contenu d’une cellule.
ERROR.TYPE		= TYPE.ERREUR			##	Renvoie un nombre correspondant à un type
d’erreur.
INFO			= INFORMATIONS			##	Renvoie des informations sur l’environnement
d’exploitation actuel.
ISBLANK			= ESTVIDE			##	Renvoie VRAI si l’argument valeur est vide.
ISERR			= ESTERR			##	Renvoie VRAI si l’argument valeur fait référence
à une valeur d’erreur, sauf #N/A.
ISERROR			= ESTERREUR			##	Renvoie VRAI si l’argument valeur fait
référence à une valeur d’erreur.
ISEVEN			= EST.PAIR			##	Renvoie VRAI si le chiffre est pair.
ISLOGICAL		= ESTLOGIQUE			##	Renvoie VRAI si l’argument valeur fait
référence à une valeur logique.
ISNA			= ESTNA				##	Renvoie VRAI si l’argument valeur fait référence
à la valeur d’erreur #N/A.
ISNONTEXT		= ESTNONTEXTE			##	Renvoie VRAI si l’argument valeur ne se
présente pas sous forme de texte.
ISNUMBER		= ESTNUM			##	Renvoie VRAI si l’argument valeur représente un
nombre.
ISODD			= EST.IMPAIR			##	Renvoie VRAI si le chiffre est impair.
ISREF			= ESTREF			##	Renvoie VRAI si l’argument valeur est une
référence.
ISTEXT			= ESTTEXTE			##	Renvoie VRAI si l’argument valeur se présente
sous forme de texte.
N			= N				##	Renvoie une valeur convertie en nombre.
NA			= NA				##	Renvoie la valeur d’erreur #N/A.
TYPE			= TYPE				##	Renvoie un nombre indiquant le type de données d’une
valeur.


##
##	Logical functions				Fonctions logiques
##
AND			= ET				##	Renvoie VRAI si tous ses arguments sont VRAI.
FALSE			= FAUX				##	Renvoie la valeur logique FAUX.
IF			= SI				##	Spécifie un test logique à effectuer.
IFERROR			= SIERREUR			##	Renvoie une valeur que vous spécifiez si une
formule génère une erreur ; sinon, elle renvoie le résultat de la
formule.
NOT			= NON				##	Inverse la logique de cet argument.
OR			= OU				##	Renvoie VRAI si un des arguments est VRAI.
TRUE			= VRAI				##	Renvoie la valeur logique VRAI.


##
##	Lookup and reference functions			Fonctions de recherche et de
référence
##
ADDRESS			= ADRESSE			##	Renvoie une référence sous forme de texte à une
seule cellule d’une feuille de calcul.
AREAS			= ZONES				##	Renvoie le nombre de zones dans une référence.
CHOOSE			= CHOISIR			##	Choisit une valeur dans une liste.
COLUMN			= COLONNE			##	Renvoie le numéro de colonne d’une référence.
COLUMNS			= COLONNES			##	Renvoie le nombre de colonnes dans une
référence.
HLOOKUP			= RECHERCHEH			##	Effectue une recherche dans la première ligne
d’une matrice et renvoie la valeur de la cellule indiquée.
HYPERLINK		= LIEN_HYPERTEXTE		##	Crée un raccourci ou un renvoi qui ouvre
un document stocké sur un serveur réseau, sur un réseau Intranet ou sur
Internet.
INDEX			= INDEX				##	Utilise un index pour choisir une valeur provenant
d’une référence ou d’une matrice.
INDIRECT		= INDIRECT			##	Renvoie une référence indiquée par une valeur
de texte.
LOOKUP			= RECHERCHE			##	Recherche des valeurs dans un vecteur ou une
matrice.
MATCH			= EQUIV				##	Recherche des valeurs dans une référence ou une
matrice.
OFFSET			= DECALER			##	Renvoie une référence décalée par rapport à
une référence donnée.
ROW			= LIGNE				##	Renvoie le numéro de ligne d’une référence.
ROWS			= LIGNES			##	Renvoie le nombre de lignes dans une référence.
RTD			= RTD				##	Extrait les données en temps réel à partir d’un
programme prenant en charge l’automation COM (Automation : utilisation
des objets d'une application à partir d'une autre application ou
d'un autre outil de développement. Autrefois appelée OLE Automation,
Automation est une norme industrielle et une fonctionnalité du modèle
d'objet COM (Component Object Model).).
TRANSPOSE		= TRANSPOSE			##	Renvoie la transposition d’une matrice.
VLOOKUP			= RECHERCHEV			##	Effectue une recherche dans la première
colonne d’une matrice et se déplace sur la ligne pour renvoyer la valeur
d’une cellule.


##
##	Math and trigonometry functions			Fonctions mathématiques et
trigonométriques
##
ABS			= ABS				##	Renvoie la valeur absolue d’un nombre.
ACOS			= ACOS				##	Renvoie l’arccosinus d’un nombre.
ACOSH			= ACOSH				##	Renvoie le cosinus hyperbolique inverse d’un
nombre.
ASIN			= ASIN				##	Renvoie l’arcsinus d’un nombre.
ASINH			= ASINH				##	Renvoie le sinus hyperbolique inverse d’un nombre.
ATAN			= ATAN				##	Renvoie l’arctangente d’un nombre.
ATAN2			= ATAN2				##	Renvoie l’arctangente des coordonnées x et y.
ATANH			= ATANH				##	Renvoie la tangente hyperbolique inverse d’un
nombre.
CEILING			= PLAFOND			##	Arrondit un nombre au nombre entier le plus proche
ou au multiple le plus proche de l’argument précision en s’éloignant
de zéro.
COMBIN			= COMBIN			##	Renvoie le nombre de combinaisons que l’on peut
former avec un nombre donné d’objets.
COS			= COS				##	Renvoie le cosinus d’un nombre.
COSH			= COSH				##	Renvoie le cosinus hyperbolique d’un nombre.
DEGREES			= DEGRES			##	Convertit des radians en degrés.
EVEN			= PAIR				##	Arrondit un nombre au nombre entier pair le plus proche
en s’éloignant de zéro.
EXP			= EXP				##	Renvoie e élevé à la puissance d’un nombre donné.
FACT			= FACT				##	Renvoie la factorielle d’un nombre.
FACTDOUBLE		= FACTDOUBLE			##	Renvoie la factorielle double d’un nombre.
FLOOR			= PLANCHER			##	Arrondit un nombre en tendant vers 0 (zéro).
GCD			= PGCD				##	Renvoie le plus grand commun diviseur.
INT			= ENT				##	Arrondit un nombre à l’entier immédiatement
inférieur.
LCM			= PPCM				##	Renvoie le plus petit commun multiple.
LN			= LN				##	Renvoie le logarithme népérien d’un nombre.
LOG			= LOG				##	Renvoie le logarithme d’un nombre dans la base
spécifiée.
LOG10			= LOG10				##	Calcule le logarithme en base 10 d’un nombre.
MDETERM			= DETERMAT			##	Renvoie le déterminant d’une matrice.
MINVERSE		= INVERSEMAT			##	Renvoie la matrice inverse d’une matrice.
MMULT			= PRODUITMAT			##	Renvoie le produit de deux matrices.
MOD			= MOD				##	Renvoie le reste d’une division.
MROUND			= ARRONDI.AU.MULTIPLE		##	Donne l’arrondi d’un nombre au
multiple spécifié.
MULTINOMIAL		= MULTINOMIALE			##	Calcule la multinomiale d’un ensemble de
nombres.
ODD			= IMPAIR			##	Renvoie le nombre, arrondi à la valeur du nombre
entier impair le plus proche en s’éloignant de zéro.
PI			= PI				##	Renvoie la valeur de pi.
POWER			= PUISSANCE			##	Renvoie la valeur du nombre élevé à une
puissance.
PRODUCT			= PRODUIT			##	Multiplie ses arguments.
QUOTIENT		= QUOTIENT			##	Renvoie la partie entière du résultat d’une
division.
RADIANS			= RADIANS			##	Convertit des degrés en radians.
RAND			= ALEA				##	Renvoie un nombre aléatoire compris entre 0 et 1.
RANDBETWEEN		= ALEA.ENTRE.BORNES		##	Renvoie un nombre aléatoire entre les
nombres que vous spécifiez.
ROMAN			= ROMAIN			##	Convertit des chiffres arabes en chiffres romains,
sous forme de texte.
ROUND			= ARRONDI			##	Arrondit un nombre au nombre de chiffres indiqué.
ROUNDDOWN		= ARRONDI.INF			##	Arrondit un nombre en tendant vers 0 (zéro).
ROUNDUP			= ARRONDI.SUP			##	Arrondit un nombre à l’entier supérieur,
en s’éloignant de zéro.
SERIESSUM		= SOMME.SERIES			##	Renvoie la somme d’une série
géométrique en s’appuyant sur la formule suivante :
SIGN			= SIGNE				##	Renvoie le signe d’un nombre.
SIN			= SIN				##	Renvoie le sinus d’un angle donné.
SINH			= SINH				##	Renvoie le sinus hyperbolique d’un nombre.
SQRT			= RACINE			##	Renvoie la racine carrée d’un nombre.
SQRTPI			= RACINE.PI			##	Renvoie la racine carrée de (nombre * pi).
SUBTOTAL		= SOUS.TOTAL			##	Renvoie un sous-total dans une liste ou une
base de données.
SUM			= SOMME				##	Calcule la somme de ses arguments.
SUMIF			= SOMME.SI			##	Additionne les cellules spécifiées si elles
répondent à un critère donné.
SUMIFS			= SOMME.SI.ENS			##	Ajoute les cellules d’une plage qui
répondent à plusieurs critères.
SUMPRODUCT		= SOMMEPROD			##	Multiplie les valeurs correspondantes des
matrices spécifiées et calcule la somme de ces produits.
SUMSQ			= SOMME.CARRES			##	Renvoie la somme des carrés des arguments.
SUMX2MY2		= SOMME.X2MY2			##	Renvoie la somme de la différence des carrés
des valeurs correspondantes de deux matrices.
SUMX2PY2		= SOMME.X2PY2			##	Renvoie la somme de la somme des carrés des
valeurs correspondantes de deux matrices.
SUMXMY2			= SOMME.XMY2			##	Renvoie la somme des carrés des différences
entre les valeurs correspondantes de deux matrices.
TAN			= TAN				##	Renvoie la tangente d’un nombre.
TANH			= TANH				##	Renvoie la tangente hyperbolique d’un nombre.
TRUNC			= TRONQUE			##	Renvoie la partie entière d’un nombre.


##
##	Statistical functions				Fonctions statistiques
##
AVEDEV			= ECART.MOYEN			##	Renvoie la moyenne des écarts absolus
observés dans la moyenne des points de données.
AVERAGE			= MOYENNE			##	Renvoie la moyenne de ses arguments.
AVERAGEA		= AVERAGEA			##	Renvoie la moyenne de ses arguments, nombres,
texte et valeurs logiques inclus.
AVERAGEIF		= MOYENNE.SI			##	Renvoie la moyenne (arithmétique) de toutes
les cellules d’une plage qui répondent à des critères donnés.
AVERAGEIFS		= MOYENNE.SI.ENS		##	Renvoie la moyenne (arithmétique) de
toutes les cellules qui répondent à plusieurs critères.
BETADIST		= LOI.BETA			##	Renvoie la fonction de distribution cumulée.
BETAINV			= BETA.INVERSE			##	Renvoie l’inverse de la fonction de
distribution cumulée pour une distribution bêta spécifiée.
BINOMDIST		= LOI.BINOMIALE			##	Renvoie la probabilité d’une variable
aléatoire discrète suivant la loi binomiale.
CHIDIST			= LOI.KHIDEUX			##	Renvoie la probabilité unilatérale de la
distribution khi-deux.
CHIINV			= KHIDEUX.INVERSE		##	Renvoie l’inverse de la probabilité
unilatérale de la distribution khi-deux.
CHITEST			= TEST.KHIDEUX			##	Renvoie le test d’indépendance.
CONFIDENCE		= INTERVALLE.CONFIANCE		##	Renvoie l’intervalle de confiance
pour une moyenne de population.
CORREL			= COEFFICIENT.CORRELATION	##	Renvoie le coefficient de
corrélation entre deux séries de données.
COUNT			= NB				##	Détermine les nombres compris dans la liste des
arguments.
COUNTA			= NBVAL				##	Détermine le nombre de valeurs comprises dans la
liste des arguments.
COUNTBLANK		= NB.VIDE			##	Compte le nombre de cellules vides dans une
plage.
COUNTIF			= NB.SI				##	Compte le nombre de cellules qui répondent à un
critère donné dans une plage.
COUNTIFS		= NB.SI.ENS			##	Compte le nombre de cellules à l’intérieur
d’une plage qui répondent à plusieurs critères.
COVAR			= COVARIANCE			##	Renvoie la covariance, moyenne des produits des
écarts pour chaque série d’observations.
CRITBINOM		= CRITERE.LOI.BINOMIALE		##	Renvoie la plus petite valeur pour
laquelle la distribution binomiale cumulée est inférieure ou égale à
une valeur de critère.
DEVSQ			= SOMME.CARRES.ECARTS		##	Renvoie la somme des carrés des écarts.
EXPONDIST		= LOI.EXPONENTIELLE		##	Renvoie la distribution exponentielle.
FDIST			= LOI.F				##	Renvoie la distribution de probabilité F.
FINV			= INVERSE.LOI.F			##	Renvoie l’inverse de la distribution de
probabilité F.
FISHER			= FISHER			##	Renvoie la transformation de Fisher.
FISHERINV		= FISHER.INVERSE		##	Renvoie l’inverse de la transformation de
Fisher.
FORECAST		= PREVISION			##	Calcule une valeur par rapport à une tendance
linéaire.
FREQUENCY		= FREQUENCE			##	Calcule la fréquence d’apparition des
valeurs dans une plage de valeurs, puis renvoie des nombres sous forme de
matrice verticale.
FTEST			= TEST.F			##	Renvoie le résultat d’un test F.
GAMMADIST		= LOI.GAMMA			##	Renvoie la probabilité d’une variable
aléatoire suivant une loi Gamma.
GAMMAINV		= LOI.GAMMA.INVERSE		##	Renvoie, pour une probabilité donnée,
la valeur d’une variable aléatoire suivant une loi Gamma.
GAMMALN			= LNGAMMA			##	Renvoie le logarithme népérien de la fonction
Gamma, G(x)
GEOMEAN			= MOYENNE.GEOMETRIQUE		##	Renvoie la moyenne géométrique.
GROWTH			= CROISSANCE			##	Calcule des valeurs par rapport à une tendance
exponentielle.
HARMEAN			= MOYENNE.HARMONIQUE		##	Renvoie la moyenne harmonique.
HYPGEOMDIST		= LOI.HYPERGEOMETRIQUE		##	Renvoie la probabilité d’une
variable aléatoire discrète suivant une loi hypergéométrique.
INTERCEPT		= ORDONNEE.ORIGINE		##	Renvoie l’ordonnée à l’origine
d’une droite de régression linéaire.
KURT			= KURTOSIS			##	Renvoie le kurtosis d’une série de données.
LARGE			= GRANDE.VALEUR			##	Renvoie la k-ième plus grande valeur d’une
série de données.
LINEST			= DROITEREG			##	Renvoie les paramètres d’une tendance
linéaire.
LOGEST			= LOGREG			##	Renvoie les paramètres d’une tendance
exponentielle.
LOGINV			= LOI.LOGNORMALE.INVERSE	##	Renvoie l’inverse de la probabilité
pour une variable aléatoire suivant la loi lognormale.
LOGNORMDIST		= LOI.LOGNORMALE		##	Renvoie la probabilité d’une variable
aléatoire continue suivant une loi lognormale.
MAX			= MAX				##	Renvoie la valeur maximale contenue dans une liste
d’arguments.
MAXA			= MAXA				##	Renvoie la valeur maximale d’une liste d’arguments,
nombres, texte et valeurs logiques inclus.
MEDIAN			= MEDIANE			##	Renvoie la valeur médiane des nombres donnés.
MIN			= MIN				##	Renvoie la valeur minimale contenue dans une liste
d’arguments.
MINA			= MINA				##	Renvoie la plus petite valeur d’une liste
d’arguments, nombres, texte et valeurs logiques inclus.
MODE			= MODE				##	Renvoie la valeur la plus courante d’une série de
données.
NEGBINOMDIST		= LOI.BINOMIALE.NEG		##	Renvoie la probabilité d’une
variable aléatoire discrète suivant une loi binomiale négative.
NORMDIST		= LOI.NORMALE			##	Renvoie la probabilité d’une variable
aléatoire continue suivant une loi normale.
NORMINV			= LOI.NORMALE.INVERSE		##	Renvoie, pour une probabilité donnée,
la valeur d’une variable aléatoire suivant une loi normale standard.
NORMSDIST		= LOI.NORMALE.STANDARD		##	Renvoie la probabilité d’une
variable aléatoire continue suivant une loi normale standard.
NORMSINV		= LOI.NORMALE.STANDARD.INVERSE	##	Renvoie l’inverse de la
distribution cumulée normale standard.
PEARSON			= PEARSON			##	Renvoie le coefficient de corrélation
d’échantillonnage de Pearson.
PERCENTILE		= CENTILE			##	Renvoie le k-ième centile des valeurs d’une
plage.
PERCENTRANK		= RANG.POURCENTAGE		##	Renvoie le rang en pourcentage d’une
valeur d’une série de données.
PERMUT			= PERMUTATION			##	Renvoie le nombre de permutations pour un
nombre donné d’objets.
POISSON			= LOI.POISSON			##	Renvoie la probabilité d’une variable
aléatoire suivant une loi de Poisson.
PROB			= PROBABILITE			##	Renvoie la probabilité que des valeurs d’une
plage soient comprises entre deux limites.
QUARTILE		= QUARTILE			##	Renvoie le quartile d’une série de données.
RANK			= RANG				##	Renvoie le rang d’un nombre contenu dans une liste.
RSQ			= COEFFICIENT.DETERMINATION	##	Renvoie la valeur du coefficient de
détermination R^2 d’une régression linéaire.
SKEW			= COEFFICIENT.ASYMETRIE		##	Renvoie l’asymétrie d’une
distribution.
SLOPE			= PENTE				##	Renvoie la pente d’une droite de régression
linéaire.
SMALL			= PETITE.VALEUR			##	Renvoie la k-ième plus petite valeur d’une
série de données.
STANDARDIZE		= CENTREE.REDUITE		##	Renvoie une valeur centrée réduite.
STDEV			= ECARTYPE			##	Évalue l’écart type d’une population en se
basant sur un échantillon de cette population.
STDEVA			= STDEVA			##	Évalue l’écart type d’une population en se
basant sur un échantillon de cette population, nombres, texte et valeurs
logiques inclus.
STDEVP			= ECARTYPEP			##	Calcule l’écart type d’une population à
partir de la population entière.
STDEVPA			= STDEVPA			##	Calcule l’écart type d’une population à
partir de l’ensemble de la population, nombres, texte et valeurs logiques
inclus.
STEYX			= ERREUR.TYPE.XY		##	Renvoie l’erreur type de la valeur y prévue
pour chaque x de la régression.
TDIST			= LOI.STUDENT			##	Renvoie la probabilité d’une variable
aléatoire suivant une loi T de Student.
TINV			= LOI.STUDENT.INVERSE		##	Renvoie, pour une probabilité donnée, la
valeur d’une variable aléatoire suivant une loi T de Student.
TREND			= TENDANCE			##	Renvoie des valeurs par rapport à une tendance
linéaire.
TRIMMEAN		= MOYENNE.REDUITE		##	Renvoie la moyenne de l’intérieur
d’une série de données.
TTEST			= TEST.STUDENT			##	Renvoie la probabilité associée à un test T
de Student.
VAR			= VAR				##	Calcule la variance sur la base d’un échantillon.
VARA			= VARA				##	Estime la variance d’une population en se basant sur
un échantillon de cette population, nombres, texte et valeurs logiques
incluses.
VARP			= VAR.P				##	Calcule la variance sur la base de l’ensemble de la
population.
VARPA			= VARPA				##	Calcule la variance d’une population en se basant
sur la population entière, nombres, texte et valeurs logiques inclus.
WEIBULL			= LOI.WEIBULL			##	Renvoie la probabilité d’une variable
aléatoire suivant une loi de Weibull.
ZTEST			= TEST.Z			##	Renvoie la valeur de probabilité unilatérale d’un
test z.


##
##	Text functions					Fonctions de texte
##
ASC			= ASC				##	Change les caractères anglais ou katakana à pleine
chasse (codés sur deux octets) à l’intérieur d’une chaîne de
caractères en caractères à demi-chasse (codés sur un octet).
BAHTTEXT		= BAHTTEXT			##	Convertit un nombre en texte en utilisant le
format monétaire ß (baht).
CHAR			= CAR				##	Renvoie le caractère spécifié par le code numérique.
CLEAN			= EPURAGE			##	Supprime tous les caractères de contrôle du texte.
CODE			= CODE				##	Renvoie le numéro de code du premier caractère du
texte.
CONCATENATE		= CONCATENER			##	Assemble plusieurs éléments textuels de
façon à n’en former qu’un seul.
DOLLAR			= EURO				##	Convertit un nombre en texte en utilisant le format
monétaire € (euro).
EXACT			= EXACT				##	Vérifie si deux valeurs de texte sont identiques.
FIND			= TROUVE			##	Trouve un valeur textuelle dans une autre, en
respectant la casse.
FINDB			= TROUVERB			##	Trouve un valeur textuelle dans une autre, en
respectant la casse.
FIXED			= CTXT				##	Convertit un nombre au format texte avec un nombre de
décimales spécifié.
JIS			= JIS				##	Change les caractères anglais ou katakana à demi-chasse
(codés sur un octet) à l’intérieur d’une chaîne de caractères en
caractères à à pleine chasse (codés sur deux octets).
LEFT			= GAUCHE			##	Renvoie des caractères situés à l’extrême gauche
d’une chaîne de caractères.
LEFTB			= GAUCHEB			##	Renvoie des caractères situés à l’extrême
gauche d’une chaîne de caractères.
LEN			= NBCAR				##	Renvoie le nombre de caractères contenus dans une
chaîne de texte.
LENB			= LENB				##	Renvoie le nombre de caractères contenus dans une
chaîne de texte.
LOWER			= MINUSCULE			##	Convertit le texte en minuscules.
MID			= STXT				##	Renvoie un nombre déterminé de caractères d’une
chaîne de texte à partir de la position que vous indiquez.
MIDB			= STXTB				##	Renvoie un nombre déterminé de caractères d’une
chaîne de texte à partir de la position que vous indiquez.
PHONETIC		= PHONETIQUE			##	Extrait les caractères phonétiques (furigana)
d’une chaîne de texte.
PROPER			= NOMPROPRE			##	Met en majuscules la première lettre de chaque
mot dans une chaîne textuelle.
REPLACE			= REMPLACER			##	Remplace des caractères dans un texte.
REPLACEB		= REMPLACERB			##	Remplace des caractères dans un texte.
REPT			= REPT				##	Répète un texte un certain nombre de fois.
RIGHT			= DROITE			##	Renvoie des caractères situés à l’extrême
droite d’une chaîne de caractères.
RIGHTB			= DROITEB			##	Renvoie des caractères situés à l’extrême
droite d’une chaîne de caractères.
SEARCH			= CHERCHE			##	Trouve un texte dans un autre texte (sans respecter
la casse).
SEARCHB			= CHERCHERB			##	Trouve un texte dans un autre texte (sans
respecter la casse).
SUBSTITUTE		= SUBSTITUE			##	Remplace l’ancien texte d’une chaîne de
caractères par un nouveau.
T			= T				##	Convertit ses arguments en texte.
TEXT			= TEXTE				##	Convertit un nombre au format texte.
TRIM			= SUPPRESPACE			##	Supprime les espaces du texte.
UPPER			= MAJUSCULE			##	Convertit le texte en majuscules.
VALUE			= CNUM				##	Convertit un argument textuel en nombre
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/locale/hu/config000064400000000374151165413740024045
0ustar00##
## PhpSpreadsheet
##

ArgumentSeparator	= ;


##
##	(For future use)
##
currencySymbol	= Ft


##
##	Excel Error Codes	(For future use)
##
NULL	= #NULLA!
DIV0	= #ZÉRÓOSZTÓ!
VALUE	= #ÉRTÉK!
REF	= #HIV!
NAME	= #NÉV?
NUM	= #SZÁM!
NA	= #HIÁNYZIK
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/locale/hu/functions000064400000102507151165413740024611
0ustar00##
## PhpSpreadsheet
##
## Data in this file derived from
https://www.excel-function-translation.com/
##
##


##
##	Add-in and Automation functions			Bővítmények és automatizálási
függvények
##
GETPIVOTDATA		= KIMUTATÁSADATOT.VESZ		##	A kimutatásokban tárolt adatok
visszaadására használható.


##
##	Cube functions Kockafüggvények
##
CUBEKPIMEMBER		= KOCKA.FŐTELJMUT		##	Egy fő teljesítménymutató (KPI)
nevét, tulajdonságát és mértékegységét adja eredményül, a nevet
és a tulajdonságot megjeleníti a cellában. A KPI-k számszerűsíthető
mérési lehetőséget jelentenek – ilyen mutató például a havi
bruttó nyereség vagy az egy alkalmazottra jutó negyedéves forgalom –,
egy szervezet teljesítményének nyomonkövetésére használhatók.
CUBEMEMBER		= KOCKA.TAG			##	Kockahierachia tagját vagy rekordját adja
eredményül. Ellenőrizhető vele, hogy szerepel-e a kockában az adott
tag vagy rekord.
CUBEMEMBERPROPERTY	= KOCKA.TAG.TUL			##	A kocka egyik tagtulajdonságának
értékét adja eredményül. Használatával ellenőrizhető, hogy
szerepel-e egy tagnév a kockában, eredménye pedig az erre a tagra
vonatkozó, megadott tulajdonság.
CUBERANKEDMEMBER	= KOCKA.HALM.ELEM		##	Egy halmaz rangsor szerinti n-edik
tagját adja eredményül. Használatával egy halmaz egy vagy több
elemét kaphatja meg, például a legnagyobb teljesítményű üzletkötőt
vagy a 10 legjobb tanulót.
CUBESET			= KOCKA.HALM			##	Számított tagok vagy rekordok halmazát adja
eredményül, ehhez egy beállított kifejezést elküld a kiszolgálón
található kockának, majd ezt a halmazt adja vissza a Microsoft Office
Excel alkalmazásnak.
CUBESETCOUNT		= KOCKA.HALM.DB			##	Egy halmaz elemszámát adja
eredményül.
CUBEVALUE		= KOCKA.ÉRTÉK			##	Kockából összesített értéket ad
eredményül.


##
##	Database functions				Adatbázis-kezelő függvények
##
DAVERAGE		= AB.ÁTLAG			##	A kijelölt adatbáziselemek átlagát
számítja ki.
DCOUNT			= AB.DARAB			##	Megszámolja, hogy az adatbázisban hány cella
tartalmaz számokat.
DCOUNTA			= AB.DARAB2			##	Megszámolja az adatbázisban lévő nem üres
cellákat.
DGET			= AB.MEZŐ			##	Egy adatbázisból egyetlen olyan rekordot ad
vissza, amely megfelel a megadott feltételeknek.
DMAX			= AB.MAX			##	A kiválasztott adatbáziselemek közül a legnagyobb
értéket adja eredményül.
DMIN			= AB.MIN			##	A kijelölt adatbáziselemek közül a legkisebb
értéket adja eredményül.
DPRODUCT		= AB.SZORZAT			##	Az adatbázis megadott feltételeknek eleget
tevő rekordjaira összeszorozza a megadott mezőben található
számértékeket, és eredményül ezt a szorzatot adja.
DSTDEV			= AB.SZÓRÁS			##	A kijelölt adatbáziselemek egy mintája
alapján megbecsüli a szórást.
DSTDEVP			= AB.SZÓRÁS2			##	A kijelölt adatbáziselemek teljes sokasága
alapján kiszámítja a szórást.
DSUM			= AB.SZUM			##	Összeadja a feltételnek megfelelő
adatbázisrekordok mezőoszlopában a számokat.
DVAR			= AB.VAR			##	A kijelölt adatbáziselemek mintája alapján
becslést ad a szórásnégyzetre.
DVARP			= AB.VAR2			##	A kijelölt adatbáziselemek teljes sokasága
alapján kiszámítja a szórásnégyzetet.


##
##	Date and time functions				Dátumfüggvények
##
DATE			= DÁTUM				##	Adott dátum dátumértékét adja eredményül.
DATEVALUE		= DÁTUMÉRTÉK			##	Szövegként megadott dátumot
dátumértékké alakít át.
DAY			= NAP				##	Dátumértéket a hónap egy napjává (0-31) alakít.
DAYS360			= NAP360			##	Két dátum közé eső napok számát számítja
ki a 360 napos év alapján.
EDATE			= EDATE				##	Adott dátumnál adott számú hónappal korábbi
vagy későbbi dátum dátumértékét adja eredményül.
EOMONTH			= EOMONTH			##	Adott dátumnál adott számú hónappal korábbi
vagy későbbi hónap utolsó napjának dátumértékét adja eredményül.
HOUR			= ÓRA				##	Időértéket órákká alakít.
MINUTE			= PERC				##	Időértéket percekké alakít.
MONTH			= HÓNAP				##	Időértéket hónapokká alakít.
NETWORKDAYS		= NETWORKDAYS			##	Két dátum között a teljes munkanapok
számát adja meg.
NOW			= MOST				##	A napi dátum dátumértékét és a pontos idő
időértékét adja eredményül.
SECOND			= MPERC				##	Időértéket másodpercekké alakít át.
TIME			= IDŐ				##	Adott időpont időértékét adja meg.
TIMEVALUE		= IDŐÉRTÉK			##	Szövegként megadott időpontot
időértékké alakít át.
TODAY			= MA				##	A napi dátum dátumértékét adja eredményül.
WEEKDAY			= HÉT.NAPJA			##	Dátumértéket a hét napjává alakítja át.
WEEKNUM			= WEEKNUM			##	Visszatérési értéke egy szám, amely azt
mutatja meg, hogy a megadott dátum az év hányadik hetére esik.
WORKDAY			= WORKDAY			##	Adott dátumnál adott munkanappal korábbi vagy
későbbi dátum dátumértékét adja eredményül.
YEAR			= ÉV				##	Sorszámot évvé alakít át.
YEARFRAC		= YEARFRAC			##	Az adott dátumok közötti teljes napok számát
törtévként adja meg.


##
##	Engineering functions				Mérnöki függvények
##
BESSELI			= BESSELI			##	Az In(x) módosított Bessel-függvény értékét
adja eredményül.
BESSELJ			= BESSELJ			##	A Jn(x) Bessel-függvény értékét adja
eredményül.
BESSELK			= BESSELK			##	A Kn(x) módosított Bessel-függvény értékét
adja eredményül.
BESSELY			= BESSELY			##	Az Yn(x) módosított Bessel-függvény értékét
adja eredményül.
BIN2DEC			= BIN2DEC			##	Bináris számot decimálissá alakít át.
BIN2HEX			= BIN2HEX			##	Bináris számot hexadecimálissá alakít át.
BIN2OCT			= BIN2OCT			##	Bináris számot oktálissá alakít át.
COMPLEX			= COMPLEX			##	Valós és képzetes részből komplex számot
képez.
CONVERT			= CONVERT			##	Mértékegységeket vált át.
DEC2BIN			= DEC2BIN			##	Decimális számot binárissá alakít át.
DEC2HEX			= DEC2HEX			##	Decimális számot hexadecimálissá alakít át.
DEC2OCT			= DEC2OCT			##	Decimális számot oktálissá alakít át.
DELTA			= DELTA				##	Azt vizsgálja, hogy két érték egyenlő-e.
ERF			= ERF				##	A hibafüggvény értékét adja eredményül.
ERFC			= ERFC				##	A kiegészített hibafüggvény értékét adja
eredményül.
GESTEP			= GESTEP			##	Azt vizsgálja, hogy egy szám nagyobb-e adott
küszöbértéknél.
HEX2BIN			= HEX2BIN			##	Hexadecimális számot binárissá alakít át.
HEX2DEC			= HEX2DEC			##	Hexadecimális számot decimálissá alakít át.
HEX2OCT			= HEX2OCT			##	Hexadecimális számot oktálissá alakít át.
IMABS			= IMABS				##	Komplex szám abszolút értékét (modulusát) adja
eredményül.
IMAGINARY		= IMAGINARY			##	Komplex szám képzetes részét adja
eredményül.
IMARGUMENT		= IMARGUMENT			##	A komplex szám radiánban kifejezett théta
argumentumát adja eredményül.
IMCONJUGATE		= IMCONJUGATE			##	Komplex szám komplex konjugáltját adja
eredményül.
IMCOS			= IMCOS				##	Komplex szám koszinuszát adja eredményül.
IMDIV			= IMDIV				##	Két komplex szám hányadosát adja eredményül.
IMEXP			= IMEXP				##	Az e szám komplex kitevőjű hatványát adja
eredményül.
IMLN			= IMLN				##	Komplex szám természetes logaritmusát adja
eredményül.
IMLOG10			= IMLOG10			##	Komplex szám tízes alapú logaritmusát adja
eredményül.
IMLOG2			= IMLOG2			##	Komplex szám kettes alapú logaritmusát adja
eredményül.
IMPOWER			= IMPOWER			##	Komplex szám hatványát adja eredményül.
IMPRODUCT		= IMPRODUCT			##	Komplex számok szorzatát adja eredményül.
IMREAL			= IMREAL			##	Komplex szám valós részét adja eredményül.
IMSIN			= IMSIN				##	Komplex szám szinuszát adja eredményül.
IMSQRT			= IMSQRT			##	Komplex szám négyzetgyökét adja eredményül.
IMSUB			= IMSUB				##	Két komplex szám különbségét adja eredményül.
IMSUM			= IMSUM				##	Komplex számok összegét adja eredményül.
OCT2BIN			= OCT2BIN			##	Oktális számot binárissá alakít át.
OCT2DEC			= OCT2DEC			##	Oktális számot decimálissá alakít át.
OCT2HEX			= OCT2HEX			##	Oktális számot hexadecimálissá alakít át.


##
##	Financial functions				Pénzügyi függvények
##
ACCRINT			= ACCRINT			##	Periodikusan kamatozó értékpapír
felszaporodott kamatát adja eredményül.
ACCRINTM		= ACCRINTM			##	Lejáratkor kamatozó értékpapír
felszaporodott kamatát adja eredményül.
AMORDEGRC		= AMORDEGRC			##	Állóeszköz lineáris értékcsökkenését
adja meg az egyes könyvelési időszakokra vonatkozóan.
AMORLINC		= AMORLINC			##	Az egyes könyvelési időszakokban az
értékcsökkenést adja meg.
COUPDAYBS		= COUPDAYBS			##	A szelvényidőszak kezdetétől a kifizetés
időpontjáig eltelt napokat adja vissza.
COUPDAYS		= COUPDAYS			##	A kifizetés időpontját magában foglaló
szelvényperiódus hosszát adja meg napokban.
COUPDAYSNC		= COUPDAYSNC			##	A kifizetés időpontja és a legközelebbi
szelvénydátum közötti napok számát adja meg.
COUPNCD			= COUPNCD			##	A kifizetést követő legelső szelvénydátumot
adja eredményül.
COUPNUM			= COUPNUM			##	A kifizetés és a lejárat időpontja között
kifizetendő szelvények számát adja eredményül.
COUPPCD			= COUPPCD			##	A kifizetés előtti utolsó szelvénydátumot
adja eredményül.
CUMIPMT			= CUMIPMT			##	Két fizetési időszak között kifizetett kamat
halmozott értékét adja eredményül.
CUMPRINC		= CUMPRINC			##	Két fizetési időszak között kifizetett
részletek halmozott (kamatot nem tartalmazó) értékét adja
eredményül.
DB			= KCS2				##	Eszköz adott időszak alatti értékcsökkenését
számítja ki a lineáris leírási modell alkalmazásával.
DDB			= KCSA				##	Eszköz értékcsökkenését számítja ki adott
időszakra vonatkozóan a progresszív vagy egyéb megadott leírási
modell alkalmazásával.
DISC			= DISC				##	Értékpapír leszámítolási kamatlábát adja
eredményül.
DOLLARDE		= DOLLARDE			##	Egy közönséges törtként megadott számot
tizedes törtté alakít át.
DOLLARFR		= DOLLARFR			##	Tizedes törtként megadott számot közönséges
törtté alakít át.
DURATION		= DURATION			##	Periodikus kamatfizetésű értékpapír éves
kamatérzékenységét adja eredményül.
EFFECT			= EFFECT			##	Az éves tényleges kamatláb értékét adja
eredményül.
FV			= JBÉ				##	Befektetés jövőbeli értékét számítja ki.
FVSCHEDULE		= FVSCHEDULE			##	A kezdőtőke adott kamatlábak szerint
megnövelt jövőbeli értékét adja eredményül.
INTRATE			= INTRATE			##	A lejáratig teljesen lekötött értékpapír
kamatrátáját adja eredményül.
IPMT			= RRÉSZLET			##	Hiteltörlesztésen belül a tőketörlesztés
nagyságát számítja ki adott időszakra.
IRR			= BMR				##	A befektetés belső megtérülési rátáját számítja
ki pénzáramláshoz.
ISPMT			= LRÉSZLETKAMAT			##	A befektetés adott időszakára fizetett
kamatot számítja ki.
MDURATION		= MDURATION			##	Egy 100 Ft névértékű értékpapír
Macauley-féle módosított kamatérzékenységét adja eredményül.
MIRR			= MEGTÉRÜLÉS			##	A befektetés belső megtérülési rátáját
számítja ki a költségek és a bevételek különböző kamatlába
mellett.
NOMINAL			= NOMINAL			##	Az éves névleges kamatláb értékét adja
eredményül.
NPER			= PER.SZÁM			##	A törlesztési időszakok számát adja meg.
NPV			= NMÉ				##	Befektetéshez kapcsolódó pénzáramlás nettó
jelenértékét számítja ki ismert pénzáramlás és kamatláb mellett.
ODDFPRICE		= ODDFPRICE			##	Egy 100 Ft névértékű, a futamidő elején
töredék-időszakos értékpapír árát adja eredményül.
ODDFYIELD		= ODDFYIELD			##	A futamidő elején töredék-időszakos
értékpapír hozamát adja eredményül.
ODDLPRICE		= ODDLPRICE			##	Egy 100 Ft névértékű, a futamidő végén
töredék-időszakos értékpapír árát adja eredményül.
ODDLYIELD		= ODDLYIELD			##	A futamidő végén töredék-időszakos
értékpapír hozamát adja eredményül.
PMT			= RÉSZLET			##	A törlesztési időszakra vonatkozó törlesztési
összeget számítja ki.
PPMT			= PRÉSZLET			##	Hiteltörlesztésen belül a tőketörlesztés
nagyságát számítja ki adott időszakra.
PRICE			= PRICE				##	Egy 100 Ft névértékű, periodikusan kamatozó
értékpapír árát adja eredményül.
PRICEDISC		= PRICEDISC			##	Egy 100 Ft névértékű leszámítolt
értékpapír árát adja eredményül.
PRICEMAT		= PRICEMAT			##	Egy 100 Ft névértékű, a lejáratkor kamatozó
értékpapír árát adja eredményül.
PV			= MÉ				##	Befektetés jelenlegi értékét számítja ki.
RATE			= RÁTA				##	Egy törlesztési időszakban az egy időszakra eső
kamatláb nagyságát számítja ki.
RECEIVED		= RECEIVED			##	A lejáratig teljesen lekötött értékpapír
lejáratakor kapott összegét adja eredményül.
SLN			= LCSA				##	Tárgyi eszköz egy időszakra eső amortizációját
adja meg bruttó érték szerinti lineáris leírási kulcsot alkalmazva.
SYD			= SYD				##	Tárgyi eszköz értékcsökkenését számítja ki adott
időszakra az évek számjegyösszegével dolgozó módszer alapján.
TBILLEQ			= TBILLEQ			##	Kincstárjegy kötvény-egyenértékű hozamát
adja eredményül.
TBILLPRICE		= TBILLPRICE			##	Egy 100 Ft névértékű kincstárjegy árát
adja eredményül.
TBILLYIELD		= TBILLYIELD			##	Kincstárjegy hozamát adja eredményül.
VDB			= ÉCSRI				##	Tárgyi eszköz amortizációját számítja ki
megadott vagy részidőszakra a csökkenő egyenleg módszerének
alkalmazásával.
XIRR			= XIRR				##	Ütemezett készpénzforgalom (cash flow) belső
megtérülési kamatrátáját adja eredményül.
XNPV			= XNPV				##	Ütemezett készpénzforgalom (cash flow) nettó
jelenlegi értékét adja eredményül.
YIELD			= YIELD				##	Periodikusan kamatozó értékpapír hozamát adja
eredményül.
YIELDDISC		= YIELDDISC			##	Leszámítolt értékpapír (például
kincstárjegy) éves hozamát adja eredményül.
YIELDMAT		= YIELDMAT			##	Lejáratkor kamatozó értékpapír éves
hozamát adja eredményül.


##
##	Information functions				Információs függvények
##
CELL			= CELLA				##	Egy cella formátumára, elhelyezkedésére vagy
tartalmára vonatkozó adatokat ad eredményül.
ERROR.TYPE		= HIBA.TÍPUS			##	Egy hibatípushoz tartozó számot ad
eredményül.
INFO			= INFÓ				##	A rendszer- és munkakörnyezet pillanatnyi
állapotáról ad felvilágosítást.
ISBLANK			= ÜRES				##	Eredménye IGAZ, ha az érték üres.
ISERR			= HIBA				##	Eredménye IGAZ, ha az érték valamelyik hibaérték
a #HIÁNYZIK kivételével.
ISERROR			= HIBÁS				##	Eredménye IGAZ, ha az érték valamelyik
hibaérték.
ISEVEN			= ISEVEN			##	Eredménye IGAZ, ha argumentuma páros szám.
ISLOGICAL		= LOGIKAI			##	Eredménye IGAZ, ha az érték logikai érték.
ISNA			= NINCS				##	Eredménye IGAZ, ha az érték a #HIÁNYZIK
hibaérték.
ISNONTEXT		= NEM.SZÖVEG			##	Eredménye IGAZ, ha az érték nem szöveg.
ISNUMBER		= SZÁM				##	Eredménye IGAZ, ha az érték szám.
ISODD			= ISODD				##	Eredménye IGAZ, ha argumentuma páratlan szám.
ISREF			= HIVATKOZÁS			##	Eredménye IGAZ, ha az érték hivatkozás.
ISTEXT			= SZÖVEG.E			##	Eredménye IGAZ, ha az érték szöveg.
N			= N				##	Argumentumának értékét számmá alakítja.
NA			= HIÁNYZIK			##	Eredménye a #HIÁNYZIK hibaérték.
TYPE			= TÍPUS				##	Érték adattípusának azonosítószámát adja
eredményül.


##
##	Logical functions				Logikai függvények
##
AND			= ÉS				##	Eredménye IGAZ, ha minden argumentuma IGAZ.
FALSE			= HAMIS				##	A HAMIS logikai értéket adja eredményül.
IF			= HA				##	Logikai vizsgálatot hajt végre.
IFERROR			= HAHIBA			##	A megadott értéket adja vissza, ha egy képlet
hibához vezet; más esetben a képlet értékét adja eredményül.
NOT			= NEM				##	Argumentuma értékének ellentettjét adja eredményül.
OR			= VAGY				##	Eredménye IGAZ, ha bármely argumentuma IGAZ.
TRUE			= IGAZ				##	Az IGAZ logikai értéket adja eredményül.


##
##	Lookup and reference functions			Keresési és hivatkozási függvények
##
ADDRESS			= CÍM				##	A munkalap egy cellájára való hivatkozást adja
szövegként eredményül.
AREAS			= TERÜLET			##	Hivatkozásban a területek számát adja
eredményül.
CHOOSE			= VÁLASZT			##	Értékek listájából választ ki egy elemet.
COLUMN			= OSZLOP			##	Egy hivatkozás oszlopszámát adja eredményül.
COLUMNS			= OSZLOPOK			##	A hivatkozásban található oszlopok számát
adja eredményül.
HLOOKUP			= VKERES			##	A megadott tömb felső sorában adott értékű
elemet keres, és a megtalált elem oszlopából adott sorban elhelyezkedő
értékkel tér vissza.
HYPERLINK		= HIPERHIVATKOZÁS		##	Hálózati kiszolgálón, intraneten vagy
az interneten tárolt dokumentumot megnyitó parancsikont vagy hivatkozást
hoz létre.
INDEX			= INDEX				##	Tömb- vagy hivatkozás indexszel megadott értékét
adja vissza.
INDIRECT		= INDIREKT			##	Szöveg megadott hivatkozást ad eredményül.
LOOKUP			= KERES				##	Vektorban vagy tömbben keres meg értékeket.
MATCH			= HOL.VAN			##	Hivatkozásban vagy tömbben értékeket keres.
OFFSET			= OFSZET			##	Hivatkozás egy másik hivatkozástól számított
távolságát adja meg.
ROW			= SOR				##	Egy hivatkozás sorának számát adja meg.
ROWS			= SOROK				##	Egy hivatkozás sorainak számát adja meg.
RTD			= RTD				##	Valós idejű adatokat keres vissza a COM automatizmust
(automatizálás: Egy alkalmazás objektumaival való munka másik
alkalmazásból vagy fejlesztőeszközből. A korábban OLE automatizmusnak
nevezett automatizálás iparági szabvány, a Component Object Model (COM)
szolgáltatása.) támogató programból.
TRANSPOSE		= TRANSZPONÁLÁS			##	Egy tömb transzponáltját adja
eredményül.
VLOOKUP			= FKERES			##	A megadott tömb bal szélső oszlopában megkeres
egy értéket, majd annak sora és a megadott oszlop metszéspontjában
levő értéked adja eredményül.


##
##	Math and trigonometry functions			Matematikai és trigonometrikus
függvények
##
ABS			= ABS				##	Egy szám abszolút értékét adja eredményül.
ACOS			= ARCCOS			##	Egy szám arkusz koszinuszát számítja ki.
ACOSH			= ACOSH				##	Egy szám inverz koszinusz hiperbolikuszát
számítja ki.
ASIN			= ARCSIN			##	Egy szám arkusz szinuszát számítja ki.
ASINH			= ASINH				##	Egy szám inverz szinusz hiperbolikuszát számítja
ki.
ATAN			= ARCTAN			##	Egy szám arkusz tangensét számítja ki.
ATAN2			= ARCTAN2			##	X és y koordináták alapján számítja ki az
arkusz tangens értéket.
ATANH			= ATANH				##	A szám inverz tangens hiperbolikuszát számítja
ki.
CEILING			= PLAFON			##	Egy számot a legközelebbi egészre vagy a
pontosságként megadott érték legközelebb eső többszörösére
kerekít.
COMBIN			= KOMBINÁCIÓK			##	Adott számú objektum összes lehetséges
kombinációinak számát számítja ki.
COS			= COS				##	Egy szám koszinuszát számítja ki.
COSH			= COSH				##	Egy szám koszinusz hiperbolikuszát számítja ki.
DEGREES			= FOK				##	Radiánt fokká alakít át.
EVEN			= PÁROS				##	Egy számot a legközelebbi páros egész számra
kerekít.
EXP			= KITEVŐ			##	Az e adott kitevőjű hatványát adja eredményül.
FACT			= FAKT				##	Egy szám faktoriálisát számítja ki.
FACTDOUBLE		= FACTDOUBLE			##	Egy szám dupla faktoriálisát adja
eredményül.
FLOOR			= PADLÓ				##	Egy számot lefelé, a nulla felé kerekít.
GCD			= GCD				##	A legnagyobb közös osztót adja eredményül.
INT			= INT				##	Egy számot lefelé kerekít a legközelebbi egészre.
LCM			= LCM				##	A legkisebb közös többszöröst adja eredményül.
LN			= LN				##	Egy szám természetes logaritmusát számítja ki.
LOG			= LOG				##	Egy szám adott alapú logaritmusát számítja ki.
LOG10			= LOG10				##	Egy szám 10-es alapú logaritmusát számítja ki.
MDETERM			= MDETERM			##	Egy tömb mátrix-determinánsát számítja ki.
MINVERSE		= INVERZ.MÁTRIX			##	Egy tömb mátrix inverzét adja
eredményül.
MMULT			= MSZORZAT			##	Két tömb mátrix-szorzatát adja meg.
MOD			= MARADÉK			##	Egy szám osztási maradékát adja eredményül.
MROUND			= MROUND			##	A kívánt többszörösére kerekített értéket
ad eredményül.
MULTINOMIAL		= MULTINOMIAL			##	Számhalmaz multinomiálisát adja
eredményül.
ODD			= PÁRATLAN			##	Egy számot a legközelebbi páratlan számra
kerekít.
PI			= PI				##	A pi matematikai állandót adja vissza.
POWER			= HATVÁNY			##	Egy szám adott kitevőjű hatványát számítja
ki.
PRODUCT			= SZORZAT			##	Argumentumai szorzatát számítja ki.
QUOTIENT		= QUOTIENT			##	Egy hányados egész részét adja eredményül.
RADIANS			= RADIÁN			##	Fokot radiánná alakít át.
RAND			= VÉL				##	Egy 0 és 1 közötti véletlen számot ad
eredményül.
RANDBETWEEN		= RANDBETWEEN			##	Megadott számok közé eső véletlen
számot állít elő.
ROMAN			= RÓMAI				##	Egy számot római számokkal kifejezve szövegként
ad eredményül.
ROUND			= KEREKÍTÉS			##	Egy számot adott számú számjegyre kerekít.
ROUNDDOWN		= KEREKÍTÉS.LE			##	Egy számot lefelé, a nulla felé
kerekít.
ROUNDUP			= KEREKÍTÉS.FEL			##	Egy számot felfelé, a nullától
távolabbra kerekít.
SERIESSUM		= SERIESSUM			##	Hatványsor összegét adja eredményül.
SIGN			= ELŐJEL			##	Egy szám előjelét adja meg.
SIN			= SIN				##	Egy szög szinuszát számítja ki.
SINH			= SINH				##	Egy szám szinusz hiperbolikuszát számítja ki.
SQRT			= GYÖK				##	Egy szám pozitív négyzetgyökét számítja ki.
SQRTPI			= SQRTPI			##	A (szám*pi) négyzetgyökét adja eredményül.
SUBTOTAL		= RÉSZÖSSZEG			##	Lista vagy adatbázis részösszegét adja
eredményül.
SUM			= SZUM				##	Összeadja az argumentumlistájában lévő számokat.
SUMIF			= SZUMHA			##	A megadott feltételeknek eleget tevő cellákban
található értékeket adja össze.
SUMIFS			= SZUMHATÖBB			##	Több megadott feltételnek eleget tévő
tartománycellák összegét adja eredményül.
SUMPRODUCT		= SZORZATÖSSZEG			##	A megfelelő tömbelemek szorzatának
összegét számítja ki.
SUMSQ			= NÉGYZETÖSSZEG			##	Argumentumai négyzetének összegét
számítja ki.
SUMX2MY2		= SZUMX2BŐLY2			##	Két tömb megfelelő elemei négyzetének
különbségét összegzi.
SUMX2PY2		= SZUMX2MEGY2			##	Két tömb megfelelő elemei négyzetének
összegét összegzi.
SUMXMY2			= SZUMXBŐLY2			##	Két tömb megfelelő elemei különbségének
négyzetösszegét számítja ki.
TAN			= TAN				##	Egy szám tangensét számítja ki.
TANH			= TANH				##	Egy szám tangens hiperbolikuszát számítja ki.
TRUNC			= CSONK				##	Egy számot egésszé csonkít.


##
##	Statistical functions				Statisztikai függvények
##
AVEDEV			= ÁTL.ELTÉRÉS			##	Az adatpontoknak átlaguktól való átlagos
abszolút eltérését számítja ki.
AVERAGE			= ÁTLAG				##	Argumentumai átlagát számítja ki.
AVERAGEA		= ÁTLAGA			##	Argumentumai átlagát számítja ki (beleértve a
számokat, szöveget és logikai értékeket).
AVERAGEIF		= ÁTLAGHA			##	A megadott feltételnek eleget tévő tartomány
celláinak átlagát (számtani közepét) adja eredményül.
AVERAGEIFS		= ÁTLAGHATÖBB			##	A megadott feltételeknek eleget tévő
cellák átlagát (számtani közepét) adja eredményül.
BETADIST		= BÉTA.ELOSZLÁS			##	A béta-eloszlás függvényt számítja
ki.
BETAINV			= INVERZ.BÉTA			##	Adott béta-eloszláshoz kiszámítja a béta
eloszlásfüggvény inverzét.
BINOMDIST		= BINOM.ELOSZLÁS		##	A diszkrét binomiális eloszlás
valószínűségértékét számítja ki.
CHIDIST			= KHI.ELOSZLÁS			##	A khi-négyzet-eloszlás egyszélű
valószínűségértékét számítja ki.
CHIINV			= INVERZ.KHI			##	A khi-négyzet-eloszlás egyszélű
valószínűségértékének inverzét számítja ki.
CHITEST			= KHI.PRÓBA			##	Függetlenségvizsgálatot hajt végre.
CONFIDENCE		= MEGBÍZHATÓSÁG			##	Egy statisztikai sokaság várható
értékének megbízhatósági intervallumát adja eredményül.
CORREL			= KORREL			##	Két adathalmaz korrelációs együtthatóját
számítja ki.
COUNT			= DARAB				##	Megszámolja, hogy argumentumlistájában hány szám
található.
COUNTA			= DARAB2			##	Megszámolja, hogy argumentumlistájában hány
érték található.
COUNTBLANK		= DARABÜRES			##	Egy tartományban összeszámolja az üres
cellákat.
COUNTIF			= DARABTELI			##	Egy tartományban összeszámolja azokat a
cellákat, amelyek eleget tesznek a megadott feltételnek.
COUNTIFS		= DARABHATÖBB			##	Egy tartományban összeszámolja azokat a
cellákat, amelyek eleget tesznek több feltételnek.
COVAR			= KOVAR				##	A kovarianciát, azaz a páronkénti eltérések
szorzatának átlagát számítja ki.
CRITBINOM		= KRITBINOM			##	Azt a legkisebb számot adja eredményül,
amelyre a binomiális eloszlásfüggvény értéke nem kisebb egy adott
határértéknél.
DEVSQ			= SQ				##	Az átlagtól való eltérések négyzetének összegét
számítja ki.
EXPONDIST		= EXP.ELOSZLÁS			##	Az exponenciális eloszlás értékét
számítja ki.
FDIST			= F.ELOSZLÁS			##	Az F-eloszlás értékét számítja ki.
FINV			= INVERZ.F			##	Az F-eloszlás inverzének értékét számítja ki.
FISHER			= FISHER			##	Fisher-transzformációt hajt végre.
FISHERINV		= INVERZ.FISHER			##	A Fisher-transzformáció inverzét hajtja
végre.
FORECAST		= ELŐREJELZÉS			##	Az ismert értékek alapján lineáris
regresszióval becsült értéket ad eredményül.
FREQUENCY		= GYAKORISÁG			##	A gyakorisági vagy empirikus eloszlás
értékét függőleges tömbként adja eredményül.
FTEST			= F.PRÓBA			##	Az F-próba értékét adja eredményül.
GAMMADIST		= GAMMA.ELOSZLÁS		##	A gamma-eloszlás értékét számítja
ki.
GAMMAINV		= INVERZ.GAMMA			##	A gamma-eloszlás eloszlásfüggvénye
inverzének értékét számítja ki.
GAMMALN			= GAMMALN			##	A gamma-függvény természetes logaritmusát
számítja ki.
GEOMEAN			= MÉRTANI.KÖZÉP			##	Argumentumai mértani középértékét
számítja ki.
GROWTH			= NÖV				##	Exponenciális regresszió alapján ad becslést.
HARMEAN			= HARM.KÖZÉP			##	Argumentumai harmonikus átlagát számítja
ki.
HYPGEOMDIST		= HIPERGEOM.ELOSZLÁS		##	A hipergeometriai eloszlás
értékét számítja ki.
INTERCEPT		= METSZ				##	A regressziós egyenes y tengellyel való
metszéspontját határozza meg.
KURT			= CSÚCSOSSÁG			##	Egy adathalmaz csúcsosságát számítja ki.
LARGE			= NAGY				##	Egy adathalmaz k-adik legnagyobb elemét adja
eredményül.
LINEST			= LIN.ILL			##	A legkisebb négyzetek módszerével az adatokra
illesztett egyenes paramétereit határozza meg.
LOGEST			= LOG.ILL			##	Az adatokra illesztett exponenciális görbe
paramétereit határozza meg.
LOGINV			= INVERZ.LOG.ELOSZLÁS		##	A lognormális eloszlás inverzét
számítja ki.
LOGNORMDIST		= LOG.ELOSZLÁS			##	A lognormális eloszlásfüggvény
értékét számítja ki.
MAX			= MAX				##	Az argumentumai között szereplő legnagyobb számot
adja meg.
MAXA			= MAX2				##	Az argumentumai között szereplő legnagyobb számot
adja meg (beleértve a számokat, szöveget és logikai értékeket).
MEDIAN			= MEDIÁN			##	Adott számhalmaz mediánját számítja ki.
MIN			= MIN				##	Az argumentumai között szereplő legkisebb számot adja
meg.
MINA			= MIN2				##	Az argumentumai között szereplő legkisebb számot
adja meg, beleértve a számokat, szöveget és logikai értékeket.
MODE			= MÓDUSZ			##	Egy adathalmazból kiválasztja a leggyakrabban
előforduló számot.
NEGBINOMDIST		= NEGBINOM.ELOSZL		##	A negatív binomiális eloszlás
értékét számítja ki.
NORMDIST		= NORM.ELOSZL			##	A normális eloszlás értékét számítja
ki.
NORMINV			= INVERZ.NORM			##	A normális eloszlás eloszlásfüggvénye
inverzének értékét számítja ki.
NORMSDIST		= STNORMELOSZL			##	A standard normális eloszlás
eloszlásfüggvényének értékét számítja ki.
NORMSINV		= INVERZ.STNORM			##	A standard normális eloszlás
eloszlásfüggvénye inverzének értékét számítja ki.
PEARSON			= PEARSON			##	A Pearson-féle korrelációs együtthatót
számítja ki.
PERCENTILE		= PERCENTILIS			##	Egy tartományban található értékek
k-adik percentilisét, azaz százalékosztályát adja eredményül.
PERCENTRANK		= SZÁZALÉKRANG			##	Egy értéknek egy adathalmazon belül
vett százalékos rangját (elhelyezkedését) számítja ki.
PERMUT			= VARIÁCIÓK			##	Adott számú objektum k-ad osztályú
ismétlés nélküli variációinak számát számítja ki.
POISSON			= POISSON			##	A Poisson-eloszlás értékét számítja ki.
PROB			= VALÓSZÍNŰSÉG			##	Annak valószínűségét számítja ki,
hogy adott értékek két határérték közé esnek.
QUARTILE		= KVARTILIS			##	Egy adathalmaz kvartilisét (negyedszintjét)
számítja ki.
RANK			= SORSZÁM			##	Kiszámítja, hogy egy szám hányadik egy
számsorozatban.
RSQ			= RNÉGYZET			##	Kiszámítja a Pearson-féle szorzatmomentum
korrelációs együtthatójának négyzetét.
SKEW			= FERDESÉG			##	Egy eloszlás ferdeségét határozza meg.
SLOPE			= MEREDEKSÉG			##	Egy lineáris regressziós egyenes
meredekségét számítja ki.
SMALL			= KICSI				##	Egy adathalmaz k-adik legkisebb elemét adja meg.
STANDARDIZE		= NORMALIZÁLÁS			##	Normalizált értéket ad eredményül.
STDEV			= SZÓRÁS			##	Egy statisztikai sokaság mintájából
kiszámítja annak szórását.
STDEVA			= SZÓRÁSA			##	Egy statisztikai sokaság mintájából
kiszámítja annak szórását (beleértve a számokat, szöveget és
logikai értékeket).
STDEVP			= SZÓRÁSP			##	Egy statisztikai sokaság egészéből
kiszámítja annak szórását.
STDEVPA			= SZÓRÁSPA			##	Egy statisztikai sokaság egészéből
kiszámítja annak szórását (beleértve számokat, szöveget és logikai
értékeket).
STEYX			= STHIBAYX			##	Egy regresszió esetén az egyes x-értékek
alapján meghatározott y-értékek standard hibáját számítja ki.
TDIST			= T.ELOSZLÁS			##	A Student-féle t-eloszlás értékét
számítja ki.
TINV			= INVERZ.T			##	A Student-féle t-eloszlás inverzét számítja ki.
TREND			= TREND				##	Lineáris trend értékeit számítja ki.
TRIMMEAN		= RÉSZÁTLAG			##	Egy adathalmaz középső részének átlagát
számítja ki.
TTEST			= T.PRÓBA			##	A Student-féle t-próbához tartozó
valószínűséget számítja ki.
VAR			= VAR				##	Minta alapján becslést ad a varianciára.
VARA			= VARA				##	Minta alapján becslést ad a varianciára (beleértve
számokat, szöveget és logikai értékeket).
VARP			= VARP				##	Egy statisztikai sokaság varianciáját számítja ki.
VARPA			= VARPA				##	Egy statisztikai sokaság varianciáját számítja
ki (beleértve számokat, szöveget és logikai értékeket).
WEIBULL			= WEIBULL			##	A Weibull-féle eloszlás értékét számítja
ki.
ZTEST			= Z.PRÓBA			##	Az egyszélű z-próbával kapott
valószínűségértéket számítja ki.


##
##	Text functions					Szövegműveletekhez használható függvények
##
ASC			= ASC				##	Szöveg teljes szélességű (kétbájtos) latin és
katakana karaktereit félszélességű (egybájtos) karakterekké
alakítja.
BAHTTEXT		= BAHTSZÖVEG			##	Számot szöveggé alakít a ß (baht)
pénznemformátum használatával.
CHAR			= KARAKTER			##	A kódszámmal meghatározott karaktert adja
eredményül.
CLEAN			= TISZTÍT			##	A szövegből eltávolítja az összes nem
nyomtatható karaktert.
CODE			= KÓD				##	Karaktersorozat első karakterének numerikus kódját
adja eredményül.
CONCATENATE		= ÖSSZEFŰZ			##	Több szövegelemet egyetlen szöveges
elemmé fűz össze.
DOLLAR			= FORINT			##	Számot pénznem formátumú szöveggé alakít át.
EXACT			= AZONOS			##	Megvizsgálja, hogy két érték azonos-e.
FIND			= SZÖVEG.TALÁL			##	Karaktersorozatot keres egy másikban (a kis-
és nagybetűk megkülönböztetésével).
FINDB			= SZÖVEG.TALÁL2			##	Karaktersorozatot keres egy másikban (a
kis- és nagybetűk megkülönböztetésével).
FIXED			= FIX				##	Számot szöveges formátumúra alakít adott számú
tizedesjegyre kerekítve.
JIS			= JIS				##	A félszélességű (egybájtos) latin és a katakana
karaktereket teljes szélességű (kétbájtos) karakterekké alakítja.
LEFT			= BAL				##	Szöveg bal szélső karaktereit adja eredményül.
LEFTB			= BAL2				##	Szöveg bal szélső karaktereit adja eredményül.
LEN			= HOSSZ				##	Szöveg karakterekben mért hosszát adja eredményül.
LENB			= HOSSZ2			##	Szöveg karakterekben mért hosszát adja
eredményül.
LOWER			= KISBETŰ			##	Szöveget kisbetűssé alakít át.
MID			= KÖZÉP				##	A szöveg adott pozíciójától kezdve megadott
számú karaktert ad vissza eredményként.
MIDB			= KÖZÉP2			##	A szöveg adott pozíciójától kezdve megadott
számú karaktert ad vissza eredményként.
PHONETIC		= PHONETIC			##	Szöveg furigana (fonetikus) karaktereit adja
vissza.
PROPER			= TNÉV				##	Szöveg minden szavának kezdőbetűjét
nagybetűsre cseréli.
REPLACE			= CSERE				##	A szövegen belül karaktereket cserél.
REPLACEB		= CSERE2			##	A szövegen belül karaktereket cserél.
REPT			= SOKSZOR			##	Megadott számú alkalommal megismétel egy
szövegrészt.
RIGHT			= JOBB				##	Szövegrész jobb szélső karaktereit adja
eredményül.
RIGHTB			= JOBB2				##	Szövegrész jobb szélső karaktereit adja
eredményül.
SEARCH			= SZÖVEG.KERES			##	Karaktersorozatot keres egy másikban (a kis-
és nagybetűk között nem tesz különbséget).
SEARCHB			= SZÖVEG.KERES2			##	Karaktersorozatot keres egy másikban (a
kis- és nagybetűk között nem tesz különbséget).
SUBSTITUTE		= HELYETTE			##	Szövegben adott karaktereket másikra cserél.
T			= T				##	Argumentumát szöveggé alakítja át.
TEXT			= SZÖVEG			##	Számértéket alakít át adott számformátumú
szöveggé.
TRIM			= TRIM				##	A szövegből eltávolítja a szóközöket.
UPPER			= NAGYBETŰS			##	Szöveget nagybetűssé alakít át.
VALUE			= ÉRTÉK				##	Szöveget számmá alakít át.
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/locale/it/config000064400000000356151165413740024045
0ustar00##
## PhpSpreadsheet
##

ArgumentSeparator	= ;


##
##	(For future use)
##
currencySymbol	= €


##
##	Excel Error Codes	(For future use)

##
NULL	= #NULLO!
DIV0	= #DIV/0!
VALUE	= #VALORE!
REF	= #RIF!
NAME	= #NOME?
NUM	= #NUM!
NA	= #N/D
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/locale/it/functions000064400000100752151165413740024611
0ustar00##
## PhpSpreadsheet
##
## Data in this file derived from
https://www.excel-function-translation.com/
##
##


##
##	Add-in and Automation functions			Funzioni di automazione e dei
componenti aggiuntivi
##
GETPIVOTDATA		= INFO.DATI.TAB.PIVOT		##	Restituisce i dati memorizzati in
un rapporto di tabella pivot


##
##	Cube functions					Funzioni cubo
##
CUBEKPIMEMBER		= MEMBRO.KPI.CUBO		##	Restituisce il nome, la proprietà e
la misura di un indicatore di prestazioni chiave (KPI) e visualizza il nome
e la proprietà nella cella. Un KPI è una misura quantificabile, ad
esempio l'utile lordo mensile o il fatturato trimestrale dei
dipendenti, utilizzata per il monitoraggio delle prestazioni di
un'organizzazione.
CUBEMEMBER		= MEMBRO.CUBO			##	Restituisce un membro o una tupla in una
gerarchia di cubi. Consente di verificare l'esistenza del membro o
della tupla nel cubo.
CUBEMEMBERPROPERTY	= PROPRIETÀ.MEMBRO.CUBO		##	Restituisce il valore di
una proprietà di un membro del cubo. Consente di verificare
l'esistenza di un nome di membro all'interno del cubo e di
restituire la proprietà specificata per tale membro.
CUBERANKEDMEMBER	= MEMBRO.CUBO.CON.RANGO		##	Restituisce l'n-esimo
membro o il membro ordinato di un insieme. Consente di restituire uno o
più elementi in un insieme, ad esempio l'agente di vendita migliore o
i primi 10 studenti.
CUBESET			= SET.CUBO			##	Definisce un insieme di tuple o membri calcolati
mediante l'invio di un'espressione di insieme al cubo sul server.
In questo modo l'insieme viene creato e restituito a Microsoft Office
Excel.
CUBESETCOUNT		= CONTA.SET.CUBO		##	Restituisce il numero di elementi di un
insieme.
CUBEVALUE		= VALORE.CUBO			##	Restituisce un valore aggregato da un cubo.


##
##	Database functions				Funzioni di database
##
DAVERAGE		= DB.MEDIA			##	Restituisce la media di voci del database
selezionate
DCOUNT			= DB.CONTA.NUMERI		##	Conta le celle di un database contenenti
numeri
DCOUNTA			= DB.CONTA.VALORI		##	Conta le celle non vuote in un database
DGET			= DB.VALORI			##	Estrae da un database un singolo record che
soddisfa i criteri specificati
DMAX			= DB.MAX			##	Restituisce il valore massimo dalle voci selezionate
in un database
DMIN			= DB.MIN			##	Restituisce il valore minimo dalle voci di un database
selezionate
DPRODUCT		= DB.PRODOTTO			##	Moltiplica i valori in un determinato campo di
record che soddisfano i criteri del database
DSTDEV			= DB.DEV.ST			##	Restituisce una stima della deviazione standard
sulla base di un campione di voci di un database selezionate
DSTDEVP			= DB.DEV.ST.POP			##	Calcola la deviazione standard sulla base di
tutte le voci di un database selezionate
DSUM			= DB.SOMMA			##	Aggiunge i numeri nel campo colonna di record del
database che soddisfa determinati criteri
DVAR			= DB.VAR			##	Restituisce una stima della varianza sulla base di un
campione da voci di un database selezionate
DVARP			= DB.VAR.POP			##	Calcola la varianza sulla base di tutte le voci
di un database selezionate


##
##	Date and time functions				Funzioni data e ora
##
DATE			= DATA				##	Restituisce il numero seriale di una determinata data
DATEVALUE		= DATA.VALORE			##	Converte una data sotto forma di testo in un
numero seriale
DAY			= GIORNO			##	Converte un numero seriale in un giorno del mese
DAYS360			= GIORNO360			##	Calcola il numero di giorni compreso tra due
date basandosi su un anno di 360 giorni
EDATE			= DATA.MESE			##	Restituisce il numero seriale della data che
rappresenta il numero di mesi prima o dopo la data di inizio
EOMONTH			= FINE.MESE			##	Restituisce il numero seriale dell'ultimo
giorno del mese, prima o dopo un determinato numero di mesi
HOUR			= ORA				##	Converte un numero seriale in un'ora
MINUTE			= MINUTO			##	Converte un numero seriale in un minuto
MONTH			= MESE				##	Converte un numero seriale in un mese
NETWORKDAYS		= GIORNI.LAVORATIVI.TOT		##	Restituisce il numero di tutti i
giorni lavorativi compresi fra due date
NOW			= ADESSO			##	Restituisce il numero seriale della data e
dell'ora corrente
SECOND			= SECONDO			##	Converte un numero seriale in un secondo
TIME			= ORARIO			##	Restituisce il numero seriale di una determinata ora
TIMEVALUE		= ORARIO.VALORE			##	Converte un orario in forma di testo in un
numero seriale
TODAY			= OGGI				##	Restituisce il numero seriale relativo alla data
odierna
WEEKDAY			= GIORNO.SETTIMANA		##	Converte un numero seriale in un giorno
della settimana
WEEKNUM			= NUM.SETTIMANA			##	Converte un numero seriale in un numero che
rappresenta la posizione numerica di una settimana nell'anno
WORKDAY			= GIORNO.LAVORATIVO		##	Restituisce il numero della data prima o
dopo un determinato numero di giorni lavorativi
YEAR			= ANNO				##	Converte un numero seriale in un anno
YEARFRAC		= FRAZIONE.ANNO			##	Restituisce la frazione dell'anno che
rappresenta il numero dei giorni compresi tra una data_ iniziale e una
data_finale


##
##	Engineering functions				Funzioni ingegneristiche
##
BESSELI			= BESSEL.I			##	Restituisce la funzione di Bessel modificata
In(x)
BESSELJ			= BESSEL.J			##	Restituisce la funzione di Bessel Jn(x)
BESSELK			= BESSEL.K			##	Restituisce la funzione di Bessel modificata
Kn(x)
BESSELY			= BESSEL.Y			##	Restituisce la funzione di Bessel Yn(x)
BIN2DEC			= BINARIO.DECIMALE		##	Converte un numero binario in decimale
BIN2HEX			= BINARIO.HEX			##	Converte un numero binario in esadecimale
BIN2OCT			= BINARIO.OCT			##	Converte un numero binario in ottale
COMPLEX			= COMPLESSO			##	Converte i coefficienti reali e immaginari in
numeri complessi
CONVERT			= CONVERTI			##	Converte un numero da un sistema di misura in un
altro
DEC2BIN			= DECIMALE.BINARIO		##	Converte un numero decimale in binario
DEC2HEX			= DECIMALE.HEX			##	Converte un numero decimale in esadecimale
DEC2OCT			= DECIMALE.OCT			##	Converte un numero decimale in ottale
DELTA			= DELTA				##	Verifica se due valori sono uguali
ERF			= FUNZ.ERRORE			##	Restituisce la funzione di errore
ERFC			= FUNZ.ERRORE.COMP		##	Restituisce la funzione di errore
complementare
GESTEP			= SOGLIA			##	Verifica se un numero è maggiore del valore di
soglia
HEX2BIN			= HEX.BINARIO			##	Converte un numero esadecimale in binario
HEX2DEC			= HEX.DECIMALE			##	Converte un numero esadecimale in decimale
HEX2OCT			= HEX.OCT			##	Converte un numero esadecimale in ottale
IMABS			= COMP.MODULO			##	Restituisce il valore assoluto (modulo) di un
numero complesso
IMAGINARY		= COMP.IMMAGINARIO		##	Restituisce il coefficiente immaginario
di un numero complesso
IMARGUMENT		= COMP.ARGOMENTO		##	Restituisce l'argomento theta, un
angolo espresso in radianti
IMCONJUGATE		= COMP.CONIUGATO		##	Restituisce il complesso coniugato del
numero complesso
IMCOS			= COMP.COS			##	Restituisce il coseno di un numero complesso
IMDIV			= COMP.DIV			##	Restituisce il quoziente di due numeri complessi
IMEXP			= COMP.EXP			##	Restituisce il valore esponenziale di un numero
complesso
IMLN			= COMP.LN			##	Restituisce il logaritmo naturale di un numero
complesso
IMLOG10			= COMP.LOG10			##	Restituisce il logaritmo in base 10 di un
numero complesso
IMLOG2			= COMP.LOG2			##	Restituisce un logaritmo in base 2 di un numero
complesso
IMPOWER			= COMP.POTENZA			##	Restituisce il numero complesso elevato a una
potenza intera
IMPRODUCT		= COMP.PRODOTTO			##	Restituisce il prodotto di numeri complessi
compresi tra 2 e 29
IMREAL			= COMP.PARTE.REALE		##	Restituisce il coefficiente reale di un
numero complesso
IMSIN			= COMP.SEN			##	Restituisce il seno di un numero complesso
IMSQRT			= COMP.RADQ			##	Restituisce la radice quadrata di un numero
complesso
IMSUB			= COMP.DIFF			##	Restituisce la differenza fra due numeri complessi
IMSUM			= COMP.SOMMA			##	Restituisce la somma di numeri complessi
OCT2BIN			= OCT.BINARIO			##	Converte un numero ottale in binario
OCT2DEC			= OCT.DECIMALE			##	Converte un numero ottale in decimale
OCT2HEX			= OCT.HEX			##	Converte un numero ottale in esadecimale


##
##	Financial functions				Funzioni finanziarie
##
ACCRINT			= INT.MATURATO.PER		##	Restituisce l'interesse maturato di
un titolo che paga interessi periodici
ACCRINTM		= INT.MATURATO.SCAD		##	Restituisce l'interesse maturato di
un titolo che paga interessi alla scadenza
AMORDEGRC		= AMMORT.DEGR			##	Restituisce l'ammortamento per ogni
periodo contabile utilizzando un coefficiente di ammortamento
AMORLINC		= AMMORT.PER			##	Restituisce l'ammortamento per ogni
periodo contabile
COUPDAYBS		= GIORNI.CED.INIZ.LIQ		##	Restituisce il numero dei giorni che
vanno dall'inizio del periodo di durata della cedola alla data di
liquidazione
COUPDAYS		= GIORNI.CED			##	Restituisce il numero dei giorni relativi al
periodo della cedola che contiene la data di liquidazione
COUPDAYSNC		= GIORNI.CED.NUOVA		##	Restituisce il numero di giorni che
vanno dalla data di liquidazione alla data della cedola successiva
COUPNCD			= DATA.CED.SUCC			##	Restituisce un numero che rappresenta la
data della cedola successiva alla data di liquidazione
COUPNUM			= NUM.CED			##	Restituisce il numero di cedole pagabili fra la
data di liquidazione e la data di scadenza
COUPPCD			= DATA.CED.PREC			##	Restituisce un numero che rappresenta la
data della cedola precedente alla data di liquidazione
CUMIPMT			= INT.CUMUL			##	Restituisce l'interesse cumulativo pagato
fra due periodi
CUMPRINC		= CAP.CUM			##	Restituisce il capitale cumulativo pagato per
estinguere un debito fra due periodi
DB			= DB				##	Restituisce l'ammortamento di un bene per un periodo
specificato utilizzando il metodo di ammortamento a quote fisse decrescenti
DDB			= AMMORT			##	Restituisce l'ammortamento di un bene per un
periodo specificato utilizzando il metodo di ammortamento a doppie quote
decrescenti o altri metodi specificati
DISC			= TASSO.SCONTO			##	Restituisce il tasso di sconto per un titolo
DOLLARDE		= VALUTA.DEC			##	Converte un prezzo valuta, espresso come
frazione, in prezzo valuta, espresso come numero decimale
DOLLARFR		= VALUTA.FRAZ			##	Converte un prezzo valuta, espresso come
numero decimale, in prezzo valuta, espresso come frazione
DURATION		= DURATA			##	Restituisce la durata annuale di un titolo con i
pagamenti di interesse periodico
EFFECT			= EFFETTIVO			##	Restituisce l'effettivo tasso di interesse
annuo
FV			= VAL.FUT			##	Restituisce il valore futuro di un investimento
FVSCHEDULE		= VAL.FUT.CAPITALE		##	Restituisce il valore futuro di un
capitale iniziale dopo aver applicato una serie di tassi di interesse
composti
INTRATE			= TASSO.INT			##	Restituisce il tasso di interesse per un titolo
interamente investito
IPMT			= INTERESSI			##	Restituisce il valore degli interessi per un
investimento relativo a un periodo specifico
IRR			= TIR.COST			##	Restituisce il tasso di rendimento interno per una
serie di flussi di cassa
ISPMT			= INTERESSE.RATA		##	Calcola l'interesse di un investimento
pagato durante un periodo specifico
MDURATION		= DURATA.M			##	Restituisce la durata Macauley modificata per un
titolo con un valore presunto di € 100
MIRR			= TIR.VAR			##	Restituisce il tasso di rendimento interno in cui i
flussi di cassa positivi e negativi sono finanziati a tassi differenti
NOMINAL			= NOMINALE			##	Restituisce il tasso di interesse nominale
annuale
NPER			= NUM.RATE			##	Restituisce un numero di periodi relativi a un
investimento
NPV			= VAN				##	Restituisce il valore attuale netto di un investimento
basato su una serie di flussi di cassa periodici e sul tasso di sconto
ODDFPRICE		= PREZZO.PRIMO.IRR		##	Restituisce il prezzo di un titolo dal
valore nominale di € 100 avente il primo periodo di durata irregolare
ODDFYIELD		= REND.PRIMO.IRR		##	Restituisce il rendimento di un titolo
avente il primo periodo di durata irregolare
ODDLPRICE		= PREZZO.ULTIMO.IRR		##	Restituisce il prezzo di un titolo dal
valore nominale di € 100 avente l'ultimo periodo di durata
irregolare
ODDLYIELD		= REND.ULTIMO.IRR		##	Restituisce il rendimento di un titolo
avente l'ultimo periodo di durata irregolare
PMT			= RATA				##	Restituisce il pagamento periodico di una rendita annua
PPMT			= P.RATA			##	Restituisce il pagamento sul capitale di un
investimento per un dato periodo
PRICE			= PREZZO			##	Restituisce il prezzo di un titolo dal valore
nominale di € 100 che paga interessi periodici
PRICEDISC		= PREZZO.SCONT			##	Restituisce il prezzo di un titolo scontato
dal valore nominale di € 100
PRICEMAT		= PREZZO.SCAD			##	Restituisce il prezzo di un titolo dal valore
nominale di € 100 che paga gli interessi alla scadenza
PV			= VA				##	Restituisce il valore attuale di un investimento
RATE			= TASSO				##	Restituisce il tasso di interesse per un periodo di
un'annualità
RECEIVED		= RICEV.SCAD			##	Restituisce l'ammontare ricevuto alla
scadenza di un titolo interamente investito
SLN			= AMMORT.COST			##	Restituisce l'ammortamento a quote costanti
di un bene per un singolo periodo
SYD			= AMMORT.ANNUO			##	Restituisce l'ammortamento a somma degli
anni di un bene per un periodo specificato
TBILLEQ			= BOT.EQUIV			##	Restituisce il rendimento equivalente ad
un'obbligazione per un Buono ordinario del Tesoro
TBILLPRICE		= BOT.PREZZO			##	Restituisce il prezzo di un Buono del Tesoro
dal valore nominale di € 100
TBILLYIELD		= BOT.REND			##	Restituisce il rendimento di un Buono del
Tesoro
VDB			= AMMORT.VAR			##	Restituisce l'ammortamento di un bene per un
periodo specificato o parziale utilizzando il metodo a doppie quote
proporzionali ai valori residui
XIRR			= TIR.X				##	Restituisce il tasso di rendimento interno di un
impiego di flussi di cassa
XNPV			= VAN.X				##	Restituisce il valore attuale netto di un impiego di
flussi di cassa non necessariamente periodici
YIELD			= REND				##	Restituisce il rendimento di un titolo che frutta
interessi periodici
YIELDDISC		= REND.TITOLI.SCONT		##	Restituisce il rendimento annuale di un
titolo scontato, ad esempio un Buono del Tesoro
YIELDMAT		= REND.SCAD			##	Restituisce il rendimento annuo di un titolo che
paga interessi alla scadenza


##
##	Information functions				Funzioni relative alle informazioni
##
CELL			= CELLA				##	Restituisce le informazioni sulla formattazione, la
posizione o i contenuti di una cella
ERROR.TYPE		= ERRORE.TIPO			##	Restituisce un numero che corrisponde a un
tipo di errore
INFO			= INFO				##	Restituisce le informazioni sull'ambiente
operativo corrente
ISBLANK			= VAL.VUOTO			##	Restituisce VERO se il valore è vuoto
ISERR			= VAL.ERR			##	Restituisce VERO se il valore è un valore di errore
qualsiasi tranne #N/D
ISERROR			= VAL.ERRORE			##	Restituisce VERO se il valore è un valore di
errore qualsiasi
ISEVEN			= VAL.PARI			##	Restituisce VERO se il numero è pari
ISLOGICAL		= VAL.LOGICO			##	Restituisce VERO se il valore è un valore
logico
ISNA			= VAL.NON.DISP			##	Restituisce VERO se il valore è un valore di
errore #N/D
ISNONTEXT		= VAL.NON.TESTO			##	Restituisce VERO se il valore non è in
formato testo
ISNUMBER		= VAL.NUMERO			##	Restituisce VERO se il valore è un numero
ISODD			= VAL.DISPARI			##	Restituisce VERO se il numero è dispari
ISREF			= VAL.RIF			##	Restituisce VERO se il valore è un riferimento
ISTEXT			= VAL.TESTO			##	Restituisce VERO se il valore è in formato testo
N			= NUM				##	Restituisce un valore convertito in numero
NA			= NON.DISP			##	Restituisce il valore di errore #N/D
TYPE			= TIPO				##	Restituisce un numero che indica il tipo di dati
relativi a un valore


##
##	Logical functions				Funzioni logiche
##
AND			= E				##	Restituisce VERO se tutti gli argomenti sono VERO
FALSE			= FALSO				##	Restituisce il valore logico FALSO
IF			= SE				##	Specifica un test logico da eseguire
IFERROR			= SE.ERRORE			##	Restituisce un valore specificato se una formula
fornisce un errore come risultato; in caso contrario, restituisce il
risultato della formula
NOT			= NON				##	Inverte la logica degli argomenti
OR			= O				##	Restituisce VERO se un argomento qualsiasi è VERO
TRUE			= VERO				##	Restituisce il valore logico VERO


##
##	Lookup and reference functions			Funzioni di ricerca e di riferimento
##
ADDRESS			= INDIRIZZO			##	Restituisce un riferimento come testo in una
singola cella di un foglio di lavoro
AREAS			= AREE				##	Restituisce il numero di aree in un riferimento
CHOOSE			= SCEGLI			##	Sceglie un valore da un elenco di valori
COLUMN			= RIF.COLONNA			##	Restituisce il numero di colonna di un
riferimento
COLUMNS			= COLONNE			##	Restituisce il numero di colonne in un riferimento
HLOOKUP			= CERCA.ORIZZ			##	Effettua una ricerca nella riga superiore di
una matrice e restituisce il valore della cella specificata
HYPERLINK		= COLLEG.IPERTESTUALE		##	Crea un collegamento che apre un
documento memorizzato in un server di rete, una rete Intranet o Internet
INDEX			= INDICE			##	Utilizza un indice per scegliere un valore da un
riferimento o da una matrice
INDIRECT		= INDIRETTO			##	Restituisce un riferimento specificato da un
valore testo
LOOKUP			= CERCA				##	Ricerca i valori in un vettore o in una matrice
MATCH			= CONFRONTA			##	Ricerca i valori in un riferimento o in una
matrice
OFFSET			= SCARTO			##	Restituisce uno scarto di riferimento da un
riferimento dato
ROW			= RIF.RIGA			##	Restituisce il numero di riga di un riferimento
ROWS			= RIGHE				##	Restituisce il numero delle righe in un riferimento
RTD			= DATITEMPOREALE		##	Recupera dati in tempo reale da un programma che
supporta l'automazione COM (automazione: Metodo per utilizzare gli
oggetti di un'applicazione da un'altra applicazione o da un altro
strumento di sviluppo. Precedentemente nota come automazione OLE,
l'automazione è uno standard del settore e una caratteristica del
modello COM (Component Object Model).)
TRANSPOSE		= MATR.TRASPOSTA		##	Restituisce la trasposizione di una matrice
VLOOKUP			= CERCA.VERT			##	Effettua una ricerca nella prima colonna di una
matrice e si sposta attraverso la riga per restituire il valore di una
cella


##
##	Math and trigonometry functions			Funzioni matematiche e trigonometriche
##
ABS			= ASS				##	Restituisce il valore assoluto di un numero.
ACOS			= ARCCOS			##	Restituisce l'arcocoseno di un numero
ACOSH			= ARCCOSH			##	Restituisce l'inverso del coseno iperbolico di
un numero
ASIN			= ARCSEN			##	Restituisce l'arcoseno di un numero
ASINH			= ARCSENH			##	Restituisce l'inverso del seno iperbolico di un
numero
ATAN			= ARCTAN			##	Restituisce l'arcotangente di un numero
ATAN2			= ARCTAN.2			##	Restituisce l'arcotangente delle coordinate x
e y specificate
ATANH			= ARCTANH			##	Restituisce l'inverso della tangente iperbolica
di un numero
CEILING			= ARROTONDA.ECCESSO		##	Arrotonda un numero per eccesso
all'intero più vicino o al multiplo più vicino a peso
COMBIN			= COMBINAZIONE			##	Restituisce il numero di combinazioni
possibili per un numero assegnato di elementi
COS			= COS				##	Restituisce il coseno dell'angolo specificato
COSH			= COSH				##	Restituisce il coseno iperbolico di un numero
DEGREES			= GRADI				##	Converte i radianti in gradi
EVEN			= PARI				##	Arrotonda il valore assoluto di un numero per eccesso
al più vicino intero pari
EXP			= ESP				##	Restituisce il numero e elevato alla potenza di num
FACT			= FATTORIALE			##	Restituisce il fattoriale di un numero
FACTDOUBLE		= FATT.DOPPIO			##	Restituisce il fattoriale doppio di un
numero
FLOOR			= ARROTONDA.DIFETTO		##	Arrotonda un numero per difetto al multiplo
più vicino a zero
GCD			= MCD				##	Restituisce il massimo comune divisore
INT			= INT				##	Arrotonda un numero per difetto al numero intero più
vicino
LCM			= MCM				##	Restituisce il minimo comune multiplo
LN			= LN				##	Restituisce il logaritmo naturale di un numero
LOG			= LOG				##	Restituisce il logaritmo di un numero in una specificata
base
LOG10			= LOG10				##	Restituisce il logaritmo in base 10 di un numero
MDETERM			= MATR.DETERM			##	Restituisce il determinante di una matrice
MINVERSE		= MATR.INVERSA			##	Restituisce l'inverso di una matrice
MMULT			= MATR.PRODOTTO			##	Restituisce il prodotto di due matrici
MOD			= RESTO				##	Restituisce il resto della divisione
MROUND			= ARROTONDA.MULTIPLO		##	Restituisce un numero arrotondato al
multiplo desiderato
MULTINOMIAL		= MULTINOMIALE			##	Restituisce il multinomiale di un insieme
di numeri
ODD			= DISPARI			##	Arrotonda un numero per eccesso al più vicino intero
dispari
PI			= PI.GRECO			##	Restituisce il valore di pi greco
POWER			= POTENZA			##	Restituisce il risultato di un numero elevato a
potenza
PRODUCT			= PRODOTTO			##	Moltiplica i suoi argomenti
QUOTIENT		= QUOZIENTE			##	Restituisce la parte intera di una divisione
RADIANS			= RADIANTI			##	Converte i gradi in radianti
RAND			= CASUALE			##	Restituisce un numero casuale compreso tra 0 e 1
RANDBETWEEN		= CASUALE.TRA			##	Restituisce un numero casuale compreso tra
i numeri specificati
ROMAN			= ROMANO			##	Restituisce il numero come numero romano sotto forma
di testo
ROUND			= ARROTONDA			##	Arrotonda il numero al numero di cifre specificato
ROUNDDOWN		= ARROTONDA.PER.DIF		##	Arrotonda il valore assoluto di un
numero per difetto
ROUNDUP			= ARROTONDA.PER.ECC		##	Arrotonda il valore assoluto di un numero
per eccesso
SERIESSUM		= SOMMA.SERIE			##	Restituisce la somma di una serie di potenze
in base alla formula
SIGN			= SEGNO				##	Restituisce il segno di un numero
SIN			= SEN				##	Restituisce il seno di un dato angolo
SINH			= SENH				##	Restituisce il seno iperbolico di un numero
SQRT			= RADQ				##	Restituisce una radice quadrata
SQRTPI			= RADQ.PI.GRECO			##	Restituisce la radice quadrata di un numero
(numero * pi greco)
SUBTOTAL		= SUBTOTALE			##	Restituisce un subtotale in un elenco o in un
database
SUM			= SOMMA				##	Somma i suoi argomenti
SUMIF			= SOMMA.SE			##	Somma le celle specificate da un dato criterio
SUMIFS			= SOMMA.PIÙ.SE			##	Somma le celle in un intervallo che
soddisfano più criteri
SUMPRODUCT		= MATR.SOMMA.PRODOTTO		##	Restituisce la somma dei prodotti dei
componenti corrispondenti della matrice
SUMSQ			= SOMMA.Q			##	Restituisce la somma dei quadrati degli argomenti
SUMX2MY2		= SOMMA.DIFF.Q			##	Restituisce la somma della differenza dei
quadrati dei corrispondenti elementi in due matrici
SUMX2PY2		= SOMMA.SOMMA.Q			##	Restituisce la somma della somma dei
quadrati dei corrispondenti elementi in due matrici
SUMXMY2			= SOMMA.Q.DIFF			##	Restituisce la somma dei quadrati delle
differenze dei corrispondenti elementi in due matrici
TAN			= TAN				##	Restituisce la tangente di un numero
TANH			= TANH				##	Restituisce la tangente iperbolica di un numero
TRUNC			= TRONCA			##	Tronca la parte decimale di un numero


##
##	Statistical functions				Funzioni statistiche
##
AVEDEV			= MEDIA.DEV			##	Restituisce la media delle deviazioni assolute
delle coordinate rispetto alla loro media
AVERAGE			= MEDIA				##	Restituisce la media degli argomenti
AVERAGEA		= MEDIA.VALORI			##	Restituisce la media degli argomenti, inclusi
i numeri, il testo e i valori logici
AVERAGEIF		= MEDIA.SE			##	Restituisce la media aritmetica di tutte le
celle in un intervallo che soddisfano un determinato criterio
AVERAGEIFS		= MEDIA.PIÙ.SE			##	Restituisce la media aritmetica di tutte
le celle che soddisfano più criteri
BETADIST		= DISTRIB.BETA			##	Restituisce la funzione di distribuzione
cumulativa beta
BETAINV			= INV.BETA			##	Restituisce l'inverso della funzione di
distribuzione cumulativa per una distribuzione beta specificata
BINOMDIST		= DISTRIB.BINOM			##	Restituisce la distribuzione binomiale per
il termine individuale
CHIDIST			= DISTRIB.CHI			##	Restituisce la probabilità a una coda per la
distribuzione del chi quadrato
CHIINV			= INV.CHI			##	Restituisce l'inverso della probabilità ad
una coda per la distribuzione del chi quadrato
CHITEST			= TEST.CHI			##	Restituisce il test per l'indipendenza
CONFIDENCE		= CONFIDENZA			##	Restituisce l'intervallo di confidenza
per una popolazione
CORREL			= CORRELAZIONE			##	Restituisce il coefficiente di correlazione
tra due insiemi di dati
COUNT			= CONTA.NUMERI			##	Conta la quantità di numeri nell'elenco
di argomenti
COUNTA			= CONTA.VALORI			##	Conta il numero di valori nell'elenco di
argomenti
COUNTBLANK		= CONTA.VUOTE			##	Conta il numero di celle vuote
all'interno di un intervallo
COUNTIF			= CONTA.SE			##	Conta il numero di celle all'interno di un
intervallo che soddisfa i criteri specificati
COUNTIFS		= CONTA.PIÙ.SE			##	Conta il numero di celle in un intervallo
che soddisfano più criteri.
COVAR			= COVARIANZA			##	Calcola la covarianza, la media dei prodotti
delle deviazioni accoppiate
CRITBINOM		= CRIT.BINOM			##	Restituisce il più piccolo valore per il
quale la distribuzione cumulativa binomiale risulta maggiore o uguale ad un
valore di criterio
DEVSQ			= DEV.Q				##	Restituisce la somma dei quadrati delle deviazioni
EXPONDIST		= DISTRIB.EXP			##	Restituisce la distribuzione esponenziale
FDIST			= DISTRIB.F			##	Restituisce la distribuzione di probabilità F
FINV			= INV.F				##	Restituisce l'inverso della distribuzione della
probabilità F
FISHER			= FISHER			##	Restituisce la trasformazione di Fisher
FISHERINV		= INV.FISHER			##	Restituisce l'inverso della
trasformazione di Fisher
FORECAST		= PREVISIONE			##	Restituisce i valori lungo una tendenza lineare
FREQUENCY		= FREQUENZA			##	Restituisce la distribuzione di frequenza come
matrice verticale
FTEST			= TEST.F			##	Restituisce il risultato di un test F
GAMMADIST		= DISTRIB.GAMMA			##	Restituisce la distribuzione gamma
GAMMAINV		= INV.GAMMA			##	Restituisce l'inverso della distribuzione
cumulativa gamma
GAMMALN			= LN.GAMMA			##	Restituisce il logaritmo naturale della funzione
gamma, G(x)
GEOMEAN			= MEDIA.GEOMETRICA		##	Restituisce la media geometrica
GROWTH			= CRESCITA			##	Restituisce i valori lungo una linea di tendenza
esponenziale
HARMEAN			= MEDIA.ARMONICA		##	Restituisce la media armonica
HYPGEOMDIST		= DISTRIB.IPERGEOM		##	Restituisce la distribuzione
ipergeometrica
INTERCEPT		= INTERCETTA			##	Restituisce l'intercetta della retta di
regressione lineare
KURT			= CURTOSI			##	Restituisce la curtosi di un insieme di dati
LARGE			= GRANDE			##	Restituisce il k-esimo valore più grande in un
insieme di dati
LINEST			= REGR.LIN			##	Restituisce i parametri di una tendenza lineare
LOGEST			= REGR.LOG			##	Restituisce i parametri di una linea di tendenza
esponenziale
LOGINV			= INV.LOGNORM			##	Restituisce l'inverso di una distribuzione
lognormale
LOGNORMDIST		= DISTRIB.LOGNORM		##	Restituisce la distribuzione lognormale
cumulativa
MAX			= MAX				##	Restituisce il valore massimo in un elenco di argomenti
MAXA			= MAX.VALORI			##	Restituisce il valore massimo in un elenco di
argomenti, inclusi i numeri, il testo e i valori logici
MEDIAN			= MEDIANA			##	Restituisce la mediana dei numeri specificati
MIN			= MIN				##	Restituisce il valore minimo in un elenco di argomenti
MINA			= MIN.VALORI			##	Restituisce il più piccolo valore in un elenco di
argomenti, inclusi i numeri, il testo e i valori logici
MODE			= MODA				##	Restituisce il valore più comune in un insieme di dati
NEGBINOMDIST		= DISTRIB.BINOM.NEG		##	Restituisce la distribuzione
binomiale negativa
NORMDIST		= DISTRIB.NORM			##	Restituisce la distribuzione cumulativa
normale
NORMINV			= INV.NORM			##	Restituisce l'inverso della distribuzione
cumulativa normale standard
NORMSDIST		= DISTRIB.NORM.ST		##	Restituisce la distribuzione cumulativa
normale standard
NORMSINV		= INV.NORM.ST			##	Restituisce l'inverso della distribuzione
cumulativa normale
PEARSON			= PEARSON			##	Restituisce il coefficiente del momento di
correlazione di Pearson
PERCENTILE		= PERCENTILE			##	Restituisce il k-esimo dato percentile di
valori in un intervallo
PERCENTRANK		= PERCENT.RANGO			##	Restituisce il rango di un valore in un
insieme di dati come percentuale
PERMUT			= PERMUTAZIONE			##	Restituisce il numero delle permutazioni per
un determinato numero di oggetti
POISSON			= POISSON			##	Restituisce la distribuzione di Poisson
PROB			= PROBABILITÀ			##	Calcola la probabilità che dei valori in un
intervallo siano compresi tra due limiti
QUARTILE		= QUARTILE			##	Restituisce il quartile di un insieme di dati
RANK			= RANGO				##	Restituisce il rango di un numero in un elenco di
numeri
RSQ			= RQ				##	Restituisce la radice quadrata del coefficiente di momento
di correlazione di Pearson
SKEW			= ASIMMETRIA			##	Restituisce il grado di asimmetria di una
distribuzione
SLOPE			= PENDENZA			##	Restituisce la pendenza di una retta di regressione
lineare
SMALL			= PICCOLO			##	Restituisce il k-esimo valore più piccolo in un
insieme di dati
STANDARDIZE		= NORMALIZZA			##	Restituisce un valore normalizzato
STDEV			= DEV.ST			##	Restituisce una stima della deviazione standard sulla
base di un campione
STDEVA			= DEV.ST.VALORI			##	Restituisce una stima della deviazione
standard sulla base di un campione, inclusi i numeri, il testo e i valori
logici
STDEVP			= DEV.ST.POP			##	Calcola la deviazione standard sulla base di
un'intera popolazione
STDEVPA			= DEV.ST.POP.VALORI		##	Calcola la deviazione standard sulla base
sull'intera popolazione, inclusi i numeri, il testo e i valori logici
STEYX			= ERR.STD.YX			##	Restituisce l'errore standard del valore
previsto per y per ogni valore x nella regressione
TDIST			= DISTRIB.T			##	Restituisce la distribuzione t di Student
TINV			= INV.T				##	Restituisce l'inversa della distribuzione t di
Student
TREND			= TENDENZA			##	Restituisce i valori lungo una linea di tendenza
lineare
TRIMMEAN		= MEDIA.TRONCATA		##	Restituisce la media della parte interna di
un insieme di dati
TTEST			= TEST.T			##	Restituisce la probabilità associata ad un test t di
Student
VAR			= VAR				##	Stima la varianza sulla base di un campione
VARA			= VAR.VALORI			##	Stima la varianza sulla base di un campione,
inclusi i numeri, il testo e i valori logici
VARP			= VAR.POP			##	Calcola la varianza sulla base dell'intera
popolazione
VARPA			= VAR.POP.VALORI		##	Calcola la deviazione standard sulla base
sull'intera popolazione, inclusi i numeri, il testo e i valori logici
WEIBULL			= WEIBULL			##	Restituisce la distribuzione di Weibull
ZTEST			= TEST.Z			##	Restituisce il valore di probabilità a una coda per
un test z


##
##	Text functions					Funzioni di testo
##
ASC			= ASC				##	Modifica le lettere inglesi o il katakana a doppio byte
all'interno di una stringa di caratteri in caratteri a singolo byte
BAHTTEXT		= BAHTTESTO			##	Converte un numero in testo, utilizzando il
formato valuta ß (baht)
CHAR			= CODICE.CARATT			##	Restituisce il carattere specificato dal numero
di codice
CLEAN			= LIBERA			##	Elimina dal testo tutti i caratteri che non è
possibile stampare
CODE			= CODICE			##	Restituisce il codice numerico del primo carattere di
una stringa di testo
CONCATENATE		= CONCATENA			##	Unisce diversi elementi di testo in un unico
elemento di testo
DOLLAR			= VALUTA			##	Converte un numero in testo, utilizzando il formato
valuta € (euro)
EXACT			= IDENTICO			##	Verifica se due valori di testo sono uguali
FIND			= TROVA				##	Rileva un valore di testo all'interno di un altro
(distinzione tra maiuscole e minuscole)
FINDB			= TROVA.B			##	Rileva un valore di testo all'interno di un
altro (distinzione tra maiuscole e minuscole)
FIXED			= FISSO				##	Formatta un numero come testo con un numero fisso di
decimali
JIS			= ORDINAMENTO.JIS		##	Modifica le lettere inglesi o i caratteri
katakana a byte singolo all'interno di una stringa di caratteri in
caratteri a byte doppio.
LEFT			= SINISTRA			##	Restituisce il carattere più a sinistra di un
valore di testo
LEFTB			= SINISTRA.B			##	Restituisce il carattere più a sinistra di un
valore di testo
LEN			= LUNGHEZZA			##	Restituisce il numero di caratteri di una stringa di
testo
LENB			= LUNB				##	Restituisce il numero di caratteri di una stringa di
testo
LOWER			= MINUSC			##	Converte il testo in lettere minuscole
MID			= MEDIA				##	Restituisce un numero specifico di caratteri di una
stringa di testo a partire dalla posizione specificata
MIDB			= MEDIA.B			##	Restituisce un numero specifico di caratteri di una
stringa di testo a partire dalla posizione specificata
PHONETIC		= FURIGANA			##	Estrae i caratteri fonetici (furigana) da una
stringa di testo.
PROPER			= MAIUSC.INIZ			##	Converte in maiuscolo la prima lettera di ogni
parola di un valore di testo
REPLACE			= RIMPIAZZA			##	Sostituisce i caratteri all'interno di un
testo
REPLACEB		= SOSTITUISCI.B			##	Sostituisce i caratteri all'interno di
un testo
REPT			= RIPETI			##	Ripete un testo per un dato numero di volte
RIGHT			= DESTRA			##	Restituisce il carattere più a destra di un valore
di testo
RIGHTB			= DESTRA.B			##	Restituisce il carattere più a destra di un
valore di testo
SEARCH			= RICERCA			##	Rileva un valore di testo all'interno di un
altro (non è sensibile alle maiuscole e minuscole)
SEARCHB			= CERCA.B			##	Rileva un valore di testo all'interno di un
altro (non è sensibile alle maiuscole e minuscole)
SUBSTITUTE		= SOSTITUISCI			##	Sostituisce il nuovo testo al testo
contenuto in una stringa
T			= T				##	Converte gli argomenti in testo
TEXT			= TESTO				##	Formatta un numero e lo converte in testo
TRIM			= ANNULLA.SPAZI			##	Elimina gli spazi dal testo
UPPER			= MAIUSC			##	Converte il testo in lettere maiuscole
VALUE			= VALORE			##	Converte un argomento di testo in numero
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/locale/nl/config000064400000000361151165413740024036
0ustar00##
## PhpSpreadsheet
##

ArgumentSeparator	= ;


##
##	(For future use)
##
currencySymbol	= €


##
##	Excel Error Codes	(For future use)

##
NULL	= #LEEG!
DIV0	= #DEEL/0!
VALUE	= #WAARDE!
REF	= #VERW!
NAME	= #NAAM?
NUM	= #GETAL!
NA	= #N/B
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/locale/nl/functions000064400000104634151165413750024612
0ustar00##
## PhpSpreadsheet
##
## Data in this file derived from
https://www.excel-function-translation.com/
##
##


##
##	Add-in and Automation functions			Automatiseringsfuncties en functies in
invoegtoepassingen
##
GETPIVOTDATA		= DRAAITABEL.OPHALEN		##	Geeft gegevens uit een
draaitabelrapport als resultaat


##
##	Cube functions					Kubusfuncties
##
CUBEKPIMEMBER		= KUBUSKPILID			##	Retourneert de naam, eigenschap en waarde
van een KPI (prestatie-indicator) en geeft de naam en de eigenschap in de
cel weer. Een KPI is een meetbare waarde, zoals de maandelijkse brutowinst
of de omzet per kwartaal per werknemer, die wordt gebruikt om de prestaties
van een organisatie te bewaken
CUBEMEMBER		= KUBUSLID			##	Retourneert een lid of tupel in een
kubushiërarchie. Wordt gebruikt om te controleren of het lid of de tupel
in de kubus aanwezig is
CUBEMEMBERPROPERTY	= KUBUSLIDEIGENSCHAP		##	Retourneert de waarde van een
lideigenschap in de kubus. Wordt gebruikt om te controleren of de lidnaam
in de kubus bestaat en retourneert de opgegeven eigenschap voor dit lid
CUBERANKEDMEMBER	= KUBUSGERANGCHIKTLID		##	Retourneert het zoveelste,
gerangschikte lid in een set. Wordt gebruikt om een of meer elementen in
een set te retourneren, zoals de tien beste verkopers of de tien beste
studenten
CUBESET			= KUBUSSET			##	Definieert een berekende set leden of tupels door
een ingestelde expressie naar de kubus op de server te sturen, alwaar de
set wordt gemaakt en vervolgens wordt geretourneerd naar Microsoft Office
Excel
CUBESETCOUNT		= KUBUSSETAANTAL		##	Retourneert het aantal onderdelen in een
set
CUBEVALUE		= KUBUSWAARDE			##	Retourneert een samengestelde waarde van een
kubus


##
##	Database functions				Databasefuncties
##
DAVERAGE		= DBGEMIDDELDE			##	Berekent de gemiddelde waarde in
geselecteerde databasegegevens
DCOUNT			= DBAANTAL			##	Telt de cellen met getallen in een database
DCOUNTA			= DBAANTALC			##	Telt de niet-lege cellen in een database
DGET			= DBLEZEN			##	Retourneert één record dat voldoet aan de opgegeven
criteria uit een database
DMAX			= DBMAX				##	Retourneert de maximumwaarde in de geselecteerde
databasegegevens
DMIN			= DBMIN				##	Retourneert de minimumwaarde in de geselecteerde
databasegegevens
DPRODUCT		= DBPRODUCT			##	Vermenigvuldigt de waarden in een bepaald veld
van de records die voldoen aan de criteria in een database
DSTDEV			= DBSTDEV			##	Maakt een schatting van de standaarddeviatie op
basis van een steekproef uit geselecteerde databasegegevens
DSTDEVP			= DBSTDEVP			##	Berekent de standaarddeviatie op basis van de
volledige populatie van geselecteerde databasegegevens
DSUM			= DBSOM				##	Telt de getallen uit een kolom records in de database
op die voldoen aan de criteria
DVAR			= DBVAR				##	Maakt een schatting van de variantie op basis van een
steekproef uit geselecteerde databasegegevens
DVARP			= DBVARP			##	Berekent de variantie op basis van de volledige
populatie van geselecteerde databasegegevens


##
##	Date and time functions				Datum- en tijdfuncties
##
DATE			= DATUM				##	Geeft als resultaat het seriële getal van een
opgegeven datum
DATEVALUE		= DATUMWAARDE			##	Converteert een datum in de vorm van tekst
naar een serieel getal
DAY			= DAG				##	Converteert een serieel getal naar een dag van de maand
DAYS360			= DAGEN360			##	Berekent het aantal dagen tussen twee datums op
basis van een jaar met 360 dagen
EDATE			= ZELFDE.DAG			##	Geeft als resultaat het seriële getal van een
datum die het opgegeven aantal maanden voor of na de begindatum ligt
EOMONTH			= LAATSTE.DAG			##	Geeft als resultaat het seriële getal van de
laatste dag van de maand voor of na het opgegeven aantal maanden
HOUR			= UUR				##	Converteert een serieel getal naar uren
MINUTE			= MINUUT			##	Converteert een serieel naar getal minuten
MONTH			= MAAND				##	Converteert een serieel getal naar een maand
NETWORKDAYS		= NETTO.WERKDAGEN		##	Geeft als resultaat het aantal hele
werkdagen tussen twee datums
NOW			= NU				##	Geeft als resultaat het seriële getal van de huidige
datum en tijd
SECOND			= SECONDE			##	Converteert een serieel getal naar seconden
TIME			= TIJD				##	Geeft als resultaat het seriële getal van een bepaald
tijdstip
TIMEVALUE		= TIJDWAARDE			##	Converteert de tijd in de vorm van tekst naar
een serieel getal
TODAY			= VANDAAG			##	Geeft als resultaat het seriële getal van de
huidige datum
WEEKDAY			= WEEKDAG			##	Converteert een serieel getal naar een weekdag
WEEKNUM			= WEEKNUMMER			##	Converteert een serieel getal naar een
weeknummer
WORKDAY			= WERKDAG			##	Geeft als resultaat het seriële getal van de
datum voor of na een bepaald aantal werkdagen
YEAR			= JAAR				##	Converteert een serieel getal naar een jaar
YEARFRAC		= JAAR.DEEL			##	Geeft als resultaat het gedeelte van het jaar,
uitgedrukt in het aantal hele dagen tussen begindatum en einddatum


##
##	Engineering functions				Technische functies
##
BESSELI			= BESSEL.Y			##	Geeft als resultaat de gewijzigde Bessel-functie
In(x)
BESSELJ			= BESSEL.J			##	Geeft als resultaat de Bessel-functie Jn(x)
BESSELK			= BESSEL.K			##	Geeft als resultaat de gewijzigde Bessel-functie
Kn(x)
BESSELY			= BESSEL.Y			##	Geeft als resultaat de gewijzigde Bessel-functie
Yn(x)
BIN2DEC			= BIN.N.DEC			##	Converteert een binair getal naar een decimaal
getal
BIN2HEX			= BIN.N.HEX			##	Converteert een binair getal naar een
hexadecimaal getal
BIN2OCT			= BIN.N.OCT			##	Converteert een binair getal naar een octaal
getal
COMPLEX			= COMPLEX			##	Converteert reële en imaginaire coëfficiënten
naar een complex getal
CONVERT			= CONVERTEREN			##	Converteert een getal in de ene maateenheid
naar een getal in een andere maateenheid
DEC2BIN			= DEC.N.BIN			##	Converteert een decimaal getal naar een binair
getal
DEC2HEX			= DEC.N.HEX			##	Converteert een decimaal getal naar een
hexadecimaal getal
DEC2OCT			= DEC.N.OCT			##	Converteert een decimaal getal naar een octaal
getal
DELTA			= DELTA				##	Test of twee waarden gelijk zijn
ERF			= FOUTFUNCTIE			##	Geeft als resultaat de foutfunctie
ERFC			= FOUT.COMPLEMENT		##	Geeft als resultaat de complementaire
foutfunctie
GESTEP			= GROTER.DAN			##	Test of een getal groter is dan de drempelwaarde
HEX2BIN			= HEX.N.BIN			##	Converteert een hexadecimaal getal naar een
binair getal
HEX2DEC			= HEX.N.DEC			##	Converteert een hexadecimaal getal naar een
decimaal getal
HEX2OCT			= HEX.N.OCT			##	Converteert een hexadecimaal getal naar een
octaal getal
IMABS			= C.ABS				##	Geeft als resultaat de absolute waarde (modulus) van
een complex getal
IMAGINARY		= C.IM.DEEL			##	Geeft als resultaat de imaginaire coëfficiënt
van een complex getal
IMARGUMENT		= C.ARGUMENT			##	Geeft als resultaat het argument thèta, een
hoek uitgedrukt in radialen
IMCONJUGATE		= C.TOEGEVOEGD			##	Geeft als resultaat het complexe
toegevoegde getal van een complex getal
IMCOS			= C.COS				##	Geeft als resultaat de cosinus van een complex getal
IMDIV			= C.QUOTIENT			##	Geeft als resultaat het quotiënt van twee
complexe getallen
IMEXP			= C.EXP				##	Geeft als resultaat de exponent van een complex getal
IMLN			= C.LN				##	Geeft als resultaat de natuurlijke logaritme van een
complex getal
IMLOG10			= C.LOG10			##	Geeft als resultaat de logaritme met grondtal 10
van een complex getal
IMLOG2			= C.LOG2			##	Geeft als resultaat de logaritme met grondtal 2 van
een complex getal
IMPOWER			= C.MACHT			##	Geeft als resultaat een complex getal dat is
verheven tot de macht van een geheel getal
IMPRODUCT		= C.PRODUCT			##	Geeft als resultaat het product van complexe
getallen
IMREAL			= C.REEEL.DEEL			##	Geeft als resultaat de reële coëfficiënt
van een complex getal
IMSIN			= C.SIN				##	Geeft als resultaat de sinus van een complex getal
IMSQRT			= C.WORTEL			##	Geeft als resultaat de vierkantswortel van een
complex getal
IMSUB			= C.VERSCHIL			##	Geeft als resultaat het verschil tussen twee
complexe getallen
IMSUM			= C.SOM				##	Geeft als resultaat de som van complexe getallen
OCT2BIN			= OCT.N.BIN			##	Converteert een octaal getal naar een binair
getal
OCT2DEC			= OCT.N.DEC			##	Converteert een octaal getal naar een decimaal
getal
OCT2HEX			= OCT.N.HEX			##	Converteert een octaal getal naar een
hexadecimaal getal


##
##	Financial functions				Financiële functies
##
ACCRINT			= SAMENG.RENTE			##	Berekent de opgelopen rente voor een
waardepapier waarvan de rente periodiek wordt uitgekeerd
ACCRINTM		= SAMENG.RENTE.V		##	Berekent de opgelopen rente voor een
waardepapier waarvan de rente op de vervaldatum wordt uitgekeerd
AMORDEGRC		= AMORDEGRC			##	Geeft als resultaat de afschrijving voor elke
boekingsperiode door een afschrijvingscoëfficiënt toe te passen
AMORLINC		= AMORLINC			##	Berekent de afschrijving voor elke
boekingsperiode
COUPDAYBS		= COUP.DAGEN.BB			##	Berekent het aantal dagen vanaf het begin
van de coupontermijn tot de stortingsdatum
COUPDAYS		= COUP.DAGEN			##	Geeft als resultaat het aantal dagen in de
coupontermijn waarin de stortingsdatum valt
COUPDAYSNC		= COUP.DAGEN.VV			##	Geeft als resultaat het aantal dagen vanaf
de stortingsdatum tot de volgende couponvervaldatum
COUPNCD			= COUP.DATUM.NB			##	Geeft als resultaat de volgende coupondatum
na de stortingsdatum
COUPNUM			= COUP.AANTAL			##	Geeft als resultaat het aantal coupons dat nog
moet worden uitbetaald tussen de stortingsdatum en de vervaldatum
COUPPCD			= COUP.DATUM.VB			##	Geeft als resultaat de vorige
couponvervaldatum vóór de stortingsdatum
CUMIPMT			= CUM.RENTE			##	Geeft als resultaat de cumulatieve rente die
tussen twee termijnen is uitgekeerd
CUMPRINC		= CUM.HOOFDSOM			##	Geeft als resultaat de cumulatieve hoofdsom
van een lening die tussen twee termijnen is terugbetaald
DB			= DB				##	Geeft als resultaat de afschrijving van activa voor een
bepaalde periode met behulp van de 'fixed declining
balance'-methode
DDB			= DDB				##	Geeft als resultaat de afschrijving van activa over een
bepaalde termijn met behulp van de 'double declining
balance'-methode of een andere methode die u opgeeft
DISC			= DISCONTO			##	Geeft als resultaat het discontopercentage voor een
waardepapier
DOLLARDE		= EURO.DE			##	Converteert een prijs in euro's, uitgedrukt
in een breuk, naar een prijs in euro's, uitgedrukt in een decimaal
getal
DOLLARFR		= EURO.BR			##	Converteert een prijs in euro's, uitgedrukt
in een decimaal getal, naar een prijs in euro's, uitgedrukt in een
breuk
DURATION		= DUUR				##	Geeft als resultaat de gewogen gemiddelde looptijd
voor een waardepapier met periodieke rentebetalingen
EFFECT			= EFFECT.RENTE			##	Geeft als resultaat het effectieve jaarlijkse
rentepercentage
FV			= TW				##	Geeft als resultaat de toekomstige waarde van een
investering
FVSCHEDULE		= TOEK.WAARDE2			##	Geeft als resultaat de toekomstige waarde
van een bepaalde hoofdsom na het toepassen van een reeks samengestelde
rentepercentages
INTRATE			= RENTEPERCENTAGE		##	Geeft als resultaat het rentepercentage
voor een volgestort waardepapier
IPMT			= IBET				##	Geeft als resultaat de te betalen rente voor een
investering over een bepaalde termijn
IRR			= IR				##	Geeft als resultaat de interne rentabiliteit voor een
reeks cashflows
ISPMT			= ISBET				##	Geeft als resultaat de rente die is betaald tijdens
een bepaalde termijn van een investering
MDURATION		= AANG.DUUR			##	Geeft als resultaat de aangepaste
Macauley-looptijd voor een waardepapier, aangenomen dat de nominale waarde
€ 100 bedraagt
MIRR			= GIR				##	Geeft als resultaat de interne rentabiliteit voor een
serie cashflows, waarbij voor betalingen een ander rentepercentage geldt
dan voor inkomsten
NOMINAL			= NOMINALE.RENTE		##	Geeft als resultaat het nominale jaarlijkse
rentepercentage
NPER			= NPER				##	Geeft als resultaat het aantal termijnen van een
investering
NPV			= NHW				##	Geeft als resultaat de netto huidige waarde van een
investering op basis van een reeks periodieke cashflows en een
discontopercentage
ODDFPRICE		= AFW.ET.PRIJS			##	Geeft als resultaat de prijs per € 100
nominale waarde voor een waardepapier met een afwijkende eerste termijn
ODDFYIELD		= AFW.ET.REND			##	Geeft als resultaat het rendement voor een
waardepapier met een afwijkende eerste termijn
ODDLPRICE		= AFW.LT.PRIJS			##	Geeft als resultaat de prijs per € 100
nominale waarde voor een waardepapier met een afwijkende laatste termijn
ODDLYIELD		= AFW.LT.REND			##	Geeft als resultaat het rendement voor een
waardepapier met een afwijkende laatste termijn
PMT			= BET				##	Geeft als resultaat de periodieke betaling voor een
annuïteit
PPMT			= PBET				##	Geeft als resultaat de afbetaling op de hoofdsom voor
een bepaalde termijn
PRICE			= PRIJS.NOM			##	Geeft als resultaat de prijs per € 100 nominale
waarde voor een waardepapier waarvan de rente periodiek wordt uitgekeerd
PRICEDISC		= PRIJS.DISCONTO		##	Geeft als resultaat de prijs per € 100
nominale waarde voor een verdisconteerd waardepapier
PRICEMAT		= PRIJS.VERVALDAG		##	Geeft als resultaat de prijs per € 100
nominale waarde voor een waardepapier waarvan de rente wordt uitgekeerd op
de vervaldatum
PV			= HW				##	Geeft als resultaat de huidige waarde van een investering
RATE			= RENTE				##	Geeft als resultaat het periodieke rentepercentage
voor een annuïteit
RECEIVED		= OPBRENGST			##	Geeft als resultaat het bedrag dat op de
vervaldatum wordt uitgekeerd voor een volgestort waardepapier
SLN			= LIN.AFSCHR			##	Geeft als resultaat de lineaire afschrijving van
activa over één termijn
SYD			= SYD				##	Geeft als resultaat de afschrijving van activa over een
bepaalde termijn met behulp van de 'Sum-Of-Years-Digits'-methode
TBILLEQ			= SCHATK.OBL			##	Geeft als resultaat het rendement op
schatkistpapier, dat op dezelfde manier wordt berekend als het rendement op
obligaties
TBILLPRICE		= SCHATK.PRIJS			##	Bepaalt de prijs per € 100 nominale
waarde voor schatkistpapier
TBILLYIELD		= SCHATK.REND			##	Berekent het rendement voor schatkistpapier
VDB			= VDB				##	Geeft als resultaat de afschrijving van activa over een
gehele of gedeeltelijke termijn met behulp van de 'declining
balance'-methode
XIRR			= IR.SCHEMA			##	Berekent de interne rentabiliteit voor een
betalingsschema van cashflows
XNPV			= NHW2				##	Berekent de huidige nettowaarde voor een
betalingsschema van cashflows
YIELD			= RENDEMENT			##	Geeft als resultaat het rendement voor een
waardepapier waarvan de rente periodiek wordt uitgekeerd
YIELDDISC		= REND.DISCONTO			##	Geeft als resultaat het jaarlijkse
rendement voor een verdisconteerd waardepapier, bijvoorbeeld
schatkistpapier
YIELDMAT		= REND.VERVAL			##	Geeft als resultaat het jaarlijkse rendement
voor een waardepapier waarvan de rente wordt uitgekeerd op de vervaldatum


##
##	Information functions				Informatiefuncties
##
CELL			= CEL				##	Geeft als resultaat informatie over de opmaak, locatie
of inhoud van een cel
ERROR.TYPE		= TYPE.FOUT			##	Geeft als resultaat een getal dat overeenkomt
met een van de foutwaarden van Microsoft Excel
INFO			= INFO				##	Geeft als resultaat informatie over de huidige
besturingsomgeving
ISBLANK			= ISLEEG			##	Geeft als resultaat WAAR als de waarde leeg is
ISERR			= ISFOUT2			##	Geeft als resultaat WAAR als de waarde een
foutwaarde is, met uitzondering van #N/B
ISERROR			= ISFOUT			##	Geeft als resultaat WAAR als de waarde een
foutwaarde is
ISEVEN			= IS.EVEN			##	Geeft als resultaat WAAR als het getal even is
ISLOGICAL		= ISLOGISCH			##	Geeft als resultaat WAAR als de waarde een
logische waarde is
ISNA			= ISNB				##	Geeft als resultaat WAAR als de waarde de foutwaarde
#N/B is
ISNONTEXT		= ISGEENTEKST			##	Geeft als resultaat WAAR als de waarde geen
tekst is
ISNUMBER		= ISGETAL			##	Geeft als resultaat WAAR als de waarde een getal
is
ISODD			= IS.ONEVEN			##	Geeft als resultaat WAAR als het getal oneven is
ISREF			= ISVERWIJZING			##	Geeft als resultaat WAAR als de waarde een
verwijzing is
ISTEXT			= ISTEKST			##	Geeft als resultaat WAAR als de waarde tekst is
N			= N				##	Geeft als resultaat een waarde die is geconverteerd naar een
getal
NA			= NB				##	Geeft als resultaat de foutwaarde #N/B
TYPE			= TYPE				##	Geeft als resultaat een getal dat het gegevenstype van
een waarde aangeeft


##
##	Logical functions				Logische functies
##
AND			= EN				##	Geeft als resultaat WAAR als alle argumenten WAAR zijn
FALSE			= ONWAAR			##	Geeft als resultaat de logische waarde ONWAAR
IF			= ALS				##	Geeft een logische test aan
IFERROR			= ALS.FOUT			##	Retourneert een waarde die u opgeeft als een
formule een fout oplevert, anders wordt het resultaat van de formule
geretourneerd
NOT			= NIET				##	Keert de logische waarde van het argument om
OR			= OF				##	Geeft als resultaat WAAR als minimaal een van de argumenten
WAAR is
TRUE			= WAAR				##	Geeft als resultaat de logische waarde WAAR


##
##	Lookup and reference functions			Zoek- en verwijzingsfuncties
##
ADDRESS			= ADRES				##	Geeft als resultaat een verwijzing, in de vorm van
tekst, naar één bepaalde cel in een werkblad
AREAS			= BEREIKEN			##	Geeft als resultaat het aantal bereiken in een
verwijzing
CHOOSE			= KIEZEN			##	Kiest een waarde uit een lijst met waarden
COLUMN			= KOLOM				##	Geeft als resultaat het kolomnummer van een
verwijzing
COLUMNS			= KOLOMMEN			##	Geeft als resultaat het aantal kolommen in een
verwijzing
HLOOKUP			= HORIZ.ZOEKEN			##	Zoekt in de bovenste rij van een matrix naar
een bepaalde waarde en geeft als resultaat de gevonden waarde in de
opgegeven cel
HYPERLINK		= HYPERLINK			##	Maakt een snelkoppeling of een sprong waarmee
een document wordt geopend dat is opgeslagen op een netwerkserver, een
intranet of op internet
INDEX			= INDEX				##	Kiest met een index een waarde uit een verwijzing of
een matrix
INDIRECT		= INDIRECT			##	Geeft als resultaat een verwijzing die wordt
aangegeven met een tekstwaarde
LOOKUP			= ZOEKEN			##	Zoekt naar bepaalde waarden in een vector of een
matrix
MATCH			= VERGELIJKEN			##	Zoekt naar bepaalde waarden in een verwijzing of
een matrix
OFFSET			= VERSCHUIVING			##	Geeft als resultaat een nieuwe verwijzing die
is verschoven ten opzichte van een bepaalde verwijzing
ROW			= RIJ				##	Geeft als resultaat het rijnummer van een verwijzing
ROWS			= RIJEN				##	Geeft als resultaat het aantal rijen in een verwijzing
RTD			= RTG				##	Haalt realtimegegevens op uit een programma dat
COM-automatisering (automatisering: een methode waarmee de ene toepassing
objecten van een andere toepassing of ontwikkelprogramma kan besturen.
Automatisering werd vroeger OLE-automatisering genoemd. Automatisering is
een industrienorm die deel uitmaakt van het Component Object Model (COM).)
ondersteunt
TRANSPOSE		= TRANSPONEREN			##	Geeft als resultaat de getransponeerde van
een matrix
VLOOKUP			= VERT.ZOEKEN			##	Zoekt in de meest linkse kolom van een matrix
naar een bepaalde waarde en geeft als resultaat de waarde in de opgegeven
cel


##
##	Math and trigonometry functions			Wiskundige en trigonometrische
functies
##
ABS			= ABS				##	Geeft als resultaat de absolute waarde van een getal
ACOS			= BOOGCOS			##	Geeft als resultaat de boogcosinus van een getal
ACOSH			= BOOGCOSH			##	Geeft als resultaat de inverse cosinus hyperbolicus
van een getal
ASIN			= BOOGSIN			##	Geeft als resultaat de boogsinus van een getal
ASINH			= BOOGSINH			##	Geeft als resultaat de inverse sinus hyperbolicus
van een getal
ATAN			= BOOGTAN			##	Geeft als resultaat de boogtangens van een getal
ATAN2			= BOOGTAN2			##	Geeft als resultaat de boogtangens van de x- en
y-coördinaten
ATANH			= BOOGTANH			##	Geeft als resultaat de inverse tangens hyperbolicus
van een getal
CEILING			= AFRONDEN.BOVEN		##	Rondt de absolute waarde van een getal naar
boven af op het dichtstbijzijnde gehele getal of het dichtstbijzijnde
significante veelvoud
COMBIN			= COMBINATIES			##	Geeft als resultaat het aantal combinaties voor
een bepaald aantal objecten
COS			= COS				##	Geeft als resultaat de cosinus van een getal
COSH			= COSH				##	Geeft als resultaat de cosinus hyperbolicus van een
getal
DEGREES			= GRADEN			##	Converteert radialen naar graden
EVEN			= EVEN				##	Rondt het getal af op het dichtstbijzijnde gehele even
getal
EXP			= EXP				##	Verheft e tot de macht van een bepaald getal
FACT			= FACULTEIT			##	Geeft als resultaat de faculteit van een getal
FACTDOUBLE		= DUBBELE.FACULTEIT		##	Geeft als resultaat de dubbele
faculteit van een getal
FLOOR			= AFRONDEN.BENEDEN		##	Rondt de absolute waarde van een getal naar
beneden af
GCD			= GGD				##	Geeft als resultaat de grootste gemene deler
INT			= INTEGER			##	Rondt een getal naar beneden af op het
dichtstbijzijnde gehele getal
LCM			= KGV				##	Geeft als resultaat het kleinste gemene veelvoud
LN			= LN				##	Geeft als resultaat de natuurlijke logaritme van een getal
LOG			= LOG				##	Geeft als resultaat de logaritme met het opgegeven
grondtal van een getal
LOG10			= LOG10				##	Geeft als resultaat de logaritme met grondtal 10 van
een getal
MDETERM			= DETERMINANTMAT		##	Geeft als resultaat de determinant van een
matrix
MINVERSE		= INVERSEMAT			##	Geeft als resultaat de inverse van een matrix
MMULT			= PRODUCTMAT			##	Geeft als resultaat het product van twee matrices
MOD			= REST				##	Geeft als resultaat het restgetal van een deling
MROUND			= AFRONDEN.N.VEELVOUD		##	Geeft als resultaat een getal afgerond
op het gewenste veelvoud
MULTINOMIAL		= MULTINOMIAAL			##	Geeft als resultaat de
multinomiaalcoëfficiënt van een reeks getallen
ODD			= ONEVEN			##	Rondt de absolute waarde van het getal naar boven af op
het dichtstbijzijnde gehele oneven getal
PI			= PI				##	Geeft als resultaat de waarde van pi
POWER			= MACHT				##	Verheft een getal tot een macht
PRODUCT			= PRODUCT			##	Vermenigvuldigt de argumenten met elkaar
QUOTIENT		= QUOTIENT			##	Geeft als resultaat de uitkomst van een deling
als geheel getal
RADIANS			= RADIALEN			##	Converteert graden naar radialen
RAND			= ASELECT			##	Geeft als resultaat een willekeurig getal tussen 0 en
1
RANDBETWEEN		= ASELECTTUSSEN			##	Geeft een willekeurig getal tussen de
getallen die u hebt opgegeven
ROMAN			= ROMEINS			##	Converteert een Arabisch getal naar een Romeins
getal en geeft het resultaat weer in de vorm van tekst
ROUND			= AFRONDEN			##	Rondt een getal af op het opgegeven aantal
decimalen
ROUNDDOWN		= AFRONDEN.NAAR.BENEDEN		##	Rondt de absolute waarde van een
getal naar beneden af
ROUNDUP			= AFRONDEN.NAAR.BOVEN		##	Rondt de absolute waarde van een getal
naar boven af
SERIESSUM		= SOM.MACHTREEKS		##	Geeft als resultaat de som van een
machtreeks die is gebaseerd op de formule
SIGN			= POS.NEG			##	Geeft als resultaat het teken van een getal
SIN			= SIN				##	Geeft als resultaat de sinus van de opgegeven hoek
SINH			= SINH				##	Geeft als resultaat de sinus hyperbolicus van een getal
SQRT			= WORTEL			##	Geeft als resultaat de positieve vierkantswortel van
een getal
SQRTPI			= WORTEL.PI			##	Geeft als resultaat de vierkantswortel van (getal
* pi)
SUBTOTAL		= SUBTOTAAL			##	Geeft als resultaat een subtotaal voor een
bereik
SUM			= SOM				##	Telt de argumenten op
SUMIF			= SOM.ALS			##	Telt de getallen bij elkaar op die voldoen aan een
bepaald criterium
SUMIFS			= SOMMEN.ALS			##	Telt de cellen in een bereik op die aan meerdere
criteria voldoen
SUMPRODUCT		= SOMPRODUCT			##	Geeft als resultaat de som van de producten
van de corresponderende matrixelementen
SUMSQ			= KWADRATENSOM			##	Geeft als resultaat de som van de kwadraten van
de argumenten
SUMX2MY2		= SOM.X2MINY2			##	Geeft als resultaat de som van het verschil
tussen de kwadraten van corresponderende waarden in twee matrices
SUMX2PY2		= SOM.X2PLUSY2			##	Geeft als resultaat de som van de
kwadratensom van corresponderende waarden in twee matrices
SUMXMY2			= SOM.XMINY.2			##	Geeft als resultaat de som van de kwadraten
van de verschillen tussen de corresponderende waarden in twee matrices
TAN			= TAN				##	Geeft als resultaat de tangens van een getal
TANH			= TANH				##	Geeft als resultaat de tangens hyperbolicus van een
getal
TRUNC			= GEHEEL			##	Kapt een getal af tot een geheel getal


##
##	Statistical functions				Statistische functies
##
AVEDEV			= GEM.DEVIATIE			##	Geeft als resultaat het gemiddelde van de
absolute deviaties van gegevenspunten ten opzichte van hun gemiddelde
waarde
AVERAGE			= GEMIDDELDE			##	Geeft als resultaat het gemiddelde van de
argumenten
AVERAGEA		= GEMIDDELDEA			##	Geeft als resultaat het gemiddelde van de
argumenten, inclusief getallen, tekst en logische waarden
AVERAGEIF		= GEMIDDELDE.ALS		##	Geeft het gemiddelde (rekenkundig
gemiddelde) als resultaat van alle cellen in een bereik die voldoen aan de
opgegeven criteria
AVERAGEIFS		= GEMIDDELDEN.ALS		##	Geeft het gemiddelde (rekenkundig
gemiddelde) als resultaat van alle cellen die aan meerdere criteria voldoen
BETADIST		= BETA.VERD			##	Geeft als resultaat de cumulatieve
bèta-verdelingsfunctie
BETAINV			= BETA.INV			##	Geeft als resultaat de inverse van de cumulatieve
verdelingsfunctie voor een gegeven bèta-verdeling
BINOMDIST		= BINOMIALE.VERD		##	Geeft als resultaat de binomiale verdeling
CHIDIST			= CHI.KWADRAAT			##	Geeft als resultaat de eenzijdige kans van de
chi-kwadraatverdeling
CHIINV			= CHI.KWADRAAT.INV		##	Geeft als resultaat de inverse van een
eenzijdige kans van de chi-kwadraatverdeling
CHITEST			= CHI.TOETS			##	Geeft als resultaat de onafhankelijkheidstoets
CONFIDENCE		= BETROUWBAARHEID		##	Geeft als resultaat het
betrouwbaarheidsinterval van een gemiddelde waarde voor de elementen van
een populatie
CORREL			= CORRELATIE			##	Geeft als resultaat de correlatiecoëfficiënt
van twee gegevensverzamelingen
COUNT			= AANTAL			##	Telt het aantal getallen in de argumentenlijst
COUNTA			= AANTALARG			##	Telt het aantal waarden in de argumentenlijst
COUNTBLANK		= AANTAL.LEGE.CELLEN		##	Telt het aantal lege cellen in een
bereik
COUNTIF			= AANTAL.ALS			##	Telt in een bereik het aantal cellen die
voldoen aan een bepaald criterium
COUNTIFS		= AANTALLEN.ALS			##	Telt in een bereik het aantal cellen die
voldoen aan meerdere criteria
COVAR			= COVARIANTIE			##	Geeft als resultaat de covariantie, het
gemiddelde van de producten van de gepaarde deviaties
CRITBINOM		= CRIT.BINOM			##	Geeft als resultaat de kleinste waarde
waarvoor de binomiale verdeling kleiner is dan of gelijk is aan het
criterium
DEVSQ			= DEV.KWAD			##	Geeft als resultaat de som van de deviaties in het
kwadraat
EXPONDIST		= EXPON.VERD			##	Geeft als resultaat de exponentiële verdeling
FDIST			= F.VERDELING			##	Geeft als resultaat de F-verdeling
FINV			= F.INVERSE			##	Geeft als resultaat de inverse van de F-verdeling
FISHER			= FISHER			##	Geeft als resultaat de Fisher-transformatie
FISHERINV		= FISHER.INV			##	Geeft als resultaat de inverse van de
Fisher-transformatie
FORECAST		= VOORSPELLEN			##	Geeft als resultaat een waarde op basis van
een lineaire trend
FREQUENCY		= FREQUENTIE			##	Geeft als resultaat een frequentieverdeling in
de vorm van een verticale matrix
FTEST			= F.TOETS			##	Geeft als resultaat een F-toets
GAMMADIST		= GAMMA.VERD			##	Geeft als resultaat de gamma-verdeling
GAMMAINV		= GAMMA.INV			##	Geeft als resultaat de inverse van de
cumulatieve gamma-verdeling
GAMMALN			= GAMMA.LN			##	Geeft als resultaat de natuurlijke logaritme van
de gamma-functie, G(x)
GEOMEAN			= MEETK.GEM			##	Geeft als resultaat het meetkundige gemiddelde
GROWTH			= GROEI				##	Geeft als resultaat de waarden voor een
exponentiële trend
HARMEAN			= HARM.GEM			##	Geeft als resultaat het harmonische gemiddelde
HYPGEOMDIST		= HYPERGEO.VERD			##	Geeft als resultaat de hypergeometrische
verdeling
INTERCEPT		= SNIJPUNT			##	Geeft als resultaat het snijpunt van de lineaire
regressielijn met de y-as
KURT			= KURTOSIS			##	Geeft als resultaat de kurtosis van een
gegevensverzameling
LARGE			= GROOTSTE			##	Geeft als resultaat de op k-1 na grootste waarde in
een gegevensverzameling
LINEST			= LIJNSCH			##	Geeft als resultaat de parameters van een lineaire
trend
LOGEST			= LOGSCH			##	Geeft als resultaat de parameters van een
exponentiële trend
LOGINV			= LOG.NORM.INV			##	Geeft als resultaat de inverse van de
logaritmische normale verdeling
LOGNORMDIST		= LOG.NORM.VERD			##	Geeft als resultaat de cumulatieve
logaritmische normale verdeling
MAX			= MAX				##	Geeft als resultaat de maximumwaarde in een lijst met
argumenten
MAXA			= MAXA				##	Geeft als resultaat de maximumwaarde in een lijst met
argumenten, inclusief getallen, tekst en logische waarden
MEDIAN			= MEDIAAN			##	Geeft als resultaat de mediaan van de opgegeven
getallen
MIN			= MIN				##	Geeft als resultaat de minimumwaarde in een lijst met
argumenten
MINA			= MINA				##	Geeft als resultaat de minimumwaarde in een lijst met
argumenten, inclusief getallen, tekst en logische waarden
MODE			= MODUS				##	Geeft als resultaat de meest voorkomende waarde in een
gegevensverzameling
NEGBINOMDIST		= NEG.BINOM.VERD		##	Geeft als resultaat de negatieve
binomiaalverdeling
NORMDIST		= NORM.VERD			##	Geeft als resultaat de cumulatieve normale
verdeling
NORMINV			= NORM.INV			##	Geeft als resultaat de inverse van de cumulatieve
standaardnormale verdeling
NORMSDIST		= STAND.NORM.VERD		##	Geeft als resultaat de cumulatieve
standaardnormale verdeling
NORMSINV		= STAND.NORM.INV		##	Geeft als resultaat de inverse van de
cumulatieve normale verdeling
PEARSON			= PEARSON			##	Geeft als resultaat de correlatiecoëfficiënt van
Pearson
PERCENTILE		= PERCENTIEL			##	Geeft als resultaat het k-de percentiel van
waarden in een bereik
PERCENTRANK		= PERCENT.RANG			##	Geeft als resultaat de positie, in
procenten uitgedrukt, van een waarde in de rangorde van een
gegevensverzameling
PERMUT			= PERMUTATIES			##	Geeft als resultaat het aantal permutaties voor
een gegeven aantal objecten
POISSON			= POISSON			##	Geeft als resultaat de Poisson-verdeling
PROB			= KANS				##	Geeft als resultaat de kans dat waarden zich tussen
twee grenzen bevinden
QUARTILE		= KWARTIEL			##	Geeft als resultaat het kwartiel van een
gegevensverzameling
RANK			= RANG				##	Geeft als resultaat het rangnummer van een getal in een
lijst getallen
RSQ			= R.KWADRAAT			##	Geeft als resultaat het kwadraat van de
Pearson-correlatiecoëfficiënt
SKEW			= SCHEEFHEID			##	Geeft als resultaat de mate van asymmetrie van een
verdeling
SLOPE			= RICHTING			##	Geeft als resultaat de richtingscoëfficiënt van
een lineaire regressielijn
SMALL			= KLEINSTE			##	Geeft als resultaat de op k-1 na kleinste waarde in
een gegevensverzameling
STANDARDIZE		= NORMALISEREN			##	Geeft als resultaat een genormaliseerde
waarde
STDEV			= STDEV				##	Maakt een schatting van de standaarddeviatie op basis
van een steekproef
STDEVA			= STDEVA			##	Maakt een schatting van de standaarddeviatie op
basis van een steekproef, inclusief getallen, tekst en logische waarden
STDEVP			= STDEVP			##	Berekent de standaarddeviatie op basis van de
volledige populatie
STDEVPA			= STDEVPA			##	Berekent de standaarddeviatie op basis van de
volledige populatie, inclusief getallen, tekst en logische waarden
STEYX			= STAND.FOUT.YX			##	Geeft als resultaat de standaardfout in de
voorspelde y-waarde voor elke x in een regressie
TDIST			= T.VERD			##	Geeft als resultaat de Student T-verdeling
TINV			= T.INV				##	Geeft als resultaat de inverse van de Student
T-verdeling
TREND			= TREND				##	Geeft als resultaat de waarden voor een lineaire
trend
TRIMMEAN		= GETRIMD.GEM			##	Geeft als resultaat het gemiddelde van waarden
in een gegevensverzameling
TTEST			= T.TOETS			##	Geeft als resultaat de kans met behulp van de
Student T-toets
VAR			= VAR				##	Maakt een schatting van de variantie op basis van een
steekproef
VARA			= VARA				##	Maakt een schatting van de variantie op basis van een
steekproef, inclusief getallen, tekst en logische waarden
VARP			= VARP				##	Berekent de variantie op basis van de volledige
populatie
VARPA			= VARPA				##	Berekent de standaarddeviatie op basis van de
volledige populatie, inclusief getallen, tekst en logische waarden
WEIBULL			= WEIBULL			##	Geeft als resultaat de Weibull-verdeling
ZTEST			= Z.TOETS			##	Geeft als resultaat de eenzijdige kanswaarde van een
Z-toets


##
##	Text functions					Tekstfuncties
##
ASC			= ASC				##	Wijzigt Nederlandse letters of katakanatekens over de
volle breedte (dubbel-bytetekens) binnen een tekenreeks in tekens over de
halve breedte (enkel-bytetekens)
BAHTTEXT		= BAHT.TEKST			##	Converteert een getal naar tekst met de
valutanotatie ß (baht)
CHAR			= TEKEN				##	Geeft als resultaat het teken dat hoort bij de
opgegeven code
CLEAN			= WISSEN.CONTROL		##	Verwijdert alle niet-afdrukbare tekens uit een
tekst
CODE			= CODE				##	Geeft als resultaat de numerieke code voor het eerste
teken in een tekenreeks
CONCATENATE		= TEKST.SAMENVOEGEN		##	Voegt verschillende tekstfragmenten
samen tot één tekstfragment
DOLLAR			= EURO				##	Converteert een getal naar tekst met de valutanotatie
€ (euro)
EXACT			= GELIJK			##	Controleert of twee tekenreeksen identiek zijn
FIND			= VIND.ALLES			##	Zoekt een bepaalde tekenreeks in een tekst
(waarbij onderscheid wordt gemaakt tussen hoofdletters en kleine letters)
FINDB			= VIND.ALLES.B			##	Zoekt een bepaalde tekenreeks in een tekst
(waarbij onderscheid wordt gemaakt tussen hoofdletters en kleine letters)
FIXED			= VAST				##	Maakt een getal als tekst met een vast aantal
decimalen op
JIS			= JIS				##	Wijzigt Nederlandse letters of katakanatekens over de
halve breedte (enkel-bytetekens) binnen een tekenreeks in tekens over de
volle breedte (dubbel-bytetekens)
LEFT			= LINKS				##	Geeft als resultaat de meest linkse tekens in een
tekenreeks
LEFTB			= LINKSB			##	Geeft als resultaat de meest linkse tekens in een
tekenreeks
LEN			= LENGTE			##	Geeft als resultaat het aantal tekens in een tekenreeks
LENB			= LENGTEB			##	Geeft als resultaat het aantal tekens in een
tekenreeks
LOWER			= KLEINE.LETTERS		##	Zet tekst om in kleine letters
MID			= MIDDEN			##	Geeft als resultaat een bepaald aantal tekens van een
tekenreeks vanaf de positie die u opgeeft
MIDB			= DEELB				##	Geeft als resultaat een bepaald aantal tekens van een
tekenreeks vanaf de positie die u opgeeft
PHONETIC		= FONETISCH			##	Haalt de fonetische tekens (furigana) uit een
tekenreeks op
PROPER			= BEGINLETTERS			##	Zet de eerste letter van elk woord in een
tekst om in een hoofdletter
REPLACE			= VERVANG			##	Vervangt tekens binnen een tekst
REPLACEB		= VERVANGENB			##	Vervangt tekens binnen een tekst
REPT			= HERHALING			##	Herhaalt een tekst een aantal malen
RIGHT			= RECHTS			##	Geeft als resultaat de meest rechtse tekens in een
tekenreeks
RIGHTB			= RECHTSB			##	Geeft als resultaat de meest rechtse tekens in een
tekenreeks
SEARCH			= VIND.SPEC			##	Zoekt een bepaalde tekenreeks in een tekst
(waarbij geen onderscheid wordt gemaakt tussen hoofdletters en kleine
letters)
SEARCHB			= VIND.SPEC.B			##	Zoekt een bepaalde tekenreeks in een tekst
(waarbij geen onderscheid wordt gemaakt tussen hoofdletters en kleine
letters)
SUBSTITUTE		= SUBSTITUEREN			##	Vervangt oude tekst door nieuwe tekst in
een tekenreeks
T			= T				##	Converteert de argumenten naar tekst
TEXT			= TEKST				##	Maakt een getal op en converteert het getal naar tekst
TRIM			= SPATIES.WISSEN		##	Verwijdert de spaties uit een tekst
UPPER			= HOOFDLETTERS			##	Zet tekst om in hoofdletters
VALUE			= WAARDE			##	Converteert tekst naar een getal
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/locale/no/config000064400000000353151165413750024043
0ustar00##
## PhpSpreadsheet
##

ArgumentSeparator	= ;


##
##	(For future use)
##
currencySymbol	= kr


##
##	Excel Error Codes	(For future use)

##
NULL	= #NULL!
DIV0	= #DIV/0!
VALUE	= #VERDI!
REF	= #REF!
NAME	= #NAVN?
NUM	= #NUM!
NA	= #I/T
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/locale/no/functions000064400000074650151165413750024621
0ustar00##
## PhpSpreadsheet
##
## Data in this file derived from
https://www.excel-function-translation.com/
##
##


##
##	Add-in and Automation functions				Funksjonene Tillegg og Automatisering
##
GETPIVOTDATA		= HENTPIVOTDATA				##	Returnerer data som er lagret i en
pivottabellrapport


##
##	Cube functions						Kubefunksjoner
##
CUBEKPIMEMBER		= KUBEKPIMEDLEM				##	Returnerer navnet, egenskapen og
målet for en viktig ytelsesindikator (KPI), og viser navnet og egenskapen
i cellen. En KPI er en målbar enhet, for eksempel månedlig
bruttoinntjening eller kvartalsvis inntjening per ansatt, og brukes til å
overvåke ytelsen i en organisasjon.
CUBEMEMBER		= KUBEMEDLEM				##	Returnerer et medlem eller en tuppel i et
kubehierarki. Brukes til å validere at medlemmet eller tuppelen finnes i
kuben.
CUBEMEMBERPROPERTY	= KUBEMEDLEMEGENSKAP			##	Returnerer verdien til en
medlemsegenskap i kuben. Brukes til å validere at et medlemsnavn finnes i
kuben, og til å returnere den angitte egenskapen for dette medlemmet.
CUBERANKEDMEMBER	= KUBERANGERTMEDLEM			##	Returnerer det n-te, eller
rangerte, medlemmet i et sett. Brukes til å returnere ett eller flere
elementer i et sett, for eksempel de 10 beste studentene.
CUBESET			= KUBESETT				##	Definerer et beregnet sett av medlemmer eller
tuppeler ved å sende et settuttrykk til kuben på serveren, noe som
oppretter settet og deretter returnerer dette settet til Microsoft Office
Excel.
CUBESETCOUNT		= KUBESETTANTALL			##	Returnerer antallet elementer i et
sett.
CUBEVALUE		= KUBEVERDI				##	Returnerer en aggregert verdi fra en kube.


##
##	Database functions					Databasefunksjoner
##
DAVERAGE		= DGJENNOMSNITT				##	Returnerer gjennomsnittet av merkede
databaseposter
DCOUNT			= DANTALL				##	Teller celler som inneholder tall i en database
DCOUNTA			= DANTALLA				##	Teller celler som ikke er tomme i en database
DGET			= DHENT					##	Trekker ut fra en database en post som oppfyller
angitte vilkår
DMAX			= DMAKS					##	Returnerer maksimumsverdien fra merkede
databaseposter
DMIN			= DMIN					##	Returnerer minimumsverdien fra merkede databaseposter
DPRODUCT		= DPRODUKT				##	Multipliserer verdiene i et bestemt felt med
poster som oppfyller vilkårene i en database
DSTDEV			= DSTDAV				##	Estimerer standardavviket basert på et utvalg av
merkede databaseposter
DSTDEVP			= DSTAVP				##	Beregner standardavviket basert på at merkede
databaseposter utgjør hele populasjonen
DSUM			= DSUMMER				##	Legger til tallene i feltkolonnen med poster, i
databasen som oppfyller vilkårene
DVAR			= DVARIANS				##	Estimerer variansen basert på et utvalg av merkede
databaseposter
DVARP			= DVARIANSP				##	Beregner variansen basert på at merkede
databaseposter utgjør hele populasjonen


##
##	Date and time functions					Dato- og tidsfunksjoner
##
DATE			= DATO					##	Returnerer serienummeret som svarer til en bestemt
dato
DATEVALUE		= DATOVERDI				##	Konverterer en dato med tekstformat til et
serienummer
DAY			= DAG					##	Konverterer et serienummer til en dag i måneden
DAYS360			= DAGER360				##	Beregner antall dager mellom to datoer basert
på et år med 360 dager
EDATE			= DAG.ETTER				##	Returnerer serienummeret som svarer til datoen
som er det indikerte antall måneder før eller etter startdatoen
EOMONTH			= MÅNEDSSLUTT				##	Returnerer serienummeret som svarer til
siste dag i måneden, før eller etter et angitt antall måneder
HOUR			= TIME					##	Konverterer et serienummer til en time
MINUTE			= MINUTT				##	Konverterer et serienummer til et minutt
MONTH			= MÅNED					##	Konverterer et serienummer til en måned
NETWORKDAYS		= NETT.ARBEIDSDAGER			##	Returnerer antall hele arbeidsdager
mellom to datoer
NOW			= NÅ					##	Returnerer serienummeret som svarer til gjeldende dato
og klokkeslett
SECOND			= SEKUND				##	Konverterer et serienummer til et sekund
TIME			= TID					##	Returnerer serienummeret som svarer til et bestemt
klokkeslett
TIMEVALUE		= TIDSVERDI				##	Konverterer et klokkeslett i tekstformat til
et serienummer
TODAY			= IDAG					##	Returnerer serienummeret som svarer til dagens dato
WEEKDAY			= UKEDAG				##	Konverterer et serienummer til en ukedag
WEEKNUM			= UKENR					##	Konverterer et serienummer til et tall som
representerer hvilket nummer uken har i et år
WORKDAY			= ARBEIDSDAG				##	Returnerer serienummeret som svarer til datoen
før eller etter et angitt antall arbeidsdager
YEAR			= ÅR					##	Konverterer et serienummer til et år
YEARFRAC		= ÅRDEL					##	Returnerer brøkdelen for året, som svarer til
antall hele dager mellom startdato og sluttdato


##
##	Engineering functions					Tekniske funksjoner
##
BESSELI			= BESSELI				##	Returnerer den endrede Bessel-funksjonen In(x)
BESSELJ			= BESSELJ				##	Returnerer Bessel-funksjonen Jn(x)
BESSELK			= BESSELK				##	Returnerer den endrede Bessel-funksjonen Kn(x)
BESSELY			= BESSELY				##	Returnerer Bessel-funksjonen Yn(x)
BIN2DEC			= BINTILDES				##	Konverterer et binært tall til et desimaltall
BIN2HEX			= BINTILHEKS				##	Konverterer et binært tall til et
heksadesimaltall
BIN2OCT			= BINTILOKT				##	Konverterer et binært tall til et oktaltall
COMPLEX			= KOMPLEKS				##	Konverterer reelle og imaginære koeffisienter
til et komplekst tall
CONVERT			= KONVERTER				##	Konverterer et tall fra ett målsystem til et
annet
DEC2BIN			= DESTILBIN				##	Konverterer et desimaltall til et binærtall
DEC2HEX			= DESTILHEKS				##	Konverterer et heltall i 10-tallsystemet til
et heksadesimalt tall
DEC2OCT			= DESTILOKT				##	Konverterer et heltall i 10-tallsystemet til et
oktaltall
DELTA			= DELTA					##	Undersøker om to verdier er like
ERF			= FEILF					##	Returnerer feilfunksjonen
ERFC			= FEILFK				##	Returnerer den komplementære feilfunksjonen
GESTEP			= GRENSEVERDI				##	Tester om et tall er større enn en
terskelverdi
HEX2BIN			= HEKSTILBIN				##	Konverterer et heksadesimaltall til et binært
tall
HEX2DEC			= HEKSTILDES				##	Konverterer et heksadesimalt tall til et
heltall i 10-tallsystemet
HEX2OCT			= HEKSTILOKT				##	Konverterer et heksadesimalt tall til et
oktaltall
IMABS			= IMABS					##	Returnerer absoluttverdien (koeffisienten) til et
komplekst tall
IMAGINARY		= IMAGINÆR				##	Returnerer den imaginære koeffisienten til et
komplekst tall
IMARGUMENT		= IMARGUMENT				##	Returnerer argumentet theta, som er en
vinkel uttrykt i radianer
IMCONJUGATE		= IMKONJUGERT				##	Returnerer den komplekse konjugaten til et
komplekst tall
IMCOS			= IMCOS					##	Returnerer cosinus til et komplekst tall
IMDIV			= IMDIV					##	Returnerer kvotienten til to komplekse tall
IMEXP			= IMEKSP				##	Returnerer eksponenten til et komplekst tall
IMLN			= IMLN					##	Returnerer den naturlige logaritmen for et komplekst
tall
IMLOG10			= IMLOG10				##	Returnerer logaritmen med grunntall 10 for et
komplekst tall
IMLOG2			= IMLOG2				##	Returnerer logaritmen med grunntall 2 for et
komplekst tall
IMPOWER			= IMOPPHØY				##	Returnerer et komplekst tall opphøyd til en
heltallspotens
IMPRODUCT		= IMPRODUKT				##	Returnerer produktet av komplekse tall
IMREAL			= IMREELL				##	Returnerer den reelle koeffisienten til et
komplekst tall
IMSIN			= IMSIN					##	Returnerer sinus til et komplekst tall
IMSQRT			= IMROT					##	Returnerer kvadratroten av et komplekst tall
IMSUB			= IMSUB					##	Returnerer differansen mellom to komplekse tall
IMSUM			= IMSUMMER				##	Returnerer summen av komplekse tall
OCT2BIN			= OKTTILBIN				##	Konverterer et oktaltall til et binært tall
OCT2DEC			= OKTTILDES				##	Konverterer et oktaltall til et desimaltall
OCT2HEX			= OKTTILHEKS				##	Konverterer et oktaltall til et
heksadesimaltall


##
##	Financial functions					Økonomiske funksjoner
##
ACCRINT			= PÅLØPT.PERIODISK.RENTE		##	Returnerer påløpte renter for et
verdipapir som betaler periodisk rente
ACCRINTM		= PÅLØPT.FORFALLSRENTE			##	Returnerer den påløpte renten for
et verdipapir som betaler rente ved forfall
AMORDEGRC		= AMORDEGRC				##	Returnerer avskrivningen for hver
regnskapsperiode ved hjelp av en avskrivingskoeffisient
AMORLINC		= AMORLINC				##	Returnerer avskrivingen for hver
regnskapsperiode
COUPDAYBS		= OBLIG.DAGER.FF			##	Returnerer antall dager fra begynnelsen av
den rentebærende perioden til innløsningsdatoen
COUPDAYS		= OBLIG.DAGER				##	Returnerer antall dager i den rentebærende
perioden som inneholder innløsningsdatoen
COUPDAYSNC		= OBLIG.DAGER.NF			##	Returnerer antall dager fra betalingsdato
til neste renteinnbetalingsdato
COUPNCD			= OBLIG.DAGER.EF			##	Returnerer obligasjonsdatoen som kommer
etter oppgjørsdatoen
COUPNUM			= OBLIG.ANTALL				##	Returnerer antall obligasjoner som skal
betales mellom oppgjørsdatoen og forfallsdatoen
COUPPCD			= OBLIG.DAG.FORRIGE			##	Returnerer obligasjonsdatoen som kommer
før oppgjørsdatoen
CUMIPMT			= SAMLET.RENTE				##	Returnerer den kumulative renten som er
betalt mellom to perioder
CUMPRINC		= SAMLET.HOVEDSTOL			##	Returnerer den kumulative hovedstolen som
er betalt for et lån mellom to perioder
DB			= DAVSKR				##	Returnerer avskrivningen for et aktivum i en angitt
periode, foretatt med fast degressiv avskrivning
DDB			= DEGRAVS				##	Returnerer avskrivningen for et aktivum for en gitt
periode, ved hjelp av dobbel degressiv avskrivning eller en metode som du
selv angir
DISC			= DISKONTERT				##	Returnerer diskonteringsraten for et verdipapir
DOLLARDE		= DOLLARDE				##	Konverterer en valutapris uttrykt som en brøk,
til en valutapris uttrykt som et desimaltall
DOLLARFR		= DOLLARBR				##	Konverterer en valutapris uttrykt som et
desimaltall, til en valutapris uttrykt som en brøk
DURATION		= VARIGHET				##	Returnerer årlig varighet for et verdipapir med
renter som betales periodisk
EFFECT			= EFFEKTIV.RENTE			##	Returnerer den effektive årlige rentesatsen
FV			= SLUTTVERDI				##	Returnerer fremtidig verdi for en investering
FVSCHEDULE		= SVPLAN				##	Returnerer den fremtidige verdien av en
inngående hovedstol etter å ha anvendt en serie med sammensatte
rentesatser
INTRATE			= RENTESATS				##	Returnerer rentefoten av et fullfinansiert
verdipapir
IPMT			= RAVDRAG				##	Returnerer betalte renter på en investering for en
gitt periode
IRR			= IR					##	Returnerer internrenten for en serie kontantstrømmer
ISPMT			= ER.AVDRAG				##	Beregner renten som er betalt for en investering
i løpet av en bestemt periode
MDURATION		= MVARIGHET				##	Returnerer Macauleys modifiserte varighet for
et verdipapir med en antatt pålydende verdi på kr 100,00
MIRR			= MODIR					##	Returnerer internrenten der positive og negative
kontantstrømmer finansieres med forskjellige satser
NOMINAL			= NOMINELL				##	Returnerer årlig nominell rentesats
NPER			= PERIODER				##	Returnerer antall perioder for en investering
NPV			= NNV					##	Returnerer netto nåverdi for en investering, basert på
en serie periodiske kontantstrømmer og en rentesats
ODDFPRICE		= AVVIKFP.PRIS				##	Returnerer pris pålydende kr 100 for et
verdipapir med en odde første periode
ODDFYIELD		= AVVIKFP.AVKASTNING			##	Returnerer avkastingen for et
verdipapir med en odde første periode
ODDLPRICE		= AVVIKSP.PRIS				##	Returnerer pris pålydende kr 100 for et
verdipapir med en odde siste periode
ODDLYIELD		= AVVIKSP.AVKASTNING			##	Returnerer avkastingen for et
verdipapir med en odde siste periode
PMT			= AVDRAG				##	Returnerer periodisk betaling for en annuitet
PPMT			= AMORT					##	Returnerer betalingen på hovedstolen for en
investering i en gitt periode
PRICE			= PRIS					##	Returnerer prisen per pålydende kr 100 for et
verdipapir som gir periodisk avkastning
PRICEDISC		= PRIS.DISKONTERT			##	Returnerer prisen per pålydende kr 100
for et diskontert verdipapir
PRICEMAT		= PRIS.FORFALL				##	Returnerer prisen per pålydende kr 100 av
et verdipapir som betaler rente ved forfall
PV			= NÅVERDI				##	Returnerer nåverdien av en investering
RATE			= RENTE					##	Returnerer rentesatsen per periode for en annuitet
RECEIVED		= MOTTATT.AVKAST			##	Returnerer summen som mottas ved
forfallsdato for et fullinvestert verdipapir
SLN			= LINAVS				##	Returnerer den lineære avskrivningen for et aktivum i
én periode
SYD			= ÅRSAVS				##	Returnerer årsavskrivningen for et aktivum i en
angitt periode
TBILLEQ			= TBILLEKV				##	Returnerer den obligasjonsekvivalente
avkastningen for en statsobligasjon
TBILLPRICE		= TBILLPRIS				##	Returnerer prisen per pålydende kr 100 for
en statsobligasjon
TBILLYIELD		= TBILLAVKASTNING			##	Returnerer avkastningen til en
statsobligasjon
VDB			= VERDIAVS				##	Returnerer avskrivningen for et aktivum i en angitt
periode eller delperiode, ved hjelp av degressiv avskrivning
XIRR			= XIR					##	Returnerer internrenten for en serie kontantstrømmer
som ikke nødvendigvis er periodiske
XNPV			= XNNV					##	Returnerer netto nåverdi for en serie
kontantstrømmer som ikke nødvendigvis er periodiske
YIELD			= AVKAST				##	Returnerer avkastningen på et verdipapir som
betaler periodisk rente
YIELDDISC		= AVKAST.DISKONTERT			##	Returnerer årlig avkastning for et
diskontert verdipapir, for eksempel en statskasseveksel
YIELDMAT		= AVKAST.FORFALL			##	Returnerer den årlige avkastningen for et
verdipapir som betaler rente ved forfallsdato


##
##	Information functions					Informasjonsfunksjoner
##
CELL			= CELLE					##	Returnerer informasjon om formatering, plassering
eller innholdet til en celle
ERROR.TYPE		= FEIL.TYPE				##	Returnerer et tall som svarer til en feiltype
INFO			= INFO					##	Returnerer informasjon om gjeldende operativmiljø
ISBLANK			= ERTOM					##	Returnerer SANN hvis verdien er tom
ISERR			= ERFEIL				##	Returnerer SANN hvis verdien er en hvilken som helst
annen feilverdi enn #I/T
ISERROR			= ERFEIL				##	Returnerer SANN hvis verdien er en hvilken som
helst feilverdi
ISEVEN			= ERPARTALL				##	Returnerer SANN hvis tallet er et partall
ISLOGICAL		= ERLOGISK				##	Returnerer SANN hvis verdien er en logisk verdi
ISNA			= ERIT					##	Returnerer SANN hvis verdien er feilverdien #I/T
ISNONTEXT		= ERIKKETEKST				##	Returnerer SANN hvis verdien ikke er tekst
ISNUMBER		= ERTALL				##	Returnerer SANN hvis verdien er et tall
ISODD			= ERODDETALL				##	Returnerer SANN hvis tallet er et oddetall
ISREF			= ERREF					##	Returnerer SANN hvis verdien er en referanse
ISTEXT			= ERTEKST				##	Returnerer SANN hvis verdien er tekst
N			= N					##	Returnerer en verdi som er konvertert til et tall
NA			= IT					##	Returnerer feilverdien #I/T
TYPE			= VERDITYPE				##	Returnerer et tall som indikerer datatypen til en
verdi


##
##	Logical functions					Logiske funksjoner
##
AND			= OG					##	Returnerer SANN hvis alle argumentene er lik SANN
FALSE			= USANN					##	Returnerer den logiske verdien USANN
IF			= HVIS					##	Angir en logisk test som skal utføres
IFERROR			= HVISFEIL				##	Returnerer en verdi du angir hvis en formel
evaluerer til en feil. Ellers returnerer den resultatet av formelen.
NOT			= IKKE					##	Reverserer logikken til argumentet
OR			= ELLER					##	Returnerer SANN hvis ett eller flere argumenter er lik
SANN
TRUE			= SANN					##	Returnerer den logiske verdien SANN


##
##	Lookup and reference functions				Oppslag- og referansefunksjoner
##
ADDRESS			= ADRESSE				##	Returnerer en referanse som tekst til en enkelt
celle i et regneark
AREAS			= OMRÅDER				##	Returnerer antall områder i en referanse
CHOOSE			= VELG					##	Velger en verdi fra en liste med verdier
COLUMN			= KOLONNE				##	Returnerer kolonnenummeret for en referanse
COLUMNS			= KOLONNER				##	Returnerer antall kolonner i en referanse
HLOOKUP			= FINN.KOLONNE				##	Leter i den øverste raden i en matrise og
returnerer verdien for den angitte cellen
HYPERLINK		= HYPERKOBLING				##	Oppretter en snarvei eller et hopp som
åpner et dokument som er lagret på en nettverksserver, et intranett eller
Internett
INDEX			= INDEKS				##	Bruker en indeks til å velge en verdi fra en
referanse eller matrise
INDIRECT		= INDIREKTE				##	Returnerer en referanse angitt av en tekstverdi
LOOKUP			= SLÅ.OPP				##	Slår opp verdier i en vektor eller matrise
MATCH			= SAMMENLIGNE				##	Slår opp verdier i en referanse eller matrise
OFFSET			= FORSKYVNING				##	Returnerer en referanseforskyvning fra en gitt
referanse
ROW			= RAD					##	Returnerer radnummeret for en referanse
ROWS			= RADER					##	Returnerer antall rader i en referanse
RTD			= RTD					##	Henter sanntidsdata fra et program som støtter
COM-automatisering (automatisering: En måte å arbeide på med
programobjekter fra et annet program- eller utviklingsverktøy. Tidligere
kalt OLE-automatisering. Automatisering er en bransjestandard og en
funksjon i Component Object Model (COM).)
TRANSPOSE		= TRANSPONER				##	Returnerer transponeringen av en matrise
VLOOKUP			= FINN.RAD				##	Leter i den første kolonnen i en matrise og
flytter bortover raden for å returnere verdien til en celle


##
##	Math and trigonometry functions				Matematikk- og trigonometrifunksjoner
##
ABS			= ABS					##	Returnerer absoluttverdien til et tall
ACOS			= ARCCOS				##	Returnerer arcus cosinus til et tall
ACOSH			= ARCCOSH				##	Returnerer den inverse hyperbolske cosinus til et
tall
ASIN			= ARCSIN				##	Returnerer arcus sinus til et tall
ASINH			= ARCSINH				##	Returnerer den inverse hyperbolske sinus til et
tall
ATAN			= ARCTAN				##	Returnerer arcus tangens til et tall
ATAN2			= ARCTAN2				##	Returnerer arcus tangens fra x- og y-koordinater
ATANH			= ARCTANH				##	Returnerer den inverse hyperbolske tangens til et
tall
CEILING			= AVRUND.GJELDENDE.MULTIPLUM		##	Runder av et tall til nærmeste
heltall eller til nærmeste signifikante multiplum
COMBIN			= KOMBINASJON				##	Returnerer antall kombinasjoner for ett gitt
antall objekter
COS			= COS					##	Returnerer cosinus til et tall
COSH			= COSH					##	Returnerer den hyperbolske cosinus til et tall
DEGREES			= GRADER				##	Konverterer radianer til grader
EVEN			= AVRUND.TIL.PARTALL			##	Runder av et tall oppover til nærmeste
heltall som er et partall
EXP			= EKSP					##	Returnerer e opphøyd i en angitt potens
FACT			= FAKULTET				##	Returnerer fakultet til et tall
FACTDOUBLE		= DOBBELFAKT				##	Returnerer et talls doble fakultet
FLOOR			= AVRUND.GJELDENDE.MULTIPLUM.NED	##	Avrunder et tall nedover, mot
null
GCD			= SFF					##	Returnerer høyeste felles divisor
INT			= HELTALL				##	Avrunder et tall nedover til nærmeste heltall
LCM			= MFM					##	Returnerer minste felles multiplum
LN			= LN					##	Returnerer den naturlige logaritmen til et tall
LOG			= LOG					##	Returnerer logaritmen for et tall til et angitt
grunntall
LOG10			= LOG10					##	Returnerer logaritmen med grunntall 10 for et tall
MDETERM			= MDETERM				##	Returnerer matrisedeterminanten til en matrise
MINVERSE		= MINVERS				##	Returnerer den inverse matrisen til en matrise
MMULT			= MMULT					##	Returnerer matriseproduktet av to matriser
MOD			= REST					##	Returnerer resten fra en divisjon
MROUND			= MRUND					##	Returnerer et tall avrundet til det ønskede
multiplum
MULTINOMIAL		= MULTINOMINELL				##	Returnerer det multinominelle for et
sett med tall
ODD			= AVRUND.TIL.ODDETALL			##	Runder av et tall oppover til nærmeste
heltall som er et oddetall
PI			= PI					##	Returnerer verdien av pi
POWER			= OPPHØYD.I				##	Returnerer resultatet av et tall opphøyd i en
potens
PRODUCT			= PRODUKT				##	Multipliserer argumentene
QUOTIENT		= KVOTIENT				##	Returnerer heltallsdelen av en divisjon
RADIANS			= RADIANER				##	Konverterer grader til radianer
RAND			= TILFELDIG				##	Returnerer et tilfeldig tall mellom 0 og 1
RANDBETWEEN		= TILFELDIGMELLOM			##	Returnerer et tilfeldig tall innenfor
et angitt område
ROMAN			= ROMERTALL				##	Konverterer vanlige tall til romertall, som tekst
ROUND			= AVRUND				##	Avrunder et tall til et angitt antall sifre
ROUNDDOWN		= AVRUND.NED				##	Avrunder et tall nedover, mot null
ROUNDUP			= AVRUND.OPP				##	Runder av et tall oppover, bort fra null
SERIESSUM		= SUMMER.REKKE				##	Returnerer summen av en geometrisk rekke,
basert på formelen
SIGN			= FORTEGN				##	Returnerer fortegnet for et tall
SIN			= SIN					##	Returnerer sinus til en gitt vinkel
SINH			= SINH					##	Returnerer den hyperbolske sinus til et tall
SQRT			= ROT					##	Returnerer en positiv kvadratrot
SQRTPI			= ROTPI					##	Returnerer kvadratroten av (tall * pi)
SUBTOTAL		= DELSUM				##	Returnerer en delsum i en liste eller database
SUM			= SUMMER				##	Legger sammen argumentene
SUMIF			= SUMMERHVIS				##	Legger sammen cellene angitt ved et gitt vilkår
SUMIFS			= SUMMER.HVIS.SETT			##	Legger sammen cellene i et område som
oppfyller flere vilkår
SUMPRODUCT		= SUMMERPRODUKT				##	Returnerer summen av produktene av
tilsvarende matrisekomponenter
SUMSQ			= SUMMERKVADRAT				##	Returnerer kvadratsummen av argumentene
SUMX2MY2		= SUMMERX2MY2				##	Returnerer summen av differansen av
kvadratene for tilsvarende verdier i to matriser
SUMX2PY2		= SUMMERX2PY2				##	Returnerer summen av kvadratsummene for
tilsvarende verdier i to matriser
SUMXMY2			= SUMMERXMY2				##	Returnerer summen av kvadratene av differansen
for tilsvarende verdier i to matriser
TAN			= TAN					##	Returnerer tangens for et tall
TANH			= TANH					##	Returnerer den hyperbolske tangens for et tall
TRUNC			= AVKORT				##	Korter av et tall til et heltall


##
##	Statistical functions					Statistiske funksjoner
##
AVEDEV			= GJENNOMSNITTSAVVIK			##	Returnerer datapunktenes
gjennomsnittlige absoluttavvik fra middelverdien
AVERAGE			= GJENNOMSNITT				##	Returnerer gjennomsnittet for argumentene
AVERAGEA		= GJENNOMSNITTA				##	Returnerer gjennomsnittet for argumentene,
inkludert tall, tekst og logiske verdier
AVERAGEIF		= GJENNOMSNITTHVIS			##	Returnerer gjennomsnittet (aritmetisk
gjennomsnitt) av alle cellene i et område som oppfyller et bestemt vilkår
AVERAGEIFS		= GJENNOMSNITT.HVIS.SETT		##	Returnerer gjennomsnittet
(aritmetisk middelverdi) av alle celler som oppfyller flere vilkår.
BETADIST		= BETA.FORDELING			##	Returnerer den kumulative
betafordelingsfunksjonen
BETAINV			= INVERS.BETA.FORDELING			##	Returnerer den inverse verdien til
fordelingsfunksjonen for en angitt betafordeling
BINOMDIST		= BINOM.FORDELING			##	Returnerer den individuelle binomiske
sannsynlighetsfordelingen
CHIDIST			= KJI.FORDELING				##	Returnerer den ensidige sannsynligheten for
en kjikvadrert fordeling
CHIINV			= INVERS.KJI.FORDELING			##	Returnerer den inverse av den ensidige
sannsynligheten for den kjikvadrerte fordelingen
CHITEST			= KJI.TEST				##	Utfører testen for uavhengighet
CONFIDENCE		= KONFIDENS				##	Returnerer konfidensintervallet til
gjennomsnittet for en populasjon
CORREL			= KORRELASJON				##	Returnerer korrelasjonskoeffisienten mellom to
datasett
COUNT			= ANTALL				##	Teller hvor mange tall som er i argumentlisten
COUNTA			= ANTALLA				##	Teller hvor mange verdier som er i argumentlisten
COUNTBLANK		= TELLBLANKE				##	Teller antall tomme celler i et område.
COUNTIF			= ANTALL.HVIS				##	Teller antall celler i et område som
oppfyller gitte vilkår
COUNTIFS		= ANTALL.HVIS.SETT			##	Teller antallet ikke-tomme celler i et
område som oppfyller flere vilkår
COVAR			= KOVARIANS				##	Returnerer kovariansen, gjennomsnittet av
produktene av parvise avvik
CRITBINOM		= GRENSE.BINOM				##	Returnerer den minste verdien der den
kumulative binomiske fordelingen er mindre enn eller lik en vilkårsverdi
DEVSQ			= AVVIK.KVADRERT			##	Returnerer summen av kvadrerte avvik
EXPONDIST		= EKSP.FORDELING			##	Returnerer eksponentialfordelingen
FDIST			= FFORDELING				##	Returnerer F-sannsynlighetsfordelingen
FINV			= FFORDELING.INVERS			##	Returnerer den inverse av den sannsynlige
F-fordelingen
FISHER			= FISHER				##	Returnerer Fisher-transformasjonen
FISHERINV		= FISHERINV				##	Returnerer den inverse av
Fisher-transformasjonen
FORECAST		= PROGNOSE				##	Returnerer en verdi langs en lineær trend
FREQUENCY		= FREKVENS				##	Returnerer en frekvensdistribusjon som en
loddrett matrise
FTEST			= FTEST					##	Returnerer resultatet av en F-test
GAMMADIST		= GAMMAFORDELING			##	Returnerer gammafordelingen
GAMMAINV		= GAMMAINV				##	Returnerer den inverse av den gammakumulative
fordelingen
GAMMALN			= GAMMALN				##	Returnerer den naturlige logaritmen til
gammafunksjonen G(x)
GEOMEAN			= GJENNOMSNITT.GEOMETRISK		##	Returnerer den geometriske
middelverdien
GROWTH			= VEKST					##	Returnerer verdier langs en eksponentiell trend
HARMEAN			= GJENNOMSNITT.HARMONISK		##	Returnerer den harmoniske
middelverdien
HYPGEOMDIST		= HYPGEOM.FORDELING			##	Returnerer den hypergeometriske
fordelingen
INTERCEPT		= SKJÆRINGSPUNKT			##	Returnerer skjæringspunktet til den
lineære regresjonslinjen
KURT			= KURT					##	Returnerer kurtosen til et datasett
LARGE			= N.STØRST				##	Returnerer den n-te største verdien i et
datasett
LINEST			= RETTLINJE				##	Returnerer parameterne til en lineær trend
LOGEST			= KURVE					##	Returnerer parameterne til en eksponentiell trend
LOGINV			= LOGINV				##	Returnerer den inverse lognormale fordelingen
LOGNORMDIST		= LOGNORMFORD				##	Returnerer den kumulative lognormale
fordelingen
MAX			= STØRST				##	Returnerer maksimumsverdien i en argumentliste
MAXA			= MAKSA					##	Returnerer maksimumsverdien i en argumentliste,
inkludert tall, tekst og logiske verdier
MEDIAN			= MEDIAN				##	Returnerer medianen til tallene som er gitt
MIN			= MIN					##	Returnerer minimumsverdien i en argumentliste
MINA			= MINA					##	Returnerer den minste verdien i en argumentliste,
inkludert tall, tekst og logiske verdier
MODE			= MODUS					##	Returnerer den vanligste verdien i et datasett
NEGBINOMDIST		= NEGBINOM.FORDELING			##	Returnerer den negative binomiske
fordelingen
NORMDIST		= NORMALFORDELING			##	Returnerer den kumulative
normalfordelingen
NORMINV			= NORMINV				##	Returnerer den inverse kumulative
normalfordelingen
NORMSDIST		= NORMSFORDELING			##	Returnerer standard kumulativ
normalfordeling
NORMSINV		= NORMSINV				##	Returnerer den inverse av den den kumulative
standard normalfordelingen
PEARSON			= PEARSON				##	Returnerer
produktmomentkorrelasjonskoeffisienten, Pearson
PERCENTILE		= PERSENTIL				##	Returnerer den n-te persentil av verdiene i
et område
PERCENTRANK		= PROSENTDEL				##	Returnerer prosentrangeringen av en verdi i
et datasett
PERMUT			= PERMUTER				##	Returnerer antall permutasjoner for et gitt
antall objekter
POISSON			= POISSON				##	Returnerer Poissons sannsynlighetsfordeling
PROB			= SANNSYNLIG				##	Returnerer sannsynligheten for at verdier i et
område ligger mellom to grenser
QUARTILE		= KVARTIL				##	Returnerer kvartilen til et datasett
RANK			= RANG					##	Returnerer rangeringen av et tall, eller plassen
tallet har i en rekke
RSQ			= RKVADRAT				##	Returnerer kvadratet av
produktmomentkorrelasjonskoeffisienten (Pearsons r)
SKEW			= SKJEVFORDELING			##	Returnerer skjevheten i en fordeling
SLOPE			= STIGNINGSTALL				##	Returnerer stigningtallet for den lineære
regresjonslinjen
SMALL			= N.MINST				##	Returnerer den n-te minste verdien i et datasett
STANDARDIZE		= NORMALISER				##	Returnerer en normalisert verdi
STDEV			= STDAV					##	Estimere standardavvik på grunnlag av et utvalg
STDEVA			= STDAVVIKA				##	Estimerer standardavvik basert på et utvalg,
inkludert tall, tekst og logiske verdier
STDEVP			= STDAVP				##	Beregner standardavvik basert på hele populasjonen
STDEVPA			= STDAVVIKPA				##	Beregner standardavvik basert på hele
populasjonen, inkludert tall, tekst og logiske verdier
STEYX			= STANDARDFEIL				##	Returnerer standardfeilen for den predikerte
y-verdien for hver x i regresjonen
TDIST			= TFORDELING				##	Returnerer en Student t-fordeling
TINV			= TINV					##	Returnerer den inverse Student t-fordelingen
TREND			= TREND					##	Returnerer verdier langs en lineær trend
TRIMMEAN		= TRIMMET.GJENNOMSNITT			##	Returnerer den interne middelverdien
til et datasett
TTEST			= TTEST					##	Returnerer sannsynligheten assosiert med en Student
t-test
VAR			= VARIANS				##	Estimerer varians basert på et utvalg
VARA			= VARIANSA				##	Estimerer varians basert på et utvalg, inkludert
tall, tekst og logiske verdier
VARP			= VARIANSP				##	Beregner varians basert på hele populasjonen
VARPA			= VARIANSPA				##	Beregner varians basert på hele populasjonen,
inkludert tall, tekst og logiske verdier
WEIBULL			= WEIBULL.FORDELING			##	Returnerer Weibull-fordelingen
ZTEST			= ZTEST					##	Returnerer den ensidige sannsynlighetsverdien for en
z-test


##
##	Text functions						Tekstfunksjoner
##
ASC			= STIGENDE				##	Endrer fullbreddes (dobbeltbyte) engelske bokstaver
eller katakana i en tegnstreng, til halvbreddes (enkeltbyte) tegn
BAHTTEXT		= BAHTTEKST				##	Konverterer et tall til tekst, og bruker
valutaformatet ß (baht)
CHAR			= TEGNKODE				##	Returnerer tegnet som svarer til kodenummeret
CLEAN			= RENSK					##	Fjerner alle tegn som ikke kan skrives ut, fra
teksten
CODE			= KODE					##	Returnerer en numerisk kode for det første tegnet i
en tekststreng
CONCATENATE		= KJEDE.SAMMEN				##	Slår sammen flere tekstelementer til ett
tekstelement
DOLLAR			= VALUTA				##	Konverterer et tall til tekst, og bruker
valutaformatet $ (dollar)
EXACT			= EKSAKT				##	Kontrollerer om to tekstverdier er like
FIND			= FINN					##	Finner en tekstverdi inne i en annen (skiller mellom
store og små bokstaver)
FINDB			= FINNB					##	Finner en tekstverdi inne i en annen (skiller mellom
store og små bokstaver)
FIXED			= FASTSATT				##	Formaterer et tall som tekst med et bestemt antall
desimaler
JIS			= JIS					##	Endrer halvbreddes (enkeltbyte) engelske bokstaver eller
katakana i en tegnstreng, til fullbreddes (dobbeltbyte) tegn
LEFT			= VENSTRE				##	Returnerer tegnene lengst til venstre i en
tekstverdi
LEFTB			= VENSTREB				##	Returnerer tegnene lengst til venstre i en
tekstverdi
LEN			= LENGDE				##	Returnerer antall tegn i en tekststreng
LENB			= LENGDEB				##	Returnerer antall tegn i en tekststreng
LOWER			= SMÅ					##	Konverterer tekst til små bokstaver
MID			= DELTEKST				##	Returnerer et angitt antall tegn fra en tekststreng,
og begynner fra posisjonen du angir
MIDB			= DELTEKSTB				##	Returnerer et angitt antall tegn fra en
tekststreng, og begynner fra posisjonen du angir
PHONETIC		= FURIGANA				##	Trekker ut fonetiske tegn (furigana) fra en
tekststreng
PROPER			= STOR.FORBOKSTAV			##	Gir den første bokstaven i hvert ord i en
tekstverdi stor forbokstav
REPLACE			= ERSTATT				##	Erstatter tegn i en tekst
REPLACEB		= ERSTATTB				##	Erstatter tegn i en tekst
REPT			= GJENTA				##	Gjentar tekst et gitt antall ganger
RIGHT			= HØYRE					##	Returnerer tegnene lengst til høyre i en
tekstverdi
RIGHTB			= HØYREB				##	Returnerer tegnene lengst til høyre i en
tekstverdi
SEARCH			= SØK					##	Finner en tekstverdi inne i en annen (skiller ikke
mellom store og små bokstaver)
SEARCHB			= SØKB					##	Finner en tekstverdi inne i en annen (skiller ikke
mellom store og små bokstaver)
SUBSTITUTE		= BYTT.UT				##	Bytter ut gammel tekst med ny tekst i en
tekststreng
T			= T					##	Konverterer argumentene til tekst
TEXT			= TEKST					##	Formaterer et tall og konverterer det til tekst
TRIM			= TRIMME				##	Fjerner mellomrom fra tekst
UPPER			= STORE					##	Konverterer tekst til store bokstaver
VALUE			= VERDI					##	Konverterer et tekstargument til et tall
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/locale/pl/config000064400000000361151165413750024041
0ustar00##
## PhpSpreadsheet
##

ArgumentSeparator	= ;


##
##	(For future use)
##
currencySymbol	= zł


##
##	Excel Error Codes	(For future use)

##
NULL	= #ZERO!
DIV0	= #DZIEL/0!
VALUE	= #ARG!
REF	= #ADR!
NAME	= #NAZWA?
NUM	= #LICZBA!
NA	= #N/D!
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/locale/pl/functions000064400000076367151165413750024627
0ustar00##
## PhpSpreadsheet
##
## Data in this file derived from
https://www.excel-function-translation.com/
##
##


##
##	Add-in and Automation functions			Funkcje dodatków i automatyzacji
##
GETPIVOTDATA		= WEŹDANETABELI			##	Zwraca dane przechowywane w raporcie
tabeli przestawnej.


##
##	Cube functions					Funkcje modułów
##
CUBEKPIMEMBER		= ELEMENT.KPI.MODUŁU		##	Zwraca nazwę, właściwość i
miarę kluczowego wskaźnika wydajności (KPI) oraz wyświetla nazwę i
właściwość w komórce. Wskaźnik KPI jest miarą ilościową, taką jak
miesięczny zysk brutto lub kwartalna fluktuacja pracowników, używaną do
monitorowania wydajności organizacji.
CUBEMEMBER		= ELEMENT.MODUŁU		##	Zwraca element lub krotkę z hierarchii
modułu. Służy do sprawdzania, czy element lub krotka istnieje w module.
CUBEMEMBERPROPERTY	= WŁAŚCIWOŚĆ.ELEMENTU.MODUŁU	##	Zwraca wartość
właściwości elementu w module. Służy do sprawdzania, czy nazwa
elementu istnieje w module, i zwracania określonej właściwości dla tego
elementu.
CUBERANKEDMEMBER	= USZEREGOWANY.ELEMENT.MODUŁU	##	Zwraca n-ty (albo
uszeregowany) element zestawu. Służy do zwracania elementu lub elementów
zestawu, na przykład najlepszego sprzedawcy lub 10 najlepszych studentów.
CUBESET			= ZESTAW.MODUŁÓW		##	Definiuje obliczony zestaw elementów lub
krotek, wysyłając wyrażenie zestawu do serwera modułu, który tworzy
zestaw i zwraca go do programu Microsoft Office Excel.
CUBESETCOUNT		= LICZNIK.MODUŁÓW.ZESTAWU	##	Zwraca liczbę elementów
zestawu.
CUBEVALUE		= WARTOŚĆ.MODUŁU		##	Zwraca zagregowaną wartość z modułu.


##
##	Database functions				Funkcje baz danych
##
DAVERAGE		= BD.ŚREDNIA			##	Zwraca wartość średniej wybranych wpisów
bazy danych.
DCOUNT			= BD.ILE.REKORDÓW		##	Zlicza komórki zawierające liczby w bazie
danych.
DCOUNTA			= BD.ILE.REKORDÓW.A		##	Zlicza niepuste komórki w bazie danych.
DGET			= BD.POLE			##	Wyodrębnia z bazy danych jeden rekord spełniający
określone kryteria.
DMAX			= BD.MAX			##	Zwraca wartość maksymalną z wybranych wpisów bazy
danych.
DMIN			= BD.MIN			##	Zwraca wartość minimalną z wybranych wpisów bazy
danych.
DPRODUCT		= BD.ILOCZYN			##	Mnoży wartości w konkretnym, spełniającym
kryteria polu rekordów bazy danych.
DSTDEV			= BD.ODCH.STANDARD		##	Szacuje odchylenie standardowe na podstawie
próbki z wybranych wpisów bazy danych.
DSTDEVP			= BD.ODCH.STANDARD.POPUL	##	Oblicza odchylenie standardowe na
podstawie całej populacji wybranych wpisów bazy danych.
DSUM			= BD.SUMA			##	Dodaje liczby w kolumnie pól rekordów bazy danych,
które spełniają kryteria.
DVAR			= BD.WARIANCJA			##	Szacuje wariancję na podstawie próbki z
wybranych wpisów bazy danych.
DVARP			= BD.WARIANCJA.POPUL		##	Oblicza wariancję na podstawie całej
populacji wybranych wpisów bazy danych.


##
##	Date and time functions				Funkcje dat, godzin i czasu
##
DATE			= DATA				##	Zwraca liczbę seryjną dla wybranej daty.
DATEVALUE		= DATA.WARTOŚĆ			##	Konwertuje datę w formie tekstu na
liczbę seryjną.
DAY			= DZIEŃ				##	Konwertuje liczbę seryjną na dzień miesiąca.
DAYS360			= DNI.360			##	Oblicza liczbę dni między dwiema datami na
podstawie roku 360-dniowego.
EDATE			= UPŁDNI			##	Zwraca liczbę seryjną daty jako wskazaną liczbę
miesięcy przed określoną datą początkową lub po niej.
EOMONTH			= EOMONTH			##	Zwraca liczbę seryjną ostatniego dnia miesiąca
przed określoną liczbą miesięcy lub po niej.
HOUR			= GODZINA			##	Konwertuje liczbę seryjną na godzinę.
MINUTE			= MINUTA			##	Konwertuje liczbę seryjną na minutę.
MONTH			= MIESIĄC			##	Konwertuje liczbę seryjną na miesiąc.
NETWORKDAYS		= NETWORKDAYS			##	Zwraca liczbę pełnych dni roboczych
między dwiema datami.
NOW			= TERAZ				##	Zwraca liczbę seryjną bieżącej daty i godziny.
SECOND			= SEKUNDA			##	Konwertuje liczbę seryjną na sekundę.
TIME			= CZAS				##	Zwraca liczbę seryjną określonego czasu.
TIMEVALUE		= CZAS.WARTOŚĆ			##	Konwertuje czas w formie tekstu na liczbę
seryjną.
TODAY			= DZIŚ				##	Zwraca liczbę seryjną dla daty bieżącej.
WEEKDAY			= DZIEŃ.TYG			##	Konwertuje liczbę seryjną na dzień tygodnia.
WEEKNUM			= WEEKNUM			##	Konwertuje liczbę seryjną na liczbę
reprezentującą numer tygodnia w roku.
WORKDAY			= WORKDAY			##	Zwraca liczbę seryjną dla daty przed określoną
liczbą dni roboczych lub po niej.
YEAR			= ROK				##	Konwertuje liczbę seryjną na rok.
YEARFRAC		= YEARFRAC			##	Zwraca część roku reprezentowaną przez
pełną liczbę dni między datą początkową a datą końcową.


##
##	Engineering functions				Funkcje inżynierskie
##
BESSELI			= BESSELI			##	Zwraca wartość zmodyfikowanej funkcji Bessela
In(x).
BESSELJ			= BESSELJ			##	Zwraca wartość funkcji Bessela Jn(x).
BESSELK			= BESSELK			##	Zwraca wartość zmodyfikowanej funkcji Bessela
Kn(x).
BESSELY			= BESSELY			##	Zwraca wartość funkcji Bessela Yn(x).
BIN2DEC			= BIN2DEC			##	Konwertuje liczbę w postaci dwójkowej na liczbę
w postaci dziesiętnej.
BIN2HEX			= BIN2HEX			##	Konwertuje liczbę w postaci dwójkowej na liczbę
w postaci szesnastkowej.
BIN2OCT			= BIN2OCT			##	Konwertuje liczbę w postaci dwójkowej na liczbę
w postaci ósemkowej.
COMPLEX			= COMPLEX			##	Konwertuje część rzeczywistą i urojoną na
liczbę zespoloną.
CONVERT			= CONVERT			##	Konwertuje liczbę z jednego systemu miar na inny.
DEC2BIN			= DEC2BIN			##	Konwertuje liczbę w postaci dziesiętnej na
postać dwójkową.
DEC2HEX			= DEC2HEX			##	Konwertuje liczbę w postaci dziesiętnej na
liczbę w postaci szesnastkowej.
DEC2OCT			= DEC2OCT			##	Konwertuje liczbę w postaci dziesiętnej na
liczbę w postaci ósemkowej.
DELTA			= DELTA				##	Sprawdza, czy dwie wartości są równe.
ERF			= ERF				##	Zwraca wartość funkcji błędu.
ERFC			= ERFC				##	Zwraca wartość komplementarnej funkcji błędu.
GESTEP			= GESTEP			##	Sprawdza, czy liczba jest większa niż wartość
progowa.
HEX2BIN			= HEX2BIN			##	Konwertuje liczbę w postaci szesnastkowej na
liczbę w postaci dwójkowej.
HEX2DEC			= HEX2DEC			##	Konwertuje liczbę w postaci szesnastkowej na
liczbę w postaci dziesiętnej.
HEX2OCT			= HEX2OCT			##	Konwertuje liczbę w postaci szesnastkowej na
liczbę w postaci ósemkowej.
IMABS			= IMABS				##	Zwraca wartość bezwzględną (moduł) liczby
zespolonej.
IMAGINARY		= IMAGINARY			##	Zwraca wartość części urojonej liczby
zespolonej.
IMARGUMENT		= IMARGUMENT			##	Zwraca wartość argumentu liczby zespolonej,
przy czym kąt wyrażony jest w radianach.
IMCONJUGATE		= IMCONJUGATE			##	Zwraca wartość liczby sprzężonej danej
liczby zespolonej.
IMCOS			= IMCOS				##	Zwraca wartość cosinusa liczby zespolonej.
IMDIV			= IMDIV				##	Zwraca wartość ilorazu dwóch liczb zespolonych.
IMEXP			= IMEXP				##	Zwraca postać wykładniczą liczby zespolonej.
IMLN			= IMLN				##	Zwraca wartość logarytmu naturalnego liczby
zespolonej.
IMLOG10			= IMLOG10			##	Zwraca wartość logarytmu dziesiętnego liczby
zespolonej.
IMLOG2			= IMLOG2			##	Zwraca wartość logarytmu liczby zespolonej przy
podstawie 2.
IMPOWER			= IMPOWER			##	Zwraca wartość liczby zespolonej podniesionej do
potęgi całkowitej.
IMPRODUCT		= IMPRODUCT			##	Zwraca wartość iloczynu liczb zespolonych.
IMREAL			= IMREAL			##	Zwraca wartość części rzeczywistej liczby
zespolonej.
IMSIN			= IMSIN				##	Zwraca wartość sinusa liczby zespolonej.
IMSQRT			= IMSQRT			##	Zwraca wartość pierwiastka kwadratowego z liczby
zespolonej.
IMSUB			= IMSUB				##	Zwraca wartość różnicy dwóch liczb zespolonych.
IMSUM			= IMSUM				##	Zwraca wartość sumy liczb zespolonych.
OCT2BIN			= OCT2BIN			##	Konwertuje liczbę w postaci ósemkowej na liczbę
w postaci dwójkowej.
OCT2DEC			= OCT2DEC			##	Konwertuje liczbę w postaci ósemkowej na liczbę
w postaci dziesiętnej.
OCT2HEX			= OCT2HEX			##	Konwertuje liczbę w postaci ósemkowej na liczbę
w postaci szesnastkowej.


##
##	Financial functions				Funkcje finansowe
##
ACCRINT			= ACCRINT			##	Zwraca narosłe odsetki dla papieru wartościowego
z oprocentowaniem okresowym.
ACCRINTM		= ACCRINTM			##	Zwraca narosłe odsetki dla papieru
wartościowego z oprocentowaniem w terminie wykupu.
AMORDEGRC		= AMORDEGRC			##	Zwraca amortyzację dla każdego okresu
rozliczeniowego z wykorzystaniem współczynnika amortyzacji.
AMORLINC		= AMORLINC			##	Zwraca amortyzację dla każdego okresu
rozliczeniowego.
COUPDAYBS		= COUPDAYBS			##	Zwraca liczbę dni od początku okresu
dywidendy do dnia rozliczeniowego.
COUPDAYS		= COUPDAYS			##	Zwraca liczbę dni w okresie dywidendy, z
uwzględnieniem dnia rozliczeniowego.
COUPDAYSNC		= COUPDAYSNC			##	Zwraca liczbę dni od dnia rozliczeniowego do
daty następnego dnia dywidendy.
COUPNCD			= COUPNCD			##	Zwraca dzień następnej dywidendy po dniu
rozliczeniowym.
COUPNUM			= COUPNUM			##	Zwraca liczbę dywidend płatnych między dniem
rozliczeniowym a dniem wykupu.
COUPPCD			= COUPPCD			##	Zwraca dzień poprzedniej dywidendy przed dniem
rozliczeniowym.
CUMIPMT			= CUMIPMT			##	Zwraca wartość procentu składanego płatnego
między dwoma okresami.
CUMPRINC		= CUMPRINC			##	Zwraca wartość kapitału skumulowanego spłaty
pożyczki między dwoma okresami.
DB			= DB				##	Zwraca amortyzację środka trwałego w danym okresie
metodą degresywną z zastosowaniem stałej bazowej.
DDB			= DDB				##	Zwraca amortyzację środka trwałego za podany okres
metodą degresywną z zastosowaniem podwójnej bazowej lub metodą
określoną przez użytkownika.
DISC			= DISC				##	Zwraca wartość stopy dyskontowej papieru
wartościowego.
DOLLARDE		= DOLLARDE			##	Konwertuje cenę w postaci ułamkowej na cenę
wyrażoną w postaci dziesiętnej.
DOLLARFR		= DOLLARFR			##	Konwertuje cenę wyrażoną w postaci
dziesiętnej na cenę wyrażoną w postaci ułamkowej.
DURATION		= DURATION			##	Zwraca wartość rocznego przychodu z papieru
wartościowego o okresowych wypłatach oprocentowania.
EFFECT			= EFFECT			##	Zwraca wartość efektywnej rocznej stopy
procentowej.
FV			= FV				##	Zwraca przyszłą wartość lokaty.
FVSCHEDULE		= FVSCHEDULE			##	Zwraca przyszłą wartość kapitału
początkowego wraz z szeregiem procentów składanych.
INTRATE			= INTRATE			##	Zwraca wartość stopy procentowej papieru
wartościowego całkowicie ulokowanego.
IPMT			= IPMT				##	Zwraca wysokość spłaty oprocentowania lokaty za dany
okres.
IRR			= IRR				##	Zwraca wartość wewnętrznej stopy zwrotu dla serii
przepływów gotówkowych.
ISPMT			= ISPMT				##	Oblicza wysokość spłaty oprocentowania za dany
okres lokaty.
MDURATION		= MDURATION			##	Zwraca wartość zmodyfikowanego okresu
Macauleya dla papieru wartościowego o założonej wartości nominalnej 100
zł.
MIRR			= MIRR				##	Zwraca wartość wewnętrznej stopy zwrotu dla
przypadku, gdy dodatnie i ujemne przepływy gotówkowe mają różne stopy.
NOMINAL			= NOMINAL			##	Zwraca wysokość nominalnej rocznej stopy
procentowej.
NPER			= NPER				##	Zwraca liczbę okresów dla lokaty.
NPV			= NPV				##	Zwraca wartość bieżącą netto lokaty na podstawie
szeregu okresowych przepływów gotówkowych i stopy dyskontowej.
ODDFPRICE		= ODDFPRICE			##	Zwraca cenę za 100 zł wartości nominalnej
papieru wartościowego z nietypowym pierwszym okresem.
ODDFYIELD		= ODDFYIELD			##	Zwraca rentowność papieru wartościowego z
nietypowym pierwszym okresem.
ODDLPRICE		= ODDLPRICE			##	Zwraca cenę za 100 zł wartości nominalnej
papieru wartościowego z nietypowym ostatnim okresem.
ODDLYIELD		= ODDLYIELD			##	Zwraca rentowność papieru wartościowego z
nietypowym ostatnim okresem.
PMT			= PMT				##	Zwraca wartość okresowej płatności raty rocznej.
PPMT			= PPMT				##	Zwraca wysokość spłaty kapitału w przypadku lokaty
dla danego okresu.
PRICE			= PRICE				##	Zwraca cenę za 100 zł wartości nominalnej papieru
wartościowego z oprocentowaniem okresowym.
PRICEDISC		= PRICEDISC			##	Zwraca cenę za 100 zł wartości nominalnej
papieru wartościowego zdyskontowanego.
PRICEMAT		= PRICEMAT			##	Zwraca cenę za 100 zł wartości nominalnej
papieru wartościowego z oprocentowaniem w terminie wykupu.
PV			= PV				##	Zwraca wartość bieżącą lokaty.
RATE			= RATE				##	Zwraca wysokość stopy procentowej w okresie raty
rocznej.
RECEIVED		= RECEIVED			##	Zwraca wartość kapitału otrzymanego przy
wykupie papieru wartościowego całkowicie ulokowanego.
SLN			= SLN				##	Zwraca amortyzację środka trwałego za jeden okres
metodą liniową.
SYD			= SYD				##	Zwraca amortyzację środka trwałego za dany okres
metodą sumy cyfr lat amortyzacji.
TBILLEQ			= TBILLEQ			##	Zwraca rentowność ekwiwalentu obligacji dla bonu
skarbowego.
TBILLPRICE		= TBILLPRICE			##	Zwraca cenę za 100 zł wartości nominalnej
bonu skarbowego.
TBILLYIELD		= TBILLYIELD			##	Zwraca rentowność bonu skarbowego.
VDB			= VDB				##	Oblicza amortyzację środka trwałego w danym okresie
lub jego części metodą degresywną.
XIRR			= XIRR				##	Zwraca wartość wewnętrznej stopy zwrotu dla serii
rozłożonych w czasie przepływów gotówkowych, niekoniecznie okresowych.
XNPV			= XNPV				##	Zwraca wartość bieżącą netto dla serii
rozłożonych w czasie przepływów gotówkowych, niekoniecznie okresowych.
YIELD			= YIELD				##	Zwraca rentowność papieru wartościowego z
oprocentowaniem okresowym.
YIELDDISC		= YIELDDISC			##	Zwraca roczną rentowność zdyskontowanego
papieru wartościowego, na przykład bonu skarbowego.
YIELDMAT		= YIELDMAT			##	Zwraca roczną rentowność papieru
wartościowego oprocentowanego przy wykupie.


##
##	Information functions				Funkcje informacyjne
##
CELL			= KOMÓRKA			##	Zwraca informacje o formacie, położeniu lub
zawartości komórki.
ERROR.TYPE		= NR.BŁĘDU			##	Zwraca liczbę odpowiadającą typowi
błędu.
INFO			= INFO				##	Zwraca informację o aktualnym środowisku pracy.
ISBLANK			= CZY.PUSTA			##	Zwraca wartość PRAWDA, jeśli wartość jest
pusta.
ISERR			= CZY.BŁ			##	Zwraca wartość PRAWDA, jeśli wartość jest
dowolną wartością błędu, z wyjątkiem #N/D!.
ISERROR			= CZY.BŁĄD			##	Zwraca wartość PRAWDA, jeśli wartość jest
dowolną wartością błędu.
ISEVEN			= ISEVEN			##	Zwraca wartość PRAWDA, jeśli liczba jest
parzysta.
ISLOGICAL		= CZY.LOGICZNA			##	Zwraca wartość PRAWDA, jeśli wartość
jest wartością logiczną.
ISNA			= CZY.BRAK			##	Zwraca wartość PRAWDA, jeśli wartość jest
wartością błędu #N/D!.
ISNONTEXT		= CZY.NIE.TEKST			##	Zwraca wartość PRAWDA, jeśli wartość
nie jest tekstem.
ISNUMBER		= CZY.LICZBA			##	Zwraca wartość PRAWDA, jeśli wartość jest
liczbą.
ISODD			= ISODD				##	Zwraca wartość PRAWDA, jeśli liczba jest
nieparzysta.
ISREF			= CZY.ADR			##	Zwraca wartość PRAWDA, jeśli wartość jest
odwołaniem.
ISTEXT			= CZY.TEKST			##	Zwraca wartość PRAWDA, jeśli wartość jest
tekstem.
N			= L				##	Zwraca wartość przekonwertowaną na postać liczbową.
NA			= BRAK				##	Zwraca wartość błędu #N/D!.
TYPE			= TYP				##	Zwraca liczbę wskazującą typ danych wartości.


##
##	Logical functions				Funkcje logiczne
##
AND			= ORAZ				##	Zwraca wartość PRAWDA, jeśli wszystkie argumenty
mają wartość PRAWDA.
FALSE			= FAŁSZ				##	Zwraca wartość logiczną FAŁSZ.
IF			= JEŻELI			##	Określa warunek logiczny do sprawdzenia.
IFERROR			= JEŻELI.BŁĄD			##	Zwraca określoną wartość, jeśli
wynikiem obliczenia formuły jest błąd; w przeciwnym przypadku zwraca
wynik formuły.
NOT			= NIE				##	Odwraca wartość logiczną argumentu.
OR			= LUB				##	Zwraca wartość PRAWDA, jeśli co najmniej jeden z
argumentów ma wartość PRAWDA.
TRUE			= PRAWDA			##	Zwraca wartość logiczną PRAWDA.


##
##	Lookup and reference functions			Funkcje wyszukiwania i odwołań
##
ADDRESS			= ADRES				##	Zwraca odwołanie do jednej komórki w arkuszu jako
wartość tekstową.
AREAS			= OBSZARY			##	Zwraca liczbę obszarów występujących w
odwołaniu.
CHOOSE			= WYBIERZ			##	Wybiera wartość z listy wartości.
COLUMN			= NR.KOLUMNY			##	Zwraca numer kolumny z odwołania.
COLUMNS			= LICZBA.KOLUMN			##	Zwraca liczbę kolumn dla danego odwołania.
HLOOKUP			= WYSZUKAJ.POZIOMO		##	Przegląda górny wiersz tablicy i zwraca
wartość wskazanej komórki.
HYPERLINK		= HIPERŁĄCZE			##	Tworzy skrót lub skok, który pozwala
otwierać dokument przechowywany na serwerze sieciowym, w sieci intranet
lub w Internecie.
INDEX			= INDEKS			##	Używa indeksu do wybierania wartości z odwołania
lub tablicy.
INDIRECT		= ADR.POŚR			##	Zwraca odwołanie określone przez wartość
tekstową.
LOOKUP			= WYSZUKAJ			##	Wyszukuje wartości w wektorze lub tablicy.
MATCH			= PODAJ.POZYCJĘ			##	Wyszukuje wartości w odwołaniu lub w
tablicy.
OFFSET			= PRZESUNIĘCIE			##	Zwraca adres przesunięty od danego
odwołania.
ROW			= WIERSZ			##	Zwraca numer wiersza odwołania.
ROWS			= ILE.WIERSZY			##	Zwraca liczbę wierszy dla danego odwołania.
RTD			= RTD				##	Pobiera dane w czasie rzeczywistym z programu
obsługującego automatyzację COM (Automatyzacja: Sposób pracy z
obiektami aplikacji pochodzącymi z innej aplikacji lub narzędzia
projektowania. Nazywana wcześniej Automatyzacją OLE, Automatyzacja jest
standardem przemysłowym i funkcją obiektowego modelu składników (COM,
Component Object Model).).
TRANSPOSE		= TRANSPONUJ			##	Zwraca transponowaną tablicę.
VLOOKUP			= WYSZUKAJ.PIONOWO		##	Przeszukuje pierwszą kolumnę tablicy i
przechodzi wzdłuż wiersza, aby zwrócić wartość komórki.


##
##	Math and trigonometry functions			Funkcje matematyczne i
trygonometryczne
##
ABS			= MODUŁ.LICZBY			##	Zwraca wartość absolutną liczby.
ACOS			= ACOS				##	Zwraca arcus cosinus liczby.
ACOSH			= ACOSH				##	Zwraca arcus cosinus hiperboliczny liczby.
ASIN			= ASIN				##	Zwraca arcus sinus liczby.
ASINH			= ASINH				##	Zwraca arcus sinus hiperboliczny liczby.
ATAN			= ATAN				##	Zwraca arcus tangens liczby.
ATAN2			= ATAN2				##	Zwraca arcus tangens liczby na podstawie
współrzędnych x i y.
ATANH			= ATANH				##	Zwraca arcus tangens hiperboliczny liczby.
CEILING			= ZAOKR.W.GÓRĘ			##	Zaokrągla liczbę do najbliższej liczby
całkowitej lub do najbliższej wielokrotności dokładności.
COMBIN			= KOMBINACJE			##	Zwraca liczbę kombinacji dla danej liczby
obiektów.
COS			= COS				##	Zwraca cosinus liczby.
COSH			= COSH				##	Zwraca cosinus hiperboliczny liczby.
DEGREES			= STOPNIE			##	Konwertuje radiany na stopnie.
EVEN			= ZAOKR.DO.PARZ			##	Zaokrągla liczbę w górę do najbliższej
liczby parzystej.
EXP			= EXP				##	Zwraca wartość liczby e podniesionej do potęgi
określonej przez podaną liczbę.
FACT			= SILNIA			##	Zwraca silnię liczby.
FACTDOUBLE		= FACTDOUBLE			##	Zwraca podwójną silnię liczby.
FLOOR			= ZAOKR.W.DÓŁ			##	Zaokrągla liczbę w dół, w kierunku zera.
GCD			= GCD				##	Zwraca największy wspólny dzielnik.
INT			= ZAOKR.DO.CAŁK			##	Zaokrągla liczbę w dół do najbliższej
liczby całkowitej.
LCM			= LCM				##	Zwraca najmniejszą wspólną wielokrotność.
LN			= LN				##	Zwraca logarytm naturalny podanej liczby.
LOG			= LOG				##	Zwraca logarytm danej liczby przy zadanej podstawie.
LOG10			= LOG10				##	Zwraca logarytm dziesiętny liczby.
MDETERM			= WYZNACZNIK.MACIERZY		##	Zwraca wyznacznik macierzy tablicy.
MINVERSE		= MACIERZ.ODW			##	Zwraca odwrotność macierzy tablicy.
MMULT			= MACIERZ.ILOCZYN		##	Zwraca iloczyn macierzy dwóch tablic.
MOD			= MOD				##	Zwraca resztę z dzielenia.
MROUND			= MROUND			##	Zwraca liczbę zaokrągloną do żądanej
wielokrotności.
MULTINOMIAL		= MULTINOMIAL			##	Zwraca wielomian dla zbioru liczb.
ODD			= ZAOKR.DO.NPARZ		##	Zaokrągla liczbę w górę do najbliższej
liczby nieparzystej.
PI			= PI				##	Zwraca wartość liczby Pi.
POWER			= POTĘGA			##	Zwraca liczbę podniesioną do potęgi.
PRODUCT			= ILOCZYN			##	Mnoży argumenty.
QUOTIENT		= QUOTIENT			##	Zwraca iloraz (całkowity).
RADIANS			= RADIANY			##	Konwertuje stopnie na radiany.
RAND			= LOS				##	Zwraca liczbę pseudolosową z zakresu od 0 do 1.
RANDBETWEEN		= RANDBETWEEN			##	Zwraca liczbę pseudolosową z zakresu
określonego przez podane argumenty.
ROMAN			= RZYMSKIE			##	Konwertuje liczbę arabską na rzymską jako tekst.
ROUND			= ZAOKR				##	Zaokrągla liczbę do określonej liczby cyfr.
ROUNDDOWN		= ZAOKR.DÓŁ			##	Zaokrągla liczbę w dół, w kierunku zera.
ROUNDUP			= ZAOKR.GÓRA			##	Zaokrągla liczbę w górę, w kierunku od
zera.
SERIESSUM		= SERIESSUM			##	Zwraca sumę szeregu potęgowego na podstawie
wzoru.
SIGN			= ZNAK.LICZBY			##	Zwraca znak liczby.
SIN			= SIN				##	Zwraca sinus danego kąta.
SINH			= SINH				##	Zwraca sinus hiperboliczny liczby.
SQRT			= PIERWIASTEK			##	Zwraca dodatni pierwiastek kwadratowy.
SQRTPI			= SQRTPI			##	Zwraca pierwiastek kwadratowy iloczynu (liczba *
Pi).
SUBTOTAL		= SUMY.POŚREDNIE		##	Zwraca sumę częściową listy lub bazy
danych.
SUM			= SUMA				##	Dodaje argumenty.
SUMIF			= SUMA.JEŻELI			##	Dodaje komórki określone przez podane
kryterium.
SUMIFS			= SUMA.WARUNKÓW			##	Dodaje komórki w zakresie, które
spełniają wiele kryteriów.
SUMPRODUCT		= SUMA.ILOCZYNÓW		##	Zwraca sumę iloczynów odpowiednich
elementów tablicy.
SUMSQ			= SUMA.KWADRATÓW		##	Zwraca sumę kwadratów argumentów.
SUMX2MY2		= SUMA.X2.M.Y2			##	Zwraca sumę różnic kwadratów odpowiednich
wartości w dwóch tablicach.
SUMX2PY2		= SUMA.X2.P.Y2			##	Zwraca sumę sum kwadratów odpowiednich
wartości w dwóch tablicach.
SUMXMY2			= SUMA.XMY.2			##	Zwraca sumę kwadratów różnic odpowiednich
wartości w dwóch tablicach.
TAN			= TAN				##	Zwraca tangens liczby.
TANH			= TANH				##	Zwraca tangens hiperboliczny liczby.
TRUNC			= LICZBA.CAŁK			##	Przycina liczbę do wartości całkowitej.


##
##	Statistical functions				Funkcje statystyczne
##
AVEDEV			= ODCH.ŚREDNIE			##	Zwraca średnią wartość odchyleń
absolutnych punktów danych od ich wartości średniej.
AVERAGE			= ŚREDNIA			##	Zwraca wartość średnią argumentów.
AVERAGEA		= ŚREDNIA.A			##	Zwraca wartość średnią argumentów, z
uwzględnieniem liczb, tekstów i wartości logicznych.
AVERAGEIF		= ŚREDNIA.JEŻELI		##	Zwraca średnią (średnią
arytmetyczną) wszystkich komórek w zakresie, które spełniają podane
kryteria.
AVERAGEIFS		= ŚREDNIA.WARUNKÓW		##	Zwraca średnią (średnią
arytmetyczną) wszystkich komórek, które spełniają jedno lub więcej
kryteriów.
BETADIST		= ROZKŁAD.BETA			##	Zwraca skumulowaną funkcję gęstości
prawdopodobieństwa beta.
BETAINV			= ROZKŁAD.BETA.ODW		##	Zwraca odwrotność skumulowanej funkcji
gęstości prawdopodobieństwa beta.
BINOMDIST		= ROZKŁAD.DWUM			##	Zwraca pojedynczy składnik dwumianowego
rozkładu prawdopodobieństwa.
CHIDIST			= ROZKŁAD.CHI			##	Zwraca wartość jednostronnego
prawdopodobieństwa rozkładu chi-kwadrat.
CHIINV			= ROZKŁAD.CHI.ODW		##	Zwraca odwrotność wartości
jednostronnego prawdopodobieństwa rozkładu chi-kwadrat.
CHITEST			= TEST.CHI			##	Zwraca test niezależności.
CONFIDENCE		= UFNOŚĆ			##	Zwraca interwał ufności dla średniej
populacji.
CORREL			= WSP.KORELACJI			##	Zwraca współczynnik korelacji dwóch
zbiorów danych.
COUNT			= ILE.LICZB			##	Zlicza liczby znajdujące się na liście
argumentów.
COUNTA			= ILE.NIEPUSTYCH		##	Zlicza wartości znajdujące się na liście
argumentów.
COUNTBLANK		= LICZ.PUSTE			##	Zwraca liczbę pustych komórek w pewnym
zakresie.
COUNTIF			= LICZ.JEŻELI			##	Zlicza komórki wewnątrz zakresu, które
spełniają podane kryteria.
COUNTIFS		= LICZ.WARUNKI			##	Zlicza komórki wewnątrz zakresu, które
spełniają wiele kryteriów.
COVAR			= KOWARIANCJA			##	Zwraca kowariancję, czyli średnią wartość
iloczynów odpowiednich odchyleń.
CRITBINOM		= PRÓG.ROZKŁAD.DWUM		##	Zwraca najmniejszą wartość, dla
której skumulowany rozkład dwumianowy jest mniejszy niż wartość
kryterium lub równy jej.
DEVSQ			= ODCH.KWADRATOWE		##	Zwraca sumę kwadratów odchyleń.
EXPONDIST		= ROZKŁAD.EXP			##	Zwraca rozkład wykładniczy.
FDIST			= ROZKŁAD.F			##	Zwraca rozkład prawdopodobieństwa F.
FINV			= ROZKŁAD.F.ODW			##	Zwraca odwrotność rozkładu
prawdopodobieństwa F.
FISHER			= ROZKŁAD.FISHER		##	Zwraca transformację Fishera.
FISHERINV		= ROZKŁAD.FISHER.ODW		##	Zwraca odwrotność transformacji
Fishera.
FORECAST		= REGLINX			##	Zwraca wartość trendu liniowego.
FREQUENCY		= CZĘSTOŚĆ			##	Zwraca rozkład częstotliwości jako
tablicę pionową.
FTEST			= TEST.F			##	Zwraca wynik testu F.
GAMMADIST		= ROZKŁAD.GAMMA			##	Zwraca rozkład gamma.
GAMMAINV		= ROZKŁAD.GAMMA.ODW		##	Zwraca odwrotność skumulowanego
rozkładu gamma.
GAMMALN			= ROZKŁAD.LIN.GAMMA		##	Zwraca logarytm naturalny funkcji gamma,
Γ(x).
GEOMEAN			= ŚREDNIA.GEOMETRYCZNA		##	Zwraca średnią geometryczną.
GROWTH			= REGEXPW			##	Zwraca wartości trendu wykładniczego.
HARMEAN			= ŚREDNIA.HARMONICZNA		##	Zwraca średnią harmoniczną.
HYPGEOMDIST		= ROZKŁAD.HIPERGEOM		##	Zwraca rozkład hipergeometryczny.
INTERCEPT		= ODCIĘTA			##	Zwraca punkt przecięcia osi pionowej z linią
regresji liniowej.
KURT			= KURTOZA			##	Zwraca kurtozę zbioru danych.
LARGE			= MAX.K				##	Zwraca k-tą największą wartość ze zbioru danych.
LINEST			= REGLINP			##	Zwraca parametry trendu liniowego.
LOGEST			= REGEXPP			##	Zwraca parametry trendu wykładniczego.
LOGINV			= ROZKŁAD.LOG.ODW		##	Zwraca odwrotność rozkładu logarytmu
naturalnego.
LOGNORMDIST		= ROZKŁAD.LOG			##	Zwraca skumulowany rozkład logarytmu
naturalnego.
MAX			= MAX				##	Zwraca maksymalną wartość listy argumentów.
MAXA			= MAX.A				##	Zwraca maksymalną wartość listy argumentów, z
uwzględnieniem liczb, tekstów i wartości logicznych.
MEDIAN			= MEDIANA			##	Zwraca medianę podanych liczb.
MIN			= MIN				##	Zwraca minimalną wartość listy argumentów.
MINA			= MIN.A				##	Zwraca najmniejszą wartość listy argumentów, z
uwzględnieniem liczb, tekstów i wartości logicznych.
MODE			= WYST.NAJCZĘŚCIEJ		##	Zwraca wartość najczęściej
występującą w zbiorze danych.
NEGBINOMDIST		= ROZKŁAD.DWUM.PRZEC		##	Zwraca ujemny rozkład dwumianowy.
NORMDIST		= ROZKŁAD.NORMALNY		##	Zwraca rozkład normalny skumulowany.
NORMINV			= ROZKŁAD.NORMALNY.ODW		##	Zwraca odwrotność rozkładu
normalnego skumulowanego.
NORMSDIST		= ROZKŁAD.NORMALNY.S		##	Zwraca standardowy rozkład normalny
skumulowany.
NORMSINV		= ROZKŁAD.NORMALNY.S.ODW	##	Zwraca odwrotność standardowego
rozkładu normalnego skumulowanego.
PEARSON			= PEARSON			##	Zwraca współczynnik korelacji momentu iloczynu
Pearsona.
PERCENTILE		= PERCENTYL			##	Wyznacza k-ty percentyl wartości w zakresie.
PERCENTRANK		= PROCENT.POZYCJA		##	Zwraca procentową pozycję wartości w
zbiorze danych.
PERMUT			= PERMUTACJE			##	Zwraca liczbę permutacji dla danej liczby
obiektów.
POISSON			= ROZKŁAD.POISSON		##	Zwraca rozkład Poissona.
PROB			= PRAWDPD			##	Zwraca prawdopodobieństwo, że wartości w zakresie
leżą pomiędzy dwiema granicami.
QUARTILE		= KWARTYL			##	Wyznacza kwartyl zbioru danych.
RANK			= POZYCJA			##	Zwraca pozycję liczby na liście liczb.
RSQ			= R.KWADRAT			##	Zwraca kwadrat współczynnika korelacji momentu
iloczynu Pearsona.
SKEW			= SKOŚNOŚĆ			##	Zwraca skośność rozkładu.
SLOPE			= NACHYLENIE			##	Zwraca nachylenie linii regresji liniowej.
SMALL			= MIN.K				##	Zwraca k-tą najmniejszą wartość ze zbioru danych.
STANDARDIZE		= NORMALIZUJ			##	Zwraca wartość znormalizowaną.
STDEV			= ODCH.STANDARDOWE		##	Szacuje odchylenie standardowe na podstawie
próbki.
STDEVA			= ODCH.STANDARDOWE.A		##	Szacuje odchylenie standardowe na
podstawie próbki, z uwzględnieniem liczb, tekstów i wartości
logicznych.
STDEVP			= ODCH.STANDARD.POPUL		##	Oblicza odchylenie standardowe na
podstawie całej populacji.
STDEVPA			= ODCH.STANDARD.POPUL.A		##	Oblicza odchylenie standardowe na
podstawie całej populacji, z uwzględnieniem liczb, teksów i wartości
logicznych.
STEYX			= REGBŁSTD			##	Zwraca błąd standardowy przewidzianej wartości
y dla każdej wartości x w regresji.
TDIST			= ROZKŁAD.T			##	Zwraca rozkład t-Studenta.
TINV			= ROZKŁAD.T.ODW			##	Zwraca odwrotność rozkładu t-Studenta.
TREND			= REGLINW			##	Zwraca wartości trendu liniowego.
TRIMMEAN		= ŚREDNIA.WEWN			##	Zwraca średnią wartość dla wnętrza
zbioru danych.
TTEST			= TEST.T			##	Zwraca prawdopodobieństwo związane z testem
t-Studenta.
VAR			= WARIANCJA			##	Szacuje wariancję na podstawie próbki.
VARA			= WARIANCJA.A			##	Szacuje wariancję na podstawie próbki, z
uwzględnieniem liczb, tekstów i wartości logicznych.
VARP			= WARIANCJA.POPUL		##	Oblicza wariancję na podstawie całej
populacji.
VARPA			= WARIANCJA.POPUL.A		##	Oblicza wariancję na podstawie całej
populacji, z uwzględnieniem liczb, tekstów i wartości logicznych.
WEIBULL			= ROZKŁAD.WEIBULL		##	Zwraca rozkład Weibulla.
ZTEST			= TEST.Z			##	Zwraca wartość jednostronnego prawdopodobieństwa
testu z.


##
##	Text functions					Funkcje tekstowe
##
ASC			= ASC				##	Zamienia litery angielskie lub katakana o pełnej
szerokości (dwubajtowe) w ciągu znaków na znaki o szerokości
połówkowej (jednobajtowe).
BAHTTEXT		= BAHTTEXT			##	Konwertuje liczbę na tekst, stosując format
walutowy ß (baht).
CHAR			= ZNAK				##	Zwraca znak o podanym numerze kodu.
CLEAN			= OCZYŚĆ			##	Usuwa z tekstu wszystkie znaki, które nie mogą
być drukowane.
CODE			= KOD				##	Zwraca kod numeryczny pierwszego znaku w ciągu
tekstowym.
CONCATENATE		= ZŁĄCZ.TEKSTY			##	Łączy kilka oddzielnych tekstów w
jeden tekst.
DOLLAR			= KWOTA				##	Konwertuje liczbę na tekst, stosując format
walutowy $ (dolar).
EXACT			= PORÓWNAJ			##	Sprawdza identyczność dwóch wartości
tekstowych.
FIND			= ZNAJDŹ			##	Znajduje jedną wartość tekstową wewnątrz innej
(z uwzględnieniem wielkich i małych liter).
FINDB			= ZNAJDŹB			##	Znajduje jedną wartość tekstową wewnątrz innej
(z uwzględnieniem wielkich i małych liter).
FIXED			= ZAOKR.DO.TEKST		##	Formatuje liczbę jako tekst przy stałej
liczbie miejsc dziesiętnych.
JIS			= JIS				##	Zmienia litery angielskie lub katakana o szerokości
połówkowej (jednobajtowe) w ciągu znaków na znaki o pełnej szerokości
(dwubajtowe).
LEFT			= LEWY				##	Zwraca skrajne lewe znaki z wartości tekstowej.
LEFTB			= LEWYB				##	Zwraca skrajne lewe znaki z wartości tekstowej.
LEN			= DŁ				##	Zwraca liczbę znaków ciągu tekstowego.
LENB			= DŁ.B				##	Zwraca liczbę znaków ciągu tekstowego.
LOWER			= LITERY.MAŁE			##	Konwertuje wielkie litery tekstu na małe
litery.
MID			= FRAGMENT.TEKSTU		##	Zwraca określoną liczbę znaków z ciągu
tekstowego, zaczynając od zadanej pozycji.
MIDB			= FRAGMENT.TEKSTU.B		##	Zwraca określoną liczbę znaków z ciągu
tekstowego, zaczynając od zadanej pozycji.
PHONETIC		= PHONETIC			##	Wybiera znaki fonetyczne (furigana) z ciągu
tekstowego.
PROPER			= Z.WIELKIEJ.LITERY		##	Zastępuje pierwszą literę każdego
wyrazu tekstu wielką literą.
REPLACE			= ZASTĄP			##	Zastępuje znaki w tekście.
REPLACEB		= ZASTĄP.B			##	Zastępuje znaki w tekście.
REPT			= POWT				##	Powiela tekst daną liczbę razy.
RIGHT			= PRAWY				##	Zwraca skrajne prawe znaki z wartości tekstowej.
RIGHTB			= PRAWYB			##	Zwraca skrajne prawe znaki z wartości tekstowej.
SEARCH			= SZUKAJ.TEKST			##	Wyszukuje jedną wartość tekstową wewnątrz
innej (bez uwzględniania wielkości liter).
SEARCHB			= SZUKAJ.TEKST.B		##	Wyszukuje jedną wartość tekstową
wewnątrz innej (bez uwzględniania wielkości liter).
SUBSTITUTE		= PODSTAW			##	Podstawia nowy tekst w miejsce poprzedniego
tekstu w ciągu tekstowym.
T			= T				##	Konwertuje argumenty na tekst.
TEXT			= TEKST				##	Formatuje liczbę i konwertuje ją na tekst.
TRIM			= USUŃ.ZBĘDNE.ODSTĘPY		##	Usuwa spacje z tekstu.
UPPER			= LITERY.WIELKIE		##	Konwertuje znaki tekstu na wielkie litery.
VALUE			= WARTOŚĆ			##	Konwertuje argument tekstowy na liczbę.
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/locale/pt/br/config000064400000000354151165413750024456
0ustar00##
## PhpSpreadsheet
##

ArgumentSeparator	= ;


##
##	(For future use)
##
currencySymbol	= R$


##
##	Excel Error Codes	(For future use)

##
NULL	= #NULO!
DIV0	= #DIV/0!
VALUE	= #VALOR!
REF	= #REF!
NAME	= #NOME?
NUM	= #NÚM!
NA	= #N/D
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/locale/pt/br/functions000064400000075142151165413750025230
0ustar00##
##	Add-in and Automation functions			Funções Suplemento e Automação
##
GETPIVOTDATA		= INFODADOSTABELADINÂMICA	##	Retorna os dados armazenados em
um relatório de tabela dinâmica


##
##	Cube functions					Funções de Cubo
##
CUBEKPIMEMBER		= MEMBROKPICUBO			##	Retorna o nome de um KPI (indicador de
desempenho-chave), uma propriedade e uma medida e exibe o nome e a
propriedade na célula. Um KPI é uma medida quantificável, como o lucro
bruto mensal ou a rotatividade trimestral dos funcionários, usada para
monitorar o desempenho de uma organização.
CUBEMEMBER		= MEMBROCUBO			##	Retorna um membro ou tupla em uma hierarquia
de cubo. Use para validar se o membro ou tupla existe no cubo.
CUBEMEMBERPROPERTY	= PROPRIEDADEMEMBROCUBO		##	Retorna o valor da
propriedade de um membro no cubo. Usada para validar a existência do nome
do membro no cubo e para retornar a propriedade especificada para esse
membro.
CUBERANKEDMEMBER	= MEMBROCLASSIFICADOCUBO	##	Retorna o enésimo membro, ou
o membro ordenado, em um conjunto. Use para retornar um ou mais elementos
em um conjunto, assim como o melhor vendedor ou os dez melhores alunos.
CUBESET			= CONJUNTOCUBO			##	Define um conjunto calculado de membros ou
tuplas enviando uma expressão do conjunto para o cubo no servidor, que
cria o conjunto e o retorna para o Microsoft Office Excel.
CUBESETCOUNT		= CONTAGEMCONJUNTOCUBO		##	Retorna o número de itens em um
conjunto.
CUBEVALUE		= VALORCUBO			##	Retorna um valor agregado de um cubo.


##
##	Database functions				Funções de banco de dados
##
DAVERAGE		= BDMÉDIA			##	Retorna a média das entradas selecionadas de um
banco de dados
DCOUNT			= BDCONTAR			##	Conta as células que contêm números em um banco
de dados
DCOUNTA			= BDCONTARA			##	Conta células não vazias em um banco de dados
DGET			= BDEXTRAIR			##	Extrai de um banco de dados um único registro que
corresponde a um critério específico
DMAX			= BDMÁX				##	Retorna o valor máximo de entradas selecionadas de
um banco de dados
DMIN			= BDMÍN				##	Retorna o valor mínimo de entradas selecionadas de
um banco de dados
DPRODUCT		= BDMULTIPL			##	Multiplica os valores em um campo específico de
registros que correspondem ao critério em um banco de dados
DSTDEV			= BDEST				##	Estima o desvio padrão com base em uma amostra de
entradas selecionadas de um banco de dados
DSTDEVP			= BDDESVPA			##	Calcula o desvio padrão com base na população
inteira de entradas selecionadas de um banco de dados
DSUM			= BDSOMA			##	Adiciona os números à coluna de campos de registros
do banco de dados que correspondem ao critério
DVAR			= BDVAREST			##	Estima a variância com base em uma amostra de
entradas selecionadas de um banco de dados
DVARP			= BDVARP			##	Calcula a variância com base na população inteira
de entradas selecionadas de um banco de dados


##
##	Date and time functions				Funções de data e hora
##
DATE			= DATA				##	Retorna o número de série de uma data específica
DATEVALUE		= DATA.VALOR			##	Converte uma data na forma de texto para um
número de série
DAY			= DIA				##	Converte um número de série em um dia do mês
DAYS360			= DIAS360			##	Calcula o número de dias entre duas datas com
base em um ano de 360 dias
EDATE			= DATAM				##	Retorna o número de série da data que é o número
indicado de meses antes ou depois da data inicial
EOMONTH			= FIMMÊS			##	Retorna o número de série do último dia do mês
antes ou depois de um número especificado de meses
HOUR			= HORA				##	Converte um número de série em uma hora
MINUTE			= MINUTO			##	Converte um número de série em um minuto
MONTH			= MÊS				##	Converte um número de série em um mês
NETWORKDAYS		= DIATRABALHOTOTAL		##	Retorna o número de dias úteis
inteiros entre duas datas
NOW			= AGORA				##	Retorna o número de série seqüencial da data e hora
atuais
SECOND			= SEGUNDO			##	Converte um número de série em um segundo
TIME			= HORA				##	Retorna o número de série de uma hora específica
TIMEVALUE		= VALOR.TEMPO			##	Converte um horário na forma de texto para
um número de série
TODAY			= HOJE				##	Retorna o número de série da data de hoje
WEEKDAY			= DIA.DA.SEMANA			##	Converte um número de série em um dia da
semana
WEEKNUM			= NÚMSEMANA			##	Converte um número de série em um número que
representa onde a semana cai numericamente em um ano
WORKDAY			= DIATRABALHO			##	Retorna o número de série da data antes ou
depois de um número específico de dias úteis
YEAR			= ANO				##	Converte um número de série em um ano
YEARFRAC		= FRAÇÃOANO			##	Retorna a fração do ano que representa o
número de dias entre data_inicial e data_final


##
##	Engineering functions				Funções de engenharia
##
BESSELI			= BESSELI			##	Retorna a função de Bessel In(x) modificada
BESSELJ			= BESSELJ			##	Retorna a função de Bessel Jn(x)
BESSELK			= BESSELK			##	Retorna a função de Bessel Kn(x) modificada
BESSELY			= BESSELY			##	Retorna a função de Bessel Yn(x)
BIN2DEC			= BIN2DEC			##	Converte um número binário em decimal
BIN2HEX			= BIN2HEX			##	Converte um número binário em hexadecimal
BIN2OCT			= BIN2OCT			##	Converte um número binário em octal
COMPLEX			= COMPLEX			##	Converte coeficientes reais e imaginários e um
número complexo
CONVERT			= CONVERTER			##	Converte um número de um sistema de medida para
outro
DEC2BIN			= DECABIN			##	Converte um número decimal em binário
DEC2HEX			= DECAHEX			##	Converte um número decimal em hexadecimal
DEC2OCT			= DECAOCT			##	Converte um número decimal em octal
DELTA			= DELTA				##	Testa se dois valores são iguais
ERF			= FUNERRO			##	Retorna a função de erro
ERFC			= FUNERROCOMPL			##	Retorna a função de erro complementar
GESTEP			= DEGRAU			##	Testa se um número é maior do que um valor limite
HEX2BIN			= HEXABIN			##	Converte um número hexadecimal em binário
HEX2DEC			= HEXADEC			##	Converte um número hexadecimal em decimal
HEX2OCT			= HEXAOCT			##	Converte um número hexadecimal em octal
IMABS			= IMABS				##	Retorna o valor absoluto (módulo) de um número
complexo
IMAGINARY		= IMAGINÁRIO			##	Retorna o coeficiente imaginário de um
número complexo
IMARGUMENT		= IMARG				##	Retorna o argumento teta, um ângulo expresso em
radianos
IMCONJUGATE		= IMCONJ			##	Retorna o conjugado complexo de um número
complexo
IMCOS			= IMCOS				##	Retorna o cosseno de um número complexo
IMDIV			= IMDIV				##	Retorna o quociente de dois números complexos
IMEXP			= IMEXP				##	Retorna o exponencial de um número complexo
IMLN			= IMLN				##	Retorna o logaritmo natural de um número complexo
IMLOG10			= IMLOG10			##	Retorna o logaritmo de base 10 de um número
complexo
IMLOG2			= IMLOG2			##	Retorna o logaritmo de base 2 de um número complexo
IMPOWER			= IMPOT				##	Retorna um número complexo elevado a uma potência
inteira
IMPRODUCT		= IMPROD			##	Retorna o produto de números complexos
IMREAL			= IMREAL			##	Retorna o coeficiente real de um número complexo
IMSIN			= IMSENO			##	Retorna o seno de um número complexo
IMSQRT			= IMRAIZ			##	Retorna a raiz quadrada de um número complexo
IMSUB			= IMSUBTR			##	Retorna a diferença entre dois números complexos
IMSUM			= IMSOMA			##	Retorna a soma de números complexos
OCT2BIN			= OCTABIN			##	Converte um número octal em binário
OCT2DEC			= OCTADEC			##	Converte um número octal em decimal
OCT2HEX			= OCTAHEX			##	Converte um número octal em hexadecimal


##
##	Financial functions				Funções financeiras
##
ACCRINT			= JUROSACUM			##	Retorna a taxa de juros acumulados de um título
que paga uma taxa periódica de juros
ACCRINTM		= JUROSACUMV			##	Retorna os juros acumulados de um título que
paga juros no vencimento
AMORDEGRC		= AMORDEGRC			##	Retorna a depreciação para cada período
contábil usando o coeficiente de depreciação
AMORLINC		= AMORLINC			##	Retorna a depreciação para cada período
contábil
COUPDAYBS		= CUPDIASINLIQ			##	Retorna o número de dias do início do
período de cupom até a data de liquidação
COUPDAYS		= CUPDIAS			##	Retorna o número de dias no período de cupom que
contém a data de quitação
COUPDAYSNC		= CUPDIASPRÓX			##	Retorna o número de dias da data de
liquidação até a data do próximo cupom
COUPNCD			= CUPDATAPRÓX			##	Retorna a próxima data de cupom após a data
de quitação
COUPNUM			= CUPNÚM			##	Retorna o número de cupons pagáveis entre as
datas de quitação e vencimento
COUPPCD			= CUPDATAANT			##	Retorna a data de cupom anterior à data de
quitação
CUMIPMT			= PGTOJURACUM			##	Retorna os juros acumulados pagos entre dois
períodos
CUMPRINC		= PGTOCAPACUM			##	Retorna o capital acumulado pago sobre um
empréstimo entre dois períodos
DB			= BD				##	Retorna a depreciação de um ativo para um período
especificado, usando o método de balanço de declínio fixo
DDB			= BDD				##	Retorna a depreciação de um ativo com relação a um
período especificado usando o método de saldos decrescentes duplos ou
qualquer outro método especificado por você
DISC			= DESC				##	Retorna a taxa de desconto de um título
DOLLARDE		= MOEDADEC			##	Converte um preço em formato de moeda, na forma
fracionária, em um preço na forma decimal
DOLLARFR		= MOEDAFRA			##	Converte um preço, apresentado na forma decimal,
em um preço apresentado na forma fracionária
DURATION		= DURAÇÃO			##	Retorna a duração anual de um título com
pagamentos de juros periódicos
EFFECT			= EFETIVA			##	Retorna a taxa de juros anual efetiva
FV			= VF				##	Retorna o valor futuro de um investimento
FVSCHEDULE		= VFPLANO			##	Retorna o valor futuro de um capital inicial
após a aplicação de uma série de taxas de juros compostas
INTRATE			= TAXAJUROS			##	Retorna a taxa de juros de um título totalmente
investido
IPMT			= IPGTO				##	Retorna o pagamento de juros para um investimento em
um determinado período
IRR			= TIR				##	Retorna a taxa interna de retorno de uma série de fluxos
de caixa
ISPMT			= ÉPGTO				##	Calcula os juros pagos durante um período
específico de um investimento
MDURATION		= MDURAÇÃO			##	Retorna a duração de Macauley modificada
para um título com um valor de paridade equivalente a R$ 100
MIRR			= MTIR				##	Calcula a taxa interna de retorno em que fluxos de
caixa positivos e negativos são financiados com diferentes taxas
NOMINAL			= NOMINAL			##	Retorna a taxa de juros nominal anual
NPER			= NPER				##	Retorna o número de períodos de um investimento
NPV			= VPL				##	Retorna o valor líquido atual de um investimento com
base em uma série de fluxos de caixa periódicos e em uma taxa de desconto
ODDFPRICE		= PREÇOPRIMINC			##	Retorna o preço por R$ 100 de valor
nominal de um título com um primeiro período indefinido
ODDFYIELD		= LUCROPRIMINC			##	Retorna o rendimento de um título com um
primeiro período indefinido
ODDLPRICE		= PREÇOÚLTINC			##	Retorna o preço por R$ 100 de valor
nominal de um título com um último período de cupom indefinido
ODDLYIELD		= LUCROÚLTINC			##	Retorna o rendimento de um título com um
último período indefinido
PMT			= PGTO				##	Retorna o pagamento periódico de uma anuidade
PPMT			= PPGTO				##	Retorna o pagamento de capital para determinado
período de investimento
PRICE			= PREÇO				##	Retorna a preço por R$ 100,00 de valor nominal de
um título que paga juros periódicos
PRICEDISC		= PREÇODESC			##	Retorna o preço por R$ 100,00 de valor
nominal de um título descontado
PRICEMAT		= PREÇOVENC			##	Retorna o preço por R$ 100,00 de valor nominal
de um título que paga juros no vencimento
PV			= VP				##	Retorna o valor presente de um investimento
RATE			= TAXA				##	Retorna a taxa de juros por período de uma anuidade
RECEIVED		= RECEBER			##	Retorna a quantia recebida no vencimento de um
título totalmente investido
SLN			= DPD				##	Retorna a depreciação em linha reta de um ativo durante
um período
SYD			= SDA				##	Retorna a depreciação dos dígitos da soma dos anos de
um ativo para um período especificado
TBILLEQ			= OTN				##	Retorna o rendimento de um título equivalente a uma
obrigação do Tesouro
TBILLPRICE		= OTNVALOR			##	Retorna o preço por R$ 100,00 de valor nominal
de uma obrigação do Tesouro
TBILLYIELD		= OTNLUCRO			##	Retorna o rendimento de uma obrigação do
Tesouro
VDB			= BDV				##	Retorna a depreciação de um ativo para um período
especificado ou parcial usando um método de balanço declinante
XIRR			= XTIR				##	Fornece a taxa interna de retorno para um programa de
fluxos de caixa que não é necessariamente periódico
XNPV			= XVPL				##	Retorna o valor presente líquido de um programa de
fluxos de caixa que não é necessariamente periódico
YIELD			= LUCRO				##	Retorna o lucro de um título que paga juros
periódicos
YIELDDISC		= LUCRODESC			##	Retorna o rendimento anual de um título
descontado. Por exemplo, uma obrigação do Tesouro
YIELDMAT		= LUCROVENC			##	Retorna o lucro anual de um título que paga
juros no vencimento


##
##	Information functions				Funções de informação
##
CELL			= CÉL				##	Retorna informações sobre formatação, localização
ou conteúdo de uma célula
ERROR.TYPE		= TIPO.ERRO			##	Retorna um número correspondente a um tipo de
erro
INFO			= INFORMAÇÃO			##	Retorna informações sobre o ambiente
operacional atual
ISBLANK			= ÉCÉL.VAZIA			##	Retorna VERDADEIRO se o valor for vazio
ISERR			= ÉERRO				##	Retorna VERDADEIRO se o valor for um valor de erro
diferente de #N/D
ISERROR			= ÉERROS			##	Retorna VERDADEIRO se o valor for um valor de erro
ISEVEN			= ÉPAR				##	Retorna VERDADEIRO se o número for par
ISLOGICAL		= ÉLÓGICO			##	Retorna VERDADEIRO se o valor for um valor
lógico
ISNA			= É.NÃO.DISP			##	Retorna VERDADEIRO se o valor for o valor de
erro #N/D
ISNONTEXT		= É.NÃO.TEXTO			##	Retorna VERDADEIRO se o valor for diferente
de texto
ISNUMBER		= ÉNÚM				##	Retorna VERDADEIRO se o valor for um número
ISODD			= ÉIMPAR			##	Retorna VERDADEIRO se o número for ímpar
ISREF			= ÉREF				##	Retorna VERDADEIRO se o valor for uma referência
ISTEXT			= ÉTEXTO			##	Retorna VERDADEIRO se o valor for texto
N			= N				##	Retorna um valor convertido em um número
NA			= NÃO.DISP			##	Retorna o valor de erro #N/D
TYPE			= TIPO				##	Retorna um número indicando o tipo de dados de um
valor


##
##	Logical functions				Funções lógicas
##
AND			= E				##	Retorna VERDADEIRO se todos os seus argumentos forem
VERDADEIROS
FALSE			= FALSO				##	Retorna o valor lógico FALSO
IF			= SE				##	Especifica um teste lógico a ser executado
IFERROR			= SEERRO			##	Retornará um valor que você especifica se uma
fórmula for avaliada para um erro; do contrário, retornará o resultado
da fórmula
NOT			= NÃO				##	Inverte o valor lógico do argumento
OR			= OU				##	Retorna VERDADEIRO se um dos argumentos for VERDADEIRO
TRUE			= VERDADEIRO			##	Retorna o valor lógico VERDADEIRO


##
##	Lookup and reference functions			Funções de pesquisa e referência
##
ADDRESS			= ENDEREÇO			##	Retorna uma referência como texto para uma
única célula em uma planilha
AREAS			= ÁREAS				##	Retorna o número de áreas em uma referência
CHOOSE			= ESCOLHER			##	Escolhe um valor a partir de uma lista de valores
COLUMN			= COL				##	Retorna o número da coluna de uma referência
COLUMNS			= COLS				##	Retorna o número de colunas em uma referência
HLOOKUP			= PROCH				##	Procura na linha superior de uma matriz e retorna o
valor da célula especificada
HYPERLINK		= HYPERLINK			##	Cria um atalho ou salto que abre um documento
armazenado em um servidor de rede, uma intranet ou na Internet
INDEX			= ÍNDICE			##	Usa um índice para escolher um valor de uma
referência ou matriz
INDIRECT		= INDIRETO			##	Retorna uma referência indicada por um valor de
texto
LOOKUP			= PROC				##	Procura valores em um vetor ou em uma matriz
MATCH			= CORRESP			##	Procura valores em uma referência ou em uma matriz
OFFSET			= DESLOC			##	Retorna um deslocamento de referência com base em
uma determinada referência
ROW			= LIN				##	Retorna o número da linha de uma referência
ROWS			= LINS				##	Retorna o número de linhas em uma referência
RTD			= RTD				##	Recupera dados em tempo real de um programa que ofereça
suporte a automação COM (automação: uma forma de trabalhar com objetos
de um aplicativo a partir de outro aplicativo ou ferramenta de
desenvolvimento. Chamada inicialmente de automação OLE, a automação é
um padrão industrial e um recurso do modelo de objeto componente (COM).)
TRANSPOSE		= TRANSPOR			##	Retorna a transposição de uma matriz
VLOOKUP			= PROCV				##	Procura na primeira coluna de uma matriz e move ao
longo da linha para retornar o valor de uma célula


##
##	Math and trigonometry functions			Funções matemáticas e
trigonométricas
##
ABS			= ABS				##	Retorna o valor absoluto de um número
ACOS			= ACOS				##	Retorna o arco cosseno de um número
ACOSH			= ACOSH				##	Retorna o cosseno hiperbólico inverso de um número
ASIN			= ASEN				##	Retorna o arco seno de um número
ASINH			= ASENH				##	Retorna o seno hiperbólico inverso de um número
ATAN			= ATAN				##	Retorna o arco tangente de um número
ATAN2			= ATAN2				##	Retorna o arco tangente das coordenadas x e y
especificadas
ATANH			= ATANH				##	Retorna a tangente hiperbólica inversa de um número
CEILING			= TETO				##	Arredonda um número para o inteiro mais próximo ou
para o múltiplo mais próximo de significância
COMBIN			= COMBIN			##	Retorna o número de combinações de um determinado
número de objetos
COS			= COS				##	Retorna o cosseno de um número
COSH			= COSH				##	Retorna o cosseno hiperbólico de um número
DEGREES			= GRAUS				##	Converte radianos em graus
EVEN			= PAR				##	Arredonda um número para cima até o inteiro par mais
próximo
EXP			= EXP				##	Retorna e elevado à potência de um número especificado
FACT			= FATORIAL			##	Retorna o fatorial de um número
FACTDOUBLE		= FATDUPLO			##	Retorna o fatorial duplo de um número
FLOOR			= ARREDMULTB			##	Arredonda um número para baixo até zero
GCD			= MDC				##	Retorna o máximo divisor comum
INT			= INT				##	Arredonda um número para baixo até o número inteiro
mais próximo
LCM			= MMC				##	Retorna o mínimo múltiplo comum
LN			= LN				##	Retorna o logaritmo natural de um número
LOG			= LOG				##	Retorna o logaritmo de um número de uma base
especificada
LOG10			= LOG10				##	Retorna o logaritmo de base 10 de um número
MDETERM			= MATRIZ.DETERM			##	Retorna o determinante de uma matriz de uma
variável do tipo matriz
MINVERSE		= MATRIZ.INVERSO		##	Retorna a matriz inversa de uma matriz
MMULT			= MATRIZ.MULT			##	Retorna o produto de duas matrizes
MOD			= RESTO				##	Retorna o resto da divisão
MROUND			= MARRED			##	Retorna um número arredondado ao múltiplo desejado
MULTINOMIAL		= MULTINOMIAL			##	Retorna o multinomial de um conjunto de
números
ODD			= ÍMPAR				##	Arredonda um número para cima até o inteiro ímpar
mais próximo
PI			= PI				##	Retorna o valor de Pi
POWER			= POTÊNCIA			##	Fornece o resultado de um número elevado a uma
potência
PRODUCT			= MULT				##	Multiplica seus argumentos
QUOTIENT		= QUOCIENTE			##	Retorna a parte inteira de uma divisão
RADIANS			= RADIANOS			##	Converte graus em radianos
RAND			= ALEATÓRIO			##	Retorna um número aleatório entre 0 e 1
RANDBETWEEN		= ALEATÓRIOENTRE		##	Retorna um número aleatório entre os
números especificados
ROMAN			= ROMANO			##	Converte um algarismo arábico em romano, como texto
ROUND			= ARRED				##	Arredonda um número até uma quantidade especificada
de dígitos
ROUNDDOWN		= ARREDONDAR.PARA.BAIXO		##	Arredonda um número para baixo até
zero
ROUNDUP			= ARREDONDAR.PARA.CIMA		##	Arredonda um número para cima,
afastando-o de zero
SERIESSUM		= SOMASEQÜÊNCIA			##	Retorna a soma de uma série polinomial
baseada na fórmula
SIGN			= SINAL				##	Retorna o sinal de um número
SIN			= SEN				##	Retorna o seno de um ângulo dado
SINH			= SENH				##	Retorna o seno hiperbólico de um número
SQRT			= RAIZ				##	Retorna uma raiz quadrada positiva
SQRTPI			= RAIZPI			##	Retorna a raiz quadrada de (núm* pi)
SUBTOTAL		= SUBTOTAL			##	Retorna um subtotal em uma lista ou em um banco
de dados
SUM			= SOMA				##	Soma seus argumentos
SUMIF			= SOMASE			##	Adiciona as células especificadas por um determinado
critério
SUMIFS			= SOMASE			##	Adiciona as células em um intervalo que atende a
vários critérios
SUMPRODUCT		= SOMARPRODUTO			##	Retorna a soma dos produtos de componentes
correspondentes de matrizes
SUMSQ			= SOMAQUAD			##	Retorna a soma dos quadrados dos argumentos
SUMX2MY2		= SOMAX2DY2			##	Retorna a soma da diferença dos quadrados dos
valores correspondentes em duas matrizes
SUMX2PY2		= SOMAX2SY2			##	Retorna a soma da soma dos quadrados dos valores
correspondentes em duas matrizes
SUMXMY2			= SOMAXMY2			##	Retorna a soma dos quadrados das diferenças dos
valores correspondentes em duas matrizes
TAN			= TAN				##	Retorna a tangente de um número
TANH			= TANH				##	Retorna a tangente hiperbólica de um número
TRUNC			= TRUNCAR			##	Trunca um número para um inteiro


##
##	Statistical functions				Funções estatísticas
##
AVEDEV			= DESV.MÉDIO			##	Retorna a média aritmética dos desvios
médios dos pontos de dados a partir de sua média
AVERAGE			= MÉDIA				##	Retorna a média dos argumentos
AVERAGEA		= MÉDIAA			##	Retorna a média dos argumentos, inclusive
números, texto e valores lógicos
AVERAGEIF		= MÉDIASE			##	Retorna a média (média aritmética) de todas
as células em um intervalo que atendem a um determinado critério
AVERAGEIFS		= MÉDIASES			##	Retorna a média (média aritmética) de todas
as células que atendem a múltiplos critérios.
BETADIST		= DISTBETA			##	Retorna a função de distribuição cumulativa
beta
BETAINV			= BETA.ACUM.INV			##	Retorna o inverso da função de
distribuição cumulativa para uma distribuição beta especificada
BINOMDIST		= DISTRBINOM			##	Retorna a probabilidade de distribuição
binomial do termo individual
CHIDIST			= DIST.QUI			##	Retorna a probabilidade unicaudal da
distribuição qui-quadrada
CHIINV			= INV.QUI			##	Retorna o inverso da probabilidade uni-caudal da
distribuição qui-quadrada
CHITEST			= TESTE.QUI			##	Retorna o teste para independência
CONFIDENCE		= INT.CONFIANÇA			##	Retorna o intervalo de confiança para
uma média da população
CORREL			= CORREL			##	Retorna o coeficiente de correlação entre dois
conjuntos de dados
COUNT			= CONT.NÚM			##	Calcula quantos números há na lista de
argumentos
COUNTA			= CONT.VALORES			##	Calcula quantos valores há na lista de
argumentos
COUNTBLANK		= CONTAR.VAZIO			##	Conta o número de células vazias no
intervalo especificado
COUNTIF			= CONT.SE			##	Calcula o número de células não vazias em um
intervalo que corresponde a determinados critérios
COUNTIFS		= CONT.SES			##	Conta o número de células dentro de um
intervalo que atende a múltiplos critérios
COVAR			= COVAR				##	Retorna a covariância, a média dos produtos dos
desvios pares
CRITBINOM		= CRIT.BINOM			##	Retorna o menor valor para o qual a
distribuição binomial cumulativa é menor ou igual ao valor padrão
DEVSQ			= DESVQ				##	Retorna a soma dos quadrados dos desvios
EXPONDIST		= DISTEXPON			##	Retorna a distribuição exponencial
FDIST			= DISTF				##	Retorna a distribuição de probabilidade F
FINV			= INVF				##	Retorna o inverso da distribuição de probabilidades F
FISHER			= FISHER			##	Retorna a transformação Fisher
FISHERINV		= FISHERINV			##	Retorna o inverso da transformação Fisher
FORECAST		= PREVISÃO			##	Retorna um valor ao longo de uma linha reta
FREQUENCY		= FREQÜÊNCIA			##	Retorna uma distribuição de freqüência
como uma matriz vertical
FTEST			= TESTEF			##	Retorna o resultado de um teste F
GAMMADIST		= DISTGAMA			##	Retorna a distribuição gama
GAMMAINV		= INVGAMA			##	Retorna o inverso da distribuição cumulativa
gama
GAMMALN			= LNGAMA			##	Retorna o logaritmo natural da função gama, G(x)
GEOMEAN			= MÉDIA.GEOMÉTRICA		##	Retorna a média geométrica
GROWTH			= CRESCIMENTO			##	Retorna valores ao longo de uma tendência
exponencial
HARMEAN			= MÉDIA.HARMÔNICA		##	Retorna a média harmônica
HYPGEOMDIST		= DIST.HIPERGEOM		##	Retorna a distribuição hipergeométrica
INTERCEPT		= INTERCEPÇÃO			##	Retorna a intercepção da linha de
regressão linear
KURT			= CURT				##	Retorna a curtose de um conjunto de dados
LARGE			= MAIOR				##	Retorna o maior valor k-ésimo de um conjunto de
dados
LINEST			= PROJ.LIN			##	Retorna os parâmetros de uma tendência linear
LOGEST			= PROJ.LOG			##	Retorna os parâmetros de uma tendência
exponencial
LOGINV			= INVLOG			##	Retorna o inverso da distribuição lognormal
LOGNORMDIST		= DIST.LOGNORMAL		##	Retorna a distribuição lognormal
cumulativa
MAX			= MÁXIMO			##	Retorna o valor máximo em uma lista de argumentos
MAXA			= MÁXIMOA			##	Retorna o maior valor em uma lista de argumentos,
inclusive números, texto e valores lógicos
MEDIAN			= MED				##	Retorna a mediana dos números indicados
MIN			= MÍNIMO			##	Retorna o valor mínimo em uma lista de argumentos
MINA			= MÍNIMOA			##	Retorna o menor valor em uma lista de argumentos,
inclusive números, texto e valores lógicos
MODE			= MODO				##	Retorna o valor mais comum em um conjunto de dados
NEGBINOMDIST		= DIST.BIN.NEG			##	Retorna a distribuição binomial
negativa
NORMDIST		= DIST.NORM			##	Retorna a distribuição cumulativa normal
NORMINV			= INV.NORM			##	Retorna o inverso da distribuição cumulativa
normal
NORMSDIST		= DIST.NORMP			##	Retorna a distribuição cumulativa normal
padrão
NORMSINV		= INV.NORMP			##	Retorna o inverso da distribuição cumulativa
normal padrão
PEARSON			= PEARSON			##	Retorna o coeficiente de correlação do momento
do produto Pearson
PERCENTILE		= PERCENTIL			##	Retorna o k-ésimo percentil de valores em um
intervalo
PERCENTRANK		= ORDEM.PORCENTUAL		##	Retorna a ordem percentual de um valor
em um conjunto de dados
PERMUT			= PERMUT			##	Retorna o número de permutações de um determinado
número de objetos
POISSON			= POISSON			##	Retorna a distribuição Poisson
PROB			= PROB				##	Retorna a probabilidade de valores em um intervalo
estarem entre dois limites
QUARTILE		= QUARTIL			##	Retorna o quartil do conjunto de dados
RANK			= ORDEM				##	Retorna a posição de um número em uma lista de
números
RSQ			= RQUAD				##	Retorna o quadrado do coeficiente de correlação do
momento do produto de Pearson
SKEW			= DISTORÇÃO			##	Retorna a distorção de uma distribuição
SLOPE			= INCLINAÇÃO			##	Retorna a inclinação da linha de regressão
linear
SMALL			= MENOR				##	Retorna o menor valor k-ésimo do conjunto de dados
STANDARDIZE		= PADRONIZAR			##	Retorna um valor normalizado
STDEV			= DESVPAD			##	Estima o desvio padrão com base em uma amostra
STDEVA			= DESVPADA			##	Estima o desvio padrão com base em uma amostra,
inclusive números, texto e valores lógicos
STDEVP			= DESVPADP			##	Calcula o desvio padrão com base na população
total
STDEVPA			= DESVPADPA			##	Calcula o desvio padrão com base na população
total, inclusive números, texto e valores lógicos
STEYX			= EPADYX			##	Retorna o erro padrão do valor-y previsto para cada
x da regressão
TDIST			= DISTT				##	Retorna a distribuição t de Student
TINV			= INVT				##	Retorna o inverso da distribuição t de Student
TREND			= TENDÊNCIA			##	Retorna valores ao longo de uma tendência linear
TRIMMEAN		= MÉDIA.INTERNA			##	Retorna a média do interior de um conjunto
de dados
TTEST			= TESTET			##	Retorna a probabilidade associada ao teste t de
Student
VAR			= VAR				##	Estima a variância com base em uma amostra
VARA			= VARA				##	Estima a variância com base em uma amostra, inclusive
números, texto e valores lógicos
VARP			= VARP				##	Calcula a variância com base na população inteira
VARPA			= VARPA				##	Calcula a variância com base na população total,
inclusive números, texto e valores lógicos
WEIBULL			= WEIBULL			##	Retorna a distribuição Weibull
ZTEST			= TESTEZ			##	Retorna o valor de probabilidade uni-caudal de um
teste-z


##
##	Text functions			Funções de texto
##
ASC			= ASC				##	Altera letras do inglês ou katakana de largura total
(bytes duplos) dentro de uma seqüência de caracteres para caracteres de
meia largura (byte único)
BAHTTEXT		= BAHTTEXT			##	Converte um número em um texto, usando o formato
de moeda ß (baht)
CHAR			= CARACT			##	Retorna o caractere especificado pelo número de
código
CLEAN			= TIRAR				##	Remove todos os caracteres do texto que não podem
ser impressos
CODE			= CÓDIGO			##	Retorna um código numérico para o primeiro
caractere de uma seqüência de caracteres de texto
CONCATENATE		= CONCATENAR			##	Agrupa vários itens de texto em um único
item de texto
DOLLAR			= MOEDA				##	Converte um número em texto, usando o formato de
moeda $ (dólar)
EXACT			= EXATO				##	Verifica se dois valores de texto são idênticos
FIND			= PROCURAR			##	Procura um valor de texto dentro de outro
(diferencia maiúsculas de minúsculas)
FINDB			= PROCURARB			##	Procura um valor de texto dentro de outro
(diferencia maiúsculas de minúsculas)
FIXED			= DEF.NÚM.DEC			##	Formata um número como texto com um número
fixo de decimais
JIS			= JIS				##	Altera letras do inglês ou katakana de meia largura
(byte único) dentro de uma seqüência de caracteres para caracteres de
largura total (bytes duplos)
LEFT			= ESQUERDA			##	Retorna os caracteres mais à esquerda de um valor
de texto
LEFTB			= ESQUERDAB			##	Retorna os caracteres mais à esquerda de um valor
de texto
LEN			= NÚM.CARACT			##	Retorna o número de caracteres em uma seqüência
de texto
LENB			= NÚM.CARACTB			##	Retorna o número de caracteres em uma
seqüência de texto
LOWER			= MINÚSCULA			##	Converte texto para minúsculas
MID			= EXT.TEXTO			##	Retorna um número específico de caracteres de uma
seqüência de texto começando na posição especificada
MIDB			= EXT.TEXTOB			##	Retorna um número específico de caracteres de
uma seqüência de texto começando na posição especificada
PHONETIC		= FONÉTICA			##	Extrai os caracteres fonéticos (furigana) de
uma seqüência de caracteres de texto
PROPER			= PRI.MAIÚSCULA			##	Coloca a primeira letra de cada palavra em
maiúscula em um valor de texto
REPLACE			= MUDAR				##	Muda os caracteres dentro do texto
REPLACEB		= MUDARB			##	Muda os caracteres dentro do texto
REPT			= REPT				##	Repete o texto um determinado número de vezes
RIGHT			= DIREITA			##	Retorna os caracteres mais à direita de um valor de
texto
RIGHTB			= DIREITAB			##	Retorna os caracteres mais à direita de um valor
de texto
SEARCH			= LOCALIZAR			##	Localiza um valor de texto dentro de outro (não
diferencia maiúsculas de minúsculas)
SEARCHB			= LOCALIZARB			##	Localiza um valor de texto dentro de outro
(não diferencia maiúsculas de minúsculas)
SUBSTITUTE		= SUBSTITUIR			##	Substitui um novo texto por um texto antigo
em uma seqüência de texto
T			= T				##	Converte os argumentos em texto
TEXT			= TEXTO				##	Formata um número e o converte em texto
TRIM			= ARRUMAR			##	Remove espaços do texto
UPPER			= MAIÚSCULA			##	Converte o texto em maiúsculas
VALUE			= VALOR				##	Converte um argumento de texto em um número
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/locale/pt/config000064400000000355151165413750024054
0ustar00##
## PhpSpreadsheet
##

ArgumentSeparator	= ;


##
##	(For future use)
##
currencySymbol	= €


##
##	Excel Error Codes	(For future use)

##
NULL	= #NULO!
DIV0	= #DIV/0!
VALUE	= #VALOR!
REF	= #REF!
NAME	= #NOME?
NUM	= #NÚM!
NA	= #N/D
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/locale/pt/functions000064400000075612151165413750024627
0ustar00##
##	Add-in and Automation functions			Funções de Suplemento e
Automatização
##
GETPIVOTDATA		= OBTERDADOSDIN			##	Devolve dados armazenados num relatório
de Tabela Dinâmica


##
##	Cube functions					Funções de cubo
##
CUBEKPIMEMBER		= MEMBROKPICUBO			##	Devolve o nome, propriedade e medição
de um KPI (key performance indicator) e apresenta o nome e a propriedade na
célula. Um KPI é uma medida quantificável, como, por exemplo, o lucro
mensal bruto ou a rotatividade trimestral de pessoal, utilizada para
monitorizar o desempenho de uma organização.
CUBEMEMBER		= MEMBROCUBO			##	Devolve um membro ou cadeia de
identificação numa hierarquia de cubo. Utilizada para validar a
existência do membro ou cadeia de identificação no cubo.
CUBEMEMBERPROPERTY	= PROPRIEDADEMEMBROCUBO		##	Devolve o valor de uma
propriedade de membro no cubo. Utilizada para validar a existência de um
nome de membro no cubo e para devolver a propriedade especificada para esse
membro.
CUBERANKEDMEMBER	= MEMBROCLASSIFICADOCUBO	##	Devolve o enésimo ou a
classificação mais alta num conjunto. Utilizada para devolver um ou mais
elementos num conjunto, tal como o melhor vendedor ou os 10 melhores
alunos.
CUBESET			= CONJUNTOCUBO			##	Define um conjunto calculado de membros ou
cadeias de identificação enviando uma expressão de conjunto para o cubo
no servidor, que cria o conjunto e, em seguida, devolve o conjunto ao
Microsoft Office Excel.
CUBESETCOUNT		= CONTARCONJUNTOCUBO		##	Devolve o número de itens num
conjunto.
CUBEVALUE		= VALORCUBO			##	Devolve um valor agregado do cubo.


##
##	Database functions				Funções de base de dados
##
DAVERAGE		= BDMÉDIA			##	Devolve a média das entradas da base de dados
seleccionadas
DCOUNT			= BDCONTAR			##	Conta as células que contêm números numa base
de dados
DCOUNTA			= BDCONTAR.VAL			##	Conta as células que não estejam em branco
numa base de dados
DGET			= BDOBTER			##	Extrai de uma base de dados um único registo que
corresponde aos critérios especificados
DMAX			= BDMÁX				##	Devolve o valor máximo das entradas da base de dados
seleccionadas
DMIN			= BDMÍN				##	Devolve o valor mínimo das entradas da base de dados
seleccionadas
DPRODUCT		= BDMULTIPL			##	Multiplica os valores de um determinado campo de
registos que correspondem aos critérios numa base de dados
DSTDEV			= BDDESVPAD			##	Calcula o desvio-padrão com base numa amostra de
entradas da base de dados seleccionadas
DSTDEVP			= BDDESVPADP			##	Calcula o desvio-padrão com base na
população total das entradas da base de dados seleccionadas
DSUM			= BDSOMA			##	Adiciona os números na coluna de campo dos registos
de base de dados que correspondem aos critérios
DVAR			= BDVAR				##	Calcula a variância com base numa amostra das
entradas de base de dados seleccionadas
DVARP			= BDVARP			##	Calcula a variância com base na população total
das entradas de base de dados seleccionadas


##
##	Date and time functions				Funções de data e hora
##
DATE			= DATA				##	Devolve o número de série de uma determinada data
DATEVALUE		= DATA.VALOR			##	Converte uma data em forma de texto num
número de série
DAY			= DIA				##	Converte um número de série num dia do mês
DAYS360			= DIAS360			##	Calcula o número de dias entre duas datas com
base num ano com 360 dias
EDATE			= DATAM				##	Devolve um número de série de data que corresponde
ao número de meses indicado antes ou depois da data de início
EOMONTH			= FIMMÊS			##	Devolve o número de série do último dia do mês
antes ou depois de um número de meses especificado
HOUR			= HORA				##	Converte um número de série numa hora
MINUTE			= MINUTO			##	Converte um número de série num minuto
MONTH			= MÊS				##	Converte um número de série num mês
NETWORKDAYS		= DIATRABALHOTOTAL		##	Devolve o número total de dias úteis
entre duas datas
NOW			= AGORA				##	Devolve o número de série da data e hora actuais
SECOND			= SEGUNDO			##	Converte um número de série num segundo
TIME			= TEMPO				##	Devolve o número de série de um determinado tempo
TIMEVALUE		= VALOR.TEMPO			##	Converte um tempo em forma de texto num
número de série
TODAY			= HOJE				##	Devolve o número de série da data actual
WEEKDAY			= DIA.SEMANA			##	Converte um número de série num dia da semana
WEEKNUM			= NÚMSEMANA			##	Converte um número de série num número que
representa o número da semana num determinado ano
WORKDAY			= DIA.TRABALHO			##	Devolve o número de série da data antes ou
depois de um número de dias úteis especificado
YEAR			= ANO				##	Converte um número de série num ano
YEARFRAC		= FRACÇÃOANO			##	Devolve a fracção de ano que representa o
número de dias inteiros entre a data_de_início e a data_de_fim


##
##	Engineering functions				Funções de engenharia
##
BESSELI			= BESSELI			##	Devolve a função de Bessel modificada In(x)
BESSELJ			= BESSELJ			##	Devolve a função de Bessel Jn(x)
BESSELK			= BESSELK			##	Devolve a função de Bessel modificada Kn(x)
BESSELY			= BESSELY			##	Devolve a função de Bessel Yn(x)
BIN2DEC			= BINADEC			##	Converte um número binário em decimal
BIN2HEX			= BINAHEX			##	Converte um número binário em hexadecimal
BIN2OCT			= BINAOCT			##	Converte um número binário em octal
COMPLEX			= COMPLEXO			##	Converte coeficientes reais e imaginários num
número complexo
CONVERT			= CONVERTER			##	Converte um número de um sistema de medida
noutro
DEC2BIN			= DECABIN			##	Converte um número decimal em binário
DEC2HEX			= DECAHEX			##	Converte um número decimal em hexadecimal
DEC2OCT			= DECAOCT			##	Converte um número decimal em octal
DELTA			= DELTA				##	Testa se dois valores são iguais
ERF			= FUNCERRO			##	Devolve a função de erro
ERFC			= FUNCERROCOMPL			##	Devolve a função de erro complementar
GESTEP			= DEGRAU			##	Testa se um número é maior do que um valor limite
HEX2BIN			= HEXABIN			##	Converte um número hexadecimal em binário
HEX2DEC			= HEXADEC			##	Converte um número hexadecimal em decimal
HEX2OCT			= HEXAOCT			##	Converte um número hexadecimal em octal
IMABS			= IMABS				##	Devolve o valor absoluto (módulo) de um número
complexo
IMAGINARY		= IMAGINÁRIO			##	Devolve o coeficiente imaginário de um
número complexo
IMARGUMENT		= IMARG				##	Devolve o argumento Teta, um ângulo expresso em
radianos
IMCONJUGATE		= IMCONJ			##	Devolve o conjugado complexo de um número
complexo
IMCOS			= IMCOS				##	Devolve o co-seno de um número complexo
IMDIV			= IMDIV				##	Devolve o quociente de dois números complexos
IMEXP			= IMEXP				##	Devolve o exponencial de um número complexo
IMLN			= IMLN				##	Devolve o logaritmo natural de um número complexo
IMLOG10			= IMLOG10			##	Devolve o logaritmo de base 10 de um número
complexo
IMLOG2			= IMLOG2			##	Devolve o logaritmo de base 2 de um número complexo
IMPOWER			= IMPOT				##	Devolve um número complexo elevado a uma potência
inteira
IMPRODUCT		= IMPROD			##	Devolve o produto de números complexos
IMREAL			= IMREAL			##	Devolve o coeficiente real de um número complexo
IMSIN			= IMSENO			##	Devolve o seno de um número complexo
IMSQRT			= IMRAIZ			##	Devolve a raiz quadrada de um número complexo
IMSUB			= IMSUBTR			##	Devolve a diferença entre dois números complexos
IMSUM			= IMSOMA			##	Devolve a soma de números complexos
OCT2BIN			= OCTABIN			##	Converte um número octal em binário
OCT2DEC			= OCTADEC			##	Converte um número octal em decimal
OCT2HEX			= OCTAHEX			##	Converte um número octal em hexadecimal


##
##	Financial functions				Funções financeiras
##
ACCRINT			= JUROSACUM			##	Devolve os juros acumulados de um título que
paga juros periódicos
ACCRINTM		= JUROSACUMV			##	Devolve os juros acumulados de um título que
paga juros no vencimento
AMORDEGRC		= AMORDEGRC			##	Devolve a depreciação correspondente a cada
período contabilístico utilizando um coeficiente de depreciação
AMORLINC		= AMORLINC			##	Devolve a depreciação correspondente a cada
período contabilístico
COUPDAYBS		= CUPDIASINLIQ			##	Devolve o número de dias entre o início do
período do cupão e a data de regularização
COUPDAYS		= CUPDIAS			##	Devolve o número de dias no período do cupão
que contém a data de regularização
COUPDAYSNC		= CUPDIASPRÓX			##	Devolve o número de dias entre a data de
regularização e a data do cupão seguinte
COUPNCD			= CUPDATAPRÓX			##	Devolve a data do cupão seguinte após a
data de regularização
COUPNUM			= CUPNÚM			##	Devolve o número de cupões a serem pagos entre a
data de regularização e a data de vencimento
COUPPCD			= CUPDATAANT			##	Devolve a data do cupão anterior antes da data
de regularização
CUMIPMT			= PGTOJURACUM			##	Devolve os juros cumulativos pagos entre dois
períodos
CUMPRINC		= PGTOCAPACUM			##	Devolve o capital cumulativo pago a título de
empréstimo entre dois períodos
DB			= BD				##	Devolve a depreciação de um activo relativo a um período
especificado utilizando o método das quotas degressivas fixas
DDB			= BDD				##	Devolve a depreciação de um activo relativo a um
período especificado utilizando o método das quotas degressivas duplas ou
qualquer outro método especificado
DISC			= DESC				##	Devolve a taxa de desconto de um título
DOLLARDE		= MOEDADEC			##	Converte um preço em unidade monetária,
expresso como uma fracção, num preço em unidade monetária, expresso
como um número decimal
DOLLARFR		= MOEDAFRA			##	Converte um preço em unidade monetária,
expresso como um número decimal, num preço em unidade monetária,
expresso como uma fracção
DURATION		= DURAÇÃO			##	Devolve a duração anual de um título com
pagamentos de juros periódicos
EFFECT			= EFECTIVA			##	Devolve a taxa de juros anual efectiva
FV			= VF				##	Devolve o valor futuro de um investimento
FVSCHEDULE		= VFPLANO			##	Devolve o valor futuro de um capital inicial
após a aplicação de uma série de taxas de juro compostas
INTRATE			= TAXAJUROS			##	Devolve a taxa de juros de um título investido
na totalidade
IPMT			= IPGTO				##	Devolve o pagamento dos juros de um investimento
durante um determinado período
IRR			= TIR				##	Devolve a taxa de rentabilidade interna para uma série
de fluxos monetários
ISPMT			= É.PGTO			##	Calcula os juros pagos durante um período
específico de um investimento
MDURATION		= MDURAÇÃO			##	Devolve a duração modificada de Macauley de
um título com um valor de paridade equivalente a € 100
MIRR			= MTIR				##	Devolve a taxa interna de rentabilidade em que os
fluxos monetários positivos e negativos são financiados com taxas
diferentes
NOMINAL			= NOMINAL			##	Devolve a taxa de juros nominal anual
NPER			= NPER				##	Devolve o número de períodos de um investimento
NPV			= VAL				##	Devolve o valor actual líquido de um investimento com
base numa série de fluxos monetários periódicos e numa taxa de desconto
ODDFPRICE		= PREÇOPRIMINC			##	Devolve o preço por € 100 do valor
nominal de um título com um período inicial incompleto
ODDFYIELD		= LUCROPRIMINC			##	Devolve o lucro de um título com um
período inicial incompleto
ODDLPRICE		= PREÇOÚLTINC			##	Devolve o preço por € 100 do valor
nominal de um título com um período final incompleto
ODDLYIELD		= LUCROÚLTINC			##	Devolve o lucro de um título com um
período final incompleto
PMT			= PGTO				##	Devolve o pagamento periódico de uma anuidade
PPMT			= PPGTO				##	Devolve o pagamento sobre o capital de um investimento
num determinado período
PRICE			= PREÇO				##	Devolve o preço por € 100 do valor nominal de um
título que paga juros periódicos
PRICEDISC		= PREÇODESC			##	Devolve o preço por € 100 do valor nominal
de um título descontado
PRICEMAT		= PREÇOVENC			##	Devolve o preço por € 100 do valor nominal
de um título que paga juros no vencimento
PV			= VA				##	Devolve o valor actual de um investimento
RATE			= TAXA				##	Devolve a taxa de juros por período de uma anuidade
RECEIVED		= RECEBER			##	Devolve o montante recebido no vencimento de um
título investido na totalidade
SLN			= AMORT				##	Devolve uma depreciação linear de um activo durante
um período
SYD			= AMORTD			##	Devolve a depreciação por algarismos da soma dos anos
de um activo durante um período especificado
TBILLEQ			= OTN				##	Devolve o lucro de um título equivalente a uma
Obrigação do Tesouro
TBILLPRICE		= OTNVALOR			##	Devolve o preço por € 100 de valor nominal
de uma Obrigação do Tesouro
TBILLYIELD		= OTNLUCRO			##	Devolve o lucro de uma Obrigação do Tesouro
VDB			= BDV				##	Devolve a depreciação de um activo relativo a um
período específico ou parcial utilizando um método de quotas degressivas
XIRR			= XTIR				##	Devolve a taxa interna de rentabilidade de um plano de
fluxos monetários que não seja necessariamente periódica
XNPV			= XVAL				##	Devolve o valor actual líquido de um plano de fluxos
monetários que não seja necessariamente periódico
YIELD			= LUCRO				##	Devolve o lucro de um título que paga juros
periódicos
YIELDDISC		= LUCRODESC			##	Devolve o lucro anual de um título emitido
abaixo do valor nominal, por exemplo, uma Obrigação do Tesouro
YIELDMAT		= LUCROVENC			##	Devolve o lucro anual de um título que paga
juros na data de vencimento


##
##	Information functions				Funções de informação
##
CELL			= CÉL				##	Devolve informações sobre a formatação,
localização ou conteúdo de uma célula
ERROR.TYPE		= TIPO.ERRO			##	Devolve um número correspondente a um tipo de
erro
INFO			= INFORMAÇÃO			##	Devolve informações sobre o ambiente de
funcionamento actual
ISBLANK			= É.CÉL.VAZIA			##	Devolve VERDADEIRO se o valor estiver em
branco
ISERR			= É.ERROS			##	Devolve VERDADEIRO se o valor for um valor de erro
diferente de #N/D
ISERROR			= É.ERRO			##	Devolve VERDADEIRO se o valor for um valor de erro
ISEVEN			= ÉPAR				##	Devolve VERDADEIRO se o número for par
ISLOGICAL		= É.LÓGICO			##	Devolve VERDADEIRO se o valor for lógico
ISNA			= É.NÃO.DISP			##	Devolve VERDADEIRO se o valor for o valor de
erro #N/D
ISNONTEXT		= É.NÃO.TEXTO			##	Devolve VERDADEIRO se o valor não for
texto
ISNUMBER		= É.NÚM				##	Devolve VERDADEIRO se o valor for um número
ISODD			= ÉÍMPAR			##	Devolve VERDADEIRO se o número for ímpar
ISREF			= É.REF				##	Devolve VERDADEIRO se o valor for uma referência
ISTEXT			= É.TEXTO			##	Devolve VERDADEIRO se o valor for texto
N			= N				##	Devolve um valor convertido num número
NA			= NÃO.DISP			##	Devolve o valor de erro #N/D
TYPE			= TIPO				##	Devolve um número que indica o tipo de dados de um
valor


##
##	Logical functions				Funções lógicas
##
AND			= E				##	Devolve VERDADEIRO se todos os respectivos argumentos
corresponderem a VERDADEIRO
FALSE			= FALSO				##	Devolve o valor lógico FALSO
IF			= SE				##	Especifica um teste lógico a ser executado
IFERROR			= SE.ERRO			##	Devolve um valor definido pelo utilizador se
ocorrer um erro na fórmula, e devolve o resultado da fórmula se não
ocorrer nenhum erro
NOT			= NÃO				##	Inverte a lógica do respectivo argumento
OR			= OU				##	Devolve VERDADEIRO se qualquer argumento for VERDADEIRO
TRUE			= VERDADEIRO			##	Devolve o valor lógico VERDADEIRO


##
##	Lookup and reference functions			Funções de pesquisa e referência
##
ADDRESS			= ENDEREÇO			##	Devolve uma referência a uma única célula
numa folha de cálculo como texto
AREAS			= ÁREAS				##	Devolve o número de áreas numa referência
CHOOSE			= SELECCIONAR			##	Selecciona um valor a partir de uma lista de
valores
COLUMN			= COL				##	Devolve o número da coluna de uma referência
COLUMNS			= COLS				##	Devolve o número de colunas numa referência
HLOOKUP			= PROCH				##	Procura na linha superior de uma matriz e devolve o
valor da célula indicada
HYPERLINK		= HIPERLIGAÇÃO			##	Cria um atalho ou hiperligação que abre
um documento armazenado num servidor de rede, numa intranet ou na Internet
INDEX			= ÍNDICE			##	Utiliza um índice para escolher um valor de uma
referência ou de uma matriz
INDIRECT		= INDIRECTO			##	Devolve uma referência indicada por um valor de
texto
LOOKUP			= PROC				##	Procura valores num vector ou numa matriz
MATCH			= CORRESP			##	Procura valores numa referência ou numa matriz
OFFSET			= DESLOCAMENTO			##	Devolve o deslocamento de referência de uma
determinada referência
ROW			= LIN				##	Devolve o número da linha de uma referência
ROWS			= LINS				##	Devolve o número de linhas numa referência
RTD			= RTD				##	Obtém dados em tempo real a partir de um programa que
suporte automatização COM (automatização: modo de trabalhar com
objectos de uma aplicação a partir de outra aplicação ou ferramenta de
desenvolvimento. Anteriormente conhecida como automatização OLE, a
automatização é uma norma da indústria de software e uma funcionalidade
COM (Component Object Model).)
TRANSPOSE		= TRANSPOR			##	Devolve a transposição de uma matriz
VLOOKUP			= PROCV				##	Procura na primeira coluna de uma matriz e percorre
a linha para devolver o valor de uma célula


##
##	Math and trigonometry functions			Funções matemáticas e
trigonométricas
##
ABS			= ABS				##	Devolve o valor absoluto de um número
ACOS			= ACOS				##	Devolve o arco de co-seno de um número
ACOSH			= ACOSH				##	Devolve o co-seno hiperbólico inverso de um número
ASIN			= ASEN				##	Devolve o arco de seno de um número
ASINH			= ASENH				##	Devolve o seno hiperbólico inverso de um número
ATAN			= ATAN				##	Devolve o arco de tangente de um número
ATAN2			= ATAN2				##	Devolve o arco de tangente das coordenadas x e y
ATANH			= ATANH				##	Devolve a tangente hiperbólica inversa de um número
CEILING			= ARRED.EXCESSO			##	Arredonda um número para o número inteiro
mais próximo ou para o múltiplo de significância mais próximo
COMBIN			= COMBIN			##	Devolve o número de combinações de um determinado
número de objectos
COS			= COS				##	Devolve o co-seno de um número
COSH			= COSH				##	Devolve o co-seno hiperbólico de um número
DEGREES			= GRAUS				##	Converte radianos em graus
EVEN			= PAR				##	Arredonda um número por excesso para o número inteiro
mais próximo
EXP			= EXP				##	Devolve e elevado à potência de um determinado número
FACT			= FACTORIAL			##	Devolve o factorial de um número
FACTDOUBLE		= FACTDUPLO			##	Devolve o factorial duplo de um número
FLOOR			= ARRED.DEFEITO			##	Arredonda um número por defeito até zero
GCD			= MDC				##	Devolve o maior divisor comum
INT			= INT				##	Arredonda um número por defeito para o número inteiro
mais próximo
LCM			= MMC				##	Devolve o mínimo múltiplo comum
LN			= LN				##	Devolve o logaritmo natural de um número
LOG			= LOG				##	Devolve o logaritmo de um número com uma base
especificada
LOG10			= LOG10				##	Devolve o logaritmo de base 10 de um número
MDETERM			= MATRIZ.DETERM			##	Devolve o determinante matricial de uma
matriz
MINVERSE		= MATRIZ.INVERSA		##	Devolve o inverso matricial de uma matriz
MMULT			= MATRIZ.MULT			##	Devolve o produto matricial de duas matrizes
MOD			= RESTO				##	Devolve o resto da divisão
MROUND			= MARRED			##	Devolve um número arredondado para o múltiplo
pretendido
MULTINOMIAL		= POLINOMIAL			##	Devolve o polinomial de um conjunto de
números
ODD			= ÍMPAR				##	Arredonda por excesso um número para o número
inteiro ímpar mais próximo
PI			= PI				##	Devolve o valor de pi
POWER			= POTÊNCIA			##	Devolve o resultado de um número elevado a uma
potência
PRODUCT			= PRODUTO			##	Multiplica os respectivos argumentos
QUOTIENT		= QUOCIENTE			##	Devolve a parte inteira de uma divisão
RADIANS			= RADIANOS			##	Converte graus em radianos
RAND			= ALEATÓRIO			##	Devolve um número aleatório entre 0 e 1
RANDBETWEEN		= ALEATÓRIOENTRE		##	Devolve um número aleatório entre os
números especificados
ROMAN			= ROMANO			##	Converte um número árabe em romano, como texto
ROUND			= ARRED				##	Arredonda um número para um número de dígitos
especificado
ROUNDDOWN		= ARRED.PARA.BAIXO		##	Arredonda um número por defeito até
zero
ROUNDUP			= ARRED.PARA.CIMA		##	Arredonda um número por excesso,
afastando-o de zero
SERIESSUM		= SOMASÉRIE			##	Devolve a soma de uma série de potências
baseada na fórmula
SIGN			= SINAL				##	Devolve o sinal de um número
SIN			= SEN				##	Devolve o seno de um determinado ângulo
SINH			= SENH				##	Devolve o seno hiperbólico de um número
SQRT			= RAIZQ				##	Devolve uma raiz quadrada positiva
SQRTPI			= RAIZPI			##	Devolve a raiz quadrada de (núm * pi)
SUBTOTAL		= SUBTOTAL			##	Devolve um subtotal numa lista ou base de dados
SUM			= SOMA				##	Adiciona os respectivos argumentos
SUMIF			= SOMA.SE			##	Adiciona as células especificadas por um
determinado critério
SUMIFS			= SOMA.SE.S			##	Adiciona as células num intervalo que cumpre
vários critérios
SUMPRODUCT		= SOMARPRODUTO			##	Devolve a soma dos produtos de componentes
de matrizes correspondentes
SUMSQ			= SOMARQUAD			##	Devolve a soma dos quadrados dos argumentos
SUMX2MY2		= SOMAX2DY2			##	Devolve a soma da diferença dos quadrados dos
valores correspondentes em duas matrizes
SUMX2PY2		= SOMAX2SY2			##	Devolve a soma da soma dos quadrados dos valores
correspondentes em duas matrizes
SUMXMY2			= SOMAXMY2			##	Devolve a soma dos quadrados da diferença dos
valores correspondentes em duas matrizes
TAN			= TAN				##	Devolve a tangente de um número
TANH			= TANH				##	Devolve a tangente hiperbólica de um número
TRUNC			= TRUNCAR			##	Trunca um número para um número inteiro


##
##	Statistical functions				Funções estatísticas
##
AVEDEV			= DESV.MÉDIO			##	Devolve a média aritmética dos desvios
absolutos à média dos pontos de dados
AVERAGE			= MÉDIA				##	Devolve a média dos respectivos argumentos
AVERAGEA		= MÉDIAA			##	Devolve uma média dos respectivos argumentos,
incluindo números, texto e valores lógicos
AVERAGEIF		= MÉDIA.SE			##	Devolve a média aritmética de todas as
células num intervalo que cumprem determinado critério
AVERAGEIFS		= MÉDIA.SE.S			##	Devolve a média aritmética de todas as
células que cumprem múltiplos critérios
BETADIST		= DISTBETA			##	Devolve a função de distribuição cumulativa
beta
BETAINV			= BETA.ACUM.INV			##	Devolve o inverso da função de
distribuição cumulativa relativamente a uma distribuição beta
específica
BINOMDIST		= DISTRBINOM			##	Devolve a probabilidade de distribuição
binomial de termo individual
CHIDIST			= DIST.CHI			##	Devolve a probabilidade unicaudal da
distribuição qui-quadrada
CHIINV			= INV.CHI			##	Devolve o inverso da probabilidade unicaudal da
distribuição qui-quadrada
CHITEST			= TESTE.CHI			##	Devolve o teste para independência
CONFIDENCE		= INT.CONFIANÇA			##	Devolve o intervalo de confiança
correspondente a uma média de população
CORREL			= CORREL			##	Devolve o coeficiente de correlação entre dois
conjuntos de dados
COUNT			= CONTAR			##	Conta os números que existem na lista de argumentos
COUNTA			= CONTAR.VAL			##	Conta os valores que existem na lista de
argumentos
COUNTBLANK		= CONTAR.VAZIO			##	Conta o número de células em branco num
intervalo
COUNTIF			= CONTAR.SE			##	Calcula o número de células num intervalo que
corresponde aos critérios determinados
COUNTIFS		= CONTAR.SE.S			##	Conta o número de células num intervalo que
cumprem múltiplos critérios
COVAR			= COVAR				##	Devolve a covariância, que é a média dos produtos
de desvios de pares
CRITBINOM		= CRIT.BINOM			##	Devolve o menor valor em que a distribuição
binomial cumulativa é inferior ou igual a um valor de critério
DEVSQ			= DESVQ				##	Devolve a soma dos quadrados dos desvios
EXPONDIST		= DISTEXPON			##	Devolve a distribuição exponencial
FDIST			= DISTF				##	Devolve a distribuição da probabilidade F
FINV			= INVF				##	Devolve o inverso da distribuição da probabilidade F
FISHER			= FISHER			##	Devolve a transformação Fisher
FISHERINV		= FISHERINV			##	Devolve o inverso da transformação Fisher
FORECAST		= PREVISÃO			##	Devolve um valor ao longo de uma tendência
linear
FREQUENCY		= FREQUÊNCIA			##	Devolve uma distribuição de frequência
como uma matriz vertical
FTEST			= TESTEF			##	Devolve o resultado de um teste F
GAMMADIST		= DISTGAMA			##	Devolve a distribuição gama
GAMMAINV		= INVGAMA			##	Devolve o inverso da distribuição gama
cumulativa
GAMMALN			= LNGAMA			##	Devolve o logaritmo natural da função gama, Γ(x)
GEOMEAN			= MÉDIA.GEOMÉTRICA		##	Devolve a média geométrica
GROWTH			= CRESCIMENTO			##	Devolve valores ao longo de uma tendência
exponencial
HARMEAN			= MÉDIA.HARMÓNICA		##	Devolve a média harmónica
HYPGEOMDIST		= DIST.HIPERGEOM		##	Devolve a distribuição hipergeométrica
INTERCEPT		= INTERCEPTAR			##	Devolve a intercepção da linha de
regressão linear
KURT			= CURT				##	Devolve a curtose de um conjunto de dados
LARGE			= MAIOR				##	Devolve o maior valor k-ésimo de um conjunto de
dados
LINEST			= PROJ.LIN			##	Devolve os parâmetros de uma tendência linear
LOGEST			= PROJ.LOG			##	Devolve os parâmetros de uma tendência
exponencial
LOGINV			= INVLOG			##	Devolve o inverso da distribuição normal
logarítmica
LOGNORMDIST		= DIST.NORMALLOG		##	Devolve a distribuição normal
logarítmica cumulativa
MAX			= MÁXIMO			##	Devolve o valor máximo numa lista de argumentos
MAXA			= MÁXIMOA			##	Devolve o valor máximo numa lista de argumentos,
incluindo números, texto e valores lógicos
MEDIAN			= MED				##	Devolve a mediana dos números indicados
MIN			= MÍNIMO			##	Devolve o valor mínimo numa lista de argumentos
MINA			= MÍNIMOA			##	Devolve o valor mínimo numa lista de argumentos,
incluindo números, texto e valores lógicos
MODE			= MODA				##	Devolve o valor mais comum num conjunto de dados
NEGBINOMDIST		= DIST.BIN.NEG			##	Devolve a distribuição binominal
negativa
NORMDIST		= DIST.NORM			##	Devolve a distribuição cumulativa normal
NORMINV			= INV.NORM			##	Devolve o inverso da distribuição cumulativa
normal
NORMSDIST		= DIST.NORMP			##	Devolve a distribuição cumulativa normal
padrão
NORMSINV		= INV.NORMP			##	Devolve o inverso da distribuição cumulativa
normal padrão
PEARSON			= PEARSON			##	Devolve o coeficiente de correlação
momento/produto de Pearson
PERCENTILE		= PERCENTIL			##	Devolve o k-ésimo percentil de valores num
intervalo
PERCENTRANK		= ORDEM.PERCENTUAL		##	Devolve a ordem percentual de um valor
num conjunto de dados
PERMUT			= PERMUTAR			##	Devolve o número de permutações de um
determinado número de objectos
POISSON			= POISSON			##	Devolve a distribuição de Poisson
PROB			= PROB				##	Devolve a probabilidade dos valores num intervalo se
encontrarem entre dois limites
QUARTILE		= QUARTIL			##	Devolve o quartil de um conjunto de dados
RANK			= ORDEM				##	Devolve a ordem de um número numa lista numérica
RSQ			= RQUAD				##	Devolve o quadrado do coeficiente de correlação
momento/produto de Pearson
SKEW			= DISTORÇÃO			##	Devolve a distorção de uma distribuição
SLOPE			= DECLIVE			##	Devolve o declive da linha de regressão linear
SMALL			= MENOR				##	Devolve o menor valor de k-ésimo de um conjunto de
dados
STANDARDIZE		= NORMALIZAR			##	Devolve um valor normalizado
STDEV			= DESVPAD			##	Calcula o desvio-padrão com base numa amostra
STDEVA			= DESVPADA			##	Calcula o desvio-padrão com base numa amostra,
incluindo números, texto e valores lógicos
STDEVP			= DESVPADP			##	Calcula o desvio-padrão com base na população
total
STDEVPA			= DESVPADPA			##	Calcula o desvio-padrão com base na população
total, incluindo números, texto e valores lógicos
STEYX			= EPADYX			##	Devolve o erro-padrão do valor de y previsto para
cada x na regressão
TDIST			= DISTT				##	Devolve a distribuição t de Student
TINV			= INVT				##	Devolve o inverso da distribuição t de Student
TREND			= TENDÊNCIA			##	Devolve valores ao longo de uma tendência linear
TRIMMEAN		= MÉDIA.INTERNA			##	Devolve a média do interior de um conjunto
de dados
TTEST			= TESTET			##	Devolve a probabilidade associada ao teste t de
Student
VAR			= VAR				##	Calcula a variância com base numa amostra
VARA			= VARA				##	Calcula a variância com base numa amostra, incluindo
números, texto e valores lógicos
VARP			= VARP				##	Calcula a variância com base na população total
VARPA			= VARPA				##	Calcula a variância com base na população total,
incluindo números, texto e valores lógicos
WEIBULL			= WEIBULL			##	Devolve a distribuição Weibull
ZTEST			= TESTEZ			##	Devolve o valor de probabilidade unicaudal de um
teste-z


##
##	Text functions					Funções de texto
##
ASC			= ASC				##	Altera letras ou katakana de largura total (byte duplo)
numa cadeia de caracteres para caracteres de largura média (byte único)
BAHTTEXT		= TEXTO.BAHT			##	Converte um número em texto, utilizando o
formato monetário ß (baht)
CHAR			= CARÁCT			##	Devolve o carácter especificado pelo número de
código
CLEAN			= LIMPAR			##	Remove do texto todos os caracteres não imprimíveis
CODE			= CÓDIGO			##	Devolve um código numérico correspondente ao
primeiro carácter numa cadeia de texto
CONCATENATE		= CONCATENAR			##	Agrupa vários itens de texto num único
item de texto
DOLLAR			= MOEDA				##	Converte um número em texto, utilizando o formato
monetário € (Euro)
EXACT			= EXACTO			##	Verifica se dois valores de texto são idênticos
FIND			= LOCALIZAR			##	Localiza um valor de texto dentro de outro
(sensível às maiúsculas e minúsculas)
FINDB			= LOCALIZARB			##	Localiza um valor de texto dentro de outro
(sensível às maiúsculas e minúsculas)
FIXED			= FIXA				##	Formata um número como texto com um número fixo de
decimais
JIS			= JIS				##	Altera letras ou katakana de largura média (byte único)
numa cadeia de caracteres para caracteres de largura total (byte duplo)
LEFT			= ESQUERDA			##	Devolve os caracteres mais à esquerda de um valor
de texto
LEFTB			= ESQUERDAB			##	Devolve os caracteres mais à esquerda de um valor
de texto
LEN			= NÚM.CARACT			##	Devolve o número de caracteres de uma cadeia de
texto
LENB			= NÚM.CARACTB			##	Devolve o número de caracteres de uma cadeia de
texto
LOWER			= MINÚSCULAS			##	Converte o texto em minúsculas
MID			= SEG.TEXTO			##	Devolve um número específico de caracteres de uma
cadeia de texto, a partir da posição especificada
MIDB			= SEG.TEXTOB			##	Devolve um número específico de caracteres de
uma cadeia de texto, a partir da posição especificada
PHONETIC		= FONÉTICA			##	Retira os caracteres fonéticos (furigana) de
uma cadeia de texto
PROPER			= INICIAL.MAIÚSCULA		##	Coloca em maiúsculas a primeira letra de
cada palavra de um valor de texto
REPLACE			= SUBSTITUIR			##	Substitui caracteres no texto
REPLACEB		= SUBSTITUIRB			##	Substitui caracteres no texto
REPT			= REPETIR			##	Repete texto um determinado número de vezes
RIGHT			= DIREITA			##	Devolve os caracteres mais à direita de um valor de
texto
RIGHTB			= DIREITAB			##	Devolve os caracteres mais à direita de um valor
de texto
SEARCH			= PROCURAR			##	Localiza um valor de texto dentro de outro (não
sensível a maiúsculas e minúsculas)
SEARCHB			= PROCURARB			##	Localiza um valor de texto dentro de outro (não
sensível a maiúsculas e minúsculas)
SUBSTITUTE		= SUBST				##	Substitui texto novo por texto antigo numa cadeia
de texto
T			= T				##	Converte os respectivos argumentos em texto
TEXT			= TEXTO				##	Formata um número e converte-o em texto
TRIM			= COMPACTAR			##	Remove espaços do texto
UPPER			= MAIÚSCULAS			##	Converte texto em maiúsculas
VALUE			= VALOR				##	Converte um argumento de texto num número
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/locale/ru/config000064400000000407151165413750024055
0ustar00##
## PhpSpreadsheet
##

ArgumentSeparator	= ;


##
##	(For future use)
##
currencySymbol	= р


##
##	Excel Error Codes	(For future use)

##
NULL	= #ПУСТО!
DIV0	= #ДЕЛ/0!
VALUE	= #ЗНАЧ!
REF	= #ССЫЛ!
NAME	= #ИМЯ?
NUM	= #ЧИСЛО!
NA	= #Н/Д
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/locale/ru/functions000064400000147433151165413750024633
0ustar00##
## PhpSpreadsheet
##
## Data in this file derived from information provided by web-junior
(http://www.web-junior.net/)
##
##


##
##	Add-in and Automation functions				Функции надстроек и
автоматизации
##
GETPIVOTDATA		=
ПОЛУЧИТЬ.ДАННЫЕ.СВОДНОЙ.ТАБЛИЦЫ	##	Возвращает
данные, хранящиеся в отчете сводной
таблицы.


##
##	Cube functions						Функции Куб
##
CUBEKPIMEMBER		= КУБЭЛЕМЕНТКИП				##	Возвращает
свойство ключевого индикатора
производительности «(КИП)» и отображает
имя «КИП» в ячейке. «КИП» представляет
собой количественную величину, такую как
ежемесячная валовая прибыль или
ежеквартальная текучесть кадров,
используемой для контроля эффективности
работы организации.
CUBEMEMBER		= КУБЭЛЕМЕНТ				##	Возвращает
элемент или кортеж из куба. Используется
для проверки существования элемента или
кортежа в кубе.
CUBEMEMBERPROPERTY	=
КУБСВОЙСТВОЭЛЕМЕНТА			##	Возвращает
значение свойства элемента из куба.
Используется для проверки существования
имени элемента в кубе и возвращает
указанное свойство для этого элемента.
CUBERANKEDMEMBER	= КУБПОРЭЛЕМЕНТ				##	Возвращает
n-ый или ранжированный элемент в
множество. Используется для возвращения
одного или нескольких элементов в
множество, например, лучшего продавца
или 10 лучших студентов.
CUBESET			= КУБМНОЖ				##	Определяет
вычислительное множество элементов или
кортежей, отправляя на сервер выражение,
которое создает множество, а затем
возвращает его в Microsoft Office Excel.
CUBESETCOUNT		= КУБЧИСЛОЭЛМНОЖ			##	Возвращает
число элементов множества.
CUBEVALUE		= КУБЗНАЧЕНИЕ				##	Возвращает
обобщенное значение из куба.


##
##	Database functions					Функции для работы с
базами данных
##
DAVERAGE		= ДСРЗНАЧ				##	Возвращает среднее
значение выбранных записей базы данных.
DCOUNT			= БСЧЁТ					##	Подсчитывает количество
числовых ячеек в базе данных.
DCOUNTA			= БСЧЁТА				##	Подсчитывает
количество непустых ячеек в базе данных.
DGET			= БИЗВЛЕЧЬ				##	Извлекает из базы
данных одну запись, удовлетворяющую
заданному условию.
DMAX			= ДМАКС					##	Возвращает максимальное
значение среди выделенных записей базы
данных.
DMIN			= ДМИН					##	Возвращает минимальное
значение среди выделенных записей базы
данных.
DPRODUCT		= БДПРОИЗВЕД				##	Перемножает
значения определенного поля в записях
базы данных, удовлетворяющих условию.
DSTDEV			= ДСТАНДОТКЛ				##	Оценивает
стандартное отклонение по выборке для
выделенных записей базы данных.
DSTDEVP			= ДСТАНДОТКЛП				##	Вычисляет
стандартное отклонение по генеральной
совокупности для выделенных записей
базы данных
DSUM			= БДСУММ				##	Суммирует числа в поле
для записей базы данных, удовлетворяющих
условию.
DVAR			= БДДИСП				##	Оценивает дисперсию по
выборке из выделенных записей базы
данных
DVARP			= БДДИСПП				##	Вычисляет дисперсию по
генеральной совокупности для выделенных
записей базы данных


##
##	Date and time functions					Функции даты и времени
##
DATE			= ДАТА					##	Возвращает заданную дату в
числовом формате.
DATEVALUE		= ДАТАЗНАЧ				##	Преобразует дату из
текстового формата в числовой формат.
DAY			= ДЕНЬ					##	Преобразует дату в числовом
формате в день месяца.
DAYS360			= ДНЕЙ360				##	Вычисляет количество
дней между двумя датами на основе
360-дневного года.
EDATE			= ДАТАМЕС				##	Возвращает дату в
числовом формате, отстоящую на заданное
число месяцев вперед или назад от
начальной даты.
EOMONTH			= КОНМЕСЯЦА				##	Возвращает дату в
числовом формате для последнего дня
месяца, отстоящего вперед или назад на
заданное число месяцев.
HOUR			= ЧАС					##	Преобразует дату в числовом
формате в часы.
MINUTE			= МИНУТЫ				##	Преобразует дату в
числовом формате в минуты.
MONTH			= МЕСЯЦ					##	Преобразует дату в
числовом формате в месяцы.
NETWORKDAYS		= ЧИСТРАБДНИ				##	Возвращает
количество рабочих дней между двумя
датами.
NOW			= ТДАТА					##	Возвращает текущую дату и
время в числовом формате.
SECOND			= СЕКУНДЫ				##	Преобразует дату в
числовом формате в секунды.
TIME			= ВРЕМЯ					##	Возвращает заданное время
в числовом формате.
TIMEVALUE		= ВРЕМЗНАЧ				##	Преобразует время из
текстового формата в числовой формат.
TODAY			= СЕГОДНЯ				##	Возвращает текущую дату
в числовом формате.
WEEKDAY			= ДЕНЬНЕД				##	Преобразует дату в
числовом формате в день недели.
WEEKNUM			= НОМНЕДЕЛИ				##	Преобразует
числовое представление в число, которое
указывает, на какую неделю года
приходится указанная дата.
WORKDAY			= РАБДЕНЬ				##	Возвращает дату в
числовом формате, отстоящую вперед или
назад на заданное количество рабочих
дней.
YEAR			= ГОД					##	Преобразует дату в числовом
формате в год.
YEARFRAC		= ДОЛЯГОДА				##	Возвращает долю года,
которую составляет количество дней
между начальной и конечной датами.


##
##	Engineering functions					Инженерные функции
##
BESSELI			= БЕССЕЛЬ.I	 			##	Возвращает
модифицированную функцию Бесселя In(x).
BESSELJ			= БЕССЕЛЬ.J				##	Возвращает функцию
Бесселя Jn(x).
BESSELK			= БЕССЕЛЬ.K				##	Возвращает
модифицированную функцию Бесселя Kn(x).
BESSELY			= БЕССЕЛЬ.Y				##	Возвращает функцию
Бесселя Yn(x).
BIN2DEC			= ДВ.В.ДЕС				##	Преобразует двоичное
число в десятичное.
BIN2HEX			= ДВ.В.ШЕСТН				##	Преобразует
двоичное число в шестнадцатеричное.
BIN2OCT			= ДВ.В.ВОСЬМ				##	Преобразует
двоичное число в восьмеричное.
COMPLEX			= КОМПЛЕКСН				##	Преобразует
коэффициенты при вещественной и мнимой
частях комплексного числа в комплексное
число.
CONVERT			= ПРЕОБР				##	Преобразует число из
одной системы единиц измерения в другую.
DEC2BIN			= ДЕС.В.ДВ				##	Преобразует
десятичное число в двоичное.
DEC2HEX			= ДЕС.В.ШЕСТН				##	Преобразует
десятичное число в шестнадцатеричное.
DEC2OCT			= ДЕС.В.ВОСЬМ				##	Преобразует
десятичное число в восьмеричное.
DELTA			= ДЕЛЬТА				##	Проверяет равенство двух
значений.
ERF			= ФОШ					##	Возвращает функцию ошибки.
ERFC			= ДФОШ					##	Возвращает дополнительную
функцию ошибки.
GESTEP			= ПОРОГ					##	Проверяет, не превышает
ли данное число порогового значения.
HEX2BIN			= ШЕСТН.В.ДВ				##	Преобразует
шестнадцатеричное число в двоичное.
HEX2DEC			= ШЕСТН.В.ДЕС				##	Преобразует
шестнадцатеричное число в десятичное.
HEX2OCT			= ШЕСТН.В.ВОСЬМ				##	Преобразует
шестнадцатеричное число в восьмеричное.
IMABS			= МНИМ.ABS				##	Возвращает абсолютную
величину (модуль) комплексного числа.
IMAGINARY		= МНИМ.ЧАСТЬ				##	Возвращает
коэффициент при мнимой части
комплексного числа.
IMARGUMENT		= МНИМ.АРГУМЕНТ				##	Возвращает
значение аргумента комплексного числа
(тета) — угол, выраженный в радианах.
IMCONJUGATE		= МНИМ.СОПРЯЖ				##	Возвращает
комплексно-сопряженное комплексное
число.
IMCOS			= МНИМ.COS				##	Возвращает косинус
комплексного числа.
IMDIV			= МНИМ.ДЕЛ				##	Возвращает частное от
деления двух комплексных чисел.
IMEXP			= МНИМ.EXP				##	Возвращает экспоненту
комплексного числа.
IMLN			= МНИМ.LN				##	Возвращает натуральный
логарифм комплексного числа.
IMLOG10			= МНИМ.LOG10				##	Возвращает обычный
(десятичный) логарифм комплексного
числа.
IMLOG2			= МНИМ.LOG2				##	Возвращает двоичный
логарифм комплексного числа.
IMPOWER			= МНИМ.СТЕПЕНЬ				##	Возвращает
комплексное число, возведенное в целую
степень.
IMPRODUCT		= МНИМ.ПРОИЗВЕД				##	Возвращает
произведение от 2 до 29 комплексных чисел.
IMREAL			= МНИМ.ВЕЩ				##	Возвращает
коэффициент при вещественной части
комплексного числа.
IMSIN			= МНИМ.SIN				##	Возвращает синус
комплексного числа.
IMSQRT			= МНИМ.КОРЕНЬ				##	Возвращает
значение квадратного корня из
комплексного числа.
IMSUB			= МНИМ.РАЗН				##	Возвращает разность
двух комплексных чисел.
IMSUM			= МНИМ.СУММ				##	Возвращает сумму
комплексных чисел.
OCT2BIN			= ВОСЬМ.В.ДВ				##	Преобразует
восьмеричное число в двоичное.
OCT2DEC			= ВОСЬМ.В.ДЕС				##	Преобразует
восьмеричное число в десятичное.
OCT2HEX			= ВОСЬМ.В.ШЕСТН				##	Преобразует
восьмеричное число в шестнадцатеричное.


##
##	Financial functions					Финансовые функции
##
ACCRINT			= НАКОПДОХОД				##	Возвращает
накопленный процент по ценным бумагам с
периодической выплатой процентов.
ACCRINTM		= НАКОПДОХОДПОГАШ			##	Возвращает
накопленный процент по ценным бумагам,
проценты по которым выплачиваются в срок
погашения.
AMORDEGRC		= АМОРУМ				##	Возвращает величину
амортизации для каждого периода,
используя коэффициент амортизации.
AMORLINC		= АМОРУВ				##	Возвращает величину
амортизации для каждого периода.
COUPDAYBS		= ДНЕЙКУПОНДО				##	Возвращает
количество дней от начала действия
купона до даты соглашения.
COUPDAYS		= ДНЕЙКУПОН				##	Возвращает число
дней в периоде купона, содержащем дату
соглашения.
COUPDAYSNC		= ДНЕЙКУПОНПОСЛЕ			##	Возвращает
число дней от даты соглашения до срока
следующего купона.
COUPNCD			= ДАТАКУПОНПОСЛЕ			##	Возвращает
следующую дату купона после даты
соглашения.
COUPNUM			= ЧИСЛКУПОН				##	Возвращает
количество купонов, которые могут быть
оплачены между датой соглашения и сроком
вступления в силу.
COUPPCD			= ДАТАКУПОНДО				##	Возвращает
предыдущую дату купона перед датой
соглашения.
CUMIPMT			= ОБЩПЛАТ				##	Возвращает общую
выплату, произведенную между двумя
периодическими выплатами.
CUMPRINC		= ОБЩДОХОД				##	Возвращает общую
выплату по займу между двумя периодами.
DB			= ФУО					##	Возвращает величину
амортизации актива для заданного
периода, рассчитанную методом
фиксированного уменьшения остатка.
DDB			= ДДОБ					##	Возвращает величину
амортизации актива за данный период,
используя метод двойного уменьшения
остатка или иной явно указанный метод.
DISC			= СКИДКА				##	Возвращает норму скидки
для ценных бумаг.
DOLLARDE		= РУБЛЬ.ДЕС				##	Преобразует цену в
рублях, выраженную в виде дроби, в цену в
рублях, выраженную десятичным числом.
DOLLARFR		= РУБЛЬ.ДРОБЬ				##	Преобразует цену в
рублях, выраженную десятичным числом, в
цену в рублях, выраженную в виде дроби.
DURATION		= ДЛИТ					##	Возвращает ежегодную
продолжительность действия ценных бумаг
с периодическими выплатами по процентам.
EFFECT			= ЭФФЕКТ				##	Возвращает действующие
ежегодные процентные ставки.
FV			= БС					##	Возвращает будущую стоимость
инвестиции.
FVSCHEDULE		= БЗРАСПИС				##	Возвращает будущую
стоимость первоначальной основной суммы
после начисления ряда сложных процентов.
INTRATE			= ИНОРМА				##	Возвращает процентную
ставку для полностью инвестированных
ценных бумаг.
IPMT			= ПРПЛТ					##	Возвращает величину
выплаты прибыли на вложения за данный
период.
IRR			= ВСД					##	Возвращает внутреннюю
ставку доходности для ряда потоков
денежных средств.
ISPMT			= ПРОЦПЛАТ				##	Вычисляет выплаты за
указанный период инвестиции.
MDURATION		= МДЛИТ					##	Возвращает
модифицированную длительность Маколея
для ценных бумаг с предполагаемой
номинальной стоимостью 100 рублей.
MIRR			= МВСД					##	Возвращает внутреннюю
ставку доходности, при которой
положительные и отрицательные денежные
потоки имеют разные значения ставки.
NOMINAL			= НОМИНАЛ				##	Возвращает
номинальную годовую процентную ставку.
NPER			= КПЕР					##	Возвращает общее
количество периодов выплаты для данного
вклада.
NPV			= ЧПС					##	Возвращает чистую
приведенную стоимость инвестиции,
основанной на серии периодических
денежных потоков и ставке
дисконтирования.
ODDFPRICE		= ЦЕНАПЕРВНЕРЕГ				##	Возвращает цену
за 100 рублей нарицательной стоимости
ценных бумаг с нерегулярным первым
периодом.
ODDFYIELD		= ДОХОДПЕРВНЕРЕГ			##	Возвращает
доход по ценным бумагам с нерегулярным
первым периодом.
ODDLPRICE		= ЦЕНАПОСЛНЕРЕГ				##	Возвращает цену
за 100 рублей нарицательной стоимости
ценных бумаг с нерегулярным последним
периодом.
ODDLYIELD		= ДОХОДПОСЛНЕРЕГ			##	Возвращает
доход по ценным бумагам с нерегулярным
последним периодом.
PMT			= ПЛТ					##	Возвращает величину выплаты
за один период аннуитета.
PPMT			= ОСПЛТ					##	Возвращает величину
выплат в погашение основной суммы по
инвестиции за заданный период.
PRICE			= ЦЕНА					##	Возвращает цену за 100
рублей нарицательной стоимости ценных
бумаг, по которым производится
периодическая выплата процентов.
PRICEDISC		= ЦЕНАСКИДКА				##	Возвращает цену за
100 рублей номинальной стоимости ценных
бумаг, на которые сделана скидка.
PRICEMAT		= ЦЕНАПОГАШ				##	Возвращает цену за 100
рублей номинальной стоимости ценных
бумаг, проценты по которым выплачиваются
в срок погашения.
PV			= ПС					##	Возвращает приведенную (к
текущему моменту) стоимость инвестиции.
RATE			= СТАВКА				##	Возвращает процентную
ставку по аннуитету за один период.
RECEIVED		= ПОЛУЧЕНО				##	Возвращает сумму,
полученную к сроку погашения полностью
обеспеченных ценных бумаг.
SLN			= АПЛ					##	Возвращает величину
линейной амортизации актива за один
период.
SYD			= АСЧ					##	Возвращает величину
амортизации актива за данный период,
рассчитанную методом суммы годовых
чисел.
TBILLEQ			= РАВНОКЧЕК				##	Возвращает
эквивалентный облигации доход по
казначейскому чеку.
TBILLPRICE		= ЦЕНАКЧЕК				##	Возвращает цену за 100
рублей нарицательной стоимости для
казначейского чека.
TBILLYIELD		= ДОХОДКЧЕК				##	Возвращает доход по
казначейскому чеку.
VDB			= ПУО					##	Возвращает величину
амортизации актива для указанного или
частичного периода при использовании
метода сокращающегося баланса.
XIRR			= ЧИСТВНДОХ				##	Возвращает внутреннюю
ставку доходности для графика денежных
потоков, которые не обязательно носят
периодический характер.
XNPV			= ЧИСТНЗ				##	Возвращает чистую
приведенную стоимость для денежных
потоков, которые не обязательно являются
периодическими.
YIELD			= ДОХОД					##	Возвращает доход от
ценных бумаг, по которым производятся
периодические выплаты процентов.
YIELDDISC		= ДОХОДСКИДКА				##	Возвращает
годовой доход по ценным бумагам, на
которые сделана скидка (пример —
казначейские чеки).
YIELDMAT		= ДОХОДПОГАШ				##	Возвращает годовой
доход от ценных бумаг, проценты по
которым выплачиваются в срок погашения.


##
##	Information functions					Информационные функции
##
CELL			= ЯЧЕЙКА				##	Возвращает информацию о
формате, расположении или содержимом
ячейки.
ERROR.TYPE		= ТИП.ОШИБКИ				##	Возвращает
числовой код, соответствующий типу
ошибки.
INFO			= ИНФОРМ				##	Возвращает информацию о
текущей операционной среде.
ISBLANK			= ЕПУСТО				##	Возвращает значение
ИСТИНА, если аргумент является ссылкой
на пустую ячейку.
ISERR			= ЕОШ					##	Возвращает значение ИСТИНА,
если аргумент ссылается на любое
значение ошибки, кроме #Н/Д.
ISERROR			= ЕОШИБКА				##	Возвращает значение
ИСТИНА, если аргумент ссылается на любое
значение ошибки.
ISEVEN			= ЕЧЁТН					##	Возвращает значение
ИСТИНА, если значение аргумента является
четным числом.
ISLOGICAL		= ЕЛОГИЧ				##	Возвращает значение
ИСТИНА, если аргумент ссылается на
логическое значение.
ISNA			= ЕНД					##	Возвращает значение ИСТИНА,
если аргумент ссылается на значение
ошибки #Н/Д.
ISNONTEXT		= ЕНЕТЕКСТ				##	Возвращает значение
ИСТИНА, если значение аргумента не
является текстом.
ISNUMBER		= ЕЧИСЛО				##	Возвращает значение
ИСТИНА, если аргумент ссылается на число.
ISODD			= ЕНЕЧЁТ				##	Возвращает значение
ИСТИНА, если значение аргумента является
нечетным числом.
ISREF			= ЕССЫЛКА				##	Возвращает значение
ИСТИНА, если значение аргумента является
ссылкой.
ISTEXT			= ЕТЕКСТ				##	Возвращает значение
ИСТИНА, если значение аргумента является
текстом.
N			= Ч					##	Возвращает значение,
преобразованное в число.
NA			= НД					##	Возвращает значение ошибки
#Н/Д.
TYPE			= ТИП					##	Возвращает число,
обозначающее тип данных значения.


##
##	Logical functions					Логические функции
##
AND			= И					##	Renvoie VRAI si tous ses arguments sont VRAI.
FALSE			= ЛОЖЬ					##	Возвращает логическое
значение ЛОЖЬ.
IF			= ЕСЛИ					##	Выполняет проверку условия.
IFERROR			= ЕСЛИОШИБКА				##	Возвращает
введённое значение, если вычисление по
формуле вызывает ошибку; в противном
случае функция возвращает результат
вычисления.
NOT			= НЕ					##	Меняет логическое значение
своего аргумента на противоположное.
OR			= ИЛИ					##	Возвращает значение ИСТИНА,
если хотя бы один аргумент имеет
значение ИСТИНА.
TRUE			= ИСТИНА				##	Возвращает логическое
значение ИСТИНА.


##
##	Lookup and reference functions				Функции ссылки и
поиска
##
ADDRESS			= АДРЕС					##	Возвращает ссылку на
отдельную ячейку листа в виде текста.
AREAS			= ОБЛАСТИ				##	Возвращает количество
областей в ссылке.
CHOOSE			= ВЫБОР					##	Выбирает значение из
списка значений по индексу.
COLUMN			= СТОЛБЕЦ				##	Возвращает номер
столбца, на который указывает ссылка.
COLUMNS			= ЧИСЛСТОЛБ				##	Возвращает
количество столбцов в ссылке.
HLOOKUP			= ГПР					##	Ищет в первой строке
массива и возвращает значение
отмеченной ячейки
HYPERLINK		= ГИПЕРССЫЛКА				##	Создает ссылку,
открывающую документ, который находится
на сервере сети, в интрасети или в
Интернете.
INDEX			= ИНДЕКС				##	Использует индекс для
выбора значения из ссылки или массива.
INDIRECT		= ДВССЫЛ				##	Возвращает ссылку,
заданную текстовым значением.
LOOKUP			= ПРОСМОТР				##	Ищет значения в
векторе или массиве.
MATCH			= ПОИСКПОЗ				##	Ищет значения в ссылке
или массиве.
OFFSET			= СМЕЩ					##	Возвращает смещение
ссылки относительно заданной ссылки.
ROW			= СТРОКА				##	Возвращает номер строки,
определяемой ссылкой.
ROWS			= ЧСТРОК				##	Возвращает количество
строк в ссылке.
RTD			= ДРВ					##	Извлекает данные реального
времени из программ, поддерживающих
автоматизацию COM (Программирование
объектов. Стандартное средство для
работы с объектами некоторого
приложения из другого приложения или
средства разработки. Программирование
объектов (ранее называемое
программированием OLE) является функцией
модели COM (Component Object Model, модель
компонентных объектов).).
TRANSPOSE		= ТРАНСП				##	Возвращает
транспонированный массив.
VLOOKUP			= ВПР					##	Ищет значение в первом
столбце массива и возвращает значение из
ячейки в найденной строке и указанном
столбце.


##
##	Math and trigonometry functions				Математические и
тригонометрические функции
##
ABS			= ABS					##	Возвращает модуль (абсолютную
величину) числа.
ACOS			= ACOS					##	Возвращает арккосинус числа.
ACOSH			= ACOSH					##	Возвращает гиперболический
арккосинус числа.
ASIN			= ASIN					##	Возвращает арксинус числа.
ASINH			= ASINH					##	Возвращает гиперболический
арксинус числа.
ATAN			= ATAN					##	Возвращает арктангенс числа.
ATAN2			= ATAN2					##	Возвращает арктангенс для
заданных координат x и y.
ATANH			= ATANH					##	Возвращает гиперболический
арктангенс числа.
CEILING			= ОКРВВЕРХ				##	Округляет число до
ближайшего целого или до ближайшего
кратного указанному значению.
COMBIN			= ЧИСЛКОМБ				##	Возвращает количество
комбинаций для заданного числа объектов.
COS			= COS					##	Возвращает косинус числа.
COSH			= COSH					##	Возвращает гиперболический
косинус числа.
DEGREES			= ГРАДУСЫ				##	Преобразует радианы в
градусы.
EVEN			= ЧЁТН					##	Округляет число до
ближайшего четного целого.
EXP			= EXP					##	Возвращает число e,
возведенное в указанную степень.
FACT			= ФАКТР					##	Возвращает факториал
числа.
FACTDOUBLE		= ДВФАКТР				##	Возвращает двойной
факториал числа.
FLOOR			= ОКРВНИЗ				##	Округляет число до
ближайшего меньшего по модулю значения.
GCD			= НОД					##	Возвращает наибольший общий
делитель.
INT			= ЦЕЛОЕ					##	Округляет число до
ближайшего меньшего целого.
LCM			= НОК					##	Возвращает наименьшее общее
кратное.
LN			= LN					##	Возвращает натуральный
логарифм числа.
LOG			= LOG					##	Возвращает логарифм числа по
заданному основанию.
LOG10			= LOG10					##	Возвращает десятичный
логарифм числа.
MDETERM			= МОПРЕД				##	Возвращает
определитель матрицы массива.
MINVERSE		= МОБР					##	Возвращает обратную
матрицу массива.
MMULT			= МУМНОЖ				##	Возвращает произведение
матриц двух массивов.
MOD			= ОСТАТ					##	Возвращает остаток от
деления.
MROUND			= ОКРУГЛТ				##	Возвращает число,
округленное с требуемой точностью.
MULTINOMIAL		= МУЛЬТИНОМ				##	Возвращает
мультиномиальный коэффициент множества
чисел.
ODD			= НЕЧЁТ					##	Округляет число до
ближайшего нечетного целого.
PI			= ПИ					##	Возвращает число пи.
POWER			= СТЕПЕНЬ				##	Возвращает результат
возведения числа в степень.
PRODUCT			= ПРОИЗВЕД				##	Возвращает
произведение аргументов.
QUOTIENT		= ЧАСТНОЕ				##	Возвращает целую часть
частного при делении.
RADIANS			= РАДИАНЫ				##	Преобразует градусы в
радианы.
RAND			= СЛЧИС					##	Возвращает случайное
число в интервале от 0 до 1.
RANDBETWEEN		= СЛУЧМЕЖДУ				##	Возвращает
случайное число в интервале между двумя
заданными числами.
ROMAN			= РИМСКОЕ				##	Преобразует арабские
цифры в римские в виде текста.
ROUND			= ОКРУГЛ				##	Округляет число до
указанного количества десятичных
разрядов.
ROUNDDOWN		= ОКРУГЛВНИЗ				##	Округляет число до
ближайшего меньшего по модулю значения.
ROUNDUP			= ОКРУГЛВВЕРХ				##	Округляет число до
ближайшего большего по модулю значения.
SERIESSUM		= РЯД.СУММ				##	Возвращает сумму
степенного ряда, вычисленную по формуле.
SIGN			= ЗНАК					##	Возвращает знак числа.
SIN			= SIN					##	Возвращает синус заданного
угла.
SINH			= SINH					##	Возвращает гиперболический
синус числа.
SQRT			= КОРЕНЬ				##	Возвращает положительное
значение квадратного корня.
SQRTPI			= КОРЕНЬПИ				##	Возвращает квадратный
корень из значения выражения (число * ПИ).
SUBTOTAL		= ПРОМЕЖУТОЧНЫЕ.ИТОГИ			##	Возвращает
промежуточный итог в списке или базе
данных.
SUM			= СУММ					##	Суммирует аргументы.
SUMIF			= СУММЕСЛИ				##	Суммирует ячейки,
удовлетворяющие заданному условию.
SUMIFS			= СУММЕСЛИМН				##	Суммирует диапазон
ячеек, удовлетворяющих нескольким
условиям.
SUMPRODUCT		= СУММПРОИЗВ				##	Возвращает сумму
произведений соответствующих элементов
массивов.
SUMSQ			= СУММКВ				##	Возвращает сумму
квадратов аргументов.
SUMX2MY2		= СУММРАЗНКВ				##	Возвращает сумму
разностей квадратов соответствующих
значений в двух массивах.
SUMX2PY2		= СУММСУММКВ				##	Возвращает сумму
сумм квадратов соответствующих
элементов двух массивов.
SUMXMY2			= СУММКВРАЗН				##	Возвращает сумму
квадратов разностей соответствующих
значений в двух массивах.
TAN			= TAN					##	Возвращает тангенс числа.
TANH			= TANH					##	Возвращает гиперболический
тангенс числа.
TRUNC			= ОТБР					##	Отбрасывает дробную часть
числа.


##
##	Statistical functions					Статистические функции
##
AVEDEV			= СРОТКЛ				##	Возвращает среднее
арифметическое абсолютных значений
отклонений точек данных от среднего.
AVERAGE			= СРЗНАЧ				##	Возвращает среднее
арифметическое аргументов.
AVERAGEA		= СРЗНАЧА				##	Возвращает среднее
арифметическое аргументов, включая
числа, текст и логические значения.
AVERAGEIF		= СРЗНАЧЕСЛИ 				##	Возвращает
среднее значение (среднее
арифметическое) всех ячеек в диапазоне,
которые удовлетворяют данному условию.
AVERAGEIFS		= СРЗНАЧЕСЛИМН 				##	Возвращает
среднее значение (среднее
арифметическое) всех ячеек, которые
удовлетворяют нескольким условиям.
BETADIST		= БЕТАРАСП				##	Возвращает
интегральную функцию
бета-распределения.
BETAINV			= БЕТАОБР				##	Возвращает обратную
интегральную функцию указанного
бета-распределения.
BINOMDIST		= БИНОМРАСП				##	Возвращает
отдельное значение биномиального
распределения.
CHIDIST			= ХИ2РАСП				##	Возвращает
одностороннюю вероятность
распределения хи-квадрат.
CHIINV			= ХИ2ОБР				##	Возвращает обратное
значение односторонней вероятности
распределения хи-квадрат.
CHITEST			= ХИ2ТЕСТ				##	Возвращает тест на
независимость.
CONFIDENCE		= ДОВЕРИТ				##	Возвращает
доверительный интервал для среднего
значения по генеральной совокупности.
CORREL			= КОРРЕЛ				##	Возвращает коэффициент
корреляции между двумя множествами
данных.
COUNT			= СЧЁТ					##	Подсчитывает количество
чисел в списке аргументов.
COUNTA			= СЧЁТЗ					##	Подсчитывает количество
значений в списке аргументов.
COUNTBLANK		= СЧИТАТЬПУСТОТЫ			##	Подсчитывает
количество пустых ячеек в диапазоне
COUNTIF			= СЧЁТЕСЛИ 				##	Подсчитывает
количество ячеек в диапазоне,
удовлетворяющих заданному условию
COUNTIFS		= СЧЁТЕСЛИМН				##	Подсчитывает
количество ячеек внутри диапазона,
удовлетворяющих нескольким условиям.
COVAR			= КОВАР					##	Возвращает ковариацию,
среднее произведений парных отклонений
CRITBINOM		= КРИТБИНОМ				##	Возвращает
наименьшее значение, для которого
интегральное биномиальное
распределение меньше или равно
заданному критерию.
DEVSQ			= КВАДРОТКЛ				##	Возвращает сумму
квадратов отклонений.
EXPONDIST		= ЭКСПРАСП				##	Возвращает
экспоненциальное распределение.
FDIST			= FРАСП					##	Возвращает
F-распределение вероятности.
FINV			= FРАСПОБР				##	Возвращает обратное
значение для F-распределения
вероятности.
FISHER			= ФИШЕР					##	Возвращает
преобразование Фишера.
FISHERINV		= ФИШЕРОБР				##	Возвращает обратное
преобразование Фишера.
FORECAST		= ПРЕДСКАЗ				##	Возвращает значение
линейного тренда.
FREQUENCY		= ЧАСТОТА				##	Возвращает
распределение частот в виде
вертикального массива.
FTEST			= ФТЕСТ					##	Возвращает результат
F-теста.
GAMMADIST		= ГАММАРАСП				##	Возвращает
гамма-распределение.
GAMMAINV		= ГАММАОБР				##	Возвращает обратное
гамма-распределение.
GAMMALN			= ГАММАНЛОГ				##	Возвращает
натуральный логарифм гамма функции, Γ(x).
GEOMEAN			= СРГЕОМ				##	Возвращает среднее
геометрическое.
GROWTH			= РОСТ					##	Возвращает значения в
соответствии с экспоненциальным
трендом.
HARMEAN			= СРГАРМ				##	Возвращает среднее
гармоническое.
HYPGEOMDIST		= ГИПЕРГЕОМЕТ				##	Возвращает
гипергеометрическое распределение.
INTERCEPT		= ОТРЕЗОК				##	Возвращает отрезок,
отсекаемый на оси линией линейной
регрессии.
KURT			= ЭКСЦЕСС				##	Возвращает эксцесс
множества данных.
LARGE			= НАИБОЛЬШИЙ				##	Возвращает k-ое
наибольшее значение в множестве данных.
LINEST			= ЛИНЕЙН				##	Возвращает параметры
линейного тренда.
LOGEST			= ЛГРФПРИБЛ				##	Возвращает параметры
экспоненциального тренда.
LOGINV			= ЛОГНОРМОБР				##	Возвращает обратное
логарифмическое нормальное
распределение.
LOGNORMDIST		= ЛОГНОРМРАСП				##	Возвращает
интегральное логарифмическое
нормальное распределение.
MAX			= МАКС					##	Возвращает наибольшее
значение в списке аргументов.
MAXA			= МАКСА					##	Возвращает наибольшее
значение в списке аргументов, включая
числа, текст и логические значения.
MEDIAN			= МЕДИАНА				##	Возвращает медиану
заданных чисел.
MIN			= МИН					##	Возвращает наименьшее
значение в списке аргументов.
MINA			= МИНА					##	Возвращает наименьшее
значение в списке аргументов, включая
числа, текст и логические значения.
MODE			= МОДА					##	Возвращает значение моды
множества данных.
NEGBINOMDIST		= ОТРБИНОМРАСП				##	Возвращает
отрицательное биномиальное
распределение.
NORMDIST		= НОРМРАСП				##	Возвращает
нормальную функцию распределения.
NORMINV			= НОРМОБР				##	Возвращает обратное
нормальное распределение.
NORMSDIST		= НОРМСТРАСП				##	Возвращает
стандартное нормальное интегральное
распределение.
NORMSINV		= НОРМСТОБР				##	Возвращает обратное
значение стандартного нормального
распределения.
PEARSON			= ПИРСОН				##	Возвращает коэффициент
корреляции Пирсона.
PERCENTILE		= ПЕРСЕНТИЛЬ				##	Возвращает k-ую
персентиль для значений диапазона.
PERCENTRANK		= ПРОЦЕНТРАНГ				##	Возвращает
процентную норму значения в множестве
данных.
PERMUT			= ПЕРЕСТ				##	Возвращает количество
перестановок для заданного числа
объектов.
POISSON			= ПУАССОН				##	Возвращает
распределение Пуассона.
PROB			= ВЕРОЯТНОСТЬ				##	Возвращает
вероятность того, что значение из
диапазона находится внутри заданных
пределов.
QUARTILE		= КВАРТИЛЬ				##	Возвращает квартиль
множества данных.
RANK			= РАНГ					##	Возвращает ранг числа в
списке чисел.
RSQ			= КВПИРСОН				##	Возвращает квадрат
коэффициента корреляции Пирсона.
SKEW			= СКОС					##	Возвращает асимметрию
распределения.
SLOPE			= НАКЛОН				##	Возвращает наклон линии
линейной регрессии.
SMALL			= НАИМЕНЬШИЙ				##	Возвращает k-ое
наименьшее значение в множестве данных.
STANDARDIZE		= НОРМАЛИЗАЦИЯ				##	Возвращает
нормализованное значение.
STDEV			= СТАНДОТКЛОН				##	Оценивает
стандартное отклонение по выборке.
STDEVA			= СТАНДОТКЛОНА				##	Оценивает
стандартное отклонение по выборке,
включая числа, текст и логические
значения.
STDEVP			= СТАНДОТКЛОНП				##	Вычисляет
стандартное отклонение по генеральной
совокупности.
STDEVPA			= СТАНДОТКЛОНПА				##	Вычисляет
стандартное отклонение по генеральной
совокупности, включая числа, текст и
логические значения.
STEYX			= СТОШYX				##	Возвращает стандартную
ошибку предсказанных значений y для
каждого значения x в регрессии.
TDIST			= СТЬЮДРАСП				##	Возвращает
t-распределение Стьюдента.
TINV			= СТЬЮДРАСПОБР				##	Возвращает
обратное t-распределение Стьюдента.
TREND			= ТЕНДЕНЦИЯ				##	Возвращает значения в
соответствии с линейным трендом.
TRIMMEAN		= УРЕЗСРЕДНЕЕ				##	Возвращает
среднее внутренности множества данных.
TTEST			= ТТЕСТ					##	Возвращает вероятность,
соответствующую критерию Стьюдента.
VAR			= ДИСП					##	Оценивает дисперсию по
выборке.
VARA			= ДИСПА					##	Оценивает дисперсию по
выборке, включая числа, текст и
логические значения.
VARP			= ДИСПР					##	Вычисляет дисперсию для
генеральной совокупности.
VARPA			= ДИСПРА				##	Вычисляет дисперсию для
генеральной совокупности, включая числа,
текст и логические значения.
WEIBULL			= ВЕЙБУЛЛ				##	Возвращает
распределение Вейбулла.
ZTEST			= ZТЕСТ					##	Возвращает двустороннее
P-значение z-теста.


##
##	Text functions						Текстовые функции
##
ASC			= ASC					##	Для языков с двухбайтовыми
наборами знаков (например, катакана)
преобразует полноширинные
(двухбайтовые) знаки в полуширинные
(однобайтовые).
BAHTTEXT		= БАТТЕКСТ				##	Преобразует число в
текст, используя денежный формат ß (БАТ).
CHAR			= СИМВОЛ				##	Возвращает знак с
заданным кодом.
CLEAN			= ПЕЧСИМВ				##	Удаляет все
непечатаемые знаки из текста.
CODE			= КОДСИМВ				##	Возвращает числовой код
первого знака в текстовой строке.
CONCATENATE		= СЦЕПИТЬ				##	Объединяет несколько
текстовых элементов в один.
DOLLAR			= РУБЛЬ					##	Преобразует число в
текст, используя денежный формат.
EXACT			= СОВПАД				##	Проверяет идентичность
двух текстовых значений.
FIND			= НАЙТИ					##	Ищет вхождения одного
текстового значения в другом (с учетом
регистра).
FINDB			= НАЙТИБ				##	Ищет вхождения одного
текстового значения в другом (с учетом
регистра).
FIXED			= ФИКСИРОВАННЫЙ				##	Форматирует
число и преобразует его в текст с
заданным числом десятичных знаков.
JIS			= JIS					##	Для языков с двухбайтовыми
наборами знаков (например, катакана)
преобразует полуширинные (однобайтовые)
знаки в текстовой строке в полноширинные
(двухбайтовые).
LEFT			= ЛЕВСИМВ				##	Возвращает крайние
слева знаки текстового значения.
LEFTB			= ЛЕВБ					##	Возвращает крайние слева
знаки текстового значения.
LEN			= ДЛСТР					##	Возвращает количество
знаков в текстовой строке.
LENB			= ДЛИНБ					##	Возвращает количество
знаков в текстовой строке.
LOWER			= СТРОЧН				##	Преобразует все буквы
текста в строчные.
MID			= ПСТР					##	Возвращает заданное число
знаков из строки текста, начиная с
указанной позиции.
MIDB			= ПСТРБ					##	Возвращает заданное число
знаков из строки текста, начиная с
указанной позиции.
PHONETIC		= PHONETIC				##	Извлекает фонетические
(фуригана) знаки из текстовой строки.
PROPER			= ПРОПНАЧ				##	Преобразует первую
букву в каждом слове текста в прописную.
REPLACE			= ЗАМЕНИТЬ				##	Заменяет знаки в
тексте.
REPLACEB		= ЗАМЕНИТЬБ				##	Заменяет знаки в
тексте.
REPT			= ПОВТОР				##	Повторяет текст заданное
число раз.
RIGHT			= ПРАВСИМВ				##	Возвращает крайние
справа знаки текстовой строки.
RIGHTB			= ПРАВБ					##	Возвращает крайние
справа знаки текстовой строки.
SEARCH			= ПОИСК					##	Ищет вхождения одного
текстового значения в другом (без учета
регистра).
SEARCHB			= ПОИСКБ				##	Ищет вхождения одного
текстового значения в другом (без учета
регистра).
SUBSTITUTE		= ПОДСТАВИТЬ				##	Заменяет в
текстовой строке старый текст новым.
T			= Т					##	Преобразует аргументы в текст.
TEXT			= ТЕКСТ					##	Форматирует число и
преобразует его в текст.
TRIM			= СЖПРОБЕЛЫ				##	Удаляет из текста
пробелы.
UPPER			= ПРОПИСН				##	Преобразует все буквы
текста в прописные.
VALUE			= ЗНАЧЕН				##	Преобразует текстовый
аргумент в число.
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/locale/sv/config000064400000000407151165413750024057
0ustar00##
## PhpSpreadsheet
##

ArgumentSeparator	= ;


##
##	(For future use)
##
currencySymbol	= kr


##
##	Excel Error Codes	(For future use)

##
NULL	= #Skärning!
DIV0	= #Division/0!
VALUE	= #Värdefel!
REF	= #Referens!
NAME	= #Namn?
NUM	= #Ogiltigt!
NA	= #Saknas!
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/locale/sv/functions000064400000072275151165413750024636
0ustar00##
##	Add-in and Automation functions			Tilläggs- och
automatiseringsfunktioner
##
GETPIVOTDATA		= HÄMTA.PIVOTDATA		##	Returnerar data som lagrats i en
pivottabellrapport


##
##	Cube functions					Kubfunktioner
##
CUBEKPIMEMBER		= KUBKPIMEDLEM			##	Returnerar namn, egenskap och mått för
en KPI och visar namnet och egenskapen i cellen. En KPI, eller
prestandaindikator, är ett kvantifierbart mått, t.ex. månatlig
bruttovinst eller personalomsättning per kvartal, som används för att
analysera ett företags resultat.
CUBEMEMBER		= KUBMEDLEM			##	Returnerar en medlem eller ett par i en
kubhierarki. Används för att verifiera att medlemmen eller paret finns i
kuben.
CUBEMEMBERPROPERTY	= KUBMEDLEMSEGENSKAP		##	Returnerar värdet för en
medlemsegenskap i kuben. Används för att verifiera att ett medlemsnamn
finns i kuben, samt för att returnera den angivna egenskapen för
medlemmen.
CUBERANKEDMEMBER	= KUBRANGORDNADMEDLEM		##	Returnerar den n:te, eller
rangordnade, medlemmen i en uppsättning. Används för att returnera ett
eller flera element i en uppsättning, till exempelvis den bästa
försäljaren eller de tio bästa eleverna.
CUBESET			= KUBINSTÄLLNING		##	Definierar en beräknad uppsättning
medlemmar eller par genom att skicka ett bestämt uttryck till kuben på
servern, som skapar uppsättningen och sedan returnerar den till Microsoft
Office Excel.
CUBESETCOUNT		= KUBINSTÄLLNINGANTAL		##	Returnerar antalet objekt i en
uppsättning.
CUBEVALUE		= KUBVÄRDE			##	Returnerar ett mängdvärde från en kub.


##
##	Database functions				Databasfunktioner
##
DAVERAGE		= DMEDEL			##	Returnerar medelvärdet av databasposterna
DCOUNT			= DANTAL			##	Räknar antalet celler som innehåller tal i en
databas
DCOUNTA			= DANTALV			##	Räknar ifyllda celler i en databas
DGET			= DHÄMTA			##	Hämtar en enstaka post från en databas som
uppfyller de angivna villkoren
DMAX			= DMAX				##	Returnerar det största värdet från databasposterna
DMIN			= DMIN				##	Returnerar det minsta värdet från databasposterna
DPRODUCT		= DPRODUKT			##	Multiplicerar värdena i ett visst fält i poster
som uppfyller villkoret
DSTDEV			= DSTDAV			##	Uppskattar standardavvikelsen baserat på ett urval
av databasposterna
DSTDEVP			= DSTDAVP			##	Beräknar standardavvikelsen utifrån hela
populationen av valda databasposter
DSUM			= DSUMMA			##	Summerar talen i kolumnfält i databasposter som
uppfyller villkoret
DVAR			= DVARIANS			##	Uppskattar variansen baserat på ett urval av
databasposterna
DVARP			= DVARIANSP			##	Beräknar variansen utifrån hela populationen av
valda databasposter


##
##	Date and time functions				Tid- och datumfunktioner
##
DATE			= DATUM				##	Returnerar ett serienummer för ett visst datum
DATEVALUE		= DATUMVÄRDE			##	Konverterar ett datum i textformat till ett
serienummer
DAY			= DAG				##	Konverterar ett serienummer till dag i månaden
DAYS360			= DAGAR360			##	Beräknar antalet dagar mellan två datum baserat
på ett 360-dagarsår
EDATE			= EDATUM			##	Returnerar serienumret för ett datum som infaller
ett visst antal månader före eller efter startdatumet
EOMONTH			= SLUTMÅNAD			##	Returnerar serienumret för sista dagen i
månaden ett visst antal månader tidigare eller senare
HOUR			= TIMME				##	Konverterar ett serienummer till en timme
MINUTE			= MINUT				##	Konverterar ett serienummer till en minut
MONTH			= MÅNAD				##	Konverterar ett serienummer till en månad
NETWORKDAYS		= NETTOARBETSDAGAR		##	Returnerar antalet hela arbetsdagar
mellan två datum
NOW			= NU				##	Returnerar serienumret för dagens datum och aktuell tid
SECOND			= SEKUND			##	Konverterar ett serienummer till en sekund
TIME			= KLOCKSLAG			##	Returnerar serienumret för en viss tid
TIMEVALUE		= TIDVÄRDE			##	Konverterar en tid i textformat till ett
serienummer
TODAY			= IDAG				##	Returnerar serienumret för dagens datum
WEEKDAY			= VECKODAG			##	Konverterar ett serienummer till en dag i veckan
WEEKNUM			= VECKONR			##	Konverterar ett serienummer till ett veckonummer
WORKDAY			= ARBETSDAGAR			##	Returnerar serienumret för ett datum ett
visst antal arbetsdagar tidigare eller senare
YEAR			= ÅR				##	Konverterar ett serienummer till ett år
YEARFRAC		= ÅRDEL				##	Returnerar en del av ett år som representerar
antalet hela dagar mellan start- och slutdatum


##
##	Engineering functions				Tekniska funktioner
##
BESSELI			= BESSELI			##	Returnerar den modifierade Bessel-funktionen In(x)
BESSELJ			= BESSELJ			##	Returnerar Bessel-funktionen Jn(x)
BESSELK			= BESSELK			##	Returnerar den modifierade Bessel-funktionen Kn(x)
BESSELY			= BESSELY			##	Returnerar Bessel-funktionen Yn(x)
BIN2DEC			= BIN.TILL.DEC			##	Omvandlar ett binärt tal till decimalt
BIN2HEX			= BIN.TILL.HEX			##	Omvandlar ett binärt tal till hexadecimalt
BIN2OCT			= BIN.TILL.OKT			##	Omvandlar ett binärt tal till oktalt
COMPLEX			= KOMPLEX			##	Omvandlar reella och imaginära koefficienter till
ett komplext tal
CONVERT			= KONVERTERA			##	Omvandlar ett tal från ett måttsystem till
ett annat
DEC2BIN			= DEC.TILL.BIN			##	Omvandlar ett decimalt tal till binärt
DEC2HEX			= DEC.TILL.HEX			##	Omvandlar ett decimalt tal till hexadecimalt
DEC2OCT			= DEC.TILL.OKT			##	Omvandlar ett decimalt tal till oktalt
DELTA			= DELTA				##	Testar om två värden är lika
ERF			= FELF				##	Returnerar felfunktionen
ERFC			= FELFK				##	Returnerar den komplementära felfunktionen
GESTEP			= SLSTEG			##	Testar om ett tal är större än ett tröskelvärde
HEX2BIN			= HEX.TILL.BIN			##	Omvandlar ett hexadecimalt tal till binärt
HEX2DEC			= HEX.TILL.DEC			##	Omvandlar ett hexadecimalt tal till decimalt
HEX2OCT			= HEX.TILL.OKT			##	Omvandlar ett hexadecimalt tal till oktalt
IMABS			= IMABS				##	Returnerar absolutvärdet (modulus) för ett komplext
tal
IMAGINARY		= IMAGINÄR			##	Returnerar den imaginära koefficienten för
ett komplext tal
IMARGUMENT		= IMARGUMENT			##	Returnerar det komplexa talets argument, en
vinkel uttryckt i radianer
IMCONJUGATE		= IMKONJUGAT			##	Returnerar det komplexa talets konjugat
IMCOS			= IMCOS				##	Returnerar cosinus för ett komplext tal
IMDIV			= IMDIV				##	Returnerar kvoten för två komplexa tal
IMEXP			= IMEUPPHÖJT			##	Returnerar exponenten för ett komplext tal
IMLN			= IMLN				##	Returnerar den naturliga logaritmen för ett komplext
tal
IMLOG10			= IMLOG10			##	Returnerar 10-logaritmen för ett komplext tal
IMLOG2			= IMLOG2			##	Returnerar 2-logaritmen för ett komplext tal
IMPOWER			= IMUPPHÖJT			##	Returnerar ett komplext tal upphöjt till en
exponent
IMPRODUCT		= IMPRODUKT			##	Returnerar produkten av komplexa tal
IMREAL			= IMREAL			##	Returnerar den reella koefficienten för ett
komplext tal
IMSIN			= IMSIN				##	Returnerar sinus för ett komplext tal
IMSQRT			= IMROT				##	Returnerar kvadratroten av ett komplext tal
IMSUB			= IMDIFF			##	Returnerar differensen mellan två komplexa tal
IMSUM			= IMSUM				##	Returnerar summan av komplexa tal
OCT2BIN			= OKT.TILL.BIN			##	Omvandlar ett oktalt tal till binärt
OCT2DEC			= OKT.TILL.DEC			##	Omvandlar ett oktalt tal till decimalt
OCT2HEX			= OKT.TILL.HEX			##	Omvandlar ett oktalt tal till hexadecimalt


##
##	Financial functions				Finansiella funktioner
##
ACCRINT			= UPPLRÄNTA			##	Returnerar den upplupna räntan för
värdepapper med periodisk ränta
ACCRINTM		= UPPLOBLRÄNTA			##	Returnerar den upplupna räntan för ett
värdepapper som ger avkastning på förfallodagen
AMORDEGRC		= AMORDEGRC			##	Returnerar avskrivningen för varje
redovisningsperiod med hjälp av en avskrivningskoefficient
AMORLINC		= AMORLINC			##	Returnerar avskrivningen för varje
redovisningsperiod
COUPDAYBS		= KUPDAGBB			##	Returnerar antal dagar från början av
kupongperioden till likviddagen
COUPDAYS		= KUPDAGARS			##	Returnerar antalet dagar i kupongperioden som
innehåller betalningsdatumet
COUPDAYSNC		= KUPDAGNK			##	Returnerar antalet dagar från
betalningsdatumet till nästa kupongdatum
COUPNCD			= KUPNKD			##	Returnerar nästa kupongdatum efter likviddagen
COUPNUM			= KUPANT			##	Returnerar kuponger som förfaller till betalning
mellan likviddagen och förfallodagen
COUPPCD			= KUPFKD			##	Returnerar föregående kupongdatum före
likviddagen
CUMIPMT			= KUMRÄNTA			##	Returnerar den ackumulerade räntan som betalats
mellan två perioder
CUMPRINC		= KUMPRIS			##	Returnerar det ackumulerade kapitalbeloppet som
betalats på ett lån mellan två perioder
DB			= DB				##	Returnerar avskrivningen för en tillgång under en angiven
tid enligt metoden för fast degressiv avskrivning
DDB			= DEGAVSKR			##	Returnerar en tillgångs värdeminskning under en
viss period med hjälp av dubbel degressiv avskrivning eller någon annan
metod som du anger
DISC			= DISK				##	Returnerar diskonteringsräntan för ett värdepapper
DOLLARDE		= DECTAL			##	Omvandlar ett pris uttryckt som ett bråk till ett
decimaltal
DOLLARFR		= BRÅK				##	Omvandlar ett pris i kronor uttryckt som ett
decimaltal till ett bråk
DURATION		= LÖPTID			##	Returnerar den årliga löptiden för en säkerhet
med periodiska räntebetalningar
EFFECT			= EFFRÄNTA			##	Returnerar den årliga effektiva räntesatsen
FV			= SLUTVÄRDE			##	Returnerar det framtida värdet på en investering
FVSCHEDULE		= FÖRRÄNTNING			##	Returnerar det framtida värdet av ett
begynnelsekapital beräknat på olika räntenivåer
INTRATE			= ÅRSRÄNTA			##	Returnerar räntesatsen för ett betalt
värdepapper
IPMT			= RBETALNING			##	Returnerar räntedelen av en betalning för en
given period
IRR			= IR				##	Returnerar internräntan för en serie betalningar
ISPMT			= RALÅN				##	Beräknar räntan som har betalats under en specifik
betalningsperiod
MDURATION		= MLÖPTID			##	Returnerar den modifierade Macauley-löptiden
för ett värdepapper med det antagna nominella värdet 100 kr
MIRR			= MODIR				##	Returnerar internräntan där positiva och negativa
betalningar finansieras med olika räntor
NOMINAL			= NOMRÄNTA			##	Returnerar den årliga nominella räntesatsen
NPER			= PERIODER			##	Returnerar antalet perioder för en investering
NPV			= NETNUVÄRDE			##	Returnerar nuvärdet av en serie periodiska
betalningar vid en given diskonteringsränta
ODDFPRICE		= UDDAFPRIS			##	Returnerar priset per 100 kr nominellt värde
för ett värdepapper med en udda första period
ODDFYIELD		= UDDAFAVKASTNING		##	Returnerar avkastningen för en säkerhet
med en udda första period
ODDLPRICE		= UDDASPRIS			##	Returnerar priset per 100 kr nominellt värde
för ett värdepapper med en udda sista period
ODDLYIELD		= UDDASAVKASTNING		##	Returnerar avkastningen för en säkerhet
med en udda sista period
PMT			= BETALNING			##	Returnerar den periodiska betalningen för en
annuitet
PPMT			= AMORT				##	Returnerar amorteringsdelen av en annuitetsbetalning
för en given period
PRICE			= PRIS				##	Returnerar priset per 100 kr nominellt värde för ett
värdepapper som ger periodisk ränta
PRICEDISC		= PRISDISK			##	Returnerar priset per 100 kr nominellt värde
för ett diskonterat värdepapper
PRICEMAT		= PRISFÖRF			##	Returnerar priset per 100 kr nominellt värde
för ett värdepapper som ger ränta på förfallodagen
PV			= PV				##	Returnerar nuvärdet av en serie lika stora periodiska
betalningar
RATE			= RÄNTA				##	Returnerar räntesatsen per period i en annuitet
RECEIVED		= BELOPP			##	Returnerar beloppet som utdelas på förfallodagen
för ett betalat värdepapper
SLN			= LINAVSKR			##	Returnerar den linjära avskrivningen för en
tillgång under en period
SYD			= ÅRSAVSKR			##	Returnerar den årliga avskrivningssumman för en
tillgång under en angiven period
TBILLEQ			= SSVXEKV			##	Returnerar avkastningen motsvarande en obligation
för en statsskuldväxel
TBILLPRICE		= SSVXPRIS			##	Returnerar priset per 100 kr nominellt värde
för en statsskuldväxel
TBILLYIELD		= SSVXRÄNTA			##	Returnerar avkastningen för en
statsskuldväxel
VDB			= VDEGRAVSKR			##	Returnerar avskrivningen för en tillgång under en
angiven period (med degressiv avskrivning)
XIRR			= XIRR				##	Returnerar internräntan för en serie betalningar som
inte nödvändigtvis är periodiska
XNPV			= XNUVÄRDE			##	Returnerar det nuvarande nettovärdet för en serie
betalningar som inte nödvändigtvis är periodiska
YIELD			= NOMAVK			##	Returnerar avkastningen för ett värdepapper som ger
periodisk ränta
YIELDDISC		= NOMAVKDISK			##	Returnerar den årliga avkastningen för
diskonterade värdepapper, exempelvis en statsskuldväxel
YIELDMAT		= NOMAVKFÖRF			##	Returnerar den årliga avkastningen för ett
värdepapper som ger ränta på förfallodagen


##
##	Information functions				Informationsfunktioner
##
CELL			= CELL				##	Returnerar information om formatering, plats och
innehåll i en cell
ERROR.TYPE		= FEL.TYP			##	Returnerar ett tal som motsvarar ett felvärde
INFO			= INFO				##	Returnerar information om operativsystemet
ISBLANK			= ÄRREF				##	Returnerar SANT om värdet är tomt
ISERR			= Ä				##	Returnerar SANT om värdet är ett felvärde annat än
#SAKNAS!
ISERROR			= ÄRFEL				##	Returnerar SANT om värdet är ett felvärde
ISEVEN			= ÄRJÄMN			##	Returnerar SANT om talet är jämnt
ISLOGICAL		= ÄREJTEXT			##	Returnerar SANT om värdet är ett logiskt
värde
ISNA			= ÄRLOGISK			##	Returnerar SANT om värdet är felvärdet #SAKNAS!
ISNONTEXT		= ÄRSAKNAD			##	Returnerar SANT om värdet inte är text
ISNUMBER		= ÄRTAL				##	Returnerar SANT om värdet är ett tal
ISODD			= ÄRUDDA			##	Returnerar SANT om talet är udda
ISREF			= ÄRTOM				##	Returnerar SANT om värdet är en referens
ISTEXT			= ÄRTEXT			##	Returnerar SANT om värdet är text
N			= N				##	Returnerar ett värde omvandlat till ett tal
NA			= SAKNAS			##	Returnerar felvärdet #SAKNAS!
TYPE			= VÄRDETYP			##	Returnerar ett tal som anger värdets datatyp


##
##	Logical functions				Logiska funktioner
##
AND			= OCH				##	Returnerar SANT om alla argument är sanna
FALSE			= FALSKT			##	Returnerar det logiska värdet FALSKT
IF			= OM				##	Anger vilket logiskt test som ska utföras
IFERROR			= OMFEL				##	Returnerar ett värde som du anger om en formel
utvärderar till ett fel; annars returneras resultatet av formeln
NOT			= ICKE				##	Inverterar logiken för argumenten
OR			= ELLER				##	Returnerar SANT om något argument är SANT
TRUE			= SANT				##	Returnerar det logiska värdet SANT


##
##	Lookup and reference functions			Sök- och referensfunktioner
##
ADDRESS			= ADRESS			##	Returnerar en referens som text till en enstaka
cell i ett kalkylblad
AREAS			= OMRÅDEN			##	Returnerar antalet områden i en referens
CHOOSE			= VÄLJ				##	Väljer ett värde i en lista över värden
COLUMN			= KOLUMN			##	Returnerar kolumnnumret för en referens
COLUMNS			= KOLUMNER			##	Returnerar antalet kolumner i en referens
HLOOKUP			= LETAKOLUMN			##	Söker i den översta raden i en matris och
returnerar värdet för angiven cell
HYPERLINK		= HYPERLÄNK			##	Skapar en genväg eller ett hopp till ett
dokument i nätverket, i ett intranät eller på Internet
INDEX			= INDEX				##	Använder ett index för ett välja ett värde i en
referens eller matris
INDIRECT		= INDIREKT			##	Returnerar en referens som anges av ett
textvärde
LOOKUP			= LETAUPP			##	Letar upp värden i en vektor eller matris
MATCH			= PASSA				##	Letar upp värden i en referens eller matris
OFFSET			= FÖRSKJUTNING			##	Returnerar en referens förskjuten i
förhållande till en given referens
ROW			= RAD				##	Returnerar radnumret för en referens
ROWS			= RADER				##	Returnerar antalet rader i en referens
RTD			= RTD				##	Hämtar realtidsdata från ett program som stöder
COM-automation (Automation: Ett sätt att arbeta med ett programs objekt
från ett annat program eller utvecklingsverktyg. Detta kallades tidigare
för OLE Automation, och är en branschstandard och ingår i Component
Object Model (COM).)
TRANSPOSE		= TRANSPONERA			##	Transponerar en matris
VLOOKUP			= LETARAD			##	Letar i den första kolumnen i en matris och
flyttar över raden för att returnera värdet för en cell


##
##	Math and trigonometry functions			Matematiska och trigonometriska
funktioner
##
ABS			= ABS				##	Returnerar absolutvärdet av ett tal
ACOS			= ARCCOS			##	Returnerar arcus cosinus för ett tal
ACOSH			= ARCCOSH			##	Returnerar inverterad hyperbolisk cosinus för ett
tal
ASIN			= ARCSIN			##	Returnerar arcus cosinus för ett tal
ASINH			= ARCSINH			##	Returnerar hyperbolisk arcus sinus för ett tal
ATAN			= ARCTAN			##	Returnerar arcus tangens för ett tal
ATAN2			= ARCTAN2			##	Returnerar arcus tangens för en x- och en y-
koordinat
ATANH			= ARCTANH			##	Returnerar hyperbolisk arcus tangens för ett tal
CEILING			= RUNDA.UPP			##	Avrundar ett tal till närmaste heltal eller
närmaste signifikanta multipel
COMBIN			= KOMBIN			##	Returnerar antalet kombinationer för ett givet
antal objekt
COS			= COS				##	Returnerar cosinus för ett tal
COSH			= COSH				##	Returnerar hyperboliskt cosinus för ett tal
DEGREES			= GRADER			##	Omvandlar radianer till grader
EVEN			= JÄMN				##	Avrundar ett tal uppåt till närmaste heltal
EXP			= EXP				##	Returnerar e upphöjt till ett givet tal
FACT			= FAKULTET			##	Returnerar fakulteten för ett tal
FACTDOUBLE		= DUBBELFAKULTET		##	Returnerar dubbelfakulteten för ett tal
FLOOR			= RUNDA.NED			##	Avrundar ett tal nedåt mot noll
GCD			= SGD				##	Returnerar den största gemensamma nämnaren
INT			= HELTAL			##	Avrundar ett tal nedåt till närmaste heltal
LCM			= MGM				##	Returnerar den minsta gemensamma multipeln
LN			= LN				##	Returnerar den naturliga logaritmen för ett tal
LOG			= LOG				##	Returnerar logaritmen för ett tal för en given bas
LOG10			= LOG10				##	Returnerar 10-logaritmen för ett tal
MDETERM			= MDETERM			##	Returnerar matrisen som är avgörandet av en
matris
MINVERSE		= MINVERT			##	Returnerar matrisinversen av en matris
MMULT			= MMULT				##	Returnerar matrisprodukten av två matriser
MOD			= REST				##	Returnerar resten vid en division
MROUND			= MAVRUNDA			##	Returnerar ett tal avrundat till en given multipel
MULTINOMIAL		= MULTINOMIAL			##	Returnerar multinomialen för en
uppsättning tal
ODD			= UDDA				##	Avrundar ett tal uppåt till närmaste udda heltal
PI			= PI				##	Returnerar värdet pi
POWER			= UPPHÖJT.TILL			##	Returnerar resultatet av ett tal upphöjt till
en exponent
PRODUCT			= PRODUKT			##	Multiplicerar argumenten
QUOTIENT		= KVOT				##	Returnerar heltalsdelen av en division
RADIANS			= RADIANER			##	Omvandlar grader till radianer
RAND			= SLUMP				##	Returnerar ett slumptal mellan 0 och 1
RANDBETWEEN		= SLUMP.MELLAN			##	Returnerar ett slumptal mellan de tal som
du anger
ROMAN			= ROMERSK			##	Omvandlar vanliga (arabiska) siffror till romerska
som text
ROUND			= AVRUNDA			##	Avrundar ett tal till ett angivet antal siffror
ROUNDDOWN		= AVRUNDA.NEDÅT			##	Avrundar ett tal nedåt mot noll
ROUNDUP			= AVRUNDA.UPPÅT			##	Avrundar ett tal uppåt, från noll
SERIESSUM		= SERIESUMMA			##	Returnerar summan av en potensserie baserat
på formeln
SIGN			= TECKEN			##	Returnerar tecknet för ett tal
SIN			= SIN				##	Returnerar sinus för en given vinkel
SINH			= SINH				##	Returnerar hyperbolisk sinus för ett tal
SQRT			= ROT				##	Returnerar den positiva kvadratroten
SQRTPI			= ROTPI				##	Returnerar kvadratroten för (tal * pi)
SUBTOTAL		= DELSUMMA			##	Returnerar en delsumma i en lista eller databas
SUM			= SUMMA				##	Summerar argumenten
SUMIF			= SUMMA.OM			##	Summerar celler enligt ett angivet villkor
SUMIFS			= SUMMA.OMF			##	Lägger till cellerna i ett område som uppfyller
flera kriterier
SUMPRODUCT		= PRODUKTSUMMA			##	Returnerar summan av produkterna i
motsvarande matriskomponenter
SUMSQ			= KVADRATSUMMA			##	Returnerar summan av argumentens kvadrater
SUMX2MY2		= SUMMAX2MY2			##	Returnerar summan av differensen mellan
kvadraterna för motsvarande värden i två matriser
SUMX2PY2		= SUMMAX2PY2			##	Returnerar summan av summan av kvadraterna av
motsvarande värden i två matriser
SUMXMY2			= SUMMAXMY2			##	Returnerar summan av kvadraten av skillnaden
mellan motsvarande värden i två matriser
TAN			= TAN				##	Returnerar tangens för ett tal
TANH			= TANH				##	Returnerar hyperbolisk tangens för ett tal
TRUNC			= AVKORTA			##	Avkortar ett tal till ett heltal


##
##	Statistical functions				Statistiska funktioner
##
AVEDEV			= MEDELAVV			##	Returnerar medelvärdet för datapunkters absoluta
avvikelse från deras medelvärde
AVERAGE			= MEDEL				##	Returnerar medelvärdet av argumenten
AVERAGEA		= AVERAGEA			##	Returnerar medelvärdet av argumenten, inklusive
tal, text och logiska värden
AVERAGEIF		= MEDELOM			##	Returnerar medelvärdet (aritmetiskt medelvärde)
för alla celler i ett område som uppfyller ett givet kriterium
AVERAGEIFS		= MEDELOMF			##	Returnerar medelvärdet (det aritmetiska
medelvärdet) för alla celler som uppfyller flera villkor.
BETADIST		= BETAFÖRD			##	Returnerar den kumulativa
betafördelningsfunktionen
BETAINV			= BETAINV			##	Returnerar inversen till den kumulativa
fördelningsfunktionen för en viss betafördelning
BINOMDIST		= BINOMFÖRD			##	Returnerar den individuella
binomialfördelningen
CHIDIST			= CHI2FÖRD			##	Returnerar den ensidiga sannolikheten av
c2-fördelningen
CHIINV			= CHI2INV			##	Returnerar inversen av chi2-fördelningen
CHITEST			= CHI2TEST			##	Returnerar oberoendetesten
CONFIDENCE		= KONFIDENS			##	Returnerar konfidensintervallet för en
populations medelvärde
CORREL			= KORREL			##	Returnerar korrelationskoefficienten mellan två
datamängder
COUNT			= ANTAL				##	Räknar hur många tal som finns bland argumenten
COUNTA			= ANTALV			##	Räknar hur många värden som finns bland
argumenten
COUNTBLANK		= ANTAL.TOMMA			##	Räknar antalet tomma celler i ett område
COUNTIF			= ANTAL.OM			##	Räknar antalet celler i ett område som
uppfyller angivna villkor.
COUNTIFS		= ANTAL.OMF			##	Räknar antalet celler i ett område som
uppfyller flera villkor.
COVAR			= KOVAR				##	Returnerar kovariansen, d.v.s. medelvärdet av
produkterna för parade avvikelser
CRITBINOM		= KRITBINOM			##	Returnerar det minsta värdet för vilket den
kumulativa binomialfördelningen är mindre än eller lika med ett
villkorsvärde
DEVSQ			= KVADAVV			##	Returnerar summan av kvadrater på avvikelser
EXPONDIST		= EXPONFÖRD			##	Returnerar exponentialfördelningen
FDIST			= FFÖRD				##	Returnerar F-sannolikhetsfördelningen
FINV			= FINV				##	Returnerar inversen till F-sannolikhetsfördelningen
FISHER			= FISHER			##	Returnerar Fisher-transformationen
FISHERINV		= FISHERINV			##	Returnerar inversen till
Fisher-transformationen
FORECAST		= PREDIKTION			##	Returnerar ett värde längs en linjär
trendlinje
FREQUENCY		= FREKVENS			##	Returnerar en frekvensfördelning som en lodrät
matris
FTEST			= FTEST				##	Returnerar resultatet av en F-test
GAMMADIST		= GAMMAFÖRD			##	Returnerar gammafördelningen
GAMMAINV		= GAMMAINV			##	Returnerar inversen till den kumulativa
gammafördelningen
GAMMALN			= GAMMALN			##	Returnerar den naturliga logaritmen för
gammafunktionen, G(x)
GEOMEAN			= GEOMEDEL			##	Returnerar det geometriska medelvärdet
GROWTH			= EXPTREND			##	Returnerar värden längs en exponentiell trend
HARMEAN			= HARMMEDEL			##	Returnerar det harmoniska medelvärdet
HYPGEOMDIST		= HYPGEOMFÖRD			##	Returnerar den hypergeometriska
fördelningen
INTERCEPT		= SKÄRNINGSPUNKT		##	Returnerar skärningspunkten för en
linjär regressionslinje
KURT			= TOPPIGHET			##	Returnerar toppigheten av en mängd data
LARGE			= STÖRSTA			##	Returnerar det n:te största värdet i en mängd
data
LINEST			= REGR				##	Returnerar parametrar till en linjär trendlinje
LOGEST			= EXPREGR			##	Returnerar parametrarna i en exponentiell trend
LOGINV			= LOGINV			##	Returnerar inversen till den lognormala
fördelningen
LOGNORMDIST		= LOGNORMFÖRD			##	Returnerar den kumulativa lognormala
fördelningen
MAX			= MAX				##	Returnerar det största värdet i en lista av argument
MAXA			= MAXA				##	Returnerar det största värdet i en lista av argument,
inklusive tal, text och logiska värden
MEDIAN			= MEDIAN			##	Returnerar medianen för angivna tal
MIN			= MIN				##	Returnerar det minsta värdet i en lista med argument
MINA			= MINA				##	Returnerar det minsta värdet i en lista över
argument, inklusive tal, text och logiska värden
MODE			= TYPVÄRDE			##	Returnerar det vanligaste värdet i en datamängd
NEGBINOMDIST		= NEGBINOMFÖRD			##	Returnerar den negativa
binomialfördelningen
NORMDIST		= NORMFÖRD			##	Returnerar den kumulativa normalfördelningen
NORMINV			= NORMINV			##	Returnerar inversen till den kumulativa
normalfördelningen
NORMSDIST		= NORMSFÖRD			##	Returnerar den kumulativa
standardnormalfördelningen
NORMSINV		= NORMSINV			##	Returnerar inversen till den kumulativa
standardnormalfördelningen
PEARSON			= PEARSON			##	Returnerar korrelationskoefficienten till Pearsons
momentprodukt
PERCENTILE		= PERCENTIL			##	Returnerar den n:te percentilen av värden i
ett område
PERCENTRANK		= PROCENTRANG			##	Returnerar procentrangen för ett värde i
en datamängd
PERMUT			= PERMUT			##	Returnerar antal permutationer för ett givet antal
objekt
POISSON			= POISSON			##	Returnerar Poisson-fördelningen
PROB			= SANNOLIKHET			##	Returnerar sannolikheten att värden i ett
område ligger mellan två gränser
QUARTILE		= KVARTIL			##	Returnerar kvartilen av en mängd data
RANK			= RANG				##	Returnerar rangordningen för ett tal i en lista med
tal
RSQ			= RKV				##	Returnerar kvadraten av Pearsons
produktmomentkorrelationskoefficient
SKEW			= SNEDHET			##	Returnerar snedheten för en fördelning
SLOPE			= LUTNING			##	Returnerar lutningen på en linjär regressionslinje
SMALL			= MINSTA			##	Returnerar det n:te minsta värdet i en mängd data
STANDARDIZE		= STANDARDISERA			##	Returnerar ett normaliserat värde
STDEV			= STDAV				##	Uppskattar standardavvikelsen baserat på ett urval
STDEVA			= STDEVA			##	Uppskattar standardavvikelsen baserat på ett urval,
inklusive tal, text och logiska värden
STDEVP			= STDAVP			##	Beräknar standardavvikelsen baserat på hela
populationen
STDEVPA			= STDEVPA			##	Beräknar standardavvikelsen baserat på hela
populationen, inklusive tal, text och logiska värden
STEYX			= STDFELYX			##	Returnerar standardfelet för ett förutspått
y-värde för varje x-värde i regressionen
TDIST			= TFÖRD				##	Returnerar Students t-fördelning
TINV			= TINV				##	Returnerar inversen till Students t-fördelning
TREND			= TREND				##	Returnerar värden längs en linjär trend
TRIMMEAN		= TRIMMEDEL			##	Returnerar medelvärdet av mittpunkterna i en
datamängd
TTEST			= TTEST				##	Returnerar sannolikheten beräknad ur Students t-test
VAR			= VARIANS			##	Uppskattar variansen baserat på ett urval
VARA			= VARA				##	Uppskattar variansen baserat på ett urval, inklusive
tal, text och logiska värden
VARP			= VARIANSP			##	Beräknar variansen baserat på hela populationen
VARPA			= VARPA				##	Beräknar variansen baserat på hela populationen,
inklusive tal, text och logiska värden
WEIBULL			= WEIBULL			##	Returnerar Weibull-fördelningen
ZTEST			= ZTEST				##	Returnerar det ensidiga sannolikhetsvärdet av ett
z-test


##
##	Text functions					Textfunktioner
##
ASC			= ASC				##	Ändrar helbredds (dubbel byte) engelska bokstäver eller
katakana inom en teckensträng till tecken med halvt breddsteg (enkel byte)
BAHTTEXT		= BAHTTEXT			##	Omvandlar ett tal till text med valutaformatet ß
(baht)
CHAR			= TECKENKOD			##	Returnerar tecknet som anges av kod
CLEAN			= STÄDA				##	Tar bort alla icke utskrivbara tecken i en text
CODE			= KOD				##	Returnerar en numerisk kod för det första tecknet i en
textsträng
CONCATENATE		= SAMMANFOGA			##	Sammanfogar flera textdelar till en
textsträng
DOLLAR			= VALUTA			##	Omvandlar ett tal till text med valutaformat
EXACT			= EXAKT				##	Kontrollerar om två textvärden är identiska
FIND			= HITTA				##	Hittar en text i en annan (skiljer på gemener och
versaler)
FINDB			= HITTAB			##	Hittar en text i en annan (skiljer på gemener och
versaler)
FIXED			= FASTTAL			##	Formaterar ett tal som text med ett fast antal
decimaler
JIS			= JIS				##	Ändrar halvbredds (enkel byte) engelska bokstäver eller
katakana inom en teckensträng till tecken med helt breddsteg (dubbel byte)
LEFT			= VÄNSTER			##	Returnerar tecken längst till vänster i en sträng
LEFTB			= VÄNSTERB			##	Returnerar tecken längst till vänster i en
sträng
LEN			= LÄNGD				##	Returnerar antalet tecken i en textsträng
LENB			= LÄNGDB			##	Returnerar antalet tecken i en textsträng
LOWER			= GEMENER			##	Omvandlar text till gemener
MID			= EXTEXT			##	Returnerar angivet antal tecken från en text med
början vid den position som du anger
MIDB			= EXTEXTB			##	Returnerar angivet antal tecken från en text med
början vid den position som du anger
PHONETIC		= PHONETIC			##	Returnerar de fonetiska (furigana) tecknen i en
textsträng
PROPER			= INITIAL			##	Ändrar första bokstaven i varje ord i ett
textvärde till versal
REPLACE			= ERSÄTT			##	Ersätter tecken i text
REPLACEB		= ERSÄTTB			##	Ersätter tecken i text
REPT			= REP				##	Upprepar en text ett bestämt antal gånger
RIGHT			= HÖGER				##	Returnerar tecken längst till höger i en sträng
RIGHTB			= HÖGERB			##	Returnerar tecken längst till höger i en sträng
SEARCH			= SÖK				##	Hittar ett textvärde i ett annat (skiljer inte på
gemener och versaler)
SEARCHB			= SÖKB				##	Hittar ett textvärde i ett annat (skiljer inte på
gemener och versaler)
SUBSTITUTE		= BYT.UT			##	Ersätter gammal text med ny text i en
textsträng
T			= T				##	Omvandlar argumenten till text
TEXT			= TEXT				##	Formaterar ett tal och omvandlar det till text
TRIM			= RENSA				##	Tar bort blanksteg från text
UPPER			= VERSALER			##	Omvandlar text till versaler
VALUE			= TEXTNUM			##	Omvandlar ett textargument till ett tal
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/locale/tr/config000064400000000357151165413750024060
0ustar00##
## PhpSpreadsheet
##

ArgumentSeparator	= ;


##
##	(For future use)
##
currencySymbol	= YTL


##
##	Excel Error Codes	(For future use)

##
NULL	= #BOŞ!
DIV0	= #SAYI/0!
VALUE	= #DEĞER!
REF	= #BAŞV!
NAME	= #AD?
NUM	= #SAYI!
NA	= #YOK
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/locale/tr/functions000064400000075165151165413750024634
0ustar00##
## PhpSpreadsheet
##
## Data in this file derived from
https://www.excel-function-translation.com/
##
##


##
##	Add-in and Automation functions			Eklenti ve Otomasyon fonksiyonları
##
GETPIVOTDATA		= ÖZETVERİAL	##	Bir Özet Tablo raporunda saklanan verileri
verir.


##
##	Cube functions					Küp işlevleri
##
CUBEKPIMEMBER		= KÜPKPIÜYE			##	Kilit performans göstergesi (KPI-Key
Performance Indicator) adını, özelliğini ve ölçüsünü verir ve
hücredeki ad ve özelliği gösterir. KPI, bir kurumun performansını
izlemek için kullanılan aylık brüt kâr ya da üç aylık çalışan
giriş çıkışları gibi ölçülebilen bir birimdir.
CUBEMEMBER			= KÜPÜYE			##	Bir küp hiyerarşisinde bir üyeyi veya
kaydı verir. Üye veya kaydın küpte varolduğunu doğrulamak için
kullanılır.
CUBEMEMBERPROPERTY	= KÜPÜYEÖZELLİĞİ	##	Bir küpte bir üyenin
özelliğinin değerini verir. Küp içinde üye adının varlığını
doğrulamak ve bu üyenin belli özelliklerini getirmek için kullanılır.
CUBERANKEDMEMBER	= KÜPÜYESIRASI 		##	Bir küme içindeki üyenin
derecesini veya kaçıncı olduğunu verir. En iyi satış elemanı, veya
en iyi on öğrenci gibi bir kümedeki bir veya daha fazla öğeyi getirmek
için kullanılır.
CUBESET				= KÜPKÜME			##	Kümeyi oluşturan ve ardından bu kümeyi
Microsoft Office Excel'e getiren sunucudaki küpe küme ifadelerini
göndererek hesaplanan üye veya kayıt kümesini tanımlar.
CUBESETCOUNT		= KÜPKÜMESAY		##	Bir kümedeki öğelerin sayısını
getirir.
CUBEVALUE			= KÜPDEĞER 			##	Bir küpten toplam değeri getirir.


##
##	Database functions				Veritabanı işlevleri
##
DAVERAGE		= VSEÇORT			##	Seçili veritabanı girdilerinin ortalamasını
verir.
DCOUNT			= VSEÇSAY			##	Veritabanında sayı içeren hücre sayısını
hesaplar.
DCOUNTA			= VSEÇSAYDOLU		##	Veritabanındaki boş olmayan hücreleri
sayar.
DGET			= VAL				##	Veritabanından, belirtilen ölçütlerle eşleşen tek
bir rapor çıkarır.
DMAX			= VSEÇMAK			##	Seçili veritabanı girişlerinin en yüksek
değerini verir.
DMIN			= VSEÇMİN			##	Seçili veritabanı girişlerinin en düşük
değerini verir.
DPRODUCT		= VSEÇÇARP			##	Kayıtların belli bir alanında bulunan, bir
veritabanındaki ölçütlerle eşleşen değerleri çarpar.
DSTDEV			= VSEÇSTDSAPMA		##	Seçili veritabanı girişlerinden oluşan bir
örneğe dayanarak, standart sapmayı tahmin eder.
DSTDEVP			= VSEÇSTDSAPMAS		##	Standart sapmayı, seçili veritabanı
girişlerinin tüm popülasyonunu esas alarak hesaplar.
DSUM			= VSEÇTOPLA			##	Kayıtların alan sütununda bulunan, ölçütle
eşleşen sayıları toplar.
DVAR			= VSEÇVAR			##	Seçili veritabanı girişlerinden oluşan bir
örneği esas alarak farkı tahmin eder.
DVARP			= VSEÇVARS			##	Seçili veritabanı girişlerinin tüm
popülasyonunu esas alarak farkı hesaplar.


##
##	Date and time functions				Tarih ve saat işlevleri
##
DATE			= TARİH				##	Belirli bir tarihin seri numarasını verir.
DATEVALUE		= TARİHSAYISI		##	Metin biçimindeki bir tarihi seri
numarasına dönüştürür.
DAY				= GÜN				##	Seri numarasını, ayın bir gününe dönüştürür.
DAYS360			= GÜN360			##	İki tarih arasındaki gün sayısını, 360
günlük yılı esas alarak hesaplar.
EDATE			= SERİTARİH			##	Başlangıç tarihinden itibaren, belirtilen ay
sayısından önce veya sonraki tarihin seri numarasını verir.
EOMONTH			= SERİAY			##	Belirtilen sayıda ay önce veya sonraki ayın son
gününün seri numarasını verir.
HOUR			= SAAT				##	Bir seri numarasını saate dönüştürür.
MINUTE			= DAKİKA			##	Bir seri numarasını dakikaya dönüştürür.
MONTH			= AY				##	Bir seri numarasını aya dönüştürür.
NETWORKDAYS		= TAMİŞGÜNÜ			##	İki tarih arasındaki tam çalışma
günlerinin sayısını verir.
NOW				= ŞİMDİ				##	Geçerli tarihin ve saatin seri numarasını verir.
SECOND			= SANİYE			##	Bir seri numarasını saniyeye dönüştürür.
TIME			= ZAMAN				##	Belirli bir zamanın seri numarasını verir.
TIMEVALUE		= ZAMANSAYISI		##	Metin biçimindeki zamanı seri numarasına
dönüştürür.
TODAY			= BUGÜN				##	Bugünün tarihini seri numarasına dönüştürür.
WEEKDAY			= HAFTANINGÜNÜ		##	Bir seri numarasını, haftanın gününe
dönüştürür.
WEEKNUM			= HAFTASAY			##	Dizisel değerini, haftanın yıl içinde
bulunduğu konumu sayısal olarak gösteren sayıya dönüştürür.
WORKDAY			= İŞGÜNÜ			##	Belirtilen sayıda çalışma günü öncesinin
ya da sonrasının tarihinin seri numarasını verir.
YEAR			= YIL				##	Bir seri numarasını yıla dönüştürür.
YEARFRAC		= YILORAN			##	Başlangıç_tarihi ve bitiş_tarihi arasındaki
tam günleri gösteren yıl kesrini verir.


##
##	Engineering functions				Mühendislik işlevleri
##
BESSELI			= BESSELI			##	Değiştirilmiş Bessel fonksiyonu In(x)'i
verir.
BESSELJ			= BESSELJ			##	Bessel fonksiyonu Jn(x)'i verir.
BESSELK			= BESSELK			##	Değiştirilmiş Bessel fonksiyonu Kn(x)'i
verir.
BESSELY			= BESSELY			##	Bessel fonksiyonu Yn(x)'i verir.
BIN2DEC			= BIN2DEC			##	İkili bir sayıyı, ondalık sayıya
dönüştürür.
BIN2HEX			= BIN2HEX			##	İkili bir sayıyı, onaltılıya dönüştürür.
BIN2OCT			= BIN2OCT			##	İkili bir sayıyı, sekizliye dönüştürür.
COMPLEX			= KARMAŞIK			##	Gerçek ve sanal katsayıları, karmaşık
sayıya dönüştürür.
CONVERT			= ÇEVİR				##	Bir sayıyı, bir ölçüm sisteminden bir başka
ölçüm sistemine dönüştürür.
DEC2BIN			= DEC2BIN			##	Ondalık bir sayıyı, ikiliye dönüştürür.
DEC2HEX			= DEC2HEX			##	Ondalık bir sayıyı, onaltılıya
dönüştürür.
DEC2OCT			= DEC2OCT			##	Ondalık bir sayıyı sekizliğe dönüştürür.
DELTA			= DELTA				##	İki değerin eşit olup olmadığını sınar.
ERF				= HATAİŞLEV			##	Hata işlevini verir.
ERFC			= TÜMHATAİŞLEV		##	Tümleyici hata işlevini verir.
GESTEP			= BESINIR			##	Bir sayının eşik değerinden büyük olup
olmadığını sınar.
HEX2BIN			= HEX2BIN			##	Onaltılı bir sayıyı ikiliye dönüştürür.
HEX2DEC			= HEX2DEC			##	Onaltılı bir sayıyı ondalığa
dönüştürür.
HEX2OCT			= HEX2OCT			##	Onaltılı bir sayıyı sekizliğe
dönüştürür.
IMABS			= SANMUTLAK			##	Karmaşık bir sayının mutlak değerini (modül)
verir.
IMAGINARY		= SANAL				##	Karmaşık bir sayının sanal katsayısını
verir.
IMARGUMENT		= SANBAĞ_DEĞİŞKEN	##	Radyanlarla belirtilen bir açı olan
teta bağımsız değişkenini verir.
IMCONJUGATE		= SANEŞLENEK		##	Karmaşık bir sayının karmaşık
eşleniğini verir.
IMCOS			= SANCOS			##	Karmaşık bir sayının kosinüsünü verir.
IMDIV			= SANBÖL			##	İki karmaşık sayının bölümünü verir.
IMEXP			= SANÜS				##	Karmaşık bir sayının üssünü verir.
IMLN			= SANLN				##	Karmaşık bir sayının doğal logaritmasını verir.
IMLOG10			= SANLOG10			##	Karmaşık bir sayının, 10 tabanında
logaritmasını verir.
IMLOG2			= SANLOG2			##	Karmaşık bir sayının 2 tabanında
logaritmasını verir.
IMPOWER			= SANÜSSÜ			##	Karmaşık bir sayıyı, bir tamsayı üssüne
yükseltilmiş olarak verir.
IMPRODUCT		= SANÇARP			##	Karmaşık sayıların çarpımını verir.
IMREAL			= SANGERÇEK			##	Karmaşık bir sayının, gerçek katsayısını
verir.
IMSIN			= SANSIN			##	Karmaşık bir sayının sinüsünü verir.
IMSQRT			= SANKAREKÖK		##	Karmaşık bir sayının karekökünü verir.
IMSUB			= SANÇIKAR			##	İki karmaşık sayının farkını verir.
IMSUM			= SANTOPLA			##	Karmaşık sayıların toplamını verir.
OCT2BIN			= OCT2BIN			##	Sekizli bir sayıyı ikiliye dönüştürür.
OCT2DEC			= OCT2DEC			##	Sekizli bir sayıyı ondalığa dönüştürür.
OCT2HEX			= OCT2HEX			##	Sekizli bir sayıyı onaltılıya dönüştürür.


##
##	Financial functions				Finansal fonksiyonlar
##
ACCRINT			= GERÇEKFAİZ		##	Dönemsel faiz ödeyen hisse senedine ilişkin
tahakkuk eden faizi getirir.
ACCRINTM		= GERÇEKFAİZV		##	Vadesinde ödeme yapan bir tahvilin tahakkuk
etmiş faizini verir.
AMORDEGRC		= AMORDEGRC			##	Yıpranma katsayısı kullanarak her hesap
döneminin değer kaybını verir.
AMORLINC		= AMORLINC			##	Her hesap dönemi içindeki yıpranmayı verir.
COUPDAYBS		= KUPONGÜNBD		##	Kupon süresinin başlangıcından alış
tarihine kadar olan süredeki gün sayısını verir.
COUPDAYS		= KUPONGÜN			##	Kupon süresindeki, gün sayısını, alış
tarihini de içermek üzere, verir.
COUPDAYSNC		= KUPONGÜNDSK		##	Alış tarihinden bir sonraki kupon tarihine
kadar olan gün sayısını verir.
COUPNCD			= KUPONGÜNSKT		##	Alış tarihinden bir sonraki kupon tarihini
verir.
COUPNUM			= KUPONSAYI			##	Alış tarihiyle vade tarihi arasında ödenecek
kuponların sayısını verir.
COUPPCD			= KUPONGÜNÖKT		##	Alış tarihinden bir önceki kupon tarihini
verir.
CUMIPMT			= AİÇVERİMORANI		##	İki dönem arasında ödenen kümülatif
faizi verir.
CUMPRINC		= ANA_PARA_ÖDEMESİ	##	İki dönem arasında bir borç üzerine
ödenen birikimli temeli verir.
DB				= AZALANBAKİYE		##	Bir malın belirtilen bir süre içindeki
yıpranmasını, sabit azalan bakiye yöntemini kullanarak verir.
DDB				= ÇİFTAZALANBAKİYE	##	Bir malın belirtilen bir süre içindeki
yıpranmasını, çift azalan bakiye yöntemi ya da sizin belirttiğiniz
başka bir yöntemi kullanarak verir.
DISC			= İNDİRİM			##	Bir tahvilin indirim oranını verir.
DOLLARDE		= LİRAON			##	Kesir olarak tanımlanmış lira fiyatını,
ondalık sayı olarak tanımlanmış lira fiyatına dönüştürür.
DOLLARFR		= LİRAKES			##	Ondalık sayı olarak tanımlanmış lira
fiyatını, kesir olarak tanımlanmış lira fiyatına dönüştürür.
DURATION		= SÜRE				##	Belli aralıklarla faiz ödemesi yapan bir tahvilin
yıllık süresini verir.
EFFECT			= ETKİN				##	Efektif yıllık faiz oranını verir.
FV				= ANBD				##	Bir yatırımın gelecekteki değerini verir.
FVSCHEDULE		= GDPROGRAM			##	Bir seri birleşik faiz oranı uyguladıktan
sonra, bir başlangıçtaki anaparanın gelecekteki değerini verir.
INTRATE			= FAİZORANI			##	Tam olarak yatırım yapılmış bir tahvilin
faiz oranını verir.
IPMT			= FAİZTUTARI		##	Bir yatırımın verilen bir süre için faiz
ödemesini verir.
IRR				= İÇ_VERİM_ORANI	##	Bir para akışı serisi için, iç verim
oranını verir.
ISPMT			= ISPMT				##	Yatırımın belirli bir dönemi boyunca ödenen
faizi hesaplar.
MDURATION		= MSÜRE				##	Varsayılan par değeri 10.000.000 lira olan bir
tahvil için Macauley değiştirilmiş süreyi verir.
MIRR			= D_İÇ_VERİM_ORANI	##	Pozitif ve negatif para akışlarının
farklı oranlarda finanse edildiği durumlarda, iç verim oranını verir.
NOMINAL			= NOMİNAL			##	Yıllık nominal faiz oranını verir.
NPER			= DÖNEM_SAYISI		##	Bir yatırımın dönem sayısını verir.
NPV				= NBD				##	Bir yatırımın bugünkü net değerini, bir dönemsel
para akışları serisine ve bir indirim oranına bağlı olarak verir.
ODDFPRICE		= TEKYDEĞER			##	Tek bir ilk dönemi olan bir tahvilin
değerini, her 100.000.000 lirada bir verir.
ODDFYIELD		= TEKYÖDEME			##	Tek bir ilk dönemi olan bir tahvilin
ödemesini verir.
ODDLPRICE		= TEKSDEĞER			##	Tek bir son dönemi olan bir tahvilin
fiyatını her 10.000.000 lirada bir verir.
ODDLYIELD		= TEKSÖDEME			##	Tek bir son dönemi olan bir tahvilin
ödemesini verir.
PMT				= DEVRESEL_ÖDEME	##	Bir yıllık dönemsel ödemeyi verir.
PPMT			= ANA_PARA_ÖDEMESİ	##	Verilen bir süre için, bir yatırımın
anaparasına dayanan ödemeyi verir.
PRICE			= DEĞER				##	Dönemsel faiz ödeyen bir tahvilin fiyatını
10.000.00 liralık değer başına verir.
PRICEDISC		= DEĞERİND			##	İndirimli bir tahvilin fiyatını 10.000.000
liralık nominal değer başına verir.
PRICEMAT		= DEĞERVADE			##	Faizini vade sonunda ödeyen bir tahvilin
fiyatını 10.000.000 nominal değer başına verir.
PV				= BD				##	Bir yatırımın bugünkü değerini verir.
RATE			= FAİZ_ORANI		##	Bir yıllık dönem başına düşen faiz
oranını verir.
RECEIVED		= GETİRİ			##	Tam olarak yatırılmış bir tahvilin vadesinin
bitiminde alınan miktarı verir.
SLN				= DA				##	Bir malın bir dönem içindeki doğrusal yıpranmasını
verir.
SYD				= YAT				##	Bir malın belirli bir dönem için olan amortismanını
verir.
TBILLEQ			= HTAHEŞ			##	Bir Hazine bonosunun bono eşdeğeri ödemesini
verir.
TBILLPRICE		= HTAHDEĞER			##	Bir Hazine bonosunun değerini, 10.000.000
liralık nominal değer başına verir.
TBILLYIELD		= HTAHÖDEME			##	Bir Hazine bonosunun ödemesini verir.
VDB				= DAB				##	Bir malın amortismanını, belirlenmiş ya da kısmi
bir dönem için, bir azalan bakiye yöntemi kullanarak verir.
XIRR			= AİÇVERİMORANI		##	Dönemsel olması gerekmeyen bir para
akışları programı için, iç verim oranını verir.
XNPV			= ANBD				##	Dönemsel olması gerekmeyen bir para akışları
programı için, bugünkü net değeri verir.
YIELD			= ÖDEME				##	Belirli aralıklarla faiz ödeyen bir tahvilin
ödemesini verir.
YIELDDISC		= ÖDEMEİND			##	İndirimli bir tahvilin yıllık ödemesini
verir; örneğin, bir Hazine bonosunun.
YIELDMAT		= ÖDEMEVADE			##	Vadesinin bitiminde faiz ödeyen bir tahvilin
yıllık ödemesini verir.


##
##	Information functions				Bilgi fonksiyonları
##
CELL			= HÜCRE			##	Bir hücrenin biçimlendirmesi, konumu ya da içeriği
hakkında bilgi verir.
ERROR.TYPE		= HATA.TİPİ		##	Bir hata türüne ilişkin sayıları verir.
INFO			= BİLGİ			##	Geçerli işletim ortamı hakkında bilgi verir.
ISBLANK			= EBOŞSA		##	Değer boşsa, DOĞRU verir.
ISERR			= EHATA			##	Değer, #YOK dışındaki bir hata değeriyse, DOĞRU
verir.
ISERROR			= EHATALIYSA	##	Değer, herhangi bir hata değeriyse, DOĞRU
verir.
ISEVEN			= ÇİFTTİR		##	Sayı çiftse, DOĞRU verir.
ISLOGICAL		= EMANTIKSALSA	##	Değer, mantıksal bir değerse, DOĞRU verir.
ISNA			= EYOKSA		##	Değer, #YOK hata değeriyse, DOĞRU verir.
ISNONTEXT		= EMETİNDEĞİLSE	##	Değer, metin değilse, DOĞRU verir.
ISNUMBER		= ESAYIYSA		##	Değer, bir sayıysa, DOĞRU verir.
ISODD			= TEKTİR		##	Sayı tekse, DOĞRU verir.
ISREF			= EREFSE		##	Değer bir başvuruysa, DOĞRU verir.
ISTEXT			= EMETİNSE		##	Değer bir metinse DOĞRU verir.
N				= N				##	Sayıya dönüştürülmüş bir değer verir.
NA				= YOKSAY		##	#YOK hata değerini verir.
TYPE			= TİP			##	Bir değerin veri türünü belirten bir sayı verir.


##
##	Logical functions				Mantıksal fonksiyonlar
##
AND				= VE			##	Bütün bağımsız değişkenleri DOĞRU ise, DOĞRU
verir.
FALSE			= YANLIŞ		##	YANLIŞ mantıksal değerini verir.
IF				= EĞER			##	Gerçekleştirilecek bir mantıksal sınama belirtir.
IFERROR			= EĞERHATA		##	Formül hatalıysa belirttiğiniz değeri verir;
bunun dışındaki durumlarda formülün sonucunu verir.
NOT				= DEĞİL			##	Bağımsız değişkeninin mantığını tersine
çevirir.
OR				= YADA			##	Bağımsız değişkenlerden herhangi birisi DOĞRU ise,
DOĞRU verir.
TRUE			= DOĞRU			##	DOĞRU mantıksal değerini verir.


##
##	Lookup and reference functions			Arama ve Başvuru fonksiyonları
##
ADDRESS			= ADRES				##	Bir başvuruyu, çalışma sayfasındaki tek bir
hücreye metin olarak verir.
AREAS			= ALANSAY			##	Renvoie le nombre de zones dans une référence.
CHOOSE			= ELEMAN			##	Değerler listesinden bir değer seçer.
COLUMN			= SÜTUN				##	Bir başvurunun sütun sayısını verir.
COLUMNS			= SÜTUNSAY			##	Bir başvurudaki sütunların sayısını verir.
HLOOKUP			= YATAYARA			##	Bir dizinin en üst satırına bakar ve
belirtilen hücrenin değerini verir.
HYPERLINK		= KÖPRÜ				##	Bir ağ sunucusunda, bir intranette ya da
Internet'te depolanan bir belgeyi açan bir kısayol ya da atlama
oluşturur.
INDEX			= İNDİS				##	Başvurudan veya diziden bir değer seçmek için,
bir dizin kullanır.
INDIRECT		= DOLAYLI			##	Metin değeriyle belirtilen bir başvuru verir.
LOOKUP			= ARA				##	Bir vektördeki veya dizideki değerleri arar.
MATCH			= KAÇINCI			##	Bir başvurudaki veya dizideki değerleri arar.
OFFSET			= KAYDIR			##	Verilen bir başvurudan, bir başvuru kaydırmayı
verir.
ROW				= SATIR				##	Bir başvurunun satır sayısını verir.
ROWS			= SATIRSAY			##	Bir başvurudaki satırların sayısını verir.
RTD				= RTD				##	COM otomasyonunu destekleyen programdan gerçek zaman
verileri alır.
TRANSPOSE		= DEVRİK_DÖNÜŞÜM	##	Bir dizinin devrik dönüşümünü
verir.
VLOOKUP			= DÜŞEYARA			##	Bir dizinin ilk sütununa bakar ve bir
hücrenin değerini vermek için satır boyunca hareket eder.


##
##	Math and trigonometry functions			Matematik ve trigonometri
fonksiyonları
##
ABS				= MUTLAK			##	Bir sayının mutlak değerini verir.
ACOS			= ACOS				##	Bir sayının ark kosinüsünü verir.
ACOSH			= ACOSH				##	Bir sayının ters hiperbolik kosinüsünü verir.
ASIN			= ASİN				##	Bir sayının ark sinüsünü verir.
ASINH			= ASİNH				##	Bir sayının ters hiperbolik sinüsünü verir.
ATAN			= ATAN				##	Bir sayının ark tanjantını verir.
ATAN2			= ATAN2				##	Ark tanjantı, x- ve y- koordinatlarından verir.
ATANH			= ATANH				##	Bir sayının ters hiperbolik tanjantını verir.
CEILING			= TAVANAYUVARLA		##	Bir sayıyı, en yakın tamsayıya ya da en
yakın katına yuvarlar.
COMBIN			= KOMBİNASYON		##	Verilen sayıda öğenin kombinasyon
sayısını verir.
COS				= COS				##	Bir sayının kosinüsünü verir.
COSH			= COSH				##	Bir sayının hiperbolik kosinüsünü verir.
DEGREES			= DERECE			##	Radyanları dereceye dönüştürür.
EVEN			= ÇİFT				##	Bir sayıyı, en yakın daha büyük çift tamsayıya
yuvarlar.
EXP				= ÜS				##	e'yi, verilen bir sayının üssüne yükseltilmiş
olarak verir.
FACT			= ÇARPINIM			##	Bir sayının faktörünü verir.
FACTDOUBLE		= ÇİFTFAKTÖR		##	Bir sayının çift çarpınımını verir.
FLOOR			= TABANAYUVARLA		##	Bir sayıyı, daha küçük sayıya, sıfıra
yakınsayarak yuvarlar.
GCD				= OBEB				##	En büyük ortak böleni verir.
INT				= TAMSAYI			##	Bir sayıyı aşağıya doğru en yakın tamsayıya
yuvarlar.
LCM				= OKEK				##	En küçük ortak katı verir.
LN				= LN				##	Bir sayının doğal logaritmasını verir.
LOG				= LOG				##	Bir sayının, belirtilen bir tabandaki logaritmasını
verir.
LOG10			= LOG10				##	Bir sayının 10 tabanında logaritmasını verir.
MDETERM			= DETERMİNANT		##	Bir dizinin dizey determinantını verir.
MINVERSE		= DİZEY_TERS		##	Bir dizinin dizey tersini verir.
MMULT			= DÇARP				##	İki dizinin dizey çarpımını verir.
MOD				= MODÜLO			##	Bölmeden kalanı verir.
MROUND			= KYUVARLA			##	İstenen kata yuvarlanmış bir sayı verir.
MULTINOMIAL		= ÇOKTERİMLİ		##	Bir sayılar kümesinin çok terimlisini
verir.
ODD				= TEK				##	Bir sayıyı en yakın daha büyük tek sayıya
yuvarlar.
PI				= Pİ				##	Pi değerini verir.
POWER			= KUVVET			##	Bir üsse yükseltilmiş sayının sonucunu verir.
PRODUCT			= ÇARPIM			##	Bağımsız değişkenlerini çarpar.
QUOTIENT		= BÖLÜM				##	Bir bölme işleminin tamsayı kısmını verir.
RADIANS			= RADYAN			##	Dereceleri radyanlara dönüştürür.
RAND			= S_SAYI_ÜRET		##	0 ile 1 arasında rastgele bir sayı verir.
RANDBETWEEN		= RASTGELEARALIK	##	Belirttiğiniz sayılar arasında rastgele
bir sayı verir.
ROMAN			= ROMEN				##	Bir normal rakamı, metin olarak, romen rakamına
çevirir.
ROUND			= YUVARLA			##	Bir sayıyı, belirtilen basamak sayısına
yuvarlar.
ROUNDDOWN		= AŞAĞIYUVARLA		##	Bir sayıyı, daha küçük sayıya,
sıfıra yakınsayarak yuvarlar.
ROUNDUP			= YUKARIYUVARLA		##	Bir sayıyı daha büyük sayıya, sıfırdan
ıraksayarak yuvarlar.
SERIESSUM		= SERİTOPLA			##	Bir üs serisinin toplamını, formüle
bağlı olarak verir.
SIGN			= İŞARET			##	Bir sayının işaretini verir.
SIN				= SİN				##	Verilen bir açının sinüsünü verir.
SINH			= SİNH				##	Bir sayının hiperbolik sinüsünü verir.
SQRT			= KAREKÖK			##	Pozitif bir karekök verir.
SQRTPI			= KAREKÖKPİ			##	(* Pi sayısının) kare kökünü verir.
SUBTOTAL		= ALTTOPLAM			##	Bir listedeki ya da veritabanındaki bir alt
toplamı verir.
SUM				= TOPLA				##	Bağımsız değişkenlerini toplar.
SUMIF			= ETOPLA			##	Verilen ölçütle belirlenen hücreleri toplar.
SUMIFS			= SUMIFS			##	Bir aralıktaki, birden fazla ölçüte uyan
hücreleri ekler.
SUMPRODUCT		= TOPLA.ÇARPIM		##	İlişkili dizi bileşenlerinin
çarpımlarının toplamını verir.
SUMSQ			= TOPKARE			##	Bağımsız değişkenlerin karelerinin toplamını
verir.
SUMX2MY2		= TOPX2EY2			##	İki dizideki ilişkili değerlerin farkının
toplamını verir.
SUMX2PY2		= TOPX2AY2			##	İki dizideki ilişkili değerlerin karelerinin
toplamının toplamını verir.
SUMXMY2			= TOPXEY2			##	İki dizideki ilişkili değerlerin farklarının
karelerinin toplamını verir.
TAN				= TAN				##	Bir sayının tanjantını verir.
TANH			= TANH				##	Bir sayının hiperbolik tanjantını verir.
TRUNC			= NSAT				##	Bir sayının, tamsayı durumuna gelecek şekilde,
fazlalıklarını atar.


##
##	Statistical functions				İstatistiksel fonksiyonlar
##
AVEDEV			= ORTSAP			##	Veri noktalarının ortalamalarından mutlak
sapmalarının ortalamasını verir.
AVERAGE			= ORTALAMA			##	Bağımsız değişkenlerinin ortalamasını
verir.
AVERAGEA		= ORTALAMAA			##	Bağımsız değişkenlerinin, sayılar, metin
ve mantıksal değerleri içermek üzere ortalamasını verir.
AVERAGEIF		= EĞERORTALAMA 		##	Verili ölçütü karşılayan bir
aralıktaki bütün hücrelerin ortalamasını (aritmetik ortalama)
hesaplar.
AVERAGEIFS		= EĞERLERORTALAMA 	##	Birden çok ölçüte uyan tüm
hücrelerin ortalamasını (aritmetik ortalama) hesaplar.
BETADIST		= BETADAĞ			##	Beta birikimli dağılım fonksiyonunu verir.
BETAINV			= BETATERS			##	Belirli bir beta dağılımı için birikimli
dağılım fonksiyonunun tersini verir.
BINOMDIST		= BİNOMDAĞ			##	Tek terimli binom dağılımı
olasılığını verir.
CHIDIST			= KİKAREDAĞ			##	Kikare dağılımın tek kuyruklu
olasılığını verir.
CHIINV			= KİKARETERS		##	Kikare dağılımın kuyruklu olasılığının
tersini verir.
CHITEST			= KİKARETEST		##	Bağımsızlık sınamalarını verir.
CONFIDENCE		= GÜVENİRLİK		##	Bir popülasyon ortalaması için
güvenirlik aralığını verir.
CORREL			= KORELASYON		##	İki veri kümesi arasındaki bağlantı
katsayısını verir.
COUNT			= BAĞ_DEĞ_SAY		##	Bağımsız değişkenler listesinde kaç tane
sayı bulunduğunu sayar.
COUNTA			= BAĞ_DEĞ_DOLU_SAY	##	Bağımsız değişkenler listesinde kaç
tane değer bulunduğunu sayar.
COUNTBLANK		= BOŞLUKSAY 		##	Aralıktaki boş hücre sayısını hesaplar.
COUNTIF			= EĞERSAY 			##	Verilen ölçütlere uyan bir aralık içindeki
hücreleri sayar.
COUNTIFS		= ÇOKEĞERSAY 		##	Birden çok ölçüte uyan bir aralık
içindeki hücreleri sayar.
COVAR			= KOVARYANS 		##	Eşleştirilmiş sapmaların ortalaması olan
kovaryansı verir.
CRITBINOM		= KRİTİKBİNOM		##	Birikimli binom dağılımının bir
ölçüt değerinden küçük veya ölçüt değerine eşit olduğu en
küçük değeri verir.
DEVSQ			= SAPKARE			##	Sapmaların karelerinin toplamını verir.
EXPONDIST		= ÜSTELDAĞ			##	Üstel dağılımı verir.
FDIST			= FDAĞ				##	F olasılık dağılımını verir.
FINV			= FTERS				##	F olasılık dağılımının tersini verir.
FISHER			= FISHER			##	Fisher dönüşümünü verir.
FISHERINV		= FISHERTERS		##	Fisher dönüşümünün tersini verir.
FORECAST		= TAHMİN			##	Bir doğrusal eğilim boyunca bir değer verir.
FREQUENCY		= SIKLIK			##	Bir sıklık dağılımını, dikey bir dizi
olarak verir.
FTEST			= FTEST				##	Bir F-test'in sonucunu verir.
GAMMADIST		= GAMADAĞ			##	Gama dağılımını verir.
GAMMAINV		= GAMATERS			##	Gama kümülatif dağılımının tersini verir.
GAMMALN			= GAMALN			##	Gama fonksiyonunun (?(x)) doğal logaritmasını
verir.
GEOMEAN			= GEOORT			##	Geometrik ortayı verir.
GROWTH			= BÜYÜME			##	Üstel bir eğilim boyunca değerler verir.
HARMEAN			= HARORT			##	Harmonik ortayı verir.
HYPGEOMDIST		= HİPERGEOMDAĞ		##	Hipergeometrik dağılımı verir.
INTERCEPT		= KESMENOKTASI		##	Doğrusal çakıştırma çizgisinin kesişme
noktasını verir.
KURT			= BASIKLIK			##	Bir veri kümesinin basıklığını verir.
LARGE			= BÜYÜK				##	Bir veri kümesinde k. en büyük değeri verir.
LINEST			= DOT				##	Doğrusal bir eğilimin parametrelerini verir.
LOGEST			= LOT				##	Üstel bir eğilimin parametrelerini verir.
LOGINV			= LOGTERS			##	Bir lognormal dağılımının tersini verir.
LOGNORMDIST		= LOGNORMDAĞ		##	Birikimli lognormal dağılımını verir.
MAX				= MAK				##	Bir bağımsız değişkenler listesindeki en büyük
değeri verir.
MAXA			= MAKA				##	Bir bağımsız değişkenler listesindeki, sayılar,
metin ve mantıksal değerleri içermek üzere, en büyük değeri verir.
MEDIAN			= ORTANCA			##	Belirtilen sayıların orta değerini verir.
MIN				= MİN				##	Bir bağımsız değişkenler listesindeki en küçük
değeri verir.
MINA			= MİNA				##	Bir bağımsız değişkenler listesindeki, sayılar,
metin ve mantıksal değerleri de içermek üzere, en küçük değeri
verir.
MODE			= ENÇOK_OLAN		##	Bir veri kümesindeki en sık rastlanan değeri
verir.
NEGBINOMDIST	= NEGBİNOMDAĞ		##	Negatif binom dağılımını verir.
NORMDIST		= NORMDAĞ			##	Normal birikimli dağılımı verir.
NORMINV			= NORMTERS			##	Normal kümülatif dağılımın tersini verir.
NORMSDIST		= NORMSDAĞ			##	Standart normal birikimli dağılımı verir.
NORMSINV		= NORMSTERS			##	Standart normal birikimli dağılımın tersini
verir.
PEARSON			= PEARSON			##	Pearson çarpım moment korelasyon katsayısını
verir.
PERCENTILE		= YÜZDEBİRLİK		##	Bir aralık içerisinde bulunan
değerlerin k. frekans toplamını verir.
PERCENTRANK		= YÜZDERANK			##	Bir veri kümesindeki bir değerin yüzde
mertebesini verir.
PERMUT			= PERMÜTASYON		##	Verilen sayıda nesne için permütasyon
sayısını verir.
POISSON			= POISSON			##	Poisson dağılımını verir.
PROB			= OLASILIK			##	Bir aralıktaki değerlerin iki sınır arasında
olması olasılığını verir.
QUARTILE		= DÖRTTEBİRLİK		##	Bir veri kümesinin dörtte birliğini
verir.
RANK			= RANK				##	Bir sayılar listesinde bir sayının mertebesini
verir.
RSQ				= RKARE				##	Pearson çarpım moment korelasyon katsayısının
karesini verir.
SKEW			= ÇARPIKLIK			##	Bir dağılımın çarpıklığını verir.
SLOPE			= EĞİM				##	Doğrusal çakışma çizgisinin eğimini verir.
SMALL			= KÜÇÜK				##	Bir veri kümesinde k. en küçük değeri verir.
STANDARDIZE		= STANDARTLAŞTIRMA	##	Normalleştirilmiş bir değer verir.
STDEV			= STDSAPMA			##	Bir örneğe dayanarak standart sapmayı tahmin
eder.
STDEVA			= STDSAPMAA			##	Standart sapmayı, sayılar, metin ve mantıksal
değerleri içermek üzere, bir örneğe bağlı olarak tahmin eder.
STDEVP			= STDSAPMAS			##	Standart sapmayı, tüm popülasyona bağlı
olarak hesaplar.
STDEVPA			= STDSAPMASA		##	Standart sapmayı, sayılar, metin ve mantıksal
değerleri içermek üzere, tüm popülasyona bağlı olarak hesaplar.
STEYX			= STHYX				##	Regresyondaki her x için tahmini y değerinin
standart hatasını verir.
TDIST			= TDAĞ				##	T-dağılımını verir.
TINV			= TTERS				##	T-dağılımının tersini verir.
TREND			= EĞİLİM			##	Doğrusal bir eğilim boyunca değerler verir.
TRIMMEAN		= KIRPORTALAMA		##	Bir veri kümesinin içinin ortalamasını
verir.
TTEST			= TTEST				##	T-test'le ilişkilendirilmiş olasılığı
verir.
VAR				= VAR				##	Varyansı, bir örneğe bağlı olarak tahmin eder.
VARA			= VARA				##	Varyansı, sayılar, metin ve mantıksal değerleri
içermek üzere, bir örneğe bağlı olarak tahmin eder.
VARP			= VARS				##	Varyansı, tüm popülasyona dayanarak hesaplar.
VARPA			= VARSA				##	Varyansı, sayılar, metin ve mantıksal değerleri
içermek üzere, tüm popülasyona bağlı olarak hesaplar.
WEIBULL			= WEIBULL			##	Weibull dağılımını hesaplar.
ZTEST			= ZTEST				##	Z-testinin tek kuyruklu olasılık değerini
hesaplar.


##
##	Text functions					Metin fonksiyonları
##
ASC				= ASC 				##	Bir karakter dizesindeki çift enli (iki bayt)
İngilizce harfleri veya katakanayı yarım enli (tek bayt) karakterlerle
değiştirir.
BAHTTEXT		= BAHTTEXT 			##	Sayıyı, ß (baht) para birimi biçimini
kullanarak metne dönüştürür.
CHAR			= DAMGA 			##	Kod sayısıyla belirtilen karakteri verir.
CLEAN			= TEMİZ				##	Metindeki bütün yazdırılamaz karakterleri
kaldırır.
CODE			= KOD				##	Bir metin dizesindeki ilk karakter için sayısal bir
kod verir.
CONCATENATE		= BİRLEŞTİR			##	Pek çok metin öğesini bir metin öğesi
olarak birleştirir.
DOLLAR			= LİRA				##	Bir sayıyı YTL (yeni Türk lirası) para birimi
biçimini kullanarak metne dönüştürür.
EXACT			= ÖZDEŞ				##	İki metin değerinin özdeş olup olmadığını
anlamak için, değerleri denetler.
FIND			= BUL				##	Bir metin değerini, bir başkasının içinde bulur
(büyük küçük harf duyarlıdır).
FINDB			= BULB				##	Bir metin değerini, bir başkasının içinde bulur
(büyük küçük harf duyarlıdır).
FIXED			= SAYIDÜZENLE		##	Bir sayıyı, sabit sayıda ondalıkla, metin
olarak biçimlendirir.
JIS				= JIS				##	Bir karakter dizesindeki tek enli (tek bayt) İngilizce
harfleri veya katakanayı çift enli (iki bayt) karakterlerle değiştirir.
LEFT			= SOL				##	Bir metin değerinden en soldaki karakterleri verir.
LEFTB			= SOLB				##	Bir metin değerinden en soldaki karakterleri verir.
LEN				= UZUNLUK			##	Bir metin dizesindeki karakter sayısını verir.
LENB			= UZUNLUKB			##	Bir metin dizesindeki karakter sayısını verir.
LOWER			= KÜÇÜKHARF			##	Metni küçük harfe çevirir.
MID				= ORTA				##	Bir metin dizesinden belirli sayıda karakteri,
belirttiğiniz konumdan başlamak üzere verir.
MIDB			= ORTAB				##	Bir metin dizesinden belirli sayıda karakteri,
belirttiğiniz konumdan başlamak üzere verir.
PHONETIC		= SES				##	Metin dizesinden ses (furigana) karakterlerini
ayıklar.
PROPER			= YAZIM.DÜZENİ		##	Bir metin değerinin her bir sözcüğünün
ilk harfini büyük harfe çevirir.
REPLACE			= DEĞİŞTİR			##	Metnin içindeki karakterleri değiştirir.
REPLACEB		= DEĞİŞTİRB			##	Metnin içindeki karakterleri değiştirir.
REPT			= YİNELE			##	Metni belirtilen sayıda yineler.
RIGHT			= SAĞ				##	Bir metin değerinden en sağdaki karakterleri verir.
RIGHTB			= SAĞB				##	Bir metin değerinden en sağdaki karakterleri
verir.
SEARCH			= BUL				##	Bir metin değerini, bir başkasının içinde bulur
(büyük küçük harf duyarlı değildir).
SEARCHB			= BULB				##	Bir metin değerini, bir başkasının içinde bulur
(büyük küçük harf duyarlı değildir).
SUBSTITUTE		= YERİNEKOY			##	Bir metin dizesinde, eski metnin yerine yeni
metin koyar.
T				= M					##	Bağımsız değerlerini metne dönüştürür.
TEXT			= METNEÇEVİR		##	Bir sayıyı biçimlendirir ve metne
dönüştürür.
TRIM			= KIRP				##	Metindeki boşlukları kaldırır.
UPPER			= BÜYÜKHARF			##	Metni büyük harfe çevirir.
VALUE			= SAYIYAÇEVİR		##	Bir metin bağımsız değişkenini sayıya
dönüştürür.
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/Logical.php000064400000032673151165413760023076
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Calculation;

class Logical
{
    /**
     * TRUE.
     *
     * Returns the boolean TRUE.
     *
     * Excel Function:
     *        =TRUE()
     *
     * @category Logical Functions
     *
     * @return bool True
     */
    public static function true()
    {
        return true;
    }

    /**
     * FALSE.
     *
     * Returns the boolean FALSE.
     *
     * Excel Function:
     *        =FALSE()
     *
     * @category Logical Functions
     *
     * @return bool False
     */
    public static function false()
    {
        return false;
    }

    private static function countTrueValues(array $args)
    {
        $returnValue = 0;

        foreach ($args as $arg) {
            // Is it a boolean value?
            if (is_bool($arg)) {
                $returnValue += $arg;
            } elseif ((is_numeric($arg)) && (!is_string($arg))) {
                $returnValue += ((int) $arg != 0);
            } elseif (is_string($arg)) {
                $arg = strtoupper($arg);
                if (($arg == 'TRUE') || ($arg ==
Calculation::getTRUE())) {
                    $arg = true;
                } elseif (($arg == 'FALSE') || ($arg ==
Calculation::getFALSE())) {
                    $arg = false;
                } else {
                    return Functions::VALUE();
                }
                $returnValue += ($arg != 0);
            }
        }

        return $returnValue;
    }

    /**
     * LOGICAL_AND.
     *
     * Returns boolean TRUE if all its arguments are TRUE; returns FALSE if
one or more argument is FALSE.
     *
     * Excel Function:
     *        =AND(logical1[,logical2[, ...]])
     *
     *        The arguments must evaluate to logical values such as TRUE or
FALSE, or the arguments must be arrays
     *            or references that contain logical values.
     *
     *        Boolean arguments are treated as True or False as appropriate
     *        Integer or floating point arguments are treated as True,
except for 0 or 0.0 which are False
     *        If any argument value is a string, or a Null, the function
returns a #VALUE! error, unless the string holds
     *            the value TRUE or FALSE, in which case it is evaluated as
the corresponding boolean value
     *
     * @category Logical Functions
     *
     * @param mixed ...$args Data values
     *
     * @return bool|string the logical AND of the arguments
     */
    public static function logicalAnd(...$args)
    {
        $args = Functions::flattenArray($args);

        if (count($args) == 0) {
            return Functions::VALUE();
        }

        $args = array_filter($args, function ($value) {
            return $value !== null || (is_string($value) &&
trim($value) == '');
        });
        $argCount = count($args);

        $returnValue = self::countTrueValues($args);
        if (is_string($returnValue)) {
            return $returnValue;
        }

        return ($returnValue > 0) && ($returnValue ==
$argCount);
    }

    /**
     * LOGICAL_OR.
     *
     * Returns boolean TRUE if any argument is TRUE; returns FALSE if all
arguments are FALSE.
     *
     * Excel Function:
     *        =OR(logical1[,logical2[, ...]])
     *
     *        The arguments must evaluate to logical values such as TRUE or
FALSE, or the arguments must be arrays
     *            or references that contain logical values.
     *
     *        Boolean arguments are treated as True or False as appropriate
     *        Integer or floating point arguments are treated as True,
except for 0 or 0.0 which are False
     *        If any argument value is a string, or a Null, the function
returns a #VALUE! error, unless the string holds
     *            the value TRUE or FALSE, in which case it is evaluated as
the corresponding boolean value
     *
     * @category Logical Functions
     *
     * @param mixed $args Data values
     *
     * @return bool|string the logical OR of the arguments
     */
    public static function logicalOr(...$args)
    {
        $args = Functions::flattenArray($args);

        if (count($args) == 0) {
            return Functions::VALUE();
        }

        $args = array_filter($args, function ($value) {
            return $value !== null || (is_string($value) &&
trim($value) == '');
        });

        $returnValue = self::countTrueValues($args);
        if (is_string($returnValue)) {
            return $returnValue;
        }

        return $returnValue > 0;
    }

    /**
     * LOGICAL_XOR.
     *
     * Returns the Exclusive Or logical operation for one or more supplied
conditions.
     * i.e. the Xor function returns TRUE if an odd number of the supplied
conditions evaluate to TRUE, and FALSE otherwise.
     *
     * Excel Function:
     *        =XOR(logical1[,logical2[, ...]])
     *
     *        The arguments must evaluate to logical values such as TRUE or
FALSE, or the arguments must be arrays
     *            or references that contain logical values.
     *
     *        Boolean arguments are treated as True or False as appropriate
     *        Integer or floating point arguments are treated as True,
except for 0 or 0.0 which are False
     *        If any argument value is a string, or a Null, the function
returns a #VALUE! error, unless the string holds
     *            the value TRUE or FALSE, in which case it is evaluated as
the corresponding boolean value
     *
     * @category Logical Functions
     *
     * @param mixed $args Data values
     *
     * @return bool|string the logical XOR of the arguments
     */
    public static function logicalXor(...$args)
    {
        $args = Functions::flattenArray($args);

        if (count($args) == 0) {
            return Functions::VALUE();
        }

        $args = array_filter($args, function ($value) {
            return $value !== null || (is_string($value) &&
trim($value) == '');
        });

        $returnValue = self::countTrueValues($args);
        if (is_string($returnValue)) {
            return $returnValue;
        }

        return $returnValue % 2 == 1;
    }

    /**
     * NOT.
     *
     * Returns the boolean inverse of the argument.
     *
     * Excel Function:
     *        =NOT(logical)
     *
     *        The argument must evaluate to a logical value such as TRUE or
FALSE
     *
     *        Boolean arguments are treated as True or False as appropriate
     *        Integer or floating point arguments are treated as True,
except for 0 or 0.0 which are False
     *        If any argument value is a string, or a Null, the function
returns a #VALUE! error, unless the string holds
     *            the value TRUE or FALSE, in which case it is evaluated as
the corresponding boolean value
     *
     * @category Logical Functions
     *
     * @param mixed $logical A value or expression that can be evaluated to
TRUE or FALSE
     *
     * @return bool|string the boolean inverse of the argument
     */
    public static function NOT($logical = false)
    {
        $logical = Functions::flattenSingleValue($logical);

        if (is_string($logical)) {
            $logical = strtoupper($logical);
            if (($logical == 'TRUE') || ($logical ==
Calculation::getTRUE())) {
                return false;
            } elseif (($logical == 'FALSE') || ($logical ==
Calculation::getFALSE())) {
                return true;
            }

            return Functions::VALUE();
        }

        return !$logical;
    }

    /**
     * STATEMENT_IF.
     *
     * Returns one value if a condition you specify evaluates to TRUE and
another value if it evaluates to FALSE.
     *
     * Excel Function:
     *        =IF(condition[,returnIfTrue[,returnIfFalse]])
     *
     *        Condition is any value or expression that can be evaluated to
TRUE or FALSE.
     *            For example, A10=100 is a logical expression; if the
value in cell A10 is equal to 100,
     *            the expression evaluates to TRUE. Otherwise, the
expression evaluates to FALSE.
     *            This argument can use any comparison calculation
operator.
     *        ReturnIfTrue is the value that is returned if condition
evaluates to TRUE.
     *            For example, if this argument is the text string
"Within budget" and the condition argument evaluates to TRUE,
     *            then the IF function returns the text "Within
budget"
     *            If condition is TRUE and ReturnIfTrue is blank, this
argument returns 0 (zero). To display the word TRUE, use
     *            the logical value TRUE for this argument.
     *            ReturnIfTrue can be another formula.
     *        ReturnIfFalse is the value that is returned if condition
evaluates to FALSE.
     *            For example, if this argument is the text string
"Over budget" and the condition argument evaluates to FALSE,
     *            then the IF function returns the text "Over
budget".
     *            If condition is FALSE and ReturnIfFalse is omitted, then
the logical value FALSE is returned.
     *            If condition is FALSE and ReturnIfFalse is blank, then
the value 0 (zero) is returned.
     *            ReturnIfFalse can be another formula.
     *
     * @category Logical Functions
     *
     * @param mixed $condition Condition to evaluate
     * @param mixed $returnIfTrue Value to return when condition is true
     * @param mixed $returnIfFalse Optional value to return when condition
is false
     *
     * @return mixed The value of returnIfTrue or returnIfFalse determined
by condition
     */
    public static function statementIf($condition = true, $returnIfTrue =
0, $returnIfFalse = false)
    {
        if (Functions::isError($condition)) {
            return $condition;
        }

        $condition = ($condition === null) ? true : (bool)
Functions::flattenSingleValue($condition);
        $returnIfTrue = ($returnIfTrue === null) ? 0 :
Functions::flattenSingleValue($returnIfTrue);
        $returnIfFalse = ($returnIfFalse === null) ? false :
Functions::flattenSingleValue($returnIfFalse);

        return ($condition) ? $returnIfTrue : $returnIfFalse;
    }

    /**
     * STATEMENT_SWITCH.
     *
     * Returns corresponding with first match (any data type such as a
string, numeric, date, etc).
     *
     * Excel Function:
     *        =SWITCH (expression, value1, result1, value2, result2, ...
value_n, result_n [, default])
     *
     *        Expression
     *              The expression to compare to a list of values.
     *        value1, value2, ... value_n
     *              A list of values that are compared to expression. The
SWITCH function is looking for the first value that matches the expression.
     *        result1, result2, ... result_n
     *              A list of results. The SWITCH function returns the
corresponding result when a value matches expression.
     *         default
     *              Optional. It is the default to return if expression
does not match any of the values (value1, value2, ... value_n).
     *
     * @category Logical Functions
     *
     * @param mixed $arguments Statement arguments
     *
     * @return mixed The value of matched expression
     */
    public static function statementSwitch(...$arguments)
    {
        $result = Functions::VALUE();

        if (count($arguments) > 0) {
            $targetValue = Functions::flattenSingleValue($arguments[0]);
            $argc = count($arguments) - 1;
            $switchCount = floor($argc / 2);
            $switchSatisfied = false;
            $hasDefaultClause = $argc % 2 !== 0;
            $defaultClause = $argc % 2 === 0 ? null :
$arguments[count($arguments) - 1];

            if ($switchCount) {
                for ($index = 0; $index < $switchCount; ++$index) {
                    if ($targetValue == $arguments[$index * 2 + 1]) {
                        $result = $arguments[$index * 2 + 2];
                        $switchSatisfied = true;

                        break;
                    }
                }
            }

            if (!$switchSatisfied) {
                $result = $hasDefaultClause ? $defaultClause :
Functions::NA();
            }
        }

        return $result;
    }

    /**
     * IFERROR.
     *
     * Excel Function:
     *        =IFERROR(testValue,errorpart)
     *
     * @category Logical Functions
     *
     * @param mixed $testValue Value to check, is also the value returned
when no error
     * @param mixed $errorpart Value to return when testValue is an error
condition
     *
     * @return mixed The value of errorpart or testValue determined by
error condition
     */
    public static function IFERROR($testValue = '', $errorpart =
'')
    {
        $testValue = ($testValue === null) ? '' :
Functions::flattenSingleValue($testValue);
        $errorpart = ($errorpart === null) ? '' :
Functions::flattenSingleValue($errorpart);

        return self::statementIf(Functions::isError($testValue),
$errorpart, $testValue);
    }

    /**
     * IFNA.
     *
     * Excel Function:
     *        =IFNA(testValue,napart)
     *
     * @category Logical Functions
     *
     * @param mixed $testValue Value to check, is also the value returned
when not an NA
     * @param mixed $napart Value to return when testValue is an NA
condition
     *
     * @return mixed The value of errorpart or testValue determined by
error condition
     */
    public static function IFNA($testValue = '', $napart =
'')
    {
        $testValue = ($testValue === null) ? '' :
Functions::flattenSingleValue($testValue);
        $napart = ($napart === null) ? '' :
Functions::flattenSingleValue($napart);

        return self::statementIf(Functions::isNa($testValue), $napart,
$testValue);
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/LookupRef.php000064400000114130151165413760023417
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Calculation;

use PhpOffice\PhpSpreadsheet\Cell\Cell;
use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\Shared\StringHelper;
use PhpOffice\PhpSpreadsheet\Worksheet\Worksheet;

class LookupRef
{
    /**
     * CELL_ADDRESS.
     *
     * Creates a cell address as text, given specified row and column
numbers.
     *
     * Excel Function:
     *        =ADDRESS(row, column, [relativity], [referenceStyle],
[sheetText])
     *
     * @param mixed $row Row number to use in the cell reference
     * @param mixed $column Column number to use in the cell reference
     * @param int $relativity Flag indicating the type of reference to
return
     *                                1 or omitted    Absolute
     *                                2                Absolute row;
relative column
     *                                3                Relative row;
absolute column
     *                                4                Relative
     * @param bool $referenceStyle A logical value that specifies the A1 or
R1C1 reference style.
     *                                TRUE or omitted        CELL_ADDRESS
returns an A1-style reference
     *                                FALSE                CELL_ADDRESS
returns an R1C1-style reference
     * @param string $sheetText Optional Name of worksheet to use
     *
     * @return string
     */
    public static function cellAddress($row, $column, $relativity = 1,
$referenceStyle = true, $sheetText = '')
    {
        $row = Functions::flattenSingleValue($row);
        $column = Functions::flattenSingleValue($column);
        $relativity = Functions::flattenSingleValue($relativity);
        $sheetText = Functions::flattenSingleValue($sheetText);

        if (($row < 1) || ($column < 1)) {
            return Functions::VALUE();
        }

        if ($sheetText > '') {
            if (strpos($sheetText, ' ') !== false) {
                $sheetText = "'" . $sheetText .
"'";
            }
            $sheetText .= '!';
        }
        if ((!is_bool($referenceStyle)) || $referenceStyle) {
            $rowRelative = $columnRelative = '$';
            $column = Coordinate::stringFromColumnIndex($column);
            if (($relativity == 2) || ($relativity == 4)) {
                $columnRelative = '';
            }
            if (($relativity == 3) || ($relativity == 4)) {
                $rowRelative = '';
            }

            return $sheetText . $columnRelative . $column . $rowRelative .
$row;
        }
        if (($relativity == 2) || ($relativity == 4)) {
            $column = '[' . $column . ']';
        }
        if (($relativity == 3) || ($relativity == 4)) {
            $row = '[' . $row . ']';
        }

        return $sheetText . 'R' . $row . 'C' . $column;
    }

    /**
     * COLUMN.
     *
     * Returns the column number of the given cell reference
     * If the cell reference is a range of cells, COLUMN returns the column
numbers of each column in the reference as a horizontal array.
     * If cell reference is omitted, and the function is being called
through the calculation engine, then it is assumed to be the
     *        reference of the cell in which the COLUMN function appears;
otherwise this function returns 0.
     *
     * Excel Function:
     *        =COLUMN([cellAddress])
     *
     * @param null|array|string $cellAddress A reference to a range of
cells for which you want the column numbers
     *
     * @return int|int[]
     */
    public static function COLUMN($cellAddress = null)
    {
        if ($cellAddress === null || trim($cellAddress) === '') {
            return 0;
        }

        if (is_array($cellAddress)) {
            foreach ($cellAddress as $columnKey => $value) {
                $columnKey = preg_replace('/[^a-z]/i',
'', $columnKey);

                return (int) Coordinate::columnIndexFromString($columnKey);
            }
        } else {
            [$sheet, $cellAddress] =
Worksheet::extractSheetTitle($cellAddress, true);
            if (strpos($cellAddress, ':') !== false) {
                [$startAddress, $endAddress] = explode(':',
$cellAddress);
                $startAddress = preg_replace('/[^a-z]/i',
'', $startAddress);
                $endAddress = preg_replace('/[^a-z]/i',
'', $endAddress);
                $returnValue = [];
                do {
                    $returnValue[] = (int)
Coordinate::columnIndexFromString($startAddress);
                } while ($startAddress++ != $endAddress);

                return $returnValue;
            }
            $cellAddress = preg_replace('/[^a-z]/i',
'', $cellAddress);

            return (int) Coordinate::columnIndexFromString($cellAddress);
        }
    }

    /**
     * COLUMNS.
     *
     * Returns the number of columns in an array or reference.
     *
     * Excel Function:
     *        =COLUMNS(cellAddress)
     *
     * @param null|array|string $cellAddress An array or array formula, or
a reference to a range of cells for which you want the number of columns
     *
     * @return int The number of columns in cellAddress
     */
    public static function COLUMNS($cellAddress = null)
    {
        if ($cellAddress === null || $cellAddress === '') {
            return 1;
        } elseif (!is_array($cellAddress)) {
            return Functions::VALUE();
        }

        reset($cellAddress);
        $isMatrix = (is_numeric(key($cellAddress)));
        [$columns, $rows] = Calculation::getMatrixDimensions($cellAddress);

        if ($isMatrix) {
            return $rows;
        }

        return $columns;
    }

    /**
     * ROW.
     *
     * Returns the row number of the given cell reference
     * If the cell reference is a range of cells, ROW returns the row
numbers of each row in the reference as a vertical array.
     * If cell reference is omitted, and the function is being called
through the calculation engine, then it is assumed to be the
     *        reference of the cell in which the ROW function appears;
otherwise this function returns 0.
     *
     * Excel Function:
     *        =ROW([cellAddress])
     *
     * @param null|array|string $cellAddress A reference to a range of
cells for which you want the row numbers
     *
     * @return int or array of integer
     */
    public static function ROW($cellAddress = null)
    {
        if ($cellAddress === null || trim($cellAddress) === '') {
            return 0;
        }

        if (is_array($cellAddress)) {
            foreach ($cellAddress as $columnKey => $rowValue) {
                foreach ($rowValue as $rowKey => $cellValue) {
                    return (int) preg_replace('/\D/',
'', $rowKey);
                }
            }
        } else {
            [$sheet, $cellAddress] =
Worksheet::extractSheetTitle($cellAddress, true);
            if (strpos($cellAddress, ':') !== false) {
                [$startAddress, $endAddress] = explode(':',
$cellAddress);
                $startAddress = preg_replace('/\D/',
'', $startAddress);
                $endAddress = preg_replace('/\D/', '',
$endAddress);
                $returnValue = [];
                do {
                    $returnValue[][] = (int) $startAddress;
                } while ($startAddress++ != $endAddress);

                return $returnValue;
            }
            [$cellAddress] = explode(':', $cellAddress);

            return (int) preg_replace('/\D/', '',
$cellAddress);
        }
    }

    /**
     * ROWS.
     *
     * Returns the number of rows in an array or reference.
     *
     * Excel Function:
     *        =ROWS(cellAddress)
     *
     * @param null|array|string $cellAddress An array or array formula, or
a reference to a range of cells for which you want the number of rows
     *
     * @return int The number of rows in cellAddress
     */
    public static function ROWS($cellAddress = null)
    {
        if ($cellAddress === null || $cellAddress === '') {
            return 1;
        } elseif (!is_array($cellAddress)) {
            return Functions::VALUE();
        }

        reset($cellAddress);
        $isMatrix = (is_numeric(key($cellAddress)));
        [$columns, $rows] = Calculation::getMatrixDimensions($cellAddress);

        if ($isMatrix) {
            return $columns;
        }

        return $rows;
    }

    /**
     * HYPERLINK.
     *
     * Excel Function:
     *        =HYPERLINK(linkURL,displayName)
     *
     * @category Logical Functions
     *
     * @param string $linkURL Value to check, is also the value returned
when no error
     * @param string $displayName Value to return when testValue is an
error condition
     * @param Cell $pCell The cell to set the hyperlink in
     *
     * @return mixed The value of $displayName (or $linkURL if $displayName
was blank)
     */
    public static function HYPERLINK($linkURL = '', $displayName
= null, Cell $pCell = null)
    {
        $linkURL = ($linkURL === null) ? '' :
Functions::flattenSingleValue($linkURL);
        $displayName = ($displayName === null) ? '' :
Functions::flattenSingleValue($displayName);

        if ((!is_object($pCell)) || (trim($linkURL) == '')) {
            return Functions::REF();
        }

        if ((is_object($displayName)) || trim($displayName) ==
'') {
            $displayName = $linkURL;
        }

        $pCell->getHyperlink()->setUrl($linkURL);
        $pCell->getHyperlink()->setTooltip($displayName);

        return $displayName;
    }

    /**
     * INDIRECT.
     *
     * Returns the reference specified by a text string.
     * References are immediately evaluated to display their contents.
     *
     * Excel Function:
     *        =INDIRECT(cellAddress)
     *
     * NOTE - INDIRECT() does not yet support the optional a1 parameter
introduced in Excel 2010
     *
     * @param null|array|string $cellAddress $cellAddress The cell address
of the current cell (containing this formula)
     * @param Cell $pCell The current cell (containing this formula)
     *
     * @return mixed The cells referenced by cellAddress
     *
     * @todo    Support for the optional a1 parameter introduced in Excel
2010
     */
    public static function INDIRECT($cellAddress = null, Cell $pCell =
null)
    {
        $cellAddress = Functions::flattenSingleValue($cellAddress);
        if ($cellAddress === null || $cellAddress === '') {
            return Functions::REF();
        }

        $cellAddress1 = $cellAddress;
        $cellAddress2 = null;
        if (strpos($cellAddress, ':') !== false) {
            [$cellAddress1, $cellAddress2] = explode(':',
$cellAddress);
        }

        if ((!preg_match('/^' .
Calculation::CALCULATION_REGEXP_CELLREF . '$/i', $cellAddress1,
$matches)) ||
            (($cellAddress2 !== null) &&
(!preg_match('/^' . Calculation::CALCULATION_REGEXP_CELLREF .
'$/i', $cellAddress2, $matches)))) {
            if (!preg_match('/^' .
Calculation::CALCULATION_REGEXP_NAMEDRANGE . '$/i',
$cellAddress1, $matches)) {
                return Functions::REF();
            }

            if (strpos($cellAddress, '!') !== false) {
                [$sheetName, $cellAddress] =
Worksheet::extractSheetTitle($cellAddress, true);
                $sheetName = trim($sheetName, "'");
                $pSheet =
$pCell->getWorksheet()->getParent()->getSheetByName($sheetName);
            } else {
                $pSheet = $pCell->getWorksheet();
            }

            return
Calculation::getInstance()->extractNamedRange($cellAddress, $pSheet,
false);
        }

        if (strpos($cellAddress, '!') !== false) {
            [$sheetName, $cellAddress] =
Worksheet::extractSheetTitle($cellAddress, true);
            $sheetName = trim($sheetName, "'");
            $pSheet =
$pCell->getWorksheet()->getParent()->getSheetByName($sheetName);
        } else {
            $pSheet = $pCell->getWorksheet();
        }

        return
Calculation::getInstance()->extractCellRange($cellAddress, $pSheet,
false);
    }

    /**
     * OFFSET.
     *
     * Returns a reference to a range that is a specified number of rows
and columns from a cell or range of cells.
     * The reference that is returned can be a single cell or a range of
cells. You can specify the number of rows and
     * the number of columns to be returned.
     *
     * Excel Function:
     *        =OFFSET(cellAddress, rows, cols, [height], [width])
     *
     * @param null|string $cellAddress The reference from which you want to
base the offset. Reference must refer to a cell or
     *                                range of adjacent cells; otherwise,
OFFSET returns the #VALUE! error value.
     * @param mixed $rows The number of rows, up or down, that you want the
upper-left cell to refer to.
     *                                Using 5 as the rows argument
specifies that the upper-left cell in the reference is
     *                                five rows below reference. Rows can
be positive (which means below the starting reference)
     *                                or negative (which means above the
starting reference).
     * @param mixed $columns The number of columns, to the left or right,
that you want the upper-left cell of the result
     *                                to refer to. Using 5 as the cols
argument specifies that the upper-left cell in the
     *                                reference is five columns to the
right of reference. Cols can be positive (which means
     *                                to the right of the starting
reference) or negative (which means to the left of the
     *                                starting reference).
     * @param mixed $height The height, in number of rows, that you want
the returned reference to be. Height must be a positive number.
     * @param mixed $width The width, in number of columns, that you want
the returned reference to be. Width must be a positive number.
     * @param null|Cell $pCell
     *
     * @return string A reference to a cell or range of cells
     */
    public static function OFFSET($cellAddress = null, $rows = 0, $columns
= 0, $height = null, $width = null, Cell $pCell = null)
    {
        $rows = Functions::flattenSingleValue($rows);
        $columns = Functions::flattenSingleValue($columns);
        $height = Functions::flattenSingleValue($height);
        $width = Functions::flattenSingleValue($width);
        if ($cellAddress === null) {
            return 0;
        }

        if (!is_object($pCell)) {
            return Functions::REF();
        }

        $sheetName = null;
        if (strpos($cellAddress, '!')) {
            [$sheetName, $cellAddress] =
Worksheet::extractSheetTitle($cellAddress, true);
            $sheetName = trim($sheetName, "'");
        }
        if (strpos($cellAddress, ':')) {
            [$startCell, $endCell] = explode(':', $cellAddress);
        } else {
            $startCell = $endCell = $cellAddress;
        }
        [$startCellColumn, $startCellRow] =
Coordinate::coordinateFromString($startCell);
        [$endCellColumn, $endCellRow] =
Coordinate::coordinateFromString($endCell);

        $startCellRow += $rows;
        $startCellColumn =
Coordinate::columnIndexFromString($startCellColumn) - 1;
        $startCellColumn += $columns;

        if (($startCellRow <= 0) || ($startCellColumn < 0)) {
            return Functions::REF();
        }
        $endCellColumn = Coordinate::columnIndexFromString($endCellColumn)
- 1;
        if (($width != null) && (!is_object($width))) {
            $endCellColumn = $startCellColumn + $width - 1;
        } else {
            $endCellColumn += $columns;
        }
        $startCellColumn =
Coordinate::stringFromColumnIndex($startCellColumn + 1);

        if (($height != null) && (!is_object($height))) {
            $endCellRow = $startCellRow + $height - 1;
        } else {
            $endCellRow += $rows;
        }

        if (($endCellRow <= 0) || ($endCellColumn < 0)) {
            return Functions::REF();
        }
        $endCellColumn = Coordinate::stringFromColumnIndex($endCellColumn +
1);

        $cellAddress = $startCellColumn . $startCellRow;
        if (($startCellColumn != $endCellColumn) || ($startCellRow !=
$endCellRow)) {
            $cellAddress .= ':' . $endCellColumn . $endCellRow;
        }

        if ($sheetName !== null) {
            $pSheet =
$pCell->getWorksheet()->getParent()->getSheetByName($sheetName);
        } else {
            $pSheet = $pCell->getWorksheet();
        }

        return
Calculation::getInstance()->extractCellRange($cellAddress, $pSheet,
false);
    }

    /**
     * CHOOSE.
     *
     * Uses lookup_value to return a value from the list of value
arguments.
     * Use CHOOSE to select one of up to 254 values based on the
lookup_value.
     *
     * Excel Function:
     *        =CHOOSE(index_num, value1, [value2], ...)
     *
     * @param mixed $index_num Specifies which value argument is selected.
     *                            Index_num must be a number between 1 and
254, or a formula or reference to a cell containing a number
     *                                between 1 and 254.
     * @param mixed $value1 ... Value1 is required, subsequent values are
optional.
     *                            Between 1 to 254 value arguments from
which CHOOSE selects a value or an action to perform based on
     *                                index_num. The arguments can be
numbers, cell references, defined names, formulas, functions, or
     *                                text.
     *
     * @return mixed The selected value
     */
    public static function CHOOSE(...$chooseArgs)
    {
        $chosenEntry = Functions::flattenArray(array_shift($chooseArgs));
        $entryCount = count($chooseArgs) - 1;

        if (is_array($chosenEntry)) {
            $chosenEntry = array_shift($chosenEntry);
        }
        if ((is_numeric($chosenEntry)) && (!is_bool($chosenEntry)))
{
            --$chosenEntry;
        } else {
            return Functions::VALUE();
        }
        $chosenEntry = floor($chosenEntry);
        if (($chosenEntry < 0) || ($chosenEntry > $entryCount)) {
            return Functions::VALUE();
        }

        if (is_array($chooseArgs[$chosenEntry])) {
            return Functions::flattenArray($chooseArgs[$chosenEntry]);
        }

        return $chooseArgs[$chosenEntry];
    }

    /**
     * MATCH.
     *
     * The MATCH function searches for a specified item in a range of cells
     *
     * Excel Function:
     *        =MATCH(lookup_value, lookup_array, [match_type])
     *
     * @param mixed $lookupValue The value that you want to match in
lookup_array
     * @param mixed $lookupArray The range of cells being searched
     * @param mixed $matchType The number -1, 0, or 1. -1 means above, 0
means exact match, 1 means below.
     *                         If match_type is 1 or -1, the list has to be
ordered.
     *
     * @return int|string The relative position of the found item
     */
    public static function MATCH($lookupValue, $lookupArray, $matchType =
1)
    {
        $lookupArray = Functions::flattenArray($lookupArray);
        $lookupValue = Functions::flattenSingleValue($lookupValue);
        $matchType = ($matchType === null) ? 1 : (int)
Functions::flattenSingleValue($matchType);

        // MATCH is not case sensitive, so we convert lookup value to be
lower cased in case it's string type.
        if (is_string($lookupValue)) {
            $lookupValue = StringHelper::strToLower($lookupValue);
        }

        // Lookup_value type has to be number, text, or logical values
        if ((!is_numeric($lookupValue)) &&
(!is_string($lookupValue)) && (!is_bool($lookupValue))) {
            return Functions::NA();
        }

        // Match_type is 0, 1 or -1
        if (($matchType !== 0) && ($matchType !== -1) &&
($matchType !== 1)) {
            return Functions::NA();
        }

        // Lookup_array should not be empty
        $lookupArraySize = count($lookupArray);
        if ($lookupArraySize <= 0) {
            return Functions::NA();
        }

        // Lookup_array should contain only number, text, or logical
values, or empty (null) cells
        foreach ($lookupArray as $i => $lookupArrayValue) {
            //    check the type of the value
            if ((!is_numeric($lookupArrayValue)) &&
(!is_string($lookupArrayValue)) &&
                (!is_bool($lookupArrayValue)) && ($lookupArrayValue
!== null)
            ) {
                return Functions::NA();
            }
            // Convert strings to lowercase for case-insensitive testing
            if (is_string($lookupArrayValue)) {
                $lookupArray[$i] =
StringHelper::strToLower($lookupArrayValue);
            }
            if (($lookupArrayValue === null) && (($matchType == 1)
|| ($matchType == -1))) {
                $lookupArray = array_slice($lookupArray, 0, $i - 1);
            }
        }

        if ($matchType == 1) {
            // If match_type is 1 the list has to be processed from last to
first

            $lookupArray = array_reverse($lookupArray);
            $keySet = array_reverse(array_keys($lookupArray));
        }

        // **
        // find the match
        // **

        if ($matchType === 0 || $matchType === 1) {
            foreach ($lookupArray as $i => $lookupArrayValue) {
                $typeMatch = gettype($lookupValue) ===
gettype($lookupArrayValue);
                $exactTypeMatch = $typeMatch && $lookupArrayValue
=== $lookupValue;
                $nonOnlyNumericExactMatch = !$typeMatch &&
$lookupArrayValue === $lookupValue;
                $exactMatch = $exactTypeMatch || $nonOnlyNumericExactMatch;

                if ($matchType === 0) {
                    if ($typeMatch && is_string($lookupValue)
&& (bool) preg_match('/([\?\*])/', $lookupValue)) {
                        $splitString = $lookupValue;
                        $chars = array_map(function ($i) use ($splitString)
{
                            return mb_substr($splitString, $i, 1);
                        }, range(0, mb_strlen($splitString) - 1));

                        $length = count($chars);
                        $pattern = '/^';
                        for ($j = 0; $j < $length; ++$j) {
                            if ($chars[$j] === '~') {
                                if (isset($chars[$j + 1])) {
                                    if ($chars[$j + 1] === '*') {
                                        $pattern .= preg_quote($chars[$j +
1], '/');
                                        ++$j;
                                    } elseif ($chars[$j + 1] ===
'?') {
                                        $pattern .= preg_quote($chars[$j +
1], '/');
                                        ++$j;
                                    }
                                } else {
                                    $pattern .= preg_quote($chars[$j],
'/');
                                }
                            } elseif ($chars[$j] === '*') {
                                $pattern .= '.*';
                            } elseif ($chars[$j] === '?') {
                                $pattern .= '.{1}';
                            } else {
                                $pattern .= preg_quote($chars[$j],
'/');
                            }
                        }

                        $pattern .= '$/';
                        if ((bool) preg_match($pattern, $lookupArrayValue))
{
                            // exact match
                            return $i + 1;
                        }
                    } elseif ($exactMatch) {
                        // exact match
                        return $i + 1;
                    }
                } elseif (($matchType === 1) && $typeMatch
&& ($lookupArrayValue <= $lookupValue)) {
                    $i = array_search($i, $keySet);

                    // The current value is the (first) match
                    return $i + 1;
                }
            }
        } else {
            $maxValueKey = null;

            // The basic algorithm is:
            // Iterate and keep the highest match until the next element is
smaller than the searched value.
            // Return immediately if perfect match is found
            foreach ($lookupArray as $i => $lookupArrayValue) {
                $typeMatch = gettype($lookupValue) ===
gettype($lookupArrayValue);
                $exactTypeMatch = $typeMatch && $lookupArrayValue
=== $lookupValue;
                $nonOnlyNumericExactMatch = !$typeMatch &&
$lookupArrayValue === $lookupValue;
                $exactMatch = $exactTypeMatch || $nonOnlyNumericExactMatch;

                if ($exactMatch) {
                    // Another "special" case. If a perfect match
is found,
                    // the algorithm gives up immediately
                    return $i + 1;
                } elseif ($typeMatch & $lookupArrayValue >=
$lookupValue) {
                    $maxValueKey = $i + 1;
                } elseif ($typeMatch & $lookupArrayValue <
$lookupValue) {
                    //Excel algorithm gives up immediately if the first
element is smaller than the searched value
                    break;
                }
            }

            if ($maxValueKey !== null) {
                return $maxValueKey;
            }
        }

        // Unsuccessful in finding a match, return #N/A error value
        return Functions::NA();
    }

    /**
     * INDEX.
     *
     * Uses an index to choose a value from a reference or array
     *
     * Excel Function:
     *        =INDEX(range_array, row_num, [column_num])
     *
     * @param mixed $arrayValues A range of cells or an array constant
     * @param mixed $rowNum The row in array from which to return a value.
If row_num is omitted, column_num is required.
     * @param mixed $columnNum The column in array from which to return a
value. If column_num is omitted, row_num is required.
     *
     * @return mixed the value of a specified cell or array of cells
     */
    public static function INDEX($arrayValues, $rowNum = 0, $columnNum = 0)
    {
        $rowNum = Functions::flattenSingleValue($rowNum);
        $columnNum = Functions::flattenSingleValue($columnNum);

        if (($rowNum < 0) || ($columnNum < 0)) {
            return Functions::VALUE();
        }

        if (!is_array($arrayValues) || ($rowNum > count($arrayValues)))
{
            return Functions::REF();
        }

        $rowKeys = array_keys($arrayValues);
        $columnKeys = @array_keys($arrayValues[$rowKeys[0]]);

        if ($columnNum > count($columnKeys)) {
            return Functions::VALUE();
        } elseif ($columnNum == 0) {
            if ($rowNum == 0) {
                return $arrayValues;
            }
            $rowNum = $rowKeys[--$rowNum];
            $returnArray = [];
            foreach ($arrayValues as $arrayColumn) {
                if (is_array($arrayColumn)) {
                    if (isset($arrayColumn[$rowNum])) {
                        $returnArray[] = $arrayColumn[$rowNum];
                    } else {
                        return [$rowNum => $arrayValues[$rowNum]];
                    }
                } else {
                    return $arrayValues[$rowNum];
                }
            }

            return $returnArray;
        }
        $columnNum = $columnKeys[--$columnNum];
        if ($rowNum > count($rowKeys)) {
            return Functions::VALUE();
        } elseif ($rowNum == 0) {
            return $arrayValues[$columnNum];
        }
        $rowNum = $rowKeys[--$rowNum];

        return $arrayValues[$rowNum][$columnNum];
    }

    /**
     * TRANSPOSE.
     *
     * @param array $matrixData A matrix of values
     *
     * @return array
     *
     * Unlike the Excel TRANSPOSE function, which will only work on a
single row or column, this function will transpose a full matrix
     */
    public static function TRANSPOSE($matrixData)
    {
        $returnMatrix = [];
        if (!is_array($matrixData)) {
            $matrixData = [[$matrixData]];
        }

        $column = 0;
        foreach ($matrixData as $matrixRow) {
            $row = 0;
            foreach ($matrixRow as $matrixCell) {
                $returnMatrix[$row][$column] = $matrixCell;
                ++$row;
            }
            ++$column;
        }

        return $returnMatrix;
    }

    private static function vlookupSort($a, $b)
    {
        reset($a);
        $firstColumn = key($a);
        $aLower = StringHelper::strToLower($a[$firstColumn]);
        $bLower = StringHelper::strToLower($b[$firstColumn]);
        if ($aLower == $bLower) {
            return 0;
        }

        return ($aLower < $bLower) ? -1 : 1;
    }

    /**
     * VLOOKUP
     * The VLOOKUP function searches for value in the left-most column of
lookup_array and returns the value in the same row based on the
index_number.
     *
     * @param mixed $lookup_value The value that you want to match in
lookup_array
     * @param mixed $lookup_array The range of cells being searched
     * @param mixed $index_number The column number in table_array from
which the matching value must be returned. The first column is 1.
     * @param mixed $not_exact_match determines if you are looking for an
exact match based on lookup_value
     *
     * @return mixed The value of the found cell
     */
    public static function VLOOKUP($lookup_value, $lookup_array,
$index_number, $not_exact_match = true)
    {
        $lookup_value = Functions::flattenSingleValue($lookup_value);
        $index_number = Functions::flattenSingleValue($index_number);
        $not_exact_match = Functions::flattenSingleValue($not_exact_match);

        // index_number must be greater than or equal to 1
        if ($index_number < 1) {
            return Functions::VALUE();
        }

        // index_number must be less than or equal to the number of columns
in lookup_array
        if ((!is_array($lookup_array)) || (empty($lookup_array))) {
            return Functions::REF();
        }
        $f = array_keys($lookup_array);
        $firstRow = array_pop($f);
        if ((!is_array($lookup_array[$firstRow])) || ($index_number >
count($lookup_array[$firstRow]))) {
            return Functions::REF();
        }
        $columnKeys = array_keys($lookup_array[$firstRow]);
        $returnColumn = $columnKeys[--$index_number];
        $firstColumn = array_shift($columnKeys);

        if (!$not_exact_match) {
            uasort($lookup_array, ['self',
'vlookupSort']);
        }

        $lookupLower = StringHelper::strToLower($lookup_value);
        $rowNumber = $rowValue = false;
        foreach ($lookup_array as $rowKey => $rowData) {
            $firstLower = StringHelper::strToLower($rowData[$firstColumn]);

            // break if we have passed possible keys
            if ((is_numeric($lookup_value) &&
is_numeric($rowData[$firstColumn]) && ($rowData[$firstColumn] >
$lookup_value)) ||
                (!is_numeric($lookup_value) &&
!is_numeric($rowData[$firstColumn]) && ($firstLower >
$lookupLower))) {
                break;
            }
            // remember the last key, but only if datatypes match
            if ((is_numeric($lookup_value) &&
is_numeric($rowData[$firstColumn])) ||
                (!is_numeric($lookup_value) &&
!is_numeric($rowData[$firstColumn]))) {
                if ($not_exact_match) {
                    $rowNumber = $rowKey;

                    continue;
                } elseif (($firstLower == $lookupLower)
                    // Spreadsheets software returns first exact match,
                    // we have sorted and we might have broken key orders
                    // we want the first one (by its initial index)
                    && (($rowNumber == false) || ($rowKey <
$rowNumber))
                ) {
                    $rowNumber = $rowKey;
                }
            }
        }

        if ($rowNumber !== false) {
            // return the appropriate value
            return $lookup_array[$rowNumber][$returnColumn];
        }

        return Functions::NA();
    }

    /**
     * HLOOKUP
     * The HLOOKUP function searches for value in the top-most row of
lookup_array and returns the value in the same column based on the
index_number.
     *
     * @param mixed $lookup_value The value that you want to match in
lookup_array
     * @param mixed $lookup_array The range of cells being searched
     * @param mixed $index_number The row number in table_array from which
the matching value must be returned. The first row is 1.
     * @param mixed $not_exact_match determines if you are looking for an
exact match based on lookup_value
     *
     * @return mixed The value of the found cell
     */
    public static function HLOOKUP($lookup_value, $lookup_array,
$index_number, $not_exact_match = true)
    {
        $lookup_value = Functions::flattenSingleValue($lookup_value);
        $index_number = Functions::flattenSingleValue($index_number);
        $not_exact_match = Functions::flattenSingleValue($not_exact_match);

        // index_number must be greater than or equal to 1
        if ($index_number < 1) {
            return Functions::VALUE();
        }

        // index_number must be less than or equal to the number of columns
in lookup_array
        if ((!is_array($lookup_array)) || (empty($lookup_array))) {
            return Functions::REF();
        }
        $f = array_keys($lookup_array);
        $firstRow = array_pop($f);
        if ((!is_array($lookup_array[$firstRow])) || ($index_number >
count($lookup_array))) {
            return Functions::REF();
        }

        $firstkey = $f[0] - 1;
        $returnColumn = $firstkey + $index_number;
        $firstColumn = array_shift($f);
        $rowNumber = null;
        foreach ($lookup_array[$firstColumn] as $rowKey => $rowData) {
            // break if we have passed possible keys
            $bothNumeric = is_numeric($lookup_value) &&
is_numeric($rowData);
            $bothNotNumeric = !is_numeric($lookup_value) &&
!is_numeric($rowData);
            $lookupLower = StringHelper::strToLower($lookup_value);
            $rowDataLower = StringHelper::strToLower($rowData);

            if ($not_exact_match && (
                ($bothNumeric && $rowData > $lookup_value) ||
                ($bothNotNumeric && $rowDataLower >
$lookupLower)
                )) {
                break;
            }

            // Remember the last key, but only if datatypes match (as in
VLOOKUP)
            if ($bothNumeric || $bothNotNumeric) {
                if ($not_exact_match) {
                    $rowNumber = $rowKey;

                    continue;
                } elseif ($rowDataLower === $lookupLower
                    && ($rowNumber === null || $rowKey <
$rowNumber)
                ) {
                    $rowNumber = $rowKey;
                }
            }
        }

        if ($rowNumber !== null) {
            //  otherwise return the appropriate value
            return $lookup_array[$returnColumn][$rowNumber];
        }

        return Functions::NA();
    }

    /**
     * LOOKUP
     * The LOOKUP function searches for value either from a one-row or
one-column range or from an array.
     *
     * @param mixed $lookup_value The value that you want to match in
lookup_array
     * @param mixed $lookup_vector The range of cells being searched
     * @param null|mixed $result_vector The column from which the matching
value must be returned
     *
     * @return mixed The value of the found cell
     */
    public static function LOOKUP($lookup_value, $lookup_vector,
$result_vector = null)
    {
        $lookup_value = Functions::flattenSingleValue($lookup_value);

        if (!is_array($lookup_vector)) {
            return Functions::NA();
        }
        $hasResultVector = isset($result_vector);
        $lookupRows = count($lookup_vector);
        $l = array_keys($lookup_vector);
        $l = array_shift($l);
        $lookupColumns = count($lookup_vector[$l]);
        // we correctly orient our results
        if (($lookupRows === 1 && $lookupColumns > 1) ||
(!$hasResultVector && $lookupRows === 2 && $lookupColumns
!== 2)) {
            $lookup_vector = self::TRANSPOSE($lookup_vector);
            $lookupRows = count($lookup_vector);
            $l = array_keys($lookup_vector);
            $lookupColumns = count($lookup_vector[array_shift($l)]);
        }

        if ($result_vector === null) {
            $result_vector = $lookup_vector;
        }
        $resultRows = count($result_vector);
        $l = array_keys($result_vector);
        $l = array_shift($l);
        $resultColumns = count($result_vector[$l]);
        // we correctly orient our results
        if ($resultRows === 1 && $resultColumns > 1) {
            $result_vector = self::TRANSPOSE($result_vector);
            $resultRows = count($result_vector);
            $r = array_keys($result_vector);
            $resultColumns = count($result_vector[array_shift($r)]);
        }

        if ($lookupRows === 2 && !$hasResultVector) {
            $result_vector = array_pop($lookup_vector);
            $lookup_vector = array_shift($lookup_vector);
        }

        if ($lookupColumns !== 2) {
            foreach ($lookup_vector as &$value) {
                if (is_array($value)) {
                    $k = array_keys($value);
                    $key1 = $key2 = array_shift($k);
                    ++$key2;
                    $dataValue1 = $value[$key1];
                } else {
                    $key1 = 0;
                    $key2 = 1;
                    $dataValue1 = $value;
                }
                $dataValue2 = array_shift($result_vector);
                if (is_array($dataValue2)) {
                    $dataValue2 = array_shift($dataValue2);
                }
                $value = [$key1 => $dataValue1, $key2 =>
$dataValue2];
            }
            unset($value);
        }

        return self::VLOOKUP($lookup_value, $lookup_vector, 2);
    }

    /**
     * FORMULATEXT.
     *
     * @param mixed $cellReference The cell to check
     * @param Cell $pCell The current cell (containing this formula)
     *
     * @return string
     */
    public static function FORMULATEXT($cellReference = '', Cell
$pCell = null)
    {
        if ($pCell === null) {
            return Functions::REF();
        }

        preg_match('/^' . Calculation::CALCULATION_REGEXP_CELLREF
. '$/i', $cellReference, $matches);

        $cellReference = $matches[6] . $matches[7];
        $worksheetName = trim($matches[3], "'");
        $worksheet = (!empty($worksheetName))
            ?
$pCell->getWorksheet()->getParent()->getSheetByName($worksheetName)
            : $pCell->getWorksheet();

        if (!$worksheet->getCell($cellReference)->isFormula()) {
            return Functions::NA();
        }

        return $worksheet->getCell($cellReference)->getValue();
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/MathTrig.php000064400000144116151165413760023237
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Calculation;

use Matrix\Exception as MatrixException;
use Matrix\Matrix;

class MathTrig
{
    //
    //    Private method to return an array of the factors of the input
value
    //
    private static function factors($value)
    {
        $startVal = floor(sqrt($value));

        $factorArray = [];
        for ($i = $startVal; $i > 1; --$i) {
            if (($value % $i) == 0) {
                $factorArray = array_merge($factorArray,
self::factors($value / $i));
                $factorArray = array_merge($factorArray,
self::factors($i));
                if ($i <= sqrt($value)) {
                    break;
                }
            }
        }
        if (!empty($factorArray)) {
            rsort($factorArray);

            return $factorArray;
        }

        return [(int) $value];
    }

    private static function romanCut($num, $n)
    {
        return ($num - ($num % $n)) / $n;
    }

    /**
     * ARABIC.
     *
     * Converts a Roman numeral to an Arabic numeral.
     *
     * Excel Function:
     *        ARABIC(text)
     *
     * @category Mathematical and Trigonometric Functions
     *
     * @param string $roman
     *
     * @return int|string the arabic numberal contrived from the roman
numeral
     */
    public static function ARABIC($roman)
    {
        // An empty string should return 0
        $roman = substr(trim(strtoupper((string)
Functions::flattenSingleValue($roman))), 0, 255);
        if ($roman === '') {
            return 0;
        }

        // Convert the roman numeral to an arabic number
        $lookup = [
            'M' => 1000, 'CM' => 900,
            'D' => 500, 'CD' => 400,
            'C' => 100, 'XC' => 90,
            'L' => 50, 'XL' => 40,
            'X' => 10, 'IX' => 9,
            'V' => 5, 'IV' => 4, 'I'
=> 1,
        ];

        $negativeNumber = $roman[0] === '-';
        if ($negativeNumber) {
            $roman = substr($roman, 1);
        }

        $arabic = 0;
        for ($i = 0; $i < strlen($roman); ++$i) {
            if (!isset($lookup[$roman[$i]])) {
                return Functions::VALUE(); // Invalid character detected
            }

            if ($i < (strlen($roman) - 1) &&
isset($lookup[substr($roman, $i, 2)])) {
                $arabic += $lookup[substr($roman, $i, 2)]; // Detected a
match on the next 2 characters
                ++$i;
            } else {
                $arabic += $lookup[$roman[$i]]; // Detected a match on one
character only
            }
        }

        if ($negativeNumber) {
            $arabic *= -1; // The number should be negative
        }

        return $arabic;
    }

    /**
     * ATAN2.
     *
     * This function calculates the arc tangent of the two variables x and
y. It is similar to
     *        calculating the arc tangent of y ÷ x, except that the signs
of both arguments are used
     *        to determine the quadrant of the result.
     * The arctangent is the angle from the x-axis to a line containing the
origin (0, 0) and a
     *        point with coordinates (xCoordinate, yCoordinate). The angle
is given in radians between
     *        -pi and pi, excluding -pi.
     *
     * Note that the Excel ATAN2() function accepts its arguments in the
reverse order to the standard
     *        PHP atan2() function, so we need to reverse them here before
calling the PHP atan() function.
     *
     * Excel Function:
     *        ATAN2(xCoordinate,yCoordinate)
     *
     * @category Mathematical and Trigonometric Functions
     *
     * @param float $xCoordinate the x-coordinate of the point
     * @param float $yCoordinate the y-coordinate of the point
     *
     * @return float|string the inverse tangent of the specified x- and
y-coordinates, or a string containing an error
     */
    public static function ATAN2($xCoordinate = null, $yCoordinate = null)
    {
        $xCoordinate = Functions::flattenSingleValue($xCoordinate);
        $yCoordinate = Functions::flattenSingleValue($yCoordinate);

        $xCoordinate = ($xCoordinate !== null) ? $xCoordinate : 0.0;
        $yCoordinate = ($yCoordinate !== null) ? $yCoordinate : 0.0;

        if (((is_numeric($xCoordinate)) || (is_bool($xCoordinate)))
&&
            ((is_numeric($yCoordinate))) || (is_bool($yCoordinate))) {
            $xCoordinate = (float) $xCoordinate;
            $yCoordinate = (float) $yCoordinate;

            if (($xCoordinate == 0) && ($yCoordinate == 0)) {
                return Functions::DIV0();
            }

            return atan2($yCoordinate, $xCoordinate);
        }

        return Functions::VALUE();
    }

    /**
     * BASE.
     *
     * Converts a number into a text representation with the given radix
(base).
     *
     * Excel Function:
     *        BASE(Number, Radix [Min_length])
     *
     * @category Mathematical and Trigonometric Functions
     *
     * @param float $number
     * @param float $radix
     * @param int $minLength
     *
     * @return string the text representation with the given radix (base)
     */
    public static function BASE($number, $radix, $minLength = null)
    {
        $number = Functions::flattenSingleValue($number);
        $radix = Functions::flattenSingleValue($radix);
        $minLength = Functions::flattenSingleValue($minLength);

        if (is_numeric($number) && is_numeric($radix) &&
($minLength === null || is_numeric($minLength))) {
            // Truncate to an integer
            $number = (int) $number;
            $radix = (int) $radix;
            $minLength = (int) $minLength;

            if ($number < 0 || $number >= 2 ** 53 || $radix < 2 ||
$radix > 36) {
                return Functions::NAN(); // Numeric range constraints
            }

            $outcome = strtoupper((string) base_convert($number, 10,
$radix));
            if ($minLength !== null) {
                $outcome = str_pad($outcome, $minLength, '0',
STR_PAD_LEFT); // String padding
            }

            return $outcome;
        }

        return Functions::VALUE();
    }

    /**
     * CEILING.
     *
     * Returns number rounded up, away from zero, to the nearest multiple
of significance.
     *        For example, if you want to avoid using pennies in your
prices and your product is
     *        priced at $4.42, use the formula =CEILING(4.42,0.05) to round
prices up to the
     *        nearest nickel.
     *
     * Excel Function:
     *        CEILING(number[,significance])
     *
     * @category Mathematical and Trigonometric Functions
     *
     * @param float $number the number you want to round
     * @param float $significance the multiple to which you want to round
     *
     * @return float|string Rounded Number, or a string containing an error
     */
    public static function CEILING($number, $significance = null)
    {
        $number = Functions::flattenSingleValue($number);
        $significance = Functions::flattenSingleValue($significance);

        if (($significance === null) &&
            (Functions::getCompatibilityMode() ==
Functions::COMPATIBILITY_GNUMERIC)) {
            $significance = $number / abs($number);
        }

        if ((is_numeric($number)) && (is_numeric($significance))) {
            if (($number == 0.0) || ($significance == 0.0)) {
                return 0.0;
            } elseif (self::SIGN($number) == self::SIGN($significance)) {
                return ceil($number / $significance) * $significance;
            }

            return Functions::NAN();
        }

        return Functions::VALUE();
    }

    /**
     * COMBIN.
     *
     * Returns the number of combinations for a given number of items. Use
COMBIN to
     *        determine the total possible number of groups for a given
number of items.
     *
     * Excel Function:
     *        COMBIN(numObjs,numInSet)
     *
     * @category Mathematical and Trigonometric Functions
     *
     * @param int $numObjs Number of different objects
     * @param int $numInSet Number of objects in each combination
     *
     * @return int|string Number of combinations, or a string containing an
error
     */
    public static function COMBIN($numObjs, $numInSet)
    {
        $numObjs = Functions::flattenSingleValue($numObjs);
        $numInSet = Functions::flattenSingleValue($numInSet);

        if ((is_numeric($numObjs)) && (is_numeric($numInSet))) {
            if ($numObjs < $numInSet) {
                return Functions::NAN();
            } elseif ($numInSet < 0) {
                return Functions::NAN();
            }

            return round(self::FACT($numObjs) / self::FACT($numObjs -
$numInSet)) / self::FACT($numInSet);
        }

        return Functions::VALUE();
    }

    /**
     * EVEN.
     *
     * Returns number rounded up to the nearest even integer.
     * You can use this function for processing items that come in twos.
For example,
     *        a packing crate accepts rows of one or two items. The crate
is full when
     *        the number of items, rounded up to the nearest two, matches
the crate's
     *        capacity.
     *
     * Excel Function:
     *        EVEN(number)
     *
     * @category Mathematical and Trigonometric Functions
     *
     * @param float $number Number to round
     *
     * @return int|string Rounded Number, or a string containing an error
     */
    public static function EVEN($number)
    {
        $number = Functions::flattenSingleValue($number);

        if ($number === null) {
            return 0;
        } elseif (is_bool($number)) {
            $number = (int) $number;
        }

        if (is_numeric($number)) {
            $significance = 2 * self::SIGN($number);

            return (int) self::CEILING($number, $significance);
        }

        return Functions::VALUE();
    }

    /**
     * FACT.
     *
     * Returns the factorial of a number.
     * The factorial of a number is equal to 1*2*3*...* number.
     *
     * Excel Function:
     *        FACT(factVal)
     *
     * @category Mathematical and Trigonometric Functions
     *
     * @param float $factVal Factorial Value
     *
     * @return int|string Factorial, or a string containing an error
     */
    public static function FACT($factVal)
    {
        $factVal = Functions::flattenSingleValue($factVal);

        if (is_numeric($factVal)) {
            if ($factVal < 0) {
                return Functions::NAN();
            }
            $factLoop = floor($factVal);
            if ((Functions::getCompatibilityMode() ==
Functions::COMPATIBILITY_GNUMERIC) &&
                ($factVal > $factLoop)) {
                return Functions::NAN();
            }

            $factorial = 1;
            while ($factLoop > 1) {
                $factorial *= $factLoop--;
            }

            return $factorial;
        }

        return Functions::VALUE();
    }

    /**
     * FACTDOUBLE.
     *
     * Returns the double factorial of a number.
     *
     * Excel Function:
     *        FACTDOUBLE(factVal)
     *
     * @category Mathematical and Trigonometric Functions
     *
     * @param float $factVal Factorial Value
     *
     * @return int|string Double Factorial, or a string containing an error
     */
    public static function FACTDOUBLE($factVal)
    {
        $factLoop = Functions::flattenSingleValue($factVal);

        if (is_numeric($factLoop)) {
            $factLoop = floor($factLoop);
            if ($factVal < 0) {
                return Functions::NAN();
            }
            $factorial = 1;
            while ($factLoop > 1) {
                $factorial *= $factLoop--;
                --$factLoop;
            }

            return $factorial;
        }

        return Functions::VALUE();
    }

    /**
     * FLOOR.
     *
     * Rounds number down, toward zero, to the nearest multiple of
significance.
     *
     * Excel Function:
     *        FLOOR(number[,significance])
     *
     * @category Mathematical and Trigonometric Functions
     *
     * @param float $number Number to round
     * @param float $significance Significance
     *
     * @return float|string Rounded Number, or a string containing an error
     */
    public static function FLOOR($number, $significance = null)
    {
        $number = Functions::flattenSingleValue($number);
        $significance = Functions::flattenSingleValue($significance);

        if (($significance === null) &&
            (Functions::getCompatibilityMode() ==
Functions::COMPATIBILITY_GNUMERIC)) {
            $significance = $number / abs($number);
        }

        if ((is_numeric($number)) && (is_numeric($significance))) {
            if ($significance == 0.0) {
                return Functions::DIV0();
            } elseif ($number == 0.0) {
                return 0.0;
            } elseif (self::SIGN($significance) == 1) {
                return floor($number / $significance) * $significance;
            } elseif (self::SIGN($number) == -1 &&
self::SIGN($significance) == -1) {
                return floor($number / $significance) * $significance;
            }

            return Functions::NAN();
        }

        return Functions::VALUE();
    }

    private static function evaluateGCD($a, $b)
    {
        return $b ? self::evaluateGCD($b, $a % $b) : $a;
    }

    /**
     * GCD.
     *
     * Returns the greatest common divisor of a series of numbers.
     * The greatest common divisor is the largest integer that divides both
     *        number1 and number2 without a remainder.
     *
     * Excel Function:
     *        GCD(number1[,number2[, ...]])
     *
     * @category Mathematical and Trigonometric Functions
     *
     * @param mixed ...$args Data values
     *
     * @return int|mixed|string Greatest Common Divisor, or a string
containing an error
     */
    public static function GCD(...$args)
    {
        $args = Functions::flattenArray($args);
        // Loop through arguments
        foreach (Functions::flattenArray($args) as $value) {
            if (!is_numeric($value)) {
                return Functions::VALUE();
            } elseif ($value < 0) {
                return Functions::NAN();
            }
        }

        $gcd = (int) array_pop($args);
        do {
            $gcd = self::evaluateGCD($gcd, (int) array_pop($args));
        } while (!empty($args));

        return $gcd;
    }

    /**
     * INT.
     *
     * Casts a floating point value to an integer
     *
     * Excel Function:
     *        INT(number)
     *
     * @category Mathematical and Trigonometric Functions
     *
     * @param float $number Number to cast to an integer
     *
     * @return int|string Integer value, or a string containing an error
     */
    public static function INT($number)
    {
        $number = Functions::flattenSingleValue($number);

        if ($number === null) {
            return 0;
        } elseif (is_bool($number)) {
            return (int) $number;
        }
        if (is_numeric($number)) {
            return (int) floor($number);
        }

        return Functions::VALUE();
    }

    /**
     * LCM.
     *
     * Returns the lowest common multiplier of a series of numbers
     * The least common multiple is the smallest positive integer that is a
multiple
     * of all integer arguments number1, number2, and so on. Use LCM to add
fractions
     * with different denominators.
     *
     * Excel Function:
     *        LCM(number1[,number2[, ...]])
     *
     * @category Mathematical and Trigonometric Functions
     *
     * @param mixed ...$args Data values
     *
     * @return int|string Lowest Common Multiplier, or a string containing
an error
     */
    public static function LCM(...$args)
    {
        $returnValue = 1;
        $allPoweredFactors = [];
        // Loop through arguments
        foreach (Functions::flattenArray($args) as $value) {
            if (!is_numeric($value)) {
                return Functions::VALUE();
            }
            if ($value == 0) {
                return 0;
            } elseif ($value < 0) {
                return Functions::NAN();
            }
            $myFactors = self::factors(floor($value));
            $myCountedFactors = array_count_values($myFactors);
            $myPoweredFactors = [];
            foreach ($myCountedFactors as $myCountedFactor =>
$myCountedPower) {
                $myPoweredFactors[$myCountedFactor] = pow($myCountedFactor,
$myCountedPower);
            }
            foreach ($myPoweredFactors as $myPoweredValue =>
$myPoweredFactor) {
                if (isset($allPoweredFactors[$myPoweredValue])) {
                    if ($allPoweredFactors[$myPoweredValue] <
$myPoweredFactor) {
                        $allPoweredFactors[$myPoweredValue] =
$myPoweredFactor;
                    }
                } else {
                    $allPoweredFactors[$myPoweredValue] = $myPoweredFactor;
                }
            }
        }
        foreach ($allPoweredFactors as $allPoweredFactor) {
            $returnValue *= (int) $allPoweredFactor;
        }

        return $returnValue;
    }

    /**
     * LOG_BASE.
     *
     * Returns the logarithm of a number to a specified base. The default
base is 10.
     *
     * Excel Function:
     *        LOG(number[,base])
     *
     * @category Mathematical and Trigonometric Functions
     *
     * @param float $number The positive real number for which you want the
logarithm
     * @param float $base The base of the logarithm. If base is omitted, it
is assumed to be 10.
     *
     * @return float|string The result, or a string containing an error
     */
    public static function logBase($number = null, $base = 10)
    {
        $number = Functions::flattenSingleValue($number);
        $base = ($base === null) ? 10 : (float)
Functions::flattenSingleValue($base);

        if ((!is_numeric($base)) || (!is_numeric($number))) {
            return Functions::VALUE();
        }
        if (($base <= 0) || ($number <= 0)) {
            return Functions::NAN();
        }

        return log($number, $base);
    }

    /**
     * MDETERM.
     *
     * Returns the matrix determinant of an array.
     *
     * Excel Function:
     *        MDETERM(array)
     *
     * @category Mathematical and Trigonometric Functions
     *
     * @param array $matrixValues A matrix of values
     *
     * @return float|string The result, or a string containing an error
     */
    public static function MDETERM($matrixValues)
    {
        $matrixData = [];
        if (!is_array($matrixValues)) {
            $matrixValues = [[$matrixValues]];
        }

        $row = $maxColumn = 0;
        foreach ($matrixValues as $matrixRow) {
            if (!is_array($matrixRow)) {
                $matrixRow = [$matrixRow];
            }
            $column = 0;
            foreach ($matrixRow as $matrixCell) {
                if ((is_string($matrixCell)) || ($matrixCell === null)) {
                    return Functions::VALUE();
                }
                $matrixData[$row][$column] = $matrixCell;
                ++$column;
            }
            if ($column > $maxColumn) {
                $maxColumn = $column;
            }
            ++$row;
        }

        $matrix = new Matrix($matrixData);
        if (!$matrix->isSquare()) {
            return Functions::VALUE();
        }

        try {
            return $matrix->determinant();
        } catch (MatrixException $ex) {
            return Functions::VALUE();
        }
    }

    /**
     * MINVERSE.
     *
     * Returns the inverse matrix for the matrix stored in an array.
     *
     * Excel Function:
     *        MINVERSE(array)
     *
     * @category Mathematical and Trigonometric Functions
     *
     * @param array $matrixValues A matrix of values
     *
     * @return array|string The result, or a string containing an error
     */
    public static function MINVERSE($matrixValues)
    {
        $matrixData = [];
        if (!is_array($matrixValues)) {
            $matrixValues = [[$matrixValues]];
        }

        $row = $maxColumn = 0;
        foreach ($matrixValues as $matrixRow) {
            if (!is_array($matrixRow)) {
                $matrixRow = [$matrixRow];
            }
            $column = 0;
            foreach ($matrixRow as $matrixCell) {
                if ((is_string($matrixCell)) || ($matrixCell === null)) {
                    return Functions::VALUE();
                }
                $matrixData[$row][$column] = $matrixCell;
                ++$column;
            }
            if ($column > $maxColumn) {
                $maxColumn = $column;
            }
            ++$row;
        }

        $matrix = new Matrix($matrixData);
        if (!$matrix->isSquare()) {
            return Functions::VALUE();
        }

        if ($matrix->determinant() == 0.0) {
            return Functions::NAN();
        }

        try {
            return $matrix->inverse()->toArray();
        } catch (MatrixException $ex) {
            return Functions::VALUE();
        }
    }

    /**
     * MMULT.
     *
     * @param array $matrixData1 A matrix of values
     * @param array $matrixData2 A matrix of values
     *
     * @return array|string The result, or a string containing an error
     */
    public static function MMULT($matrixData1, $matrixData2)
    {
        $matrixAData = $matrixBData = [];
        if (!is_array($matrixData1)) {
            $matrixData1 = [[$matrixData1]];
        }
        if (!is_array($matrixData2)) {
            $matrixData2 = [[$matrixData2]];
        }

        try {
            $rowA = 0;
            foreach ($matrixData1 as $matrixRow) {
                if (!is_array($matrixRow)) {
                    $matrixRow = [$matrixRow];
                }
                $columnA = 0;
                foreach ($matrixRow as $matrixCell) {
                    if ((!is_numeric($matrixCell)) || ($matrixCell ===
null)) {
                        return Functions::VALUE();
                    }
                    $matrixAData[$rowA][$columnA] = $matrixCell;
                    ++$columnA;
                }
                ++$rowA;
            }
            $matrixA = new Matrix($matrixAData);
            $rowB = 0;
            foreach ($matrixData2 as $matrixRow) {
                if (!is_array($matrixRow)) {
                    $matrixRow = [$matrixRow];
                }
                $columnB = 0;
                foreach ($matrixRow as $matrixCell) {
                    if ((!is_numeric($matrixCell)) || ($matrixCell ===
null)) {
                        return Functions::VALUE();
                    }
                    $matrixBData[$rowB][$columnB] = $matrixCell;
                    ++$columnB;
                }
                ++$rowB;
            }
            $matrixB = new Matrix($matrixBData);

            if ($columnA != $rowB) {
                return Functions::VALUE();
            }

            return $matrixA->multiply($matrixB)->toArray();
        } catch (MatrixException $ex) {
            return Functions::VALUE();
        }
    }

    /**
     * MOD.
     *
     * @param int $a Dividend
     * @param int $b Divisor
     *
     * @return int|string Remainder, or a string containing an error
     */
    public static function MOD($a = 1, $b = 1)
    {
        $a = (float) Functions::flattenSingleValue($a);
        $b = (float) Functions::flattenSingleValue($b);

        if ($b == 0.0) {
            return Functions::DIV0();
        } elseif (($a < 0.0) && ($b > 0.0)) {
            return $b - fmod(abs($a), $b);
        } elseif (($a > 0.0) && ($b < 0.0)) {
            return $b + fmod($a, abs($b));
        }

        return fmod($a, $b);
    }

    /**
     * MROUND.
     *
     * Rounds a number to the nearest multiple of a specified value
     *
     * @param float $number Number to round
     * @param int $multiple Multiple to which you want to round $number
     *
     * @return float|string Rounded Number, or a string containing an error
     */
    public static function MROUND($number, $multiple)
    {
        $number = Functions::flattenSingleValue($number);
        $multiple = Functions::flattenSingleValue($multiple);

        if ((is_numeric($number)) && (is_numeric($multiple))) {
            if ($multiple == 0) {
                return 0;
            }
            if ((self::SIGN($number)) == (self::SIGN($multiple))) {
                $multiplier = 1 / $multiple;

                return round($number * $multiplier) / $multiplier;
            }

            return Functions::NAN();
        }

        return Functions::VALUE();
    }

    /**
     * MULTINOMIAL.
     *
     * Returns the ratio of the factorial of a sum of values to the product
of factorials.
     *
     * @param array of mixed Data Series
     *
     * @return float|string The result, or a string containing an error
     */
    public static function MULTINOMIAL(...$args)
    {
        $summer = 0;
        $divisor = 1;
        // Loop through arguments
        foreach (Functions::flattenArray($args) as $arg) {
            // Is it a numeric value?
            if (is_numeric($arg)) {
                if ($arg < 1) {
                    return Functions::NAN();
                }
                $summer += floor($arg);
                $divisor *= self::FACT($arg);
            } else {
                return Functions::VALUE();
            }
        }

        // Return
        if ($summer > 0) {
            $summer = self::FACT($summer);

            return $summer / $divisor;
        }

        return 0;
    }

    /**
     * ODD.
     *
     * Returns number rounded up to the nearest odd integer.
     *
     * @param float $number Number to round
     *
     * @return int|string Rounded Number, or a string containing an error
     */
    public static function ODD($number)
    {
        $number = Functions::flattenSingleValue($number);

        if ($number === null) {
            return 1;
        } elseif (is_bool($number)) {
            return 1;
        } elseif (is_numeric($number)) {
            $significance = self::SIGN($number);
            if ($significance == 0) {
                return 1;
            }

            $result = self::CEILING($number, $significance);
            if ($result == self::EVEN($result)) {
                $result += $significance;
            }

            return (int) $result;
        }

        return Functions::VALUE();
    }

    /**
     * POWER.
     *
     * Computes x raised to the power y.
     *
     * @param float $x
     * @param float $y
     *
     * @return float|string The result, or a string containing an error
     */
    public static function POWER($x = 0, $y = 2)
    {
        $x = Functions::flattenSingleValue($x);
        $y = Functions::flattenSingleValue($y);

        // Validate parameters
        if ($x == 0.0 && $y == 0.0) {
            return Functions::NAN();
        } elseif ($x == 0.0 && $y < 0.0) {
            return Functions::DIV0();
        }

        // Return
        $result = pow($x, $y);

        return (!is_nan($result) && !is_infinite($result)) ?
$result : Functions::NAN();
    }

    /**
     * PRODUCT.
     *
     * PRODUCT returns the product of all the values and cells referenced
in the argument list.
     *
     * Excel Function:
     *        PRODUCT(value1[,value2[, ...]])
     *
     * @category Mathematical and Trigonometric Functions
     *
     * @param mixed ...$args Data values
     *
     * @return float
     */
    public static function PRODUCT(...$args)
    {
        // Return value
        $returnValue = null;

        // Loop through arguments
        foreach (Functions::flattenArray($args) as $arg) {
            // Is it a numeric value?
            if ((is_numeric($arg)) && (!is_string($arg))) {
                if ($returnValue === null) {
                    $returnValue = $arg;
                } else {
                    $returnValue *= $arg;
                }
            }
        }

        // Return
        if ($returnValue === null) {
            return 0;
        }

        return $returnValue;
    }

    /**
     * QUOTIENT.
     *
     * QUOTIENT function returns the integer portion of a division.
Numerator is the divided number
     *        and denominator is the divisor.
     *
     * Excel Function:
     *        QUOTIENT(value1[,value2[, ...]])
     *
     * @category Mathematical and Trigonometric Functions
     *
     * @param mixed ...$args Data values
     *
     * @return float
     */
    public static function QUOTIENT(...$args)
    {
        // Return value
        $returnValue = null;

        // Loop through arguments
        foreach (Functions::flattenArray($args) as $arg) {
            // Is it a numeric value?
            if ((is_numeric($arg)) && (!is_string($arg))) {
                if ($returnValue === null) {
                    $returnValue = ($arg == 0) ? 0 : $arg;
                } else {
                    if (($returnValue == 0) || ($arg == 0)) {
                        $returnValue = 0;
                    } else {
                        $returnValue /= $arg;
                    }
                }
            }
        }

        // Return
        return (int) $returnValue;
    }

    /**
     * RAND.
     *
     * @param int $min Minimal value
     * @param int $max Maximal value
     *
     * @return int Random number
     */
    public static function RAND($min = 0, $max = 0)
    {
        $min = Functions::flattenSingleValue($min);
        $max = Functions::flattenSingleValue($max);

        if ($min == 0 && $max == 0) {
            return (mt_rand(0, 10000000)) / 10000000;
        }

        return mt_rand($min, $max);
    }

    public static function ROMAN($aValue, $style = 0)
    {
        $aValue = Functions::flattenSingleValue($aValue);
        $style = ($style === null) ? 0 : (int)
Functions::flattenSingleValue($style);
        if ((!is_numeric($aValue)) || ($aValue < 0) || ($aValue >=
4000)) {
            return Functions::VALUE();
        }
        $aValue = (int) $aValue;
        if ($aValue == 0) {
            return '';
        }

        $mill = ['', 'M', 'MM',
'MMM', 'MMMM', 'MMMMM'];
        $cent = ['', 'C', 'CC',
'CCC', 'CD', 'D', 'DC',
'DCC', 'DCCC', 'CM'];
        $tens = ['', 'X', 'XX',
'XXX', 'XL', 'L', 'LX',
'LXX', 'LXXX', 'XC'];
        $ones = ['', 'I', 'II',
'III', 'IV', 'V', 'VI',
'VII', 'VIII', 'IX'];

        $roman = '';
        while ($aValue > 5999) {
            $roman .= 'M';
            $aValue -= 1000;
        }
        $m = self::romanCut($aValue, 1000);
        $aValue %= 1000;
        $c = self::romanCut($aValue, 100);
        $aValue %= 100;
        $t = self::romanCut($aValue, 10);
        $aValue %= 10;

        return $roman . $mill[$m] . $cent[$c] . $tens[$t] . $ones[$aValue];
    }

    /**
     * ROUNDUP.
     *
     * Rounds a number up to a specified number of decimal places
     *
     * @param float $number Number to round
     * @param int $digits Number of digits to which you want to round
$number
     *
     * @return float|string Rounded Number, or a string containing an error
     */
    public static function ROUNDUP($number, $digits)
    {
        $number = Functions::flattenSingleValue($number);
        $digits = Functions::flattenSingleValue($digits);

        if ((is_numeric($number)) && (is_numeric($digits))) {
            $significance = pow(10, (int) $digits);
            if ($number < 0.0) {
                return floor($number * $significance) / $significance;
            }

            return ceil($number * $significance) / $significance;
        }

        return Functions::VALUE();
    }

    /**
     * ROUNDDOWN.
     *
     * Rounds a number down to a specified number of decimal places
     *
     * @param float $number Number to round
     * @param int $digits Number of digits to which you want to round
$number
     *
     * @return float|string Rounded Number, or a string containing an error
     */
    public static function ROUNDDOWN($number, $digits)
    {
        $number = Functions::flattenSingleValue($number);
        $digits = Functions::flattenSingleValue($digits);

        if ((is_numeric($number)) && (is_numeric($digits))) {
            $significance = pow(10, (int) $digits);
            if ($number < 0.0) {
                return ceil($number * $significance) / $significance;
            }

            return floor($number * $significance) / $significance;
        }

        return Functions::VALUE();
    }

    /**
     * SERIESSUM.
     *
     * Returns the sum of a power series
     *
     * @param float $x Input value to the power series
     * @param float $n Initial power to which you want to raise $x
     * @param float $m Step by which to increase $n for each term in the
series
     * @param array of mixed Data Series
     *
     * @return float|string The result, or a string containing an error
     */
    public static function SERIESSUM(...$args)
    {
        $returnValue = 0;

        // Loop through arguments
        $aArgs = Functions::flattenArray($args);

        $x = array_shift($aArgs);
        $n = array_shift($aArgs);
        $m = array_shift($aArgs);

        if ((is_numeric($x)) && (is_numeric($n)) &&
(is_numeric($m))) {
            // Calculate
            $i = 0;
            foreach ($aArgs as $arg) {
                // Is it a numeric value?
                if ((is_numeric($arg)) && (!is_string($arg))) {
                    $returnValue += $arg * pow($x, $n + ($m * $i++));
                } else {
                    return Functions::VALUE();
                }
            }

            return $returnValue;
        }

        return Functions::VALUE();
    }

    /**
     * SIGN.
     *
     * Determines the sign of a number. Returns 1 if the number is
positive, zero (0)
     *        if the number is 0, and -1 if the number is negative.
     *
     * @param float $number Number to round
     *
     * @return int|string sign value, or a string containing an error
     */
    public static function SIGN($number)
    {
        $number = Functions::flattenSingleValue($number);

        if (is_bool($number)) {
            return (int) $number;
        }
        if (is_numeric($number)) {
            if ($number == 0.0) {
                return 0;
            }

            return $number / abs($number);
        }

        return Functions::VALUE();
    }

    /**
     * SQRTPI.
     *
     * Returns the square root of (number * pi).
     *
     * @param float $number Number
     *
     * @return float|string Square Root of Number * Pi, or a string
containing an error
     */
    public static function SQRTPI($number)
    {
        $number = Functions::flattenSingleValue($number);

        if (is_numeric($number)) {
            if ($number < 0) {
                return Functions::NAN();
            }

            return sqrt($number * M_PI);
        }

        return Functions::VALUE();
    }

    protected static function filterHiddenArgs($cellReference, $args)
    {
        return array_filter(
            $args,
            function ($index) use ($cellReference) {
                [, $row, $column] = explode('.', $index);

                return
$cellReference->getWorksheet()->getRowDimension($row)->getVisible()
&&
                   
$cellReference->getWorksheet()->getColumnDimension($column)->getVisible();
            },
            ARRAY_FILTER_USE_KEY
        );
    }

    protected static function filterFormulaArgs($cellReference, $args)
    {
        return array_filter(
            $args,
            function ($index) use ($cellReference) {
                [, $row, $column] = explode('.', $index);
                if
($cellReference->getWorksheet()->cellExists($column . $row)) {
                    //take this cell out if it contains the SUBTOTAL or
AGGREGATE functions in a formula
                    $isFormula =
$cellReference->getWorksheet()->getCell($column .
$row)->isFormula();
                    $cellFormula =
!preg_match('/^=.*\b(SUBTOTAL|AGGREGATE)\s*\(/i',
$cellReference->getWorksheet()->getCell($column .
$row)->getValue());

                    return !$isFormula || $cellFormula;
                }

                return true;
            },
            ARRAY_FILTER_USE_KEY
        );
    }

    /**
     * SUBTOTAL.
     *
     * Returns a subtotal in a list or database.
     *
     * @param int the number 1 to 11 that specifies which function to
     *                    use in calculating subtotals within a range
     *                    list
     *            Numbers 101 to 111 shadow the functions of 1 to 11
     *                    but ignore any values in the range that are
     *                    in hidden rows or columns
     * @param array of mixed Data Series
     *
     * @return float|string
     */
    public static function SUBTOTAL(...$args)
    {
        $cellReference = array_pop($args);
        $aArgs = Functions::flattenArrayIndexed($args);
        $subtotal = array_shift($aArgs);

        // Calculate
        if ((is_numeric($subtotal)) && (!is_string($subtotal))) {
            if ($subtotal > 100) {
                $aArgs = self::filterHiddenArgs($cellReference, $aArgs);
                $subtotal -= 100;
            }

            $aArgs = self::filterFormulaArgs($cellReference, $aArgs);
            switch ($subtotal) {
                case 1:
                    return Statistical::AVERAGE($aArgs);
                case 2:
                    return Statistical::COUNT($aArgs);
                case 3:
                    return Statistical::COUNTA($aArgs);
                case 4:
                    return Statistical::MAX($aArgs);
                case 5:
                    return Statistical::MIN($aArgs);
                case 6:
                    return self::PRODUCT($aArgs);
                case 7:
                    return Statistical::STDEV($aArgs);
                case 8:
                    return Statistical::STDEVP($aArgs);
                case 9:
                    return self::SUM($aArgs);
                case 10:
                    return Statistical::VARFunc($aArgs);
                case 11:
                    return Statistical::VARP($aArgs);
            }
        }

        return Functions::VALUE();
    }

    /**
     * SUM.
     *
     * SUM computes the sum of all the values and cells referenced in the
argument list.
     *
     * Excel Function:
     *        SUM(value1[,value2[, ...]])
     *
     * @category Mathematical and Trigonometric Functions
     *
     * @param mixed ...$args Data values
     *
     * @return float
     */
    public static function SUM(...$args)
    {
        $returnValue = 0;

        // Loop through the arguments
        foreach (Functions::flattenArray($args) as $arg) {
            // Is it a numeric value?
            if ((is_numeric($arg)) && (!is_string($arg))) {
                $returnValue += $arg;
            }
        }

        return $returnValue;
    }

    /**
     * SUMIF.
     *
     * Counts the number of cells that contain numbers within the list of
arguments
     *
     * Excel Function:
     *        SUMIF(value1[,value2[, ...]],condition)
     *
     * @category Mathematical and Trigonometric Functions
     *
     * @param mixed $aArgs Data values
     * @param string $condition the criteria that defines which cells will
be summed
     * @param mixed $sumArgs
     *
     * @return float
     */
    public static function SUMIF($aArgs, $condition, $sumArgs = [])
    {
        $returnValue = 0;

        $aArgs = Functions::flattenArray($aArgs);
        $sumArgs = Functions::flattenArray($sumArgs);
        if (empty($sumArgs)) {
            $sumArgs = $aArgs;
        }
        $condition = Functions::ifCondition($condition);
        // Loop through arguments
        foreach ($aArgs as $key => $arg) {
            if (!is_numeric($arg)) {
                $arg = str_replace('"',
'""', $arg);
                $arg = Calculation::wrapResult(strtoupper($arg));
            }

            $testCondition = '=' . $arg . $condition;
            $sumValue = array_key_exists($key, $sumArgs) ? $sumArgs[$key] :
0;

            if (is_numeric($sumValue) &&
               
Calculation::getInstance()->_calculateFormulaValue($testCondition)) {
                // Is it a value within our criteria and only numeric can
be added to the result
                $returnValue += $sumValue;
            }
        }

        return $returnValue;
    }

    /**
     * SUMIFS.
     *
     *    Counts the number of cells that contain numbers within the list
of arguments
     *
     *    Excel Function:
     *        SUMIFS(value1[,value2[, ...]],condition)
     *
     *    @category Mathematical and Trigonometric Functions
     *
     * @param mixed $args Data values
     * @param string $condition the criteria that defines which cells will
be summed
     *
     * @return float
     */
    public static function SUMIFS(...$args)
    {
        $arrayList = $args;

        // Return value
        $returnValue = 0;

        $sumArgs = Functions::flattenArray(array_shift($arrayList));
        $aArgsArray = [];
        $conditions = [];

        while (count($arrayList) > 0) {
            $aArgsArray[] =
Functions::flattenArray(array_shift($arrayList));
            $conditions[] =
Functions::ifCondition(array_shift($arrayList));
        }

        // Loop through each sum and see if arguments and conditions are
true
        foreach ($sumArgs as $index => $value) {
            $valid = true;

            foreach ($conditions as $cidx => $condition) {
                $arg = $aArgsArray[$cidx][$index];

                // Loop through arguments
                if (!is_numeric($arg)) {
                    $arg = Calculation::wrapResult(strtoupper($arg));
                }
                $testCondition = '=' . $arg . $condition;
                if
(!Calculation::getInstance()->_calculateFormulaValue($testCondition)) {
                    // Is not a value within our criteria
                    $valid = false;

                    break; // if false found, don't need to check
other conditions
                }
            }

            if ($valid) {
                $returnValue += $value;
            }
        }

        // Return
        return $returnValue;
    }

    /**
     * SUMPRODUCT.
     *
     * Excel Function:
     *        SUMPRODUCT(value1[,value2[, ...]])
     *
     * @category Mathematical and Trigonometric Functions
     *
     * @param mixed ...$args Data values
     *
     * @return float|string The result, or a string containing an error
     */
    public static function SUMPRODUCT(...$args)
    {
        $arrayList = $args;

        $wrkArray = Functions::flattenArray(array_shift($arrayList));
        $wrkCellCount = count($wrkArray);

        for ($i = 0; $i < $wrkCellCount; ++$i) {
            if ((!is_numeric($wrkArray[$i])) || (is_string($wrkArray[$i])))
{
                $wrkArray[$i] = 0;
            }
        }

        foreach ($arrayList as $matrixData) {
            $array2 = Functions::flattenArray($matrixData);
            $count = count($array2);
            if ($wrkCellCount != $count) {
                return Functions::VALUE();
            }

            foreach ($array2 as $i => $val) {
                if ((!is_numeric($val)) || (is_string($val))) {
                    $val = 0;
                }
                $wrkArray[$i] *= $val;
            }
        }

        return array_sum($wrkArray);
    }

    /**
     * SUMSQ.
     *
     * SUMSQ returns the sum of the squares of the arguments
     *
     * Excel Function:
     *        SUMSQ(value1[,value2[, ...]])
     *
     * @category Mathematical and Trigonometric Functions
     *
     * @param mixed ...$args Data values
     *
     * @return float
     */
    public static function SUMSQ(...$args)
    {
        $returnValue = 0;

        // Loop through arguments
        foreach (Functions::flattenArray($args) as $arg) {
            // Is it a numeric value?
            if ((is_numeric($arg)) && (!is_string($arg))) {
                $returnValue += ($arg * $arg);
            }
        }

        return $returnValue;
    }

    /**
     * SUMX2MY2.
     *
     * @param mixed[] $matrixData1 Matrix #1
     * @param mixed[] $matrixData2 Matrix #2
     *
     * @return float
     */
    public static function SUMX2MY2($matrixData1, $matrixData2)
    {
        $array1 = Functions::flattenArray($matrixData1);
        $array2 = Functions::flattenArray($matrixData2);
        $count = min(count($array1), count($array2));

        $result = 0;
        for ($i = 0; $i < $count; ++$i) {
            if (((is_numeric($array1[$i])) &&
(!is_string($array1[$i]))) &&
                ((is_numeric($array2[$i])) &&
(!is_string($array2[$i])))) {
                $result += ($array1[$i] * $array1[$i]) - ($array2[$i] *
$array2[$i]);
            }
        }

        return $result;
    }

    /**
     * SUMX2PY2.
     *
     * @param mixed[] $matrixData1 Matrix #1
     * @param mixed[] $matrixData2 Matrix #2
     *
     * @return float
     */
    public static function SUMX2PY2($matrixData1, $matrixData2)
    {
        $array1 = Functions::flattenArray($matrixData1);
        $array2 = Functions::flattenArray($matrixData2);
        $count = min(count($array1), count($array2));

        $result = 0;
        for ($i = 0; $i < $count; ++$i) {
            if (((is_numeric($array1[$i])) &&
(!is_string($array1[$i]))) &&
                ((is_numeric($array2[$i])) &&
(!is_string($array2[$i])))) {
                $result += ($array1[$i] * $array1[$i]) + ($array2[$i] *
$array2[$i]);
            }
        }

        return $result;
    }

    /**
     * SUMXMY2.
     *
     * @param mixed[] $matrixData1 Matrix #1
     * @param mixed[] $matrixData2 Matrix #2
     *
     * @return float
     */
    public static function SUMXMY2($matrixData1, $matrixData2)
    {
        $array1 = Functions::flattenArray($matrixData1);
        $array2 = Functions::flattenArray($matrixData2);
        $count = min(count($array1), count($array2));

        $result = 0;
        for ($i = 0; $i < $count; ++$i) {
            if (((is_numeric($array1[$i])) &&
(!is_string($array1[$i]))) &&
                ((is_numeric($array2[$i])) &&
(!is_string($array2[$i])))) {
                $result += ($array1[$i] - $array2[$i]) * ($array1[$i] -
$array2[$i]);
            }
        }

        return $result;
    }

    /**
     * TRUNC.
     *
     * Truncates value to the number of fractional digits by number_digits.
     *
     * @param float $value
     * @param int $digits
     *
     * @return float|string Truncated value, or a string containing an
error
     */
    public static function TRUNC($value = 0, $digits = 0)
    {
        $value = Functions::flattenSingleValue($value);
        $digits = Functions::flattenSingleValue($digits);

        // Validate parameters
        if ((!is_numeric($value)) || (!is_numeric($digits))) {
            return Functions::VALUE();
        }
        $digits = floor($digits);

        // Truncate
        $adjust = pow(10, $digits);

        if (($digits > 0) && (rtrim((int) ((abs($value) -
abs((int) $value)) * $adjust), '0') < $adjust / 10)) {
            return $value;
        }

        return ((int) ($value * $adjust)) / $adjust;
    }

    /**
     * SEC.
     *
     * Returns the secant of an angle.
     *
     * @param float $angle Number
     *
     * @return float|string The secant of the angle
     */
    public static function SEC($angle)
    {
        $angle = Functions::flattenSingleValue($angle);

        if (!is_numeric($angle)) {
            return Functions::VALUE();
        }

        $result = cos($angle);

        return ($result == 0.0) ? Functions::DIV0() : 1 / $result;
    }

    /**
     * SECH.
     *
     * Returns the hyperbolic secant of an angle.
     *
     * @param float $angle Number
     *
     * @return float|string The hyperbolic secant of the angle
     */
    public static function SECH($angle)
    {
        $angle = Functions::flattenSingleValue($angle);

        if (!is_numeric($angle)) {
            return Functions::VALUE();
        }

        $result = cosh($angle);

        return ($result == 0.0) ? Functions::DIV0() : 1 / $result;
    }

    /**
     * CSC.
     *
     * Returns the cosecant of an angle.
     *
     * @param float $angle Number
     *
     * @return float|string The cosecant of the angle
     */
    public static function CSC($angle)
    {
        $angle = Functions::flattenSingleValue($angle);

        if (!is_numeric($angle)) {
            return Functions::VALUE();
        }

        $result = sin($angle);

        return ($result == 0.0) ? Functions::DIV0() : 1 / $result;
    }

    /**
     * CSCH.
     *
     * Returns the hyperbolic cosecant of an angle.
     *
     * @param float $angle Number
     *
     * @return float|string The hyperbolic cosecant of the angle
     */
    public static function CSCH($angle)
    {
        $angle = Functions::flattenSingleValue($angle);

        if (!is_numeric($angle)) {
            return Functions::VALUE();
        }

        $result = sinh($angle);

        return ($result == 0.0) ? Functions::DIV0() : 1 / $result;
    }

    /**
     * COT.
     *
     * Returns the cotangent of an angle.
     *
     * @param float $angle Number
     *
     * @return float|string The cotangent of the angle
     */
    public static function COT($angle)
    {
        $angle = Functions::flattenSingleValue($angle);

        if (!is_numeric($angle)) {
            return Functions::VALUE();
        }

        $result = tan($angle);

        return ($result == 0.0) ? Functions::DIV0() : 1 / $result;
    }

    /**
     * COTH.
     *
     * Returns the hyperbolic cotangent of an angle.
     *
     * @param float $angle Number
     *
     * @return float|string The hyperbolic cotangent of the angle
     */
    public static function COTH($angle)
    {
        $angle = Functions::flattenSingleValue($angle);

        if (!is_numeric($angle)) {
            return Functions::VALUE();
        }

        $result = tanh($angle);

        return ($result == 0.0) ? Functions::DIV0() : 1 / $result;
    }

    /**
     * ACOT.
     *
     * Returns the arccotangent of a number.
     *
     * @param float $number Number
     *
     * @return float|string The arccotangent of the number
     */
    public static function ACOT($number)
    {
        $number = Functions::flattenSingleValue($number);

        if (!is_numeric($number)) {
            return Functions::VALUE();
        }

        return (M_PI / 2) - atan($number);
    }

    /**
     * ACOTH.
     *
     * Returns the hyperbolic arccotangent of a number.
     *
     * @param float $number Number
     *
     * @return float|string The hyperbolic arccotangent of the number
     */
    public static function ACOTH($number)
    {
        $number = Functions::flattenSingleValue($number);

        if (!is_numeric($number)) {
            return Functions::VALUE();
        }

        $result = log(($number + 1) / ($number - 1)) / 2;

        return is_nan($result) ? Functions::NAN() : $result;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/Statistical.php000064400000356105151165413760024007
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Calculation;

use PhpOffice\PhpSpreadsheet\Shared\Trend\Trend;

class Statistical
{
    const LOG_GAMMA_X_MAX_VALUE = 2.55e305;
    const XMININ = 2.23e-308;
    const EPS = 2.22e-16;
    const MAX_VALUE = 1.2e308;
    const MAX_ITERATIONS = 256;
    const SQRT2PI = 2.5066282746310005024157652848110452530069867406099;

    private static function checkTrendArrays(&$array1, &$array2)
    {
        if (!is_array($array1)) {
            $array1 = [$array1];
        }
        if (!is_array($array2)) {
            $array2 = [$array2];
        }

        $array1 = Functions::flattenArray($array1);
        $array2 = Functions::flattenArray($array2);
        foreach ($array1 as $key => $value) {
            if ((is_bool($value)) || (is_string($value)) || ($value ===
null)) {
                unset($array1[$key], $array2[$key]);
            }
        }
        foreach ($array2 as $key => $value) {
            if ((is_bool($value)) || (is_string($value)) || ($value ===
null)) {
                unset($array1[$key], $array2[$key]);
            }
        }
        $array1 = array_merge($array1);
        $array2 = array_merge($array2);

        return true;
    }

    /**
     * Incomplete beta function.
     *
     * @author Jaco van Kooten
     * @author Paul Meagher
     *
     * The computation is based on formulas from Numerical Recipes, Chapter
6.4 (W.H. Press et al, 1992).
     *
     * @param mixed $x require 0<=x<=1
     * @param mixed $p require p>0
     * @param mixed $q require q>0
     *
     * @return float 0 if x<0, p<=0, q<=0 or p+q>2.55E305 and 1
if x>1 to avoid errors and over/underflow
     */
    private static function incompleteBeta($x, $p, $q)
    {
        if ($x <= 0.0) {
            return 0.0;
        } elseif ($x >= 1.0) {
            return 1.0;
        } elseif (($p <= 0.0) || ($q <= 0.0) || (($p + $q) >
self::LOG_GAMMA_X_MAX_VALUE)) {
            return 0.0;
        }
        $beta_gam = exp((0 - self::logBeta($p, $q)) + $p * log($x) + $q *
log(1.0 - $x));
        if ($x < ($p + 1.0) / ($p + $q + 2.0)) {
            return $beta_gam * self::betaFraction($x, $p, $q) / $p;
        }

        return 1.0 - ($beta_gam * self::betaFraction(1 - $x, $q, $p) / $q);
    }

    // Function cache for logBeta function
    private static $logBetaCacheP = 0.0;

    private static $logBetaCacheQ = 0.0;

    private static $logBetaCacheResult = 0.0;

    /**
     * The natural logarithm of the beta function.
     *
     * @param mixed $p require p>0
     * @param mixed $q require q>0
     *
     * @return float 0 if p<=0, q<=0 or p+q>2.55E305 to avoid
errors and over/underflow
     *
     * @author Jaco van Kooten
     */
    private static function logBeta($p, $q)
    {
        if ($p != self::$logBetaCacheP || $q != self::$logBetaCacheQ) {
            self::$logBetaCacheP = $p;
            self::$logBetaCacheQ = $q;
            if (($p <= 0.0) || ($q <= 0.0) || (($p + $q) >
self::LOG_GAMMA_X_MAX_VALUE)) {
                self::$logBetaCacheResult = 0.0;
            } else {
                self::$logBetaCacheResult = self::logGamma($p) +
self::logGamma($q) - self::logGamma($p + $q);
            }
        }

        return self::$logBetaCacheResult;
    }

    /**
     * Evaluates of continued fraction part of incomplete beta function.
     * Based on an idea from Numerical Recipes (W.H. Press et al, 1992).
     *
     * @author Jaco van Kooten
     *
     * @param mixed $x
     * @param mixed $p
     * @param mixed $q
     *
     * @return float
     */
    private static function betaFraction($x, $p, $q)
    {
        $c = 1.0;
        $sum_pq = $p + $q;
        $p_plus = $p + 1.0;
        $p_minus = $p - 1.0;
        $h = 1.0 - $sum_pq * $x / $p_plus;
        if (abs($h) < self::XMININ) {
            $h = self::XMININ;
        }
        $h = 1.0 / $h;
        $frac = $h;
        $m = 1;
        $delta = 0.0;
        while ($m <= self::MAX_ITERATIONS && abs($delta - 1.0)
> Functions::PRECISION) {
            $m2 = 2 * $m;
            // even index for d
            $d = $m * ($q - $m) * $x / (($p_minus + $m2) * ($p + $m2));
            $h = 1.0 + $d * $h;
            if (abs($h) < self::XMININ) {
                $h = self::XMININ;
            }
            $h = 1.0 / $h;
            $c = 1.0 + $d / $c;
            if (abs($c) < self::XMININ) {
                $c = self::XMININ;
            }
            $frac *= $h * $c;
            // odd index for d
            $d = -($p + $m) * ($sum_pq + $m) * $x / (($p + $m2) * ($p_plus
+ $m2));
            $h = 1.0 + $d * $h;
            if (abs($h) < self::XMININ) {
                $h = self::XMININ;
            }
            $h = 1.0 / $h;
            $c = 1.0 + $d / $c;
            if (abs($c) < self::XMININ) {
                $c = self::XMININ;
            }
            $delta = $h * $c;
            $frac *= $delta;
            ++$m;
        }

        return $frac;
    }

    /**
     * logGamma function.
     *
     * @version 1.1
     *
     * @author Jaco van Kooten
     *
     * Original author was Jaco van Kooten. Ported to PHP by Paul Meagher.
     *
     * The natural logarithm of the gamma function. <br />
     * Based on public domain NETLIB (Fortran) code by W. J. Cody and L.
Stoltz <br />
     * Applied Mathematics Division <br />
     * Argonne National Laboratory <br />
     * Argonne, IL 60439 <br />
     * <p>
     * References:
     * <ol>
     * <li>W. J. Cody and K. E. Hillstrom, 'Chebyshev
Approximations for the Natural
     *     Logarithm of the Gamma Function,' Math. Comp. 21, 1967, pp.
198-203.</li>
     * <li>K. E. Hillstrom, ANL/AMD Program ANLC366S, DGAMMA/DLGAMA,
May, 1969.</li>
     * <li>Hart, Et. Al., Computer Approximations, Wiley and sons,
New York, 1968.</li>
     * </ol>
     * </p>
     * <p>
     * From the original documentation:
     * </p>
     * <p>
     * This routine calculates the LOG(GAMMA) function for a positive real
argument X.
     * Computation is based on an algorithm outlined in references 1 and 2.
     * The program uses rational functions that theoretically approximate
LOG(GAMMA)
     * to at least 18 significant decimal digits. The approximation for X
> 12 is from
     * reference 3, while approximations for X < 12.0 are similar to
those in reference
     * 1, but are unpublished. The accuracy achieved depends on the
arithmetic system,
     * the compiler, the intrinsic functions, and proper selection of the
     * machine-dependent constants.
     * </p>
     * <p>
     * Error returns: <br />
     * The program returns the value XINF for X .LE. 0.0 or when overflow
would occur.
     * The computation is believed to be free of underflow and overflow.
     * </p>
     *
     * @return float MAX_VALUE for x < 0.0 or when overflow would occur,
i.e. x > 2.55E305
     */

    // Function cache for logGamma
    private static $logGammaCacheResult = 0.0;

    private static $logGammaCacheX = 0.0;

    private static function logGamma($x)
    {
        // Log Gamma related constants
        static $lg_d1 = -0.5772156649015328605195174;
        static $lg_d2 = 0.4227843350984671393993777;
        static $lg_d4 = 1.791759469228055000094023;

        static $lg_p1 = [
            4.945235359296727046734888,
            201.8112620856775083915565,
            2290.838373831346393026739,
            11319.67205903380828685045,
            28557.24635671635335736389,
            38484.96228443793359990269,
            26377.48787624195437963534,
            7225.813979700288197698961,
        ];
        static $lg_p2 = [
            4.974607845568932035012064,
            542.4138599891070494101986,
            15506.93864978364947665077,
            184793.2904445632425417223,
            1088204.76946882876749847,
            3338152.967987029735917223,
            5106661.678927352456275255,
            3074109.054850539556250927,
        ];
        static $lg_p4 = [
            14745.02166059939948905062,
            2426813.369486704502836312,
            121475557.4045093227939592,
            2663432449.630976949898078,
            29403789566.34553899906876,
            170266573776.5398868392998,
            492612579337.743088758812,
            560625185622.3951465078242,
        ];
        static $lg_q1 = [
            67.48212550303777196073036,
            1113.332393857199323513008,
            7738.757056935398733233834,
            27639.87074403340708898585,
            54993.10206226157329794414,
            61611.22180066002127833352,
            36351.27591501940507276287,
            8785.536302431013170870835,
        ];
        static $lg_q2 = [
            183.0328399370592604055942,
            7765.049321445005871323047,
            133190.3827966074194402448,
            1136705.821321969608938755,
            5267964.117437946917577538,
            13467014.54311101692290052,
            17827365.30353274213975932,
            9533095.591844353613395747,
        ];
        static $lg_q4 = [
            2690.530175870899333379843,
            639388.5654300092398984238,
            41355999.30241388052042842,
            1120872109.61614794137657,
            14886137286.78813811542398,
            101680358627.2438228077304,
            341747634550.7377132798597,
            446315818741.9713286462081,
        ];
        static $lg_c = [
            -0.001910444077728,
            8.4171387781295e-4,
            -5.952379913043012e-4,
            7.93650793500350248e-4,
            -0.002777777777777681622553,
            0.08333333333333333331554247,
            0.0057083835261,
        ];

        // Rough estimate of the fourth root of logGamma_xBig
        static $lg_frtbig = 2.25e76;
        static $pnt68 = 0.6796875;

        if ($x == self::$logGammaCacheX) {
            return self::$logGammaCacheResult;
        }
        $y = $x;
        if ($y > 0.0 && $y <= self::LOG_GAMMA_X_MAX_VALUE) {
            if ($y <= self::EPS) {
                $res = -log($y);
            } elseif ($y <= 1.5) {
                // ---------------------
                //    EPS .LT. X .LE. 1.5
                // ---------------------
                if ($y < $pnt68) {
                    $corr = -log($y);
                    $xm1 = $y;
                } else {
                    $corr = 0.0;
                    $xm1 = $y - 1.0;
                }
                if ($y <= 0.5 || $y >= $pnt68) {
                    $xden = 1.0;
                    $xnum = 0.0;
                    for ($i = 0; $i < 8; ++$i) {
                        $xnum = $xnum * $xm1 + $lg_p1[$i];
                        $xden = $xden * $xm1 + $lg_q1[$i];
                    }
                    $res = $corr + $xm1 * ($lg_d1 + $xm1 * ($xnum /
$xden));
                } else {
                    $xm2 = $y - 1.0;
                    $xden = 1.0;
                    $xnum = 0.0;
                    for ($i = 0; $i < 8; ++$i) {
                        $xnum = $xnum * $xm2 + $lg_p2[$i];
                        $xden = $xden * $xm2 + $lg_q2[$i];
                    }
                    $res = $corr + $xm2 * ($lg_d2 + $xm2 * ($xnum /
$xden));
                }
            } elseif ($y <= 4.0) {
                // ---------------------
                //    1.5 .LT. X .LE. 4.0
                // ---------------------
                $xm2 = $y - 2.0;
                $xden = 1.0;
                $xnum = 0.0;
                for ($i = 0; $i < 8; ++$i) {
                    $xnum = $xnum * $xm2 + $lg_p2[$i];
                    $xden = $xden * $xm2 + $lg_q2[$i];
                }
                $res = $xm2 * ($lg_d2 + $xm2 * ($xnum / $xden));
            } elseif ($y <= 12.0) {
                // ----------------------
                //    4.0 .LT. X .LE. 12.0
                // ----------------------
                $xm4 = $y - 4.0;
                $xden = -1.0;
                $xnum = 0.0;
                for ($i = 0; $i < 8; ++$i) {
                    $xnum = $xnum * $xm4 + $lg_p4[$i];
                    $xden = $xden * $xm4 + $lg_q4[$i];
                }
                $res = $lg_d4 + $xm4 * ($xnum / $xden);
            } else {
                // ---------------------------------
                //    Evaluate for argument .GE. 12.0
                // ---------------------------------
                $res = 0.0;
                if ($y <= $lg_frtbig) {
                    $res = $lg_c[6];
                    $ysq = $y * $y;
                    for ($i = 0; $i < 6; ++$i) {
                        $res = $res / $ysq + $lg_c[$i];
                    }
                    $res /= $y;
                    $corr = log($y);
                    $res = $res + log(self::SQRT2PI) - 0.5 * $corr;
                    $res += $y * ($corr - 1.0);
                }
            }
        } else {
            // --------------------------
            //    Return for bad arguments
            // --------------------------
            $res = self::MAX_VALUE;
        }
        // ------------------------------
        //    Final adjustments and return
        // ------------------------------
        self::$logGammaCacheX = $x;
        self::$logGammaCacheResult = $res;

        return $res;
    }

    //
    //    Private implementation of the incomplete Gamma function
    //
    private static function incompleteGamma($a, $x)
    {
        static $max = 32;
        $summer = 0;
        for ($n = 0; $n <= $max; ++$n) {
            $divisor = $a;
            for ($i = 1; $i <= $n; ++$i) {
                $divisor *= ($a + $i);
            }
            $summer += (pow($x, $n) / $divisor);
        }

        return pow($x, $a) * exp(0 - $x) * $summer;
    }

    //
    //    Private implementation of the Gamma function
    //
    private static function gamma($data)
    {
        if ($data == 0.0) {
            return 0;
        }

        static $p0 = 1.000000000190015;
        static $p = [
            1 => 76.18009172947146,
            2 => -86.50532032941677,
            3 => 24.01409824083091,
            4 => -1.231739572450155,
            5 => 1.208650973866179e-3,
            6 => -5.395239384953e-6,
        ];

        $y = $x = $data;
        $tmp = $x + 5.5;
        $tmp -= ($x + 0.5) * log($tmp);

        $summer = $p0;
        for ($j = 1; $j <= 6; ++$j) {
            $summer += ($p[$j] / ++$y);
        }

        return exp(0 - $tmp + log(self::SQRT2PI * $summer / $x));
    }

    /*
     *                                inverse_ncdf.php
     *                            -------------------
     *    begin                : Friday, January 16, 2004
     *    copyright            : (C) 2004 Michael Nickerson
     *    email                : nickersonm@yahoo.com
     *
     */
    private static function inverseNcdf($p)
    {
        //    Inverse ncdf approximation by Peter J. Acklam, implementation
adapted to
        //    PHP by Michael Nickerson, using Dr. Thomas Ziegler's C
implementation as
        //    a guide.
http://home.online.no/~pjacklam/notes/invnorm/index.html
        //    I have not checked the accuracy of this implementation. Be
aware that PHP
        //    will truncate the coeficcients to 14 digits.

        //    You have permission to use and distribute this function
freely for
        //    whatever purpose you want, but please show common courtesy
and give credit
        //    where credit is due.

        //    Input paramater is $p - probability - where 0 < p < 1.

        //    Coefficients in rational approximations
        static $a = [
            1 => -3.969683028665376e+01,
            2 => 2.209460984245205e+02,
            3 => -2.759285104469687e+02,
            4 => 1.383577518672690e+02,
            5 => -3.066479806614716e+01,
            6 => 2.506628277459239e+00,
        ];

        static $b = [
            1 => -5.447609879822406e+01,
            2 => 1.615858368580409e+02,
            3 => -1.556989798598866e+02,
            4 => 6.680131188771972e+01,
            5 => -1.328068155288572e+01,
        ];

        static $c = [
            1 => -7.784894002430293e-03,
            2 => -3.223964580411365e-01,
            3 => -2.400758277161838e+00,
            4 => -2.549732539343734e+00,
            5 => 4.374664141464968e+00,
            6 => 2.938163982698783e+00,
        ];

        static $d = [
            1 => 7.784695709041462e-03,
            2 => 3.224671290700398e-01,
            3 => 2.445134137142996e+00,
            4 => 3.754408661907416e+00,
        ];

        //    Define lower and upper region break-points.
        $p_low = 0.02425; //Use lower region approx. below this
        $p_high = 1 - $p_low; //Use upper region approx. above this

        if (0 < $p && $p < $p_low) {
            //    Rational approximation for lower region.
            $q = sqrt(-2 * log($p));

            return ((((($c[1] * $q + $c[2]) * $q + $c[3]) * $q + $c[4]) *
$q + $c[5]) * $q + $c[6]) /
                    (((($d[1] * $q + $d[2]) * $q + $d[3]) * $q + $d[4]) *
$q + 1);
        } elseif ($p_low <= $p && $p <= $p_high) {
            //    Rational approximation for central region.
            $q = $p - 0.5;
            $r = $q * $q;

            return ((((($a[1] * $r + $a[2]) * $r + $a[3]) * $r + $a[4]) *
$r + $a[5]) * $r + $a[6]) * $q /
                   ((((($b[1] * $r + $b[2]) * $r + $b[3]) * $r + $b[4]) *
$r + $b[5]) * $r + 1);
        } elseif ($p_high < $p && $p < 1) {
            //    Rational approximation for upper region.
            $q = sqrt(-2 * log(1 - $p));

            return -((((($c[1] * $q + $c[2]) * $q + $c[3]) * $q + $c[4]) *
$q + $c[5]) * $q + $c[6]) /
                     (((($d[1] * $q + $d[2]) * $q + $d[3]) * $q + $d[4]) *
$q + 1);
        }
        //    If 0 < p < 1, return a null value
        return Functions::NULL();
    }

    /**
     * MS Excel does not count Booleans if passed as cell values, but they
are counted if passed as literals.
     * OpenOffice Calc always counts Booleans.
     * Gnumeric never counts Booleans.
     *
     * @param mixed $arg
     * @param mixed $k
     *
     * @return int|mixed
     */
    private static function testAcceptedBoolean($arg, $k)
    {
        if ((is_bool($arg)) &&
            ((!Functions::isCellValue($k) &&
(Functions::getCompatibilityMode() === Functions::COMPATIBILITY_EXCEL)) ||
                (Functions::getCompatibilityMode() ===
Functions::COMPATIBILITY_OPENOFFICE))) {
            $arg = (int) $arg;
        }

        return $arg;
    }

    /**
     * @param mixed $arg
     * @param mixed $k
     *
     * @return bool
     */
    private static function isAcceptedCountable($arg, $k)
    {
        if (((is_numeric($arg)) && (!is_string($arg))) ||
                ((is_numeric($arg)) &&
(!Functions::isCellValue($k)) &&
                    (Functions::getCompatibilityMode() !==
Functions::COMPATIBILITY_GNUMERIC))) {
            return true;
        }

        return false;
    }

    /**
     * AVEDEV.
     *
     * Returns the average of the absolute deviations of data points from
their mean.
     * AVEDEV is a measure of the variability in a data set.
     *
     * Excel Function:
     *        AVEDEV(value1[,value2[, ...]])
     *
     * @category Statistical Functions
     *
     * @param mixed ...$args Data values
     *
     * @return float|string
     */
    public static function AVEDEV(...$args)
    {
        $aArgs = Functions::flattenArrayIndexed($args);

        // Return value
        $returnValue = 0;

        $aMean = self::AVERAGE(...$args);
        if ($aMean === Functions::DIV0()) {
            return Functions::NAN();
        } elseif ($aMean === Functions::VALUE()) {
            return Functions::VALUE();
        }

        $aCount = 0;
        foreach ($aArgs as $k => $arg) {
            $arg = self::testAcceptedBoolean($arg, $k);
            // Is it a numeric value?
            // Strings containing numeric values are only counted if they
are string literals (not cell values)
            //    and then only in MS Excel and in Open Office, not in
Gnumeric
            if ((is_string($arg)) && (!is_numeric($arg)) &&
(!Functions::isCellValue($k))) {
                return Functions::VALUE();
            }
            if (self::isAcceptedCountable($arg, $k)) {
                $returnValue += abs($arg - $aMean);
                ++$aCount;
            }
        }

        // Return
        if ($aCount === 0) {
            return Functions::DIV0();
        }

        return $returnValue / $aCount;
    }

    /**
     * AVERAGE.
     *
     * Returns the average (arithmetic mean) of the arguments
     *
     * Excel Function:
     *        AVERAGE(value1[,value2[, ...]])
     *
     * @category Statistical Functions
     *
     * @param mixed ...$args Data values
     *
     * @return float|string
     */
    public static function AVERAGE(...$args)
    {
        $returnValue = $aCount = 0;

        // Loop through arguments
        foreach (Functions::flattenArrayIndexed($args) as $k => $arg) {
            $arg = self::testAcceptedBoolean($arg, $k);
            // Is it a numeric value?
            // Strings containing numeric values are only counted if they
are string literals (not cell values)
            //    and then only in MS Excel and in Open Office, not in
Gnumeric
            if ((is_string($arg)) && (!is_numeric($arg)) &&
(!Functions::isCellValue($k))) {
                return Functions::VALUE();
            }
            if (self::isAcceptedCountable($arg, $k)) {
                $returnValue += $arg;
                ++$aCount;
            }
        }

        // Return
        if ($aCount > 0) {
            return $returnValue / $aCount;
        }

        return Functions::DIV0();
    }

    /**
     * AVERAGEA.
     *
     * Returns the average of its arguments, including numbers, text, and
logical values
     *
     * Excel Function:
     *        AVERAGEA(value1[,value2[, ...]])
     *
     * @category Statistical Functions
     *
     * @param mixed ...$args Data values
     *
     * @return float|string
     */
    public static function AVERAGEA(...$args)
    {
        $returnValue = null;

        $aCount = 0;
        // Loop through arguments
        foreach (Functions::flattenArrayIndexed($args) as $k => $arg) {
            if ((is_bool($arg)) &&
                (!Functions::isMatrixValue($k))) {
            } else {
                if ((is_numeric($arg)) || (is_bool($arg)) ||
((is_string($arg) && ($arg != '')))) {
                    if (is_bool($arg)) {
                        $arg = (int) $arg;
                    } elseif (is_string($arg)) {
                        $arg = 0;
                    }
                    $returnValue += $arg;
                    ++$aCount;
                }
            }
        }

        if ($aCount > 0) {
            return $returnValue / $aCount;
        }

        return Functions::DIV0();
    }

    /**
     * AVERAGEIF.
     *
     * Returns the average value from a range of cells that contain numbers
within the list of arguments
     *
     * Excel Function:
     *        AVERAGEIF(value1[,value2[, ...]],condition)
     *
     * @category Mathematical and Trigonometric Functions
     *
     * @param mixed $aArgs Data values
     * @param string $condition the criteria that defines which cells will
be checked
     * @param mixed[] $averageArgs Data values
     *
     * @return float|string
     */
    public static function AVERAGEIF($aArgs, $condition, $averageArgs = [])
    {
        $returnValue = 0;

        $aArgs = Functions::flattenArray($aArgs);
        $averageArgs = Functions::flattenArray($averageArgs);
        if (empty($averageArgs)) {
            $averageArgs = $aArgs;
        }
        $condition = Functions::ifCondition($condition);
        $conditionIsNumeric = strpos($condition, '"') ===
false;

        // Loop through arguments
        $aCount = 0;
        foreach ($aArgs as $key => $arg) {
            if (!is_numeric($arg)) {
                if ($conditionIsNumeric) {
                    continue;
                }
                $arg = Calculation::wrapResult(strtoupper($arg));
            } elseif (!$conditionIsNumeric) {
                continue;
            }
            $testCondition = '=' . $arg . $condition;
            if
(Calculation::getInstance()->_calculateFormulaValue($testCondition)) {
                $returnValue += $averageArgs[$key];
                ++$aCount;
            }
        }

        if ($aCount > 0) {
            return $returnValue / $aCount;
        }

        return Functions::DIV0();
    }

    /**
     * BETADIST.
     *
     * Returns the beta distribution.
     *
     * @param float $value Value at which you want to evaluate the
distribution
     * @param float $alpha Parameter to the distribution
     * @param float $beta Parameter to the distribution
     * @param mixed $rMin
     * @param mixed $rMax
     *
     * @return float|string
     */
    public static function BETADIST($value, $alpha, $beta, $rMin = 0, $rMax
= 1)
    {
        $value = Functions::flattenSingleValue($value);
        $alpha = Functions::flattenSingleValue($alpha);
        $beta = Functions::flattenSingleValue($beta);
        $rMin = Functions::flattenSingleValue($rMin);
        $rMax = Functions::flattenSingleValue($rMax);

        if ((is_numeric($value)) && (is_numeric($alpha)) &&
(is_numeric($beta)) && (is_numeric($rMin)) &&
(is_numeric($rMax))) {
            if (($value < $rMin) || ($value > $rMax) || ($alpha <=
0) || ($beta <= 0) || ($rMin == $rMax)) {
                return Functions::NAN();
            }
            if ($rMin > $rMax) {
                $tmp = $rMin;
                $rMin = $rMax;
                $rMax = $tmp;
            }
            $value -= $rMin;
            $value /= ($rMax - $rMin);

            return self::incompleteBeta($value, $alpha, $beta);
        }

        return Functions::VALUE();
    }

    /**
     * BETAINV.
     *
     * Returns the inverse of the beta distribution.
     *
     * @param float $probability Probability at which you want to evaluate
the distribution
     * @param float $alpha Parameter to the distribution
     * @param float $beta Parameter to the distribution
     * @param float $rMin Minimum value
     * @param float $rMax Maximum value
     *
     * @return float|string
     */
    public static function BETAINV($probability, $alpha, $beta, $rMin = 0,
$rMax = 1)
    {
        $probability = Functions::flattenSingleValue($probability);
        $alpha = Functions::flattenSingleValue($alpha);
        $beta = Functions::flattenSingleValue($beta);
        $rMin = Functions::flattenSingleValue($rMin);
        $rMax = Functions::flattenSingleValue($rMax);

        if ((is_numeric($probability)) && (is_numeric($alpha))
&& (is_numeric($beta)) && (is_numeric($rMin)) &&
(is_numeric($rMax))) {
            if (($alpha <= 0) || ($beta <= 0) || ($rMin == $rMax) ||
($probability <= 0) || ($probability > 1)) {
                return Functions::NAN();
            }
            if ($rMin > $rMax) {
                $tmp = $rMin;
                $rMin = $rMax;
                $rMax = $tmp;
            }
            $a = 0;
            $b = 2;

            $i = 0;
            while ((($b - $a) > Functions::PRECISION) && ($i++
< self::MAX_ITERATIONS)) {
                $guess = ($a + $b) / 2;
                $result = self::BETADIST($guess, $alpha, $beta);
                if (($result == $probability) || ($result == 0)) {
                    $b = $a;
                } elseif ($result > $probability) {
                    $b = $guess;
                } else {
                    $a = $guess;
                }
            }
            if ($i == self::MAX_ITERATIONS) {
                return Functions::NA();
            }

            return round($rMin + $guess * ($rMax - $rMin), 12);
        }

        return Functions::VALUE();
    }

    /**
     * BINOMDIST.
     *
     * Returns the individual term binomial distribution probability. Use
BINOMDIST in problems with
     *        a fixed number of tests or trials, when the outcomes of any
trial are only success or failure,
     *        when trials are independent, and when the probability of
success is constant throughout the
     *        experiment. For example, BINOMDIST can calculate the
probability that two of the next three
     *        babies born are male.
     *
     * @param float $value Number of successes in trials
     * @param float $trials Number of trials
     * @param float $probability Probability of success on each trial
     * @param bool $cumulative
     *
     * @return float|string
     */
    public static function BINOMDIST($value, $trials, $probability,
$cumulative)
    {
        $value = Functions::flattenSingleValue($value);
        $trials = Functions::flattenSingleValue($trials);
        $probability = Functions::flattenSingleValue($probability);

        if ((is_numeric($value)) && (is_numeric($trials))
&& (is_numeric($probability))) {
            $value = floor($value);
            $trials = floor($trials);
            if (($value < 0) || ($value > $trials)) {
                return Functions::NAN();
            }
            if (($probability < 0) || ($probability > 1)) {
                return Functions::NAN();
            }
            if ((is_numeric($cumulative)) || (is_bool($cumulative))) {
                if ($cumulative) {
                    $summer = 0;
                    for ($i = 0; $i <= $value; ++$i) {
                        $summer += MathTrig::COMBIN($trials, $i) *
pow($probability, $i) * pow(1 - $probability, $trials - $i);
                    }

                    return $summer;
                }

                return MathTrig::COMBIN($trials, $value) *
pow($probability, $value) * pow(1 - $probability, $trials - $value);
            }
        }

        return Functions::VALUE();
    }

    /**
     * CHIDIST.
     *
     * Returns the one-tailed probability of the chi-squared distribution.
     *
     * @param float $value Value for the function
     * @param float $degrees degrees of freedom
     *
     * @return float|string
     */
    public static function CHIDIST($value, $degrees)
    {
        $value = Functions::flattenSingleValue($value);
        $degrees = Functions::flattenSingleValue($degrees);

        if ((is_numeric($value)) && (is_numeric($degrees))) {
            $degrees = floor($degrees);
            if ($degrees < 1) {
                return Functions::NAN();
            }
            if ($value < 0) {
                if (Functions::getCompatibilityMode() ==
Functions::COMPATIBILITY_GNUMERIC) {
                    return 1;
                }

                return Functions::NAN();
            }

            return 1 - (self::incompleteGamma($degrees / 2, $value / 2) /
self::gamma($degrees / 2));
        }

        return Functions::VALUE();
    }

    /**
     * CHIINV.
     *
     * Returns the one-tailed probability of the chi-squared distribution.
     *
     * @param float $probability Probability for the function
     * @param float $degrees degrees of freedom
     *
     * @return float|string
     */
    public static function CHIINV($probability, $degrees)
    {
        $probability = Functions::flattenSingleValue($probability);
        $degrees = Functions::flattenSingleValue($degrees);

        if ((is_numeric($probability)) && (is_numeric($degrees))) {
            $degrees = floor($degrees);

            $xLo = 100;
            $xHi = 0;

            $x = $xNew = 1;
            $dx = 1;
            $i = 0;

            while ((abs($dx) > Functions::PRECISION) && ($i++
< self::MAX_ITERATIONS)) {
                // Apply Newton-Raphson step
                $result = 1 - (self::incompleteGamma($degrees / 2, $x / 2)
/ self::gamma($degrees / 2));
                $error = $result - $probability;
                if ($error == 0.0) {
                    $dx = 0;
                } elseif ($error < 0.0) {
                    $xLo = $x;
                } else {
                    $xHi = $x;
                }
                // Avoid division by zero
                if ($result != 0.0) {
                    $dx = $error / $result;
                    $xNew = $x - $dx;
                }
                // If the NR fails to converge (which for example may be
the
                // case if the initial guess is too rough) we apply a
bisection
                // step to determine a more narrow interval around the
root.
                if (($xNew < $xLo) || ($xNew > $xHi) || ($result ==
0.0)) {
                    $xNew = ($xLo + $xHi) / 2;
                    $dx = $xNew - $x;
                }
                $x = $xNew;
            }
            if ($i == self::MAX_ITERATIONS) {
                return Functions::NA();
            }

            return round($x, 12);
        }

        return Functions::VALUE();
    }

    /**
     * CONFIDENCE.
     *
     * Returns the confidence interval for a population mean
     *
     * @param float $alpha
     * @param float $stdDev Standard Deviation
     * @param float $size
     *
     * @return float|string
     */
    public static function CONFIDENCE($alpha, $stdDev, $size)
    {
        $alpha = Functions::flattenSingleValue($alpha);
        $stdDev = Functions::flattenSingleValue($stdDev);
        $size = Functions::flattenSingleValue($size);

        if ((is_numeric($alpha)) && (is_numeric($stdDev))
&& (is_numeric($size))) {
            $size = floor($size);
            if (($alpha <= 0) || ($alpha >= 1)) {
                return Functions::NAN();
            }
            if (($stdDev <= 0) || ($size < 1)) {
                return Functions::NAN();
            }

            return self::NORMSINV(1 - $alpha / 2) * $stdDev / sqrt($size);
        }

        return Functions::VALUE();
    }

    /**
     * CORREL.
     *
     * Returns covariance, the average of the products of deviations for
each data point pair.
     *
     * @param mixed $yValues array of mixed Data Series Y
     * @param null|mixed $xValues array of mixed Data Series X
     *
     * @return float|string
     */
    public static function CORREL($yValues, $xValues = null)
    {
        if (($xValues === null) || (!is_array($yValues)) ||
(!is_array($xValues))) {
            return Functions::VALUE();
        }
        if (!self::checkTrendArrays($yValues, $xValues)) {
            return Functions::VALUE();
        }
        $yValueCount = count($yValues);
        $xValueCount = count($xValues);

        if (($yValueCount == 0) || ($yValueCount != $xValueCount)) {
            return Functions::NA();
        } elseif ($yValueCount == 1) {
            return Functions::DIV0();
        }

        $bestFitLinear = Trend::calculate(Trend::TREND_LINEAR, $yValues,
$xValues);

        return $bestFitLinear->getCorrelation();
    }

    /**
     * COUNT.
     *
     * Counts the number of cells that contain numbers within the list of
arguments
     *
     * Excel Function:
     *        COUNT(value1[,value2[, ...]])
     *
     * @category Statistical Functions
     *
     * @param mixed ...$args Data values
     *
     * @return int
     */
    public static function COUNT(...$args)
    {
        $returnValue = 0;

        // Loop through arguments
        $aArgs = Functions::flattenArrayIndexed($args);
        foreach ($aArgs as $k => $arg) {
            $arg = self::testAcceptedBoolean($arg, $k);
            // Is it a numeric value?
            // Strings containing numeric values are only counted if they
are string literals (not cell values)
            //    and then only in MS Excel and in Open Office, not in
Gnumeric
            if (self::isAcceptedCountable($arg, $k)) {
                ++$returnValue;
            }
        }

        return $returnValue;
    }

    /**
     * COUNTA.
     *
     * Counts the number of cells that are not empty within the list of
arguments
     *
     * Excel Function:
     *        COUNTA(value1[,value2[, ...]])
     *
     * @category Statistical Functions
     *
     * @param mixed ...$args Data values
     *
     * @return int
     */
    public static function COUNTA(...$args)
    {
        $returnValue = 0;

        // Loop through arguments
        $aArgs = Functions::flattenArrayIndexed($args);
        foreach ($aArgs as $k => $arg) {
            // Nulls are counted if literals, but not if cell values
            if ($arg !== null || (!Functions::isCellValue($k))) {
                ++$returnValue;
            }
        }

        return $returnValue;
    }

    /**
     * COUNTBLANK.
     *
     * Counts the number of empty cells within the list of arguments
     *
     * Excel Function:
     *        COUNTBLANK(value1[,value2[, ...]])
     *
     * @category Statistical Functions
     *
     * @param mixed ...$args Data values
     *
     * @return int
     */
    public static function COUNTBLANK(...$args)
    {
        $returnValue = 0;

        // Loop through arguments
        $aArgs = Functions::flattenArray($args);
        foreach ($aArgs as $arg) {
            // Is it a blank cell?
            if (($arg === null) || ((is_string($arg)) && ($arg ==
''))) {
                ++$returnValue;
            }
        }

        return $returnValue;
    }

    /**
     * COUNTIF.
     *
     * Counts the number of cells that contain numbers within the list of
arguments
     *
     * Excel Function:
     *        COUNTIF(value1[,value2[, ...]],condition)
     *
     * @category Statistical Functions
     *
     * @param mixed $aArgs Data values
     * @param string $condition the criteria that defines which cells will
be counted
     *
     * @return int
     */
    public static function COUNTIF($aArgs, $condition)
    {
        $returnValue = 0;

        $aArgs = Functions::flattenArray($aArgs);
        $condition = Functions::ifCondition($condition);
        $conditionIsNumeric = strpos($condition, '"') ===
false;
        // Loop through arguments
        foreach ($aArgs as $arg) {
            if (!is_numeric($arg)) {
                if ($conditionIsNumeric) {
                    continue;
                }
                $arg = Calculation::wrapResult(strtoupper($arg));
            } elseif (!$conditionIsNumeric) {
                continue;
            }
            $testCondition = '=' . $arg . $condition;
            if
(Calculation::getInstance()->_calculateFormulaValue($testCondition)) {
                // Is it a value within our criteria
                ++$returnValue;
            }
        }

        return $returnValue;
    }

    /**
     * COUNTIFS.
     *
     * Counts the number of cells that contain numbers within the list of
arguments
     *
     * Excel Function:
     *        COUNTIFS(criteria_range1, criteria1, [criteria_range2,
criteria2]…)
     *
     * @category Statistical Functions
     *
     * @param mixed $args Criterias
     *
     * @return int
     */
    public static function COUNTIFS(...$args)
    {
        $arrayList = $args;

        // Return value
        $returnValue = 0;

        if (empty($arrayList)) {
            return $returnValue;
        }

        $aArgsArray = [];
        $conditions = [];

        while (count($arrayList) > 0) {
            $aArgsArray[] =
Functions::flattenArray(array_shift($arrayList));
            $conditions[] =
Functions::ifCondition(array_shift($arrayList));
        }

        // Loop through each arg and see if arguments and conditions are
true
        foreach (array_keys($aArgsArray[0]) as $index) {
            $valid = true;

            foreach ($conditions as $cidx => $condition) {
                $conditionIsNumeric = strpos($condition,
'"') === false;
                $arg = $aArgsArray[$cidx][$index];

                // Loop through arguments
                if (!is_numeric($arg)) {
                    if ($conditionIsNumeric) {
                        $valid = false;

                        break; // if false found, don't need to check
other conditions
                    }
                    $arg = Calculation::wrapResult(strtoupper($arg));
                } elseif (!$conditionIsNumeric) {
                    $valid = false;

                    break; // if false found, don't need to check
other conditions
                }
                $testCondition = '=' . $arg . $condition;
                if
(!Calculation::getInstance()->_calculateFormulaValue($testCondition)) {
                    // Is not a value within our criteria
                    $valid = false;

                    break; // if false found, don't need to check
other conditions
                }
            }

            if ($valid) {
                ++$returnValue;
            }
        }

        // Return
        return $returnValue;
    }

    /**
     * COVAR.
     *
     * Returns covariance, the average of the products of deviations for
each data point pair.
     *
     * @param mixed $yValues array of mixed Data Series Y
     * @param mixed $xValues array of mixed Data Series X
     *
     * @return float|string
     */
    public static function COVAR($yValues, $xValues)
    {
        if (!self::checkTrendArrays($yValues, $xValues)) {
            return Functions::VALUE();
        }
        $yValueCount = count($yValues);
        $xValueCount = count($xValues);

        if (($yValueCount == 0) || ($yValueCount != $xValueCount)) {
            return Functions::NA();
        } elseif ($yValueCount == 1) {
            return Functions::DIV0();
        }

        $bestFitLinear = Trend::calculate(Trend::TREND_LINEAR, $yValues,
$xValues);

        return $bestFitLinear->getCovariance();
    }

    /**
     * CRITBINOM.
     *
     * Returns the smallest value for which the cumulative binomial
distribution is greater
     *        than or equal to a criterion value
     *
     * See https://support.microsoft.com/en-us/help/828117/ for details of
the algorithm used
     *
     * @param float $trials number of Bernoulli trials
     * @param float $probability probability of a success on each trial
     * @param float $alpha criterion value
     *
     * @return int|string
     *
     * @todo    Warning. This implementation differs from the algorithm
detailed on the MS
     *            web site in that $CumPGuessMinus1 = $CumPGuess - 1 rather
than $CumPGuess - $PGuess
     *            This eliminates a potential endless loop error, but may
have an adverse affect on the
     *            accuracy of the function (although all my tests have so
far returned correct results).
     */
    public static function CRITBINOM($trials, $probability, $alpha)
    {
        $trials = floor(Functions::flattenSingleValue($trials));
        $probability = Functions::flattenSingleValue($probability);
        $alpha = Functions::flattenSingleValue($alpha);

        if ((is_numeric($trials)) && (is_numeric($probability))
&& (is_numeric($alpha))) {
            $trials = (int) $trials;
            if ($trials < 0) {
                return Functions::NAN();
            } elseif (($probability < 0.0) || ($probability > 1.0)) {
                return Functions::NAN();
            } elseif (($alpha < 0.0) || ($alpha > 1.0)) {
                return Functions::NAN();
            }

            if ($alpha <= 0.5) {
                $t = sqrt(log(1 / ($alpha * $alpha)));
                $trialsApprox = 0 - ($t + (2.515517 + 0.802853 * $t +
0.010328 * $t * $t) / (1 + 1.432788 * $t + 0.189269 * $t * $t + 0.001308 *
$t * $t * $t));
            } else {
                $t = sqrt(log(1 / pow(1 - $alpha, 2)));
                $trialsApprox = $t - (2.515517 + 0.802853 * $t + 0.010328 *
$t * $t) / (1 + 1.432788 * $t + 0.189269 * $t * $t + 0.001308 * $t * $t *
$t);
            }

            $Guess = floor($trials * $probability + $trialsApprox *
sqrt($trials * $probability * (1 - $probability)));
            if ($Guess < 0) {
                $Guess = 0;
            } elseif ($Guess > $trials) {
                $Guess = $trials;
            }

            $TotalUnscaledProbability = $UnscaledPGuess =
$UnscaledCumPGuess = 0.0;
            $EssentiallyZero = 10e-12;

            $m = floor($trials * $probability);
            ++$TotalUnscaledProbability;
            if ($m == $Guess) {
                ++$UnscaledPGuess;
            }
            if ($m <= $Guess) {
                ++$UnscaledCumPGuess;
            }

            $PreviousValue = 1;
            $Done = false;
            $k = $m + 1;
            while ((!$Done) && ($k <= $trials)) {
                $CurrentValue = $PreviousValue * ($trials - $k + 1) *
$probability / ($k * (1 - $probability));
                $TotalUnscaledProbability += $CurrentValue;
                if ($k == $Guess) {
                    $UnscaledPGuess += $CurrentValue;
                }
                if ($k <= $Guess) {
                    $UnscaledCumPGuess += $CurrentValue;
                }
                if ($CurrentValue <= $EssentiallyZero) {
                    $Done = true;
                }
                $PreviousValue = $CurrentValue;
                ++$k;
            }

            $PreviousValue = 1;
            $Done = false;
            $k = $m - 1;
            while ((!$Done) && ($k >= 0)) {
                $CurrentValue = $PreviousValue * $k + 1 * (1 -
$probability) / (($trials - $k) * $probability);
                $TotalUnscaledProbability += $CurrentValue;
                if ($k == $Guess) {
                    $UnscaledPGuess += $CurrentValue;
                }
                if ($k <= $Guess) {
                    $UnscaledCumPGuess += $CurrentValue;
                }
                if ($CurrentValue <= $EssentiallyZero) {
                    $Done = true;
                }
                $PreviousValue = $CurrentValue;
                --$k;
            }

            $PGuess = $UnscaledPGuess / $TotalUnscaledProbability;
            $CumPGuess = $UnscaledCumPGuess / $TotalUnscaledProbability;

            $CumPGuessMinus1 = $CumPGuess - 1;

            while (true) {
                if (($CumPGuessMinus1 < $alpha) && ($CumPGuess
>= $alpha)) {
                    return $Guess;
                } elseif (($CumPGuessMinus1 < $alpha) &&
($CumPGuess < $alpha)) {
                    $PGuessPlus1 = $PGuess * ($trials - $Guess) *
$probability / $Guess / (1 - $probability);
                    $CumPGuessMinus1 = $CumPGuess;
                    $CumPGuess = $CumPGuess + $PGuessPlus1;
                    $PGuess = $PGuessPlus1;
                    ++$Guess;
                } elseif (($CumPGuessMinus1 >= $alpha) &&
($CumPGuess >= $alpha)) {
                    $PGuessMinus1 = $PGuess * $Guess * (1 - $probability) /
($trials - $Guess + 1) / $probability;
                    $CumPGuess = $CumPGuessMinus1;
                    $CumPGuessMinus1 = $CumPGuessMinus1 - $PGuess;
                    $PGuess = $PGuessMinus1;
                    --$Guess;
                }
            }
        }

        return Functions::VALUE();
    }

    /**
     * DEVSQ.
     *
     * Returns the sum of squares of deviations of data points from their
sample mean.
     *
     * Excel Function:
     *        DEVSQ(value1[,value2[, ...]])
     *
     * @category Statistical Functions
     *
     * @param mixed ...$args Data values
     *
     * @return float|string
     */
    public static function DEVSQ(...$args)
    {
        $aArgs = Functions::flattenArrayIndexed($args);

        // Return value
        $returnValue = null;

        $aMean = self::AVERAGE($aArgs);
        if ($aMean != Functions::DIV0()) {
            $aCount = -1;
            foreach ($aArgs as $k => $arg) {
                // Is it a numeric value?
                if ((is_bool($arg)) &&
                    ((!Functions::isCellValue($k)) ||
                    (Functions::getCompatibilityMode() ==
Functions::COMPATIBILITY_OPENOFFICE))) {
                    $arg = (int) $arg;
                }
                if ((is_numeric($arg)) && (!is_string($arg))) {
                    if ($returnValue === null) {
                        $returnValue = pow(($arg - $aMean), 2);
                    } else {
                        $returnValue += pow(($arg - $aMean), 2);
                    }
                    ++$aCount;
                }
            }

            // Return
            if ($returnValue === null) {
                return Functions::NAN();
            }

            return $returnValue;
        }

        return self::NA();
    }

    /**
     * EXPONDIST.
     *
     *    Returns the exponential distribution. Use EXPONDIST to model the
time between events,
     *        such as how long an automated bank teller takes to deliver
cash. For example, you can
     *        use EXPONDIST to determine the probability that the process
takes at most 1 minute.
     *
     * @param float $value Value of the function
     * @param float $lambda The parameter value
     * @param bool $cumulative
     *
     * @return float|string
     */
    public static function EXPONDIST($value, $lambda, $cumulative)
    {
        $value = Functions::flattenSingleValue($value);
        $lambda = Functions::flattenSingleValue($lambda);
        $cumulative = Functions::flattenSingleValue($cumulative);

        if ((is_numeric($value)) && (is_numeric($lambda))) {
            if (($value < 0) || ($lambda < 0)) {
                return Functions::NAN();
            }
            if ((is_numeric($cumulative)) || (is_bool($cumulative))) {
                if ($cumulative) {
                    return 1 - exp(0 - $value * $lambda);
                }

                return $lambda * exp(0 - $value * $lambda);
            }
        }

        return Functions::VALUE();
    }

    /**
     * FISHER.
     *
     * Returns the Fisher transformation at x. This transformation produces
a function that
     *        is normally distributed rather than skewed. Use this function
to perform hypothesis
     *        testing on the correlation coefficient.
     *
     * @param float $value
     *
     * @return float|string
     */
    public static function FISHER($value)
    {
        $value = Functions::flattenSingleValue($value);

        if (is_numeric($value)) {
            if (($value <= -1) || ($value >= 1)) {
                return Functions::NAN();
            }

            return 0.5 * log((1 + $value) / (1 - $value));
        }

        return Functions::VALUE();
    }

    /**
     * FISHERINV.
     *
     * Returns the inverse of the Fisher transformation. Use this
transformation when
     *        analyzing correlations between ranges or arrays of data. If y
= FISHER(x), then
     *        FISHERINV(y) = x.
     *
     * @param float $value
     *
     * @return float|string
     */
    public static function FISHERINV($value)
    {
        $value = Functions::flattenSingleValue($value);

        if (is_numeric($value)) {
            return (exp(2 * $value) - 1) / (exp(2 * $value) + 1);
        }

        return Functions::VALUE();
    }

    /**
     * FORECAST.
     *
     * Calculates, or predicts, a future value by using existing values.
The predicted value is a y-value for a given x-value.
     *
     * @param float $xValue Value of X for which we want to find Y
     * @param mixed $yValues array of mixed Data Series Y
     * @param mixed $xValues of mixed Data Series X
     *
     * @return bool|float|string
     */
    public static function FORECAST($xValue, $yValues, $xValues)
    {
        $xValue = Functions::flattenSingleValue($xValue);
        if (!is_numeric($xValue)) {
            return Functions::VALUE();
        } elseif (!self::checkTrendArrays($yValues, $xValues)) {
            return Functions::VALUE();
        }
        $yValueCount = count($yValues);
        $xValueCount = count($xValues);

        if (($yValueCount == 0) || ($yValueCount != $xValueCount)) {
            return Functions::NA();
        } elseif ($yValueCount == 1) {
            return Functions::DIV0();
        }

        $bestFitLinear = Trend::calculate(Trend::TREND_LINEAR, $yValues,
$xValues);

        return $bestFitLinear->getValueOfYForX($xValue);
    }

    /**
     * GAMMADIST.
     *
     * Returns the gamma distribution.
     *
     * @param float $value Value at which you want to evaluate the
distribution
     * @param float $a Parameter to the distribution
     * @param float $b Parameter to the distribution
     * @param bool $cumulative
     *
     * @return float|string
     */
    public static function GAMMADIST($value, $a, $b, $cumulative)
    {
        $value = Functions::flattenSingleValue($value);
        $a = Functions::flattenSingleValue($a);
        $b = Functions::flattenSingleValue($b);

        if ((is_numeric($value)) && (is_numeric($a)) &&
(is_numeric($b))) {
            if (($value < 0) || ($a <= 0) || ($b <= 0)) {
                return Functions::NAN();
            }
            if ((is_numeric($cumulative)) || (is_bool($cumulative))) {
                if ($cumulative) {
                    return self::incompleteGamma($a, $value / $b) /
self::gamma($a);
                }

                return (1 / (pow($b, $a) * self::gamma($a))) * pow($value,
$a - 1) * exp(0 - ($value / $b));
            }
        }

        return Functions::VALUE();
    }

    /**
     * GAMMAINV.
     *
     * Returns the inverse of the beta distribution.
     *
     * @param float $probability Probability at which you want to evaluate
the distribution
     * @param float $alpha Parameter to the distribution
     * @param float $beta Parameter to the distribution
     *
     * @return float|string
     */
    public static function GAMMAINV($probability, $alpha, $beta)
    {
        $probability = Functions::flattenSingleValue($probability);
        $alpha = Functions::flattenSingleValue($alpha);
        $beta = Functions::flattenSingleValue($beta);

        if ((is_numeric($probability)) && (is_numeric($alpha))
&& (is_numeric($beta))) {
            if (($alpha <= 0) || ($beta <= 0) || ($probability <
0) || ($probability > 1)) {
                return Functions::NAN();
            }

            $xLo = 0;
            $xHi = $alpha * $beta * 5;

            $x = $xNew = 1;
            $error = $pdf = 0;
            $dx = 1024;
            $i = 0;

            while ((abs($dx) > Functions::PRECISION) && ($i++
< self::MAX_ITERATIONS)) {
                // Apply Newton-Raphson step
                $error = self::GAMMADIST($x, $alpha, $beta, true) -
$probability;
                if ($error < 0.0) {
                    $xLo = $x;
                } else {
                    $xHi = $x;
                }
                $pdf = self::GAMMADIST($x, $alpha, $beta, false);
                // Avoid division by zero
                if ($pdf != 0.0) {
                    $dx = $error / $pdf;
                    $xNew = $x - $dx;
                }
                // If the NR fails to converge (which for example may be
the
                // case if the initial guess is too rough) we apply a
bisection
                // step to determine a more narrow interval around the
root.
                if (($xNew < $xLo) || ($xNew > $xHi) || ($pdf ==
0.0)) {
                    $xNew = ($xLo + $xHi) / 2;
                    $dx = $xNew - $x;
                }
                $x = $xNew;
            }
            if ($i == self::MAX_ITERATIONS) {
                return Functions::NA();
            }

            return $x;
        }

        return Functions::VALUE();
    }

    /**
     * GAMMALN.
     *
     * Returns the natural logarithm of the gamma function.
     *
     * @param float $value
     *
     * @return float|string
     */
    public static function GAMMALN($value)
    {
        $value = Functions::flattenSingleValue($value);

        if (is_numeric($value)) {
            if ($value <= 0) {
                return Functions::NAN();
            }

            return log(self::gamma($value));
        }

        return Functions::VALUE();
    }

    /**
     * GEOMEAN.
     *
     * Returns the geometric mean of an array or range of positive data.
For example, you
     *        can use GEOMEAN to calculate average growth rate given
compound interest with
     *        variable rates.
     *
     * Excel Function:
     *        GEOMEAN(value1[,value2[, ...]])
     *
     * @category Statistical Functions
     *
     * @param mixed ...$args Data values
     *
     * @return float|string
     */
    public static function GEOMEAN(...$args)
    {
        $aArgs = Functions::flattenArray($args);

        $aMean = MathTrig::PRODUCT($aArgs);
        if (is_numeric($aMean) && ($aMean > 0)) {
            $aCount = self::COUNT($aArgs);
            if (self::MIN($aArgs) > 0) {
                return pow($aMean, (1 / $aCount));
            }
        }

        return Functions::NAN();
    }

    /**
     * GROWTH.
     *
     * Returns values along a predicted exponential Trend
     *
     * @param mixed[] $yValues Data Series Y
     * @param mixed[] $xValues Data Series X
     * @param mixed[] $newValues Values of X for which we want to find Y
     * @param bool $const a logical value specifying whether to force the
intersect to equal 0
     *
     * @return array of float
     */
    public static function GROWTH($yValues, $xValues = [], $newValues = [],
$const = true)
    {
        $yValues = Functions::flattenArray($yValues);
        $xValues = Functions::flattenArray($xValues);
        $newValues = Functions::flattenArray($newValues);
        $const = ($const === null) ? true : (bool)
Functions::flattenSingleValue($const);

        $bestFitExponential = Trend::calculate(Trend::TREND_EXPONENTIAL,
$yValues, $xValues, $const);
        if (empty($newValues)) {
            $newValues = $bestFitExponential->getXValues();
        }

        $returnArray = [];
        foreach ($newValues as $xValue) {
            $returnArray[0][] =
$bestFitExponential->getValueOfYForX($xValue);
        }

        return $returnArray;
    }

    /**
     * HARMEAN.
     *
     * Returns the harmonic mean of a data set. The harmonic mean is the
reciprocal of the
     *        arithmetic mean of reciprocals.
     *
     * Excel Function:
     *        HARMEAN(value1[,value2[, ...]])
     *
     * @category Statistical Functions
     *
     * @param mixed ...$args Data values
     *
     * @return float|string
     */
    public static function HARMEAN(...$args)
    {
        // Return value
        $returnValue = 0;

        // Loop through arguments
        $aArgs = Functions::flattenArray($args);
        if (self::MIN($aArgs) < 0) {
            return Functions::NAN();
        }
        $aCount = 0;
        foreach ($aArgs as $arg) {
            // Is it a numeric value?
            if ((is_numeric($arg)) && (!is_string($arg))) {
                if ($arg <= 0) {
                    return Functions::NAN();
                }
                $returnValue += (1 / $arg);
                ++$aCount;
            }
        }

        // Return
        if ($aCount > 0) {
            return 1 / ($returnValue / $aCount);
        }

        return Functions::NA();
    }

    /**
     * HYPGEOMDIST.
     *
     * Returns the hypergeometric distribution. HYPGEOMDIST returns the
probability of a given number of
     * sample successes, given the sample size, population successes, and
population size.
     *
     * @param float $sampleSuccesses Number of successes in the sample
     * @param float $sampleNumber Size of the sample
     * @param float $populationSuccesses Number of successes in the
population
     * @param float $populationNumber Population size
     *
     * @return float|string
     */
    public static function HYPGEOMDIST($sampleSuccesses, $sampleNumber,
$populationSuccesses, $populationNumber)
    {
        $sampleSuccesses =
floor(Functions::flattenSingleValue($sampleSuccesses));
        $sampleNumber =
floor(Functions::flattenSingleValue($sampleNumber));
        $populationSuccesses =
floor(Functions::flattenSingleValue($populationSuccesses));
        $populationNumber =
floor(Functions::flattenSingleValue($populationNumber));

        if ((is_numeric($sampleSuccesses)) &&
(is_numeric($sampleNumber)) && (is_numeric($populationSuccesses))
&& (is_numeric($populationNumber))) {
            if (($sampleSuccesses < 0) || ($sampleSuccesses >
$sampleNumber) || ($sampleSuccesses > $populationSuccesses)) {
                return Functions::NAN();
            }
            if (($sampleNumber <= 0) || ($sampleNumber >
$populationNumber)) {
                return Functions::NAN();
            }
            if (($populationSuccesses <= 0) || ($populationSuccesses
> $populationNumber)) {
                return Functions::NAN();
            }

            return MathTrig::COMBIN($populationSuccesses, $sampleSuccesses)
*
                   MathTrig::COMBIN($populationNumber -
$populationSuccesses, $sampleNumber - $sampleSuccesses) /
                   MathTrig::COMBIN($populationNumber, $sampleNumber);
        }

        return Functions::VALUE();
    }

    /**
     * INTERCEPT.
     *
     * Calculates the point at which a line will intersect the y-axis by
using existing x-values and y-values.
     *
     * @param mixed[] $yValues Data Series Y
     * @param mixed[] $xValues Data Series X
     *
     * @return float|string
     */
    public static function INTERCEPT($yValues, $xValues)
    {
        if (!self::checkTrendArrays($yValues, $xValues)) {
            return Functions::VALUE();
        }
        $yValueCount = count($yValues);
        $xValueCount = count($xValues);

        if (($yValueCount == 0) || ($yValueCount != $xValueCount)) {
            return Functions::NA();
        } elseif ($yValueCount == 1) {
            return Functions::DIV0();
        }

        $bestFitLinear = Trend::calculate(Trend::TREND_LINEAR, $yValues,
$xValues);

        return $bestFitLinear->getIntersect();
    }

    /**
     * KURT.
     *
     * Returns the kurtosis of a data set. Kurtosis characterizes the
relative peakedness
     * or flatness of a distribution compared with the normal distribution.
Positive
     * kurtosis indicates a relatively peaked distribution. Negative
kurtosis indicates a
     * relatively flat distribution.
     *
     * @param array ...$args Data Series
     *
     * @return float|string
     */
    public static function KURT(...$args)
    {
        $aArgs = Functions::flattenArrayIndexed($args);
        $mean = self::AVERAGE($aArgs);
        $stdDev = self::STDEV($aArgs);

        if ($stdDev > 0) {
            $count = $summer = 0;
            // Loop through arguments
            foreach ($aArgs as $k => $arg) {
                if ((is_bool($arg)) &&
                    (!Functions::isMatrixValue($k))) {
                } else {
                    // Is it a numeric value?
                    if ((is_numeric($arg)) && (!is_string($arg))) {
                        $summer += pow((($arg - $mean) / $stdDev), 4);
                        ++$count;
                    }
                }
            }

            // Return
            if ($count > 3) {
                return $summer * ($count * ($count + 1) / (($count - 1) *
($count - 2) * ($count - 3))) - (3 * pow($count - 1, 2) / (($count - 2) *
($count - 3)));
            }
        }

        return Functions::DIV0();
    }

    /**
     * LARGE.
     *
     * Returns the nth largest value in a data set. You can use this
function to
     *        select a value based on its relative standing.
     *
     * Excel Function:
     *        LARGE(value1[,value2[, ...]],entry)
     *
     * @category Statistical Functions
     *
     * @param mixed $args Data values
     * @param int $entry Position (ordered from the largest) in the array
or range of data to return
     *
     * @return float|string The result, or a string containing an error
     */
    public static function LARGE(...$args)
    {
        $aArgs = Functions::flattenArray($args);

        // Calculate
        $entry = floor(array_pop($aArgs));

        if ((is_numeric($entry)) && (!is_string($entry))) {
            $mArgs = [];
            foreach ($aArgs as $arg) {
                // Is it a numeric value?
                if ((is_numeric($arg)) && (!is_string($arg))) {
                    $mArgs[] = $arg;
                }
            }
            $count = self::COUNT($mArgs);
            $entry = floor(--$entry);
            if (($entry < 0) || ($entry >= $count) || ($count == 0))
{
                return Functions::NAN();
            }
            rsort($mArgs);

            return $mArgs[$entry];
        }

        return Functions::VALUE();
    }

    /**
     * LINEST.
     *
     * Calculates the statistics for a line by using the "least
squares" method to calculate a straight line that best fits your data,
     *        and then returns an array that describes the line.
     *
     * @param mixed[] $yValues Data Series Y
     * @param null|mixed[] $xValues Data Series X
     * @param bool $const a logical value specifying whether to force the
intersect to equal 0
     * @param bool $stats a logical value specifying whether to return
additional regression statistics
     *
     * @return array|int|string The result, or a string containing an error
     */
    public static function LINEST($yValues, $xValues = null, $const = true,
$stats = false)
    {
        $const = ($const === null) ? true : (bool)
Functions::flattenSingleValue($const);
        $stats = ($stats === null) ? false : (bool)
Functions::flattenSingleValue($stats);
        if ($xValues === null) {
            $xValues = range(1, count(Functions::flattenArray($yValues)));
        }

        if (!self::checkTrendArrays($yValues, $xValues)) {
            return Functions::VALUE();
        }
        $yValueCount = count($yValues);
        $xValueCount = count($xValues);

        if (($yValueCount == 0) || ($yValueCount != $xValueCount)) {
            return Functions::NA();
        } elseif ($yValueCount == 1) {
            return 0;
        }

        $bestFitLinear = Trend::calculate(Trend::TREND_LINEAR, $yValues,
$xValues, $const);
        if ($stats) {
            return [
                [
                    $bestFitLinear->getSlope(),
                    $bestFitLinear->getSlopeSE(),
                    $bestFitLinear->getGoodnessOfFit(),
                    $bestFitLinear->getF(),
                    $bestFitLinear->getSSRegression(),
                ],
                [
                    $bestFitLinear->getIntersect(),
                    $bestFitLinear->getIntersectSE(),
                    $bestFitLinear->getStdevOfResiduals(),
                    $bestFitLinear->getDFResiduals(),
                    $bestFitLinear->getSSResiduals(),
                ],
            ];
        }

        return [
                $bestFitLinear->getSlope(),
                $bestFitLinear->getIntersect(),
            ];
    }

    /**
     * LOGEST.
     *
     * Calculates an exponential curve that best fits the X and Y data
series,
     *        and then returns an array that describes the line.
     *
     * @param mixed[] $yValues Data Series Y
     * @param null|mixed[] $xValues Data Series X
     * @param bool $const a logical value specifying whether to force the
intersect to equal 0
     * @param bool $stats a logical value specifying whether to return
additional regression statistics
     *
     * @return array|int|string The result, or a string containing an error
     */
    public static function LOGEST($yValues, $xValues = null, $const = true,
$stats = false)
    {
        $const = ($const === null) ? true : (bool)
Functions::flattenSingleValue($const);
        $stats = ($stats === null) ? false : (bool)
Functions::flattenSingleValue($stats);
        if ($xValues === null) {
            $xValues = range(1, count(Functions::flattenArray($yValues)));
        }

        if (!self::checkTrendArrays($yValues, $xValues)) {
            return Functions::VALUE();
        }
        $yValueCount = count($yValues);
        $xValueCount = count($xValues);

        foreach ($yValues as $value) {
            if ($value <= 0.0) {
                return Functions::NAN();
            }
        }

        if (($yValueCount == 0) || ($yValueCount != $xValueCount)) {
            return Functions::NA();
        } elseif ($yValueCount == 1) {
            return 1;
        }

        $bestFitExponential = Trend::calculate(Trend::TREND_EXPONENTIAL,
$yValues, $xValues, $const);
        if ($stats) {
            return [
                [
                    $bestFitExponential->getSlope(),
                    $bestFitExponential->getSlopeSE(),
                    $bestFitExponential->getGoodnessOfFit(),
                    $bestFitExponential->getF(),
                    $bestFitExponential->getSSRegression(),
                ],
                [
                    $bestFitExponential->getIntersect(),
                    $bestFitExponential->getIntersectSE(),
                    $bestFitExponential->getStdevOfResiduals(),
                    $bestFitExponential->getDFResiduals(),
                    $bestFitExponential->getSSResiduals(),
                ],
            ];
        }

        return [
                $bestFitExponential->getSlope(),
                $bestFitExponential->getIntersect(),
            ];
    }

    /**
     * LOGINV.
     *
     * Returns the inverse of the normal cumulative distribution
     *
     * @param float $probability
     * @param float $mean
     * @param float $stdDev
     *
     * @return float|string The result, or a string containing an error
     *
     * @todo    Try implementing P J Acklam's refinement algorithm for
greater
     *            accuracy if I can get my head round the mathematics
     *            (as described at)
http://home.online.no/~pjacklam/notes/invnorm/
     */
    public static function LOGINV($probability, $mean, $stdDev)
    {
        $probability = Functions::flattenSingleValue($probability);
        $mean = Functions::flattenSingleValue($mean);
        $stdDev = Functions::flattenSingleValue($stdDev);

        if ((is_numeric($probability)) && (is_numeric($mean))
&& (is_numeric($stdDev))) {
            if (($probability < 0) || ($probability > 1) || ($stdDev
<= 0)) {
                return Functions::NAN();
            }

            return exp($mean + $stdDev * self::NORMSINV($probability));
        }

        return Functions::VALUE();
    }

    /**
     * LOGNORMDIST.
     *
     * Returns the cumulative lognormal distribution of x, where ln(x) is
normally distributed
     * with parameters mean and standard_dev.
     *
     * @param float $value
     * @param float $mean
     * @param float $stdDev
     *
     * @return float|string The result, or a string containing an error
     */
    public static function LOGNORMDIST($value, $mean, $stdDev)
    {
        $value = Functions::flattenSingleValue($value);
        $mean = Functions::flattenSingleValue($mean);
        $stdDev = Functions::flattenSingleValue($stdDev);

        if ((is_numeric($value)) && (is_numeric($mean)) &&
(is_numeric($stdDev))) {
            if (($value <= 0) || ($stdDev <= 0)) {
                return Functions::NAN();
            }

            return self::NORMSDIST((log($value) - $mean) / $stdDev);
        }

        return Functions::VALUE();
    }

    /**
     * MAX.
     *
     * MAX returns the value of the element of the values passed that has
the highest value,
     *        with negative numbers considered smaller than positive
numbers.
     *
     * Excel Function:
     *        MAX(value1[,value2[, ...]])
     *
     * @category Statistical Functions
     *
     * @param mixed ...$args Data values
     *
     * @return float
     */
    public static function MAX(...$args)
    {
        $returnValue = null;

        // Loop through arguments
        $aArgs = Functions::flattenArray($args);
        foreach ($aArgs as $arg) {
            // Is it a numeric value?
            if ((is_numeric($arg)) && (!is_string($arg))) {
                if (($returnValue === null) || ($arg > $returnValue)) {
                    $returnValue = $arg;
                }
            }
        }

        if ($returnValue === null) {
            return 0;
        }

        return $returnValue;
    }

    /**
     * MAXA.
     *
     * Returns the greatest value in a list of arguments, including
numbers, text, and logical values
     *
     * Excel Function:
     *        MAXA(value1[,value2[, ...]])
     *
     * @category Statistical Functions
     *
     * @param mixed ...$args Data values
     *
     * @return float
     */
    public static function MAXA(...$args)
    {
        $returnValue = null;

        // Loop through arguments
        $aArgs = Functions::flattenArray($args);
        foreach ($aArgs as $arg) {
            // Is it a numeric value?
            if ((is_numeric($arg)) || (is_bool($arg)) || ((is_string($arg)
&& ($arg != '')))) {
                if (is_bool($arg)) {
                    $arg = (int) $arg;
                } elseif (is_string($arg)) {
                    $arg = 0;
                }
                if (($returnValue === null) || ($arg > $returnValue)) {
                    $returnValue = $arg;
                }
            }
        }

        if ($returnValue === null) {
            return 0;
        }

        return $returnValue;
    }

    /**
     * MAXIFS.
     *
     * Counts the maximum value within a range of cells that contain
numbers within the list of arguments
     *
     * Excel Function:
     *        MAXIFS(max_range, criteria_range1, criteria1,
[criteria_range2, criteria2], ...)
     *
     * @category Statistical Functions
     *
     * @param mixed $args Data range and criterias
     *
     * @return float
     */
    public static function MAXIFS(...$args)
    {
        $arrayList = $args;

        // Return value
        $returnValue = null;

        $maxArgs = Functions::flattenArray(array_shift($arrayList));
        $aArgsArray = [];
        $conditions = [];

        while (count($arrayList) > 0) {
            $aArgsArray[] =
Functions::flattenArray(array_shift($arrayList));
            $conditions[] =
Functions::ifCondition(array_shift($arrayList));
        }

        // Loop through each arg and see if arguments and conditions are
true
        foreach ($maxArgs as $index => $value) {
            $valid = true;

            foreach ($conditions as $cidx => $condition) {
                $arg = $aArgsArray[$cidx][$index];

                // Loop through arguments
                if (!is_numeric($arg)) {
                    $arg = Calculation::wrapResult(strtoupper($arg));
                }
                $testCondition = '=' . $arg . $condition;
                if
(!Calculation::getInstance()->_calculateFormulaValue($testCondition)) {
                    // Is not a value within our criteria
                    $valid = false;

                    break; // if false found, don't need to check
other conditions
                }
            }

            if ($valid) {
                $returnValue = $returnValue === null ? $value : max($value,
$returnValue);
            }
        }

        // Return
        return $returnValue;
    }

    /**
     * MEDIAN.
     *
     * Returns the median of the given numbers. The median is the number in
the middle of a set of numbers.
     *
     * Excel Function:
     *        MEDIAN(value1[,value2[, ...]])
     *
     * @category Statistical Functions
     *
     * @param mixed ...$args Data values
     *
     * @return float|string The result, or a string containing an error
     */
    public static function MEDIAN(...$args)
    {
        $returnValue = Functions::NAN();

        $mArgs = [];
        // Loop through arguments
        $aArgs = Functions::flattenArray($args);
        foreach ($aArgs as $arg) {
            // Is it a numeric value?
            if ((is_numeric($arg)) && (!is_string($arg))) {
                $mArgs[] = $arg;
            }
        }

        $mValueCount = count($mArgs);
        if ($mValueCount > 0) {
            sort($mArgs, SORT_NUMERIC);
            $mValueCount = $mValueCount / 2;
            if ($mValueCount == floor($mValueCount)) {
                $returnValue = ($mArgs[$mValueCount--] +
$mArgs[$mValueCount]) / 2;
            } else {
                $mValueCount = floor($mValueCount);
                $returnValue = $mArgs[$mValueCount];
            }
        }

        return $returnValue;
    }

    /**
     * MIN.
     *
     * MIN returns the value of the element of the values passed that has
the smallest value,
     *        with negative numbers considered smaller than positive
numbers.
     *
     * Excel Function:
     *        MIN(value1[,value2[, ...]])
     *
     * @category Statistical Functions
     *
     * @param mixed ...$args Data values
     *
     * @return float
     */
    public static function MIN(...$args)
    {
        $returnValue = null;

        // Loop through arguments
        $aArgs = Functions::flattenArray($args);
        foreach ($aArgs as $arg) {
            // Is it a numeric value?
            if ((is_numeric($arg)) && (!is_string($arg))) {
                if (($returnValue === null) || ($arg < $returnValue)) {
                    $returnValue = $arg;
                }
            }
        }

        if ($returnValue === null) {
            return 0;
        }

        return $returnValue;
    }

    /**
     * MINA.
     *
     * Returns the smallest value in a list of arguments, including
numbers, text, and logical values
     *
     * Excel Function:
     *        MINA(value1[,value2[, ...]])
     *
     * @category Statistical Functions
     *
     * @param mixed ...$args Data values
     *
     * @return float
     */
    public static function MINA(...$args)
    {
        $returnValue = null;

        // Loop through arguments
        $aArgs = Functions::flattenArray($args);
        foreach ($aArgs as $arg) {
            // Is it a numeric value?
            if ((is_numeric($arg)) || (is_bool($arg)) || ((is_string($arg)
&& ($arg != '')))) {
                if (is_bool($arg)) {
                    $arg = (int) $arg;
                } elseif (is_string($arg)) {
                    $arg = 0;
                }
                if (($returnValue === null) || ($arg < $returnValue)) {
                    $returnValue = $arg;
                }
            }
        }

        if ($returnValue === null) {
            return 0;
        }

        return $returnValue;
    }

    /**
     * MINIFS.
     *
     * Returns the minimum value within a range of cells that contain
numbers within the list of arguments
     *
     * Excel Function:
     *        MINIFS(min_range, criteria_range1, criteria1,
[criteria_range2, criteria2], ...)
     *
     * @category Statistical Functions
     *
     * @param mixed $args Data range and criterias
     *
     * @return float
     */
    public static function MINIFS(...$args)
    {
        $arrayList = $args;

        // Return value
        $returnValue = null;

        $minArgs = Functions::flattenArray(array_shift($arrayList));
        $aArgsArray = [];
        $conditions = [];

        while (count($arrayList) > 0) {
            $aArgsArray[] =
Functions::flattenArray(array_shift($arrayList));
            $conditions[] =
Functions::ifCondition(array_shift($arrayList));
        }

        // Loop through each arg and see if arguments and conditions are
true
        foreach ($minArgs as $index => $value) {
            $valid = true;

            foreach ($conditions as $cidx => $condition) {
                $arg = $aArgsArray[$cidx][$index];

                // Loop through arguments
                if (!is_numeric($arg)) {
                    $arg = Calculation::wrapResult(strtoupper($arg));
                }
                $testCondition = '=' . $arg . $condition;
                if
(!Calculation::getInstance()->_calculateFormulaValue($testCondition)) {
                    // Is not a value within our criteria
                    $valid = false;

                    break; // if false found, don't need to check
other conditions
                }
            }

            if ($valid) {
                $returnValue = $returnValue === null ? $value : min($value,
$returnValue);
            }
        }

        // Return
        return $returnValue;
    }

    //
    //    Special variant of array_count_values that isn't limited to
strings and integers,
    //        but can work with floating point numbers as values
    //
    private static function modeCalc($data)
    {
        $frequencyArray = [];
        foreach ($data as $datum) {
            $found = false;
            foreach ($frequencyArray as $key => $value) {
                if ((string) $value['value'] == (string) $datum)
{
                    ++$frequencyArray[$key]['frequency'];
                    $found = true;

                    break;
                }
            }
            if (!$found) {
                $frequencyArray[] = [
                    'value' => $datum,
                    'frequency' => 1,
                ];
            }
        }

        foreach ($frequencyArray as $key => $value) {
            $frequencyList[$key] = $value['frequency'];
            $valueList[$key] = $value['value'];
        }
        array_multisort($frequencyList, SORT_DESC, $valueList, SORT_ASC,
SORT_NUMERIC, $frequencyArray);

        if ($frequencyArray[0]['frequency'] == 1) {
            return Functions::NA();
        }

        return $frequencyArray[0]['value'];
    }

    /**
     * MODE.
     *
     * Returns the most frequently occurring, or repetitive, value in an
array or range of data
     *
     * Excel Function:
     *        MODE(value1[,value2[, ...]])
     *
     * @category Statistical Functions
     *
     * @param mixed ...$args Data values
     *
     * @return float|string The result, or a string containing an error
     */
    public static function MODE(...$args)
    {
        $returnValue = Functions::NA();

        // Loop through arguments
        $aArgs = Functions::flattenArray($args);

        $mArgs = [];
        foreach ($aArgs as $arg) {
            // Is it a numeric value?
            if ((is_numeric($arg)) && (!is_string($arg))) {
                $mArgs[] = $arg;
            }
        }

        if (!empty($mArgs)) {
            return self::modeCalc($mArgs);
        }

        return $returnValue;
    }

    /**
     * NEGBINOMDIST.
     *
     * Returns the negative binomial distribution. NEGBINOMDIST returns the
probability that
     *        there will be number_f failures before the number_s-th
success, when the constant
     *        probability of a success is probability_s. This function is
similar to the binomial
     *        distribution, except that the number of successes is fixed,
and the number of trials is
     *        variable. Like the binomial, trials are assumed to be
independent.
     *
     * @param float $failures Number of Failures
     * @param float $successes Threshold number of Successes
     * @param float $probability Probability of success on each trial
     *
     * @return float|string The result, or a string containing an error
     */
    public static function NEGBINOMDIST($failures, $successes,
$probability)
    {
        $failures = floor(Functions::flattenSingleValue($failures));
        $successes = floor(Functions::flattenSingleValue($successes));
        $probability = Functions::flattenSingleValue($probability);

        if ((is_numeric($failures)) && (is_numeric($successes))
&& (is_numeric($probability))) {
            if (($failures < 0) || ($successes < 1)) {
                return Functions::NAN();
            } elseif (($probability < 0) || ($probability > 1)) {
                return Functions::NAN();
            }
            if (Functions::getCompatibilityMode() ==
Functions::COMPATIBILITY_GNUMERIC) {
                if (($failures + $successes - 1) <= 0) {
                    return Functions::NAN();
                }
            }

            return (MathTrig::COMBIN($failures + $successes - 1, $successes
- 1)) * (pow($probability, $successes)) * (pow(1 - $probability,
$failures));
        }

        return Functions::VALUE();
    }

    /**
     * NORMDIST.
     *
     * Returns the normal distribution for the specified mean and standard
deviation. This
     * function has a very wide range of applications in statistics,
including hypothesis
     * testing.
     *
     * @param float $value
     * @param float $mean Mean Value
     * @param float $stdDev Standard Deviation
     * @param bool $cumulative
     *
     * @return float|string The result, or a string containing an error
     */
    public static function NORMDIST($value, $mean, $stdDev, $cumulative)
    {
        $value = Functions::flattenSingleValue($value);
        $mean = Functions::flattenSingleValue($mean);
        $stdDev = Functions::flattenSingleValue($stdDev);

        if ((is_numeric($value)) && (is_numeric($mean)) &&
(is_numeric($stdDev))) {
            if ($stdDev < 0) {
                return Functions::NAN();
            }
            if ((is_numeric($cumulative)) || (is_bool($cumulative))) {
                if ($cumulative) {
                    return 0.5 * (1 + Engineering::erfVal(($value - $mean)
/ ($stdDev * sqrt(2))));
                }

                return (1 / (self::SQRT2PI * $stdDev)) * exp(0 -
(pow($value - $mean, 2) / (2 * ($stdDev * $stdDev))));
            }
        }

        return Functions::VALUE();
    }

    /**
     * NORMINV.
     *
     * Returns the inverse of the normal cumulative distribution for the
specified mean and standard deviation.
     *
     * @param float $probability
     * @param float $mean Mean Value
     * @param float $stdDev Standard Deviation
     *
     * @return float|string The result, or a string containing an error
     */
    public static function NORMINV($probability, $mean, $stdDev)
    {
        $probability = Functions::flattenSingleValue($probability);
        $mean = Functions::flattenSingleValue($mean);
        $stdDev = Functions::flattenSingleValue($stdDev);

        if ((is_numeric($probability)) && (is_numeric($mean))
&& (is_numeric($stdDev))) {
            if (($probability < 0) || ($probability > 1)) {
                return Functions::NAN();
            }
            if ($stdDev < 0) {
                return Functions::NAN();
            }

            return (self::inverseNcdf($probability) * $stdDev) + $mean;
        }

        return Functions::VALUE();
    }

    /**
     * NORMSDIST.
     *
     * Returns the standard normal cumulative distribution function. The
distribution has
     * a mean of 0 (zero) and a standard deviation of one. Use this
function in place of a
     * table of standard normal curve areas.
     *
     * @param float $value
     *
     * @return float|string The result, or a string containing an error
     */
    public static function NORMSDIST($value)
    {
        $value = Functions::flattenSingleValue($value);

        return self::NORMDIST($value, 0, 1, true);
    }

    /**
     * NORMSINV.
     *
     * Returns the inverse of the standard normal cumulative distribution
     *
     * @param float $value
     *
     * @return float|string The result, or a string containing an error
     */
    public static function NORMSINV($value)
    {
        return self::NORMINV($value, 0, 1);
    }

    /**
     * PERCENTILE.
     *
     * Returns the nth percentile of values in a range..
     *
     * Excel Function:
     *        PERCENTILE(value1[,value2[, ...]],entry)
     *
     * @category Statistical Functions
     *
     * @param mixed $args Data values
     * @param float $entry Percentile value in the range 0..1, inclusive.
     *
     * @return float|string The result, or a string containing an error
     */
    public static function PERCENTILE(...$args)
    {
        $aArgs = Functions::flattenArray($args);

        // Calculate
        $entry = array_pop($aArgs);

        if ((is_numeric($entry)) && (!is_string($entry))) {
            if (($entry < 0) || ($entry > 1)) {
                return Functions::NAN();
            }
            $mArgs = [];
            foreach ($aArgs as $arg) {
                // Is it a numeric value?
                if ((is_numeric($arg)) && (!is_string($arg))) {
                    $mArgs[] = $arg;
                }
            }
            $mValueCount = count($mArgs);
            if ($mValueCount > 0) {
                sort($mArgs);
                $count = self::COUNT($mArgs);
                $index = $entry * ($count - 1);
                $iBase = floor($index);
                if ($index == $iBase) {
                    return $mArgs[$index];
                }
                $iNext = $iBase + 1;
                $iProportion = $index - $iBase;

                return $mArgs[$iBase] + (($mArgs[$iNext] - $mArgs[$iBase])
* $iProportion);
            }
        }

        return Functions::VALUE();
    }

    /**
     * PERCENTRANK.
     *
     * Returns the rank of a value in a data set as a percentage of the
data set.
     *
     * @param float[] $valueSet An array of, or a reference to, a list of
numbers
     * @param int $value the number whose rank you want to find
     * @param int $significance the number of significant digits for the
returned percentage value
     *
     * @return float
     */
    public static function PERCENTRANK($valueSet, $value, $significance =
3)
    {
        $valueSet = Functions::flattenArray($valueSet);
        $value = Functions::flattenSingleValue($value);
        $significance = ($significance === null) ? 3 : (int)
Functions::flattenSingleValue($significance);

        foreach ($valueSet as $key => $valueEntry) {
            if (!is_numeric($valueEntry)) {
                unset($valueSet[$key]);
            }
        }
        sort($valueSet, SORT_NUMERIC);
        $valueCount = count($valueSet);
        if ($valueCount == 0) {
            return Functions::NAN();
        }

        $valueAdjustor = $valueCount - 1;
        if (($value < $valueSet[0]) || ($value >
$valueSet[$valueAdjustor])) {
            return Functions::NA();
        }

        $pos = array_search($value, $valueSet);
        if ($pos === false) {
            $pos = 0;
            $testValue = $valueSet[0];
            while ($testValue < $value) {
                $testValue = $valueSet[++$pos];
            }
            --$pos;
            $pos += (($value - $valueSet[$pos]) / ($testValue -
$valueSet[$pos]));
        }

        return round($pos / $valueAdjustor, $significance);
    }

    /**
     * PERMUT.
     *
     * Returns the number of permutations for a given number of objects
that can be
     *        selected from number objects. A permutation is any set or
subset of objects or
     *        events where internal order is significant. Permutations are
different from
     *        combinations, for which the internal order is not
significant. Use this function
     *        for lottery-style probability calculations.
     *
     * @param int $numObjs Number of different objects
     * @param int $numInSet Number of objects in each permutation
     *
     * @return int|string Number of permutations, or a string containing an
error
     */
    public static function PERMUT($numObjs, $numInSet)
    {
        $numObjs = Functions::flattenSingleValue($numObjs);
        $numInSet = Functions::flattenSingleValue($numInSet);

        if ((is_numeric($numObjs)) && (is_numeric($numInSet))) {
            $numInSet = floor($numInSet);
            if ($numObjs < $numInSet) {
                return Functions::NAN();
            }

            return round(MathTrig::FACT($numObjs) / MathTrig::FACT($numObjs
- $numInSet));
        }

        return Functions::VALUE();
    }

    /**
     * POISSON.
     *
     * Returns the Poisson distribution. A common application of the
Poisson distribution
     * is predicting the number of events over a specific time, such as the
number of
     * cars arriving at a toll plaza in 1 minute.
     *
     * @param float $value
     * @param float $mean Mean Value
     * @param bool $cumulative
     *
     * @return float|string The result, or a string containing an error
     */
    public static function POISSON($value, $mean, $cumulative)
    {
        $value = Functions::flattenSingleValue($value);
        $mean = Functions::flattenSingleValue($mean);

        if ((is_numeric($value)) && (is_numeric($mean))) {
            if (($value < 0) || ($mean <= 0)) {
                return Functions::NAN();
            }
            if ((is_numeric($cumulative)) || (is_bool($cumulative))) {
                if ($cumulative) {
                    $summer = 0;
                    $floor = floor($value);
                    for ($i = 0; $i <= $floor; ++$i) {
                        $summer += pow($mean, $i) / MathTrig::FACT($i);
                    }

                    return exp(0 - $mean) * $summer;
                }

                return (exp(0 - $mean) * pow($mean, $value)) /
MathTrig::FACT($value);
            }
        }

        return Functions::VALUE();
    }

    /**
     * QUARTILE.
     *
     * Returns the quartile of a data set.
     *
     * Excel Function:
     *        QUARTILE(value1[,value2[, ...]],entry)
     *
     * @category Statistical Functions
     *
     * @param mixed $args Data values
     * @param int $entry Quartile value in the range 1..3, inclusive.
     *
     * @return float|string The result, or a string containing an error
     */
    public static function QUARTILE(...$args)
    {
        $aArgs = Functions::flattenArray($args);

        // Calculate
        $entry = floor(array_pop($aArgs));

        if ((is_numeric($entry)) && (!is_string($entry))) {
            $entry /= 4;
            if (($entry < 0) || ($entry > 1)) {
                return Functions::NAN();
            }

            return self::PERCENTILE($aArgs, $entry);
        }

        return Functions::VALUE();
    }

    /**
     * RANK.
     *
     * Returns the rank of a number in a list of numbers.
     *
     * @param int $value the number whose rank you want to find
     * @param float[] $valueSet An array of, or a reference to, a list of
numbers
     * @param int $order Order to sort the values in the value set
     *
     * @return float|string The result, or a string containing an error
     */
    public static function RANK($value, $valueSet, $order = 0)
    {
        $value = Functions::flattenSingleValue($value);
        $valueSet = Functions::flattenArray($valueSet);
        $order = ($order === null) ? 0 : (int)
Functions::flattenSingleValue($order);

        foreach ($valueSet as $key => $valueEntry) {
            if (!is_numeric($valueEntry)) {
                unset($valueSet[$key]);
            }
        }

        if ($order == 0) {
            rsort($valueSet, SORT_NUMERIC);
        } else {
            sort($valueSet, SORT_NUMERIC);
        }
        $pos = array_search($value, $valueSet);
        if ($pos === false) {
            return Functions::NA();
        }

        return ++$pos;
    }

    /**
     * RSQ.
     *
     * Returns the square of the Pearson product moment correlation
coefficient through data points in known_y's and known_x's.
     *
     * @param mixed[] $yValues Data Series Y
     * @param mixed[] $xValues Data Series X
     *
     * @return float|string The result, or a string containing an error
     */
    public static function RSQ($yValues, $xValues)
    {
        if (!self::checkTrendArrays($yValues, $xValues)) {
            return Functions::VALUE();
        }
        $yValueCount = count($yValues);
        $xValueCount = count($xValues);

        if (($yValueCount == 0) || ($yValueCount != $xValueCount)) {
            return Functions::NA();
        } elseif ($yValueCount == 1) {
            return Functions::DIV0();
        }

        $bestFitLinear = Trend::calculate(Trend::TREND_LINEAR, $yValues,
$xValues);

        return $bestFitLinear->getGoodnessOfFit();
    }

    /**
     * SKEW.
     *
     * Returns the skewness of a distribution. Skewness characterizes the
degree of asymmetry
     * of a distribution around its mean. Positive skewness indicates a
distribution with an
     * asymmetric tail extending toward more positive values. Negative
skewness indicates a
     * distribution with an asymmetric tail extending toward more negative
values.
     *
     * @param array ...$args Data Series
     *
     * @return float|string The result, or a string containing an error
     */
    public static function SKEW(...$args)
    {
        $aArgs = Functions::flattenArrayIndexed($args);
        $mean = self::AVERAGE($aArgs);
        $stdDev = self::STDEV($aArgs);

        $count = $summer = 0;
        // Loop through arguments
        foreach ($aArgs as $k => $arg) {
            if ((is_bool($arg)) &&
                (!Functions::isMatrixValue($k))) {
            } else {
                // Is it a numeric value?
                if ((is_numeric($arg)) && (!is_string($arg))) {
                    $summer += pow((($arg - $mean) / $stdDev), 3);
                    ++$count;
                }
            }
        }

        if ($count > 2) {
            return $summer * ($count / (($count - 1) * ($count - 2)));
        }

        return Functions::DIV0();
    }

    /**
     * SLOPE.
     *
     * Returns the slope of the linear regression line through data points
in known_y's and known_x's.
     *
     * @param mixed[] $yValues Data Series Y
     * @param mixed[] $xValues Data Series X
     *
     * @return float|string The result, or a string containing an error
     */
    public static function SLOPE($yValues, $xValues)
    {
        if (!self::checkTrendArrays($yValues, $xValues)) {
            return Functions::VALUE();
        }
        $yValueCount = count($yValues);
        $xValueCount = count($xValues);

        if (($yValueCount == 0) || ($yValueCount != $xValueCount)) {
            return Functions::NA();
        } elseif ($yValueCount == 1) {
            return Functions::DIV0();
        }

        $bestFitLinear = Trend::calculate(Trend::TREND_LINEAR, $yValues,
$xValues);

        return $bestFitLinear->getSlope();
    }

    /**
     * SMALL.
     *
     * Returns the nth smallest value in a data set. You can use this
function to
     *        select a value based on its relative standing.
     *
     * Excel Function:
     *        SMALL(value1[,value2[, ...]],entry)
     *
     * @category Statistical Functions
     *
     * @param mixed $args Data values
     * @param int $entry Position (ordered from the smallest) in the array
or range of data to return
     *
     * @return float|string The result, or a string containing an error
     */
    public static function SMALL(...$args)
    {
        $aArgs = Functions::flattenArray($args);

        // Calculate
        $entry = array_pop($aArgs);

        if ((is_numeric($entry)) && (!is_string($entry))) {
            $mArgs = [];
            foreach ($aArgs as $arg) {
                // Is it a numeric value?
                if ((is_numeric($arg)) && (!is_string($arg))) {
                    $mArgs[] = $arg;
                }
            }
            $count = self::COUNT($mArgs);
            $entry = floor(--$entry);
            if (($entry < 0) || ($entry >= $count) || ($count == 0))
{
                return Functions::NAN();
            }
            sort($mArgs);

            return $mArgs[$entry];
        }

        return Functions::VALUE();
    }

    /**
     * STANDARDIZE.
     *
     * Returns a normalized value from a distribution characterized by mean
and standard_dev.
     *
     * @param float $value Value to normalize
     * @param float $mean Mean Value
     * @param float $stdDev Standard Deviation
     *
     * @return float|string Standardized value, or a string containing an
error
     */
    public static function STANDARDIZE($value, $mean, $stdDev)
    {
        $value = Functions::flattenSingleValue($value);
        $mean = Functions::flattenSingleValue($mean);
        $stdDev = Functions::flattenSingleValue($stdDev);

        if ((is_numeric($value)) && (is_numeric($mean)) &&
(is_numeric($stdDev))) {
            if ($stdDev <= 0) {
                return Functions::NAN();
            }

            return ($value - $mean) / $stdDev;
        }

        return Functions::VALUE();
    }

    /**
     * STDEV.
     *
     * Estimates standard deviation based on a sample. The standard
deviation is a measure of how
     *        widely values are dispersed from the average value (the
mean).
     *
     * Excel Function:
     *        STDEV(value1[,value2[, ...]])
     *
     * @category Statistical Functions
     *
     * @param mixed ...$args Data values
     *
     * @return float|string The result, or a string containing an error
     */
    public static function STDEV(...$args)
    {
        $aArgs = Functions::flattenArrayIndexed($args);

        // Return value
        $returnValue = null;

        $aMean = self::AVERAGE($aArgs);
        if ($aMean !== null) {
            $aCount = -1;
            foreach ($aArgs as $k => $arg) {
                if ((is_bool($arg)) &&
                    ((!Functions::isCellValue($k)) ||
(Functions::getCompatibilityMode() ==
Functions::COMPATIBILITY_OPENOFFICE))) {
                    $arg = (int) $arg;
                }
                // Is it a numeric value?
                if ((is_numeric($arg)) && (!is_string($arg))) {
                    if ($returnValue === null) {
                        $returnValue = pow(($arg - $aMean), 2);
                    } else {
                        $returnValue += pow(($arg - $aMean), 2);
                    }
                    ++$aCount;
                }
            }

            // Return
            if (($aCount > 0) && ($returnValue >= 0)) {
                return sqrt($returnValue / $aCount);
            }
        }

        return Functions::DIV0();
    }

    /**
     * STDEVA.
     *
     * Estimates standard deviation based on a sample, including numbers,
text, and logical values
     *
     * Excel Function:
     *        STDEVA(value1[,value2[, ...]])
     *
     * @category Statistical Functions
     *
     * @param mixed ...$args Data values
     *
     * @return float|string
     */
    public static function STDEVA(...$args)
    {
        $aArgs = Functions::flattenArrayIndexed($args);

        $returnValue = null;

        $aMean = self::AVERAGEA($aArgs);
        if ($aMean !== null) {
            $aCount = -1;
            foreach ($aArgs as $k => $arg) {
                if ((is_bool($arg)) &&
                    (!Functions::isMatrixValue($k))) {
                } else {
                    // Is it a numeric value?
                    if ((is_numeric($arg)) || (is_bool($arg)) ||
((is_string($arg) & ($arg != '')))) {
                        if (is_bool($arg)) {
                            $arg = (int) $arg;
                        } elseif (is_string($arg)) {
                            $arg = 0;
                        }
                        if ($returnValue === null) {
                            $returnValue = pow(($arg - $aMean), 2);
                        } else {
                            $returnValue += pow(($arg - $aMean), 2);
                        }
                        ++$aCount;
                    }
                }
            }

            if (($aCount > 0) && ($returnValue >= 0)) {
                return sqrt($returnValue / $aCount);
            }
        }

        return Functions::DIV0();
    }

    /**
     * STDEVP.
     *
     * Calculates standard deviation based on the entire population
     *
     * Excel Function:
     *        STDEVP(value1[,value2[, ...]])
     *
     * @category Statistical Functions
     *
     * @param mixed ...$args Data values
     *
     * @return float|string
     */
    public static function STDEVP(...$args)
    {
        $aArgs = Functions::flattenArrayIndexed($args);

        $returnValue = null;

        $aMean = self::AVERAGE($aArgs);
        if ($aMean !== null) {
            $aCount = 0;
            foreach ($aArgs as $k => $arg) {
                if ((is_bool($arg)) &&
                    ((!Functions::isCellValue($k)) ||
(Functions::getCompatibilityMode() ==
Functions::COMPATIBILITY_OPENOFFICE))) {
                    $arg = (int) $arg;
                }
                // Is it a numeric value?
                if ((is_numeric($arg)) && (!is_string($arg))) {
                    if ($returnValue === null) {
                        $returnValue = pow(($arg - $aMean), 2);
                    } else {
                        $returnValue += pow(($arg - $aMean), 2);
                    }
                    ++$aCount;
                }
            }

            if (($aCount > 0) && ($returnValue >= 0)) {
                return sqrt($returnValue / $aCount);
            }
        }

        return Functions::DIV0();
    }

    /**
     * STDEVPA.
     *
     * Calculates standard deviation based on the entire population,
including numbers, text, and logical values
     *
     * Excel Function:
     *        STDEVPA(value1[,value2[, ...]])
     *
     * @category Statistical Functions
     *
     * @param mixed ...$args Data values
     *
     * @return float|string
     */
    public static function STDEVPA(...$args)
    {
        $aArgs = Functions::flattenArrayIndexed($args);

        $returnValue = null;

        $aMean = self::AVERAGEA($aArgs);
        if ($aMean !== null) {
            $aCount = 0;
            foreach ($aArgs as $k => $arg) {
                if ((is_bool($arg)) &&
                    (!Functions::isMatrixValue($k))) {
                } else {
                    // Is it a numeric value?
                    if ((is_numeric($arg)) || (is_bool($arg)) ||
((is_string($arg) & ($arg != '')))) {
                        if (is_bool($arg)) {
                            $arg = (int) $arg;
                        } elseif (is_string($arg)) {
                            $arg = 0;
                        }
                        if ($returnValue === null) {
                            $returnValue = pow(($arg - $aMean), 2);
                        } else {
                            $returnValue += pow(($arg - $aMean), 2);
                        }
                        ++$aCount;
                    }
                }
            }

            if (($aCount > 0) && ($returnValue >= 0)) {
                return sqrt($returnValue / $aCount);
            }
        }

        return Functions::DIV0();
    }

    /**
     * STEYX.
     *
     * Returns the standard error of the predicted y-value for each x in
the regression.
     *
     * @param mixed[] $yValues Data Series Y
     * @param mixed[] $xValues Data Series X
     *
     * @return float|string
     */
    public static function STEYX($yValues, $xValues)
    {
        if (!self::checkTrendArrays($yValues, $xValues)) {
            return Functions::VALUE();
        }
        $yValueCount = count($yValues);
        $xValueCount = count($xValues);

        if (($yValueCount == 0) || ($yValueCount != $xValueCount)) {
            return Functions::NA();
        } elseif ($yValueCount == 1) {
            return Functions::DIV0();
        }

        $bestFitLinear = Trend::calculate(Trend::TREND_LINEAR, $yValues,
$xValues);

        return $bestFitLinear->getStdevOfResiduals();
    }

    /**
     * TDIST.
     *
     * Returns the probability of Student's T distribution.
     *
     * @param float $value Value for the function
     * @param float $degrees degrees of freedom
     * @param float $tails number of tails (1 or 2)
     *
     * @return float|string The result, or a string containing an error
     */
    public static function TDIST($value, $degrees, $tails)
    {
        $value = Functions::flattenSingleValue($value);
        $degrees = floor(Functions::flattenSingleValue($degrees));
        $tails = floor(Functions::flattenSingleValue($tails));

        if ((is_numeric($value)) && (is_numeric($degrees))
&& (is_numeric($tails))) {
            if (($value < 0) || ($degrees < 1) || ($tails < 1) ||
($tails > 2)) {
                return Functions::NAN();
            }
            //    tdist, which finds the probability that corresponds to a
given value
            //    of t with k degrees of freedom. This algorithm is
translated from a
            //    pascal function on p81 of "Statistical Computing in
Pascal" by D
            //    Cooke, A H Craven & G M Clark (1985: Edward Arnold
(Pubs.) Ltd:
            //    London). The above Pascal algorithm is itself a
translation of the
            //    fortran algoritm "AS 3" by B E Cooper of the
Atlas Computer
            //    Laboratory as reported in (among other places)
"Applied Statistics
            //    Algorithms", editied by P Griffiths and I D Hill
(1985; Ellis
            //    Horwood Ltd.; W. Sussex, England).
            $tterm = $degrees;
            $ttheta = atan2($value, sqrt($tterm));
            $tc = cos($ttheta);
            $ts = sin($ttheta);
            $tsum = 0;

            if (($degrees % 2) == 1) {
                $ti = 3;
                $tterm = $tc;
            } else {
                $ti = 2;
                $tterm = 1;
            }

            $tsum = $tterm;
            while ($ti < $degrees) {
                $tterm *= $tc * $tc * ($ti - 1) / $ti;
                $tsum += $tterm;
                $ti += 2;
            }
            $tsum *= $ts;
            if (($degrees % 2) == 1) {
                $tsum = Functions::M_2DIVPI * ($tsum + $ttheta);
            }
            $tValue = 0.5 * (1 + $tsum);
            if ($tails == 1) {
                return 1 - abs($tValue);
            }

            return 1 - abs((1 - $tValue) - $tValue);
        }

        return Functions::VALUE();
    }

    /**
     * TINV.
     *
     * Returns the one-tailed probability of the chi-squared distribution.
     *
     * @param float $probability Probability for the function
     * @param float $degrees degrees of freedom
     *
     * @return float|string The result, or a string containing an error
     */
    public static function TINV($probability, $degrees)
    {
        $probability = Functions::flattenSingleValue($probability);
        $degrees = floor(Functions::flattenSingleValue($degrees));

        if ((is_numeric($probability)) && (is_numeric($degrees))) {
            $xLo = 100;
            $xHi = 0;

            $x = $xNew = 1;
            $dx = 1;
            $i = 0;

            while ((abs($dx) > Functions::PRECISION) && ($i++
< self::MAX_ITERATIONS)) {
                // Apply Newton-Raphson step
                $result = self::TDIST($x, $degrees, 2);
                $error = $result - $probability;
                if ($error == 0.0) {
                    $dx = 0;
                } elseif ($error < 0.0) {
                    $xLo = $x;
                } else {
                    $xHi = $x;
                }
                // Avoid division by zero
                if ($result != 0.0) {
                    $dx = $error / $result;
                    $xNew = $x - $dx;
                }
                // If the NR fails to converge (which for example may be
the
                // case if the initial guess is too rough) we apply a
bisection
                // step to determine a more narrow interval around the
root.
                if (($xNew < $xLo) || ($xNew > $xHi) || ($result ==
0.0)) {
                    $xNew = ($xLo + $xHi) / 2;
                    $dx = $xNew - $x;
                }
                $x = $xNew;
            }
            if ($i == self::MAX_ITERATIONS) {
                return Functions::NA();
            }

            return round($x, 12);
        }

        return Functions::VALUE();
    }

    /**
     * TREND.
     *
     * Returns values along a linear Trend
     *
     * @param mixed[] $yValues Data Series Y
     * @param mixed[] $xValues Data Series X
     * @param mixed[] $newValues Values of X for which we want to find Y
     * @param bool $const a logical value specifying whether to force the
intersect to equal 0
     *
     * @return array of float
     */
    public static function TREND($yValues, $xValues = [], $newValues = [],
$const = true)
    {
        $yValues = Functions::flattenArray($yValues);
        $xValues = Functions::flattenArray($xValues);
        $newValues = Functions::flattenArray($newValues);
        $const = ($const === null) ? true : (bool)
Functions::flattenSingleValue($const);

        $bestFitLinear = Trend::calculate(Trend::TREND_LINEAR, $yValues,
$xValues, $const);
        if (empty($newValues)) {
            $newValues = $bestFitLinear->getXValues();
        }

        $returnArray = [];
        foreach ($newValues as $xValue) {
            $returnArray[0][] =
$bestFitLinear->getValueOfYForX($xValue);
        }

        return $returnArray;
    }

    /**
     * TRIMMEAN.
     *
     * Returns the mean of the interior of a data set. TRIMMEAN calculates
the mean
     *        taken by excluding a percentage of data points from the top
and bottom tails
     *        of a data set.
     *
     * Excel Function:
     *        TRIMEAN(value1[,value2[, ...]], $discard)
     *
     * @category Statistical Functions
     *
     * @param mixed $args Data values
     * @param float $discard Percentage to discard
     *
     * @return float|string
     */
    public static function TRIMMEAN(...$args)
    {
        $aArgs = Functions::flattenArray($args);

        // Calculate
        $percent = array_pop($aArgs);

        if ((is_numeric($percent)) && (!is_string($percent))) {
            if (($percent < 0) || ($percent > 1)) {
                return Functions::NAN();
            }
            $mArgs = [];
            foreach ($aArgs as $arg) {
                // Is it a numeric value?
                if ((is_numeric($arg)) && (!is_string($arg))) {
                    $mArgs[] = $arg;
                }
            }
            $discard = floor(self::COUNT($mArgs) * $percent / 2);
            sort($mArgs);
            for ($i = 0; $i < $discard; ++$i) {
                array_pop($mArgs);
                array_shift($mArgs);
            }

            return self::AVERAGE($mArgs);
        }

        return Functions::VALUE();
    }

    /**
     * VARFunc.
     *
     * Estimates variance based on a sample.
     *
     * Excel Function:
     *        VAR(value1[,value2[, ...]])
     *
     * @category Statistical Functions
     *
     * @param mixed ...$args Data values
     *
     * @return float
     */
    public static function VARFunc(...$args)
    {
        $returnValue = Functions::DIV0();

        $summerA = $summerB = 0;

        // Loop through arguments
        $aArgs = Functions::flattenArray($args);
        $aCount = 0;
        foreach ($aArgs as $arg) {
            if (is_bool($arg)) {
                $arg = (int) $arg;
            }
            // Is it a numeric value?
            if ((is_numeric($arg)) && (!is_string($arg))) {
                $summerA += ($arg * $arg);
                $summerB += $arg;
                ++$aCount;
            }
        }

        if ($aCount > 1) {
            $summerA *= $aCount;
            $summerB *= $summerB;
            $returnValue = ($summerA - $summerB) / ($aCount * ($aCount -
1));
        }

        return $returnValue;
    }

    /**
     * VARA.
     *
     * Estimates variance based on a sample, including numbers, text, and
logical values
     *
     * Excel Function:
     *        VARA(value1[,value2[, ...]])
     *
     * @category Statistical Functions
     *
     * @param mixed ...$args Data values
     *
     * @return float
     */
    public static function VARA(...$args)
    {
        $returnValue = Functions::DIV0();

        $summerA = $summerB = 0;

        // Loop through arguments
        $aArgs = Functions::flattenArrayIndexed($args);
        $aCount = 0;
        foreach ($aArgs as $k => $arg) {
            if ((is_string($arg)) &&
                (Functions::isValue($k))) {
                return Functions::VALUE();
            } elseif ((is_string($arg)) &&
                (!Functions::isMatrixValue($k))) {
            } else {
                // Is it a numeric value?
                if ((is_numeric($arg)) || (is_bool($arg)) ||
((is_string($arg) & ($arg != '')))) {
                    if (is_bool($arg)) {
                        $arg = (int) $arg;
                    } elseif (is_string($arg)) {
                        $arg = 0;
                    }
                    $summerA += ($arg * $arg);
                    $summerB += $arg;
                    ++$aCount;
                }
            }
        }

        if ($aCount > 1) {
            $summerA *= $aCount;
            $summerB *= $summerB;
            $returnValue = ($summerA - $summerB) / ($aCount * ($aCount -
1));
        }

        return $returnValue;
    }

    /**
     * VARP.
     *
     * Calculates variance based on the entire population
     *
     * Excel Function:
     *        VARP(value1[,value2[, ...]])
     *
     * @category Statistical Functions
     *
     * @param mixed ...$args Data values
     *
     * @return float
     */
    public static function VARP(...$args)
    {
        // Return value
        $returnValue = Functions::DIV0();

        $summerA = $summerB = 0;

        // Loop through arguments
        $aArgs = Functions::flattenArray($args);
        $aCount = 0;
        foreach ($aArgs as $arg) {
            if (is_bool($arg)) {
                $arg = (int) $arg;
            }
            // Is it a numeric value?
            if ((is_numeric($arg)) && (!is_string($arg))) {
                $summerA += ($arg * $arg);
                $summerB += $arg;
                ++$aCount;
            }
        }

        if ($aCount > 0) {
            $summerA *= $aCount;
            $summerB *= $summerB;
            $returnValue = ($summerA - $summerB) / ($aCount * $aCount);
        }

        return $returnValue;
    }

    /**
     * VARPA.
     *
     * Calculates variance based on the entire population, including
numbers, text, and logical values
     *
     * Excel Function:
     *        VARPA(value1[,value2[, ...]])
     *
     * @category Statistical Functions
     *
     * @param mixed ...$args Data values
     *
     * @return float
     */
    public static function VARPA(...$args)
    {
        $returnValue = Functions::DIV0();

        $summerA = $summerB = 0;

        // Loop through arguments
        $aArgs = Functions::flattenArrayIndexed($args);
        $aCount = 0;
        foreach ($aArgs as $k => $arg) {
            if ((is_string($arg)) &&
                (Functions::isValue($k))) {
                return Functions::VALUE();
            } elseif ((is_string($arg)) &&
                (!Functions::isMatrixValue($k))) {
            } else {
                // Is it a numeric value?
                if ((is_numeric($arg)) || (is_bool($arg)) ||
((is_string($arg) & ($arg != '')))) {
                    if (is_bool($arg)) {
                        $arg = (int) $arg;
                    } elseif (is_string($arg)) {
                        $arg = 0;
                    }
                    $summerA += ($arg * $arg);
                    $summerB += $arg;
                    ++$aCount;
                }
            }
        }

        if ($aCount > 0) {
            $summerA *= $aCount;
            $summerB *= $summerB;
            $returnValue = ($summerA - $summerB) / ($aCount * $aCount);
        }

        return $returnValue;
    }

    /**
     * WEIBULL.
     *
     * Returns the Weibull distribution. Use this distribution in
reliability
     * analysis, such as calculating a device's mean time to failure.
     *
     * @param float $value
     * @param float $alpha Alpha Parameter
     * @param float $beta Beta Parameter
     * @param bool $cumulative
     *
     * @return float
     */
    public static function WEIBULL($value, $alpha, $beta, $cumulative)
    {
        $value = Functions::flattenSingleValue($value);
        $alpha = Functions::flattenSingleValue($alpha);
        $beta = Functions::flattenSingleValue($beta);

        if ((is_numeric($value)) && (is_numeric($alpha)) &&
(is_numeric($beta))) {
            if (($value < 0) || ($alpha <= 0) || ($beta <= 0)) {
                return Functions::NAN();
            }
            if ((is_numeric($cumulative)) || (is_bool($cumulative))) {
                if ($cumulative) {
                    return 1 - exp(0 - pow($value / $beta, $alpha));
                }

                return ($alpha / pow($beta, $alpha)) * pow($value, $alpha -
1) * exp(0 - pow($value / $beta, $alpha));
            }
        }

        return Functions::VALUE();
    }

    /**
     * ZTEST.
     *
     * Returns the Weibull distribution. Use this distribution in
reliability
     * analysis, such as calculating a device's mean time to failure.
     *
     * @param float $dataSet
     * @param float $m0 Alpha Parameter
     * @param float $sigma Beta Parameter
     *
     * @return float|string
     */
    public static function ZTEST($dataSet, $m0, $sigma = null)
    {
        $dataSet = Functions::flattenArrayIndexed($dataSet);
        $m0 = Functions::flattenSingleValue($m0);
        $sigma = Functions::flattenSingleValue($sigma);

        if ($sigma === null) {
            $sigma = self::STDEV($dataSet);
        }
        $n = count($dataSet);

        return 1 - self::NORMSDIST((self::AVERAGE($dataSet) - $m0) /
($sigma / sqrt($n)));
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/TextData.php000064400000045751151165413770023244
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Calculation;

use PhpOffice\PhpSpreadsheet\Shared\Date;
use PhpOffice\PhpSpreadsheet\Shared\StringHelper;
use PhpOffice\PhpSpreadsheet\Style\NumberFormat;

class TextData
{
    private static $invalidChars;

    private static function unicodeToOrd($character)
    {
        return unpack('V', iconv('UTF-8',
'UCS-4LE', $character))[1];
    }

    /**
     * CHARACTER.
     *
     * @param string $character Value
     *
     * @return string
     */
    public static function CHARACTER($character)
    {
        $character = Functions::flattenSingleValue($character);

        if ((!is_numeric($character)) || ($character < 0)) {
            return Functions::VALUE();
        }

        if (function_exists('iconv')) {
            return iconv('UCS-4LE', 'UTF-8',
pack('V', $character));
        }

        return mb_convert_encoding('&#' . (int) $character .
';', 'UTF-8', 'HTML-ENTITIES');
    }

    /**
     * TRIMNONPRINTABLE.
     *
     * @param mixed $stringValue Value to check
     *
     * @return string
     */
    public static function TRIMNONPRINTABLE($stringValue = '')
    {
        $stringValue = Functions::flattenSingleValue($stringValue);

        if (is_bool($stringValue)) {
            return ($stringValue) ? Calculation::getTRUE() :
Calculation::getFALSE();
        }

        if (self::$invalidChars === null) {
            self::$invalidChars = range(chr(0), chr(31));
        }

        if (is_string($stringValue) || is_numeric($stringValue)) {
            return str_replace(self::$invalidChars, '',
trim($stringValue, "\x00..\x1F"));
        }

        return null;
    }

    /**
     * TRIMSPACES.
     *
     * @param mixed $stringValue Value to check
     *
     * @return string
     */
    public static function TRIMSPACES($stringValue = '')
    {
        $stringValue = Functions::flattenSingleValue($stringValue);
        if (is_bool($stringValue)) {
            return ($stringValue) ? Calculation::getTRUE() :
Calculation::getFALSE();
        }

        if (is_string($stringValue) || is_numeric($stringValue)) {
            return trim(preg_replace('/ +/', ' ',
trim($stringValue, ' ')), ' ');
        }

        return null;
    }

    private static function convertBooleanValue($value)
    {
        if (Functions::getCompatibilityMode() ==
Functions::COMPATIBILITY_OPENOFFICE) {
            return (int) $value;
        }

        return ($value) ? Calculation::getTRUE() : Calculation::getFALSE();
    }

    /**
     * ASCIICODE.
     *
     * @param string $characters Value
     *
     * @return int
     */
    public static function ASCIICODE($characters)
    {
        if (($characters === null) || ($characters === '')) {
            return Functions::VALUE();
        }
        $characters = Functions::flattenSingleValue($characters);
        if (is_bool($characters)) {
            $characters = self::convertBooleanValue($characters);
        }

        $character = $characters;
        if (mb_strlen($characters, 'UTF-8') > 1) {
            $character = mb_substr($characters, 0, 1, 'UTF-8');
        }

        return self::unicodeToOrd($character);
    }

    /**
     * CONCATENATE.
     *
     * @return string
     */
    public static function CONCATENATE(...$args)
    {
        $returnValue = '';

        // Loop through arguments
        $aArgs = Functions::flattenArray($args);
        foreach ($aArgs as $arg) {
            if (is_bool($arg)) {
                $arg = self::convertBooleanValue($arg);
            }
            $returnValue .= $arg;
        }

        return $returnValue;
    }

    /**
     * DOLLAR.
     *
     * This function converts a number to text using currency format, with
the decimals rounded to the specified place.
     * The format used is $#,##0.00_);($#,##0.00)..
     *
     * @param float $value The value to format
     * @param int $decimals The number of digits to display to the right of
the decimal point.
     *                                    If decimals is negative, number
is rounded to the left of the decimal point.
     *                                    If you omit decimals, it is
assumed to be 2
     *
     * @return string
     */
    public static function DOLLAR($value = 0, $decimals = 2)
    {
        $value = Functions::flattenSingleValue($value);
        $decimals = $decimals === null ? 0 :
Functions::flattenSingleValue($decimals);

        // Validate parameters
        if (!is_numeric($value) || !is_numeric($decimals)) {
            return Functions::NAN();
        }
        $decimals = floor($decimals);

        $mask = '$#,##0';
        if ($decimals > 0) {
            $mask .= '.' . str_repeat('0', $decimals);
        } else {
            $round = pow(10, abs($decimals));
            if ($value < 0) {
                $round = 0 - $round;
            }
            $value = MathTrig::MROUND($value, $round);
        }

        return NumberFormat::toFormattedString($value, $mask);
    }

    /**
     * SEARCHSENSITIVE.
     *
     * @param string $needle The string to look for
     * @param string $haystack The string in which to look
     * @param int $offset Offset within $haystack
     *
     * @return string
     */
    public static function SEARCHSENSITIVE($needle, $haystack, $offset = 1)
    {
        $needle = Functions::flattenSingleValue($needle);
        $haystack = Functions::flattenSingleValue($haystack);
        $offset = Functions::flattenSingleValue($offset);

        if (!is_bool($needle)) {
            if (is_bool($haystack)) {
                $haystack = ($haystack) ? Calculation::getTRUE() :
Calculation::getFALSE();
            }

            if (($offset > 0) &&
(StringHelper::countCharacters($haystack) > $offset)) {
                if (StringHelper::countCharacters($needle) === 0) {
                    return $offset;
                }

                $pos = mb_strpos($haystack, $needle, --$offset,
'UTF-8');
                if ($pos !== false) {
                    return ++$pos;
                }
            }
        }

        return Functions::VALUE();
    }

    /**
     * SEARCHINSENSITIVE.
     *
     * @param string $needle The string to look for
     * @param string $haystack The string in which to look
     * @param int $offset Offset within $haystack
     *
     * @return string
     */
    public static function SEARCHINSENSITIVE($needle, $haystack, $offset =
1)
    {
        $needle = Functions::flattenSingleValue($needle);
        $haystack = Functions::flattenSingleValue($haystack);
        $offset = Functions::flattenSingleValue($offset);

        if (!is_bool($needle)) {
            if (is_bool($haystack)) {
                $haystack = ($haystack) ? Calculation::getTRUE() :
Calculation::getFALSE();
            }

            if (($offset > 0) &&
(StringHelper::countCharacters($haystack) > $offset)) {
                if (StringHelper::countCharacters($needle) === 0) {
                    return $offset;
                }

                $pos = mb_stripos($haystack, $needle, --$offset,
'UTF-8');
                if ($pos !== false) {
                    return ++$pos;
                }
            }
        }

        return Functions::VALUE();
    }

    /**
     * FIXEDFORMAT.
     *
     * @param mixed $value Value to check
     * @param int $decimals
     * @param bool $no_commas
     *
     * @return string
     */
    public static function FIXEDFORMAT($value, $decimals = 2, $no_commas =
false)
    {
        $value = Functions::flattenSingleValue($value);
        $decimals = Functions::flattenSingleValue($decimals);
        $no_commas = Functions::flattenSingleValue($no_commas);

        // Validate parameters
        if (!is_numeric($value) || !is_numeric($decimals)) {
            return Functions::NAN();
        }
        $decimals = (int) floor($decimals);

        $valueResult = round($value, $decimals);
        if ($decimals < 0) {
            $decimals = 0;
        }
        if (!$no_commas) {
            $valueResult = number_format(
                $valueResult,
                $decimals,
                StringHelper::getDecimalSeparator(),
                StringHelper::getThousandsSeparator()
            );
        }

        return (string) $valueResult;
    }

    /**
     * LEFT.
     *
     * @param string $value Value
     * @param int $chars Number of characters
     *
     * @return string
     */
    public static function LEFT($value = '', $chars = 1)
    {
        $value = Functions::flattenSingleValue($value);
        $chars = Functions::flattenSingleValue($chars);

        if ($chars < 0) {
            return Functions::VALUE();
        }

        if (is_bool($value)) {
            $value = ($value) ? Calculation::getTRUE() :
Calculation::getFALSE();
        }

        return mb_substr($value, 0, $chars, 'UTF-8');
    }

    /**
     * MID.
     *
     * @param string $value Value
     * @param int $start Start character
     * @param int $chars Number of characters
     *
     * @return string
     */
    public static function MID($value = '', $start = 1, $chars =
null)
    {
        $value = Functions::flattenSingleValue($value);
        $start = Functions::flattenSingleValue($start);
        $chars = Functions::flattenSingleValue($chars);

        if (($start < 1) || ($chars < 0)) {
            return Functions::VALUE();
        }

        if (is_bool($value)) {
            $value = ($value) ? Calculation::getTRUE() :
Calculation::getFALSE();
        }

        if (empty($chars)) {
            return '';
        }

        return mb_substr($value, --$start, $chars, 'UTF-8');
    }

    /**
     * RIGHT.
     *
     * @param string $value Value
     * @param int $chars Number of characters
     *
     * @return string
     */
    public static function RIGHT($value = '', $chars = 1)
    {
        $value = Functions::flattenSingleValue($value);
        $chars = Functions::flattenSingleValue($chars);

        if ($chars < 0) {
            return Functions::VALUE();
        }

        if (is_bool($value)) {
            $value = ($value) ? Calculation::getTRUE() :
Calculation::getFALSE();
        }

        return mb_substr($value, mb_strlen($value, 'UTF-8') -
$chars, $chars, 'UTF-8');
    }

    /**
     * STRINGLENGTH.
     *
     * @param string $value Value
     *
     * @return int
     */
    public static function STRINGLENGTH($value = '')
    {
        $value = Functions::flattenSingleValue($value);

        if (is_bool($value)) {
            $value = ($value) ? Calculation::getTRUE() :
Calculation::getFALSE();
        }

        return mb_strlen($value, 'UTF-8');
    }

    /**
     * LOWERCASE.
     *
     * Converts a string value to upper case.
     *
     * @param string $mixedCaseString
     *
     * @return string
     */
    public static function LOWERCASE($mixedCaseString)
    {
        $mixedCaseString = Functions::flattenSingleValue($mixedCaseString);

        if (is_bool($mixedCaseString)) {
            $mixedCaseString = ($mixedCaseString) ? Calculation::getTRUE()
: Calculation::getFALSE();
        }

        return StringHelper::strToLower($mixedCaseString);
    }

    /**
     * UPPERCASE.
     *
     * Converts a string value to upper case.
     *
     * @param string $mixedCaseString
     *
     * @return string
     */
    public static function UPPERCASE($mixedCaseString)
    {
        $mixedCaseString = Functions::flattenSingleValue($mixedCaseString);

        if (is_bool($mixedCaseString)) {
            $mixedCaseString = ($mixedCaseString) ? Calculation::getTRUE()
: Calculation::getFALSE();
        }

        return StringHelper::strToUpper($mixedCaseString);
    }

    /**
     * PROPERCASE.
     *
     * Converts a string value to upper case.
     *
     * @param string $mixedCaseString
     *
     * @return string
     */
    public static function PROPERCASE($mixedCaseString)
    {
        $mixedCaseString = Functions::flattenSingleValue($mixedCaseString);

        if (is_bool($mixedCaseString)) {
            $mixedCaseString = ($mixedCaseString) ? Calculation::getTRUE()
: Calculation::getFALSE();
        }

        return StringHelper::strToTitle($mixedCaseString);
    }

    /**
     * REPLACE.
     *
     * @param string $oldText String to modify
     * @param int $start Start character
     * @param int $chars Number of characters
     * @param string $newText String to replace in defined position
     *
     * @return string
     */
    public static function REPLACE($oldText, $start, $chars, $newText)
    {
        $oldText = Functions::flattenSingleValue($oldText);
        $start = Functions::flattenSingleValue($start);
        $chars = Functions::flattenSingleValue($chars);
        $newText = Functions::flattenSingleValue($newText);

        $left = self::LEFT($oldText, $start - 1);
        $right = self::RIGHT($oldText, self::STRINGLENGTH($oldText) -
($start + $chars) + 1);

        return $left . $newText . $right;
    }

    /**
     * SUBSTITUTE.
     *
     * @param string $text Value
     * @param string $fromText From Value
     * @param string $toText To Value
     * @param int $instance Instance Number
     *
     * @return string
     */
    public static function SUBSTITUTE($text = '', $fromText =
'', $toText = '', $instance = 0)
    {
        $text = Functions::flattenSingleValue($text);
        $fromText = Functions::flattenSingleValue($fromText);
        $toText = Functions::flattenSingleValue($toText);
        $instance = floor(Functions::flattenSingleValue($instance));

        if ($instance == 0) {
            return str_replace($fromText, $toText, $text);
        }

        $pos = -1;
        while ($instance > 0) {
            $pos = mb_strpos($text, $fromText, $pos + 1,
'UTF-8');
            if ($pos === false) {
                break;
            }
            --$instance;
        }

        if ($pos !== false) {
            return self::REPLACE($text, ++$pos, mb_strlen($fromText,
'UTF-8'), $toText);
        }

        return $text;
    }

    /**
     * RETURNSTRING.
     *
     * @param mixed $testValue Value to check
     *
     * @return null|string
     */
    public static function RETURNSTRING($testValue = '')
    {
        $testValue = Functions::flattenSingleValue($testValue);

        if (is_string($testValue)) {
            return $testValue;
        }

        return null;
    }

    /**
     * TEXTFORMAT.
     *
     * @param mixed $value Value to check
     * @param string $format Format mask to use
     *
     * @return string
     */
    public static function TEXTFORMAT($value, $format)
    {
        $value = Functions::flattenSingleValue($value);
        $format = Functions::flattenSingleValue($format);

        if ((is_string($value)) && (!is_numeric($value)) &&
Date::isDateTimeFormatCode($format)) {
            $value = DateTime::DATEVALUE($value);
        }

        return (string) NumberFormat::toFormattedString($value, $format);
    }

    /**
     * VALUE.
     *
     * @param mixed $value Value to check
     *
     * @return bool
     */
    public static function VALUE($value = '')
    {
        $value = Functions::flattenSingleValue($value);

        if (!is_numeric($value)) {
            $numberValue = str_replace(
                StringHelper::getThousandsSeparator(),
                '',
                trim($value, " \t\n\r\0\x0B" .
StringHelper::getCurrencyCode())
            );
            if (is_numeric($numberValue)) {
                return (float) $numberValue;
            }

            $dateSetting = Functions::getReturnDateType();
            Functions::setReturnDateType(Functions::RETURNDATE_EXCEL);

            if (strpos($value, ':') !== false) {
                $timeValue = DateTime::TIMEVALUE($value);
                if ($timeValue !== Functions::VALUE()) {
                    Functions::setReturnDateType($dateSetting);

                    return $timeValue;
                }
            }
            $dateValue = DateTime::DATEVALUE($value);
            if ($dateValue !== Functions::VALUE()) {
                Functions::setReturnDateType($dateSetting);

                return $dateValue;
            }
            Functions::setReturnDateType($dateSetting);

            return Functions::VALUE();
        }

        return (float) $value;
    }

    /**
     * NUMBERVALUE.
     *
     * @param mixed $value Value to check
     * @param string $decimalSeparator decimal separator, defaults to
locale defined value
     * @param string $groupSeparator group/thosands separator, defaults to
locale defined value
     *
     * @return float|string
     */
    public static function NUMBERVALUE($value = '',
$decimalSeparator = null, $groupSeparator = null)
    {
        $value = Functions::flattenSingleValue($value);
        $decimalSeparator =
Functions::flattenSingleValue($decimalSeparator);
        $groupSeparator = Functions::flattenSingleValue($groupSeparator);

        if (!is_numeric($value)) {
            $decimalSeparator = empty($decimalSeparator) ?
StringHelper::getDecimalSeparator() : $decimalSeparator;
            $groupSeparator = empty($groupSeparator) ?
StringHelper::getThousandsSeparator() : $groupSeparator;

            $decimalPositions = preg_match_all('/' .
preg_quote($decimalSeparator) . '/', $value, $matches,
PREG_OFFSET_CAPTURE);
            if ($decimalPositions > 1) {
                return Functions::VALUE();
            }
            $decimalOffset = array_pop($matches[0])[1];
            if (strpos($value, $groupSeparator, $decimalOffset) !== false)
{
                return Functions::VALUE();
            }

            $value = str_replace([$groupSeparator, $decimalSeparator],
['', '.'], $value);

            // Handle the special case of trailing % signs
            $percentageString = rtrim($value, '%');
            if (!is_numeric($percentageString)) {
                return Functions::VALUE();
            }

            $percentageAdjustment = strlen($value) -
strlen($percentageString);
            if ($percentageAdjustment) {
                $value = (float) $percentageString;
                $value /= pow(10, $percentageAdjustment * 2);
            }
        }

        return (float) $value;
    }

    /**
     * Compares two text strings and returns TRUE if they are exactly the
same, FALSE otherwise.
     * EXACT is case-sensitive but ignores formatting differences.
     * Use EXACT to test text being entered into a document.
     *
     * @param $value1
     * @param $value2
     *
     * @return bool
     */
    public static function EXACT($value1, $value2)
    {
        $value1 = Functions::flattenSingleValue($value1);
        $value2 = Functions::flattenSingleValue($value2);

        return (string) $value2 === (string) $value1;
    }

    /**
     * TEXTJOIN.
     *
     * @param mixed $delimiter
     * @param mixed $ignoreEmpty
     * @param mixed $args
     *
     * @return string
     */
    public static function TEXTJOIN($delimiter, $ignoreEmpty, ...$args)
    {
        // Loop through arguments
        $aArgs = Functions::flattenArray($args);
        foreach ($aArgs as $key => &$arg) {
            if ($ignoreEmpty && trim($arg) == '') {
                unset($aArgs[$key]);
            } elseif (is_bool($arg)) {
                $arg = self::convertBooleanValue($arg);
            }
        }

        return implode($delimiter, $aArgs);
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Calculation/Token/Stack.php000064400000006336151165413770023647
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Calculation\Token;

use PhpOffice\PhpSpreadsheet\Calculation\Calculation;

class Stack
{
    /**
     * The parser stack for formulae.
     *
     * @var mixed[]
     */
    private $stack = [];

    /**
     * Count of entries in the parser stack.
     *
     * @var int
     */
    private $count = 0;

    /**
     * Return the number of entries on the stack.
     *
     * @return int
     */
    public function count()
    {
        return $this->count;
    }

    /**
     * Push a new entry onto the stack.
     *
     * @param mixed $type
     * @param mixed $value
     * @param mixed $reference
     * @param null|string $storeKey will store the result under this alias
     * @param null|string $onlyIf will only run computation if the matching
     *      store key is true
     * @param null|string $onlyIfNot will only run computation if the
matching
     *      store key is false
     */
    public function push(
        $type,
        $value,
        $reference = null,
        $storeKey = null,
        $onlyIf = null,
        $onlyIfNot = null
    ) {
        $stackItem = $this->getStackItem($type, $value, $reference,
$storeKey, $onlyIf, $onlyIfNot);

        $this->stack[$this->count++] = $stackItem;

        if ($type == 'Function') {
            $localeFunction = Calculation::localeFunc($value);
            if ($localeFunction != $value) {
                $this->stack[($this->count -
1)]['localeValue'] = $localeFunction;
            }
        }
    }

    public function getStackItem(
        $type,
        $value,
        $reference = null,
        $storeKey = null,
        $onlyIf = null,
        $onlyIfNot = null
    ) {
        $stackItem = [
            'type' => $type,
            'value' => $value,
            'reference' => $reference,
        ];

        if (isset($storeKey)) {
            $stackItem['storeKey'] = $storeKey;
        }

        if (isset($onlyIf)) {
            $stackItem['onlyIf'] = $onlyIf;
        }

        if (isset($onlyIfNot)) {
            $stackItem['onlyIfNot'] = $onlyIfNot;
        }

        return $stackItem;
    }

    /**
     * Pop the last entry from the stack.
     *
     * @return mixed
     */
    public function pop()
    {
        if ($this->count > 0) {
            return $this->stack[--$this->count];
        }

        return null;
    }

    /**
     * Return an entry from the stack without removing it.
     *
     * @param int $n number indicating how far back in the stack we want to
look
     *
     * @return mixed
     */
    public function last($n = 1)
    {
        if ($this->count - $n < 0) {
            return null;
        }

        return $this->stack[$this->count - $n];
    }

    /**
     * Clear the stack.
     */
    public function clear()
    {
        $this->stack = [];
        $this->count = 0;
    }

    public function __toString()
    {
        $str = 'Stack: ';
        foreach ($this->stack as $index => $item) {
            if ($index > $this->count - 1) {
                break;
            }
            $value = $item['value'] ?? 'no value';
            while (is_array($value)) {
                $value = array_pop($value);
            }
            $str .= $value . ' |> ';
        }

        return $str;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Cell/AdvancedValueBinder.php000064400000016355151165413770023773
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Cell;

use PhpOffice\PhpSpreadsheet\Calculation\Calculation;
use PhpOffice\PhpSpreadsheet\RichText\RichText;
use PhpOffice\PhpSpreadsheet\Shared\Date;
use PhpOffice\PhpSpreadsheet\Shared\StringHelper;
use PhpOffice\PhpSpreadsheet\Style\NumberFormat;

class AdvancedValueBinder extends DefaultValueBinder implements
IValueBinder
{
    /**
     * Bind value to a cell.
     *
     * @param Cell $cell Cell to bind value to
     * @param mixed $value Value to bind in cell
     *
     * @throws \PhpOffice\PhpSpreadsheet\Exception
     *
     * @return bool
     */
    public function bindValue(Cell $cell, $value = null)
    {
        // sanitize UTF-8 strings
        if (is_string($value)) {
            $value = StringHelper::sanitizeUTF8($value);
        }

        // Find out data type
        $dataType = parent::dataTypeForValue($value);

        // Style logic - strings
        if ($dataType === DataType::TYPE_STRING && !$value
instanceof RichText) {
            //    Test for booleans using locale-setting
            if ($value == Calculation::getTRUE()) {
                $cell->setValueExplicit(true, DataType::TYPE_BOOL);

                return true;
            } elseif ($value == Calculation::getFALSE()) {
                $cell->setValueExplicit(false, DataType::TYPE_BOOL);

                return true;
            }

            // Check for number in scientific format
            if (preg_match('/^' .
Calculation::CALCULATION_REGEXP_NUMBER . '$/', $value)) {
                $cell->setValueExplicit((float) $value,
DataType::TYPE_NUMERIC);

                return true;
            }

            // Check for fraction
            if (preg_match('/^([+-]?)\s*(\d+)\s?\/\s*(\d+)$/',
$value, $matches)) {
                // Convert value to number
                $value = $matches[2] / $matches[3];
                if ($matches[1] == '-') {
                    $value = 0 - $value;
                }
                $cell->setValueExplicit((float) $value,
DataType::TYPE_NUMERIC);
                // Set style
               
$cell->getWorksheet()->getStyle($cell->getCoordinate())
                   
->getNumberFormat()->setFormatCode('??/??');

                return true;
            } elseif (preg_match('/^([+-]?)(\d*)
+(\d*)\s?\/\s*(\d*)$/', $value, $matches)) {
                // Convert value to number
                $value = $matches[2] + ($matches[3] / $matches[4]);
                if ($matches[1] == '-') {
                    $value = 0 - $value;
                }
                $cell->setValueExplicit((float) $value,
DataType::TYPE_NUMERIC);
                // Set style
               
$cell->getWorksheet()->getStyle($cell->getCoordinate())
                    ->getNumberFormat()->setFormatCode('#
??/??');

                return true;
            }

            // Check for percentage
            if (preg_match('/^\-?\d*\.?\d*\s?\%$/', $value)) {
                // Convert value to number
                $value = (float) str_replace('%', '',
$value) / 100;
                $cell->setValueExplicit($value, DataType::TYPE_NUMERIC);
                // Set style
               
$cell->getWorksheet()->getStyle($cell->getCoordinate())
                   
->getNumberFormat()->setFormatCode(NumberFormat::FORMAT_PERCENTAGE_00);

                return true;
            }

            // Check for currency
            $currencyCode = StringHelper::getCurrencyCode();
            $decimalSeparator = StringHelper::getDecimalSeparator();
            $thousandsSeparator = StringHelper::getThousandsSeparator();
            if (preg_match('/^' . preg_quote($currencyCode,
'/') . ' *(\d{1,3}(' . preg_quote($thousandsSeparator,
'/') . '\d{3})*|(\d+))(' .
preg_quote($decimalSeparator, '/') . '\d{2})?$/',
$value)) {
                // Convert value to number
                $value = (float) trim(str_replace([$currencyCode,
$thousandsSeparator, $decimalSeparator], ['', '',
'.'], $value));
                $cell->setValueExplicit($value, DataType::TYPE_NUMERIC);
                // Set style
               
$cell->getWorksheet()->getStyle($cell->getCoordinate())
                    ->getNumberFormat()->setFormatCode(
                        str_replace('$', $currencyCode,
NumberFormat::FORMAT_CURRENCY_USD_SIMPLE)
                    );

                return true;
            } elseif (preg_match('/^\$
*(\d{1,3}(\,\d{3})*|(\d+))(\.\d{2})?$/', $value)) {
                // Convert value to number
                $value = (float) trim(str_replace(['$',
','], '', $value));
                $cell->setValueExplicit($value, DataType::TYPE_NUMERIC);
                // Set style
               
$cell->getWorksheet()->getStyle($cell->getCoordinate())
                   
->getNumberFormat()->setFormatCode(NumberFormat::FORMAT_CURRENCY_USD_SIMPLE);

                return true;
            }

            // Check for time without seconds e.g. '9:45',
'09:45'
            if (preg_match('/^(\d|[0-1]\d|2[0-3]):[0-5]\d$/',
$value)) {
                // Convert value to number
                [$h, $m] = explode(':', $value);
                $days = $h / 24 + $m / 1440;
                $cell->setValueExplicit($days, DataType::TYPE_NUMERIC);
                // Set style
               
$cell->getWorksheet()->getStyle($cell->getCoordinate())
                   
->getNumberFormat()->setFormatCode(NumberFormat::FORMAT_DATE_TIME3);

                return true;
            }

            // Check for time with seconds '9:45:59',
'09:45:59'
            if
(preg_match('/^(\d|[0-1]\d|2[0-3]):[0-5]\d:[0-5]\d$/', $value)) {
                // Convert value to number
                [$h, $m, $s] = explode(':', $value);
                $days = $h / 24 + $m / 1440 + $s / 86400;
                // Convert value to number
                $cell->setValueExplicit($days, DataType::TYPE_NUMERIC);
                // Set style
               
$cell->getWorksheet()->getStyle($cell->getCoordinate())
                   
->getNumberFormat()->setFormatCode(NumberFormat::FORMAT_DATE_TIME4);

                return true;
            }

            // Check for datetime, e.g. '2008-12-31',
'2008-12-31 15:59', '2008-12-31 15:59:10'
            if (($d = Date::stringToExcel($value)) !== false) {
                // Convert value to number
                $cell->setValueExplicit($d, DataType::TYPE_NUMERIC);
                // Determine style. Either there is a time part or not.
Look for ':'
                if (strpos($value, ':') !== false) {
                    $formatCode = 'yyyy-mm-dd h:mm';
                } else {
                    $formatCode = 'yyyy-mm-dd';
                }
               
$cell->getWorksheet()->getStyle($cell->getCoordinate())
                    ->getNumberFormat()->setFormatCode($formatCode);

                return true;
            }

            // Check for newline character "\n"
            if (strpos($value, "\n") !== false) {
                $value = StringHelper::sanitizeUTF8($value);
                $cell->setValueExplicit($value, DataType::TYPE_STRING);
                // Set style
               
$cell->getWorksheet()->getStyle($cell->getCoordinate())
                    ->getAlignment()->setWrapText(true);

                return true;
            }
        }

        // Not bound yet? Use parent...
        return parent::bindValue($cell, $value);
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Cell/Cell.php000064400000041047151165413770021020
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Cell;

use PhpOffice\PhpSpreadsheet\Calculation\Calculation;
use PhpOffice\PhpSpreadsheet\Collection\Cells;
use PhpOffice\PhpSpreadsheet\Exception;
use PhpOffice\PhpSpreadsheet\RichText\RichText;
use PhpOffice\PhpSpreadsheet\Style\NumberFormat;
use PhpOffice\PhpSpreadsheet\Style\Style;
use PhpOffice\PhpSpreadsheet\Worksheet\Worksheet;

class Cell
{
    /**
     * Value binder to use.
     *
     * @var IValueBinder
     */
    private static $valueBinder;

    /**
     * Value of the cell.
     *
     * @var mixed
     */
    private $value;

    /**
     *    Calculated value of the cell (used for caching)
     *    This returns the value last calculated by MS Excel or whichever
spreadsheet program was used to
     *        create the original spreadsheet file.
     *    Note that this value is not guaranteed to reflect the actual
calculated value because it is
     *        possible that auto-calculation was disabled in the original
spreadsheet, and underlying data
     *        values used by the formula have changed since it was last
calculated.
     *
     * @var mixed
     */
    private $calculatedValue;

    /**
     * Type of the cell data.
     *
     * @var string
     */
    private $dataType;

    /**
     * Collection of cells.
     *
     * @var Cells
     */
    private $parent;

    /**
     * Index to cellXf.
     *
     * @var int
     */
    private $xfIndex = 0;

    /**
     * Attributes of the formula.
     */
    private $formulaAttributes;

    /**
     * Update the cell into the cell collection.
     *
     * @return $this
     */
    public function updateInCollection()
    {
        $this->parent->update($this);

        return $this;
    }

    public function detach()
    {
        $this->parent = null;
    }

    public function attach(Cells $parent)
    {
        $this->parent = $parent;
    }

    /**
     * Create a new Cell.
     *
     * @param mixed $pValue
     * @param string $pDataType
     * @param Worksheet $pSheet
     *
     * @throws Exception
     */
    public function __construct($pValue, $pDataType, Worksheet $pSheet)
    {
        // Initialise cell value
        $this->value = $pValue;

        // Set worksheet cache
        $this->parent = $pSheet->getCellCollection();

        // Set datatype?
        if ($pDataType !== null) {
            if ($pDataType == DataType::TYPE_STRING2) {
                $pDataType = DataType::TYPE_STRING;
            }
            $this->dataType = $pDataType;
        } elseif (!self::getValueBinder()->bindValue($this, $pValue)) {
            throw new Exception('Value could not be bound to
cell.');
        }
    }

    /**
     * Get cell coordinate column.
     *
     * @return string
     */
    public function getColumn()
    {
        return $this->parent->getCurrentColumn();
    }

    /**
     * Get cell coordinate row.
     *
     * @return int
     */
    public function getRow()
    {
        return $this->parent->getCurrentRow();
    }

    /**
     * Get cell coordinate.
     *
     * @return string
     */
    public function getCoordinate()
    {
        return $this->parent->getCurrentCoordinate();
    }

    /**
     * Get cell value.
     *
     * @return mixed
     */
    public function getValue()
    {
        return $this->value;
    }

    /**
     * Get cell value with formatting.
     *
     * @return string
     */
    public function getFormattedValue()
    {
        return (string) NumberFormat::toFormattedString(
            $this->getCalculatedValue(),
            $this->getStyle()
                ->getNumberFormat()->getFormatCode()
        );
    }

    /**
     * Set cell value.
     *
     *    Sets the value for a cell, automatically determining the datatype
using the value binder
     *
     * @param mixed $pValue Value
     *
     * @throws Exception
     *
     * @return $this
     */
    public function setValue($pValue)
    {
        if (!self::getValueBinder()->bindValue($this, $pValue)) {
            throw new Exception('Value could not be bound to
cell.');
        }

        return $this;
    }

    /**
     * Set the value for a cell, with the explicit data type passed to the
method (bypassing any use of the value binder).
     *
     * @param mixed $pValue Value
     * @param string $pDataType Explicit data type, see DataType::TYPE_*
     *
     * @throws Exception
     *
     * @return Cell
     */
    public function setValueExplicit($pValue, $pDataType)
    {
        // set the value according to data type
        switch ($pDataType) {
            case DataType::TYPE_NULL:
                $this->value = $pValue;

                break;
            case DataType::TYPE_STRING2:
                $pDataType = DataType::TYPE_STRING;
                // no break
            case DataType::TYPE_STRING:
                // Synonym for string
            case DataType::TYPE_INLINE:
                // Rich text
                $this->value = DataType::checkString($pValue);

                break;
            case DataType::TYPE_NUMERIC:
                if (is_string($pValue) && !is_numeric($pValue)) {
                    throw new Exception('Invalid numeric value for
datatype Numeric');
                }
                $this->value = 0 + $pValue;

                break;
            case DataType::TYPE_FORMULA:
                $this->value = (string) $pValue;

                break;
            case DataType::TYPE_BOOL:
                $this->value = (bool) $pValue;

                break;
            case DataType::TYPE_ERROR:
                $this->value = DataType::checkErrorCode($pValue);

                break;
            default:
                throw new Exception('Invalid datatype: ' .
$pDataType);

                break;
        }

        // set the datatype
        $this->dataType = $pDataType;

        return $this->updateInCollection();
    }

    /**
     * Get calculated cell value.
     *
     * @param bool $resetLog Whether the calculation engine logger should
be reset or not
     *
     * @throws Exception
     *
     * @return mixed
     */
    public function getCalculatedValue($resetLog = true)
    {
        if ($this->dataType == DataType::TYPE_FORMULA) {
            try {
                $result = Calculation::getInstance(
                    $this->getWorksheet()->getParent()
                )->calculateCellValue($this, $resetLog);
                //    We don't yet handle array returns
                if (is_array($result)) {
                    while (is_array($result)) {
                        $result = array_pop($result);
                    }
                }
            } catch (Exception $ex) {
                if (($ex->getMessage() === 'Unable to access
External Workbook') && ($this->calculatedValue !== null)) {
                    return $this->calculatedValue; // Fallback for
calculations referencing external files.
                }

                throw new \PhpOffice\PhpSpreadsheet\Calculation\Exception(
                    $this->getWorksheet()->getTitle() . '!'
. $this->getCoordinate() . ' -> ' . $ex->getMessage()
                );
            }

            if ($result === '#Not Yet Implemented') {
                return $this->calculatedValue; // Fallback if
calculation engine does not support the formula.
            }

            return $result;
        } elseif ($this->value instanceof RichText) {
            return $this->value->getPlainText();
        }

        return $this->value;
    }

    /**
     * Set old calculated value (cached).
     *
     * @param mixed $pValue Value
     *
     * @return Cell
     */
    public function setCalculatedValue($pValue)
    {
        if ($pValue !== null) {
            $this->calculatedValue = (is_numeric($pValue)) ? (float)
$pValue : $pValue;
        }

        return $this->updateInCollection();
    }

    /**
     *    Get old calculated value (cached)
     *    This returns the value last calculated by MS Excel or whichever
spreadsheet program was used to
     *        create the original spreadsheet file.
     *    Note that this value is not guaranteed to reflect the actual
calculated value because it is
     *        possible that auto-calculation was disabled in the original
spreadsheet, and underlying data
     *        values used by the formula have changed since it was last
calculated.
     *
     * @return mixed
     */
    public function getOldCalculatedValue()
    {
        return $this->calculatedValue;
    }

    /**
     * Get cell data type.
     *
     * @return string
     */
    public function getDataType()
    {
        return $this->dataType;
    }

    /**
     * Set cell data type.
     *
     * @param string $pDataType see DataType::TYPE_*
     *
     * @return Cell
     */
    public function setDataType($pDataType)
    {
        if ($pDataType == DataType::TYPE_STRING2) {
            $pDataType = DataType::TYPE_STRING;
        }
        $this->dataType = $pDataType;

        return $this->updateInCollection();
    }

    /**
     * Identify if the cell contains a formula.
     *
     * @return bool
     */
    public function isFormula()
    {
        return $this->dataType == DataType::TYPE_FORMULA;
    }

    /**
     *    Does this cell contain Data validation rules?
     *
     * @throws Exception
     *
     * @return bool
     */
    public function hasDataValidation()
    {
        if (!isset($this->parent)) {
            throw new Exception('Cannot check for data validation when
cell is not bound to a worksheet');
        }

        return
$this->getWorksheet()->dataValidationExists($this->getCoordinate());
    }

    /**
     * Get Data validation rules.
     *
     * @throws Exception
     *
     * @return DataValidation
     */
    public function getDataValidation()
    {
        if (!isset($this->parent)) {
            throw new Exception('Cannot get data validation for cell
that is not bound to a worksheet');
        }

        return
$this->getWorksheet()->getDataValidation($this->getCoordinate());
    }

    /**
     * Set Data validation rules.
     *
     * @param DataValidation $pDataValidation
     *
     * @throws Exception
     *
     * @return Cell
     */
    public function setDataValidation(DataValidation $pDataValidation =
null)
    {
        if (!isset($this->parent)) {
            throw new Exception('Cannot set data validation for cell
that is not bound to a worksheet');
        }

       
$this->getWorksheet()->setDataValidation($this->getCoordinate(),
$pDataValidation);

        return $this->updateInCollection();
    }

    /**
     * Does this cell contain valid value?
     *
     * @return bool
     */
    public function hasValidValue()
    {
        $validator = new DataValidator();

        return $validator->isValid($this);
    }

    /**
     * Does this cell contain a Hyperlink?
     *
     * @throws Exception
     *
     * @return bool
     */
    public function hasHyperlink()
    {
        if (!isset($this->parent)) {
            throw new Exception('Cannot check for hyperlink when cell
is not bound to a worksheet');
        }

        return
$this->getWorksheet()->hyperlinkExists($this->getCoordinate());
    }

    /**
     * Get Hyperlink.
     *
     * @throws Exception
     *
     * @return Hyperlink
     */
    public function getHyperlink()
    {
        if (!isset($this->parent)) {
            throw new Exception('Cannot get hyperlink for cell that is
not bound to a worksheet');
        }

        return
$this->getWorksheet()->getHyperlink($this->getCoordinate());
    }

    /**
     * Set Hyperlink.
     *
     * @param Hyperlink $pHyperlink
     *
     * @throws Exception
     *
     * @return Cell
     */
    public function setHyperlink(Hyperlink $pHyperlink = null)
    {
        if (!isset($this->parent)) {
            throw new Exception('Cannot set hyperlink for cell that is
not bound to a worksheet');
        }

       
$this->getWorksheet()->setHyperlink($this->getCoordinate(),
$pHyperlink);

        return $this->updateInCollection();
    }

    /**
     * Get cell collection.
     *
     * @return Cells
     */
    public function getParent()
    {
        return $this->parent;
    }

    /**
     * Get parent worksheet.
     *
     * @return Worksheet
     */
    public function getWorksheet()
    {
        return $this->parent->getParent();
    }

    /**
     * Is this cell in a merge range.
     *
     * @return bool
     */
    public function isInMergeRange()
    {
        return (bool) $this->getMergeRange();
    }

    /**
     * Is this cell the master (top left cell) in a merge range (that holds
the actual data value).
     *
     * @return bool
     */
    public function isMergeRangeValueCell()
    {
        if ($mergeRange = $this->getMergeRange()) {
            $mergeRange = Coordinate::splitRange($mergeRange);
            [$startCell] = $mergeRange[0];
            if ($this->getCoordinate() === $startCell) {
                return true;
            }
        }

        return false;
    }

    /**
     * If this cell is in a merge range, then return the range.
     *
     * @return false|string
     */
    public function getMergeRange()
    {
        foreach ($this->getWorksheet()->getMergeCells() as
$mergeRange) {
            if ($this->isInRange($mergeRange)) {
                return $mergeRange;
            }
        }

        return false;
    }

    /**
     * Get cell style.
     *
     * @return Style
     */
    public function getStyle()
    {
        return
$this->getWorksheet()->getStyle($this->getCoordinate());
    }

    /**
     * Re-bind parent.
     *
     * @param Worksheet $parent
     *
     * @return Cell
     */
    public function rebindParent(Worksheet $parent)
    {
        $this->parent = $parent->getCellCollection();

        return $this->updateInCollection();
    }

    /**
     *    Is cell in a specific range?
     *
     * @param string $pRange Cell range (e.g. A1:A1)
     *
     * @return bool
     */
    public function isInRange($pRange)
    {
        [$rangeStart, $rangeEnd] = Coordinate::rangeBoundaries($pRange);

        // Translate properties
        $myColumn =
Coordinate::columnIndexFromString($this->getColumn());
        $myRow = $this->getRow();

        // Verify if cell is in range
        return ($rangeStart[0] <= $myColumn) && ($rangeEnd[0]
>= $myColumn) &&
                ($rangeStart[1] <= $myRow) && ($rangeEnd[1]
>= $myRow);
    }

    /**
     * Compare 2 cells.
     *
     * @param Cell $a Cell a
     * @param Cell $b Cell b
     *
     * @return int Result of comparison (always -1 or 1, never zero!)
     */
    public static function compareCells(self $a, self $b)
    {
        if ($a->getRow() < $b->getRow()) {
            return -1;
        } elseif ($a->getRow() > $b->getRow()) {
            return 1;
        } elseif (Coordinate::columnIndexFromString($a->getColumn())
< Coordinate::columnIndexFromString($b->getColumn())) {
            return -1;
        }

        return 1;
    }

    /**
     * Get value binder to use.
     *
     * @return IValueBinder
     */
    public static function getValueBinder()
    {
        if (self::$valueBinder === null) {
            self::$valueBinder = new DefaultValueBinder();
        }

        return self::$valueBinder;
    }

    /**
     * Set value binder to use.
     *
     * @param IValueBinder $binder
     */
    public static function setValueBinder(IValueBinder $binder)
    {
        self::$valueBinder = $binder;
    }

    /**
     * Implement PHP __clone to create a deep clone, not just a shallow
copy.
     */
    public function __clone()
    {
        $vars = get_object_vars($this);
        foreach ($vars as $key => $value) {
            if ((is_object($value)) && ($key !=
'parent')) {
                $this->$key = clone $value;
            } else {
                $this->$key = $value;
            }
        }
    }

    /**
     * Get index to cellXf.
     *
     * @return int
     */
    public function getXfIndex()
    {
        return $this->xfIndex;
    }

    /**
     * Set index to cellXf.
     *
     * @param int $pValue
     *
     * @return Cell
     */
    public function setXfIndex($pValue)
    {
        $this->xfIndex = $pValue;

        return $this->updateInCollection();
    }

    /**
     * Set the formula attributes.
     *
     * @param mixed $pAttributes
     *
     * @return $this
     */
    public function setFormulaAttributes($pAttributes)
    {
        $this->formulaAttributes = $pAttributes;

        return $this;
    }

    /**
     * Get the formula attributes.
     */
    public function getFormulaAttributes()
    {
        return $this->formulaAttributes;
    }

    /**
     * Convert to string.
     *
     * @return string
     */
    public function __toString()
    {
        return (string) $this->getValue();
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Cell/Coordinate.php000064400000042165151165413770022232
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Cell;

use PhpOffice\PhpSpreadsheet\Exception;
use PhpOffice\PhpSpreadsheet\Worksheet\Worksheet;

/**
 * Helper class to manipulate cell coordinates.
 *
 * Columns indexes and rows are always based on 1, **not** on 0. This match
the behavior
 * that Excel users are used to, and also match the Excel functions
`COLUMN()` and `ROW()`.
 */
abstract class Coordinate
{
    /**
     * Default range variable constant.
     *
     * @var string
     */
    const DEFAULT_RANGE = 'A1:A1';

    /**
     * Coordinate from string.
     *
     * @param string $pCoordinateString eg: 'A1'
     *
     * @throws Exception
     *
     * @return string[] Array containing column and row (indexes 0 and 1)
     */
    public static function coordinateFromString($pCoordinateString)
    {
        if (preg_match('/^([$]?[A-Z]{1,3})([$]?\\d{1,7})$/',
$pCoordinateString, $matches)) {
            return [$matches[1], $matches[2]];
        } elseif (self::coordinateIsRange($pCoordinateString)) {
            throw new Exception('Cell coordinate string can not be a
range of cells');
        } elseif ($pCoordinateString == '') {
            throw new Exception('Cell coordinate can not be
zero-length string');
        }

        throw new Exception('Invalid cell coordinate ' .
$pCoordinateString);
    }

    /**
     * Checks if a coordinate represents a range of cells.
     *
     * @param string $coord eg: 'A1' or 'A1:A2' or
'A1:A2,C1:C2'
     *
     * @return bool Whether the coordinate represents a range of cells
     */
    public static function coordinateIsRange($coord)
    {
        return (strpos($coord, ':') !== false) || (strpos($coord,
',') !== false);
    }

    /**
     * Make string row, column or cell coordinate absolute.
     *
     * @param string $pCoordinateString e.g. 'A' or '1'
or 'A1'
     *                    Note that this value can be a row or column
reference as well as a cell reference
     *
     * @throws Exception
     *
     * @return string Absolute coordinate        e.g. '$A' or
'$1' or '$A$1'
     */
    public static function absoluteReference($pCoordinateString)
    {
        if (self::coordinateIsRange($pCoordinateString)) {
            throw new Exception('Cell coordinate string can not be a
range of cells');
        }

        // Split out any worksheet name from the reference
        [$worksheet, $pCoordinateString] =
Worksheet::extractSheetTitle($pCoordinateString, true);
        if ($worksheet > '') {
            $worksheet .= '!';
        }

        // Create absolute coordinate
        if (ctype_digit($pCoordinateString)) {
            return $worksheet . '$' . $pCoordinateString;
        } elseif (ctype_alpha($pCoordinateString)) {
            return $worksheet . '$' .
strtoupper($pCoordinateString);
        }

        return $worksheet . self::absoluteCoordinate($pCoordinateString);
    }

    /**
     * Make string coordinate absolute.
     *
     * @param string $pCoordinateString e.g. 'A1'
     *
     * @throws Exception
     *
     * @return string Absolute coordinate        e.g. '$A$1'
     */
    public static function absoluteCoordinate($pCoordinateString)
    {
        if (self::coordinateIsRange($pCoordinateString)) {
            throw new Exception('Cell coordinate string can not be a
range of cells');
        }

        // Split out any worksheet name from the coordinate
        [$worksheet, $pCoordinateString] =
Worksheet::extractSheetTitle($pCoordinateString, true);
        if ($worksheet > '') {
            $worksheet .= '!';
        }

        // Create absolute coordinate
        [$column, $row] = self::coordinateFromString($pCoordinateString);
        $column = ltrim($column, '$');
        $row = ltrim($row, '$');

        return $worksheet . '$' . $column . '$' . $row;
    }

    /**
     * Split range into coordinate strings.
     *
     * @param string $pRange e.g. 'B4:D9' or
'B4:D9,H2:O11' or 'B4'
     *
     * @return array Array containing one or more arrays containing one or
two coordinate strings
     *                                e.g. ['B4','D9']
or [['B4','D9'], ['H2','O11']]
     *                                        or ['B4']
     */
    public static function splitRange($pRange)
    {
        // Ensure $pRange is a valid range
        if (empty($pRange)) {
            $pRange = self::DEFAULT_RANGE;
        }

        $exploded = explode(',', $pRange);
        $counter = count($exploded);
        for ($i = 0; $i < $counter; ++$i) {
            $exploded[$i] = explode(':', $exploded[$i]);
        }

        return $exploded;
    }

    /**
     * Build range from coordinate strings.
     *
     * @param array $pRange Array containg one or more arrays containing
one or two coordinate strings
     *
     * @throws Exception
     *
     * @return string String representation of $pRange
     */
    public static function buildRange(array $pRange)
    {
        // Verify range
        if (empty($pRange) || !is_array($pRange[0])) {
            throw new Exception('Range does not contain any
information');
        }

        // Build range
        $counter = count($pRange);
        for ($i = 0; $i < $counter; ++$i) {
            $pRange[$i] = implode(':', $pRange[$i]);
        }

        return implode(',', $pRange);
    }

    /**
     * Calculate range boundaries.
     *
     * @param string $pRange Cell range (e.g. A1:A1)
     *
     * @return array Range coordinates [Start Cell, End Cell]
     *                    where Start Cell and End Cell are arrays (Column
Number, Row Number)
     */
    public static function rangeBoundaries($pRange)
    {
        // Ensure $pRange is a valid range
        if (empty($pRange)) {
            $pRange = self::DEFAULT_RANGE;
        }

        // Uppercase coordinate
        $pRange = strtoupper($pRange);

        // Extract range
        if (strpos($pRange, ':') === false) {
            $rangeA = $rangeB = $pRange;
        } else {
            [$rangeA, $rangeB] = explode(':', $pRange);
        }

        // Calculate range outer borders
        $rangeStart = self::coordinateFromString($rangeA);
        $rangeEnd = self::coordinateFromString($rangeB);

        // Translate column into index
        $rangeStart[0] = self::columnIndexFromString($rangeStart[0]);
        $rangeEnd[0] = self::columnIndexFromString($rangeEnd[0]);

        return [$rangeStart, $rangeEnd];
    }

    /**
     * Calculate range dimension.
     *
     * @param string $pRange Cell range (e.g. A1:A1)
     *
     * @return array Range dimension (width, height)
     */
    public static function rangeDimension($pRange)
    {
        // Calculate range outer borders
        [$rangeStart, $rangeEnd] = self::rangeBoundaries($pRange);

        return [($rangeEnd[0] - $rangeStart[0] + 1), ($rangeEnd[1] -
$rangeStart[1] + 1)];
    }

    /**
     * Calculate range boundaries.
     *
     * @param string $pRange Cell range (e.g. A1:A1)
     *
     * @return array Range coordinates [Start Cell, End Cell]
     *                    where Start Cell and End Cell are arrays [Column
ID, Row Number]
     */
    public static function getRangeBoundaries($pRange)
    {
        // Ensure $pRange is a valid range
        if (empty($pRange)) {
            $pRange = self::DEFAULT_RANGE;
        }

        // Uppercase coordinate
        $pRange = strtoupper($pRange);

        // Extract range
        if (strpos($pRange, ':') === false) {
            $rangeA = $rangeB = $pRange;
        } else {
            [$rangeA, $rangeB] = explode(':', $pRange);
        }

        return [self::coordinateFromString($rangeA),
self::coordinateFromString($rangeB)];
    }

    /**
     * Column index from string.
     *
     * @param string $pString eg 'A'
     *
     * @return int Column index (A = 1)
     */
    public static function columnIndexFromString($pString)
    {
        //    Using a lookup cache adds a slight memory overhead, but
boosts speed
        //    caching using a static within the method is faster than a
class static,
        //        though it's additional memory overhead
        static $indexCache = [];

        if (isset($indexCache[$pString])) {
            return $indexCache[$pString];
        }
        //    It's surprising how costly the strtoupper() and ord()
calls actually are, so we use a lookup array rather than use ord()
        //        and make it case insensitive to get rid of the
strtoupper() as well. Because it's a static, there's no
significant
        //        memory overhead either
        static $columnLookup = [
            'A' => 1, 'B' => 2, 'C'
=> 3, 'D' => 4, 'E' => 5, 'F' =>
6, 'G' => 7, 'H' => 8, 'I' => 9,
'J' => 10, 'K' => 11, 'L' => 12,
'M' => 13,
            'N' => 14, 'O' => 15, 'P'
=> 16, 'Q' => 17, 'R' => 18, 'S'
=> 19, 'T' => 20, 'U' => 21, 'V'
=> 22, 'W' => 23, 'X' => 24, 'Y'
=> 25, 'Z' => 26,
            'a' => 1, 'b' => 2, 'c'
=> 3, 'd' => 4, 'e' => 5, 'f' =>
6, 'g' => 7, 'h' => 8, 'i' => 9,
'j' => 10, 'k' => 11, 'l' => 12,
'm' => 13,
            'n' => 14, 'o' => 15, 'p'
=> 16, 'q' => 17, 'r' => 18, 's'
=> 19, 't' => 20, 'u' => 21, 'v'
=> 22, 'w' => 23, 'x' => 24, 'y'
=> 25, 'z' => 26,
        ];

        //    We also use the language construct isset() rather than the
more costly strlen() function to match the length of $pString
        //        for improved performance
        if (isset($pString[0])) {
            if (!isset($pString[1])) {
                $indexCache[$pString] = $columnLookup[$pString];

                return $indexCache[$pString];
            } elseif (!isset($pString[2])) {
                $indexCache[$pString] = $columnLookup[$pString[0]] * 26 +
$columnLookup[$pString[1]];

                return $indexCache[$pString];
            } elseif (!isset($pString[3])) {
                $indexCache[$pString] = $columnLookup[$pString[0]] * 676 +
$columnLookup[$pString[1]] * 26 + $columnLookup[$pString[2]];

                return $indexCache[$pString];
            }
        }

        throw new Exception('Column string index can not be ' .
((isset($pString[0])) ? 'longer than 3 characters' :
'empty'));
    }

    /**
     * String from column index.
     *
     * @param int $columnIndex Column index (A = 1)
     *
     * @return string
     */
    public static function stringFromColumnIndex($columnIndex)
    {
        static $indexCache = [];

        if (!isset($indexCache[$columnIndex])) {
            $indexValue = $columnIndex;
            $base26 = null;
            do {
                $characterValue = ($indexValue % 26) ?: 26;
                $indexValue = ($indexValue - $characterValue) / 26;
                $base26 = chr($characterValue + 64) . ($base26 ?:
'');
            } while ($indexValue > 0);
            $indexCache[$columnIndex] = $base26;
        }

        return $indexCache[$columnIndex];
    }

    /**
     * Extract all cell references in range, which may be comprised of
multiple cell ranges.
     *
     * @param string $pRange Range (e.g. A1 or A1:C10 or A1:E10 A20:E25)
     *
     * @return array Array containing single cell references
     */
    public static function extractAllCellReferencesInRange($pRange)
    {
        $returnValue = [];

        // Explode spaces
        $cellBlocks = self::getCellBlocksFromRangeString($pRange);
        foreach ($cellBlocks as $cellBlock) {
            $returnValue = array_merge($returnValue,
self::getReferencesForCellBlock($cellBlock));
        }

        //    Sort the result by column and row
        $sortKeys = [];
        foreach (array_unique($returnValue) as $coord) {
            $column = '';
            $row = 0;

            sscanf($coord, '%[A-Z]%d', $column, $row);
            $sortKeys[sprintf('%3s%09d', $column, $row)] =
$coord;
        }
        ksort($sortKeys);

        // Return value
        return array_values($sortKeys);
    }

    /**
     * Get all cell references for an individual cell block.
     *
     * @param string $cellBlock A cell range e.g. A4:B5
     *
     * @return array All individual cells in that range
     */
    private static function getReferencesForCellBlock($cellBlock)
    {
        $returnValue = [];

        // Single cell?
        if (!self::coordinateIsRange($cellBlock)) {
            return (array) $cellBlock;
        }

        // Range...
        $ranges = self::splitRange($cellBlock);
        foreach ($ranges as $range) {
            // Single cell?
            if (!isset($range[1])) {
                $returnValue[] = $range[0];

                continue;
            }

            // Range...
            [$rangeStart, $rangeEnd] = $range;
            [$startColumn, $startRow] =
self::coordinateFromString($rangeStart);
            [$endColumn, $endRow] = self::coordinateFromString($rangeEnd);
            $startColumnIndex = self::columnIndexFromString($startColumn);
            $endColumnIndex = self::columnIndexFromString($endColumn);
            ++$endColumnIndex;

            // Current data
            $currentColumnIndex = $startColumnIndex;
            $currentRow = $startRow;

            self::validateRange($cellBlock, $startColumnIndex,
$endColumnIndex, $currentRow, $endRow);

            // Loop cells
            while ($currentColumnIndex < $endColumnIndex) {
                while ($currentRow <= $endRow) {
                    $returnValue[] =
self::stringFromColumnIndex($currentColumnIndex) . $currentRow;
                    ++$currentRow;
                }
                ++$currentColumnIndex;
                $currentRow = $startRow;
            }
        }

        return $returnValue;
    }

    /**
     * Convert an associative array of single cell coordinates to values to
an associative array
     * of cell ranges to values.  Only adjacent cell coordinates with the
same
     * value will be merged.  If the value is an object, it must implement
the method getHashCode().
     *
     * For example, this function converts:
     *
     *    [ 'A1' => 'x', 'A2' =>
'x', 'A3' => 'x', 'A4' =>
'y' ]
     *
     * to:
     *
     *    [ 'A1:A3' => 'x', 'A4' =>
'y' ]
     *
     * @param array $pCoordCollection associative array mapping coordinates
to values
     *
     * @return array associative array mapping coordinate ranges to valuea
     */
    public static function mergeRangesInCollection(array $pCoordCollection)
    {
        $hashedValues = [];
        $mergedCoordCollection = [];

        foreach ($pCoordCollection as $coord => $value) {
            if (self::coordinateIsRange($coord)) {
                $mergedCoordCollection[$coord] = $value;

                continue;
            }

            [$column, $row] = self::coordinateFromString($coord);
            $row = (int) (ltrim($row, '$'));
            $hashCode = $column . '-' . (is_object($value) ?
$value->getHashCode() : $value);

            if (!isset($hashedValues[$hashCode])) {
                $hashedValues[$hashCode] = (object) [
                    'value' => $value,
                    'col' => $column,
                    'rows' => [$row],
                ];
            } else {
                $hashedValues[$hashCode]->rows[] = $row;
            }
        }

        ksort($hashedValues);

        foreach ($hashedValues as $hashedValue) {
            sort($hashedValue->rows);
            $rowStart = null;
            $rowEnd = null;
            $ranges = [];

            foreach ($hashedValue->rows as $row) {
                if ($rowStart === null) {
                    $rowStart = $row;
                    $rowEnd = $row;
                } elseif ($rowEnd === $row - 1) {
                    $rowEnd = $row;
                } else {
                    if ($rowStart == $rowEnd) {
                        $ranges[] = $hashedValue->col . $rowStart;
                    } else {
                        $ranges[] = $hashedValue->col . $rowStart .
':' . $hashedValue->col . $rowEnd;
                    }

                    $rowStart = $row;
                    $rowEnd = $row;
                }
            }

            if ($rowStart !== null) {
                if ($rowStart == $rowEnd) {
                    $ranges[] = $hashedValue->col . $rowStart;
                } else {
                    $ranges[] = $hashedValue->col . $rowStart .
':' . $hashedValue->col . $rowEnd;
                }
            }

            foreach ($ranges as $range) {
                $mergedCoordCollection[$range] = $hashedValue->value;
            }
        }

        return $mergedCoordCollection;
    }

    /**
     * Get the individual cell blocks from a range string, splitting by
space and removing any $ characters.
     *
     * @param string $pRange
     *
     * @return string[]
     */
    private static function getCellBlocksFromRangeString($pRange)
    {
        return explode(' ', str_replace('$',
'', strtoupper($pRange)));
    }

    /**
     * Check that the given range is valid, i.e. that the start column and
row are not greater than the end column and
     * row.
     *
     * @param string $cellBlock The original range, for displaying a
meaningful error message
     * @param int $startColumnIndex
     * @param int $endColumnIndex
     * @param int $currentRow
     * @param int $endRow
     */
    private static function validateRange($cellBlock, $startColumnIndex,
$endColumnIndex, $currentRow, $endRow)
    {
        if ($startColumnIndex >= $endColumnIndex || $currentRow >
$endRow) {
            throw new Exception('Invalid range: "' .
$cellBlock . '"');
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Cell/DataType.php000064400000003771151165413770021656
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Cell;

use PhpOffice\PhpSpreadsheet\RichText\RichText;
use PhpOffice\PhpSpreadsheet\Shared\StringHelper;

class DataType
{
    // Data types
    const TYPE_STRING2 = 'str';
    const TYPE_STRING = 's';
    const TYPE_FORMULA = 'f';
    const TYPE_NUMERIC = 'n';
    const TYPE_BOOL = 'b';
    const TYPE_NULL = 'null';
    const TYPE_INLINE = 'inlineStr';
    const TYPE_ERROR = 'e';

    /**
     * List of error codes.
     *
     * @var array
     */
    private static $errorCodes = [
        '#NULL!' => 0,
        '#DIV/0!' => 1,
        '#VALUE!' => 2,
        '#REF!' => 3,
        '#NAME?' => 4,
        '#NUM!' => 5,
        '#N/A' => 6,
    ];

    /**
     * Get list of error codes.
     *
     * @return array
     */
    public static function getErrorCodes()
    {
        return self::$errorCodes;
    }

    /**
     * Check a string that it satisfies Excel requirements.
     *
     * @param null|RichText|string $pValue Value to sanitize to an Excel
string
     *
     * @return null|RichText|string Sanitized value
     */
    public static function checkString($pValue)
    {
        if ($pValue instanceof RichText) {
            // TODO: Sanitize Rich-Text string (max. character count is
32,767)
            return $pValue;
        }

        // string must never be longer than 32,767 characters, truncate if
necessary
        $pValue = StringHelper::substring($pValue, 0, 32767);

        // we require that newline is represented as "\n" in
core, not as "\r\n" or "\r"
        $pValue = str_replace(["\r\n", "\r"],
"\n", $pValue);

        return $pValue;
    }

    /**
     * Check a value that it is a valid error code.
     *
     * @param mixed $pValue Value to sanitize to an Excel error code
     *
     * @return string Sanitized value
     */
    public static function checkErrorCode($pValue)
    {
        $pValue = (string) $pValue;

        if (!isset(self::$errorCodes[$pValue])) {
            $pValue = '#NULL!';
        }

        return $pValue;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Cell/DataValidation.php000064400000017561151165413770023031
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Cell;

class DataValidation
{
    // Data validation types
    const TYPE_NONE = 'none';
    const TYPE_CUSTOM = 'custom';
    const TYPE_DATE = 'date';
    const TYPE_DECIMAL = 'decimal';
    const TYPE_LIST = 'list';
    const TYPE_TEXTLENGTH = 'textLength';
    const TYPE_TIME = 'time';
    const TYPE_WHOLE = 'whole';

    // Data validation error styles
    const STYLE_STOP = 'stop';
    const STYLE_WARNING = 'warning';
    const STYLE_INFORMATION = 'information';

    // Data validation operators
    const OPERATOR_BETWEEN = 'between';
    const OPERATOR_EQUAL = 'equal';
    const OPERATOR_GREATERTHAN = 'greaterThan';
    const OPERATOR_GREATERTHANOREQUAL = 'greaterThanOrEqual';
    const OPERATOR_LESSTHAN = 'lessThan';
    const OPERATOR_LESSTHANOREQUAL = 'lessThanOrEqual';
    const OPERATOR_NOTBETWEEN = 'notBetween';
    const OPERATOR_NOTEQUAL = 'notEqual';

    /**
     * Formula 1.
     *
     * @var string
     */
    private $formula1 = '';

    /**
     * Formula 2.
     *
     * @var string
     */
    private $formula2 = '';

    /**
     * Type.
     *
     * @var string
     */
    private $type = self::TYPE_NONE;

    /**
     * Error style.
     *
     * @var string
     */
    private $errorStyle = self::STYLE_STOP;

    /**
     * Operator.
     *
     * @var string
     */
    private $operator = self::OPERATOR_BETWEEN;

    /**
     * Allow Blank.
     *
     * @var bool
     */
    private $allowBlank = false;

    /**
     * Show DropDown.
     *
     * @var bool
     */
    private $showDropDown = false;

    /**
     * Show InputMessage.
     *
     * @var bool
     */
    private $showInputMessage = false;

    /**
     * Show ErrorMessage.
     *
     * @var bool
     */
    private $showErrorMessage = false;

    /**
     * Error title.
     *
     * @var string
     */
    private $errorTitle = '';

    /**
     * Error.
     *
     * @var string
     */
    private $error = '';

    /**
     * Prompt title.
     *
     * @var string
     */
    private $promptTitle = '';

    /**
     * Prompt.
     *
     * @var string
     */
    private $prompt = '';

    /**
     * Create a new DataValidation.
     */
    public function __construct()
    {
    }

    /**
     * Get Formula 1.
     *
     * @return string
     */
    public function getFormula1()
    {
        return $this->formula1;
    }

    /**
     * Set Formula 1.
     *
     * @param string $value
     *
     * @return $this
     */
    public function setFormula1($value)
    {
        $this->formula1 = $value;

        return $this;
    }

    /**
     * Get Formula 2.
     *
     * @return string
     */
    public function getFormula2()
    {
        return $this->formula2;
    }

    /**
     * Set Formula 2.
     *
     * @param string $value
     *
     * @return $this
     */
    public function setFormula2($value)
    {
        $this->formula2 = $value;

        return $this;
    }

    /**
     * Get Type.
     *
     * @return string
     */
    public function getType()
    {
        return $this->type;
    }

    /**
     * Set Type.
     *
     * @param string $value
     *
     * @return $this
     */
    public function setType($value)
    {
        $this->type = $value;

        return $this;
    }

    /**
     * Get Error style.
     *
     * @return string
     */
    public function getErrorStyle()
    {
        return $this->errorStyle;
    }

    /**
     * Set Error style.
     *
     * @param string $value see self::STYLE_*
     *
     * @return $this
     */
    public function setErrorStyle($value)
    {
        $this->errorStyle = $value;

        return $this;
    }

    /**
     * Get Operator.
     *
     * @return string
     */
    public function getOperator()
    {
        return $this->operator;
    }

    /**
     * Set Operator.
     *
     * @param string $value
     *
     * @return $this
     */
    public function setOperator($value)
    {
        $this->operator = $value;

        return $this;
    }

    /**
     * Get Allow Blank.
     *
     * @return bool
     */
    public function getAllowBlank()
    {
        return $this->allowBlank;
    }

    /**
     * Set Allow Blank.
     *
     * @param bool $value
     *
     * @return $this
     */
    public function setAllowBlank($value)
    {
        $this->allowBlank = $value;

        return $this;
    }

    /**
     * Get Show DropDown.
     *
     * @return bool
     */
    public function getShowDropDown()
    {
        return $this->showDropDown;
    }

    /**
     * Set Show DropDown.
     *
     * @param bool $value
     *
     * @return $this
     */
    public function setShowDropDown($value)
    {
        $this->showDropDown = $value;

        return $this;
    }

    /**
     * Get Show InputMessage.
     *
     * @return bool
     */
    public function getShowInputMessage()
    {
        return $this->showInputMessage;
    }

    /**
     * Set Show InputMessage.
     *
     * @param bool $value
     *
     * @return $this
     */
    public function setShowInputMessage($value)
    {
        $this->showInputMessage = $value;

        return $this;
    }

    /**
     * Get Show ErrorMessage.
     *
     * @return bool
     */
    public function getShowErrorMessage()
    {
        return $this->showErrorMessage;
    }

    /**
     * Set Show ErrorMessage.
     *
     * @param bool $value
     *
     * @return $this
     */
    public function setShowErrorMessage($value)
    {
        $this->showErrorMessage = $value;

        return $this;
    }

    /**
     * Get Error title.
     *
     * @return string
     */
    public function getErrorTitle()
    {
        return $this->errorTitle;
    }

    /**
     * Set Error title.
     *
     * @param string $value
     *
     * @return $this
     */
    public function setErrorTitle($value)
    {
        $this->errorTitle = $value;

        return $this;
    }

    /**
     * Get Error.
     *
     * @return string
     */
    public function getError()
    {
        return $this->error;
    }

    /**
     * Set Error.
     *
     * @param string $value
     *
     * @return $this
     */
    public function setError($value)
    {
        $this->error = $value;

        return $this;
    }

    /**
     * Get Prompt title.
     *
     * @return string
     */
    public function getPromptTitle()
    {
        return $this->promptTitle;
    }

    /**
     * Set Prompt title.
     *
     * @param string $value
     *
     * @return $this
     */
    public function setPromptTitle($value)
    {
        $this->promptTitle = $value;

        return $this;
    }

    /**
     * Get Prompt.
     *
     * @return string
     */
    public function getPrompt()
    {
        return $this->prompt;
    }

    /**
     * Set Prompt.
     *
     * @param string $value
     *
     * @return $this
     */
    public function setPrompt($value)
    {
        $this->prompt = $value;

        return $this;
    }

    /**
     * Get hash code.
     *
     * @return string Hash code
     */
    public function getHashCode()
    {
        return md5(
            $this->formula1 .
            $this->formula2 .
            $this->type .
            $this->errorStyle .
            $this->operator .
            ($this->allowBlank ? 't' : 'f') .
            ($this->showDropDown ? 't' : 'f') .
            ($this->showInputMessage ? 't' : 'f') .
            ($this->showErrorMessage ? 't' : 'f') .
            $this->errorTitle .
            $this->error .
            $this->promptTitle .
            $this->prompt .
            __CLASS__
        );
    }

    /**
     * Implement PHP __clone to create a deep clone, not just a shallow
copy.
     */
    public function __clone()
    {
        $vars = get_object_vars($this);
        foreach ($vars as $key => $value) {
            if (is_object($value)) {
                $this->$key = clone $value;
            } else {
                $this->$key = $value;
            }
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Cell/DataValidator.php000064400000004221151165413770022651
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Cell;

use PhpOffice\PhpSpreadsheet\Calculation\Calculation;
use PhpOffice\PhpSpreadsheet\Calculation\Functions;
use PhpOffice\PhpSpreadsheet\Exception;

/**
 * Validate a cell value according to its validation rules.
 */
class DataValidator
{
    /**
     * Does this cell contain valid value?
     *
     * @param Cell $cell Cell to check the value
     *
     * @return bool
     */
    public function isValid(Cell $cell)
    {
        if (!$cell->hasDataValidation()) {
            return true;
        }

        $cellValue = $cell->getValue();
        $dataValidation = $cell->getDataValidation();

        if (!$dataValidation->getAllowBlank() && ($cellValue ===
null || $cellValue === '')) {
            return false;
        }

        // TODO: write check on all cases
        switch ($dataValidation->getType()) {
            case DataValidation::TYPE_LIST:
                return $this->isValueInList($cell);
        }

        return false;
    }

    /**
     * Does this cell contain valid value, based on list?
     *
     * @param Cell $cell Cell to check the value
     *
     * @return bool
     */
    private function isValueInList(Cell $cell)
    {
        $cellValue = $cell->getValue();
        $dataValidation = $cell->getDataValidation();

        $formula1 = $dataValidation->getFormula1();
        if (!empty($formula1)) {
            // inline values list
            if ($formula1[0] === '"') {
                return in_array(strtolower($cellValue),
explode(',', strtolower(trim($formula1, '"'))),
true);
            } elseif (strpos($formula1, ':') > 0) {
                // values list cells
                $matchFormula = '=MATCH(' .
$cell->getCoordinate() . ', ' . $formula1 . ', 0)';
                $calculation =
Calculation::getInstance($cell->getWorksheet()->getParent());

                try {
                    $result =
$calculation->calculateFormula($matchFormula, $cell->getCoordinate(),
$cell);

                    return $result !== Functions::NA();
                } catch (Exception $ex) {
                    return false;
                }
            }
        }

        return true;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Cell/DefaultValueBinder.php000064400000005103151165413770023637
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Cell;

use DateTimeInterface;
use PhpOffice\PhpSpreadsheet\RichText\RichText;
use PhpOffice\PhpSpreadsheet\Shared\StringHelper;

class DefaultValueBinder implements IValueBinder
{
    /**
     * Bind value to a cell.
     *
     * @param Cell $cell Cell to bind value to
     * @param mixed $value Value to bind in cell
     *
     * @throws \PhpOffice\PhpSpreadsheet\Exception
     *
     * @return bool
     */
    public function bindValue(Cell $cell, $value)
    {
        // sanitize UTF-8 strings
        if (is_string($value)) {
            $value = StringHelper::sanitizeUTF8($value);
        } elseif (is_object($value)) {
            // Handle any objects that might be injected
            if ($value instanceof DateTimeInterface) {
                $value = $value->format('Y-m-d H:i:s');
            } elseif (!($value instanceof RichText)) {
                $value = (string) $value;
            }
        }

        // Set value explicit
        $cell->setValueExplicit($value,
static::dataTypeForValue($value));

        // Done!
        return true;
    }

    /**
     * DataType for value.
     *
     * @param mixed $pValue
     *
     * @return string
     */
    public static function dataTypeForValue($pValue)
    {
        // Match the value against a few data types
        if ($pValue === null) {
            return DataType::TYPE_NULL;
        } elseif (is_float($pValue) || is_int($pValue)) {
            return DataType::TYPE_NUMERIC;
        } elseif (is_bool($pValue)) {
            return DataType::TYPE_BOOL;
        } elseif ($pValue === '') {
            return DataType::TYPE_STRING;
        } elseif ($pValue instanceof RichText) {
            return DataType::TYPE_INLINE;
        } elseif (is_string($pValue) && $pValue[0] ===
'=' && strlen($pValue) > 1) {
            return DataType::TYPE_FORMULA;
        } elseif
(preg_match('/^[\+\-]?(\d+\\.?\d*|\d*\\.?\d+)([Ee][\-\+]?[0-2]?\d{1,3})?$/',
$pValue)) {
            $tValue = ltrim($pValue, '+-');
            if (is_string($pValue) && $tValue[0] === '0'
&& strlen($tValue) > 1 && $tValue[1] !== '.')
{
                return DataType::TYPE_STRING;
            } elseif ((strpos($pValue, '.') === false) &&
($pValue > PHP_INT_MAX)) {
                return DataType::TYPE_STRING;
            }

            return DataType::TYPE_NUMERIC;
        } elseif (is_string($pValue)) {
            $errorCodes = DataType::getErrorCodes();
            if (isset($errorCodes[$pValue])) {
                return DataType::TYPE_ERROR;
            }
        }

        return DataType::TYPE_STRING;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Cell/Hyperlink.php000064400000003520151165413770022100
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Cell;

class Hyperlink
{
    /**
     * URL to link the cell to.
     *
     * @var string
     */
    private $url;

    /**
     * Tooltip to display on the hyperlink.
     *
     * @var string
     */
    private $tooltip;

    /**
     * Create a new Hyperlink.
     *
     * @param string $pUrl Url to link the cell to
     * @param string $pTooltip Tooltip to display on the hyperlink
     */
    public function __construct($pUrl = '', $pTooltip =
'')
    {
        // Initialise member variables
        $this->url = $pUrl;
        $this->tooltip = $pTooltip;
    }

    /**
     * Get URL.
     *
     * @return string
     */
    public function getUrl()
    {
        return $this->url;
    }

    /**
     * Set URL.
     *
     * @param string $value
     *
     * @return $this
     */
    public function setUrl($value)
    {
        $this->url = $value;

        return $this;
    }

    /**
     * Get tooltip.
     *
     * @return string
     */
    public function getTooltip()
    {
        return $this->tooltip;
    }

    /**
     * Set tooltip.
     *
     * @param string $value
     *
     * @return $this
     */
    public function setTooltip($value)
    {
        $this->tooltip = $value;

        return $this;
    }

    /**
     * Is this hyperlink internal? (to another worksheet).
     *
     * @return bool
     */
    public function isInternal()
    {
        return strpos($this->url, 'sheet://') !== false;
    }

    /**
     * @return string
     */
    public function getTypeHyperlink()
    {
        return $this->isInternal() ? '' :
'External';
    }

    /**
     * Get hash code.
     *
     * @return string Hash code
     */
    public function getHashCode()
    {
        return md5(
            $this->url .
            $this->tooltip .
            __CLASS__
        );
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Cell/IValueBinder.php000064400000000456151165413770022451
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Cell;

interface IValueBinder
{
    /**
     * Bind value to a cell.
     *
     * @param Cell $cell Cell to bind value to
     * @param mixed $value Value to bind in cell
     *
     * @return bool
     */
    public function bindValue(Cell $cell, $value);
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Cell/StringValueBinder.php000064400000001266151165413770023527
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Cell;

use PhpOffice\PhpSpreadsheet\Shared\StringHelper;

class StringValueBinder implements IValueBinder
{
    /**
     * Bind value to a cell.
     *
     * @param Cell $cell Cell to bind value to
     * @param mixed $value Value to bind in cell
     *
     * @throws \PhpOffice\PhpSpreadsheet\Exception
     *
     * @return bool
     */
    public function bindValue(Cell $cell, $value)
    {
        // sanitize UTF-8 strings
        if (is_string($value)) {
            $value = StringHelper::sanitizeUTF8($value);
        }

        $cell->setValueExplicit((string) $value, DataType::TYPE_STRING);

        // Done!
        return true;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Chart/Axis.php000064400000036160151165413770021227
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Chart;

/**
 * Created by PhpStorm.
 * User: Wiktor Trzonkowski
 * Date: 6/17/14
 * Time: 12:11 PM.
 */
class Axis extends Properties
{
    /**
     * Axis Number.
     *
     * @var array of mixed
     */
    private $axisNumber = [
        'format' => self::FORMAT_CODE_GENERAL,
        'source_linked' => 1,
    ];

    /**
     * Axis Options.
     *
     * @var array of mixed
     */
    private $axisOptions = [
        'minimum' => null,
        'maximum' => null,
        'major_unit' => null,
        'minor_unit' => null,
        'orientation' => self::ORIENTATION_NORMAL,
        'minor_tick_mark' => self::TICK_MARK_NONE,
        'major_tick_mark' => self::TICK_MARK_NONE,
        'axis_labels' => self::AXIS_LABELS_NEXT_TO,
        'horizontal_crosses' =>
self::HORIZONTAL_CROSSES_AUTOZERO,
        'horizontal_crosses_value' => null,
    ];

    /**
     * Fill Properties.
     *
     * @var array of mixed
     */
    private $fillProperties = [
        'type' => self::EXCEL_COLOR_TYPE_ARGB,
        'value' => null,
        'alpha' => 0,
    ];

    /**
     * Line Properties.
     *
     * @var array of mixed
     */
    private $lineProperties = [
        'type' => self::EXCEL_COLOR_TYPE_ARGB,
        'value' => null,
        'alpha' => 0,
    ];

    /**
     * Line Style Properties.
     *
     * @var array of mixed
     */
    private $lineStyleProperties = [
        'width' => '9525',
        'compound' => self::LINE_STYLE_COMPOUND_SIMPLE,
        'dash' => self::LINE_STYLE_DASH_SOLID,
        'cap' => self::LINE_STYLE_CAP_FLAT,
        'join' => self::LINE_STYLE_JOIN_BEVEL,
        'arrow' => [
            'head' => [
                'type' => self::LINE_STYLE_ARROW_TYPE_NOARROW,
                'size' => self::LINE_STYLE_ARROW_SIZE_5,
            ],
            'end' => [
                'type' => self::LINE_STYLE_ARROW_TYPE_NOARROW,
                'size' => self::LINE_STYLE_ARROW_SIZE_8,
            ],
        ],
    ];

    /**
     * Shadow Properties.
     *
     * @var array of mixed
     */
    private $shadowProperties = [
        'presets' => self::SHADOW_PRESETS_NOSHADOW,
        'effect' => null,
        'color' => [
            'type' => self::EXCEL_COLOR_TYPE_STANDARD,
            'value' => 'black',
            'alpha' => 40,
        ],
        'size' => [
            'sx' => null,
            'sy' => null,
            'kx' => null,
        ],
        'blur' => null,
        'direction' => null,
        'distance' => null,
        'algn' => null,
        'rotWithShape' => null,
    ];

    /**
     * Glow Properties.
     *
     * @var array of mixed
     */
    private $glowProperties = [
        'size' => null,
        'color' => [
            'type' => self::EXCEL_COLOR_TYPE_STANDARD,
            'value' => 'black',
            'alpha' => 40,
        ],
    ];

    /**
     * Soft Edge Properties.
     *
     * @var array of mixed
     */
    private $softEdges = [
        'size' => null,
    ];

    /**
     * Get Series Data Type.
     *
     * @param mixed $format_code
     *
     * @return string
     */
    public function setAxisNumberProperties($format_code)
    {
        $this->axisNumber['format'] = (string) $format_code;
        $this->axisNumber['source_linked'] = 0;
    }

    /**
     * Get Axis Number Format Data Type.
     *
     * @return string
     */
    public function getAxisNumberFormat()
    {
        return $this->axisNumber['format'];
    }

    /**
     * Get Axis Number Source Linked.
     *
     * @return string
     */
    public function getAxisNumberSourceLinked()
    {
        return (string) $this->axisNumber['source_linked'];
    }

    /**
     * Set Axis Options Properties.
     *
     * @param string $axis_labels
     * @param string $horizontal_crosses_value
     * @param string $horizontal_crosses
     * @param string $axis_orientation
     * @param string $major_tmt
     * @param string $minor_tmt
     * @param string $minimum
     * @param string $maximum
     * @param string $major_unit
     * @param string $minor_unit
     */
    public function setAxisOptionsProperties($axis_labels,
$horizontal_crosses_value = null, $horizontal_crosses = null,
$axis_orientation = null, $major_tmt = null, $minor_tmt = null, $minimum =
null, $maximum = null, $major_unit = null, $minor_unit = null)
    {
        $this->axisOptions['axis_labels'] = (string)
$axis_labels;
        ($horizontal_crosses_value !== null) ?
$this->axisOptions['horizontal_crosses_value'] = (string)
$horizontal_crosses_value : null;
        ($horizontal_crosses !== null) ?
$this->axisOptions['horizontal_crosses'] = (string)
$horizontal_crosses : null;
        ($axis_orientation !== null) ?
$this->axisOptions['orientation'] = (string) $axis_orientation
: null;
        ($major_tmt !== null) ?
$this->axisOptions['major_tick_mark'] = (string) $major_tmt :
null;
        ($minor_tmt !== null) ?
$this->axisOptions['minor_tick_mark'] = (string) $minor_tmt :
null;
        ($minor_tmt !== null) ?
$this->axisOptions['minor_tick_mark'] = (string) $minor_tmt :
null;
        ($minimum !== null) ? $this->axisOptions['minimum'] =
(string) $minimum : null;
        ($maximum !== null) ? $this->axisOptions['maximum'] =
(string) $maximum : null;
        ($major_unit !== null) ?
$this->axisOptions['major_unit'] = (string) $major_unit :
null;
        ($minor_unit !== null) ?
$this->axisOptions['minor_unit'] = (string) $minor_unit :
null;
    }

    /**
     * Get Axis Options Property.
     *
     * @param string $property
     *
     * @return string
     */
    public function getAxisOptionsProperty($property)
    {
        return $this->axisOptions[$property];
    }

    /**
     * Set Axis Orientation Property.
     *
     * @param string $orientation
     */
    public function setAxisOrientation($orientation)
    {
        $this->axisOptions['orientation'] = (string)
$orientation;
    }

    /**
     * Set Fill Property.
     *
     * @param string $color
     * @param int $alpha
     * @param string $type
     */
    public function setFillParameters($color, $alpha = 0, $type =
self::EXCEL_COLOR_TYPE_ARGB)
    {
        $this->fillProperties = $this->setColorProperties($color,
$alpha, $type);
    }

    /**
     * Set Line Property.
     *
     * @param string $color
     * @param int $alpha
     * @param string $type
     */
    public function setLineParameters($color, $alpha = 0, $type =
self::EXCEL_COLOR_TYPE_ARGB)
    {
        $this->lineProperties = $this->setColorProperties($color,
$alpha, $type);
    }

    /**
     * Get Fill Property.
     *
     * @param string $property
     *
     * @return string
     */
    public function getFillProperty($property)
    {
        return $this->fillProperties[$property];
    }

    /**
     * Get Line Property.
     *
     * @param string $property
     *
     * @return string
     */
    public function getLineProperty($property)
    {
        return $this->lineProperties[$property];
    }

    /**
     * Set Line Style Properties.
     *
     * @param float $line_width
     * @param string $compound_type
     * @param string $dash_type
     * @param string $cap_type
     * @param string $join_type
     * @param string $head_arrow_type
     * @param string $head_arrow_size
     * @param string $end_arrow_type
     * @param string $end_arrow_size
     */
    public function setLineStyleProperties($line_width = null,
$compound_type = null, $dash_type = null, $cap_type = null, $join_type =
null, $head_arrow_type = null, $head_arrow_size = null, $end_arrow_type =
null, $end_arrow_size = null)
    {
        ($line_width !== null) ?
$this->lineStyleProperties['width'] =
$this->getExcelPointsWidth((float) $line_width) : null;
        ($compound_type !== null) ?
$this->lineStyleProperties['compound'] = (string)
$compound_type : null;
        ($dash_type !== null) ?
$this->lineStyleProperties['dash'] = (string) $dash_type :
null;
        ($cap_type !== null) ?
$this->lineStyleProperties['cap'] = (string) $cap_type : null;
        ($join_type !== null) ?
$this->lineStyleProperties['join'] = (string) $join_type :
null;
        ($head_arrow_type !== null) ?
$this->lineStyleProperties['arrow']['head']['type']
= (string) $head_arrow_type : null;
        ($head_arrow_size !== null) ?
$this->lineStyleProperties['arrow']['head']['size']
= (string) $head_arrow_size : null;
        ($end_arrow_type !== null) ?
$this->lineStyleProperties['arrow']['end']['type']
= (string) $end_arrow_type : null;
        ($end_arrow_size !== null) ?
$this->lineStyleProperties['arrow']['end']['size']
= (string) $end_arrow_size : null;
    }

    /**
     * Get Line Style Property.
     *
     * @param array|string $elements
     *
     * @return string
     */
    public function getLineStyleProperty($elements)
    {
        return
$this->getArrayElementsValue($this->lineStyleProperties, $elements);
    }

    /**
     * Get Line Style Arrow Excel Width.
     *
     * @param string $arrow
     *
     * @return string
     */
    public function getLineStyleArrowWidth($arrow)
    {
        return
$this->getLineStyleArrowSize($this->lineStyleProperties['arrow'][$arrow]['size'],
'w');
    }

    /**
     * Get Line Style Arrow Excel Length.
     *
     * @param string $arrow
     *
     * @return string
     */
    public function getLineStyleArrowLength($arrow)
    {
        return
$this->getLineStyleArrowSize($this->lineStyleProperties['arrow'][$arrow]['size'],
'len');
    }

    /**
     * Set Shadow Properties.
     *
     * @param int $sh_presets
     * @param string $sh_color_value
     * @param string $sh_color_type
     * @param string $sh_color_alpha
     * @param float $sh_blur
     * @param int $sh_angle
     * @param float $sh_distance
     */
    public function setShadowProperties($sh_presets, $sh_color_value =
null, $sh_color_type = null, $sh_color_alpha = null, $sh_blur = null,
$sh_angle = null, $sh_distance = null)
    {
        $this->setShadowPresetsProperties((int) $sh_presets)
            ->setShadowColor(
                $sh_color_value === null ?
$this->shadowProperties['color']['value'] :
$sh_color_value,
                $sh_color_alpha === null ? (int)
$this->shadowProperties['color']['alpha'] :
$sh_color_alpha,
                $sh_color_type === null ?
$this->shadowProperties['color']['type'] :
$sh_color_type
            )
            ->setShadowBlur($sh_blur)
            ->setShadowAngle($sh_angle)
            ->setShadowDistance($sh_distance);
    }

    /**
     * Set Shadow Color.
     *
     * @param int $shadow_presets
     *
     * @return $this
     */
    private function setShadowPresetsProperties($shadow_presets)
    {
        $this->shadowProperties['presets'] = $shadow_presets;
       
$this->setShadowProperiesMapValues($this->getShadowPresetsMap($shadow_presets));

        return $this;
    }

    /**
     * Set Shadow Properties from Mapped Values.
     *
     * @param array $properties_map
     * @param mixed &$reference
     *
     * @return $this
     */
    private function setShadowProperiesMapValues(array $properties_map,
&$reference = null)
    {
        $base_reference = $reference;
        foreach ($properties_map as $property_key => $property_val) {
            if (is_array($property_val)) {
                if ($reference === null) {
                    $reference =
&$this->shadowProperties[$property_key];
                } else {
                    $reference = &$reference[$property_key];
                }
                $this->setShadowProperiesMapValues($property_val,
$reference);
            } else {
                if ($base_reference === null) {
                    $this->shadowProperties[$property_key] =
$property_val;
                } else {
                    $reference[$property_key] = $property_val;
                }
            }
        }

        return $this;
    }

    /**
     * Set Shadow Color.
     *
     * @param string $color
     * @param int $alpha
     * @param string $type
     *
     * @return $this
     */
    private function setShadowColor($color, $alpha, $type)
    {
        $this->shadowProperties['color'] =
$this->setColorProperties($color, $alpha, $type);

        return $this;
    }

    /**
     * Set Shadow Blur.
     *
     * @param float $blur
     *
     * @return $this
     */
    private function setShadowBlur($blur)
    {
        if ($blur !== null) {
            $this->shadowProperties['blur'] = (string)
$this->getExcelPointsWidth($blur);
        }

        return $this;
    }

    /**
     * Set Shadow Angle.
     *
     * @param int $angle
     *
     * @return $this
     */
    private function setShadowAngle($angle)
    {
        if ($angle !== null) {
            $this->shadowProperties['direction'] = (string)
$this->getExcelPointsAngle($angle);
        }

        return $this;
    }

    /**
     * Set Shadow Distance.
     *
     * @param float $distance
     *
     * @return $this
     */
    private function setShadowDistance($distance)
    {
        if ($distance !== null) {
            $this->shadowProperties['distance'] = (string)
$this->getExcelPointsWidth($distance);
        }

        return $this;
    }

    /**
     * Get Shadow Property.
     *
     * @param string|string[] $elements
     *
     * @return null|array|int|string
     */
    public function getShadowProperty($elements)
    {
        return $this->getArrayElementsValue($this->shadowProperties,
$elements);
    }

    /**
     * Set Glow Properties.
     *
     * @param float $size
     * @param string $color_value
     * @param int $color_alpha
     * @param string $color_type
     */
    public function setGlowProperties($size, $color_value = null,
$color_alpha = null, $color_type = null)
    {
        $this->setGlowSize($size)
            ->setGlowColor(
                $color_value === null ?
$this->glowProperties['color']['value'] :
$color_value,
                $color_alpha === null ? (int)
$this->glowProperties['color']['alpha'] :
$color_alpha,
                $color_type === null ?
$this->glowProperties['color']['type'] : $color_type
            );
    }

    /**
     * Get Glow Property.
     *
     * @param array|string $property
     *
     * @return string
     */
    public function getGlowProperty($property)
    {
        return $this->getArrayElementsValue($this->glowProperties,
$property);
    }

    /**
     * Set Glow Color.
     *
     * @param float $size
     *
     * @return $this
     */
    private function setGlowSize($size)
    {
        if ($size !== null) {
            $this->glowProperties['size'] =
$this->getExcelPointsWidth($size);
        }

        return $this;
    }

    /**
     * Set Glow Color.
     *
     * @param string $color
     * @param int $alpha
     * @param string $type
     *
     * @return $this
     */
    private function setGlowColor($color, $alpha, $type)
    {
        $this->glowProperties['color'] =
$this->setColorProperties($color, $alpha, $type);

        return $this;
    }

    /**
     * Set Soft Edges Size.
     *
     * @param float $size
     */
    public function setSoftEdges($size)
    {
        if ($size !== null) {
            $softEdges['size'] = (string)
$this->getExcelPointsWidth($size);
        }
    }

    /**
     * Get Soft Edges Size.
     *
     * @return string
     */
    public function getSoftEdgesSize()
    {
        return $this->softEdges['size'];
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Chart/Chart.php000064400000031522151165413770021361
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Chart;

use PhpOffice\PhpSpreadsheet\Settings;
use PhpOffice\PhpSpreadsheet\Worksheet\Worksheet;

class Chart
{
    /**
     * Chart Name.
     *
     * @var string
     */
    private $name = '';

    /**
     * Worksheet.
     *
     * @var Worksheet
     */
    private $worksheet;

    /**
     * Chart Title.
     *
     * @var Title
     */
    private $title;

    /**
     * Chart Legend.
     *
     * @var Legend
     */
    private $legend;

    /**
     * X-Axis Label.
     *
     * @var Title
     */
    private $xAxisLabel;

    /**
     * Y-Axis Label.
     *
     * @var Title
     */
    private $yAxisLabel;

    /**
     * Chart Plot Area.
     *
     * @var PlotArea
     */
    private $plotArea;

    /**
     * Plot Visible Only.
     *
     * @var bool
     */
    private $plotVisibleOnly = true;

    /**
     * Display Blanks as.
     *
     * @var string
     */
    private $displayBlanksAs = '0';

    /**
     * Chart Asix Y as.
     *
     * @var Axis
     */
    private $yAxis;

    /**
     * Chart Asix X as.
     *
     * @var Axis
     */
    private $xAxis;

    /**
     * Chart Major Gridlines as.
     *
     * @var GridLines
     */
    private $majorGridlines;

    /**
     * Chart Minor Gridlines as.
     *
     * @var GridLines
     */
    private $minorGridlines;

    /**
     * Top-Left Cell Position.
     *
     * @var string
     */
    private $topLeftCellRef = 'A1';

    /**
     * Top-Left X-Offset.
     *
     * @var int
     */
    private $topLeftXOffset = 0;

    /**
     * Top-Left Y-Offset.
     *
     * @var int
     */
    private $topLeftYOffset = 0;

    /**
     * Bottom-Right Cell Position.
     *
     * @var string
     */
    private $bottomRightCellRef = 'A1';

    /**
     * Bottom-Right X-Offset.
     *
     * @var int
     */
    private $bottomRightXOffset = 10;

    /**
     * Bottom-Right Y-Offset.
     *
     * @var int
     */
    private $bottomRightYOffset = 10;

    /**
     * Create a new Chart.
     *
     * @param mixed $name
     * @param null|Title $title
     * @param null|Legend $legend
     * @param null|PlotArea $plotArea
     * @param mixed $plotVisibleOnly
     * @param mixed $displayBlanksAs
     * @param null|Title $xAxisLabel
     * @param null|Title $yAxisLabel
     * @param null|Axis $xAxis
     * @param null|Axis $yAxis
     * @param null|GridLines $majorGridlines
     * @param null|GridLines $minorGridlines
     */
    public function __construct($name, Title $title = null, Legend $legend
= null, PlotArea $plotArea = null, $plotVisibleOnly = true,
$displayBlanksAs = 'gap', Title $xAxisLabel = null, Title
$yAxisLabel = null, Axis $xAxis = null, Axis $yAxis = null, GridLines
$majorGridlines = null, GridLines $minorGridlines = null)
    {
        $this->name = $name;
        $this->title = $title;
        $this->legend = $legend;
        $this->xAxisLabel = $xAxisLabel;
        $this->yAxisLabel = $yAxisLabel;
        $this->plotArea = $plotArea;
        $this->plotVisibleOnly = $plotVisibleOnly;
        $this->displayBlanksAs = $displayBlanksAs;
        $this->xAxis = $xAxis;
        $this->yAxis = $yAxis;
        $this->majorGridlines = $majorGridlines;
        $this->minorGridlines = $minorGridlines;
    }

    /**
     * Get Name.
     *
     * @return string
     */
    public function getName()
    {
        return $this->name;
    }

    /**
     * Get Worksheet.
     *
     * @return Worksheet
     */
    public function getWorksheet()
    {
        return $this->worksheet;
    }

    /**
     * Set Worksheet.
     *
     * @param Worksheet $pValue
     *
     * @return $this
     */
    public function setWorksheet(Worksheet $pValue = null)
    {
        $this->worksheet = $pValue;

        return $this;
    }

    /**
     * Get Title.
     *
     * @return Title
     */
    public function getTitle()
    {
        return $this->title;
    }

    /**
     * Set Title.
     *
     * @param Title $title
     *
     * @return $this
     */
    public function setTitle(Title $title)
    {
        $this->title = $title;

        return $this;
    }

    /**
     * Get Legend.
     *
     * @return Legend
     */
    public function getLegend()
    {
        return $this->legend;
    }

    /**
     * Set Legend.
     *
     * @param Legend $legend
     *
     * @return $this
     */
    public function setLegend(Legend $legend)
    {
        $this->legend = $legend;

        return $this;
    }

    /**
     * Get X-Axis Label.
     *
     * @return Title
     */
    public function getXAxisLabel()
    {
        return $this->xAxisLabel;
    }

    /**
     * Set X-Axis Label.
     *
     * @param Title $label
     *
     * @return $this
     */
    public function setXAxisLabel(Title $label)
    {
        $this->xAxisLabel = $label;

        return $this;
    }

    /**
     * Get Y-Axis Label.
     *
     * @return Title
     */
    public function getYAxisLabel()
    {
        return $this->yAxisLabel;
    }

    /**
     * Set Y-Axis Label.
     *
     * @param Title $label
     *
     * @return $this
     */
    public function setYAxisLabel(Title $label)
    {
        $this->yAxisLabel = $label;

        return $this;
    }

    /**
     * Get Plot Area.
     *
     * @return PlotArea
     */
    public function getPlotArea()
    {
        return $this->plotArea;
    }

    /**
     * Get Plot Visible Only.
     *
     * @return bool
     */
    public function getPlotVisibleOnly()
    {
        return $this->plotVisibleOnly;
    }

    /**
     * Set Plot Visible Only.
     *
     * @param bool $plotVisibleOnly
     *
     * @return $this
     */
    public function setPlotVisibleOnly($plotVisibleOnly)
    {
        $this->plotVisibleOnly = $plotVisibleOnly;

        return $this;
    }

    /**
     * Get Display Blanks as.
     *
     * @return string
     */
    public function getDisplayBlanksAs()
    {
        return $this->displayBlanksAs;
    }

    /**
     * Set Display Blanks as.
     *
     * @param string $displayBlanksAs
     *
     * @return $this
     */
    public function setDisplayBlanksAs($displayBlanksAs)
    {
        $this->displayBlanksAs = $displayBlanksAs;

        return $this;
    }

    /**
     * Get yAxis.
     *
     * @return Axis
     */
    public function getChartAxisY()
    {
        if ($this->yAxis !== null) {
            return $this->yAxis;
        }

        return new Axis();
    }

    /**
     * Get xAxis.
     *
     * @return Axis
     */
    public function getChartAxisX()
    {
        if ($this->xAxis !== null) {
            return $this->xAxis;
        }

        return new Axis();
    }

    /**
     * Get Major Gridlines.
     *
     * @return GridLines
     */
    public function getMajorGridlines()
    {
        if ($this->majorGridlines !== null) {
            return $this->majorGridlines;
        }

        return new GridLines();
    }

    /**
     * Get Minor Gridlines.
     *
     * @return GridLines
     */
    public function getMinorGridlines()
    {
        if ($this->minorGridlines !== null) {
            return $this->minorGridlines;
        }

        return new GridLines();
    }

    /**
     * Set the Top Left position for the chart.
     *
     * @param string $cell
     * @param int $xOffset
     * @param int $yOffset
     *
     * @return $this
     */
    public function setTopLeftPosition($cell, $xOffset = null, $yOffset =
null)
    {
        $this->topLeftCellRef = $cell;
        if ($xOffset !== null) {
            $this->setTopLeftXOffset($xOffset);
        }
        if ($yOffset !== null) {
            $this->setTopLeftYOffset($yOffset);
        }

        return $this;
    }

    /**
     * Get the top left position of the chart.
     *
     * @return array an associative array containing the cell address,
X-Offset and Y-Offset from the top left of that cell
     */
    public function getTopLeftPosition()
    {
        return [
            'cell' => $this->topLeftCellRef,
            'xOffset' => $this->topLeftXOffset,
            'yOffset' => $this->topLeftYOffset,
        ];
    }

    /**
     * Get the cell address where the top left of the chart is fixed.
     *
     * @return string
     */
    public function getTopLeftCell()
    {
        return $this->topLeftCellRef;
    }

    /**
     * Set the Top Left cell position for the chart.
     *
     * @param string $cell
     *
     * @return $this
     */
    public function setTopLeftCell($cell)
    {
        $this->topLeftCellRef = $cell;

        return $this;
    }

    /**
     * Set the offset position within the Top Left cell for the chart.
     *
     * @param int $xOffset
     * @param int $yOffset
     *
     * @return $this
     */
    public function setTopLeftOffset($xOffset, $yOffset)
    {
        if ($xOffset !== null) {
            $this->setTopLeftXOffset($xOffset);
        }

        if ($yOffset !== null) {
            $this->setTopLeftYOffset($yOffset);
        }

        return $this;
    }

    /**
     * Get the offset position within the Top Left cell for the chart.
     *
     * @return int[]
     */
    public function getTopLeftOffset()
    {
        return [
            'X' => $this->topLeftXOffset,
            'Y' => $this->topLeftYOffset,
        ];
    }

    public function setTopLeftXOffset($xOffset)
    {
        $this->topLeftXOffset = $xOffset;

        return $this;
    }

    public function getTopLeftXOffset()
    {
        return $this->topLeftXOffset;
    }

    public function setTopLeftYOffset($yOffset)
    {
        $this->topLeftYOffset = $yOffset;

        return $this;
    }

    public function getTopLeftYOffset()
    {
        return $this->topLeftYOffset;
    }

    /**
     * Set the Bottom Right position of the chart.
     *
     * @param string $cell
     * @param int $xOffset
     * @param int $yOffset
     *
     * @return $this
     */
    public function setBottomRightPosition($cell, $xOffset = null, $yOffset
= null)
    {
        $this->bottomRightCellRef = $cell;
        if ($xOffset !== null) {
            $this->setBottomRightXOffset($xOffset);
        }
        if ($yOffset !== null) {
            $this->setBottomRightYOffset($yOffset);
        }

        return $this;
    }

    /**
     * Get the bottom right position of the chart.
     *
     * @return array an associative array containing the cell address,
X-Offset and Y-Offset from the top left of that cell
     */
    public function getBottomRightPosition()
    {
        return [
            'cell' => $this->bottomRightCellRef,
            'xOffset' => $this->bottomRightXOffset,
            'yOffset' => $this->bottomRightYOffset,
        ];
    }

    public function setBottomRightCell($cell)
    {
        $this->bottomRightCellRef = $cell;

        return $this;
    }

    /**
     * Get the cell address where the bottom right of the chart is fixed.
     *
     * @return string
     */
    public function getBottomRightCell()
    {
        return $this->bottomRightCellRef;
    }

    /**
     * Set the offset position within the Bottom Right cell for the chart.
     *
     * @param int $xOffset
     * @param int $yOffset
     *
     * @return $this
     */
    public function setBottomRightOffset($xOffset, $yOffset)
    {
        if ($xOffset !== null) {
            $this->setBottomRightXOffset($xOffset);
        }

        if ($yOffset !== null) {
            $this->setBottomRightYOffset($yOffset);
        }

        return $this;
    }

    /**
     * Get the offset position within the Bottom Right cell for the chart.
     *
     * @return int[]
     */
    public function getBottomRightOffset()
    {
        return [
            'X' => $this->bottomRightXOffset,
            'Y' => $this->bottomRightYOffset,
        ];
    }

    public function setBottomRightXOffset($xOffset)
    {
        $this->bottomRightXOffset = $xOffset;

        return $this;
    }

    public function getBottomRightXOffset()
    {
        return $this->bottomRightXOffset;
    }

    public function setBottomRightYOffset($yOffset)
    {
        $this->bottomRightYOffset = $yOffset;

        return $this;
    }

    public function getBottomRightYOffset()
    {
        return $this->bottomRightYOffset;
    }

    public function refresh()
    {
        if ($this->worksheet !== null) {
            $this->plotArea->refresh($this->worksheet);
        }
    }

    /**
     * Render the chart to given file (or stream).
     *
     * @param string $outputDestination Name of the file render to
     *
     * @return bool true on success
     */
    public function render($outputDestination = null)
    {
        if ($outputDestination == 'php://output') {
            $outputDestination = null;
        }

        $libraryName = Settings::getChartRenderer();
        if ($libraryName === null) {
            return false;
        }

        // Ensure that data series values are up-to-date before we render
        $this->refresh();

        $renderer = new $libraryName($this);

        return $renderer->render($outputDestination);
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Chart/DataSeries.php000064400000020555151165413770022350
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Chart;

use PhpOffice\PhpSpreadsheet\Worksheet\Worksheet;

class DataSeries
{
    const TYPE_BARCHART = 'barChart';
    const TYPE_BARCHART_3D = 'bar3DChart';
    const TYPE_LINECHART = 'lineChart';
    const TYPE_LINECHART_3D = 'line3DChart';
    const TYPE_AREACHART = 'areaChart';
    const TYPE_AREACHART_3D = 'area3DChart';
    const TYPE_PIECHART = 'pieChart';
    const TYPE_PIECHART_3D = 'pie3DChart';
    const TYPE_DOUGHNUTCHART = 'doughnutChart';
    const TYPE_DONUTCHART = self::TYPE_DOUGHNUTCHART; // Synonym
    const TYPE_SCATTERCHART = 'scatterChart';
    const TYPE_SURFACECHART = 'surfaceChart';
    const TYPE_SURFACECHART_3D = 'surface3DChart';
    const TYPE_RADARCHART = 'radarChart';
    const TYPE_BUBBLECHART = 'bubbleChart';
    const TYPE_STOCKCHART = 'stockChart';
    const TYPE_CANDLECHART = self::TYPE_STOCKCHART; // Synonym

    const GROUPING_CLUSTERED = 'clustered';
    const GROUPING_STACKED = 'stacked';
    const GROUPING_PERCENT_STACKED = 'percentStacked';
    const GROUPING_STANDARD = 'standard';

    const DIRECTION_BAR = 'bar';
    const DIRECTION_HORIZONTAL = self::DIRECTION_BAR;
    const DIRECTION_COL = 'col';
    const DIRECTION_COLUMN = self::DIRECTION_COL;
    const DIRECTION_VERTICAL = self::DIRECTION_COL;

    const STYLE_LINEMARKER = 'lineMarker';
    const STYLE_SMOOTHMARKER = 'smoothMarker';
    const STYLE_MARKER = 'marker';
    const STYLE_FILLED = 'filled';

    /**
     * Series Plot Type.
     *
     * @var string
     */
    private $plotType;

    /**
     * Plot Grouping Type.
     *
     * @var string
     */
    private $plotGrouping;

    /**
     * Plot Direction.
     *
     * @var string
     */
    private $plotDirection;

    /**
     * Plot Style.
     *
     * @var null|string
     */
    private $plotStyle;

    /**
     * Order of plots in Series.
     *
     * @var array of integer
     */
    private $plotOrder = [];

    /**
     * Plot Label.
     *
     * @var array of DataSeriesValues
     */
    private $plotLabel = [];

    /**
     * Plot Category.
     *
     * @var array of DataSeriesValues
     */
    private $plotCategory = [];

    /**
     * Smooth Line.
     *
     * @var bool
     */
    private $smoothLine;

    /**
     * Plot Values.
     *
     * @var array of DataSeriesValues
     */
    private $plotValues = [];

    /**
     * Create a new DataSeries.
     *
     * @param null|mixed $plotType
     * @param null|mixed $plotGrouping
     * @param int[] $plotOrder
     * @param DataSeriesValues[] $plotLabel
     * @param DataSeriesValues[] $plotCategory
     * @param DataSeriesValues[] $plotValues
     * @param null|string $plotDirection
     * @param bool $smoothLine
     * @param null|string $plotStyle
     */
    public function __construct($plotType = null, $plotGrouping = null,
array $plotOrder = [], array $plotLabel = [], array $plotCategory = [],
array $plotValues = [], $plotDirection = null, $smoothLine = false,
$plotStyle = null)
    {
        $this->plotType = $plotType;
        $this->plotGrouping = $plotGrouping;
        $this->plotOrder = $plotOrder;
        $keys = array_keys($plotValues);
        $this->plotValues = $plotValues;
        if ((count($plotLabel) == 0) || ($plotLabel[$keys[0]] === null)) {
            $plotLabel[$keys[0]] = new DataSeriesValues();
        }
        $this->plotLabel = $plotLabel;

        if ((count($plotCategory) == 0) || ($plotCategory[$keys[0]] ===
null)) {
            $plotCategory[$keys[0]] = new DataSeriesValues();
        }
        $this->plotCategory = $plotCategory;

        $this->smoothLine = $smoothLine;
        $this->plotStyle = $plotStyle;

        if ($plotDirection === null) {
            $plotDirection = self::DIRECTION_COL;
        }
        $this->plotDirection = $plotDirection;
    }

    /**
     * Get Plot Type.
     *
     * @return string
     */
    public function getPlotType()
    {
        return $this->plotType;
    }

    /**
     * Set Plot Type.
     *
     * @param string $plotType
     *
     * @return $this
     */
    public function setPlotType($plotType)
    {
        $this->plotType = $plotType;

        return $this;
    }

    /**
     * Get Plot Grouping Type.
     *
     * @return string
     */
    public function getPlotGrouping()
    {
        return $this->plotGrouping;
    }

    /**
     * Set Plot Grouping Type.
     *
     * @param string $groupingType
     *
     * @return $this
     */
    public function setPlotGrouping($groupingType)
    {
        $this->plotGrouping = $groupingType;

        return $this;
    }

    /**
     * Get Plot Direction.
     *
     * @return string
     */
    public function getPlotDirection()
    {
        return $this->plotDirection;
    }

    /**
     * Set Plot Direction.
     *
     * @param string $plotDirection
     *
     * @return $this
     */
    public function setPlotDirection($plotDirection)
    {
        $this->plotDirection = $plotDirection;

        return $this;
    }

    /**
     * Get Plot Order.
     *
     * @return int[]
     */
    public function getPlotOrder()
    {
        return $this->plotOrder;
    }

    /**
     * Get Plot Labels.
     *
     * @return array of DataSeriesValues
     */
    public function getPlotLabels()
    {
        return $this->plotLabel;
    }

    /**
     * Get Plot Label by Index.
     *
     * @param mixed $index
     *
     * @return DataSeriesValues
     */
    public function getPlotLabelByIndex($index)
    {
        $keys = array_keys($this->plotLabel);
        if (in_array($index, $keys)) {
            return $this->plotLabel[$index];
        } elseif (isset($keys[$index])) {
            return $this->plotLabel[$keys[$index]];
        }

        return false;
    }

    /**
     * Get Plot Categories.
     *
     * @return array of DataSeriesValues
     */
    public function getPlotCategories()
    {
        return $this->plotCategory;
    }

    /**
     * Get Plot Category by Index.
     *
     * @param mixed $index
     *
     * @return DataSeriesValues
     */
    public function getPlotCategoryByIndex($index)
    {
        $keys = array_keys($this->plotCategory);
        if (in_array($index, $keys)) {
            return $this->plotCategory[$index];
        } elseif (isset($keys[$index])) {
            return $this->plotCategory[$keys[$index]];
        }

        return false;
    }

    /**
     * Get Plot Style.
     *
     * @return null|string
     */
    public function getPlotStyle()
    {
        return $this->plotStyle;
    }

    /**
     * Set Plot Style.
     *
     * @param null|string $plotStyle
     *
     * @return $this
     */
    public function setPlotStyle($plotStyle)
    {
        $this->plotStyle = $plotStyle;

        return $this;
    }

    /**
     * Get Plot Values.
     *
     * @return array of DataSeriesValues
     */
    public function getPlotValues()
    {
        return $this->plotValues;
    }

    /**
     * Get Plot Values by Index.
     *
     * @param mixed $index
     *
     * @return DataSeriesValues
     */
    public function getPlotValuesByIndex($index)
    {
        $keys = array_keys($this->plotValues);
        if (in_array($index, $keys)) {
            return $this->plotValues[$index];
        } elseif (isset($keys[$index])) {
            return $this->plotValues[$keys[$index]];
        }

        return false;
    }

    /**
     * Get Number of Plot Series.
     *
     * @return int
     */
    public function getPlotSeriesCount()
    {
        return count($this->plotValues);
    }

    /**
     * Get Smooth Line.
     *
     * @return bool
     */
    public function getSmoothLine()
    {
        return $this->smoothLine;
    }

    /**
     * Set Smooth Line.
     *
     * @param bool $smoothLine
     *
     * @return $this
     */
    public function setSmoothLine($smoothLine)
    {
        $this->smoothLine = $smoothLine;

        return $this;
    }

    public function refresh(Worksheet $worksheet)
    {
        foreach ($this->plotValues as $plotValues) {
            if ($plotValues !== null) {
                $plotValues->refresh($worksheet, true);
            }
        }
        foreach ($this->plotLabel as $plotValues) {
            if ($plotValues !== null) {
                $plotValues->refresh($worksheet, true);
            }
        }
        foreach ($this->plotCategory as $plotValues) {
            if ($plotValues !== null) {
                $plotValues->refresh($worksheet, false);
            }
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Chart/DataSeriesValues.php000064400000022261151165413770023524
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Chart;

use PhpOffice\PhpSpreadsheet\Calculation\Calculation;
use PhpOffice\PhpSpreadsheet\Calculation\Functions;
use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\Worksheet\Worksheet;

class DataSeriesValues
{
    const DATASERIES_TYPE_STRING = 'String';
    const DATASERIES_TYPE_NUMBER = 'Number';

    private static $dataTypeValues = [
        self::DATASERIES_TYPE_STRING,
        self::DATASERIES_TYPE_NUMBER,
    ];

    /**
     * Series Data Type.
     *
     * @var string
     */
    private $dataType;

    /**
     * Series Data Source.
     *
     * @var string
     */
    private $dataSource;

    /**
     * Format Code.
     *
     * @var string
     */
    private $formatCode;

    /**
     * Series Point Marker.
     *
     * @var string
     */
    private $pointMarker;

    /**
     * Point Count (The number of datapoints in the dataseries).
     *
     * @var int
     */
    private $pointCount = 0;

    /**
     * Data Values.
     *
     * @var array of mixed
     */
    private $dataValues = [];

    /**
     * Fill color (can be array with colors if dataseries have custom
colors).
     *
     * @var string|string[]
     */
    private $fillColor;

    /**
     * Line Width.
     *
     * @var int
     */
    private $lineWidth = 12700;

    /**
     * Create a new DataSeriesValues object.
     *
     * @param string $dataType
     * @param string $dataSource
     * @param null|mixed $formatCode
     * @param int $pointCount
     * @param mixed $dataValues
     * @param null|mixed $marker
     * @param null|string|string[] $fillColor
     */
    public function __construct($dataType = self::DATASERIES_TYPE_NUMBER,
$dataSource = null, $formatCode = null, $pointCount = 0, $dataValues = [],
$marker = null, $fillColor = null)
    {
        $this->setDataType($dataType);
        $this->dataSource = $dataSource;
        $this->formatCode = $formatCode;
        $this->pointCount = $pointCount;
        $this->dataValues = $dataValues;
        $this->pointMarker = $marker;
        $this->fillColor = $fillColor;
    }

    /**
     * Get Series Data Type.
     *
     * @return string
     */
    public function getDataType()
    {
        return $this->dataType;
    }

    /**
     * Set Series Data Type.
     *
     * @param string $dataType Datatype of this data series
     *                                Typical values are:
     *                                   
DataSeriesValues::DATASERIES_TYPE_STRING
     *                                        Normally used for axis point
values
     *                                   
DataSeriesValues::DATASERIES_TYPE_NUMBER
     *                                        Normally used for chart data
values
     *
     * @throws Exception
     *
     * @return $this
     */
    public function setDataType($dataType)
    {
        if (!in_array($dataType, self::$dataTypeValues)) {
            throw new Exception('Invalid datatype for chart data
series values');
        }
        $this->dataType = $dataType;

        return $this;
    }

    /**
     * Get Series Data Source (formula).
     *
     * @return string
     */
    public function getDataSource()
    {
        return $this->dataSource;
    }

    /**
     * Set Series Data Source (formula).
     *
     * @param string $dataSource
     *
     * @return $this
     */
    public function setDataSource($dataSource)
    {
        $this->dataSource = $dataSource;

        return $this;
    }

    /**
     * Get Point Marker.
     *
     * @return string
     */
    public function getPointMarker()
    {
        return $this->pointMarker;
    }

    /**
     * Set Point Marker.
     *
     * @param string $marker
     *
     * @return $this
     */
    public function setPointMarker($marker)
    {
        $this->pointMarker = $marker;

        return $this;
    }

    /**
     * Get Series Format Code.
     *
     * @return string
     */
    public function getFormatCode()
    {
        return $this->formatCode;
    }

    /**
     * Set Series Format Code.
     *
     * @param string $formatCode
     *
     * @return $this
     */
    public function setFormatCode($formatCode)
    {
        $this->formatCode = $formatCode;

        return $this;
    }

    /**
     * Get Series Point Count.
     *
     * @return int
     */
    public function getPointCount()
    {
        return $this->pointCount;
    }

    /**
     * Get fill color.
     *
     * @return string|string[] HEX color or array with HEX colors
     */
    public function getFillColor()
    {
        return $this->fillColor;
    }

    /**
     * Set fill color for series.
     *
     * @param string|string[] $color HEX color or array with HEX colors
     *
     * @return   DataSeriesValues
     */
    public function setFillColor($color)
    {
        if (is_array($color)) {
            foreach ($color as $colorValue) {
                $this->validateColor($colorValue);
            }
        } else {
            $this->validateColor($color);
        }
        $this->fillColor = $color;

        return $this;
    }

    /**
     * Method for validating hex color.
     *
     * @param string $color value for color
     *
     * @throws \Exception thrown if color is invalid
     *
     * @return bool true if validation was successful
     */
    private function validateColor($color)
    {
        if (!preg_match('/^[a-f0-9]{6}$/i', $color)) {
            throw new Exception(sprintf('Invalid hex color for chart
series (color: "%s")', $color));
        }

        return true;
    }

    /**
     * Get line width for series.
     *
     * @return int
     */
    public function getLineWidth()
    {
        return $this->lineWidth;
    }

    /**
     * Set line width for the series.
     *
     * @param int $width
     *
     * @return $this
     */
    public function setLineWidth($width)
    {
        $minWidth = 12700;
        $this->lineWidth = max($minWidth, $width);

        return $this;
    }

    /**
     * Identify if the Data Series is a multi-level or a simple series.
     *
     * @return null|bool
     */
    public function isMultiLevelSeries()
    {
        if (count($this->dataValues) > 0) {
            return is_array(array_values($this->dataValues)[0]);
        }

        return null;
    }

    /**
     * Return the level count of a multi-level Data Series.
     *
     * @return int
     */
    public function multiLevelCount()
    {
        $levelCount = 0;
        foreach ($this->dataValues as $dataValueSet) {
            $levelCount = max($levelCount, count($dataValueSet));
        }

        return $levelCount;
    }

    /**
     * Get Series Data Values.
     *
     * @return array of mixed
     */
    public function getDataValues()
    {
        return $this->dataValues;
    }

    /**
     * Get the first Series Data value.
     *
     * @return mixed
     */
    public function getDataValue()
    {
        $count = count($this->dataValues);
        if ($count == 0) {
            return null;
        } elseif ($count == 1) {
            return $this->dataValues[0];
        }

        return $this->dataValues;
    }

    /**
     * Set Series Data Values.
     *
     * @param array $dataValues
     *
     * @return $this
     */
    public function setDataValues($dataValues)
    {
        $this->dataValues = Functions::flattenArray($dataValues);
        $this->pointCount = count($dataValues);

        return $this;
    }

    public function refresh(Worksheet $worksheet, $flatten = true)
    {
        if ($this->dataSource !== null) {
            $calcEngine =
Calculation::getInstance($worksheet->getParent());
            $newDataValues = Calculation::unwrapResult(
                $calcEngine->_calculateFormulaValue(
                    '=' . $this->dataSource,
                    null,
                    $worksheet->getCell('A1')
                )
            );
            if ($flatten) {
                $this->dataValues =
Functions::flattenArray($newDataValues);
                foreach ($this->dataValues as &$dataValue) {
                    if (is_string($dataValue) && !empty($dataValue)
&& $dataValue[0] == '#') {
                        $dataValue = 0.0;
                    }
                }
                unset($dataValue);
            } else {
                [$worksheet, $cellRange] =
Worksheet::extractSheetTitle($this->dataSource, true);
                $dimensions =
Coordinate::rangeDimension(str_replace('$', '',
$cellRange));
                if (($dimensions[0] == 1) || ($dimensions[1] == 1)) {
                    $this->dataValues =
Functions::flattenArray($newDataValues);
                } else {
                    $newArray = array_values(array_shift($newDataValues));
                    foreach ($newArray as $i => $newDataSet) {
                        $newArray[$i] = [$newDataSet];
                    }

                    foreach ($newDataValues as $newDataSet) {
                        $i = 0;
                        foreach ($newDataSet as $newDataVal) {
                            array_unshift($newArray[$i++], $newDataVal);
                        }
                    }
                    $this->dataValues = $newArray;
                }
            }
            $this->pointCount = count($this->dataValues);
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Chart/Exception.php000064400000000252151165413770022252
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Chart;

use PhpOffice\PhpSpreadsheet\Exception as PhpSpreadsheetException;

class Exception extends PhpSpreadsheetException
{
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Chart/GridLines.php000064400000027740151165413770022207
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Chart;

/**
 * Created by PhpStorm.
 * User: Wiktor Trzonkowski
 * Date: 7/2/14
 * Time: 2:36 PM.
 */
class GridLines extends Properties
{
    /**
     * Properties of Class:
     * Object State (State for Minor Tick Mark) @var bool
     * Line Properties @var  array of mixed
     * Shadow Properties @var  array of mixed
     * Glow Properties @var  array of mixed
     * Soft Properties @var  array of mixed.
     */
    private $objectState = false;

    private $lineProperties = [
        'color' => [
            'type' => self::EXCEL_COLOR_TYPE_STANDARD,
            'value' => null,
            'alpha' => 0,
        ],
        'style' => [
            'width' => '9525',
            'compound' => self::LINE_STYLE_COMPOUND_SIMPLE,
            'dash' => self::LINE_STYLE_DASH_SOLID,
            'cap' => self::LINE_STYLE_CAP_FLAT,
            'join' => self::LINE_STYLE_JOIN_BEVEL,
            'arrow' => [
                'head' => [
                    'type' =>
self::LINE_STYLE_ARROW_TYPE_NOARROW,
                    'size' => self::LINE_STYLE_ARROW_SIZE_5,
                ],
                'end' => [
                    'type' =>
self::LINE_STYLE_ARROW_TYPE_NOARROW,
                    'size' => self::LINE_STYLE_ARROW_SIZE_8,
                ],
            ],
        ],
    ];

    private $shadowProperties = [
        'presets' => self::SHADOW_PRESETS_NOSHADOW,
        'effect' => null,
        'color' => [
            'type' => self::EXCEL_COLOR_TYPE_STANDARD,
            'value' => 'black',
            'alpha' => 85,
        ],
        'size' => [
            'sx' => null,
            'sy' => null,
            'kx' => null,
        ],
        'blur' => null,
        'direction' => null,
        'distance' => null,
        'algn' => null,
        'rotWithShape' => null,
    ];

    private $glowProperties = [
        'size' => null,
        'color' => [
            'type' => self::EXCEL_COLOR_TYPE_STANDARD,
            'value' => 'black',
            'alpha' => 40,
        ],
    ];

    private $softEdges = [
        'size' => null,
    ];

    /**
     * Get Object State.
     *
     * @return bool
     */
    public function getObjectState()
    {
        return $this->objectState;
    }

    /**
     * Change Object State to True.
     *
     * @return $this
     */
    private function activateObject()
    {
        $this->objectState = true;

        return $this;
    }

    /**
     * Set Line Color Properties.
     *
     * @param string $value
     * @param int $alpha
     * @param string $type
     */
    public function setLineColorProperties($value, $alpha = 0, $type =
self::EXCEL_COLOR_TYPE_STANDARD)
    {
        $this->activateObject()
            ->lineProperties['color'] =
$this->setColorProperties(
                $value,
                $alpha,
                $type
            );
    }

    /**
     * Set Line Color Properties.
     *
     * @param float $line_width
     * @param string $compound_type
     * @param string $dash_type
     * @param string $cap_type
     * @param string $join_type
     * @param string $head_arrow_type
     * @param string $head_arrow_size
     * @param string $end_arrow_type
     * @param string $end_arrow_size
     */
    public function setLineStyleProperties($line_width = null,
$compound_type = null, $dash_type = null, $cap_type = null, $join_type =
null, $head_arrow_type = null, $head_arrow_size = null, $end_arrow_type =
null, $end_arrow_size = null)
    {
        $this->activateObject();
        ($line_width !== null)
                ?
$this->lineProperties['style']['width'] =
$this->getExcelPointsWidth((float) $line_width)
                : null;
        ($compound_type !== null)
                ?
$this->lineProperties['style']['compound'] =
(string) $compound_type
                : null;
        ($dash_type !== null)
                ?
$this->lineProperties['style']['dash'] = (string)
$dash_type
                : null;
        ($cap_type !== null)
                ?
$this->lineProperties['style']['cap'] = (string)
$cap_type
                : null;
        ($join_type !== null)
                ?
$this->lineProperties['style']['join'] = (string)
$join_type
                : null;
        ($head_arrow_type !== null)
                ?
$this->lineProperties['style']['arrow']['head']['type']
= (string) $head_arrow_type
                : null;
        ($head_arrow_size !== null)
                ?
$this->lineProperties['style']['arrow']['head']['size']
= (string) $head_arrow_size
                : null;
        ($end_arrow_type !== null)
                ?
$this->lineProperties['style']['arrow']['end']['type']
= (string) $end_arrow_type
                : null;
        ($end_arrow_size !== null)
                ?
$this->lineProperties['style']['arrow']['end']['size']
= (string) $end_arrow_size
                : null;
    }

    /**
     * Get Line Color Property.
     *
     * @param string $parameter
     *
     * @return string
     */
    public function getLineColorProperty($parameter)
    {
        return $this->lineProperties['color'][$parameter];
    }

    /**
     * Get Line Style Property.
     *
     * @param array|string $elements
     *
     * @return string
     */
    public function getLineStyleProperty($elements)
    {
        return
$this->getArrayElementsValue($this->lineProperties['style'],
$elements);
    }

    /**
     * Set Glow Properties.
     *
     * @param float $size
     * @param string $color_value
     * @param int $color_alpha
     * @param string $color_type
     */
    public function setGlowProperties($size, $color_value = null,
$color_alpha = null, $color_type = null)
    {
        $this
            ->activateObject()
            ->setGlowSize($size)
            ->setGlowColor($color_value, $color_alpha, $color_type);
    }

    /**
     * Get Glow Color Property.
     *
     * @param string $property
     *
     * @return string
     */
    public function getGlowColor($property)
    {
        return $this->glowProperties['color'][$property];
    }

    /**
     * Get Glow Size.
     *
     * @return string
     */
    public function getGlowSize()
    {
        return $this->glowProperties['size'];
    }

    /**
     * Set Glow Size.
     *
     * @param float $size
     *
     * @return $this
     */
    private function setGlowSize($size)
    {
        $this->glowProperties['size'] =
$this->getExcelPointsWidth((float) $size);

        return $this;
    }

    /**
     * Set Glow Color.
     *
     * @param string $color
     * @param int $alpha
     * @param string $type
     *
     * @return $this
     */
    private function setGlowColor($color, $alpha, $type)
    {
        if ($color !== null) {
            $this->glowProperties['color']['value']
= (string) $color;
        }
        if ($alpha !== null) {
            $this->glowProperties['color']['alpha']
= $this->getTrueAlpha((int) $alpha);
        }
        if ($type !== null) {
            $this->glowProperties['color']['type'] =
(string) $type;
        }

        return $this;
    }

    /**
     * Get Line Style Arrow Parameters.
     *
     * @param string $arrow_selector
     * @param string $property_selector
     *
     * @return string
     */
    public function getLineStyleArrowParameters($arrow_selector,
$property_selector)
    {
        return
$this->getLineStyleArrowSize($this->lineProperties['style']['arrow'][$arrow_selector]['size'],
$property_selector);
    }

    /**
     * Set Shadow Properties.
     *
     * @param int $sh_presets
     * @param string $sh_color_value
     * @param string $sh_color_type
     * @param int $sh_color_alpha
     * @param string $sh_blur
     * @param int $sh_angle
     * @param float $sh_distance
     */
    public function setShadowProperties($sh_presets, $sh_color_value =
null, $sh_color_type = null, $sh_color_alpha = null, $sh_blur = null,
$sh_angle = null, $sh_distance = null)
    {
        $this->activateObject()
            ->setShadowPresetsProperties((int) $sh_presets)
            ->setShadowColor(
                $sh_color_value === null ?
$this->shadowProperties['color']['value'] :
$sh_color_value,
                $sh_color_alpha === null ? (int)
$this->shadowProperties['color']['alpha'] :
$this->getTrueAlpha($sh_color_alpha),
                $sh_color_type === null ?
$this->shadowProperties['color']['type'] :
$sh_color_type
            )
            ->setShadowBlur($sh_blur)
            ->setShadowAngle($sh_angle)
            ->setShadowDistance($sh_distance);
    }

    /**
     * Set Shadow Presets Properties.
     *
     * @param int $shadow_presets
     *
     * @return $this
     */
    private function setShadowPresetsProperties($shadow_presets)
    {
        $this->shadowProperties['presets'] = $shadow_presets;
       
$this->setShadowProperiesMapValues($this->getShadowPresetsMap($shadow_presets));

        return $this;
    }

    /**
     * Set Shadow Properties Values.
     *
     * @param array $properties_map
     * @param mixed &$reference
     *
     * @return $this
     */
    private function setShadowProperiesMapValues(array $properties_map,
&$reference = null)
    {
        $base_reference = $reference;
        foreach ($properties_map as $property_key => $property_val) {
            if (is_array($property_val)) {
                if ($reference === null) {
                    $reference =
&$this->shadowProperties[$property_key];
                } else {
                    $reference = &$reference[$property_key];
                }
                $this->setShadowProperiesMapValues($property_val,
$reference);
            } else {
                if ($base_reference === null) {
                    $this->shadowProperties[$property_key] =
$property_val;
                } else {
                    $reference[$property_key] = $property_val;
                }
            }
        }

        return $this;
    }

    /**
     * Set Shadow Color.
     *
     * @param string $color
     * @param int $alpha
     * @param string $type
     *
     * @return $this
     */
    private function setShadowColor($color, $alpha, $type)
    {
        if ($color !== null) {
           
$this->shadowProperties['color']['value'] = (string)
$color;
        }
        if ($alpha !== null) {
           
$this->shadowProperties['color']['alpha'] =
$this->getTrueAlpha((int) $alpha);
        }
        if ($type !== null) {
            $this->shadowProperties['color']['type']
= (string) $type;
        }

        return $this;
    }

    /**
     * Set Shadow Blur.
     *
     * @param float $blur
     *
     * @return $this
     */
    private function setShadowBlur($blur)
    {
        if ($blur !== null) {
            $this->shadowProperties['blur'] = (string)
$this->getExcelPointsWidth($blur);
        }

        return $this;
    }

    /**
     * Set Shadow Angle.
     *
     * @param int $angle
     *
     * @return $this
     */
    private function setShadowAngle($angle)
    {
        if ($angle !== null) {
            $this->shadowProperties['direction'] = (string)
$this->getExcelPointsAngle($angle);
        }

        return $this;
    }

    /**
     * Set Shadow Distance.
     *
     * @param float $distance
     *
     * @return $this
     */
    private function setShadowDistance($distance)
    {
        if ($distance !== null) {
            $this->shadowProperties['distance'] = (string)
$this->getExcelPointsWidth($distance);
        }

        return $this;
    }

    /**
     * Get Shadow Property.
     *
     * @param string|string[] $elements
     *
     * @return string
     */
    public function getShadowProperty($elements)
    {
        return $this->getArrayElementsValue($this->shadowProperties,
$elements);
    }

    /**
     * Set Soft Edges Size.
     *
     * @param float $size
     */
    public function setSoftEdgesSize($size)
    {
        if ($size !== null) {
            $this->activateObject();
            $this->softEdges['size'] = (string)
$this->getExcelPointsWidth($size);
        }
    }

    /**
     * Get Soft Edges Size.
     *
     * @return string
     */
    public function getSoftEdgesSize()
    {
        return $this->softEdges['size'];
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Chart/Layout.php000064400000020041151165413770021567
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Chart;

class Layout
{
    /**
     * layoutTarget.
     *
     * @var string
     */
    private $layoutTarget;

    /**
     * X Mode.
     *
     * @var string
     */
    private $xMode;

    /**
     * Y Mode.
     *
     * @var string
     */
    private $yMode;

    /**
     * X-Position.
     *
     * @var float
     */
    private $xPos;

    /**
     * Y-Position.
     *
     * @var float
     */
    private $yPos;

    /**
     * width.
     *
     * @var float
     */
    private $width;

    /**
     * height.
     *
     * @var float
     */
    private $height;

    /**
     * show legend key
     * Specifies that legend keys should be shown in data labels.
     *
     * @var bool
     */
    private $showLegendKey;

    /**
     * show value
     * Specifies that the value should be shown in a data label.
     *
     * @var bool
     */
    private $showVal;

    /**
     * show category name
     * Specifies that the category name should be shown in the data label.
     *
     * @var bool
     */
    private $showCatName;

    /**
     * show data series name
     * Specifies that the series name should be shown in the data label.
     *
     * @var bool
     */
    private $showSerName;

    /**
     * show percentage
     * Specifies that the percentage should be shown in the data label.
     *
     * @var bool
     */
    private $showPercent;

    /**
     * show bubble size.
     *
     * @var bool
     */
    private $showBubbleSize;

    /**
     * show leader lines
     * Specifies that leader lines should be shown for the data label.
     *
     * @var bool
     */
    private $showLeaderLines;

    /**
     * Create a new Layout.
     *
     * @param array $layout
     */
    public function __construct(array $layout = [])
    {
        if (isset($layout['layoutTarget'])) {
            $this->layoutTarget = $layout['layoutTarget'];
        }
        if (isset($layout['xMode'])) {
            $this->xMode = $layout['xMode'];
        }
        if (isset($layout['yMode'])) {
            $this->yMode = $layout['yMode'];
        }
        if (isset($layout['x'])) {
            $this->xPos = (float) $layout['x'];
        }
        if (isset($layout['y'])) {
            $this->yPos = (float) $layout['y'];
        }
        if (isset($layout['w'])) {
            $this->width = (float) $layout['w'];
        }
        if (isset($layout['h'])) {
            $this->height = (float) $layout['h'];
        }
    }

    /**
     * Get Layout Target.
     *
     * @return string
     */
    public function getLayoutTarget()
    {
        return $this->layoutTarget;
    }

    /**
     * Set Layout Target.
     *
     * @param string $value
     *
     * @return $this
     */
    public function setLayoutTarget($value)
    {
        $this->layoutTarget = $value;

        return $this;
    }

    /**
     * Get X-Mode.
     *
     * @return string
     */
    public function getXMode()
    {
        return $this->xMode;
    }

    /**
     * Set X-Mode.
     *
     * @param string $value
     *
     * @return $this
     */
    public function setXMode($value)
    {
        $this->xMode = (string) $value;

        return $this;
    }

    /**
     * Get Y-Mode.
     *
     * @return string
     */
    public function getYMode()
    {
        return $this->yMode;
    }

    /**
     * Set Y-Mode.
     *
     * @param string $value
     *
     * @return $this
     */
    public function setYMode($value)
    {
        $this->yMode = (string) $value;

        return $this;
    }

    /**
     * Get X-Position.
     *
     * @return number
     */
    public function getXPosition()
    {
        return $this->xPos;
    }

    /**
     * Set X-Position.
     *
     * @param float $value
     *
     * @return $this
     */
    public function setXPosition($value)
    {
        $this->xPos = (float) $value;

        return $this;
    }

    /**
     * Get Y-Position.
     *
     * @return number
     */
    public function getYPosition()
    {
        return $this->yPos;
    }

    /**
     * Set Y-Position.
     *
     * @param float $value
     *
     * @return $this
     */
    public function setYPosition($value)
    {
        $this->yPos = (float) $value;

        return $this;
    }

    /**
     * Get Width.
     *
     * @return number
     */
    public function getWidth()
    {
        return $this->width;
    }

    /**
     * Set Width.
     *
     * @param float $value
     *
     * @return $this
     */
    public function setWidth($value)
    {
        $this->width = $value;

        return $this;
    }

    /**
     * Get Height.
     *
     * @return number
     */
    public function getHeight()
    {
        return $this->height;
    }

    /**
     * Set Height.
     *
     * @param float $value
     *
     * @return $this
     */
    public function setHeight($value)
    {
        $this->height = $value;

        return $this;
    }

    /**
     * Get show legend key.
     *
     * @return bool
     */
    public function getShowLegendKey()
    {
        return $this->showLegendKey;
    }

    /**
     * Set show legend key
     * Specifies that legend keys should be shown in data labels.
     *
     * @param bool $value Show legend key
     *
     * @return $this
     */
    public function setShowLegendKey($value)
    {
        $this->showLegendKey = $value;

        return $this;
    }

    /**
     * Get show value.
     *
     * @return bool
     */
    public function getShowVal()
    {
        return $this->showVal;
    }

    /**
     * Set show val
     * Specifies that the value should be shown in data labels.
     *
     * @param bool $value Show val
     *
     * @return $this
     */
    public function setShowVal($value)
    {
        $this->showVal = $value;

        return $this;
    }

    /**
     * Get show category name.
     *
     * @return bool
     */
    public function getShowCatName()
    {
        return $this->showCatName;
    }

    /**
     * Set show cat name
     * Specifies that the category name should be shown in data labels.
     *
     * @param bool $value Show cat name
     *
     * @return $this
     */
    public function setShowCatName($value)
    {
        $this->showCatName = $value;

        return $this;
    }

    /**
     * Get show data series name.
     *
     * @return bool
     */
    public function getShowSerName()
    {
        return $this->showSerName;
    }

    /**
     * Set show ser name
     * Specifies that the series name should be shown in data labels.
     *
     * @param bool $value Show series name
     *
     * @return $this
     */
    public function setShowSerName($value)
    {
        $this->showSerName = $value;

        return $this;
    }

    /**
     * Get show percentage.
     *
     * @return bool
     */
    public function getShowPercent()
    {
        return $this->showPercent;
    }

    /**
     * Set show percentage
     * Specifies that the percentage should be shown in data labels.
     *
     * @param bool $value Show percentage
     *
     * @return $this
     */
    public function setShowPercent($value)
    {
        $this->showPercent = $value;

        return $this;
    }

    /**
     * Get show bubble size.
     *
     * @return bool
     */
    public function getShowBubbleSize()
    {
        return $this->showBubbleSize;
    }

    /**
     * Set show bubble size
     * Specifies that the bubble size should be shown in data labels.
     *
     * @param bool $value Show bubble size
     *
     * @return $this
     */
    public function setShowBubbleSize($value)
    {
        $this->showBubbleSize = $value;

        return $this;
    }

    /**
     * Get show leader lines.
     *
     * @return bool
     */
    public function getShowLeaderLines()
    {
        return $this->showLeaderLines;
    }

    /**
     * Set show leader lines
     * Specifies that leader lines should be shown in data labels.
     *
     * @param bool $value Show leader lines
     *
     * @return $this
     */
    public function setShowLeaderLines($value)
    {
        $this->showLeaderLines = $value;

        return $this;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Chart/Legend.php000064400000006777151165413770021534
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Chart;

class Legend
{
    /** Legend positions */
    const XL_LEGEND_POSITION_BOTTOM = -4107; //    Below the chart.
    const XL_LEGEND_POSITION_CORNER = 2; //    In the upper right-hand
corner of the chart border.
    const XL_LEGEND_POSITION_CUSTOM = -4161; //    A custom position.
    const XL_LEGEND_POSITION_LEFT = -4131; //    Left of the chart.
    const XL_LEGEND_POSITION_RIGHT = -4152; //    Right of the chart.
    const XL_LEGEND_POSITION_TOP = -4160; //    Above the chart.

    const POSITION_RIGHT = 'r';
    const POSITION_LEFT = 'l';
    const POSITION_BOTTOM = 'b';
    const POSITION_TOP = 't';
    const POSITION_TOPRIGHT = 'tr';

    private static $positionXLref = [
        self::XL_LEGEND_POSITION_BOTTOM => self::POSITION_BOTTOM,
        self::XL_LEGEND_POSITION_CORNER => self::POSITION_TOPRIGHT,
        self::XL_LEGEND_POSITION_CUSTOM => '??',
        self::XL_LEGEND_POSITION_LEFT => self::POSITION_LEFT,
        self::XL_LEGEND_POSITION_RIGHT => self::POSITION_RIGHT,
        self::XL_LEGEND_POSITION_TOP => self::POSITION_TOP,
    ];

    /**
     * Legend position.
     *
     * @var string
     */
    private $position = self::POSITION_RIGHT;

    /**
     * Allow overlay of other elements?
     *
     * @var bool
     */
    private $overlay = true;

    /**
     * Legend Layout.
     *
     * @var Layout
     */
    private $layout;

    /**
     * Create a new Legend.
     *
     * @param string $position
     * @param null|Layout $layout
     * @param bool $overlay
     */
    public function __construct($position = self::POSITION_RIGHT, Layout
$layout = null, $overlay = false)
    {
        $this->setPosition($position);
        $this->layout = $layout;
        $this->setOverlay($overlay);
    }

    /**
     * Get legend position as an excel string value.
     *
     * @return string
     */
    public function getPosition()
    {
        return $this->position;
    }

    /**
     * Get legend position using an excel string value.
     *
     * @param string $position see self::POSITION_*
     *
     * @return bool
     */
    public function setPosition($position)
    {
        if (!in_array($position, self::$positionXLref)) {
            return false;
        }

        $this->position = $position;

        return true;
    }

    /**
     * Get legend position as an Excel internal numeric value.
     *
     * @return int
     */
    public function getPositionXL()
    {
        return array_search($this->position, self::$positionXLref);
    }

    /**
     * Set legend position using an Excel internal numeric value.
     *
     * @param int $positionXL see self::XL_LEGEND_POSITION_*
     *
     * @return bool
     */
    public function setPositionXL($positionXL)
    {
        if (!isset(self::$positionXLref[$positionXL])) {
            return false;
        }

        $this->position = self::$positionXLref[$positionXL];

        return true;
    }

    /**
     * Get allow overlay of other elements?
     *
     * @return bool
     */
    public function getOverlay()
    {
        return $this->overlay;
    }

    /**
     * Set allow overlay of other elements?
     *
     * @param bool $overlay
     *
     * @return bool
     */
    public function setOverlay($overlay)
    {
        if (!is_bool($overlay)) {
            return false;
        }

        $this->overlay = $overlay;

        return true;
    }

    /**
     * Get Layout.
     *
     * @return Layout
     */
    public function getLayout()
    {
        return $this->layout;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Chart/PlotArea.php000064400000003746151165413770022036
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Chart;

use PhpOffice\PhpSpreadsheet\Worksheet\Worksheet;

class PlotArea
{
    /**
     * PlotArea Layout.
     *
     * @var Layout
     */
    private $layout;

    /**
     * Plot Series.
     *
     * @var DataSeries[]
     */
    private $plotSeries = [];

    /**
     * Create a new PlotArea.
     *
     * @param null|Layout $layout
     * @param DataSeries[] $plotSeries
     */
    public function __construct(Layout $layout = null, array $plotSeries =
[])
    {
        $this->layout = $layout;
        $this->plotSeries = $plotSeries;
    }

    /**
     * Get Layout.
     *
     * @return Layout
     */
    public function getLayout()
    {
        return $this->layout;
    }

    /**
     * Get Number of Plot Groups.
     *
     * @return array of DataSeries
     */
    public function getPlotGroupCount()
    {
        return count($this->plotSeries);
    }

    /**
     * Get Number of Plot Series.
     *
     * @return int
     */
    public function getPlotSeriesCount()
    {
        $seriesCount = 0;
        foreach ($this->plotSeries as $plot) {
            $seriesCount += $plot->getPlotSeriesCount();
        }

        return $seriesCount;
    }

    /**
     * Get Plot Series.
     *
     * @return array of DataSeries
     */
    public function getPlotGroup()
    {
        return $this->plotSeries;
    }

    /**
     * Get Plot Series by Index.
     *
     * @param mixed $index
     *
     * @return DataSeries
     */
    public function getPlotGroupByIndex($index)
    {
        return $this->plotSeries[$index];
    }

    /**
     * Set Plot Series.
     *
     * @param DataSeries[] $plotSeries
     *
     * @return $this
     */
    public function setPlotSeries(array $plotSeries)
    {
        $this->plotSeries = $plotSeries;

        return $this;
    }

    public function refresh(Worksheet $worksheet)
    {
        foreach ($this->plotSeries as $plotSeries) {
            $plotSeries->refresh($worksheet);
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Chart/Properties.php000064400000026673151165413770022467
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Chart;

/**
 * Created by PhpStorm.
 * User: nhw2h8s
 * Date: 7/2/14
 * Time: 5:45 PM.
 */
abstract class Properties
{
    const
        EXCEL_COLOR_TYPE_STANDARD = 'prstClr';
    const EXCEL_COLOR_TYPE_SCHEME = 'schemeClr';
    const EXCEL_COLOR_TYPE_ARGB = 'srgbClr';

    const
        AXIS_LABELS_LOW = 'low';
    const AXIS_LABELS_HIGH = 'high';
    const AXIS_LABELS_NEXT_TO = 'nextTo';
    const AXIS_LABELS_NONE = 'none';

    const
        TICK_MARK_NONE = 'none';
    const TICK_MARK_INSIDE = 'in';
    const TICK_MARK_OUTSIDE = 'out';
    const TICK_MARK_CROSS = 'cross';

    const
        HORIZONTAL_CROSSES_AUTOZERO = 'autoZero';
    const HORIZONTAL_CROSSES_MAXIMUM = 'max';

    const
        FORMAT_CODE_GENERAL = 'General';
    const FORMAT_CODE_NUMBER = '#,##0.00';
    const FORMAT_CODE_CURRENCY = '$#,##0.00';
    const FORMAT_CODE_ACCOUNTING = '_($* #,##0.00_);_($*
(#,##0.00);_($* "-"??_);_(@_)';
    const FORMAT_CODE_DATE = 'm/d/yyyy';
    const FORMAT_CODE_TIME = '[$-F400]h:mm:ss AM/PM';
    const FORMAT_CODE_PERCENTAGE = '0.00%';
    const FORMAT_CODE_FRACTION = '# ?/?';
    const FORMAT_CODE_SCIENTIFIC = '0.00E+00';
    const FORMAT_CODE_TEXT = '@';
    const FORMAT_CODE_SPECIAL = '00000';

    const
        ORIENTATION_NORMAL = 'minMax';
    const ORIENTATION_REVERSED = 'maxMin';

    const
        LINE_STYLE_COMPOUND_SIMPLE = 'sng';
    const LINE_STYLE_COMPOUND_DOUBLE = 'dbl';
    const LINE_STYLE_COMPOUND_THICKTHIN = 'thickThin';
    const LINE_STYLE_COMPOUND_THINTHICK = 'thinThick';
    const LINE_STYLE_COMPOUND_TRIPLE = 'tri';
    const LINE_STYLE_DASH_SOLID = 'solid';
    const LINE_STYLE_DASH_ROUND_DOT = 'sysDot';
    const LINE_STYLE_DASH_SQUERE_DOT = 'sysDash';
    const LINE_STYPE_DASH_DASH = 'dash';
    const LINE_STYLE_DASH_DASH_DOT = 'dashDot';
    const LINE_STYLE_DASH_LONG_DASH = 'lgDash';
    const LINE_STYLE_DASH_LONG_DASH_DOT = 'lgDashDot';
    const LINE_STYLE_DASH_LONG_DASH_DOT_DOT = 'lgDashDotDot';
    const LINE_STYLE_CAP_SQUARE = 'sq';
    const LINE_STYLE_CAP_ROUND = 'rnd';
    const LINE_STYLE_CAP_FLAT = 'flat';
    const LINE_STYLE_JOIN_ROUND = 'bevel';
    const LINE_STYLE_JOIN_MITER = 'miter';
    const LINE_STYLE_JOIN_BEVEL = 'bevel';
    const LINE_STYLE_ARROW_TYPE_NOARROW = null;
    const LINE_STYLE_ARROW_TYPE_ARROW = 'triangle';
    const LINE_STYLE_ARROW_TYPE_OPEN = 'arrow';
    const LINE_STYLE_ARROW_TYPE_STEALTH = 'stealth';
    const LINE_STYLE_ARROW_TYPE_DIAMOND = 'diamond';
    const LINE_STYLE_ARROW_TYPE_OVAL = 'oval';
    const LINE_STYLE_ARROW_SIZE_1 = 1;
    const LINE_STYLE_ARROW_SIZE_2 = 2;
    const LINE_STYLE_ARROW_SIZE_3 = 3;
    const LINE_STYLE_ARROW_SIZE_4 = 4;
    const LINE_STYLE_ARROW_SIZE_5 = 5;
    const LINE_STYLE_ARROW_SIZE_6 = 6;
    const LINE_STYLE_ARROW_SIZE_7 = 7;
    const LINE_STYLE_ARROW_SIZE_8 = 8;
    const LINE_STYLE_ARROW_SIZE_9 = 9;

    const
        SHADOW_PRESETS_NOSHADOW = null;
    const SHADOW_PRESETS_OUTER_BOTTTOM_RIGHT = 1;
    const SHADOW_PRESETS_OUTER_BOTTOM = 2;
    const SHADOW_PRESETS_OUTER_BOTTOM_LEFT = 3;
    const SHADOW_PRESETS_OUTER_RIGHT = 4;
    const SHADOW_PRESETS_OUTER_CENTER = 5;
    const SHADOW_PRESETS_OUTER_LEFT = 6;
    const SHADOW_PRESETS_OUTER_TOP_RIGHT = 7;
    const SHADOW_PRESETS_OUTER_TOP = 8;
    const SHADOW_PRESETS_OUTER_TOP_LEFT = 9;
    const SHADOW_PRESETS_INNER_BOTTTOM_RIGHT = 10;
    const SHADOW_PRESETS_INNER_BOTTOM = 11;
    const SHADOW_PRESETS_INNER_BOTTOM_LEFT = 12;
    const SHADOW_PRESETS_INNER_RIGHT = 13;
    const SHADOW_PRESETS_INNER_CENTER = 14;
    const SHADOW_PRESETS_INNER_LEFT = 15;
    const SHADOW_PRESETS_INNER_TOP_RIGHT = 16;
    const SHADOW_PRESETS_INNER_TOP = 17;
    const SHADOW_PRESETS_INNER_TOP_LEFT = 18;
    const SHADOW_PRESETS_PERSPECTIVE_BELOW = 19;
    const SHADOW_PRESETS_PERSPECTIVE_UPPER_RIGHT = 20;
    const SHADOW_PRESETS_PERSPECTIVE_UPPER_LEFT = 21;
    const SHADOW_PRESETS_PERSPECTIVE_LOWER_RIGHT = 22;
    const SHADOW_PRESETS_PERSPECTIVE_LOWER_LEFT = 23;

    /**
     * @param float $width
     *
     * @return float
     */
    protected function getExcelPointsWidth($width)
    {
        return $width * 12700;
    }

    /**
     * @param float $angle
     *
     * @return float
     */
    protected function getExcelPointsAngle($angle)
    {
        return $angle * 60000;
    }

    protected function getTrueAlpha($alpha)
    {
        return (string) 100 - $alpha . '000';
    }

    protected function setColorProperties($color, $alpha, $type)
    {
        return [
            'type' => (string) $type,
            'value' => (string) $color,
            'alpha' => (string)
$this->getTrueAlpha($alpha),
        ];
    }

    protected function getLineStyleArrowSize($array_selector,
$array_kay_selector)
    {
        $sizes = [
            1 => ['w' => 'sm', 'len'
=> 'sm'],
            2 => ['w' => 'sm', 'len'
=> 'med'],
            3 => ['w' => 'sm', 'len'
=> 'lg'],
            4 => ['w' => 'med', 'len'
=> 'sm'],
            5 => ['w' => 'med', 'len'
=> 'med'],
            6 => ['w' => 'med', 'len'
=> 'lg'],
            7 => ['w' => 'lg', 'len'
=> 'sm'],
            8 => ['w' => 'lg', 'len'
=> 'med'],
            9 => ['w' => 'lg', 'len'
=> 'lg'],
        ];

        return $sizes[$array_selector][$array_kay_selector];
    }

    protected function getShadowPresetsMap($shadow_presets_option)
    {
        $presets_options = [
            //OUTER
            1 => [
                'effect' => 'outerShdw',
                'blur' => '50800',
                'distance' => '38100',
                'direction' => '2700000',
                'algn' => 'tl',
                'rotWithShape' => '0',
            ],
            2 => [
                'effect' => 'outerShdw',
                'blur' => '50800',
                'distance' => '38100',
                'direction' => '5400000',
                'algn' => 't',
                'rotWithShape' => '0',
            ],
            3 => [
                'effect' => 'outerShdw',
                'blur' => '50800',
                'distance' => '38100',
                'direction' => '8100000',
                'algn' => 'tr',
                'rotWithShape' => '0',
            ],
            4 => [
                'effect' => 'outerShdw',
                'blur' => '50800',
                'distance' => '38100',
                'algn' => 'l',
                'rotWithShape' => '0',
            ],
            5 => [
                'effect' => 'outerShdw',
                'size' => [
                    'sx' => '102000',
                    'sy' => '102000',
                ],
                'blur' => '63500',
                'distance' => '38100',
                'algn' => 'ctr',
                'rotWithShape' => '0',
            ],
            6 => [
                'effect' => 'outerShdw',
                'blur' => '50800',
                'distance' => '38100',
                'direction' => '10800000',
                'algn' => 'r',
                'rotWithShape' => '0',
            ],
            7 => [
                'effect' => 'outerShdw',
                'blur' => '50800',
                'distance' => '38100',
                'direction' => '18900000',
                'algn' => 'bl',
                'rotWithShape' => '0',
            ],
            8 => [
                'effect' => 'outerShdw',
                'blur' => '50800',
                'distance' => '38100',
                'direction' => '16200000',
                'rotWithShape' => '0',
            ],
            9 => [
                'effect' => 'outerShdw',
                'blur' => '50800',
                'distance' => '38100',
                'direction' => '13500000',
                'algn' => 'br',
                'rotWithShape' => '0',
            ],
            //INNER
            10 => [
                'effect' => 'innerShdw',
                'blur' => '63500',
                'distance' => '50800',
                'direction' => '2700000',
            ],
            11 => [
                'effect' => 'innerShdw',
                'blur' => '63500',
                'distance' => '50800',
                'direction' => '5400000',
            ],
            12 => [
                'effect' => 'innerShdw',
                'blur' => '63500',
                'distance' => '50800',
                'direction' => '8100000',
            ],
            13 => [
                'effect' => 'innerShdw',
                'blur' => '63500',
                'distance' => '50800',
            ],
            14 => [
                'effect' => 'innerShdw',
                'blur' => '114300',
            ],
            15 => [
                'effect' => 'innerShdw',
                'blur' => '63500',
                'distance' => '50800',
                'direction' => '10800000',
            ],
            16 => [
                'effect' => 'innerShdw',
                'blur' => '63500',
                'distance' => '50800',
                'direction' => '18900000',
            ],
            17 => [
                'effect' => 'innerShdw',
                'blur' => '63500',
                'distance' => '50800',
                'direction' => '16200000',
            ],
            18 => [
                'effect' => 'innerShdw',
                'blur' => '63500',
                'distance' => '50800',
                'direction' => '13500000',
            ],
            //perspective
            19 => [
                'effect' => 'outerShdw',
                'blur' => '152400',
                'distance' => '317500',
                'size' => [
                    'sx' => '90000',
                    'sy' => '-19000',
                ],
                'direction' => '5400000',
                'rotWithShape' => '0',
            ],
            20 => [
                'effect' => 'outerShdw',
                'blur' => '76200',
                'direction' => '18900000',
                'size' => [
                    'sy' => '23000',
                    'kx' => '-1200000',
                ],
                'algn' => 'bl',
                'rotWithShape' => '0',
            ],
            21 => [
                'effect' => 'outerShdw',
                'blur' => '76200',
                'direction' => '13500000',
                'size' => [
                    'sy' => '23000',
                    'kx' => '1200000',
                ],
                'algn' => 'br',
                'rotWithShape' => '0',
            ],
            22 => [
                'effect' => 'outerShdw',
                'blur' => '76200',
                'distance' => '12700',
                'direction' => '2700000',
                'size' => [
                    'sy' => '-23000',
                    'kx' => '-800400',
                ],
                'algn' => 'bl',
                'rotWithShape' => '0',
            ],
            23 => [
                'effect' => 'outerShdw',
                'blur' => '76200',
                'distance' => '12700',
                'direction' => '8100000',
                'size' => [
                    'sy' => '-23000',
                    'kx' => '800400',
                ],
                'algn' => 'br',
                'rotWithShape' => '0',
            ],
        ];

        return $presets_options[$shadow_presets_option];
    }

    protected function getArrayElementsValue($properties, $elements)
    {
        $reference = &$properties;
        if (!is_array($elements)) {
            return $reference[$elements];
        }

        foreach ($elements as $keys) {
            $reference = &$reference[$keys];
        }

        return $reference;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Chart/Renderer/IRenderer.php000064400000000764151165413770023751
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Chart\Renderer;

use PhpOffice\PhpSpreadsheet\Chart\Chart;

interface IRenderer
{
    /**
     * IRenderer constructor.
     *
     * @param \PhpOffice\PhpSpreadsheet\Chart\Chart $chart
     */
    public function __construct(Chart $chart);

    /**
     * Render the chart to given file (or stream).
     *
     * @param string $filename Name of the file render to
     *
     * @return bool true on success
     */
    public function render($filename);
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Chart/Renderer/JpGraph.php000064400000076043151165413770023430
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Chart\Renderer;

use PhpOffice\PhpSpreadsheet\Chart\Chart;
use PhpOffice\PhpSpreadsheet\Style\NumberFormat;

require_once __DIR__ . '/Polyfill.php';

class JpGraph implements IRenderer
{
    private static $width = 640;

    private static $height = 480;

    private static $colourSet = [
        'mediumpurple1', 'palegreen3',
'gold1', 'cadetblue1',
        'darkmagenta', 'coral',
'dodgerblue3', 'eggplant',
        'mediumblue', 'magenta',
'sandybrown', 'cyan',
        'firebrick1', 'forestgreen',
'deeppink4', 'darkolivegreen',
        'goldenrod2',
    ];

    private static $markSet;

    private $chart;

    private $graph;

    private static $plotColour = 0;

    private static $plotMark = 0;

    /**
     * Create a new jpgraph.
     *
     * @param Chart $chart
     */
    public function __construct(Chart $chart)
    {
        self::init();
        $this->graph = null;
        $this->chart = $chart;
    }

    private static function init()
    {
        static $loaded = false;
        if ($loaded) {
            return;
        }

        \JpGraph\JpGraph::load();
        \JpGraph\JpGraph::module('bar');
        \JpGraph\JpGraph::module('contour');
        \JpGraph\JpGraph::module('line');
        \JpGraph\JpGraph::module('pie');
        \JpGraph\JpGraph::module('pie3d');
        \JpGraph\JpGraph::module('radar');
        \JpGraph\JpGraph::module('regstat');
        \JpGraph\JpGraph::module('scatter');
        \JpGraph\JpGraph::module('stock');

        self::$markSet = [
            'diamond' => MARK_DIAMOND,
            'square' => MARK_SQUARE,
            'triangle' => MARK_UTRIANGLE,
            'x' => MARK_X,
            'star' => MARK_STAR,
            'dot' => MARK_FILLEDCIRCLE,
            'dash' => MARK_DTRIANGLE,
            'circle' => MARK_CIRCLE,
            'plus' => MARK_CROSS,
        ];

        $loaded = true;
    }

    private function formatPointMarker($seriesPlot, $markerID)
    {
        $plotMarkKeys = array_keys(self::$markSet);
        if ($markerID === null) {
            //    Use default plot marker (next marker in the series)
            self::$plotMark %= count(self::$markSet);
           
$seriesPlot->mark->SetType(self::$markSet[$plotMarkKeys[self::$plotMark++]]);
        } elseif ($markerID !== 'none') {
            //    Use specified plot marker (if it exists)
            if (isset(self::$markSet[$markerID])) {
               
$seriesPlot->mark->SetType(self::$markSet[$markerID]);
            } else {
                //    If the specified plot marker doesn't exist, use
default plot marker (next marker in the series)
                self::$plotMark %= count(self::$markSet);
               
$seriesPlot->mark->SetType(self::$markSet[$plotMarkKeys[self::$plotMark++]]);
            }
        } else {
            //    Hide plot marker
            $seriesPlot->mark->Hide();
        }
       
$seriesPlot->mark->SetColor(self::$colourSet[self::$plotColour]);
       
$seriesPlot->mark->SetFillColor(self::$colourSet[self::$plotColour]);
        $seriesPlot->SetColor(self::$colourSet[self::$plotColour++]);

        return $seriesPlot;
    }

    private function formatDataSetLabels($groupID, $datasetLabels,
$labelCount, $rotation = '')
    {
        $datasetLabelFormatCode =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotCategoryByIndex(0)->getFormatCode();
        if ($datasetLabelFormatCode !== null) {
            //    Retrieve any label formatting code
            $datasetLabelFormatCode =
stripslashes($datasetLabelFormatCode);
        }

        $testCurrentIndex = 0;
        foreach ($datasetLabels as $i => $datasetLabel) {
            if (is_array($datasetLabel)) {
                if ($rotation == 'bar') {
                    $datasetLabels[$i] = implode(' ',
$datasetLabel);
                } else {
                    $datasetLabel = array_reverse($datasetLabel);
                    $datasetLabels[$i] = implode("\n",
$datasetLabel);
                }
            } else {
                //    Format labels according to any formatting code
                if ($datasetLabelFormatCode !== null) {
                    $datasetLabels[$i] =
NumberFormat::toFormattedString($datasetLabel, $datasetLabelFormatCode);
                }
            }
            ++$testCurrentIndex;
        }

        return $datasetLabels;
    }

    private function percentageSumCalculation($groupID, $seriesCount)
    {
        $sumValues = [];
        //    Adjust our values to a percentage value across all series in
the group
        for ($i = 0; $i < $seriesCount; ++$i) {
            if ($i == 0) {
                $sumValues =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotValuesByIndex($i)->getDataValues();
            } else {
                $nextValues =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotValuesByIndex($i)->getDataValues();
                foreach ($nextValues as $k => $value) {
                    if (isset($sumValues[$k])) {
                        $sumValues[$k] += $value;
                    } else {
                        $sumValues[$k] = $value;
                    }
                }
            }
        }

        return $sumValues;
    }

    private function percentageAdjustValues($dataValues, $sumValues)
    {
        foreach ($dataValues as $k => $dataValue) {
            $dataValues[$k] = $dataValue / $sumValues[$k] * 100;
        }

        return $dataValues;
    }

    private function getCaption($captionElement)
    {
        //    Read any caption
        $caption = ($captionElement !== null) ?
$captionElement->getCaption() : null;
        //    Test if we have a title caption to display
        if ($caption !== null) {
            //    If we do, it could be a plain string or an array
            if (is_array($caption)) {
                //    Implode an array to a plain string
                $caption = implode('', $caption);
            }
        }

        return $caption;
    }

    private function renderTitle()
    {
        $title = $this->getCaption($this->chart->getTitle());
        if ($title !== null) {
            $this->graph->title->Set($title);
        }
    }

    private function renderLegend()
    {
        $legend = $this->chart->getLegend();
        if ($legend !== null) {
            $legendPosition = $legend->getPosition();
            switch ($legendPosition) {
                case 'r':
                    $this->graph->legend->SetPos(0.01, 0.5,
'right', 'center'); //    right
                    $this->graph->legend->SetColumns(1);

                    break;
                case 'l':
                    $this->graph->legend->SetPos(0.01, 0.5,
'left', 'center'); //    left
                    $this->graph->legend->SetColumns(1);

                    break;
                case 't':
                    $this->graph->legend->SetPos(0.5, 0.01,
'center', 'top'); //    top
                    break;
                case 'b':
                    $this->graph->legend->SetPos(0.5, 0.99,
'center', 'bottom'); //    bottom
                    break;
                default:
                    $this->graph->legend->SetPos(0.01, 0.01,
'right', 'top'); //    top-right
                    $this->graph->legend->SetColumns(1);

                    break;
            }
        } else {
            $this->graph->legend->Hide();
        }
    }

    private function renderCartesianPlotArea($type = 'textlin')
    {
        $this->graph = new \Graph(self::$width, self::$height);
        $this->graph->SetScale($type);

        $this->renderTitle();

        //    Rotate for bar rather than column chart
        $rotation =
$this->chart->getPlotArea()->getPlotGroupByIndex(0)->getPlotDirection();
        $reverse = $rotation == 'bar';

        $xAxisLabel = $this->chart->getXAxisLabel();
        if ($xAxisLabel !== null) {
            $title = $this->getCaption($xAxisLabel);
            if ($title !== null) {
                $this->graph->xaxis->SetTitle($title,
'center');
                $this->graph->xaxis->title->SetMargin(35);
                if ($reverse) {
                    $this->graph->xaxis->title->SetAngle(90);
                    $this->graph->xaxis->title->SetMargin(90);
                }
            }
        }

        $yAxisLabel = $this->chart->getYAxisLabel();
        if ($yAxisLabel !== null) {
            $title = $this->getCaption($yAxisLabel);
            if ($title !== null) {
                $this->graph->yaxis->SetTitle($title,
'center');
                if ($reverse) {
                    $this->graph->yaxis->title->SetAngle(0);
                    $this->graph->yaxis->title->SetMargin(-55);
                }
            }
        }
    }

    private function renderPiePlotArea()
    {
        $this->graph = new \PieGraph(self::$width, self::$height);

        $this->renderTitle();
    }

    private function renderRadarPlotArea()
    {
        $this->graph = new \RadarGraph(self::$width, self::$height);
        $this->graph->SetScale('lin');

        $this->renderTitle();
    }

    private function renderPlotLine($groupID, $filled = false, $combination
= false, $dimensions = '2d')
    {
        $grouping =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotGrouping();

        $labelCount =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotValuesByIndex(0)->getPointCount();
        if ($labelCount > 0) {
            $datasetLabels =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotCategoryByIndex(0)->getDataValues();
            $datasetLabels = $this->formatDataSetLabels($groupID,
$datasetLabels, $labelCount);
            $this->graph->xaxis->SetTickLabels($datasetLabels);
        }

        $seriesCount =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotSeriesCount();
        $seriesPlots = [];
        if ($grouping == 'percentStacked') {
            $sumValues = $this->percentageSumCalculation($groupID,
$seriesCount);
        }

        //    Loop through each data series in turn
        for ($i = 0; $i < $seriesCount; ++$i) {
            $dataValues =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotValuesByIndex($i)->getDataValues();
            $marker =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotValuesByIndex($i)->getPointMarker();

            if ($grouping == 'percentStacked') {
                $dataValues = $this->percentageAdjustValues($dataValues,
$sumValues);
            }

            //    Fill in any missing values in the $dataValues array
            $testCurrentIndex = 0;
            foreach ($dataValues as $k => $dataValue) {
                while ($k != $testCurrentIndex) {
                    $dataValues[$testCurrentIndex] = null;
                    ++$testCurrentIndex;
                }
                ++$testCurrentIndex;
            }

            $seriesPlot = new \LinePlot($dataValues);
            if ($combination) {
                $seriesPlot->SetBarCenter();
            }

            if ($filled) {
                $seriesPlot->SetFilled(true);
                $seriesPlot->SetColor('black');
               
$seriesPlot->SetFillColor(self::$colourSet[self::$plotColour++]);
            } else {
                //    Set the appropriate plot marker
                $this->formatPointMarker($seriesPlot, $marker);
            }
            $dataLabel =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotLabelByIndex($i)->getDataValue();
            $seriesPlot->SetLegend($dataLabel);

            $seriesPlots[] = $seriesPlot;
        }

        if ($grouping == 'standard') {
            $groupPlot = $seriesPlots;
        } else {
            $groupPlot = new \AccLinePlot($seriesPlots);
        }
        $this->graph->Add($groupPlot);
    }

    private function renderPlotBar($groupID, $dimensions = '2d')
    {
        $rotation =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotDirection();
        //    Rotate for bar rather than column chart
        if (($groupID == 0) && ($rotation == 'bar')) {
            $this->graph->Set90AndMargin();
        }
        $grouping =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotGrouping();

        $labelCount =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotValuesByIndex(0)->getPointCount();
        if ($labelCount > 0) {
            $datasetLabels =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotCategoryByIndex(0)->getDataValues();
            $datasetLabels = $this->formatDataSetLabels($groupID,
$datasetLabels, $labelCount, $rotation);
            //    Rotate for bar rather than column chart
            if ($rotation == 'bar') {
                $datasetLabels = array_reverse($datasetLabels);
                $this->graph->yaxis->SetPos('max');
               
$this->graph->yaxis->SetLabelAlign('center',
'top');
                $this->graph->yaxis->SetLabelSide(SIDE_RIGHT);
            }
            $this->graph->xaxis->SetTickLabels($datasetLabels);
        }

        $seriesCount =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotSeriesCount();
        $seriesPlots = [];
        if ($grouping == 'percentStacked') {
            $sumValues = $this->percentageSumCalculation($groupID,
$seriesCount);
        }

        //    Loop through each data series in turn
        for ($j = 0; $j < $seriesCount; ++$j) {
            $dataValues =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotValuesByIndex($j)->getDataValues();
            if ($grouping == 'percentStacked') {
                $dataValues = $this->percentageAdjustValues($dataValues,
$sumValues);
            }

            //    Fill in any missing values in the $dataValues array
            $testCurrentIndex = 0;
            foreach ($dataValues as $k => $dataValue) {
                while ($k != $testCurrentIndex) {
                    $dataValues[$testCurrentIndex] = null;
                    ++$testCurrentIndex;
                }
                ++$testCurrentIndex;
            }

            //    Reverse the $dataValues order for bar rather than column
chart
            if ($rotation == 'bar') {
                $dataValues = array_reverse($dataValues);
            }
            $seriesPlot = new \BarPlot($dataValues);
            $seriesPlot->SetColor('black');
           
$seriesPlot->SetFillColor(self::$colourSet[self::$plotColour++]);
            if ($dimensions == '3d') {
                $seriesPlot->SetShadow();
            }
            if
(!$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotLabelByIndex($j))
{
                $dataLabel = '';
            } else {
                $dataLabel =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotLabelByIndex($j)->getDataValue();
            }
            $seriesPlot->SetLegend($dataLabel);

            $seriesPlots[] = $seriesPlot;
        }
        //    Reverse the plot order for bar rather than column chart
        if (($rotation == 'bar') && ($grouping !=
'percentStacked')) {
            $seriesPlots = array_reverse($seriesPlots);
        }

        if ($grouping == 'clustered') {
            $groupPlot = new \GroupBarPlot($seriesPlots);
        } elseif ($grouping == 'standard') {
            $groupPlot = new \GroupBarPlot($seriesPlots);
        } else {
            $groupPlot = new \AccBarPlot($seriesPlots);
            if ($dimensions == '3d') {
                $groupPlot->SetShadow();
            }
        }

        $this->graph->Add($groupPlot);
    }

    private function renderPlotScatter($groupID, $bubble)
    {
        $grouping =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotGrouping();
        $scatterStyle = $bubbleSize =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotStyle();

        $seriesCount =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotSeriesCount();
        $seriesPlots = [];

        //    Loop through each data series in turn
        for ($i = 0; $i < $seriesCount; ++$i) {
            $dataValuesY =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotCategoryByIndex($i)->getDataValues();
            $dataValuesX =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotValuesByIndex($i)->getDataValues();

            foreach ($dataValuesY as $k => $dataValueY) {
                $dataValuesY[$k] = $k;
            }

            $seriesPlot = new \ScatterPlot($dataValuesX, $dataValuesY);
            if ($scatterStyle == 'lineMarker') {
                $seriesPlot->SetLinkPoints();
               
$seriesPlot->link->SetColor(self::$colourSet[self::$plotColour]);
            } elseif ($scatterStyle == 'smoothMarker') {
                $spline = new \Spline($dataValuesY, $dataValuesX);
                [$splineDataY, $splineDataX] =
$spline->Get(count($dataValuesX) * self::$width / 20);
                $lplot = new \LinePlot($splineDataX, $splineDataY);
                $lplot->SetColor(self::$colourSet[self::$plotColour]);

                $this->graph->Add($lplot);
            }

            if ($bubble) {
                $this->formatPointMarker($seriesPlot, 'dot');
                $seriesPlot->mark->SetColor('black');
                $seriesPlot->mark->SetSize($bubbleSize);
            } else {
                $marker =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotValuesByIndex($i)->getPointMarker();
                $this->formatPointMarker($seriesPlot, $marker);
            }
            $dataLabel =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotLabelByIndex($i)->getDataValue();
            $seriesPlot->SetLegend($dataLabel);

            $this->graph->Add($seriesPlot);
        }
    }

    private function renderPlotRadar($groupID)
    {
        $radarStyle =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotStyle();

        $seriesCount =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotSeriesCount();
        $seriesPlots = [];

        //    Loop through each data series in turn
        for ($i = 0; $i < $seriesCount; ++$i) {
            $dataValuesY =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotCategoryByIndex($i)->getDataValues();
            $dataValuesX =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotValuesByIndex($i)->getDataValues();
            $marker =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotValuesByIndex($i)->getPointMarker();

            $dataValues = [];
            foreach ($dataValuesY as $k => $dataValueY) {
                $dataValues[$k] = implode(' ',
array_reverse($dataValueY));
            }
            $tmp = array_shift($dataValues);
            $dataValues[] = $tmp;
            $tmp = array_shift($dataValuesX);
            $dataValuesX[] = $tmp;

            $this->graph->SetTitles(array_reverse($dataValues));

            $seriesPlot = new \RadarPlot(array_reverse($dataValuesX));

            $dataLabel =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotLabelByIndex($i)->getDataValue();
           
$seriesPlot->SetColor(self::$colourSet[self::$plotColour++]);
            if ($radarStyle == 'filled') {
               
$seriesPlot->SetFillColor(self::$colourSet[self::$plotColour]);
            }
            $this->formatPointMarker($seriesPlot, $marker);
            $seriesPlot->SetLegend($dataLabel);

            $this->graph->Add($seriesPlot);
        }
    }

    private function renderPlotContour($groupID)
    {
        $contourStyle =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotStyle();

        $seriesCount =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotSeriesCount();
        $seriesPlots = [];

        $dataValues = [];
        //    Loop through each data series in turn
        for ($i = 0; $i < $seriesCount; ++$i) {
            $dataValuesY =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotCategoryByIndex($i)->getDataValues();
            $dataValuesX =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotValuesByIndex($i)->getDataValues();

            $dataValues[$i] = $dataValuesX;
        }
        $seriesPlot = new \ContourPlot($dataValues);

        $this->graph->Add($seriesPlot);
    }

    private function renderPlotStock($groupID)
    {
        $seriesCount =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotSeriesCount();
        $plotOrder =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotOrder();

        $dataValues = [];
        //    Loop through each data series in turn and build the plot
arrays
        foreach ($plotOrder as $i => $v) {
            $dataValuesX =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotValuesByIndex($v)->getDataValues();
            foreach ($dataValuesX as $j => $dataValueX) {
                $dataValues[$plotOrder[$i]][$j] = $dataValueX;
            }
        }
        if (empty($dataValues)) {
            return;
        }

        $dataValuesPlot = [];
        // Flatten the plot arrays to a single dimensional array to work
with jpgraph
        $jMax = count($dataValues[0]);
        for ($j = 0; $j < $jMax; ++$j) {
            for ($i = 0; $i < $seriesCount; ++$i) {
                $dataValuesPlot[] = $dataValues[$i][$j];
            }
        }

        // Set the x-axis labels
        $labelCount =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotValuesByIndex(0)->getPointCount();
        if ($labelCount > 0) {
            $datasetLabels =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotCategoryByIndex(0)->getDataValues();
            $datasetLabels = $this->formatDataSetLabels($groupID,
$datasetLabels, $labelCount);
            $this->graph->xaxis->SetTickLabels($datasetLabels);
        }

        $seriesPlot = new \StockPlot($dataValuesPlot);
        $seriesPlot->SetWidth(20);

        $this->graph->Add($seriesPlot);
    }

    private function renderAreaChart($groupCount, $dimensions =
'2d')
    {
        $this->renderCartesianPlotArea();

        for ($i = 0; $i < $groupCount; ++$i) {
            $this->renderPlotLine($i, true, false, $dimensions);
        }
    }

    private function renderLineChart($groupCount, $dimensions =
'2d')
    {
        $this->renderCartesianPlotArea();

        for ($i = 0; $i < $groupCount; ++$i) {
            $this->renderPlotLine($i, false, false, $dimensions);
        }
    }

    private function renderBarChart($groupCount, $dimensions =
'2d')
    {
        $this->renderCartesianPlotArea();

        for ($i = 0; $i < $groupCount; ++$i) {
            $this->renderPlotBar($i, $dimensions);
        }
    }

    private function renderScatterChart($groupCount)
    {
        $this->renderCartesianPlotArea('linlin');

        for ($i = 0; $i < $groupCount; ++$i) {
            $this->renderPlotScatter($i, false);
        }
    }

    private function renderBubbleChart($groupCount)
    {
        $this->renderCartesianPlotArea('linlin');

        for ($i = 0; $i < $groupCount; ++$i) {
            $this->renderPlotScatter($i, true);
        }
    }

    private function renderPieChart($groupCount, $dimensions =
'2d', $doughnut = false, $multiplePlots = false)
    {
        $this->renderPiePlotArea();

        $iLimit = ($multiplePlots) ? $groupCount : 1;
        for ($groupID = 0; $groupID < $iLimit; ++$groupID) {
            $grouping =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotGrouping();
            $exploded =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotStyle();
            $datasetLabels = [];
            if ($groupID == 0) {
                $labelCount =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotValuesByIndex(0)->getPointCount();
                if ($labelCount > 0) {
                    $datasetLabels =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotCategoryByIndex(0)->getDataValues();
                    $datasetLabels =
$this->formatDataSetLabels($groupID, $datasetLabels, $labelCount);
                }
            }

            $seriesCount =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotSeriesCount();
            $seriesPlots = [];
            //    For pie charts, we only display the first series:
doughnut charts generally display all series
            $jLimit = ($multiplePlots) ? $seriesCount : 1;
            //    Loop through each data series in turn
            for ($j = 0; $j < $jLimit; ++$j) {
                $dataValues =
$this->chart->getPlotArea()->getPlotGroupByIndex($groupID)->getPlotValuesByIndex($j)->getDataValues();

                //    Fill in any missing values in the $dataValues array
                $testCurrentIndex = 0;
                foreach ($dataValues as $k => $dataValue) {
                    while ($k != $testCurrentIndex) {
                        $dataValues[$testCurrentIndex] = null;
                        ++$testCurrentIndex;
                    }
                    ++$testCurrentIndex;
                }

                if ($dimensions == '3d') {
                    $seriesPlot = new \PiePlot3D($dataValues);
                } else {
                    if ($doughnut) {
                        $seriesPlot = new \PiePlotC($dataValues);
                    } else {
                        $seriesPlot = new \PiePlot($dataValues);
                    }
                }

                if ($multiplePlots) {
                    $seriesPlot->SetSize(($jLimit - $j) / ($jLimit *
4));
                }

                if ($doughnut) {
                    $seriesPlot->SetMidColor('white');
                }

               
$seriesPlot->SetColor(self::$colourSet[self::$plotColour++]);
                if (count($datasetLabels) > 0) {
                    $seriesPlot->SetLabels(array_fill(0,
count($datasetLabels), ''));
                }
                if ($dimensions != '3d') {
                    $seriesPlot->SetGuideLines(false);
                }
                if ($j == 0) {
                    if ($exploded) {
                        $seriesPlot->ExplodeAll();
                    }
                    $seriesPlot->SetLegends($datasetLabels);
                }

                $this->graph->Add($seriesPlot);
            }
        }
    }

    private function renderRadarChart($groupCount)
    {
        $this->renderRadarPlotArea();

        for ($groupID = 0; $groupID < $groupCount; ++$groupID) {
            $this->renderPlotRadar($groupID);
        }
    }

    private function renderStockChart($groupCount)
    {
        $this->renderCartesianPlotArea('intint');

        for ($groupID = 0; $groupID < $groupCount; ++$groupID) {
            $this->renderPlotStock($groupID);
        }
    }

    private function renderContourChart($groupCount, $dimensions)
    {
        $this->renderCartesianPlotArea('intint');

        for ($i = 0; $i < $groupCount; ++$i) {
            $this->renderPlotContour($i);
        }
    }

    private function renderCombinationChart($groupCount, $dimensions,
$outputDestination)
    {
        $this->renderCartesianPlotArea();

        for ($i = 0; $i < $groupCount; ++$i) {
            $dimensions = null;
            $chartType =
$this->chart->getPlotArea()->getPlotGroupByIndex($i)->getPlotType();
            switch ($chartType) {
                case 'area3DChart':
                    $dimensions = '3d';
                // no break
                case 'areaChart':
                    $this->renderPlotLine($i, true, true, $dimensions);

                    break;
                case 'bar3DChart':
                    $dimensions = '3d';
                // no break
                case 'barChart':
                    $this->renderPlotBar($i, $dimensions);

                    break;
                case 'line3DChart':
                    $dimensions = '3d';
                // no break
                case 'lineChart':
                    $this->renderPlotLine($i, false, true, $dimensions);

                    break;
                case 'scatterChart':
                    $this->renderPlotScatter($i, false);

                    break;
                case 'bubbleChart':
                    $this->renderPlotScatter($i, true);

                    break;
                default:
                    $this->graph = null;

                    return false;
            }
        }

        $this->renderLegend();

        $this->graph->Stroke($outputDestination);

        return true;
    }

    public function render($outputDestination)
    {
        self::$plotColour = 0;

        $groupCount =
$this->chart->getPlotArea()->getPlotGroupCount();

        $dimensions = null;
        if ($groupCount == 1) {
            $chartType =
$this->chart->getPlotArea()->getPlotGroupByIndex(0)->getPlotType();
        } else {
            $chartTypes = [];
            for ($i = 0; $i < $groupCount; ++$i) {
                $chartTypes[] =
$this->chart->getPlotArea()->getPlotGroupByIndex($i)->getPlotType();
            }
            $chartTypes = array_unique($chartTypes);
            if (count($chartTypes) == 1) {
                $chartType = array_pop($chartTypes);
            } elseif (count($chartTypes) == 0) {
                echo 'Chart is not yet implemented<br />';

                return false;
            } else {
                return $this->renderCombinationChart($groupCount,
$dimensions, $outputDestination);
            }
        }

        switch ($chartType) {
            case 'area3DChart':
                $dimensions = '3d';
            // no break
            case 'areaChart':
                $this->renderAreaChart($groupCount, $dimensions);

                break;
            case 'bar3DChart':
                $dimensions = '3d';
            // no break
            case 'barChart':
                $this->renderBarChart($groupCount, $dimensions);

                break;
            case 'line3DChart':
                $dimensions = '3d';
            // no break
            case 'lineChart':
                $this->renderLineChart($groupCount, $dimensions);

                break;
            case 'pie3DChart':
                $dimensions = '3d';
            // no break
            case 'pieChart':
                $this->renderPieChart($groupCount, $dimensions, false,
false);

                break;
            case 'doughnut3DChart':
                $dimensions = '3d';
            // no break
            case 'doughnutChart':
                $this->renderPieChart($groupCount, $dimensions, true,
true);

                break;
            case 'scatterChart':
                $this->renderScatterChart($groupCount);

                break;
            case 'bubbleChart':
                $this->renderBubbleChart($groupCount);

                break;
            case 'radarChart':
                $this->renderRadarChart($groupCount);

                break;
            case 'surface3DChart':
                $dimensions = '3d';
            // no break
            case 'surfaceChart':
                $this->renderContourChart($groupCount, $dimensions);

                break;
            case 'stockChart':
                $this->renderStockChart($groupCount);

                break;
            default:
                echo $chartType . ' is not yet implemented<br
/>';

                return false;
        }
        $this->renderLegend();

        $this->graph->Stroke($outputDestination);

        return true;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Chart/Renderer/PHP
Charting Libraries.txt000064400000000516151165413770026161
0ustar00ChartDirector
	https://www.advsofteng.com/cdphp.html

GraPHPite
	http://graphpite.sourceforge.net/

JpGraph
	http://www.aditus.nu/jpgraph/

LibChart
	https://naku.dohcrew.com/libchart/pages/introduction/

pChart
	http://pchart.sourceforge.net/

TeeChart
	https://www.steema.com/

PHPGraphLib
   
http://www.ebrueggeman.com/phpgraphlibvendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Chart/Renderer/Polyfill.php000064400000000332151165413770023653
0ustar00<?php

// This is a dirty workaround to output JpGraph charts even when
antialiasing is not available
if (!function_exists('imageantialias')) {
    function imageantialias(...$args)
    {
        // Do nothing
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Chart/Title.php000064400000001752151165413770021403
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Chart;

class Title
{
    /**
     * Title Caption.
     *
     * @var string
     */
    private $caption;

    /**
     * Title Layout.
     *
     * @var Layout
     */
    private $layout;

    /**
     * Create a new Title.
     *
     * @param null|mixed $caption
     * @param null|Layout $layout
     */
    public function __construct($caption = null, Layout $layout = null)
    {
        $this->caption = $caption;
        $this->layout = $layout;
    }

    /**
     * Get caption.
     *
     * @return string
     */
    public function getCaption()
    {
        return $this->caption;
    }

    /**
     * Set caption.
     *
     * @param string $caption
     *
     * @return $this
     */
    public function setCaption($caption)
    {
        $this->caption = $caption;

        return $this;
    }

    /**
     * Get Layout.
     *
     * @return Layout
     */
    public function getLayout()
    {
        return $this->layout;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Collection/Cells.php000064400000031457151165413770022423
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Collection;

use PhpOffice\PhpSpreadsheet\Cell\Cell;
use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\Exception as PhpSpreadsheetException;
use PhpOffice\PhpSpreadsheet\Worksheet\Worksheet;
use Psr\SimpleCache\CacheInterface;

class Cells
{
    /**
     * @var \Psr\SimpleCache\CacheInterface
     */
    private $cache;

    /**
     * Parent worksheet.
     *
     * @var Worksheet
     */
    private $parent;

    /**
     * The currently active Cell.
     *
     * @var Cell
     */
    private $currentCell;

    /**
     * Coordinate of the currently active Cell.
     *
     * @var string
     */
    private $currentCoordinate;

    /**
     * Flag indicating whether the currently active Cell requires saving.
     *
     * @var bool
     */
    private $currentCellIsDirty = false;

    /**
     * An index of existing cells. Booleans indexed by their coordinate.
     *
     * @var bool[]
     */
    private $index = [];

    /**
     * Prefix used to uniquely identify cache data for this worksheet.
     *
     * @var string
     */
    private $cachePrefix;

    /**
     * Initialise this new cell collection.
     *
     * @param Worksheet $parent The worksheet for this cell collection
     * @param CacheInterface $cache
     */
    public function __construct(Worksheet $parent, CacheInterface $cache)
    {
        // Set our parent worksheet.
        // This is maintained here to facilitate re-attaching it to Cell
objects when
        // they are woken from a serialized state
        $this->parent = $parent;
        $this->cache = $cache;
        $this->cachePrefix = $this->getUniqueID();
    }

    /**
     * Return the parent worksheet for this cell collection.
     *
     * @return Worksheet
     */
    public function getParent()
    {
        return $this->parent;
    }

    /**
     * Whether the collection holds a cell for the given coordinate.
     *
     * @param string $pCoord Coordinate of the cell to check
     *
     * @return bool
     */
    public function has($pCoord)
    {
        if ($pCoord === $this->currentCoordinate) {
            return true;
        }

        // Check if the requested entry exists in the index
        return isset($this->index[$pCoord]);
    }

    /**
     * Add or update a cell in the collection.
     *
     * @param Cell $cell Cell to update
     *
     * @throws PhpSpreadsheetException
     *
     * @return Cell
     */
    public function update(Cell $cell)
    {
        return $this->add($cell->getCoordinate(), $cell);
    }

    /**
     * Delete a cell in cache identified by coordinate.
     *
     * @param string $pCoord Coordinate of the cell to delete
     */
    public function delete($pCoord)
    {
        if ($pCoord === $this->currentCoordinate &&
$this->currentCell !== null) {
            $this->currentCell->detach();
            $this->currentCoordinate = null;
            $this->currentCell = null;
            $this->currentCellIsDirty = false;
        }

        unset($this->index[$pCoord]);

        // Delete the entry from cache
        $this->cache->delete($this->cachePrefix . $pCoord);
    }

    /**
     * Get a list of all cell coordinates currently held in the collection.
     *
     * @return string[]
     */
    public function getCoordinates()
    {
        return array_keys($this->index);
    }

    /**
     * Get a sorted list of all cell coordinates currently held in the
collection by row and column.
     *
     * @return string[]
     */
    public function getSortedCoordinates()
    {
        $sortKeys = [];
        foreach ($this->getCoordinates() as $coord) {
            $column = '';
            $row = 0;
            sscanf($coord, '%[A-Z]%d', $column, $row);
            $sortKeys[sprintf('%09d%3s', $row, $column)] =
$coord;
        }
        ksort($sortKeys);

        return array_values($sortKeys);
    }

    /**
     * Get highest worksheet column and highest row that have cell records.
     *
     * @return array Highest column name and highest row number
     */
    public function getHighestRowAndColumn()
    {
        // Lookup highest column and highest row
        $col = ['A' => '1A'];
        $row = [1];
        foreach ($this->getCoordinates() as $coord) {
            $c = '';
            $r = 0;
            sscanf($coord, '%[A-Z]%d', $c, $r);
            $row[$r] = $r;
            $col[$c] = strlen($c) . $c;
        }

        // Determine highest column and row
        $highestRow = max($row);
        $highestColumn = substr(max($col), 1);

        return [
            'row' => $highestRow,
            'column' => $highestColumn,
        ];
    }

    /**
     * Return the cell coordinate of the currently active cell object.
     *
     * @return string
     */
    public function getCurrentCoordinate()
    {
        return $this->currentCoordinate;
    }

    /**
     * Return the column coordinate of the currently active cell object.
     *
     * @return string
     */
    public function getCurrentColumn()
    {
        $column = '';
        $row = 0;

        sscanf($this->currentCoordinate, '%[A-Z]%d', $column,
$row);

        return $column;
    }

    /**
     * Return the row coordinate of the currently active cell object.
     *
     * @return int
     */
    public function getCurrentRow()
    {
        $column = '';
        $row = 0;

        sscanf($this->currentCoordinate, '%[A-Z]%d', $column,
$row);

        return (int) $row;
    }

    /**
     * Get highest worksheet column.
     *
     * @param string $row Return the highest column for the specified row,
     *                    or the highest column of any row if no row number
is passed
     *
     * @return string Highest column name
     */
    public function getHighestColumn($row = null)
    {
        if ($row === null) {
            $colRow = $this->getHighestRowAndColumn();

            return $colRow['column'];
        }

        $columnList = [1];
        foreach ($this->getCoordinates() as $coord) {
            $c = '';
            $r = 0;

            sscanf($coord, '%[A-Z]%d', $c, $r);
            if ($r != $row) {
                continue;
            }
            $columnList[] = Coordinate::columnIndexFromString($c);
        }

        return Coordinate::stringFromColumnIndex(max($columnList));
    }

    /**
     * Get highest worksheet row.
     *
     * @param string $column Return the highest row for the specified
column,
     *                       or the highest row of any column if no column
letter is passed
     *
     * @return int Highest row number
     */
    public function getHighestRow($column = null)
    {
        if ($column === null) {
            $colRow = $this->getHighestRowAndColumn();

            return $colRow['row'];
        }

        $rowList = [0];
        foreach ($this->getCoordinates() as $coord) {
            $c = '';
            $r = 0;

            sscanf($coord, '%[A-Z]%d', $c, $r);
            if ($c != $column) {
                continue;
            }
            $rowList[] = $r;
        }

        return max($rowList);
    }

    /**
     * Generate a unique ID for cache referencing.
     *
     * @return string Unique Reference
     */
    private function getUniqueID()
    {
        return uniqid('phpspreadsheet.', true) . '.';
    }

    /**
     * Clone the cell collection.
     *
     * @param Worksheet $parent The new worksheet that we're copying
to
     *
     * @return self
     */
    public function cloneCellCollection(Worksheet $parent)
    {
        $this->storeCurrentCell();
        $newCollection = clone $this;

        $newCollection->parent = $parent;
        if (($newCollection->currentCell !== null) &&
(is_object($newCollection->currentCell))) {
            $newCollection->currentCell->attach($this);
        }

        // Get old values
        $oldKeys = $newCollection->getAllCacheKeys();
        $oldValues = $newCollection->cache->getMultiple($oldKeys);
        $newValues = [];
        $oldCachePrefix = $newCollection->cachePrefix;

        // Change prefix
        $newCollection->cachePrefix = $newCollection->getUniqueID();
        foreach ($oldValues as $oldKey => $value) {
            $newValues[str_replace($oldCachePrefix,
$newCollection->cachePrefix, $oldKey)] = clone $value;
        }

        // Store new values
        $stored = $newCollection->cache->setMultiple($newValues);
        if (!$stored) {
            $newCollection->__destruct();

            throw new PhpSpreadsheetException('Failed to copy cells in
cache');
        }

        return $newCollection;
    }

    /**
     * Remove a row, deleting all cells in that row.
     *
     * @param string $row Row number to remove
     */
    public function removeRow($row)
    {
        foreach ($this->getCoordinates() as $coord) {
            $c = '';
            $r = 0;

            sscanf($coord, '%[A-Z]%d', $c, $r);
            if ($r == $row) {
                $this->delete($coord);
            }
        }
    }

    /**
     * Remove a column, deleting all cells in that column.
     *
     * @param string $column Column ID to remove
     */
    public function removeColumn($column)
    {
        foreach ($this->getCoordinates() as $coord) {
            $c = '';
            $r = 0;

            sscanf($coord, '%[A-Z]%d', $c, $r);
            if ($c == $column) {
                $this->delete($coord);
            }
        }
    }

    /**
     * Store cell data in cache for the current cell object if it's
"dirty",
     * and the 'nullify' the current cell object.
     *
     * @throws PhpSpreadsheetException
     */
    private function storeCurrentCell()
    {
        if ($this->currentCellIsDirty &&
!empty($this->currentCoordinate)) {
            $this->currentCell->detach();

            $stored = $this->cache->set($this->cachePrefix .
$this->currentCoordinate, $this->currentCell);
            if (!$stored) {
                $this->__destruct();

                throw new PhpSpreadsheetException("Failed to store
cell {$this->currentCoordinate} in cache");
            }
            $this->currentCellIsDirty = false;
        }

        $this->currentCoordinate = null;
        $this->currentCell = null;
    }

    /**
     * Add or update a cell identified by its coordinate into the
collection.
     *
     * @param string $pCoord Coordinate of the cell to update
     * @param Cell $cell Cell to update
     *
     * @throws PhpSpreadsheetException
     *
     * @return \PhpOffice\PhpSpreadsheet\Cell\Cell
     */
    public function add($pCoord, Cell $cell)
    {
        if ($pCoord !== $this->currentCoordinate) {
            $this->storeCurrentCell();
        }
        $this->index[$pCoord] = true;

        $this->currentCoordinate = $pCoord;
        $this->currentCell = $cell;
        $this->currentCellIsDirty = true;

        return $cell;
    }

    /**
     * Get cell at a specific coordinate.
     *
     * @param string $pCoord Coordinate of the cell
     *
     * @throws PhpSpreadsheetException
     *
     * @return \PhpOffice\PhpSpreadsheet\Cell\Cell Cell that was found, or
null if not found
     */
    public function get($pCoord)
    {
        if ($pCoord === $this->currentCoordinate) {
            return $this->currentCell;
        }
        $this->storeCurrentCell();

        // Return null if requested entry doesn't exist in collection
        if (!$this->has($pCoord)) {
            return null;
        }

        // Check if the entry that has been requested actually exists
        $cell = $this->cache->get($this->cachePrefix . $pCoord);
        if ($cell === null) {
            throw new PhpSpreadsheetException("Cell entry {$pCoord} no
longer exists in cache. This probably means that the cache was cleared by
someone else.");
        }

        // Set current entry to the requested entry
        $this->currentCoordinate = $pCoord;
        $this->currentCell = $cell;
        // Re-attach this as the cell's parent
        $this->currentCell->attach($this);

        // Return requested entry
        return $this->currentCell;
    }

    /**
     * Clear the cell collection and disconnect from our parent.
     */
    public function unsetWorksheetCells()
    {
        if ($this->currentCell !== null) {
            $this->currentCell->detach();
            $this->currentCell = null;
            $this->currentCoordinate = null;
        }

        // Flush the cache
        $this->__destruct();

        $this->index = [];

        // detach ourself from the worksheet, so that it can then delete
this object successfully
        $this->parent = null;
    }

    /**
     * Destroy this cell collection.
     */
    public function __destruct()
    {
        $this->cache->deleteMultiple($this->getAllCacheKeys());
    }

    /**
     * Returns all known cache keys.
     *
     * @return \Generator|string[]
     */
    private function getAllCacheKeys()
    {
        foreach ($this->getCoordinates() as $coordinate) {
            yield $this->cachePrefix . $coordinate;
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Collection/CellsFactory.php000064400000000721151165413770023741
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Collection;

use PhpOffice\PhpSpreadsheet\Settings;
use PhpOffice\PhpSpreadsheet\Worksheet\Worksheet;

abstract class CellsFactory
{
    /**
     * Initialise the cache storage.
     *
     * @param Worksheet $parent Enable cell caching for this worksheet
     *
     * @return Cells
     * */
    public static function getInstance(Worksheet $parent)
    {
        return new Cells($parent, Settings::getCache());
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Collection/Memory.php000064400000002722151165413770022622
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Collection;

use Psr\SimpleCache\CacheInterface;

/**
 * This is the default implementation for in-memory cell collection.
 *
 * Alternatives implementation should leverage off-memory, non-volatile
storage
 * to reduce overall memory usage.
 */
class Memory implements CacheInterface
{
    private $cache = [];

    public function clear()
    {
        $this->cache = [];

        return true;
    }

    public function delete($key)
    {
        unset($this->cache[$key]);

        return true;
    }

    public function deleteMultiple($keys)
    {
        foreach ($keys as $key) {
            $this->delete($key);
        }

        return true;
    }

    public function get($key, $default = null)
    {
        if ($this->has($key)) {
            return $this->cache[$key];
        }

        return $default;
    }

    public function getMultiple($keys, $default = null)
    {
        $results = [];
        foreach ($keys as $key) {
            $results[$key] = $this->get($key, $default);
        }

        return $results;
    }

    public function has($key)
    {
        return array_key_exists($key, $this->cache);
    }

    public function set($key, $value, $ttl = null)
    {
        $this->cache[$key] = $value;

        return true;
    }

    public function setMultiple($values, $ttl = null)
    {
        foreach ($values as $key => $value) {
            $this->set($key, $value);
        }

        return true;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Comment.php000064400000013231151165413770020656
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet;

use PhpOffice\PhpSpreadsheet\RichText\RichText;

class Comment implements IComparable
{
    /**
     * Author.
     *
     * @var string
     */
    private $author;

    /**
     * Rich text comment.
     *
     * @var RichText
     */
    private $text;

    /**
     * Comment width (CSS style, i.e. XXpx or YYpt).
     *
     * @var string
     */
    private $width = '96pt';

    /**
     * Left margin (CSS style, i.e. XXpx or YYpt).
     *
     * @var string
     */
    private $marginLeft = '59.25pt';

    /**
     * Top margin (CSS style, i.e. XXpx or YYpt).
     *
     * @var string
     */
    private $marginTop = '1.5pt';

    /**
     * Visible.
     *
     * @var bool
     */
    private $visible = false;

    /**
     * Comment height (CSS style, i.e. XXpx or YYpt).
     *
     * @var string
     */
    private $height = '55.5pt';

    /**
     * Comment fill color.
     *
     * @var Style\Color
     */
    private $fillColor;

    /**
     * Alignment.
     *
     * @var string
     */
    private $alignment;

    /**
     * Create a new Comment.
     */
    public function __construct()
    {
        // Initialise variables
        $this->author = 'Author';
        $this->text = new RichText();
        $this->fillColor = new Style\Color('FFFFFFE1');
        $this->alignment = Style\Alignment::HORIZONTAL_GENERAL;
    }

    /**
     * Get Author.
     *
     * @return string
     */
    public function getAuthor()
    {
        return $this->author;
    }

    /**
     * Set Author.
     *
     * @param string $author
     *
     * @return $this
     */
    public function setAuthor($author)
    {
        $this->author = $author;

        return $this;
    }

    /**
     * Get Rich text comment.
     *
     * @return RichText
     */
    public function getText()
    {
        return $this->text;
    }

    /**
     * Set Rich text comment.
     *
     * @param RichText $pValue
     *
     * @return $this
     */
    public function setText(RichText $pValue)
    {
        $this->text = $pValue;

        return $this;
    }

    /**
     * Get comment width (CSS style, i.e. XXpx or YYpt).
     *
     * @return string
     */
    public function getWidth()
    {
        return $this->width;
    }

    /**
     * Set comment width (CSS style, i.e. XXpx or YYpt).
     *
     * @param string $width
     *
     * @return $this
     */
    public function setWidth($width)
    {
        $this->width = $width;

        return $this;
    }

    /**
     * Get comment height (CSS style, i.e. XXpx or YYpt).
     *
     * @return string
     */
    public function getHeight()
    {
        return $this->height;
    }

    /**
     * Set comment height (CSS style, i.e. XXpx or YYpt).
     *
     * @param string $value
     *
     * @return $this
     */
    public function setHeight($value)
    {
        $this->height = $value;

        return $this;
    }

    /**
     * Get left margin (CSS style, i.e. XXpx or YYpt).
     *
     * @return string
     */
    public function getMarginLeft()
    {
        return $this->marginLeft;
    }

    /**
     * Set left margin (CSS style, i.e. XXpx or YYpt).
     *
     * @param string $value
     *
     * @return $this
     */
    public function setMarginLeft($value)
    {
        $this->marginLeft = $value;

        return $this;
    }

    /**
     * Get top margin (CSS style, i.e. XXpx or YYpt).
     *
     * @return string
     */
    public function getMarginTop()
    {
        return $this->marginTop;
    }

    /**
     * Set top margin (CSS style, i.e. XXpx or YYpt).
     *
     * @param string $value
     *
     * @return $this
     */
    public function setMarginTop($value)
    {
        $this->marginTop = $value;

        return $this;
    }

    /**
     * Is the comment visible by default?
     *
     * @return bool
     */
    public function getVisible()
    {
        return $this->visible;
    }

    /**
     * Set comment default visibility.
     *
     * @param bool $value
     *
     * @return $this
     */
    public function setVisible($value)
    {
        $this->visible = $value;

        return $this;
    }

    /**
     * Get fill color.
     *
     * @return Style\Color
     */
    public function getFillColor()
    {
        return $this->fillColor;
    }

    /**
     * Set Alignment.
     *
     * @param string $alignment see Style\Alignment::HORIZONTAL_*
     *
     * @return $this
     */
    public function setAlignment($alignment)
    {
        $this->alignment = $alignment;

        return $this;
    }

    /**
     * Get Alignment.
     *
     * @return string
     */
    public function getAlignment()
    {
        return $this->alignment;
    }

    /**
     * Get hash code.
     *
     * @return string Hash code
     */
    public function getHashCode()
    {
        return md5(
            $this->author .
            $this->text->getHashCode() .
            $this->width .
            $this->height .
            $this->marginLeft .
            $this->marginTop .
            ($this->visible ? 1 : 0) .
            $this->fillColor->getHashCode() .
            $this->alignment .
            __CLASS__
        );
    }

    /**
     * Implement PHP __clone to create a deep clone, not just a shallow
copy.
     */
    public function __clone()
    {
        $vars = get_object_vars($this);
        foreach ($vars as $key => $value) {
            if (is_object($value)) {
                $this->$key = clone $value;
            } else {
                $this->$key = $value;
            }
        }
    }

    /**
     * Convert to string.
     *
     * @return string
     */
    public function __toString()
    {
        return $this->text->getPlainText();
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Document/Properties.php000064400000033440151165413770023172
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Document;

class Properties
{
    /** constants */
    const PROPERTY_TYPE_BOOLEAN = 'b';
    const PROPERTY_TYPE_INTEGER = 'i';
    const PROPERTY_TYPE_FLOAT = 'f';
    const PROPERTY_TYPE_DATE = 'd';
    const PROPERTY_TYPE_STRING = 's';
    const PROPERTY_TYPE_UNKNOWN = 'u';

    /**
     * Creator.
     *
     * @var string
     */
    private $creator = 'Unknown Creator';

    /**
     * LastModifiedBy.
     *
     * @var string
     */
    private $lastModifiedBy;

    /**
     * Created.
     *
     * @var int
     */
    private $created;

    /**
     * Modified.
     *
     * @var int
     */
    private $modified;

    /**
     * Title.
     *
     * @var string
     */
    private $title = 'Untitled Spreadsheet';

    /**
     * Description.
     *
     * @var string
     */
    private $description = '';

    /**
     * Subject.
     *
     * @var string
     */
    private $subject = '';

    /**
     * Keywords.
     *
     * @var string
     */
    private $keywords = '';

    /**
     * Category.
     *
     * @var string
     */
    private $category = '';

    /**
     * Manager.
     *
     * @var string
     */
    private $manager = '';

    /**
     * Company.
     *
     * @var string
     */
    private $company = 'Microsoft Corporation';

    /**
     * Custom Properties.
     *
     * @var string
     */
    private $customProperties = [];

    /**
     * Create a new Document Properties instance.
     */
    public function __construct()
    {
        // Initialise values
        $this->lastModifiedBy = $this->creator;
        $this->created = time();
        $this->modified = time();
    }

    /**
     * Get Creator.
     *
     * @return string
     */
    public function getCreator()
    {
        return $this->creator;
    }

    /**
     * Set Creator.
     *
     * @param string $creator
     *
     * @return $this
     */
    public function setCreator($creator)
    {
        $this->creator = $creator;

        return $this;
    }

    /**
     * Get Last Modified By.
     *
     * @return string
     */
    public function getLastModifiedBy()
    {
        return $this->lastModifiedBy;
    }

    /**
     * Set Last Modified By.
     *
     * @param string $pValue
     *
     * @return $this
     */
    public function setLastModifiedBy($pValue)
    {
        $this->lastModifiedBy = $pValue;

        return $this;
    }

    /**
     * Get Created.
     *
     * @return int
     */
    public function getCreated()
    {
        return $this->created;
    }

    /**
     * Set Created.
     *
     * @param int|string $time
     *
     * @return $this
     */
    public function setCreated($time)
    {
        if ($time === null) {
            $time = time();
        } elseif (is_string($time)) {
            if (is_numeric($time)) {
                $time = (int) $time;
            } else {
                $time = strtotime($time);
            }
        }

        $this->created = $time;

        return $this;
    }

    /**
     * Get Modified.
     *
     * @return int
     */
    public function getModified()
    {
        return $this->modified;
    }

    /**
     * Set Modified.
     *
     * @param int|string $time
     *
     * @return $this
     */
    public function setModified($time)
    {
        if ($time === null) {
            $time = time();
        } elseif (is_string($time)) {
            if (is_numeric($time)) {
                $time = (int) $time;
            } else {
                $time = strtotime($time);
            }
        }

        $this->modified = $time;

        return $this;
    }

    /**
     * Get Title.
     *
     * @return string
     */
    public function getTitle()
    {
        return $this->title;
    }

    /**
     * Set Title.
     *
     * @param string $title
     *
     * @return $this
     */
    public function setTitle($title)
    {
        $this->title = $title;

        return $this;
    }

    /**
     * Get Description.
     *
     * @return string
     */
    public function getDescription()
    {
        return $this->description;
    }

    /**
     * Set Description.
     *
     * @param string $description
     *
     * @return $this
     */
    public function setDescription($description)
    {
        $this->description = $description;

        return $this;
    }

    /**
     * Get Subject.
     *
     * @return string
     */
    public function getSubject()
    {
        return $this->subject;
    }

    /**
     * Set Subject.
     *
     * @param string $subject
     *
     * @return $this
     */
    public function setSubject($subject)
    {
        $this->subject = $subject;

        return $this;
    }

    /**
     * Get Keywords.
     *
     * @return string
     */
    public function getKeywords()
    {
        return $this->keywords;
    }

    /**
     * Set Keywords.
     *
     * @param string $keywords
     *
     * @return $this
     */
    public function setKeywords($keywords)
    {
        $this->keywords = $keywords;

        return $this;
    }

    /**
     * Get Category.
     *
     * @return string
     */
    public function getCategory()
    {
        return $this->category;
    }

    /**
     * Set Category.
     *
     * @param string $category
     *
     * @return $this
     */
    public function setCategory($category)
    {
        $this->category = $category;

        return $this;
    }

    /**
     * Get Company.
     *
     * @return string
     */
    public function getCompany()
    {
        return $this->company;
    }

    /**
     * Set Company.
     *
     * @param string $company
     *
     * @return $this
     */
    public function setCompany($company)
    {
        $this->company = $company;

        return $this;
    }

    /**
     * Get Manager.
     *
     * @return string
     */
    public function getManager()
    {
        return $this->manager;
    }

    /**
     * Set Manager.
     *
     * @param string $manager
     *
     * @return $this
     */
    public function setManager($manager)
    {
        $this->manager = $manager;

        return $this;
    }

    /**
     * Get a List of Custom Property Names.
     *
     * @return array of string
     */
    public function getCustomProperties()
    {
        return array_keys($this->customProperties);
    }

    /**
     * Check if a Custom Property is defined.
     *
     * @param string $propertyName
     *
     * @return bool
     */
    public function isCustomPropertySet($propertyName)
    {
        return isset($this->customProperties[$propertyName]);
    }

    /**
     * Get a Custom Property Value.
     *
     * @param string $propertyName
     *
     * @return mixed
     */
    public function getCustomPropertyValue($propertyName)
    {
        if (isset($this->customProperties[$propertyName])) {
            return
$this->customProperties[$propertyName]['value'];
        }
    }

    /**
     * Get a Custom Property Type.
     *
     * @param string $propertyName
     *
     * @return string
     */
    public function getCustomPropertyType($propertyName)
    {
        if (isset($this->customProperties[$propertyName])) {
            return
$this->customProperties[$propertyName]['type'];
        }
    }

    /**
     * Set a Custom Property.
     *
     * @param string $propertyName
     * @param mixed $propertyValue
     * @param string $propertyType
     *      'i'    : Integer
     *   'f' : Floating Point
     *   's' : String
     *   'd' : Date/Time
     *   'b' : Boolean
     *
     * @return $this
     */
    public function setCustomProperty($propertyName, $propertyValue =
'', $propertyType = null)
    {
        if (($propertyType === null) || (!in_array($propertyType,
[self::PROPERTY_TYPE_INTEGER,
                                                                       
self::PROPERTY_TYPE_FLOAT,
                                                                       
self::PROPERTY_TYPE_STRING,
                                                                       
self::PROPERTY_TYPE_DATE,
                                                                       
self::PROPERTY_TYPE_BOOLEAN, ]))) {
            if ($propertyValue === null) {
                $propertyType = self::PROPERTY_TYPE_STRING;
            } elseif (is_float($propertyValue)) {
                $propertyType = self::PROPERTY_TYPE_FLOAT;
            } elseif (is_int($propertyValue)) {
                $propertyType = self::PROPERTY_TYPE_INTEGER;
            } elseif (is_bool($propertyValue)) {
                $propertyType = self::PROPERTY_TYPE_BOOLEAN;
            } else {
                $propertyType = self::PROPERTY_TYPE_STRING;
            }
        }

        $this->customProperties[$propertyName] = [
            'value' => $propertyValue,
            'type' => $propertyType,
        ];

        return $this;
    }

    /**
     * Implement PHP __clone to create a deep clone, not just a shallow
copy.
     */
    public function __clone()
    {
        $vars = get_object_vars($this);
        foreach ($vars as $key => $value) {
            if (is_object($value)) {
                $this->$key = clone $value;
            } else {
                $this->$key = $value;
            }
        }
    }

    public static function convertProperty($propertyValue, $propertyType)
    {
        switch ($propertyType) {
            case 'empty':     //    Empty
                return '';

                break;
            case 'null':      //    Null
                return null;

                break;
            case 'i1':        //    1-Byte Signed Integer
            case 'i2':        //    2-Byte Signed Integer
            case 'i4':        //    4-Byte Signed Integer
            case 'i8':        //    8-Byte Signed Integer
            case 'int':       //    Integer
                return (int) $propertyValue;

                break;
            case 'ui1':       //    1-Byte Unsigned Integer
            case 'ui2':       //    2-Byte Unsigned Integer
            case 'ui4':       //    4-Byte Unsigned Integer
            case 'ui8':       //    8-Byte Unsigned Integer
            case 'uint':      //    Unsigned Integer
                return abs((int) $propertyValue);

                break;
            case 'r4':        //    4-Byte Real Number
            case 'r8':        //    8-Byte Real Number
            case 'decimal':   //    Decimal
                return (float) $propertyValue;

                break;
            case 'lpstr':     //    LPSTR
            case 'lpwstr':    //    LPWSTR
            case 'bstr':      //    Basic String
                return $propertyValue;

                break;
            case 'date':      //    Date and Time
            case 'filetime':  //    File Time
                return strtotime($propertyValue);

                break;
            case 'bool':     //    Boolean
                return $propertyValue == 'true';

                break;
            case 'cy':       //    Currency
            case 'error':    //    Error Status Code
            case 'vector':   //    Vector
            case 'array':    //    Array
            case 'blob':     //    Binary Blob
            case 'oblob':    //    Binary Blob Object
            case 'stream':   //    Binary Stream
            case 'ostream':  //    Binary Stream Object
            case 'storage':  //    Binary Storage
            case 'ostorage': //    Binary Storage Object
            case 'vstream':  //    Binary Versioned Stream
            case 'clsid':    //    Class ID
            case 'cf':       //    Clipboard Data
                return $propertyValue;

                break;
        }

        return $propertyValue;
    }

    public static function convertPropertyType($propertyType)
    {
        switch ($propertyType) {
            case 'i1':       //    1-Byte Signed Integer
            case 'i2':       //    2-Byte Signed Integer
            case 'i4':       //    4-Byte Signed Integer
            case 'i8':       //    8-Byte Signed Integer
            case 'int':      //    Integer
            case 'ui1':      //    1-Byte Unsigned Integer
            case 'ui2':      //    2-Byte Unsigned Integer
            case 'ui4':      //    4-Byte Unsigned Integer
            case 'ui8':      //    8-Byte Unsigned Integer
            case 'uint':     //    Unsigned Integer
                return self::PROPERTY_TYPE_INTEGER;

                break;
            case 'r4':       //    4-Byte Real Number
            case 'r8':       //    8-Byte Real Number
            case 'decimal':  //    Decimal
                return self::PROPERTY_TYPE_FLOAT;

                break;
            case 'empty':    //    Empty
            case 'null':     //    Null
            case 'lpstr':    //    LPSTR
            case 'lpwstr':   //    LPWSTR
            case 'bstr':     //    Basic String
                return self::PROPERTY_TYPE_STRING;

                break;
            case 'date':     //    Date and Time
            case 'filetime': //    File Time
                return self::PROPERTY_TYPE_DATE;

                break;
            case 'bool':     //    Boolean
                return self::PROPERTY_TYPE_BOOLEAN;

                break;
            case 'cy':       //    Currency
            case 'error':    //    Error Status Code
            case 'vector':   //    Vector
            case 'array':    //    Array
            case 'blob':     //    Binary Blob
            case 'oblob':    //    Binary Blob Object
            case 'stream':   //    Binary Stream
            case 'ostream':  //    Binary Stream Object
            case 'storage':  //    Binary Storage
            case 'ostorage': //    Binary Storage Object
            case 'vstream':  //    Binary Versioned Stream
            case 'clsid':    //    Class ID
            case 'cf':       //    Clipboard Data
                return self::PROPERTY_TYPE_UNKNOWN;

                break;
        }

        return self::PROPERTY_TYPE_UNKNOWN;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Document/Security.php000064400000007322151165413770022645
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Document;

use PhpOffice\PhpSpreadsheet\Shared\PasswordHasher;

class Security
{
    /**
     * LockRevision.
     *
     * @var bool
     */
    private $lockRevision = false;

    /**
     * LockStructure.
     *
     * @var bool
     */
    private $lockStructure = false;

    /**
     * LockWindows.
     *
     * @var bool
     */
    private $lockWindows = false;

    /**
     * RevisionsPassword.
     *
     * @var string
     */
    private $revisionsPassword = '';

    /**
     * WorkbookPassword.
     *
     * @var string
     */
    private $workbookPassword = '';

    /**
     * Create a new Document Security instance.
     */
    public function __construct()
    {
    }

    /**
     * Is some sort of document security enabled?
     *
     * @return bool
     */
    public function isSecurityEnabled()
    {
        return  $this->lockRevision ||
                $this->lockStructure ||
                $this->lockWindows;
    }

    /**
     * Get LockRevision.
     *
     * @return bool
     */
    public function getLockRevision()
    {
        return $this->lockRevision;
    }

    /**
     * Set LockRevision.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setLockRevision($pValue)
    {
        $this->lockRevision = $pValue;

        return $this;
    }

    /**
     * Get LockStructure.
     *
     * @return bool
     */
    public function getLockStructure()
    {
        return $this->lockStructure;
    }

    /**
     * Set LockStructure.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setLockStructure($pValue)
    {
        $this->lockStructure = $pValue;

        return $this;
    }

    /**
     * Get LockWindows.
     *
     * @return bool
     */
    public function getLockWindows()
    {
        return $this->lockWindows;
    }

    /**
     * Set LockWindows.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setLockWindows($pValue)
    {
        $this->lockWindows = $pValue;

        return $this;
    }

    /**
     * Get RevisionsPassword (hashed).
     *
     * @return string
     */
    public function getRevisionsPassword()
    {
        return $this->revisionsPassword;
    }

    /**
     * Set RevisionsPassword.
     *
     * @param string $pValue
     * @param bool $pAlreadyHashed If the password has already been hashed,
set this to true
     *
     * @return $this
     */
    public function setRevisionsPassword($pValue, $pAlreadyHashed = false)
    {
        if (!$pAlreadyHashed) {
            $pValue = PasswordHasher::hashPassword($pValue);
        }
        $this->revisionsPassword = $pValue;

        return $this;
    }

    /**
     * Get WorkbookPassword (hashed).
     *
     * @return string
     */
    public function getWorkbookPassword()
    {
        return $this->workbookPassword;
    }

    /**
     * Set WorkbookPassword.
     *
     * @param string $pValue
     * @param bool $pAlreadyHashed If the password has already been hashed,
set this to true
     *
     * @return $this
     */
    public function setWorkbookPassword($pValue, $pAlreadyHashed = false)
    {
        if (!$pAlreadyHashed) {
            $pValue = PasswordHasher::hashPassword($pValue);
        }
        $this->workbookPassword = $pValue;

        return $this;
    }

    /**
     * Implement PHP __clone to create a deep clone, not just a shallow
copy.
     */
    public function __clone()
    {
        $vars = get_object_vars($this);
        foreach ($vars as $key => $value) {
            if (is_object($value)) {
                $this->$key = clone $value;
            } else {
                $this->$key = $value;
            }
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Exception.php000064400000000123151165413770021206
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet;

class Exception extends \Exception
{
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/HashTable.php000064400000007122151165413770021111
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet;

class HashTable
{
    /**
     * HashTable elements.
     *
     * @var IComparable[]
     */
    protected $items = [];

    /**
     * HashTable key map.
     *
     * @var string[]
     */
    protected $keyMap = [];

    /**
     * Create a new \PhpOffice\PhpSpreadsheet\HashTable.
     *
     * @param IComparable[] $pSource Optional source array to create
HashTable from
     *
     * @throws Exception
     */
    public function __construct($pSource = null)
    {
        if ($pSource !== null) {
            // Create HashTable
            $this->addFromSource($pSource);
        }
    }

    /**
     * Add HashTable items from source.
     *
     * @param IComparable[] $pSource Source array to create HashTable from
     *
     * @throws Exception
     */
    public function addFromSource(array $pSource = null)
    {
        // Check if an array was passed
        if ($pSource == null) {
            return;
        }

        foreach ($pSource as $item) {
            $this->add($item);
        }
    }

    /**
     * Add HashTable item.
     *
     * @param IComparable $pSource Item to add
     */
    public function add(IComparable $pSource)
    {
        $hash = $pSource->getHashCode();
        if (!isset($this->items[$hash])) {
            $this->items[$hash] = $pSource;
            $this->keyMap[count($this->items) - 1] = $hash;
        }
    }

    /**
     * Remove HashTable item.
     *
     * @param IComparable $pSource Item to remove
     */
    public function remove(IComparable $pSource)
    {
        $hash = $pSource->getHashCode();
        if (isset($this->items[$hash])) {
            unset($this->items[$hash]);

            $deleteKey = -1;
            foreach ($this->keyMap as $key => $value) {
                if ($deleteKey >= 0) {
                    $this->keyMap[$key - 1] = $value;
                }

                if ($value == $hash) {
                    $deleteKey = $key;
                }
            }
            unset($this->keyMap[count($this->keyMap) - 1]);
        }
    }

    /**
     * Clear HashTable.
     */
    public function clear()
    {
        $this->items = [];
        $this->keyMap = [];
    }

    /**
     * Count.
     *
     * @return int
     */
    public function count()
    {
        return count($this->items);
    }

    /**
     * Get index for hash code.
     *
     * @param string $pHashCode
     *
     * @return int Index
     */
    public function getIndexForHashCode($pHashCode)
    {
        return array_search($pHashCode, $this->keyMap);
    }

    /**
     * Get by index.
     *
     * @param int $pIndex
     *
     * @return IComparable
     */
    public function getByIndex($pIndex)
    {
        if (isset($this->keyMap[$pIndex])) {
            return $this->getByHashCode($this->keyMap[$pIndex]);
        }

        return null;
    }

    /**
     * Get by hashcode.
     *
     * @param string $pHashCode
     *
     * @return IComparable
     */
    public function getByHashCode($pHashCode)
    {
        if (isset($this->items[$pHashCode])) {
            return $this->items[$pHashCode];
        }

        return null;
    }

    /**
     * HashTable to array.
     *
     * @return IComparable[]
     */
    public function toArray()
    {
        return $this->items;
    }

    /**
     * Implement PHP __clone to create a deep clone, not just a shallow
copy.
     */
    public function __clone()
    {
        $vars = get_object_vars($this);
        foreach ($vars as $key => $value) {
            if (is_object($value)) {
                $this->$key = clone $value;
            }
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Helper/Html.php000064400000061417151165414000021373
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Helper;

use DOMDocument;
use DOMElement;
use DOMNode;
use DOMText;
use PhpOffice\PhpSpreadsheet\RichText\RichText;
use PhpOffice\PhpSpreadsheet\Style\Color;
use PhpOffice\PhpSpreadsheet\Style\Font;

class Html
{
    protected static $colourMap = [
        'aliceblue' => 'f0f8ff',
        'antiquewhite' => 'faebd7',
        'antiquewhite1' => 'ffefdb',
        'antiquewhite2' => 'eedfcc',
        'antiquewhite3' => 'cdc0b0',
        'antiquewhite4' => '8b8378',
        'aqua' => '00ffff',
        'aquamarine1' => '7fffd4',
        'aquamarine2' => '76eec6',
        'aquamarine4' => '458b74',
        'azure1' => 'f0ffff',
        'azure2' => 'e0eeee',
        'azure3' => 'c1cdcd',
        'azure4' => '838b8b',
        'beige' => 'f5f5dc',
        'bisque1' => 'ffe4c4',
        'bisque2' => 'eed5b7',
        'bisque3' => 'cdb79e',
        'bisque4' => '8b7d6b',
        'black' => '000000',
        'blanchedalmond' => 'ffebcd',
        'blue' => '0000ff',
        'blue1' => '0000ff',
        'blue2' => '0000ee',
        'blue4' => '00008b',
        'blueviolet' => '8a2be2',
        'brown' => 'a52a2a',
        'brown1' => 'ff4040',
        'brown2' => 'ee3b3b',
        'brown3' => 'cd3333',
        'brown4' => '8b2323',
        'burlywood' => 'deb887',
        'burlywood1' => 'ffd39b',
        'burlywood2' => 'eec591',
        'burlywood3' => 'cdaa7d',
        'burlywood4' => '8b7355',
        'cadetblue' => '5f9ea0',
        'cadetblue1' => '98f5ff',
        'cadetblue2' => '8ee5ee',
        'cadetblue3' => '7ac5cd',
        'cadetblue4' => '53868b',
        'chartreuse1' => '7fff00',
        'chartreuse2' => '76ee00',
        'chartreuse3' => '66cd00',
        'chartreuse4' => '458b00',
        'chocolate' => 'd2691e',
        'chocolate1' => 'ff7f24',
        'chocolate2' => 'ee7621',
        'chocolate3' => 'cd661d',
        'coral' => 'ff7f50',
        'coral1' => 'ff7256',
        'coral2' => 'ee6a50',
        'coral3' => 'cd5b45',
        'coral4' => '8b3e2f',
        'cornflowerblue' => '6495ed',
        'cornsilk1' => 'fff8dc',
        'cornsilk2' => 'eee8cd',
        'cornsilk3' => 'cdc8b1',
        'cornsilk4' => '8b8878',
        'cyan1' => '00ffff',
        'cyan2' => '00eeee',
        'cyan3' => '00cdcd',
        'cyan4' => '008b8b',
        'darkgoldenrod' => 'b8860b',
        'darkgoldenrod1' => 'ffb90f',
        'darkgoldenrod2' => 'eead0e',
        'darkgoldenrod3' => 'cd950c',
        'darkgoldenrod4' => '8b6508',
        'darkgreen' => '006400',
        'darkkhaki' => 'bdb76b',
        'darkolivegreen' => '556b2f',
        'darkolivegreen1' => 'caff70',
        'darkolivegreen2' => 'bcee68',
        'darkolivegreen3' => 'a2cd5a',
        'darkolivegreen4' => '6e8b3d',
        'darkorange' => 'ff8c00',
        'darkorange1' => 'ff7f00',
        'darkorange2' => 'ee7600',
        'darkorange3' => 'cd6600',
        'darkorange4' => '8b4500',
        'darkorchid' => '9932cc',
        'darkorchid1' => 'bf3eff',
        'darkorchid2' => 'b23aee',
        'darkorchid3' => '9a32cd',
        'darkorchid4' => '68228b',
        'darksalmon' => 'e9967a',
        'darkseagreen' => '8fbc8f',
        'darkseagreen1' => 'c1ffc1',
        'darkseagreen2' => 'b4eeb4',
        'darkseagreen3' => '9bcd9b',
        'darkseagreen4' => '698b69',
        'darkslateblue' => '483d8b',
        'darkslategray' => '2f4f4f',
        'darkslategray1' => '97ffff',
        'darkslategray2' => '8deeee',
        'darkslategray3' => '79cdcd',
        'darkslategray4' => '528b8b',
        'darkturquoise' => '00ced1',
        'darkviolet' => '9400d3',
        'deeppink1' => 'ff1493',
        'deeppink2' => 'ee1289',
        'deeppink3' => 'cd1076',
        'deeppink4' => '8b0a50',
        'deepskyblue1' => '00bfff',
        'deepskyblue2' => '00b2ee',
        'deepskyblue3' => '009acd',
        'deepskyblue4' => '00688b',
        'dimgray' => '696969',
        'dodgerblue1' => '1e90ff',
        'dodgerblue2' => '1c86ee',
        'dodgerblue3' => '1874cd',
        'dodgerblue4' => '104e8b',
        'firebrick' => 'b22222',
        'firebrick1' => 'ff3030',
        'firebrick2' => 'ee2c2c',
        'firebrick3' => 'cd2626',
        'firebrick4' => '8b1a1a',
        'floralwhite' => 'fffaf0',
        'forestgreen' => '228b22',
        'fuchsia' => 'ff00ff',
        'gainsboro' => 'dcdcdc',
        'ghostwhite' => 'f8f8ff',
        'gold1' => 'ffd700',
        'gold2' => 'eec900',
        'gold3' => 'cdad00',
        'gold4' => '8b7500',
        'goldenrod' => 'daa520',
        'goldenrod1' => 'ffc125',
        'goldenrod2' => 'eeb422',
        'goldenrod3' => 'cd9b1d',
        'goldenrod4' => '8b6914',
        'gray' => 'bebebe',
        'gray1' => '030303',
        'gray10' => '1a1a1a',
        'gray11' => '1c1c1c',
        'gray12' => '1f1f1f',
        'gray13' => '212121',
        'gray14' => '242424',
        'gray15' => '262626',
        'gray16' => '292929',
        'gray17' => '2b2b2b',
        'gray18' => '2e2e2e',
        'gray19' => '303030',
        'gray2' => '050505',
        'gray20' => '333333',
        'gray21' => '363636',
        'gray22' => '383838',
        'gray23' => '3b3b3b',
        'gray24' => '3d3d3d',
        'gray25' => '404040',
        'gray26' => '424242',
        'gray27' => '454545',
        'gray28' => '474747',
        'gray29' => '4a4a4a',
        'gray3' => '080808',
        'gray30' => '4d4d4d',
        'gray31' => '4f4f4f',
        'gray32' => '525252',
        'gray33' => '545454',
        'gray34' => '575757',
        'gray35' => '595959',
        'gray36' => '5c5c5c',
        'gray37' => '5e5e5e',
        'gray38' => '616161',
        'gray39' => '636363',
        'gray4' => '0a0a0a',
        'gray40' => '666666',
        'gray41' => '696969',
        'gray42' => '6b6b6b',
        'gray43' => '6e6e6e',
        'gray44' => '707070',
        'gray45' => '737373',
        'gray46' => '757575',
        'gray47' => '787878',
        'gray48' => '7a7a7a',
        'gray49' => '7d7d7d',
        'gray5' => '0d0d0d',
        'gray50' => '7f7f7f',
        'gray51' => '828282',
        'gray52' => '858585',
        'gray53' => '878787',
        'gray54' => '8a8a8a',
        'gray55' => '8c8c8c',
        'gray56' => '8f8f8f',
        'gray57' => '919191',
        'gray58' => '949494',
        'gray59' => '969696',
        'gray6' => '0f0f0f',
        'gray60' => '999999',
        'gray61' => '9c9c9c',
        'gray62' => '9e9e9e',
        'gray63' => 'a1a1a1',
        'gray64' => 'a3a3a3',
        'gray65' => 'a6a6a6',
        'gray66' => 'a8a8a8',
        'gray67' => 'ababab',
        'gray68' => 'adadad',
        'gray69' => 'b0b0b0',
        'gray7' => '121212',
        'gray70' => 'b3b3b3',
        'gray71' => 'b5b5b5',
        'gray72' => 'b8b8b8',
        'gray73' => 'bababa',
        'gray74' => 'bdbdbd',
        'gray75' => 'bfbfbf',
        'gray76' => 'c2c2c2',
        'gray77' => 'c4c4c4',
        'gray78' => 'c7c7c7',
        'gray79' => 'c9c9c9',
        'gray8' => '141414',
        'gray80' => 'cccccc',
        'gray81' => 'cfcfcf',
        'gray82' => 'd1d1d1',
        'gray83' => 'd4d4d4',
        'gray84' => 'd6d6d6',
        'gray85' => 'd9d9d9',
        'gray86' => 'dbdbdb',
        'gray87' => 'dedede',
        'gray88' => 'e0e0e0',
        'gray89' => 'e3e3e3',
        'gray9' => '171717',
        'gray90' => 'e5e5e5',
        'gray91' => 'e8e8e8',
        'gray92' => 'ebebeb',
        'gray93' => 'ededed',
        'gray94' => 'f0f0f0',
        'gray95' => 'f2f2f2',
        'gray97' => 'f7f7f7',
        'gray98' => 'fafafa',
        'gray99' => 'fcfcfc',
        'green' => '00ff00',
        'green1' => '00ff00',
        'green2' => '00ee00',
        'green3' => '00cd00',
        'green4' => '008b00',
        'greenyellow' => 'adff2f',
        'honeydew1' => 'f0fff0',
        'honeydew2' => 'e0eee0',
        'honeydew3' => 'c1cdc1',
        'honeydew4' => '838b83',
        'hotpink' => 'ff69b4',
        'hotpink1' => 'ff6eb4',
        'hotpink2' => 'ee6aa7',
        'hotpink3' => 'cd6090',
        'hotpink4' => '8b3a62',
        'indianred' => 'cd5c5c',
        'indianred1' => 'ff6a6a',
        'indianred2' => 'ee6363',
        'indianred3' => 'cd5555',
        'indianred4' => '8b3a3a',
        'ivory1' => 'fffff0',
        'ivory2' => 'eeeee0',
        'ivory3' => 'cdcdc1',
        'ivory4' => '8b8b83',
        'khaki' => 'f0e68c',
        'khaki1' => 'fff68f',
        'khaki2' => 'eee685',
        'khaki3' => 'cdc673',
        'khaki4' => '8b864e',
        'lavender' => 'e6e6fa',
        'lavenderblush1' => 'fff0f5',
        'lavenderblush2' => 'eee0e5',
        'lavenderblush3' => 'cdc1c5',
        'lavenderblush4' => '8b8386',
        'lawngreen' => '7cfc00',
        'lemonchiffon1' => 'fffacd',
        'lemonchiffon2' => 'eee9bf',
        'lemonchiffon3' => 'cdc9a5',
        'lemonchiffon4' => '8b8970',
        'light' => 'eedd82',
        'lightblue' => 'add8e6',
        'lightblue1' => 'bfefff',
        'lightblue2' => 'b2dfee',
        'lightblue3' => '9ac0cd',
        'lightblue4' => '68838b',
        'lightcoral' => 'f08080',
        'lightcyan1' => 'e0ffff',
        'lightcyan2' => 'd1eeee',
        'lightcyan3' => 'b4cdcd',
        'lightcyan4' => '7a8b8b',
        'lightgoldenrod1' => 'ffec8b',
        'lightgoldenrod2' => 'eedc82',
        'lightgoldenrod3' => 'cdbe70',
        'lightgoldenrod4' => '8b814c',
        'lightgoldenrodyellow' => 'fafad2',
        'lightgray' => 'd3d3d3',
        'lightpink' => 'ffb6c1',
        'lightpink1' => 'ffaeb9',
        'lightpink2' => 'eea2ad',
        'lightpink3' => 'cd8c95',
        'lightpink4' => '8b5f65',
        'lightsalmon1' => 'ffa07a',
        'lightsalmon2' => 'ee9572',
        'lightsalmon3' => 'cd8162',
        'lightsalmon4' => '8b5742',
        'lightseagreen' => '20b2aa',
        'lightskyblue' => '87cefa',
        'lightskyblue1' => 'b0e2ff',
        'lightskyblue2' => 'a4d3ee',
        'lightskyblue3' => '8db6cd',
        'lightskyblue4' => '607b8b',
        'lightslateblue' => '8470ff',
        'lightslategray' => '778899',
        'lightsteelblue' => 'b0c4de',
        'lightsteelblue1' => 'cae1ff',
        'lightsteelblue2' => 'bcd2ee',
        'lightsteelblue3' => 'a2b5cd',
        'lightsteelblue4' => '6e7b8b',
        'lightyellow1' => 'ffffe0',
        'lightyellow2' => 'eeeed1',
        'lightyellow3' => 'cdcdb4',
        'lightyellow4' => '8b8b7a',
        'lime' => '00ff00',
        'limegreen' => '32cd32',
        'linen' => 'faf0e6',
        'magenta' => 'ff00ff',
        'magenta2' => 'ee00ee',
        'magenta3' => 'cd00cd',
        'magenta4' => '8b008b',
        'maroon' => 'b03060',
        'maroon1' => 'ff34b3',
        'maroon2' => 'ee30a7',
        'maroon3' => 'cd2990',
        'maroon4' => '8b1c62',
        'medium' => '66cdaa',
        'mediumaquamarine' => '66cdaa',
        'mediumblue' => '0000cd',
        'mediumorchid' => 'ba55d3',
        'mediumorchid1' => 'e066ff',
        'mediumorchid2' => 'd15fee',
        'mediumorchid3' => 'b452cd',
        'mediumorchid4' => '7a378b',
        'mediumpurple' => '9370db',
        'mediumpurple1' => 'ab82ff',
        'mediumpurple2' => '9f79ee',
        'mediumpurple3' => '8968cd',
        'mediumpurple4' => '5d478b',
        'mediumseagreen' => '3cb371',
        'mediumslateblue' => '7b68ee',
        'mediumspringgreen' => '00fa9a',
        'mediumturquoise' => '48d1cc',
        'mediumvioletred' => 'c71585',
        'midnightblue' => '191970',
        'mintcream' => 'f5fffa',
        'mistyrose1' => 'ffe4e1',
        'mistyrose2' => 'eed5d2',
        'mistyrose3' => 'cdb7b5',
        'mistyrose4' => '8b7d7b',
        'moccasin' => 'ffe4b5',
        'navajowhite1' => 'ffdead',
        'navajowhite2' => 'eecfa1',
        'navajowhite3' => 'cdb38b',
        'navajowhite4' => '8b795e',
        'navy' => '000080',
        'navyblue' => '000080',
        'oldlace' => 'fdf5e6',
        'olive' => '808000',
        'olivedrab' => '6b8e23',
        'olivedrab1' => 'c0ff3e',
        'olivedrab2' => 'b3ee3a',
        'olivedrab4' => '698b22',
        'orange' => 'ffa500',
        'orange1' => 'ffa500',
        'orange2' => 'ee9a00',
        'orange3' => 'cd8500',
        'orange4' => '8b5a00',
        'orangered1' => 'ff4500',
        'orangered2' => 'ee4000',
        'orangered3' => 'cd3700',
        'orangered4' => '8b2500',
        'orchid' => 'da70d6',
        'orchid1' => 'ff83fa',
        'orchid2' => 'ee7ae9',
        'orchid3' => 'cd69c9',
        'orchid4' => '8b4789',
        'pale' => 'db7093',
        'palegoldenrod' => 'eee8aa',
        'palegreen' => '98fb98',
        'palegreen1' => '9aff9a',
        'palegreen2' => '90ee90',
        'palegreen3' => '7ccd7c',
        'palegreen4' => '548b54',
        'paleturquoise' => 'afeeee',
        'paleturquoise1' => 'bbffff',
        'paleturquoise2' => 'aeeeee',
        'paleturquoise3' => '96cdcd',
        'paleturquoise4' => '668b8b',
        'palevioletred' => 'db7093',
        'palevioletred1' => 'ff82ab',
        'palevioletred2' => 'ee799f',
        'palevioletred3' => 'cd6889',
        'palevioletred4' => '8b475d',
        'papayawhip' => 'ffefd5',
        'peachpuff1' => 'ffdab9',
        'peachpuff2' => 'eecbad',
        'peachpuff3' => 'cdaf95',
        'peachpuff4' => '8b7765',
        'pink' => 'ffc0cb',
        'pink1' => 'ffb5c5',
        'pink2' => 'eea9b8',
        'pink3' => 'cd919e',
        'pink4' => '8b636c',
        'plum' => 'dda0dd',
        'plum1' => 'ffbbff',
        'plum2' => 'eeaeee',
        'plum3' => 'cd96cd',
        'plum4' => '8b668b',
        'powderblue' => 'b0e0e6',
        'purple' => 'a020f0',
        'rebeccapurple' => '663399',
        'purple1' => '9b30ff',
        'purple2' => '912cee',
        'purple3' => '7d26cd',
        'purple4' => '551a8b',
        'red' => 'ff0000',
        'red1' => 'ff0000',
        'red2' => 'ee0000',
        'red3' => 'cd0000',
        'red4' => '8b0000',
        'rosybrown' => 'bc8f8f',
        'rosybrown1' => 'ffc1c1',
        'rosybrown2' => 'eeb4b4',
        'rosybrown3' => 'cd9b9b',
        'rosybrown4' => '8b6969',
        'royalblue' => '4169e1',
        'royalblue1' => '4876ff',
        'royalblue2' => '436eee',
        'royalblue3' => '3a5fcd',
        'royalblue4' => '27408b',
        'saddlebrown' => '8b4513',
        'salmon' => 'fa8072',
        'salmon1' => 'ff8c69',
        'salmon2' => 'ee8262',
        'salmon3' => 'cd7054',
        'salmon4' => '8b4c39',
        'sandybrown' => 'f4a460',
        'seagreen1' => '54ff9f',
        'seagreen2' => '4eee94',
        'seagreen3' => '43cd80',
        'seagreen4' => '2e8b57',
        'seashell1' => 'fff5ee',
        'seashell2' => 'eee5de',
        'seashell3' => 'cdc5bf',
        'seashell4' => '8b8682',
        'sienna' => 'a0522d',
        'sienna1' => 'ff8247',
        'sienna2' => 'ee7942',
        'sienna3' => 'cd6839',
        'sienna4' => '8b4726',
        'silver' => 'c0c0c0',
        'skyblue' => '87ceeb',
        'skyblue1' => '87ceff',
        'skyblue2' => '7ec0ee',
        'skyblue3' => '6ca6cd',
        'skyblue4' => '4a708b',
        'slateblue' => '6a5acd',
        'slateblue1' => '836fff',
        'slateblue2' => '7a67ee',
        'slateblue3' => '6959cd',
        'slateblue4' => '473c8b',
        'slategray' => '708090',
        'slategray1' => 'c6e2ff',
        'slategray2' => 'b9d3ee',
        'slategray3' => '9fb6cd',
        'slategray4' => '6c7b8b',
        'snow1' => 'fffafa',
        'snow2' => 'eee9e9',
        'snow3' => 'cdc9c9',
        'snow4' => '8b8989',
        'springgreen1' => '00ff7f',
        'springgreen2' => '00ee76',
        'springgreen3' => '00cd66',
        'springgreen4' => '008b45',
        'steelblue' => '4682b4',
        'steelblue1' => '63b8ff',
        'steelblue2' => '5cacee',
        'steelblue3' => '4f94cd',
        'steelblue4' => '36648b',
        'tan' => 'd2b48c',
        'tan1' => 'ffa54f',
        'tan2' => 'ee9a49',
        'tan3' => 'cd853f',
        'tan4' => '8b5a2b',
        'teal' => '008080',
        'thistle' => 'd8bfd8',
        'thistle1' => 'ffe1ff',
        'thistle2' => 'eed2ee',
        'thistle3' => 'cdb5cd',
        'thistle4' => '8b7b8b',
        'tomato1' => 'ff6347',
        'tomato2' => 'ee5c42',
        'tomato3' => 'cd4f39',
        'tomato4' => '8b3626',
        'turquoise' => '40e0d0',
        'turquoise1' => '00f5ff',
        'turquoise2' => '00e5ee',
        'turquoise3' => '00c5cd',
        'turquoise4' => '00868b',
        'violet' => 'ee82ee',
        'violetred' => 'd02090',
        'violetred1' => 'ff3e96',
        'violetred2' => 'ee3a8c',
        'violetred3' => 'cd3278',
        'violetred4' => '8b2252',
        'wheat' => 'f5deb3',
        'wheat1' => 'ffe7ba',
        'wheat2' => 'eed8ae',
        'wheat3' => 'cdba96',
        'wheat4' => '8b7e66',
        'white' => 'ffffff',
        'whitesmoke' => 'f5f5f5',
        'yellow' => 'ffff00',
        'yellow1' => 'ffff00',
        'yellow2' => 'eeee00',
        'yellow3' => 'cdcd00',
        'yellow4' => '8b8b00',
        'yellowgreen' => '9acd32',
    ];

    protected $face;

    protected $size;

    protected $color;

    protected $bold = false;

    protected $italic = false;

    protected $underline = false;

    protected $superscript = false;

    protected $subscript = false;

    protected $strikethrough = false;

    protected $startTagCallbacks = [
        'font' => 'startFontTag',
        'b' => 'startBoldTag',
        'strong' => 'startBoldTag',
        'i' => 'startItalicTag',
        'em' => 'startItalicTag',
        'u' => 'startUnderlineTag',
        'ins' => 'startUnderlineTag',
        'del' => 'startStrikethruTag',
        'sup' => 'startSuperscriptTag',
        'sub' => 'startSubscriptTag',
    ];

    protected $endTagCallbacks = [
        'font' => 'endFontTag',
        'b' => 'endBoldTag',
        'strong' => 'endBoldTag',
        'i' => 'endItalicTag',
        'em' => 'endItalicTag',
        'u' => 'endUnderlineTag',
        'ins' => 'endUnderlineTag',
        'del' => 'endStrikethruTag',
        'sup' => 'endSuperscriptTag',
        'sub' => 'endSubscriptTag',
        'br' => 'breakTag',
        'p' => 'breakTag',
        'h1' => 'breakTag',
        'h2' => 'breakTag',
        'h3' => 'breakTag',
        'h4' => 'breakTag',
        'h5' => 'breakTag',
        'h6' => 'breakTag',
    ];

    protected $stack = [];

    protected $stringData = '';

    /**
     * @var RichText
     */
    protected $richTextObject;

    protected function initialise()
    {
        $this->face = $this->size = $this->color = null;
        $this->bold = $this->italic = $this->underline =
$this->superscript = $this->subscript = $this->strikethrough =
false;

        $this->stack = [];

        $this->stringData = '';
    }

    /**
     * Parse HTML formatting and return the resulting RichText.
     *
     * @param string $html
     *
     * @return RichText
     */
    public function toRichTextObject($html)
    {
        $this->initialise();

        //    Create a new DOM object
        $dom = new DOMDocument();
        //    Load the HTML file into the DOM object
        //  Note the use of error suppression, because typically this will
be an html fragment, so not fully valid markup
        $prefix = '<?xml encoding="UTF-8">';
        @$dom->loadHTML($prefix . $html, LIBXML_HTML_NOIMPLIED |
LIBXML_HTML_NODEFDTD);
        //    Discard excess white space
        $dom->preserveWhiteSpace = false;

        $this->richTextObject = new RichText();
        $this->parseElements($dom);

        // Clean any further spurious whitespace
        $this->cleanWhitespace();

        return $this->richTextObject;
    }

    protected function cleanWhitespace()
    {
        foreach ($this->richTextObject->getRichTextElements() as $key
=> $element) {
            $text = $element->getText();
            // Trim any leading spaces on the first run
            if ($key == 0) {
                $text = ltrim($text);
            }
            // Trim any spaces immediately after a line break
            $text = preg_replace('/\n */mu', "\n",
$text);
            $element->setText($text);
        }
    }

    protected function buildTextRun()
    {
        $text = $this->stringData;
        if (trim($text) === '') {
            return;
        }

        $richtextRun =
$this->richTextObject->createTextRun($this->stringData);
        if ($this->face) {
            $richtextRun->getFont()->setName($this->face);
        }
        if ($this->size) {
            $richtextRun->getFont()->setSize($this->size);
        }
        if ($this->color) {
            $richtextRun->getFont()->setColor(new
Color('ff' . $this->color));
        }
        if ($this->bold) {
            $richtextRun->getFont()->setBold(true);
        }
        if ($this->italic) {
            $richtextRun->getFont()->setItalic(true);
        }
        if ($this->underline) {
           
$richtextRun->getFont()->setUnderline(Font::UNDERLINE_SINGLE);
        }
        if ($this->superscript) {
            $richtextRun->getFont()->setSuperscript(true);
        }
        if ($this->subscript) {
            $richtextRun->getFont()->setSubscript(true);
        }
        if ($this->strikethrough) {
            $richtextRun->getFont()->setStrikethrough(true);
        }
        $this->stringData = '';
    }

    protected function rgbToColour($rgb)
    {
        preg_match_all('/\d+/', $rgb, $values);
        foreach ($values[0] as &$value) {
            $value = str_pad(dechex($value), 2, '0',
STR_PAD_LEFT);
        }

        return implode($values[0]);
    }

    protected function colourNameLookup($rgb)
    {
        return self::$colourMap[$rgb];
    }

    protected function startFontTag($tag)
    {
        foreach ($tag->attributes as $attribute) {
            $attributeName = strtolower($attribute->name);
            $attributeValue = $attribute->value;

            if ($attributeName == 'color') {
                if (preg_match('/rgb\s*\(/', $attributeValue)) {
                    $this->$attributeName =
$this->rgbToColour($attributeValue);
                } elseif (strpos(trim($attributeValue), '#') ===
0) {
                    $this->$attributeName = ltrim($attributeValue,
'#');
                } else {
                    $this->$attributeName =
$this->colourNameLookup($attributeValue);
                }
            } else {
                $this->$attributeName = $attributeValue;
            }
        }
    }

    protected function endFontTag()
    {
        $this->face = $this->size = $this->color = null;
    }

    protected function startBoldTag()
    {
        $this->bold = true;
    }

    protected function endBoldTag()
    {
        $this->bold = false;
    }

    protected function startItalicTag()
    {
        $this->italic = true;
    }

    protected function endItalicTag()
    {
        $this->italic = false;
    }

    protected function startUnderlineTag()
    {
        $this->underline = true;
    }

    protected function endUnderlineTag()
    {
        $this->underline = false;
    }

    protected function startSubscriptTag()
    {
        $this->subscript = true;
    }

    protected function endSubscriptTag()
    {
        $this->subscript = false;
    }

    protected function startSuperscriptTag()
    {
        $this->superscript = true;
    }

    protected function endSuperscriptTag()
    {
        $this->superscript = false;
    }

    protected function startStrikethruTag()
    {
        $this->strikethrough = true;
    }

    protected function endStrikethruTag()
    {
        $this->strikethrough = false;
    }

    protected function breakTag()
    {
        $this->stringData .= "\n";
    }

    protected function parseTextNode(DOMText $textNode)
    {
        $domText = preg_replace(
            '/\s+/u',
            ' ',
            str_replace(["\r", "\n"], ' ',
$textNode->nodeValue)
        );
        $this->stringData .= $domText;
        $this->buildTextRun();
    }

    /**
     * @param DOMElement $element
     * @param string $callbackTag
     * @param array $callbacks
     */
    protected function handleCallback(DOMElement $element, $callbackTag,
array $callbacks)
    {
        if (isset($callbacks[$callbackTag])) {
            $elementHandler = $callbacks[$callbackTag];
            if (method_exists($this, $elementHandler)) {
                call_user_func([$this, $elementHandler], $element);
            }
        }
    }

    protected function parseElementNode(DOMElement $element)
    {
        $callbackTag = strtolower($element->nodeName);
        $this->stack[] = $callbackTag;

        $this->handleCallback($element, $callbackTag,
$this->startTagCallbacks);

        $this->parseElements($element);
        array_pop($this->stack);

        $this->handleCallback($element, $callbackTag,
$this->endTagCallbacks);
    }

    protected function parseElements(DOMNode $element)
    {
        foreach ($element->childNodes as $child) {
            if ($child instanceof DOMText) {
                $this->parseTextNode($child);
            } elseif ($child instanceof DOMElement) {
                $this->parseElementNode($child);
            }
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Helper/Migrator.php000064400000056076151165414000022260
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Helper;

class Migrator
{
    /**
     * @var string[]
     */
    private $from;

    /**
     * @var string[]
     */
    private $to;

    public function __construct()
    {
        $this->from = array_keys($this->getMapping());
        $this->to = array_values($this->getMapping());
    }

    /**
     * Return the ordered mapping from old PHPExcel class names to new
PhpSpreadsheet one.
     *
     * @return string[]
     */
    public function getMapping()
    {
        // Order matters here, we should have the deepest namespaces first
(the most "unique" strings)
        $classes = [
           
'PHPExcel_Shared_Escher_DggContainer_BstoreContainer_BSE_Blip'
=>
\PhpOffice\PhpSpreadsheet\Shared\Escher\DggContainer\BstoreContainer\BSE\Blip::class,
           
'PHPExcel_Shared_Escher_DgContainer_SpgrContainer_SpContainer'
=>
\PhpOffice\PhpSpreadsheet\Shared\Escher\DgContainer\SpgrContainer\SpContainer::class,
           
'PHPExcel_Shared_Escher_DggContainer_BstoreContainer_BSE' =>
\PhpOffice\PhpSpreadsheet\Shared\Escher\DggContainer\BstoreContainer\BSE::class,
            'PHPExcel_Shared_Escher_DgContainer_SpgrContainer'
=>
\PhpOffice\PhpSpreadsheet\Shared\Escher\DgContainer\SpgrContainer::class,
            'PHPExcel_Shared_Escher_DggContainer_BstoreContainer'
=>
\PhpOffice\PhpSpreadsheet\Shared\Escher\DggContainer\BstoreContainer::class,
            'PHPExcel_Shared_OLE_PPS_File' =>
\PhpOffice\PhpSpreadsheet\Shared\OLE\PPS\File::class,
            'PHPExcel_Shared_OLE_PPS_Root' =>
\PhpOffice\PhpSpreadsheet\Shared\OLE\PPS\Root::class,
            'PHPExcel_Worksheet_AutoFilter_Column_Rule' =>
\PhpOffice\PhpSpreadsheet\Worksheet\AutoFilter\Column\Rule::class,
            'PHPExcel_Writer_OpenDocument_Cell_Comment' =>
\PhpOffice\PhpSpreadsheet\Writer\Ods\Cell\Comment::class,
            'PHPExcel_Calculation_Token_Stack' =>
\PhpOffice\PhpSpreadsheet\Calculation\Token\Stack::class,
            'PHPExcel_Chart_Renderer_jpgraph' =>
\PhpOffice\PhpSpreadsheet\Chart\Renderer\JpGraph::class,
            'PHPExcel_Reader_Excel5_Escher' =>
\PhpOffice\PhpSpreadsheet\Reader\Xls\Escher::class,
            'PHPExcel_Reader_Excel5_MD5' =>
\PhpOffice\PhpSpreadsheet\Reader\Xls\MD5::class,
            'PHPExcel_Reader_Excel5_RC4' =>
\PhpOffice\PhpSpreadsheet\Reader\Xls\RC4::class,
            'PHPExcel_Reader_Excel2007_Chart' =>
\PhpOffice\PhpSpreadsheet\Reader\Xlsx\Chart::class,
            'PHPExcel_Reader_Excel2007_Theme' =>
\PhpOffice\PhpSpreadsheet\Reader\Xlsx\Theme::class,
            'PHPExcel_Shared_Escher_DgContainer' =>
\PhpOffice\PhpSpreadsheet\Shared\Escher\DgContainer::class,
            'PHPExcel_Shared_Escher_DggContainer' =>
\PhpOffice\PhpSpreadsheet\Shared\Escher\DggContainer::class,
            'CholeskyDecomposition' =>
\PhpOffice\PhpSpreadsheet\Shared\JAMA\CholeskyDecomposition::class,
            'EigenvalueDecomposition' =>
\PhpOffice\PhpSpreadsheet\Shared\JAMA\EigenvalueDecomposition::class,
            'PHPExcel_Shared_JAMA_LUDecomposition' =>
\PhpOffice\PhpSpreadsheet\Shared\JAMA\LUDecomposition::class,
            'PHPExcel_Shared_JAMA_Matrix' =>
\PhpOffice\PhpSpreadsheet\Shared\JAMA\Matrix::class,
            'QRDecomposition' =>
\PhpOffice\PhpSpreadsheet\Shared\JAMA\QRDecomposition::class,
            'PHPExcel_Shared_JAMA_QRDecomposition' =>
\PhpOffice\PhpSpreadsheet\Shared\JAMA\QRDecomposition::class,
            'SingularValueDecomposition' =>
\PhpOffice\PhpSpreadsheet\Shared\JAMA\SingularValueDecomposition::class,
            'PHPExcel_Shared_OLE_ChainedBlockStream' =>
\PhpOffice\PhpSpreadsheet\Shared\OLE\ChainedBlockStream::class,
            'PHPExcel_Shared_OLE_PPS' =>
\PhpOffice\PhpSpreadsheet\Shared\OLE\PPS::class,
            'PHPExcel_Best_Fit' =>
\PhpOffice\PhpSpreadsheet\Shared\Trend\BestFit::class,
            'PHPExcel_Exponential_Best_Fit' =>
\PhpOffice\PhpSpreadsheet\Shared\Trend\ExponentialBestFit::class,
            'PHPExcel_Linear_Best_Fit' =>
\PhpOffice\PhpSpreadsheet\Shared\Trend\LinearBestFit::class,
            'PHPExcel_Logarithmic_Best_Fit' =>
\PhpOffice\PhpSpreadsheet\Shared\Trend\LogarithmicBestFit::class,
            'polynomialBestFit' =>
\PhpOffice\PhpSpreadsheet\Shared\Trend\PolynomialBestFit::class,
            'PHPExcel_Polynomial_Best_Fit' =>
\PhpOffice\PhpSpreadsheet\Shared\Trend\PolynomialBestFit::class,
            'powerBestFit' =>
\PhpOffice\PhpSpreadsheet\Shared\Trend\PowerBestFit::class,
            'PHPExcel_Power_Best_Fit' =>
\PhpOffice\PhpSpreadsheet\Shared\Trend\PowerBestFit::class,
            'trendClass' =>
\PhpOffice\PhpSpreadsheet\Shared\Trend\Trend::class,
            'PHPExcel_Worksheet_AutoFilter_Column' =>
\PhpOffice\PhpSpreadsheet\Worksheet\AutoFilter\Column::class,
            'PHPExcel_Worksheet_Drawing_Shadow' =>
\PhpOffice\PhpSpreadsheet\Worksheet\Drawing\Shadow::class,
            'PHPExcel_Writer_OpenDocument_Content' =>
\PhpOffice\PhpSpreadsheet\Writer\Ods\Content::class,
            'PHPExcel_Writer_OpenDocument_Meta' =>
\PhpOffice\PhpSpreadsheet\Writer\Ods\Meta::class,
            'PHPExcel_Writer_OpenDocument_MetaInf' =>
\PhpOffice\PhpSpreadsheet\Writer\Ods\MetaInf::class,
            'PHPExcel_Writer_OpenDocument_Mimetype' =>
\PhpOffice\PhpSpreadsheet\Writer\Ods\Mimetype::class,
            'PHPExcel_Writer_OpenDocument_Settings' =>
\PhpOffice\PhpSpreadsheet\Writer\Ods\Settings::class,
            'PHPExcel_Writer_OpenDocument_Styles' =>
\PhpOffice\PhpSpreadsheet\Writer\Ods\Styles::class,
            'PHPExcel_Writer_OpenDocument_Thumbnails' =>
\PhpOffice\PhpSpreadsheet\Writer\Ods\Thumbnails::class,
            'PHPExcel_Writer_OpenDocument_WriterPart' =>
\PhpOffice\PhpSpreadsheet\Writer\Ods\WriterPart::class,
            'PHPExcel_Writer_PDF_Core' =>
\PhpOffice\PhpSpreadsheet\Writer\Pdf::class,
            'PHPExcel_Writer_PDF_DomPDF' =>
\PhpOffice\PhpSpreadsheet\Writer\Pdf\Dompdf::class,
            'PHPExcel_Writer_PDF_mPDF' =>
\PhpOffice\PhpSpreadsheet\Writer\Pdf\Mpdf::class,
            'PHPExcel_Writer_PDF_tcPDF' =>
\PhpOffice\PhpSpreadsheet\Writer\Pdf\Tcpdf::class,
            'PHPExcel_Writer_Excel5_BIFFwriter' =>
\PhpOffice\PhpSpreadsheet\Writer\Xls\BIFFwriter::class,
            'PHPExcel_Writer_Excel5_Escher' =>
\PhpOffice\PhpSpreadsheet\Writer\Xls\Escher::class,
            'PHPExcel_Writer_Excel5_Font' =>
\PhpOffice\PhpSpreadsheet\Writer\Xls\Font::class,
            'PHPExcel_Writer_Excel5_Parser' =>
\PhpOffice\PhpSpreadsheet\Writer\Xls\Parser::class,
            'PHPExcel_Writer_Excel5_Workbook' =>
\PhpOffice\PhpSpreadsheet\Writer\Xls\Workbook::class,
            'PHPExcel_Writer_Excel5_Worksheet' =>
\PhpOffice\PhpSpreadsheet\Writer\Xls\Worksheet::class,
            'PHPExcel_Writer_Excel5_Xf' =>
\PhpOffice\PhpSpreadsheet\Writer\Xls\Xf::class,
            'PHPExcel_Writer_Excel2007_Chart' =>
\PhpOffice\PhpSpreadsheet\Writer\Xlsx\Chart::class,
            'PHPExcel_Writer_Excel2007_Comments' =>
\PhpOffice\PhpSpreadsheet\Writer\Xlsx\Comments::class,
            'PHPExcel_Writer_Excel2007_ContentTypes' =>
\PhpOffice\PhpSpreadsheet\Writer\Xlsx\ContentTypes::class,
            'PHPExcel_Writer_Excel2007_DocProps' =>
\PhpOffice\PhpSpreadsheet\Writer\Xlsx\DocProps::class,
            'PHPExcel_Writer_Excel2007_Drawing' =>
\PhpOffice\PhpSpreadsheet\Writer\Xlsx\Drawing::class,
            'PHPExcel_Writer_Excel2007_Rels' =>
\PhpOffice\PhpSpreadsheet\Writer\Xlsx\Rels::class,
            'PHPExcel_Writer_Excel2007_RelsRibbon' =>
\PhpOffice\PhpSpreadsheet\Writer\Xlsx\RelsRibbon::class,
            'PHPExcel_Writer_Excel2007_RelsVBA' =>
\PhpOffice\PhpSpreadsheet\Writer\Xlsx\RelsVBA::class,
            'PHPExcel_Writer_Excel2007_StringTable' =>
\PhpOffice\PhpSpreadsheet\Writer\Xlsx\StringTable::class,
            'PHPExcel_Writer_Excel2007_Style' =>
\PhpOffice\PhpSpreadsheet\Writer\Xlsx\Style::class,
            'PHPExcel_Writer_Excel2007_Theme' =>
\PhpOffice\PhpSpreadsheet\Writer\Xlsx\Theme::class,
            'PHPExcel_Writer_Excel2007_Workbook' =>
\PhpOffice\PhpSpreadsheet\Writer\Xlsx\Workbook::class,
            'PHPExcel_Writer_Excel2007_Worksheet' =>
\PhpOffice\PhpSpreadsheet\Writer\Xlsx\Worksheet::class,
            'PHPExcel_Writer_Excel2007_WriterPart' =>
\PhpOffice\PhpSpreadsheet\Writer\Xlsx\WriterPart::class,
            'PHPExcel_CachedObjectStorage_CacheBase' =>
\PhpOffice\PhpSpreadsheet\Collection\Cells::class,
            'PHPExcel_CalcEngine_CyclicReferenceStack' =>
\PhpOffice\PhpSpreadsheet\Calculation\Engine\CyclicReferenceStack::class,
            'PHPExcel_CalcEngine_Logger' =>
\PhpOffice\PhpSpreadsheet\Calculation\Engine\Logger::class,
            'PHPExcel_Calculation_Functions' =>
\PhpOffice\PhpSpreadsheet\Calculation\Functions::class,
            'PHPExcel_Calculation_Function' =>
\PhpOffice\PhpSpreadsheet\Calculation\Category::class,
            'PHPExcel_Calculation_Database' =>
\PhpOffice\PhpSpreadsheet\Calculation\Database::class,
            'PHPExcel_Calculation_DateTime' =>
\PhpOffice\PhpSpreadsheet\Calculation\DateTime::class,
            'PHPExcel_Calculation_Engineering' =>
\PhpOffice\PhpSpreadsheet\Calculation\Engineering::class,
            'PHPExcel_Calculation_Exception' =>
\PhpOffice\PhpSpreadsheet\Calculation\Exception::class,
            'PHPExcel_Calculation_ExceptionHandler' =>
\PhpOffice\PhpSpreadsheet\Calculation\ExceptionHandler::class,
            'PHPExcel_Calculation_Financial' =>
\PhpOffice\PhpSpreadsheet\Calculation\Financial::class,
            'PHPExcel_Calculation_FormulaParser' =>
\PhpOffice\PhpSpreadsheet\Calculation\FormulaParser::class,
            'PHPExcel_Calculation_FormulaToken' =>
\PhpOffice\PhpSpreadsheet\Calculation\FormulaToken::class,
            'PHPExcel_Calculation_Logical' =>
\PhpOffice\PhpSpreadsheet\Calculation\Logical::class,
            'PHPExcel_Calculation_LookupRef' =>
\PhpOffice\PhpSpreadsheet\Calculation\LookupRef::class,
            'PHPExcel_Calculation_MathTrig' =>
\PhpOffice\PhpSpreadsheet\Calculation\MathTrig::class,
            'PHPExcel_Calculation_Statistical' =>
\PhpOffice\PhpSpreadsheet\Calculation\Statistical::class,
            'PHPExcel_Calculation_TextData' =>
\PhpOffice\PhpSpreadsheet\Calculation\TextData::class,
            'PHPExcel_Cell_AdvancedValueBinder' =>
\PhpOffice\PhpSpreadsheet\Cell\AdvancedValueBinder::class,
            'PHPExcel_Cell_DataType' =>
\PhpOffice\PhpSpreadsheet\Cell\DataType::class,
            'PHPExcel_Cell_DataValidation' =>
\PhpOffice\PhpSpreadsheet\Cell\DataValidation::class,
            'PHPExcel_Cell_DefaultValueBinder' =>
\PhpOffice\PhpSpreadsheet\Cell\DefaultValueBinder::class,
            'PHPExcel_Cell_Hyperlink' =>
\PhpOffice\PhpSpreadsheet\Cell\Hyperlink::class,
            'PHPExcel_Cell_IValueBinder' =>
\PhpOffice\PhpSpreadsheet\Cell\IValueBinder::class,
            'PHPExcel_Chart_Axis' =>
\PhpOffice\PhpSpreadsheet\Chart\Axis::class,
            'PHPExcel_Chart_DataSeries' =>
\PhpOffice\PhpSpreadsheet\Chart\DataSeries::class,
            'PHPExcel_Chart_DataSeriesValues' =>
\PhpOffice\PhpSpreadsheet\Chart\DataSeriesValues::class,
            'PHPExcel_Chart_Exception' =>
\PhpOffice\PhpSpreadsheet\Chart\Exception::class,
            'PHPExcel_Chart_GridLines' =>
\PhpOffice\PhpSpreadsheet\Chart\GridLines::class,
            'PHPExcel_Chart_Layout' =>
\PhpOffice\PhpSpreadsheet\Chart\Layout::class,
            'PHPExcel_Chart_Legend' =>
\PhpOffice\PhpSpreadsheet\Chart\Legend::class,
            'PHPExcel_Chart_PlotArea' =>
\PhpOffice\PhpSpreadsheet\Chart\PlotArea::class,
            'PHPExcel_Properties' =>
\PhpOffice\PhpSpreadsheet\Chart\Properties::class,
            'PHPExcel_Chart_Title' =>
\PhpOffice\PhpSpreadsheet\Chart\Title::class,
            'PHPExcel_DocumentProperties' =>
\PhpOffice\PhpSpreadsheet\Document\Properties::class,
            'PHPExcel_DocumentSecurity' =>
\PhpOffice\PhpSpreadsheet\Document\Security::class,
            'PHPExcel_Helper_HTML' =>
\PhpOffice\PhpSpreadsheet\Helper\Html::class,
            'PHPExcel_Reader_Abstract' =>
\PhpOffice\PhpSpreadsheet\Reader\BaseReader::class,
            'PHPExcel_Reader_CSV' =>
\PhpOffice\PhpSpreadsheet\Reader\Csv::class,
            'PHPExcel_Reader_DefaultReadFilter' =>
\PhpOffice\PhpSpreadsheet\Reader\DefaultReadFilter::class,
            'PHPExcel_Reader_Excel2003XML' =>
\PhpOffice\PhpSpreadsheet\Reader\Xml::class,
            'PHPExcel_Reader_Exception' =>
\PhpOffice\PhpSpreadsheet\Reader\Exception::class,
            'PHPExcel_Reader_Gnumeric' =>
\PhpOffice\PhpSpreadsheet\Reader\Gnumeric::class,
            'PHPExcel_Reader_HTML' =>
\PhpOffice\PhpSpreadsheet\Reader\Html::class,
            'PHPExcel_Reader_IReadFilter' =>
\PhpOffice\PhpSpreadsheet\Reader\IReadFilter::class,
            'PHPExcel_Reader_IReader' =>
\PhpOffice\PhpSpreadsheet\Reader\IReader::class,
            'PHPExcel_Reader_OOCalc' =>
\PhpOffice\PhpSpreadsheet\Reader\Ods::class,
            'PHPExcel_Reader_SYLK' =>
\PhpOffice\PhpSpreadsheet\Reader\Slk::class,
            'PHPExcel_Reader_Excel5' =>
\PhpOffice\PhpSpreadsheet\Reader\Xls::class,
            'PHPExcel_Reader_Excel2007' =>
\PhpOffice\PhpSpreadsheet\Reader\Xlsx::class,
            'PHPExcel_RichText_ITextElement' =>
\PhpOffice\PhpSpreadsheet\RichText\ITextElement::class,
            'PHPExcel_RichText_Run' =>
\PhpOffice\PhpSpreadsheet\RichText\Run::class,
            'PHPExcel_RichText_TextElement' =>
\PhpOffice\PhpSpreadsheet\RichText\TextElement::class,
            'PHPExcel_Shared_CodePage' =>
\PhpOffice\PhpSpreadsheet\Shared\CodePage::class,
            'PHPExcel_Shared_Date' =>
\PhpOffice\PhpSpreadsheet\Shared\Date::class,
            'PHPExcel_Shared_Drawing' =>
\PhpOffice\PhpSpreadsheet\Shared\Drawing::class,
            'PHPExcel_Shared_Escher' =>
\PhpOffice\PhpSpreadsheet\Shared\Escher::class,
            'PHPExcel_Shared_File' =>
\PhpOffice\PhpSpreadsheet\Shared\File::class,
            'PHPExcel_Shared_Font' =>
\PhpOffice\PhpSpreadsheet\Shared\Font::class,
            'PHPExcel_Shared_OLE' =>
\PhpOffice\PhpSpreadsheet\Shared\OLE::class,
            'PHPExcel_Shared_OLERead' =>
\PhpOffice\PhpSpreadsheet\Shared\OLERead::class,
            'PHPExcel_Shared_PasswordHasher' =>
\PhpOffice\PhpSpreadsheet\Shared\PasswordHasher::class,
            'PHPExcel_Shared_String' =>
\PhpOffice\PhpSpreadsheet\Shared\StringHelper::class,
            'PHPExcel_Shared_TimeZone' =>
\PhpOffice\PhpSpreadsheet\Shared\TimeZone::class,
            'PHPExcel_Shared_XMLWriter' =>
\PhpOffice\PhpSpreadsheet\Shared\XMLWriter::class,
            'PHPExcel_Shared_Excel5' =>
\PhpOffice\PhpSpreadsheet\Shared\Xls::class,
            'PHPExcel_Style_Alignment' =>
\PhpOffice\PhpSpreadsheet\Style\Alignment::class,
            'PHPExcel_Style_Border' =>
\PhpOffice\PhpSpreadsheet\Style\Border::class,
            'PHPExcel_Style_Borders' =>
\PhpOffice\PhpSpreadsheet\Style\Borders::class,
            'PHPExcel_Style_Color' =>
\PhpOffice\PhpSpreadsheet\Style\Color::class,
            'PHPExcel_Style_Conditional' =>
\PhpOffice\PhpSpreadsheet\Style\Conditional::class,
            'PHPExcel_Style_Fill' =>
\PhpOffice\PhpSpreadsheet\Style\Fill::class,
            'PHPExcel_Style_Font' =>
\PhpOffice\PhpSpreadsheet\Style\Font::class,
            'PHPExcel_Style_NumberFormat' =>
\PhpOffice\PhpSpreadsheet\Style\NumberFormat::class,
            'PHPExcel_Style_Protection' =>
\PhpOffice\PhpSpreadsheet\Style\Protection::class,
            'PHPExcel_Style_Supervisor' =>
\PhpOffice\PhpSpreadsheet\Style\Supervisor::class,
            'PHPExcel_Worksheet_AutoFilter' =>
\PhpOffice\PhpSpreadsheet\Worksheet\AutoFilter::class,
            'PHPExcel_Worksheet_BaseDrawing' =>
\PhpOffice\PhpSpreadsheet\Worksheet\BaseDrawing::class,
            'PHPExcel_Worksheet_CellIterator' =>
\PhpOffice\PhpSpreadsheet\Worksheet\CellIterator::class,
            'PHPExcel_Worksheet_Column' =>
\PhpOffice\PhpSpreadsheet\Worksheet\Column::class,
            'PHPExcel_Worksheet_ColumnCellIterator' =>
\PhpOffice\PhpSpreadsheet\Worksheet\ColumnCellIterator::class,
            'PHPExcel_Worksheet_ColumnDimension' =>
\PhpOffice\PhpSpreadsheet\Worksheet\ColumnDimension::class,
            'PHPExcel_Worksheet_ColumnIterator' =>
\PhpOffice\PhpSpreadsheet\Worksheet\ColumnIterator::class,
            'PHPExcel_Worksheet_Drawing' =>
\PhpOffice\PhpSpreadsheet\Worksheet\Drawing::class,
            'PHPExcel_Worksheet_HeaderFooter' =>
\PhpOffice\PhpSpreadsheet\Worksheet\HeaderFooter::class,
            'PHPExcel_Worksheet_HeaderFooterDrawing' =>
\PhpOffice\PhpSpreadsheet\Worksheet\HeaderFooterDrawing::class,
            'PHPExcel_WorksheetIterator' =>
\PhpOffice\PhpSpreadsheet\Worksheet\Iterator::class,
            'PHPExcel_Worksheet_MemoryDrawing' =>
\PhpOffice\PhpSpreadsheet\Worksheet\MemoryDrawing::class,
            'PHPExcel_Worksheet_PageMargins' =>
\PhpOffice\PhpSpreadsheet\Worksheet\PageMargins::class,
            'PHPExcel_Worksheet_PageSetup' =>
\PhpOffice\PhpSpreadsheet\Worksheet\PageSetup::class,
            'PHPExcel_Worksheet_Protection' =>
\PhpOffice\PhpSpreadsheet\Worksheet\Protection::class,
            'PHPExcel_Worksheet_Row' =>
\PhpOffice\PhpSpreadsheet\Worksheet\Row::class,
            'PHPExcel_Worksheet_RowCellIterator' =>
\PhpOffice\PhpSpreadsheet\Worksheet\RowCellIterator::class,
            'PHPExcel_Worksheet_RowDimension' =>
\PhpOffice\PhpSpreadsheet\Worksheet\RowDimension::class,
            'PHPExcel_Worksheet_RowIterator' =>
\PhpOffice\PhpSpreadsheet\Worksheet\RowIterator::class,
            'PHPExcel_Worksheet_SheetView' =>
\PhpOffice\PhpSpreadsheet\Worksheet\SheetView::class,
            'PHPExcel_Writer_Abstract' =>
\PhpOffice\PhpSpreadsheet\Writer\BaseWriter::class,
            'PHPExcel_Writer_CSV' =>
\PhpOffice\PhpSpreadsheet\Writer\Csv::class,
            'PHPExcel_Writer_Exception' =>
\PhpOffice\PhpSpreadsheet\Writer\Exception::class,
            'PHPExcel_Writer_HTML' =>
\PhpOffice\PhpSpreadsheet\Writer\Html::class,
            'PHPExcel_Writer_IWriter' =>
\PhpOffice\PhpSpreadsheet\Writer\IWriter::class,
            'PHPExcel_Writer_OpenDocument' =>
\PhpOffice\PhpSpreadsheet\Writer\Ods::class,
            'PHPExcel_Writer_PDF' =>
\PhpOffice\PhpSpreadsheet\Writer\Pdf::class,
            'PHPExcel_Writer_Excel5' =>
\PhpOffice\PhpSpreadsheet\Writer\Xls::class,
            'PHPExcel_Writer_Excel2007' =>
\PhpOffice\PhpSpreadsheet\Writer\Xlsx::class,
            'PHPExcel_CachedObjectStorageFactory' =>
\PhpOffice\PhpSpreadsheet\Collection\CellsFactory::class,
            'PHPExcel_Calculation' =>
\PhpOffice\PhpSpreadsheet\Calculation\Calculation::class,
            'PHPExcel_Cell' =>
\PhpOffice\PhpSpreadsheet\Cell\Cell::class,
            'PHPExcel_Chart' =>
\PhpOffice\PhpSpreadsheet\Chart\Chart::class,
            'PHPExcel_Comment' =>
\PhpOffice\PhpSpreadsheet\Comment::class,
            'PHPExcel_Exception' =>
\PhpOffice\PhpSpreadsheet\Exception::class,
            'PHPExcel_HashTable' =>
\PhpOffice\PhpSpreadsheet\HashTable::class,
            'PHPExcel_IComparable' =>
\PhpOffice\PhpSpreadsheet\IComparable::class,
            'PHPExcel_IOFactory' =>
\PhpOffice\PhpSpreadsheet\IOFactory::class,
            'PHPExcel_NamedRange' =>
\PhpOffice\PhpSpreadsheet\NamedRange::class,
            'PHPExcel_ReferenceHelper' =>
\PhpOffice\PhpSpreadsheet\ReferenceHelper::class,
            'PHPExcel_RichText' =>
\PhpOffice\PhpSpreadsheet\RichText\RichText::class,
            'PHPExcel_Settings' =>
\PhpOffice\PhpSpreadsheet\Settings::class,
            'PHPExcel_Style' =>
\PhpOffice\PhpSpreadsheet\Style\Style::class,
            'PHPExcel_Worksheet' =>
\PhpOffice\PhpSpreadsheet\Worksheet\Worksheet::class,
        ];

        $methods = [
            'MINUTEOFHOUR' => 'MINUTE',
            'SECONDOFMINUTE' => 'SECOND',
            'DAYOFWEEK' => 'WEEKDAY',
            'WEEKOFYEAR' => 'WEEKNUM',
            'ExcelToPHPObject' =>
'excelToDateTimeObject',
            'ExcelToPHP' => 'excelToTimestamp',
            'FormattedPHPToExcel' =>
'formattedPHPToExcel',
            'Cell::absoluteCoordinate' =>
'Coordinate::absoluteCoordinate',
            'Cell::absoluteReference' =>
'Coordinate::absoluteReference',
            'Cell::buildRange' =>
'Coordinate::buildRange',
            'Cell::columnIndexFromString' =>
'Coordinate::columnIndexFromString',
            'Cell::coordinateFromString' =>
'Coordinate::coordinateFromString',
            'Cell::extractAllCellReferencesInRange' =>
'Coordinate::extractAllCellReferencesInRange',
            'Cell::getRangeBoundaries' =>
'Coordinate::getRangeBoundaries',
            'Cell::mergeRangesInCollection' =>
'Coordinate::mergeRangesInCollection',
            'Cell::rangeBoundaries' =>
'Coordinate::rangeBoundaries',
            'Cell::rangeDimension' =>
'Coordinate::rangeDimension',
            'Cell::splitRange' =>
'Coordinate::splitRange',
            'Cell::stringFromColumnIndex' =>
'Coordinate::stringFromColumnIndex',
        ];

        // Keep '\' prefix for class names
        $prefixedClasses = [];
        foreach ($classes as $key => &$value) {
            $value = str_replace('PhpOffice\\',
'\\PhpOffice\\', $value);
            $prefixedClasses['\\' . $key] = $value;
        }
        $mapping = $prefixedClasses + $classes + $methods;

        return $mapping;
    }

    /**
     * Search in all files in given directory.
     *
     * @param string $path
     */
    private function recursiveReplace($path)
    {
        $patterns = [
            '/*.md',
            '/*.txt',
            '/*.TXT',
            '/*.php',
            '/*.phpt',
            '/*.php3',
            '/*.php4',
            '/*.php5',
            '/*.phtml',
        ];

        foreach ($patterns as $pattern) {
            foreach (glob($path . $pattern) as $file) {
                if (strpos($path, '/vendor/') !== false) {
                    echo $file . " skipped\n";

                    continue;
                }
                $original = file_get_contents($file);
                $converted = $this->replace($original);

                if ($original !== $converted) {
                    echo $file . " converted\n";
                    file_put_contents($file, $converted);
                }
            }
        }

        // Do the recursion in subdirectory
        foreach (glob($path . '/*', GLOB_ONLYDIR) as $subpath) {
            if (strpos($subpath, $path . '/') === 0) {
                $this->recursiveReplace($subpath);
            }
        }
    }

    public function migrate()
    {
        $path = realpath(getcwd());
        echo 'This will search and replace recursively in ' .
$path . PHP_EOL;
        echo 'You MUST backup your files first, or you risk losing
data.' . PHP_EOL;
        echo 'Are you sure ? (y/n)';

        $confirm = fread(STDIN, 1);
        if ($confirm === 'y') {
            $this->recursiveReplace($path);
        }
    }

    /**
     * Migrate the given code from PHPExcel to PhpSpreadsheet.
     *
     * @param string $original
     *
     * @return string
     */
    public function replace($original)
    {
        $converted = str_replace($this->from, $this->to, $original);

        // The string "PHPExcel" gets special treatment because
of how common it might be.
        // This regex requires a word boundary around the string, and it
can't be
        // preceded by $ or -> (goal is to filter out cases where a
variable is named $PHPExcel or similar)
        $converted =
preg_replace('~(?<!\$|->)(\b|\\\\)PHPExcel\b~',
'\\' . \PhpOffice\PhpSpreadsheet\Spreadsheet::class, $converted);

        return $converted;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Helper/Sample.php000064400000014436151165414000021707
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Helper;

use PhpOffice\PhpSpreadsheet\IOFactory;
use PhpOffice\PhpSpreadsheet\Spreadsheet;
use PhpOffice\PhpSpreadsheet\Writer\IWriter;
use PhpOffice\PhpSpreadsheet\Writer\Pdf;
use RecursiveDirectoryIterator;
use RecursiveIteratorIterator;
use RecursiveRegexIterator;
use ReflectionClass;
use RegexIterator;

/**
 * Helper class to be used in sample code.
 */
class Sample
{
    /**
     * Returns whether we run on CLI or browser.
     *
     * @return bool
     */
    public function isCli()
    {
        return PHP_SAPI === 'cli';
    }

    /**
     * Return the filename currently being executed.
     *
     * @return string
     */
    public function getScriptFilename()
    {
        return basename($_SERVER['SCRIPT_FILENAME'],
'.php');
    }

    /**
     * Whether we are executing the index page.
     *
     * @return bool
     */
    public function isIndex()
    {
        return $this->getScriptFilename() === 'index';
    }

    /**
     * Return the page title.
     *
     * @return string
     */
    public function getPageTitle()
    {
        return $this->isIndex() ? 'PHPSpreadsheet' :
$this->getScriptFilename();
    }

    /**
     * Return the page heading.
     *
     * @return string
     */
    public function getPageHeading()
    {
        return $this->isIndex() ? '' : '<h1>'
. str_replace('_', ' ', $this->getScriptFilename())
. '</h1>';
    }

    /**
     * Returns an array of all known samples.
     *
     * @return string[] [$name => $path]
     */
    public function getSamples()
    {
        // Populate samples
        $baseDir = realpath(__DIR__ . '/../../../samples');
        $directory = new RecursiveDirectoryIterator($baseDir);
        $iterator = new RecursiveIteratorIterator($directory);
        $regex = new RegexIterator($iterator, '/^.+\.php$/',
RecursiveRegexIterator::GET_MATCH);

        $files = [];
        foreach ($regex as $file) {
            $file = str_replace(str_replace('\\', '/',
$baseDir) . '/', '', str_replace('\\',
'/', $file[0]));
            $info = pathinfo($file);
            $category = str_replace('_', ' ',
$info['dirname']);
            $name = str_replace('_', ' ',
preg_replace('/(|\.php)/', '',
$info['filename']));
            if (!in_array($category, ['.', 'boostrap',
'templates'])) {
                if (!isset($files[$category])) {
                    $files[$category] = [];
                }
                $files[$category][$name] = $file;
            }
        }

        // Sort everything
        ksort($files);
        foreach ($files as &$f) {
            asort($f);
        }

        return $files;
    }

    /**
     * Write documents.
     *
     * @param Spreadsheet $spreadsheet
     * @param string $filename
     * @param string[] $writers
     */
    public function write(Spreadsheet $spreadsheet, $filename, array
$writers = ['Xlsx', 'Xls'])
    {
        // Set active sheet index to the first sheet, so Excel opens this
as the first sheet
        $spreadsheet->setActiveSheetIndex(0);

        // Write documents
        foreach ($writers as $writerType) {
            $path = $this->getFilename($filename,
mb_strtolower($writerType));
            $writer = IOFactory::createWriter($spreadsheet, $writerType);
            if ($writer instanceof Pdf) {
                // PDF writer needs temporary directory
                $tempDir = $this->getTemporaryFolder();
                $writer->setTempDir($tempDir);
            }
            $callStartTime = microtime(true);
            $writer->save($path);
            $this->logWrite($writer, $path, $callStartTime);
        }

        $this->logEndingNotes();
    }

    /**
     * Returns the temporary directory and make sure it exists.
     *
     * @return string
     */
    private function getTemporaryFolder()
    {
        $tempFolder = sys_get_temp_dir() . '/phpspreadsheet';
        if (!is_dir($tempFolder)) {
            if (!mkdir($tempFolder) && !is_dir($tempFolder)) {
                throw new \RuntimeException(sprintf('Directory
"%s" was not created', $tempFolder));
            }
        }

        return $tempFolder;
    }

    /**
     * Returns the filename that should be used for sample output.
     *
     * @param string $filename
     * @param string $extension
     *
     * @return string
     */
    public function getFilename($filename, $extension = 'xlsx')
    {
        $originalExtension = pathinfo($filename, PATHINFO_EXTENSION);

        return $this->getTemporaryFolder() . '/' .
str_replace('.' . $originalExtension, '.' . $extension,
basename($filename));
    }

    /**
     * Return a random temporary file name.
     *
     * @param string $extension
     *
     * @return string
     */
    public function getTemporaryFilename($extension = 'xlsx')
    {
        $temporaryFilename = tempnam($this->getTemporaryFolder(),
'phpspreadsheet-');
        unlink($temporaryFilename);

        return $temporaryFilename . '.' . $extension;
    }

    public function log($message)
    {
        $eol = $this->isCli() ? PHP_EOL : '<br />';
        echo date('H:i:s ') . $message . $eol;
    }

    /**
     * Log ending notes.
     */
    public function logEndingNotes()
    {
        // Do not show execution time for index
        $this->log('Peak memory usage: ' .
(memory_get_peak_usage(true) / 1024 / 1024) . 'MB');
    }

    /**
     * Log a line about the write operation.
     *
     * @param IWriter $writer
     * @param string $path
     * @param float $callStartTime
     */
    public function logWrite(IWriter $writer, $path, $callStartTime)
    {
        $callEndTime = microtime(true);
        $callTime = $callEndTime - $callStartTime;
        $reflection = new ReflectionClass($writer);
        $format = $reflection->getShortName();
        $message = "Write {$format} format to
<code>{$path}</code>  in " . sprintf('%.4f',
$callTime) . ' seconds';

        $this->log($message);
    }

    /**
     * Log a line about the read operation.
     *
     * @param string $format
     * @param string $path
     * @param float $callStartTime
     */
    public function logRead($format, $path, $callStartTime)
    {
        $callEndTime = microtime(true);
        $callTime = $callEndTime - $callStartTime;
        $message = "Read {$format} format from
<code>{$path}</code>  in " . sprintf('%.4f',
$callTime) . ' seconds';

        $this->log($message);
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/IComparable.php000064400000000266151165414000021421
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet;

interface IComparable
{
    /**
     * Get hash code.
     *
     * @return string Hash code
     */
    public function getHashCode();
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/IOFactory.php000064400000015206151165414000021102
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet;

use PhpOffice\PhpSpreadsheet\Shared\File;

/**
 * Factory to create readers and writers easily.
 *
 * It is not required to use this class, but it should make it easier to
read and write files.
 * Especially for reading files with an unknown format.
 */
abstract class IOFactory
{
    private static $readers = [
        'Xlsx' => Reader\Xlsx::class,
        'Xls' => Reader\Xls::class,
        'Xml' => Reader\Xml::class,
        'Ods' => Reader\Ods::class,
        'Slk' => Reader\Slk::class,
        'Gnumeric' => Reader\Gnumeric::class,
        'Html' => Reader\Html::class,
        'Csv' => Reader\Csv::class,
    ];

    private static $writers = [
        'Xls' => Writer\Xls::class,
        'Xlsx' => Writer\Xlsx::class,
        'Ods' => Writer\Ods::class,
        'Csv' => Writer\Csv::class,
        'Html' => Writer\Html::class,
        'Tcpdf' => Writer\Pdf\Tcpdf::class,
        'Dompdf' => Writer\Pdf\Dompdf::class,
        'Mpdf' => Writer\Pdf\Mpdf::class,
    ];

    /**
     * Create Writer\IWriter.
     *
     * @param Spreadsheet $spreadsheet
     * @param string $writerType Example: Xlsx
     *
     * @throws Writer\Exception
     *
     * @return Writer\IWriter
     */
    public static function createWriter(Spreadsheet $spreadsheet,
$writerType)
    {
        if (!isset(self::$writers[$writerType])) {
            throw new Writer\Exception("No writer found for type
$writerType");
        }

        // Instantiate writer
        $className = self::$writers[$writerType];

        return new $className($spreadsheet);
    }

    /**
     * Create Reader\IReader.
     *
     * @param string $readerType Example: Xlsx
     *
     * @throws Reader\Exception
     *
     * @return Reader\IReader
     */
    public static function createReader($readerType)
    {
        if (!isset(self::$readers[$readerType])) {
            throw new Reader\Exception("No reader found for type
$readerType");
        }

        // Instantiate reader
        $className = self::$readers[$readerType];

        return new $className();
    }

    /**
     * Loads Spreadsheet from file using automatic Reader\IReader
resolution.
     *
     * @param string $pFilename The name of the spreadsheet file
     *
     * @throws Reader\Exception
     *
     * @return Spreadsheet
     */
    public static function load($pFilename)
    {
        $reader = self::createReaderForFile($pFilename);

        return $reader->load($pFilename);
    }

    /**
     * Identify file type using automatic Reader\IReader resolution.
     *
     * @param string $pFilename The name of the spreadsheet file to
identify
     *
     * @throws Reader\Exception
     *
     * @return string
     */
    public static function identify($pFilename)
    {
        $reader = self::createReaderForFile($pFilename);
        $className = get_class($reader);
        $classType = explode('\\', $className);
        unset($reader);

        return array_pop($classType);
    }

    /**
     * Create Reader\IReader for file using automatic Reader\IReader
resolution.
     *
     * @param string $filename The name of the spreadsheet file
     *
     * @throws Reader\Exception
     *
     * @return Reader\IReader
     */
    public static function createReaderForFile($filename)
    {
        File::assertFile($filename);

        // First, lucky guess by inspecting file extension
        $guessedReader = self::getReaderTypeFromExtension($filename);
        if ($guessedReader !== null) {
            $reader = self::createReader($guessedReader);

            // Let's see if we are lucky
            if (isset($reader) && $reader->canRead($filename)) {
                return $reader;
            }
        }

        // If we reach here then "lucky guess" didn't give
any result
        // Try walking through all the options in self::$autoResolveClasses
        foreach (self::$readers as $type => $class) {
            //    Ignore our original guess, we know that won't work
            if ($type !== $guessedReader) {
                $reader = self::createReader($type);
                if ($reader->canRead($filename)) {
                    return $reader;
                }
            }
        }

        throw new Reader\Exception('Unable to identify a reader for
this file');
    }

    /**
     * Guess a reader type from the file extension, if any.
     *
     * @param string $filename
     *
     * @return null|string
     */
    private static function getReaderTypeFromExtension($filename)
    {
        $pathinfo = pathinfo($filename);
        if (!isset($pathinfo['extension'])) {
            return null;
        }

        switch (strtolower($pathinfo['extension'])) {
            case 'xlsx': // Excel (OfficeOpenXML) Spreadsheet
            case 'xlsm': // Excel (OfficeOpenXML) Macro
Spreadsheet (macros will be discarded)
            case 'xltx': // Excel (OfficeOpenXML) Template
            case 'xltm': // Excel (OfficeOpenXML) Macro Template
(macros will be discarded)
                return 'Xlsx';
            case 'xls': // Excel (BIFF) Spreadsheet
            case 'xlt': // Excel (BIFF) Template
                return 'Xls';
            case 'ods': // Open/Libre Offic Calc
            case 'ots': // Open/Libre Offic Calc Template
                return 'Ods';
            case 'slk':
                return 'Slk';
            case 'xml': // Excel 2003 SpreadSheetML
                return 'Xml';
            case 'gnumeric':
                return 'Gnumeric';
            case 'htm':
            case 'html':
                return 'Html';
            case 'csv':
                // Do nothing
                // We must not try to use CSV reader since it loads
                // all files including Excel files etc.
                return null;
            default:
                return null;
        }
    }

    /**
     * Register a writer with its type and class name.
     *
     * @param string $writerType
     * @param string $writerClass
     */
    public static function registerWriter($writerType, $writerClass)
    {
        if (!is_a($writerClass, Writer\IWriter::class, true)) {
            throw new Writer\Exception('Registered writers must
implement ' . Writer\IWriter::class);
        }

        self::$writers[$writerType] = $writerClass;
    }

    /**
     * Register a reader with its type and class name.
     *
     * @param string $readerType
     * @param string $readerClass
     */
    public static function registerReader($readerType, $readerClass)
    {
        if (!is_a($readerClass, Reader\IReader::class, true)) {
            throw new Reader\Exception('Registered readers must
implement ' . Reader\IReader::class);
        }

        self::$readers[$readerType] = $readerClass;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/NamedRange.php000064400000011424151165414000021242
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet;

use PhpOffice\PhpSpreadsheet\Worksheet\Worksheet;

class NamedRange
{
    /**
     * Range name.
     *
     * @var string
     */
    private $name;

    /**
     * Worksheet on which the named range can be resolved.
     *
     * @var Worksheet
     */
    private $worksheet;

    /**
     * Range of the referenced cells.
     *
     * @var string
     */
    private $range;

    /**
     * Is the named range local? (i.e. can only be used on
$this->worksheet).
     *
     * @var bool
     */
    private $localOnly;

    /**
     * Scope.
     *
     * @var Worksheet
     */
    private $scope;

    /**
     * Create a new NamedRange.
     *
     * @param string $pName
     * @param Worksheet $pWorksheet
     * @param string $pRange
     * @param bool $pLocalOnly
     * @param null|Worksheet $pScope Scope. Only applies when $pLocalOnly =
true. Null for global scope.
     *
     * @throws Exception
     */
    public function __construct($pName, Worksheet $pWorksheet, $pRange =
'A1', $pLocalOnly = false, $pScope = null)
    {
        // Validate data
        if (($pName === null) || ($pWorksheet === null) || ($pRange ===
null)) {
            throw new Exception('Parameters can not be null.');
        }

        // Set local members
        $this->name = $pName;
        $this->worksheet = $pWorksheet;
        $this->range = $pRange;
        $this->localOnly = $pLocalOnly;
        $this->scope = ($pLocalOnly == true) ? (($pScope == null) ?
$pWorksheet : $pScope) : null;
    }

    /**
     * Get name.
     *
     * @return string
     */
    public function getName()
    {
        return $this->name;
    }

    /**
     * Set name.
     *
     * @param string $value
     *
     * @return $this
     */
    public function setName($value)
    {
        if ($value !== null) {
            // Old title
            $oldTitle = $this->name;

            // Re-attach
            if ($this->worksheet !== null) {
               
$this->worksheet->getParent()->removeNamedRange($this->name,
$this->worksheet);
            }
            $this->name = $value;

            if ($this->worksheet !== null) {
               
$this->worksheet->getParent()->addNamedRange($this);
            }

            // New title
            $newTitle = $this->name;
           
ReferenceHelper::getInstance()->updateNamedFormulas($this->worksheet->getParent(),
$oldTitle, $newTitle);
        }

        return $this;
    }

    /**
     * Get worksheet.
     *
     * @return Worksheet
     */
    public function getWorksheet()
    {
        return $this->worksheet;
    }

    /**
     * Set worksheet.
     *
     * @param Worksheet $value
     *
     * @return $this
     */
    public function setWorksheet(Worksheet $value = null)
    {
        if ($value !== null) {
            $this->worksheet = $value;
        }

        return $this;
    }

    /**
     * Get range.
     *
     * @return string
     */
    public function getRange()
    {
        return $this->range;
    }

    /**
     * Set range.
     *
     * @param string $value
     *
     * @return $this
     */
    public function setRange($value)
    {
        if ($value !== null) {
            $this->range = $value;
        }

        return $this;
    }

    /**
     * Get localOnly.
     *
     * @return bool
     */
    public function getLocalOnly()
    {
        return $this->localOnly;
    }

    /**
     * Set localOnly.
     *
     * @param bool $value
     *
     * @return $this
     */
    public function setLocalOnly($value)
    {
        $this->localOnly = $value;
        $this->scope = $value ? $this->worksheet : null;

        return $this;
    }

    /**
     * Get scope.
     *
     * @return null|Worksheet
     */
    public function getScope()
    {
        return $this->scope;
    }

    /**
     * Set scope.
     *
     * @param null|Worksheet $value
     *
     * @return $this
     */
    public function setScope(Worksheet $value = null)
    {
        $this->scope = $value;
        $this->localOnly = $value != null;

        return $this;
    }

    /**
     * Resolve a named range to a regular cell range.
     *
     * @param string $pNamedRange Named range
     * @param null|Worksheet $pSheet Scope. Use null for global scope
     *
     * @return NamedRange
     */
    public static function resolveRange($pNamedRange, Worksheet $pSheet)
    {
        return $pSheet->getParent()->getNamedRange($pNamedRange,
$pSheet);
    }

    /**
     * Implement PHP __clone to create a deep clone, not just a shallow
copy.
     */
    public function __clone()
    {
        $vars = get_object_vars($this);
        foreach ($vars as $key => $value) {
            if (is_object($value)) {
                $this->$key = clone $value;
            } else {
                $this->$key = $value;
            }
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/BaseReader.php000064400000006600151165414000022440
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader;

use PhpOffice\PhpSpreadsheet\Reader\Security\XmlScanner;
use PhpOffice\PhpSpreadsheet\Shared\File;

abstract class BaseReader implements IReader
{
    /**
     * Read data only?
     * Identifies whether the Reader should only read data values for
cells, and ignore any formatting information;
     *        or whether it should read both data and formatting.
     *
     * @var bool
     */
    protected $readDataOnly = false;

    /**
     * Read empty cells?
     * Identifies whether the Reader should read data values for cells all
cells, or should ignore cells containing
     *         null value or empty string.
     *
     * @var bool
     */
    protected $readEmptyCells = true;

    /**
     * Read charts that are defined in the workbook?
     * Identifies whether the Reader should read the definitions for any
charts that exist in the workbook;.
     *
     * @var bool
     */
    protected $includeCharts = false;

    /**
     * Restrict which sheets should be loaded?
     * This property holds an array of worksheet names to be loaded. If
null, then all worksheets will be loaded.
     *
     * @var array of string
     */
    protected $loadSheetsOnly;

    /**
     * IReadFilter instance.
     *
     * @var IReadFilter
     */
    protected $readFilter;

    protected $fileHandle;

    /**
     * @var XmlScanner
     */
    protected $securityScanner;

    public function __construct()
    {
        $this->readFilter = new DefaultReadFilter();
    }

    public function getReadDataOnly()
    {
        return $this->readDataOnly;
    }

    public function setReadDataOnly($pValue)
    {
        $this->readDataOnly = (bool) $pValue;

        return $this;
    }

    public function getReadEmptyCells()
    {
        return $this->readEmptyCells;
    }

    public function setReadEmptyCells($pValue)
    {
        $this->readEmptyCells = (bool) $pValue;

        return $this;
    }

    public function getIncludeCharts()
    {
        return $this->includeCharts;
    }

    public function setIncludeCharts($pValue)
    {
        $this->includeCharts = (bool) $pValue;

        return $this;
    }

    public function getLoadSheetsOnly()
    {
        return $this->loadSheetsOnly;
    }

    public function setLoadSheetsOnly($value)
    {
        if ($value === null) {
            return $this->setLoadAllSheets();
        }

        $this->loadSheetsOnly = is_array($value) ? $value : [$value];

        return $this;
    }

    public function setLoadAllSheets()
    {
        $this->loadSheetsOnly = null;

        return $this;
    }

    public function getReadFilter()
    {
        return $this->readFilter;
    }

    public function setReadFilter(IReadFilter $pValue)
    {
        $this->readFilter = $pValue;

        return $this;
    }

    public function getSecurityScanner()
    {
        if (property_exists($this, 'securityScanner')) {
            return $this->securityScanner;
        }

        return null;
    }

    /**
     * Open file for reading.
     *
     * @param string $pFilename
     *
     * @throws Exception
     */
    protected function openFile($pFilename)
    {
        File::assertFile($pFilename);

        // Open file
        $this->fileHandle = fopen($pFilename, 'r');
        if ($this->fileHandle === false) {
            throw new Exception('Could not open file ' .
$pFilename . ' for reading.');
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/chunkReadFilter.php000064400000001376151165414000023522
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader;


/**  Define a Read Filter class implementing IReadFilter  */
class chunkReadFilter implements IReadFilter
{
	private $startRow = 0;

	private $endRow = 0;

	/**
	 * We expect a list of the rows that we want to read to be passed into the
constructor.
	 *
	 * @param mixed $startRow
	 * @param mixed $chunkSize
	 */
	public function __construct($startRow, $chunkSize)
	{
		$this->startRow = $startRow;
		$this->endRow = $startRow + $chunkSize;
	}

	public function readCell($column, $row, $worksheetName = '')
	{
		//  Only read the heading row, and the rows that were configured in the
constructor
		if (($row == 1) || ($row >= $this->startRow && $row <
$this->endRow))
		{
			return true;
		}

		return false;
	}
}vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/Csv.php000064400000034160151165414000021200
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader;

use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\Shared\StringHelper;
use PhpOffice\PhpSpreadsheet\Spreadsheet;

class Csv extends BaseReader
{
    /**
     * Input encoding.
     *
     * @var string
     */
    private $inputEncoding = 'UTF-8';

    /**
     * Delimiter.
     *
     * @var string
     */
    private $delimiter;

    /**
     * Enclosure.
     *
     * @var string
     */
    private $enclosure = '"';

    /**
     * Sheet index to read.
     *
     * @var int
     */
    private $sheetIndex = 0;

    /**
     * Load rows contiguously.
     *
     * @var bool
     */
    private $contiguous = false;

    /**
     * Row counter for loading rows contiguously.
     *
     * @var int
     */
    private $contiguousRow = -1;

    /**
     * The character that can escape the enclosure.
     *
     * @var string
     */
    private $escapeCharacter = '\\';

    /**
     * Create a new CSV Reader instance.
     */
    public function __construct()
    {
        parent::__construct();
    }

    /**
     * Set input encoding.
     *
     * @param string $pValue Input encoding, eg: 'UTF-8'
     *
     * @return $this
     */
    public function setInputEncoding($pValue)
    {
        $this->inputEncoding = $pValue;

        return $this;
    }

    /**
     * Get input encoding.
     *
     * @return string
     */
    public function getInputEncoding()
    {
        return $this->inputEncoding;
    }

    /**
     * Move filepointer past any BOM marker.
     */
    protected function skipBOM()
    {
        rewind($this->fileHandle);

        switch ($this->inputEncoding) {
            case 'UTF-8':
                fgets($this->fileHandle, 4) == "\xEF\xBB\xBF"
?
                    fseek($this->fileHandle, 3) :
fseek($this->fileHandle, 0);

                break;
            case 'UTF-16LE':
                fgets($this->fileHandle, 3) == "\xFF\xFE" ?
                    fseek($this->fileHandle, 2) :
fseek($this->fileHandle, 0);

                break;
            case 'UTF-16BE':
                fgets($this->fileHandle, 3) == "\xFE\xFF" ?
                    fseek($this->fileHandle, 2) :
fseek($this->fileHandle, 0);

                break;
            case 'UTF-32LE':
                fgets($this->fileHandle, 5) ==
"\xFF\xFE\x00\x00" ?
                    fseek($this->fileHandle, 4) :
fseek($this->fileHandle, 0);

                break;
            case 'UTF-32BE':
                fgets($this->fileHandle, 5) ==
"\x00\x00\xFE\xFF" ?
                    fseek($this->fileHandle, 4) :
fseek($this->fileHandle, 0);

                break;
            default:
                break;
        }
    }

    /**
     * Identify any separator that is explicitly set in the file.
     */
    protected function checkSeparator()
    {
        $line = fgets($this->fileHandle);
        if ($line === false) {
            return;
        }

        if ((strlen(trim($line, "\r\n")) == 5) &&
(stripos($line, 'sep=') === 0)) {
            $this->delimiter = substr($line, 4, 1);

            return;
        }

        $this->skipBOM();
    }

    /**
     * Infer the separator if it isn't explicitly set in the file or
specified by the user.
     */
    protected function inferSeparator()
    {
        if ($this->delimiter !== null) {
            return;
        }

        $potentialDelimiters = [',', ';',
"\t", '|', ':', ' ',
'~'];
        $counts = [];
        foreach ($potentialDelimiters as $delimiter) {
            $counts[$delimiter] = [];
        }

        // Count how many times each of the potential delimiters appears in
each line
        $numberLines = 0;
        while (($line = $this->getNextLine()) !== false &&
(++$numberLines < 1000)) {
            $countLine = [];
            for ($i = strlen($line) - 1; $i >= 0; --$i) {
                $char = $line[$i];
                if (isset($counts[$char])) {
                    if (!isset($countLine[$char])) {
                        $countLine[$char] = 0;
                    }
                    ++$countLine[$char];
                }
            }
            foreach ($potentialDelimiters as $delimiter) {
                $counts[$delimiter][] = $countLine[$delimiter]
                    ?? 0;
            }
        }

        // If number of lines is 0, nothing to infer : fall back to the
default
        if ($numberLines === 0) {
            $this->delimiter = reset($potentialDelimiters);
            $this->skipBOM();

            return;
        }

        // Calculate the mean square deviations for each delimiter
(ignoring delimiters that haven't been found consistently)
        $meanSquareDeviations = [];
        $middleIdx = floor(($numberLines - 1) / 2);

        foreach ($potentialDelimiters as $delimiter) {
            $series = $counts[$delimiter];
            sort($series);

            $median = ($numberLines % 2)
                ? $series[$middleIdx]
                : ($series[$middleIdx] + $series[$middleIdx + 1]) / 2;

            if ($median === 0) {
                continue;
            }

            $meanSquareDeviations[$delimiter] = array_reduce(
                $series,
                function ($sum, $value) use ($median) {
                    return $sum + pow($value - $median, 2);
                }
            ) / count($series);
        }

        // ... and pick the delimiter with the smallest mean square
deviation (in case of ties, the order in potentialDelimiters is respected)
        $min = INF;
        foreach ($potentialDelimiters as $delimiter) {
            if (!isset($meanSquareDeviations[$delimiter])) {
                continue;
            }

            if ($meanSquareDeviations[$delimiter] < $min) {
                $min = $meanSquareDeviations[$delimiter];
                $this->delimiter = $delimiter;
            }
        }

        // If no delimiter could be detected, fall back to the default
        if ($this->delimiter === null) {
            $this->delimiter = reset($potentialDelimiters);
        }

        $this->skipBOM();
    }

    /**
     * Get the next full line from the file.
     *
     * @param string $line
     *
     * @return bool|string
     */
    private function getNextLine($line = '')
    {
        // Get the next line in the file
        $newLine = fgets($this->fileHandle);

        // Return false if there is no next line
        if ($newLine === false) {
            return false;
        }

        // Add the new line to the line passed in
        $line = $line . $newLine;

        // Drop everything that is enclosed to avoid counting false
positives in enclosures
        $enclosure = '(?<!' .
preg_quote($this->escapeCharacter, '/') . ')'
            . preg_quote($this->enclosure, '/');
        $line = preg_replace('/(' . $enclosure . '.*' .
$enclosure . ')/Us', '', $line);

        // See if we have any enclosures left in the line
        // if we still have an enclosure then we need to read the next line
as well
        if (preg_match('/(' . $enclosure . ')/', $line)
> 0) {
            $line = $this->getNextLine($line);
        }

        return $line;
    }

    /**
     * Return worksheet info (Name, Last Column Letter, Last Column Index,
Total Rows, Total Columns).
     *
     * @param string $pFilename
     *
     * @throws Exception
     *
     * @return array
     */
    public function listWorksheetInfo($pFilename)
    {
        // Open file
        if (!$this->canRead($pFilename)) {
            throw new Exception($pFilename . ' is an Invalid
Spreadsheet file.');
        }
        $this->openFile($pFilename);
        $fileHandle = $this->fileHandle;

        // Skip BOM, if any
        $this->skipBOM();
        $this->checkSeparator();
        $this->inferSeparator();

        $worksheetInfo = [];
        $worksheetInfo[0]['worksheetName'] =
'Worksheet';
        $worksheetInfo[0]['lastColumnLetter'] = 'A';
        $worksheetInfo[0]['lastColumnIndex'] = 0;
        $worksheetInfo[0]['totalRows'] = 0;
        $worksheetInfo[0]['totalColumns'] = 0;

        // Loop through each line of the file in turn
        while (($rowData = fgetcsv($fileHandle, 0, $this->delimiter,
$this->enclosure, $this->escapeCharacter)) !== false) {
            ++$worksheetInfo[0]['totalRows'];
            $worksheetInfo[0]['lastColumnIndex'] =
max($worksheetInfo[0]['lastColumnIndex'], count($rowData) - 1);
        }

        $worksheetInfo[0]['lastColumnLetter'] =
Coordinate::stringFromColumnIndex($worksheetInfo[0]['lastColumnIndex']
+ 1);
        $worksheetInfo[0]['totalColumns'] =
$worksheetInfo[0]['lastColumnIndex'] + 1;

        // Close file
        fclose($fileHandle);

        return $worksheetInfo;
    }

    /**
     * Loads Spreadsheet from file.
     *
     * @param string $pFilename
     *
     * @throws Exception
     *
     * @return Spreadsheet
     */
    public function load($pFilename)
    {
        // Create new Spreadsheet
        $spreadsheet = new Spreadsheet();

        // Load into this instance
        return $this->loadIntoExisting($pFilename, $spreadsheet);
    }

    /**
     * Loads PhpSpreadsheet from file into PhpSpreadsheet instance.
     *
     * @param string $pFilename
     * @param Spreadsheet $spreadsheet
     *
     * @throws Exception
     *
     * @return Spreadsheet
     */
    public function loadIntoExisting($pFilename, Spreadsheet $spreadsheet)
    {
        $lineEnding = ini_get('auto_detect_line_endings');
        ini_set('auto_detect_line_endings', true);

        // Open file
        if (!$this->canRead($pFilename)) {
            throw new Exception($pFilename . ' is an Invalid
Spreadsheet file.');
        }
        $this->openFile($pFilename);
        $fileHandle = $this->fileHandle;

        // Skip BOM, if any
        $this->skipBOM();
        $this->checkSeparator();
        $this->inferSeparator();

        // Create new PhpSpreadsheet object
        while ($spreadsheet->getSheetCount() <= $this->sheetIndex)
{
            $spreadsheet->createSheet();
        }
        $sheet =
$spreadsheet->setActiveSheetIndex($this->sheetIndex);

        // Set our starting row based on whether we're in contiguous
mode or not
        $currentRow = 1;
        if ($this->contiguous) {
            $currentRow = ($this->contiguousRow == -1) ?
$sheet->getHighestRow() : $this->contiguousRow;
        }

        // Loop through each line of the file in turn
        while (($rowData = fgetcsv($fileHandle, 0, $this->delimiter,
$this->enclosure, $this->escapeCharacter)) !== false) {
            $columnLetter = 'A';
            foreach ($rowData as $rowDatum) {
                if ($rowDatum != '' &&
$this->readFilter->readCell($columnLetter, $currentRow)) {
                    // Convert encoding if necessary
                    if ($this->inputEncoding !== 'UTF-8') {
                        $rowDatum =
StringHelper::convertEncoding($rowDatum, 'UTF-8',
$this->inputEncoding);
                    }

                    // Set cell value
                    $sheet->getCell($columnLetter .
$currentRow)->setValue($rowDatum);
                }
                ++$columnLetter;
            }
            ++$currentRow;
        }

        // Close file
        fclose($fileHandle);

        if ($this->contiguous) {
            $this->contiguousRow = $currentRow;
        }

        ini_set('auto_detect_line_endings', $lineEnding);

        // Return
        return $spreadsheet;
    }

    /**
     * Get delimiter.
     *
     * @return string
     */
    public function getDelimiter()
    {
        return $this->delimiter;
    }

    /**
     * Set delimiter.
     *
     * @param string $delimiter Delimiter, eg: ','
     *
     * @return $this
     */
    public function setDelimiter($delimiter)
    {
        $this->delimiter = $delimiter;

        return $this;
    }

    /**
     * Get enclosure.
     *
     * @return string
     */
    public function getEnclosure()
    {
        return $this->enclosure;
    }

    /**
     * Set enclosure.
     *
     * @param string $enclosure Enclosure, defaults to "
     *
     * @return $this
     */
    public function setEnclosure($enclosure)
    {
        if ($enclosure == '') {
            $enclosure = '"';
        }
        $this->enclosure = $enclosure;

        return $this;
    }

    /**
     * Get sheet index.
     *
     * @return int
     */
    public function getSheetIndex()
    {
        return $this->sheetIndex;
    }

    /**
     * Set sheet index.
     *
     * @param int $pValue Sheet index
     *
     * @return $this
     */
    public function setSheetIndex($pValue)
    {
        $this->sheetIndex = $pValue;

        return $this;
    }

    /**
     * Set Contiguous.
     *
     * @param bool $contiguous
     *
     * @return $this
     */
    public function setContiguous($contiguous)
    {
        $this->contiguous = (bool) $contiguous;
        if (!$contiguous) {
            $this->contiguousRow = -1;
        }

        return $this;
    }

    /**
     * Get Contiguous.
     *
     * @return bool
     */
    public function getContiguous()
    {
        return $this->contiguous;
    }

    /**
     * Set escape backslashes.
     *
     * @param string $escapeCharacter
     *
     * @return $this
     */
    public function setEscapeCharacter($escapeCharacter)
    {
        $this->escapeCharacter = $escapeCharacter;

        return $this;
    }

    /**
     * Get escape backslashes.
     *
     * @return string
     */
    public function getEscapeCharacter()
    {
        return $this->escapeCharacter;
    }

    /**
     * Can the current IReader read the file?
     *
     * @param string $pFilename
     *
     * @return bool
     */
    public function canRead($pFilename)
    {
        // Check if file exists
        try {
            $this->openFile($pFilename);
        } catch (Exception $e) {
            return false;
        }

        fclose($this->fileHandle);

        // Trust file extension if any
        $extension = strtolower(pathinfo($pFilename, PATHINFO_EXTENSION));
        if (in_array($extension, ['csv', 'tsv'])) {
            return true;
        }

        // Attempt to guess mimetype
        $type = mime_content_type($pFilename);
        $supportedTypes = [
            'text/csv',
            'text/plain',
            'inode/x-empty',
        ];

        return in_array($type, $supportedTypes, true);
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/DefaultReadFilter.php000064400000000713151165414000023770
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader;

class DefaultReadFilter implements IReadFilter
{
    /**
     * Should this cell be read?
     *
     * @param string $column Column address (as a string value like
"A", or "IV")
     * @param int $row Row number
     * @param string $worksheetName Optional worksheet name
     *
     * @return bool
     */
    public function readCell($column, $row, $worksheetName = '')
    {
        return true;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/Exception.php000064400000000253151165414000022377
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader;

use PhpOffice\PhpSpreadsheet\Exception as PhpSpreadsheetException;

class Exception extends PhpSpreadsheetException
{
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/Gnumeric.php000064400000113260151165414000022215
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader;

use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\Cell\DataType;
use PhpOffice\PhpSpreadsheet\NamedRange;
use PhpOffice\PhpSpreadsheet\Reader\Security\XmlScanner;
use PhpOffice\PhpSpreadsheet\ReferenceHelper;
use PhpOffice\PhpSpreadsheet\RichText\RichText;
use PhpOffice\PhpSpreadsheet\Settings;
use PhpOffice\PhpSpreadsheet\Shared\Date;
use PhpOffice\PhpSpreadsheet\Shared\File;
use PhpOffice\PhpSpreadsheet\Spreadsheet;
use PhpOffice\PhpSpreadsheet\Style\Alignment;
use PhpOffice\PhpSpreadsheet\Style\Border;
use PhpOffice\PhpSpreadsheet\Style\Borders;
use PhpOffice\PhpSpreadsheet\Style\Fill;
use PhpOffice\PhpSpreadsheet\Style\Font;
use PhpOffice\PhpSpreadsheet\Worksheet\Worksheet;
use XMLReader;

class Gnumeric extends BaseReader
{
    /**
     * Shared Expressions.
     *
     * @var array
     */
    private $expressions = [];

    private $referenceHelper;

    /**
     * Create a new Gnumeric.
     */
    public function __construct()
    {
        parent::__construct();
        $this->referenceHelper = ReferenceHelper::getInstance();
        $this->securityScanner = XmlScanner::getInstance($this);
    }

    /**
     * Can the current IReader read the file?
     *
     * @param string $pFilename
     *
     * @throws Exception
     *
     * @return bool
     */
    public function canRead($pFilename)
    {
        File::assertFile($pFilename);

        // Check if gzlib functions are available
        if (!function_exists('gzread')) {
            throw new Exception('gzlib library is not enabled');
        }

        // Read signature data (first 3 bytes)
        $fh = fopen($pFilename, 'r');
        $data = fread($fh, 2);
        fclose($fh);

        return $data == chr(0x1F) . chr(0x8B);
    }

    /**
     * Reads names of the worksheets from a file, without parsing the whole
file to a Spreadsheet object.
     *
     * @param string $pFilename
     *
     * @return array
     */
    public function listWorksheetNames($pFilename)
    {
        File::assertFile($pFilename);

        $xml = new XMLReader();
       
$xml->xml($this->securityScanner->scanFile('compress.zlib://'
. realpath($pFilename)), null, Settings::getLibXmlLoaderOptions());
        $xml->setParserProperty(2, true);

        $worksheetNames = [];
        while ($xml->read()) {
            if ($xml->name == 'gnm:SheetName' &&
$xml->nodeType == XMLReader::ELEMENT) {
                $xml->read(); //    Move onto the value node
                $worksheetNames[] = (string) $xml->value;
            } elseif ($xml->name == 'gnm:Sheets') {
                //    break out of the loop once we've got our sheet
names rather than parse the entire file
                break;
            }
        }

        return $worksheetNames;
    }

    /**
     * Return worksheet info (Name, Last Column Letter, Last Column Index,
Total Rows, Total Columns).
     *
     * @param string $pFilename
     *
     * @return array
     */
    public function listWorksheetInfo($pFilename)
    {
        File::assertFile($pFilename);

        $xml = new XMLReader();
       
$xml->xml($this->securityScanner->scanFile('compress.zlib://'
. realpath($pFilename)), null, Settings::getLibXmlLoaderOptions());
        $xml->setParserProperty(2, true);

        $worksheetInfo = [];
        while ($xml->read()) {
            if ($xml->name == 'gnm:Sheet' &&
$xml->nodeType == XMLReader::ELEMENT) {
                $tmpInfo = [
                    'worksheetName' => '',
                    'lastColumnLetter' => 'A',
                    'lastColumnIndex' => 0,
                    'totalRows' => 0,
                    'totalColumns' => 0,
                ];

                while ($xml->read()) {
                    if ($xml->name == 'gnm:Name' &&
$xml->nodeType == XMLReader::ELEMENT) {
                        $xml->read(); //    Move onto the value node
                        $tmpInfo['worksheetName'] = (string)
$xml->value;
                    } elseif ($xml->name == 'gnm:MaxCol'
&& $xml->nodeType == XMLReader::ELEMENT) {
                        $xml->read(); //    Move onto the value node
                        $tmpInfo['lastColumnIndex'] = (int)
$xml->value;
                        $tmpInfo['totalColumns'] = (int)
$xml->value + 1;
                    } elseif ($xml->name == 'gnm:MaxRow'
&& $xml->nodeType == XMLReader::ELEMENT) {
                        $xml->read(); //    Move onto the value node
                        $tmpInfo['totalRows'] = (int)
$xml->value + 1;

                        break;
                    }
                }
                $tmpInfo['lastColumnLetter'] =
Coordinate::stringFromColumnIndex($tmpInfo['lastColumnIndex'] +
1);
                $worksheetInfo[] = $tmpInfo;
            }
        }

        return $worksheetInfo;
    }

    /**
     * @param string $filename
     *
     * @return string
     */
    private function gzfileGetContents($filename)
    {
        $file = @gzopen($filename, 'rb');
        $data = '';
        if ($file !== false) {
            while (!gzeof($file)) {
                $data .= gzread($file, 1024);
            }
            gzclose($file);
        }

        return $data;
    }

    /**
     * Loads Spreadsheet from file.
     *
     * @param string $pFilename
     *
     * @throws Exception
     *
     * @return Spreadsheet
     */
    public function load($pFilename)
    {
        // Create new Spreadsheet
        $spreadsheet = new Spreadsheet();

        // Load into this instance
        return $this->loadIntoExisting($pFilename, $spreadsheet);
    }

    /**
     * Loads from file into Spreadsheet instance.
     *
     * @param string $pFilename
     * @param Spreadsheet $spreadsheet
     *
     * @throws Exception
     *
     * @return Spreadsheet
     */
    public function loadIntoExisting($pFilename, Spreadsheet $spreadsheet)
    {
        File::assertFile($pFilename);

        $gFileData = $this->gzfileGetContents($pFilename);

        $xml =
simplexml_load_string($this->securityScanner->scan($gFileData),
'SimpleXMLElement', Settings::getLibXmlLoaderOptions());
        $namespacesMeta = $xml->getNamespaces(true);

        $gnmXML = $xml->children($namespacesMeta['gnm']);

        $docProps = $spreadsheet->getProperties();
        //    Document Properties are held differently, depending on the
version of Gnumeric
        if (isset($namespacesMeta['office'])) {
            $officeXML =
$xml->children($namespacesMeta['office']);
            $officeDocXML = $officeXML->{'document-meta'};
            $officeDocMetaXML = $officeDocXML->meta;

            foreach ($officeDocMetaXML as $officePropertyData) {
                $officePropertyDC = [];
                if (isset($namespacesMeta['dc'])) {
                    $officePropertyDC =
$officePropertyData->children($namespacesMeta['dc']);
                }
                foreach ($officePropertyDC as $propertyName =>
$propertyValue) {
                    $propertyValue = (string) $propertyValue;
                    switch ($propertyName) {
                        case 'title':
                            $docProps->setTitle(trim($propertyValue));

                            break;
                        case 'subject':
                            $docProps->setSubject(trim($propertyValue));

                            break;
                        case 'creator':
                            $docProps->setCreator(trim($propertyValue));
                           
$docProps->setLastModifiedBy(trim($propertyValue));

                            break;
                        case 'date':
                            $creationDate =
strtotime(trim($propertyValue));
                            $docProps->setCreated($creationDate);
                            $docProps->setModified($creationDate);

                            break;
                        case 'description':
                           
$docProps->setDescription(trim($propertyValue));

                            break;
                    }
                }
                $officePropertyMeta = [];
                if (isset($namespacesMeta['meta'])) {
                    $officePropertyMeta =
$officePropertyData->children($namespacesMeta['meta']);
                }
                foreach ($officePropertyMeta as $propertyName =>
$propertyValue) {
                    $attributes =
$propertyValue->attributes($namespacesMeta['meta']);
                    $propertyValue = (string) $propertyValue;
                    switch ($propertyName) {
                        case 'keyword':
                           
$docProps->setKeywords(trim($propertyValue));

                            break;
                        case 'initial-creator':
                            $docProps->setCreator(trim($propertyValue));
                           
$docProps->setLastModifiedBy(trim($propertyValue));

                            break;
                        case 'creation-date':
                            $creationDate =
strtotime(trim($propertyValue));
                            $docProps->setCreated($creationDate);
                            $docProps->setModified($creationDate);

                            break;
                        case 'user-defined':
                            [, $attrName] = explode(':',
$attributes['name']);
                            switch ($attrName) {
                                case 'publisher':
                                   
$docProps->setCompany(trim($propertyValue));

                                    break;
                                case 'category':
                                   
$docProps->setCategory(trim($propertyValue));

                                    break;
                                case 'manager':
                                   
$docProps->setManager(trim($propertyValue));

                                    break;
                            }

                            break;
                    }
                }
            }
        } elseif (isset($gnmXML->Summary)) {
            foreach ($gnmXML->Summary->Item as $summaryItem) {
                $propertyName = $summaryItem->name;
                $propertyValue = $summaryItem->{'val-string'};
                switch ($propertyName) {
                    case 'title':
                        $docProps->setTitle(trim($propertyValue));

                        break;
                    case 'comments':
                        $docProps->setDescription(trim($propertyValue));

                        break;
                    case 'keywords':
                        $docProps->setKeywords(trim($propertyValue));

                        break;
                    case 'category':
                        $docProps->setCategory(trim($propertyValue));

                        break;
                    case 'manager':
                        $docProps->setManager(trim($propertyValue));

                        break;
                    case 'author':
                        $docProps->setCreator(trim($propertyValue));
                       
$docProps->setLastModifiedBy(trim($propertyValue));

                        break;
                    case 'company':
                        $docProps->setCompany(trim($propertyValue));

                        break;
                }
            }
        }

        $worksheetID = 0;
        foreach ($gnmXML->Sheets->Sheet as $sheet) {
            $worksheetName = (string) $sheet->Name;
            if ((isset($this->loadSheetsOnly)) &&
(!in_array($worksheetName, $this->loadSheetsOnly))) {
                continue;
            }

            $maxRow = $maxCol = 0;

            // Create new Worksheet
            $spreadsheet->createSheet();
            $spreadsheet->setActiveSheetIndex($worksheetID);
            //    Use false for $updateFormulaCellReferences to prevent
adjustment of worksheet references in formula
            //        cells... during the load, all formulae should be
correct, and we're simply bringing the worksheet
            //        name in line with the formula, not the reverse
            $spreadsheet->getActiveSheet()->setTitle($worksheetName,
false, false);

            if ((!$this->readDataOnly) &&
(isset($sheet->PrintInformation))) {
                if (isset($sheet->PrintInformation->Margins)) {
                    foreach
($sheet->PrintInformation->Margins->children('gnm',
true) as $key => $margin) {
                        $marginAttributes = $margin->attributes();
                        $marginSize = 72 / 100; //    Default
                        switch ($marginAttributes['PrefUnit']) {
                            case 'mm':
                                $marginSize = (int)
($marginAttributes['Points']) / 100;

                                break;
                        }
                        switch ($key) {
                            case 'top':
                               
$spreadsheet->getActiveSheet()->getPageMargins()->setTop($marginSize);

                                break;
                            case 'bottom':
                               
$spreadsheet->getActiveSheet()->getPageMargins()->setBottom($marginSize);

                                break;
                            case 'left':
                               
$spreadsheet->getActiveSheet()->getPageMargins()->setLeft($marginSize);

                                break;
                            case 'right':
                               
$spreadsheet->getActiveSheet()->getPageMargins()->setRight($marginSize);

                                break;
                            case 'header':
                               
$spreadsheet->getActiveSheet()->getPageMargins()->setHeader($marginSize);

                                break;
                            case 'footer':
                               
$spreadsheet->getActiveSheet()->getPageMargins()->setFooter($marginSize);

                                break;
                        }
                    }
                }
            }

            foreach ($sheet->Cells->Cell as $cell) {
                $cellAttributes = $cell->attributes();
                $row = (int) $cellAttributes->Row + 1;
                $column = (int) $cellAttributes->Col;

                if ($row > $maxRow) {
                    $maxRow = $row;
                }
                if ($column > $maxCol) {
                    $maxCol = $column;
                }

                $column = Coordinate::stringFromColumnIndex($column + 1);

                // Read cell?
                if ($this->getReadFilter() !== null) {
                    if (!$this->getReadFilter()->readCell($column,
$row, $worksheetName)) {
                        continue;
                    }
                }

                $ValueType = $cellAttributes->ValueType;
                $ExprID = (string) $cellAttributes->ExprID;
                $type = DataType::TYPE_FORMULA;
                if ($ExprID > '') {
                    if (((string) $cell) > '') {
                        $this->expressions[$ExprID] = [
                            'column' =>
$cellAttributes->Col,
                            'row' => $cellAttributes->Row,
                            'formula' => (string) $cell,
                        ];
                    } else {
                        $expression = $this->expressions[$ExprID];

                        $cell =
$this->referenceHelper->updateFormulaReferences(
                            $expression['formula'],
                            'A1',
                            $cellAttributes->Col -
$expression['column'],
                            $cellAttributes->Row -
$expression['row'],
                            $worksheetName
                        );
                    }
                    $type = DataType::TYPE_FORMULA;
                } else {
                    switch ($ValueType) {
                        case '10':        //    NULL
                            $type = DataType::TYPE_NULL;

                            break;
                        case '20':        //    Boolean
                            $type = DataType::TYPE_BOOL;
                            $cell = $cell == 'TRUE';

                            break;
                        case '30':        //    Integer
                            $cell = (int) $cell;
                            // Excel 2007+ doesn't differentiate
between integer and float, so set the value and dropthru to the next
(numeric) case
                            // no break
                        case '40':        //    Float
                            $type = DataType::TYPE_NUMERIC;

                            break;
                        case '50':        //    Error
                            $type = DataType::TYPE_ERROR;

                            break;
                        case '60':        //    String
                            $type = DataType::TYPE_STRING;

                            break;
                        case '70':        //    Cell Range
                        case '80':        //    Array
                    }
                }
                $spreadsheet->getActiveSheet()->getCell($column .
$row)->setValueExplicit($cell, $type);
            }

            if ((!$this->readDataOnly) &&
(isset($sheet->Objects))) {
                foreach ($sheet->Objects->children('gnm',
true) as $key => $comment) {
                    $commentAttributes = $comment->attributes();
                    //    Only comment objects are handled at the moment
                    if ($commentAttributes->Text) {
                       
$spreadsheet->getActiveSheet()->getComment((string)
$commentAttributes->ObjectBound)->setAuthor((string)
$commentAttributes->Author)->setText($this->parseRichText((string)
$commentAttributes->Text));
                    }
                }
            }
            foreach ($sheet->Styles->StyleRegion as $styleRegion) {
                $styleAttributes = $styleRegion->attributes();
                if (($styleAttributes['startRow'] <= $maxRow)
&&
                    ($styleAttributes['startCol'] <= $maxCol))
{
                    $startColumn = Coordinate::stringFromColumnIndex((int)
$styleAttributes['startCol'] + 1);
                    $startRow = $styleAttributes['startRow'] + 1;

                    $endColumn = ($styleAttributes['endCol'] >
$maxCol) ? $maxCol : (int) $styleAttributes['endCol'];
                    $endColumn =
Coordinate::stringFromColumnIndex($endColumn + 1);
                    $endRow = ($styleAttributes['endRow'] >
$maxRow) ? $maxRow : $styleAttributes['endRow'];
                    $endRow += 1;
                    $cellRange = $startColumn . $startRow . ':' .
$endColumn . $endRow;

                    $styleAttributes =
$styleRegion->Style->attributes();

                    //    We still set the number format mask for date/time
values, even if readDataOnly is true
                    if ((!$this->readDataOnly) ||
                        (Date::isDateTimeFormatCode((string)
$styleAttributes['Format']))) {
                        $styleArray = [];
                       
$styleArray['numberFormat']['formatCode'] = (string)
$styleAttributes['Format'];
                        //    If readDataOnly is false, we set all
formatting information
                        if (!$this->readDataOnly) {
                            switch ($styleAttributes['HAlign']) {
                                case '1':
                                   
$styleArray['alignment']['horizontal'] =
Alignment::HORIZONTAL_GENERAL;

                                    break;
                                case '2':
                                   
$styleArray['alignment']['horizontal'] =
Alignment::HORIZONTAL_LEFT;

                                    break;
                                case '4':
                                   
$styleArray['alignment']['horizontal'] =
Alignment::HORIZONTAL_RIGHT;

                                    break;
                                case '8':
                                   
$styleArray['alignment']['horizontal'] =
Alignment::HORIZONTAL_CENTER;

                                    break;
                                case '16':
                                case '64':
                                   
$styleArray['alignment']['horizontal'] =
Alignment::HORIZONTAL_CENTER_CONTINUOUS;

                                    break;
                                case '32':
                                   
$styleArray['alignment']['horizontal'] =
Alignment::HORIZONTAL_JUSTIFY;

                                    break;
                            }

                            switch ($styleAttributes['VAlign']) {
                                case '1':
                                   
$styleArray['alignment']['vertical'] =
Alignment::VERTICAL_TOP;

                                    break;
                                case '2':
                                   
$styleArray['alignment']['vertical'] =
Alignment::VERTICAL_BOTTOM;

                                    break;
                                case '4':
                                   
$styleArray['alignment']['vertical'] =
Alignment::VERTICAL_CENTER;

                                    break;
                                case '8':
                                   
$styleArray['alignment']['vertical'] =
Alignment::VERTICAL_JUSTIFY;

                                    break;
                            }

                           
$styleArray['alignment']['wrapText'] =
$styleAttributes['WrapText'] == '1';
                           
$styleArray['alignment']['shrinkToFit'] =
$styleAttributes['ShrinkToFit'] == '1';
                           
$styleArray['alignment']['indent'] = ((int)
($styleAttributes['Indent']) > 0) ?
$styleAttributes['indent'] : 0;

                            $RGB =
self::parseGnumericColour($styleAttributes['Fore']);
                           
$styleArray['font']['color']['rgb'] = $RGB;
                            $RGB =
self::parseGnumericColour($styleAttributes['Back']);
                            $shade = $styleAttributes['Shade'];
                            if (($RGB != '000000') || ($shade !=
'0')) {
                               
$styleArray['fill']['color']['rgb'] =
$styleArray['fill']['startColor']['rgb'] =
$RGB;
                                $RGB2 =
self::parseGnumericColour($styleAttributes['PatternColor']);
                               
$styleArray['fill']['endColor']['rgb'] =
$RGB2;
                                switch ($shade) {
                                    case '1':
                                       
$styleArray['fill']['fillType'] = Fill::FILL_SOLID;

                                        break;
                                    case '2':
                                       
$styleArray['fill']['fillType'] =
Fill::FILL_GRADIENT_LINEAR;

                                        break;
                                    case '3':
                                       
$styleArray['fill']['fillType'] =
Fill::FILL_GRADIENT_PATH;

                                        break;
                                    case '4':
                                       
$styleArray['fill']['fillType'] =
Fill::FILL_PATTERN_DARKDOWN;

                                        break;
                                    case '5':
                                       
$styleArray['fill']['fillType'] =
Fill::FILL_PATTERN_DARKGRAY;

                                        break;
                                    case '6':
                                       
$styleArray['fill']['fillType'] =
Fill::FILL_PATTERN_DARKGRID;

                                        break;
                                    case '7':
                                       
$styleArray['fill']['fillType'] =
Fill::FILL_PATTERN_DARKHORIZONTAL;

                                        break;
                                    case '8':
                                       
$styleArray['fill']['fillType'] =
Fill::FILL_PATTERN_DARKTRELLIS;

                                        break;
                                    case '9':
                                       
$styleArray['fill']['fillType'] =
Fill::FILL_PATTERN_DARKUP;

                                        break;
                                    case '10':
                                       
$styleArray['fill']['fillType'] =
Fill::FILL_PATTERN_DARKVERTICAL;

                                        break;
                                    case '11':
                                       
$styleArray['fill']['fillType'] =
Fill::FILL_PATTERN_GRAY0625;

                                        break;
                                    case '12':
                                       
$styleArray['fill']['fillType'] =
Fill::FILL_PATTERN_GRAY125;

                                        break;
                                    case '13':
                                       
$styleArray['fill']['fillType'] =
Fill::FILL_PATTERN_LIGHTDOWN;

                                        break;
                                    case '14':
                                       
$styleArray['fill']['fillType'] =
Fill::FILL_PATTERN_LIGHTGRAY;

                                        break;
                                    case '15':
                                       
$styleArray['fill']['fillType'] =
Fill::FILL_PATTERN_LIGHTGRID;

                                        break;
                                    case '16':
                                       
$styleArray['fill']['fillType'] =
Fill::FILL_PATTERN_LIGHTHORIZONTAL;

                                        break;
                                    case '17':
                                       
$styleArray['fill']['fillType'] =
Fill::FILL_PATTERN_LIGHTTRELLIS;

                                        break;
                                    case '18':
                                       
$styleArray['fill']['fillType'] =
Fill::FILL_PATTERN_LIGHTUP;

                                        break;
                                    case '19':
                                       
$styleArray['fill']['fillType'] =
Fill::FILL_PATTERN_LIGHTVERTICAL;

                                        break;
                                    case '20':
                                       
$styleArray['fill']['fillType'] =
Fill::FILL_PATTERN_MEDIUMGRAY;

                                        break;
                                }
                            }

                            $fontAttributes =
$styleRegion->Style->Font->attributes();
                            $styleArray['font']['name']
= (string) $styleRegion->Style->Font;
                            $styleArray['font']['size']
= (int) ($fontAttributes['Unit']);
                            $styleArray['font']['bold']
= $fontAttributes['Bold'] == '1';
                           
$styleArray['font']['italic'] =
$fontAttributes['Italic'] == '1';
                           
$styleArray['font']['strikethrough'] =
$fontAttributes['StrikeThrough'] == '1';
                            switch ($fontAttributes['Underline'])
{
                                case '1':
                                   
$styleArray['font']['underline'] =
Font::UNDERLINE_SINGLE;

                                    break;
                                case '2':
                                   
$styleArray['font']['underline'] =
Font::UNDERLINE_DOUBLE;

                                    break;
                                case '3':
                                   
$styleArray['font']['underline'] =
Font::UNDERLINE_SINGLEACCOUNTING;

                                    break;
                                case '4':
                                   
$styleArray['font']['underline'] =
Font::UNDERLINE_DOUBLEACCOUNTING;

                                    break;
                                default:
                                   
$styleArray['font']['underline'] =
Font::UNDERLINE_NONE;

                                    break;
                            }
                            switch ($fontAttributes['Script']) {
                                case '1':
                                   
$styleArray['font']['superscript'] = true;

                                    break;
                                case '-1':
                                   
$styleArray['font']['subscript'] = true;

                                    break;
                            }

                            if
(isset($styleRegion->Style->StyleBorder)) {
                                if
(isset($styleRegion->Style->StyleBorder->Top)) {
                                   
$styleArray['borders']['top'] =
self::parseBorderAttributes($styleRegion->Style->StyleBorder->Top->attributes());
                                }
                                if
(isset($styleRegion->Style->StyleBorder->Bottom)) {
                                   
$styleArray['borders']['bottom'] =
self::parseBorderAttributes($styleRegion->Style->StyleBorder->Bottom->attributes());
                                }
                                if
(isset($styleRegion->Style->StyleBorder->Left)) {
                                   
$styleArray['borders']['left'] =
self::parseBorderAttributes($styleRegion->Style->StyleBorder->Left->attributes());
                                }
                                if
(isset($styleRegion->Style->StyleBorder->Right)) {
                                   
$styleArray['borders']['right'] =
self::parseBorderAttributes($styleRegion->Style->StyleBorder->Right->attributes());
                                }
                                if
((isset($styleRegion->Style->StyleBorder->Diagonal)) &&
(isset($styleRegion->Style->StyleBorder->{'Rev-Diagonal'})))
{
                                   
$styleArray['borders']['diagonal'] =
self::parseBorderAttributes($styleRegion->Style->StyleBorder->Diagonal->attributes());
                                   
$styleArray['borders']['diagonalDirection'] =
Borders::DIAGONAL_BOTH;
                                } elseif
(isset($styleRegion->Style->StyleBorder->Diagonal)) {
                                   
$styleArray['borders']['diagonal'] =
self::parseBorderAttributes($styleRegion->Style->StyleBorder->Diagonal->attributes());
                                   
$styleArray['borders']['diagonalDirection'] =
Borders::DIAGONAL_UP;
                                } elseif
(isset($styleRegion->Style->StyleBorder->{'Rev-Diagonal'}))
{
                                   
$styleArray['borders']['diagonal'] =
self::parseBorderAttributes($styleRegion->Style->StyleBorder->{'Rev-Diagonal'}->attributes());
                                   
$styleArray['borders']['diagonalDirection'] =
Borders::DIAGONAL_DOWN;
                                }
                            }
                            if
(isset($styleRegion->Style->HyperLink)) {
                                //    TO DO
                                $hyperlink =
$styleRegion->Style->HyperLink->attributes();
                            }
                        }
                       
$spreadsheet->getActiveSheet()->getStyle($cellRange)->applyFromArray($styleArray);
                    }
                }
            }

            if ((!$this->readDataOnly) &&
(isset($sheet->Cols))) {
                //    Column Widths
                $columnAttributes = $sheet->Cols->attributes();
                $defaultWidth =
$columnAttributes['DefaultSizePts'] / 5.4;
                $c = 0;
                foreach ($sheet->Cols->ColInfo as $columnOverride) {
                    $columnAttributes = $columnOverride->attributes();
                    $column = $columnAttributes['No'];
                    $columnWidth = $columnAttributes['Unit'] /
5.4;
                    $hidden =
(isset($columnAttributes['Hidden'])) &&
($columnAttributes['Hidden'] == '1');
                    $columnCount =
(isset($columnAttributes['Count'])) ?
$columnAttributes['Count'] : 1;
                    while ($c < $column) {
                       
$spreadsheet->getActiveSheet()->getColumnDimension(Coordinate::stringFromColumnIndex($c
+ 1))->setWidth($defaultWidth);
                        ++$c;
                    }
                    while (($c < ($column + $columnCount)) &&
($c <= $maxCol)) {
                       
$spreadsheet->getActiveSheet()->getColumnDimension(Coordinate::stringFromColumnIndex($c
+ 1))->setWidth($columnWidth);
                        if ($hidden) {
                           
$spreadsheet->getActiveSheet()->getColumnDimension(Coordinate::stringFromColumnIndex($c
+ 1))->setVisible(false);
                        }
                        ++$c;
                    }
                }
                while ($c <= $maxCol) {
                   
$spreadsheet->getActiveSheet()->getColumnDimension(Coordinate::stringFromColumnIndex($c
+ 1))->setWidth($defaultWidth);
                    ++$c;
                }
            }

            if ((!$this->readDataOnly) &&
(isset($sheet->Rows))) {
                //    Row Heights
                $rowAttributes = $sheet->Rows->attributes();
                $defaultHeight =
$rowAttributes['DefaultSizePts'];
                $r = 0;

                foreach ($sheet->Rows->RowInfo as $rowOverride) {
                    $rowAttributes = $rowOverride->attributes();
                    $row = $rowAttributes['No'];
                    $rowHeight = $rowAttributes['Unit'];
                    $hidden = (isset($rowAttributes['Hidden']))
&& ($rowAttributes['Hidden'] == '1');
                    $rowCount = (isset($rowAttributes['Count']))
? $rowAttributes['Count'] : 1;
                    while ($r < $row) {
                        ++$r;
                       
$spreadsheet->getActiveSheet()->getRowDimension($r)->setRowHeight($defaultHeight);
                    }
                    while (($r < ($row + $rowCount)) && ($r <
$maxRow)) {
                        ++$r;
                       
$spreadsheet->getActiveSheet()->getRowDimension($r)->setRowHeight($rowHeight);
                        if ($hidden) {
                           
$spreadsheet->getActiveSheet()->getRowDimension($r)->setVisible(false);
                        }
                    }
                }
                while ($r < $maxRow) {
                    ++$r;
                   
$spreadsheet->getActiveSheet()->getRowDimension($r)->setRowHeight($defaultHeight);
                }
            }

            //    Handle Merged Cells in this worksheet
            if (isset($sheet->MergedRegions)) {
                foreach ($sheet->MergedRegions->Merge as $mergeCells)
{
                    if (strpos($mergeCells, ':') !== false) {
                       
$spreadsheet->getActiveSheet()->mergeCells($mergeCells);
                    }
                }
            }

            ++$worksheetID;
        }

        //    Loop through definedNames (global named ranges)
        if (isset($gnmXML->Names)) {
            foreach ($gnmXML->Names->Name as $namedRange) {
                $name = (string) $namedRange->name;
                $range = (string) $namedRange->value;
                if (stripos($range, '#REF!') !== false) {
                    continue;
                }

                $range = Worksheet::extractSheetTitle($range, true);
                $range[0] = trim($range[0], "'");
                if ($worksheet =
$spreadsheet->getSheetByName($range[0])) {
                    $extractedRange = str_replace('$',
'', $range[1]);
                    $spreadsheet->addNamedRange(new NamedRange($name,
$worksheet, $extractedRange));
                }
            }
        }

        // Return
        return $spreadsheet;
    }

    private static function parseBorderAttributes($borderAttributes)
    {
        $styleArray = [];
        if (isset($borderAttributes['Color'])) {
            $styleArray['color']['rgb'] =
self::parseGnumericColour($borderAttributes['Color']);
        }

        switch ($borderAttributes['Style']) {
            case '0':
                $styleArray['borderStyle'] = Border::BORDER_NONE;

                break;
            case '1':
                $styleArray['borderStyle'] = Border::BORDER_THIN;

                break;
            case '2':
                $styleArray['borderStyle'] =
Border::BORDER_MEDIUM;

                break;
            case '3':
                $styleArray['borderStyle'] =
Border::BORDER_SLANTDASHDOT;

                break;
            case '4':
                $styleArray['borderStyle'] =
Border::BORDER_DASHED;

                break;
            case '5':
                $styleArray['borderStyle'] =
Border::BORDER_THICK;

                break;
            case '6':
                $styleArray['borderStyle'] =
Border::BORDER_DOUBLE;

                break;
            case '7':
                $styleArray['borderStyle'] =
Border::BORDER_DOTTED;

                break;
            case '8':
                $styleArray['borderStyle'] =
Border::BORDER_MEDIUMDASHED;

                break;
            case '9':
                $styleArray['borderStyle'] =
Border::BORDER_DASHDOT;

                break;
            case '10':
                $styleArray['borderStyle'] =
Border::BORDER_MEDIUMDASHDOT;

                break;
            case '11':
                $styleArray['borderStyle'] =
Border::BORDER_DASHDOTDOT;

                break;
            case '12':
                $styleArray['borderStyle'] =
Border::BORDER_MEDIUMDASHDOTDOT;

                break;
            case '13':
                $styleArray['borderStyle'] =
Border::BORDER_MEDIUMDASHDOTDOT;

                break;
        }

        return $styleArray;
    }

    private function parseRichText($is)
    {
        $value = new RichText();
        $value->createText($is);

        return $value;
    }

    private static function parseGnumericColour($gnmColour)
    {
        [$gnmR, $gnmG, $gnmB] = explode(':', $gnmColour);
        $gnmR = substr(str_pad($gnmR, 4, '0', STR_PAD_RIGHT), 0,
2);
        $gnmG = substr(str_pad($gnmG, 4, '0', STR_PAD_RIGHT), 0,
2);
        $gnmB = substr(str_pad($gnmB, 4, '0', STR_PAD_RIGHT), 0,
2);

        return $gnmR . $gnmG . $gnmB;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/Html.php000064400000076417151165414000021364
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader;

use DOMDocument;
use DOMElement;
use DOMNode;
use DOMText;
use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\Reader\Security\XmlScanner;
use PhpOffice\PhpSpreadsheet\Spreadsheet;
use PhpOffice\PhpSpreadsheet\Style\Border;
use PhpOffice\PhpSpreadsheet\Style\Color;
use PhpOffice\PhpSpreadsheet\Style\Fill;
use PhpOffice\PhpSpreadsheet\Style\Font;
use PhpOffice\PhpSpreadsheet\Style\Style;
use PhpOffice\PhpSpreadsheet\Worksheet\Drawing;
use PhpOffice\PhpSpreadsheet\Worksheet\Worksheet;

/** PhpSpreadsheet root directory */
class Html extends BaseReader
{
    /**
     * Sample size to read to determine if it's HTML or not.
     */
    const TEST_SAMPLE_SIZE = 2048;

    /**
     * Input encoding.
     *
     * @var string
     */
    protected $inputEncoding = 'ANSI';

    /**
     * Sheet index to read.
     *
     * @var int
     */
    protected $sheetIndex = 0;

    /**
     * Formats.
     *
     * @var array
     */
    protected $formats = [
        'h1' => [
            'font' => [
                'bold' => true,
                'size' => 24,
            ],
        ], //    Bold, 24pt
        'h2' => [
            'font' => [
                'bold' => true,
                'size' => 18,
            ],
        ], //    Bold, 18pt
        'h3' => [
            'font' => [
                'bold' => true,
                'size' => 13.5,
            ],
        ], //    Bold, 13.5pt
        'h4' => [
            'font' => [
                'bold' => true,
                'size' => 12,
            ],
        ], //    Bold, 12pt
        'h5' => [
            'font' => [
                'bold' => true,
                'size' => 10,
            ],
        ], //    Bold, 10pt
        'h6' => [
            'font' => [
                'bold' => true,
                'size' => 7.5,
            ],
        ], //    Bold, 7.5pt
        'a' => [
            'font' => [
                'underline' => true,
                'color' => [
                    'argb' => Color::COLOR_BLUE,
                ],
            ],
        ], //    Blue underlined
        'hr' => [
            'borders' => [
                'bottom' => [
                    'borderStyle' => Border::BORDER_THIN,
                    'color' => [
                        Color::COLOR_BLACK,
                    ],
                ],
            ],
        ], //    Bottom border
        'strong' => [
            'font' => [
                'bold' => true,
            ],
        ], //    Bold
        'b' => [
            'font' => [
                'bold' => true,
            ],
        ], //    Bold
        'i' => [
            'font' => [
                'italic' => true,
            ],
        ], //    Italic
        'em' => [
            'font' => [
                'italic' => true,
            ],
        ], //    Italic
    ];

    protected $rowspan = [];

    /**
     * Create a new HTML Reader instance.
     */
    public function __construct()
    {
        parent::__construct();
        $this->securityScanner = XmlScanner::getInstance($this);
    }

    /**
     * Validate that the current file is an HTML file.
     *
     * @param string $pFilename
     *
     * @return bool
     */
    public function canRead($pFilename)
    {
        // Check if file exists
        try {
            $this->openFile($pFilename);
        } catch (Exception $e) {
            return false;
        }

        $beginning = $this->readBeginning();
        $startWithTag = self::startsWithTag($beginning);
        $containsTags = self::containsTags($beginning);
        $endsWithTag = self::endsWithTag($this->readEnding());

        fclose($this->fileHandle);

        return $startWithTag && $containsTags &&
$endsWithTag;
    }

    private function readBeginning()
    {
        fseek($this->fileHandle, 0);

        return fread($this->fileHandle, self::TEST_SAMPLE_SIZE);
    }

    private function readEnding()
    {
        $meta = stream_get_meta_data($this->fileHandle);
        $filename = $meta['uri'];

        $size = filesize($filename);
        if ($size === 0) {
            return '';
        }

        $blockSize = self::TEST_SAMPLE_SIZE;
        if ($size < $blockSize) {
            $blockSize = $size;
        }

        fseek($this->fileHandle, $size - $blockSize);

        return fread($this->fileHandle, $blockSize);
    }

    private static function startsWithTag($data)
    {
        return '<' === substr(trim($data), 0, 1);
    }

    private static function endsWithTag($data)
    {
        return '>' === substr(trim($data), -1, 1);
    }

    private static function containsTags($data)
    {
        return strlen($data) !== strlen(strip_tags($data));
    }

    /**
     * Loads Spreadsheet from file.
     *
     * @param string $pFilename
     *
     * @throws Exception
     *
     * @return Spreadsheet
     */
    public function load($pFilename)
    {
        // Create new Spreadsheet
        $spreadsheet = new Spreadsheet();

        // Load into this instance
        return $this->loadIntoExisting($pFilename, $spreadsheet);
    }

    /**
     * Set input encoding.
     *
     * @param string $pValue Input encoding, eg: 'ANSI'
     *
     * @return $this
     */
    public function setInputEncoding($pValue)
    {
        $this->inputEncoding = $pValue;

        return $this;
    }

    /**
     * Get input encoding.
     *
     * @return string
     */
    public function getInputEncoding()
    {
        return $this->inputEncoding;
    }

    //    Data Array used for testing only, should write to Spreadsheet
object on completion of tests
    protected $dataArray = [];

    protected $tableLevel = 0;

    protected $nestedColumn = ['A'];

    protected function setTableStartColumn($column)
    {
        if ($this->tableLevel == 0) {
            $column = 'A';
        }
        ++$this->tableLevel;
        $this->nestedColumn[$this->tableLevel] = $column;

        return $this->nestedColumn[$this->tableLevel];
    }

    protected function getTableStartColumn()
    {
        return $this->nestedColumn[$this->tableLevel];
    }

    protected function releaseTableStartColumn()
    {
        --$this->tableLevel;

        return array_pop($this->nestedColumn);
    }

    protected function flushCell(Worksheet $sheet, $column, $row,
&$cellContent)
    {
        if (is_string($cellContent)) {
            //    Simple String content
            if (trim($cellContent) > '') {
                //    Only actually write it if there's content in the
string
                //    Write to worksheet to be done here...
                //    ... we return the cell so we can mess about with
styles more easily
                $sheet->setCellValue($column . $row, $cellContent);
                $this->dataArray[$row][$column] = $cellContent;
            }
        } else {
            //    We have a Rich Text run
            //    TODO
            $this->dataArray[$row][$column] = 'RICH TEXT: ' .
$cellContent;
        }
        $cellContent = (string) '';
    }

    /**
     * @param DOMNode $element
     * @param Worksheet $sheet
     * @param int $row
     * @param string $column
     * @param string $cellContent
     */
    protected function processDomElement(DOMNode $element, Worksheet
$sheet, &$row, &$column, &$cellContent)
    {
        foreach ($element->childNodes as $child) {
            if ($child instanceof DOMText) {
                $domText = preg_replace('/\s+/u', ' ',
trim($child->nodeValue));
                if (is_string($cellContent)) {
                    //    simply append the text if the cell content is a
plain text string
                    $cellContent .= $domText;
                }
                //    but if we have a rich text run instead, we need to
append it correctly
                    //    TODO
            } elseif ($child instanceof DOMElement) {
                $attributeArray = [];
                foreach ($child->attributes as $attribute) {
                    $attributeArray[$attribute->name] =
$attribute->value;
                }

                switch ($child->nodeName) {
                    case 'meta':
                        foreach ($attributeArray as $attributeName =>
$attributeValue) {
                            // Extract character set, so we can convert to
UTF-8 if required
                            if ($attributeName === 'charset') {
                               
$this->setInputEncoding($attributeValue);
                            }
                        }
                        $this->processDomElement($child, $sheet, $row,
$column, $cellContent);

                        break;
                    case 'title':
                        $this->processDomElement($child, $sheet, $row,
$column, $cellContent);
                        $sheet->setTitle($cellContent, true, false);
                        $cellContent = '';

                        break;
                    case 'span':
                    case 'div':
                    case 'font':
                    case 'i':
                    case 'em':
                    case 'strong':
                    case 'b':
                        if (isset($attributeArray['class'])
&& $attributeArray['class'] === 'comment') {
                            $sheet->getComment($column . $row)
                                ->getText()
                                ->createTextRun($child->textContent);

                            break;
                        }

                        if ($cellContent > '') {
                            $cellContent .= ' ';
                        }
                        $this->processDomElement($child, $sheet, $row,
$column, $cellContent);
                        if ($cellContent > '') {
                            $cellContent .= ' ';
                        }

                        if (isset($this->formats[$child->nodeName]))
{
                            $sheet->getStyle($column .
$row)->applyFromArray($this->formats[$child->nodeName]);
                        }

                        break;
                    case 'hr':
                        $this->flushCell($sheet, $column, $row,
$cellContent);
                        ++$row;
                        if (isset($this->formats[$child->nodeName]))
{
                            $sheet->getStyle($column .
$row)->applyFromArray($this->formats[$child->nodeName]);
                        } else {
                            $cellContent = '----------';
                            $this->flushCell($sheet, $column, $row,
$cellContent);
                        }
                        ++$row;
                        // Add a break after a horizontal rule, simply by
allowing the code to dropthru
                        // no break
                    case 'br':
                        if ($this->tableLevel > 0) {
                            //    If we're inside a table, replace
with a \n and set the cell to wrap
                            $cellContent .= "\n";
                            $sheet->getStyle($column .
$row)->getAlignment()->setWrapText(true);
                        } else {
                            //    Otherwise flush our existing content and
move the row cursor on
                            $this->flushCell($sheet, $column, $row,
$cellContent);
                            ++$row;
                        }

                        break;
                    case 'a':
                        foreach ($attributeArray as $attributeName =>
$attributeValue) {
                            switch ($attributeName) {
                                case 'href':
                                    $sheet->getCell($column .
$row)->getHyperlink()->setUrl($attributeValue);
                                    if
(isset($this->formats[$child->nodeName])) {
                                        $sheet->getStyle($column .
$row)->applyFromArray($this->formats[$child->nodeName]);
                                    }

                                    break;
                                case 'class':
                                    if ($attributeValue ===
'comment-indicator') {
                                        break; // Ignore - it's just a
red square.
                                    }
                            }
                        }
                        $cellContent .= ' ';
                        $this->processDomElement($child, $sheet, $row,
$column, $cellContent);

                        break;
                    case 'h1':
                    case 'h2':
                    case 'h3':
                    case 'h4':
                    case 'h5':
                    case 'h6':
                    case 'ol':
                    case 'ul':
                    case 'p':
                        if ($this->tableLevel > 0) {
                            //    If we're inside a table, replace
with a \n
                            $cellContent .= "\n";
                            $this->processDomElement($child, $sheet,
$row, $column, $cellContent);
                        } else {
                            if ($cellContent > '') {
                                $this->flushCell($sheet, $column, $row,
$cellContent);
                                ++$row;
                            }
                            $this->processDomElement($child, $sheet,
$row, $column, $cellContent);
                            $this->flushCell($sheet, $column, $row,
$cellContent);

                            if
(isset($this->formats[$child->nodeName])) {
                                $sheet->getStyle($column .
$row)->applyFromArray($this->formats[$child->nodeName]);
                            }

                            ++$row;
                            $column = 'A';
                        }

                        break;
                    case 'li':
                        if ($this->tableLevel > 0) {
                            //    If we're inside a table, replace
with a \n
                            $cellContent .= "\n";
                            $this->processDomElement($child, $sheet,
$row, $column, $cellContent);
                        } else {
                            if ($cellContent > '') {
                                $this->flushCell($sheet, $column, $row,
$cellContent);
                            }
                            ++$row;
                            $this->processDomElement($child, $sheet,
$row, $column, $cellContent);
                            $this->flushCell($sheet, $column, $row,
$cellContent);
                            $column = 'A';
                        }

                        break;
                    case 'img':
                        $this->insertImage($sheet, $column, $row,
$attributeArray);

                        break;
                    case 'table':
                        $this->flushCell($sheet, $column, $row,
$cellContent);
                        $column = $this->setTableStartColumn($column);
                        if ($this->tableLevel > 1) {
                            --$row;
                        }
                        $this->processDomElement($child, $sheet, $row,
$column, $cellContent);
                        $column = $this->releaseTableStartColumn();
                        if ($this->tableLevel > 1) {
                            ++$column;
                        } else {
                            ++$row;
                        }

                        break;
                    case 'thead':
                    case 'tbody':
                        $this->processDomElement($child, $sheet, $row,
$column, $cellContent);

                        break;
                    case 'tr':
                        $column = $this->getTableStartColumn();
                        $cellContent = '';
                        $this->processDomElement($child, $sheet, $row,
$column, $cellContent);

                        if (isset($attributeArray['height'])) {
                           
$sheet->getRowDimension($row)->setRowHeight($attributeArray['height']);
                        }

                        ++$row;

                        break;
                    case 'th':
                    case 'td':
                        $this->processDomElement($child, $sheet, $row,
$column, $cellContent);

                        while (isset($this->rowspan[$column . $row])) {
                            ++$column;
                        }

                        // apply inline style
                        $this->applyInlineStyle($sheet, $row, $column,
$attributeArray);

                        $this->flushCell($sheet, $column, $row,
$cellContent);

                        if (isset($attributeArray['rowspan'],
$attributeArray['colspan'])) {
                            //create merging rowspan and colspan
                            $columnTo = $column;
                            for ($i = 0; $i < (int)
$attributeArray['colspan'] - 1; ++$i) {
                                ++$columnTo;
                            }
                            $range = $column . $row . ':' .
$columnTo . ($row + (int) $attributeArray['rowspan'] - 1);
                            foreach
(Coordinate::extractAllCellReferencesInRange($range) as $value) {
                                $this->rowspan[$value] = true;
                            }
                            $sheet->mergeCells($range);
                            $column = $columnTo;
                        } elseif
(isset($attributeArray['rowspan'])) {
                            //create merging rowspan
                            $range = $column . $row . ':' .
$column . ($row + (int) $attributeArray['rowspan'] - 1);
                            foreach
(Coordinate::extractAllCellReferencesInRange($range) as $value) {
                                $this->rowspan[$value] = true;
                            }
                            $sheet->mergeCells($range);
                        } elseif
(isset($attributeArray['colspan'])) {
                            //create merging colspan
                            $columnTo = $column;
                            for ($i = 0; $i < (int)
$attributeArray['colspan'] - 1; ++$i) {
                                ++$columnTo;
                            }
                            $sheet->mergeCells($column . $row .
':' . $columnTo . $row);
                            $column = $columnTo;
                        } elseif
(isset($attributeArray['bgcolor'])) {
                            $sheet->getStyle($column .
$row)->applyFromArray(
                                [
                                    'fill' => [
                                        'fillType' =>
Fill::FILL_SOLID,
                                        'color' =>
['rgb' => $attributeArray['bgcolor']],
                                    ],
                                ]
                            );
                        }

                        if (isset($attributeArray['width'])) {
                           
$sheet->getColumnDimension($column)->setWidth($attributeArray['width']);
                        }

                        if (isset($attributeArray['height'])) {
                           
$sheet->getRowDimension($row)->setRowHeight($attributeArray['height']);
                        }

                        if (isset($attributeArray['align'])) {
                            $sheet->getStyle($column .
$row)->getAlignment()->setHorizontal($attributeArray['align']);
                        }

                        if (isset($attributeArray['valign'])) {
                            $sheet->getStyle($column .
$row)->getAlignment()->setVertical($attributeArray['valign']);
                        }

                        if
(isset($attributeArray['data-format'])) {
                            $sheet->getStyle($column .
$row)->getNumberFormat()->setFormatCode($attributeArray['data-format']);
                        }

                        ++$column;

                        break;
                    case 'body':
                        $row = 1;
                        $column = 'A';
                        $cellContent = '';
                        $this->tableLevel = 0;
                        $this->processDomElement($child, $sheet, $row,
$column, $cellContent);

                        break;
                    default:
                        $this->processDomElement($child, $sheet, $row,
$column, $cellContent);
                }
            }
        }
    }

    /**
     * Loads PhpSpreadsheet from file into PhpSpreadsheet instance.
     *
     * @param string $pFilename
     * @param Spreadsheet $spreadsheet
     *
     * @throws Exception
     *
     * @return Spreadsheet
     */
    public function loadIntoExisting($pFilename, Spreadsheet $spreadsheet)
    {
        // Validate
        if (!$this->canRead($pFilename)) {
            throw new Exception($pFilename . ' is an Invalid HTML
file.');
        }

        // Create a new DOM object
        $dom = new DOMDocument();
        // Reload the HTML file into the DOM object
        $loaded =
$dom->loadHTML(mb_convert_encoding($this->securityScanner->scanFile($pFilename),
'HTML-ENTITIES', 'UTF-8'));
        if ($loaded === false) {
            throw new Exception('Failed to load ' . $pFilename .
' as a DOM Document');
        }

        return $this->loadDocument($dom, $spreadsheet);
    }

    /**
     * Spreadsheet from content.
     *
     * @param string $content
     * @param null|Spreadsheet $spreadsheet
     *
     * @return Spreadsheet
     */
    public function loadFromString($content, ?Spreadsheet $spreadsheet =
null): Spreadsheet
    {
        //    Create a new DOM object
        $dom = new DOMDocument();
        //    Reload the HTML file into the DOM object
        $loaded =
$dom->loadHTML(mb_convert_encoding($this->securityScanner->scan($content),
'HTML-ENTITIES', 'UTF-8'));
        if ($loaded === false) {
            throw new Exception('Failed to load content as a DOM
Document');
        }

        return $this->loadDocument($dom, $spreadsheet ?? new
Spreadsheet());
    }

    /**
     * Loads PhpSpreadsheet from DOMDocument into PhpSpreadsheet instance.
     *
     * @param DOMDocument $document
     * @param Spreadsheet $spreadsheet
     *
     * @throws \PhpOffice\PhpSpreadsheet\Exception
     *
     * @return Spreadsheet
     */
    private function loadDocument(DOMDocument $document, Spreadsheet
$spreadsheet): Spreadsheet
    {
        while ($spreadsheet->getSheetCount() <= $this->sheetIndex)
{
            $spreadsheet->createSheet();
        }
        $spreadsheet->setActiveSheetIndex($this->sheetIndex);

        // Discard white space
        $document->preserveWhiteSpace = false;

        $row = 0;
        $column = 'A';
        $content = '';
        $this->rowspan = [];
        $this->processDomElement($document,
$spreadsheet->getActiveSheet(), $row, $column, $content);

        // Return
        return $spreadsheet;
    }

    /**
     * Get sheet index.
     *
     * @return int
     */
    public function getSheetIndex()
    {
        return $this->sheetIndex;
    }

    /**
     * Set sheet index.
     *
     * @param int $pValue Sheet index
     *
     * @return $this
     */
    public function setSheetIndex($pValue)
    {
        $this->sheetIndex = $pValue;

        return $this;
    }

    /**
     * Apply inline css inline style.
     *
     * NOTES :
     * Currently only intended for td & th element,
     * and only takes 'background-color' and 'color';
property with HEX color
     *
     * TODO :
     * - Implement to other propertie, such as border
     *
     * @param Worksheet $sheet
     * @param int $row
     * @param string $column
     * @param array $attributeArray
     */
    private function applyInlineStyle(&$sheet, $row, $column,
$attributeArray)
    {
        if (!isset($attributeArray['style'])) {
            return;
        }

        $cellStyle = $sheet->getStyle($column . $row);

        // add color styles (background & text) from dom
element,currently support : td & th, using ONLY inline css style with
RGB color
        $styles = explode(';',
$attributeArray['style']);
        foreach ($styles as $st) {
            $value = explode(':', $st);
            $styleName = isset($value[0]) ? trim($value[0]) : null;
            $styleValue = isset($value[1]) ? trim($value[1]) : null;

            if (!$styleName) {
                continue;
            }

            switch ($styleName) {
                case 'background':
                case 'background-color':
                    $styleColor = $this->getStyleColor($styleValue);

                    if (!$styleColor) {
                        continue 2;
                    }

                    $cellStyle->applyFromArray(['fill' =>
['fillType' => Fill::FILL_SOLID, 'color' =>
['rgb' => $styleColor]]]);

                    break;
                case 'color':
                    $styleColor = $this->getStyleColor($styleValue);

                    if (!$styleColor) {
                        continue 2;
                    }

                    $cellStyle->applyFromArray(['font' =>
['color' => ['rgb' => $styleColor]]]);

                    break;

                case 'border':
                    $this->setBorderStyle($cellStyle, $styleValue,
'allBorders');

                    break;

                case 'border-top':
                    $this->setBorderStyle($cellStyle, $styleValue,
'top');

                    break;

                case 'border-bottom':
                    $this->setBorderStyle($cellStyle, $styleValue,
'bottom');

                    break;

                case 'border-left':
                    $this->setBorderStyle($cellStyle, $styleValue,
'left');

                    break;

                case 'border-right':
                    $this->setBorderStyle($cellStyle, $styleValue,
'right');

                    break;

                case 'font-size':
                    $cellStyle->getFont()->setSize(
                        (float) $styleValue
                    );

                    break;

                case 'font-weight':
                    if ($styleValue === 'bold' || $styleValue
>= 500) {
                        $cellStyle->getFont()->setBold(true);
                    }

                    break;

                case 'font-style':
                    if ($styleValue === 'italic') {
                        $cellStyle->getFont()->setItalic(true);
                    }

                    break;

                case 'font-family':
                   
$cellStyle->getFont()->setName(str_replace('\'',
'', $styleValue));

                    break;

                case 'text-decoration':
                    switch ($styleValue) {
                        case 'underline':
                           
$cellStyle->getFont()->setUnderline(Font::UNDERLINE_SINGLE);

                            break;
                        case 'line-through':
                           
$cellStyle->getFont()->setStrikethrough(true);

                            break;
                    }

                    break;

                case 'text-align':
                   
$cellStyle->getAlignment()->setHorizontal($styleValue);

                    break;

                case 'vertical-align':
                   
$cellStyle->getAlignment()->setVertical($styleValue);

                    break;

                case 'width':
                    $sheet->getColumnDimension($column)->setWidth(
                        str_replace('px', '',
$styleValue)
                    );

                    break;

                case 'height':
                    $sheet->getRowDimension($row)->setRowHeight(
                        str_replace('px', '',
$styleValue)
                    );

                    break;

                case 'word-wrap':
                    $cellStyle->getAlignment()->setWrapText(
                        $styleValue === 'break-word'
                    );

                    break;

                case 'text-indent':
                    $cellStyle->getAlignment()->setIndent(
                        (int) str_replace(['px'], '',
$styleValue)
                    );

                    break;
            }
        }
    }

    /**
     * Check if has #, so we can get clean hex.
     *
     * @param $value
     *
     * @return null|string
     */
    public function getStyleColor($value)
    {
        if (strpos($value, '#') === 0) {
            return substr($value, 1);
        }

        return null;
    }

    /**
     * @param Worksheet $sheet
     * @param string    $column
     * @param int       $row
     * @param array     $attributes
     *
     * @throws \PhpOffice\PhpSpreadsheet\Exception
     */
    private function insertImage(Worksheet $sheet, $column, $row, array
$attributes)
    {
        if (!isset($attributes['src'])) {
            return;
        }

        $src = urldecode($attributes['src']);
        $width = isset($attributes['width']) ? (float)
$attributes['width'] : null;
        $height = isset($attributes['height']) ? (float)
$attributes['height'] : null;
        $name = isset($attributes['alt']) ? (float)
$attributes['alt'] : null;

        $drawing = new Drawing();
        $drawing->setPath($src);
        $drawing->setWorksheet($sheet);
        $drawing->setCoordinates($column . $row);
        $drawing->setOffsetX(0);
        $drawing->setOffsetY(10);
        $drawing->setResizeProportional(true);

        if ($name) {
            $drawing->setName($name);
        }

        if ($width) {
            $drawing->setWidth((int) $width);
        }

        if ($height) {
            $drawing->setHeight((int) $height);
        }

        $sheet->getColumnDimension($column)->setWidth(
            $drawing->getWidth() / 6
        );

        $sheet->getRowDimension($row)->setRowHeight(
            $drawing->getHeight() * 0.9
        );
    }

    /**
     * Map html border style to PhpSpreadsheet border style.
     *
     * @param  string $style
     *
     * @return null|string
     */
    public function getBorderStyle($style)
    {
        switch ($style) {
            case 'solid':
                return Border::BORDER_THIN;
            case 'dashed':
                return Border::BORDER_DASHED;
            case 'dotted':
                return Border::BORDER_DOTTED;
            case 'medium':
                return Border::BORDER_MEDIUM;
            case 'thick':
                return Border::BORDER_THICK;
            case 'none':
                return Border::BORDER_NONE;
            case 'dash-dot':
                return Border::BORDER_DASHDOT;
            case 'dash-dot-dot':
                return Border::BORDER_DASHDOTDOT;
            case 'double':
                return Border::BORDER_DOUBLE;
            case 'hair':
                return Border::BORDER_HAIR;
            case 'medium-dash-dot':
                return Border::BORDER_MEDIUMDASHDOT;
            case 'medium-dash-dot-dot':
                return Border::BORDER_MEDIUMDASHDOTDOT;
            case 'medium-dashed':
                return Border::BORDER_MEDIUMDASHED;
            case 'slant-dash-dot':
                return Border::BORDER_SLANTDASHDOT;
        }

        return null;
    }

    /**
     * @param Style  $cellStyle
     * @param string $styleValue
     * @param string $type
     */
    private function setBorderStyle(Style $cellStyle, $styleValue, $type)
    {
        [, $borderStyle, $color] = explode(' ', $styleValue);

        $cellStyle->applyFromArray([
            'borders' => [
                $type => [
                    'borderStyle' =>
$this->getBorderStyle($borderStyle),
                    'color' => ['rgb' =>
$this->getStyleColor($color)],
                ],
            ],
        ]);
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/IReader.php000064400000007612151165414000021762
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader;

interface IReader
{
    /**
     * IReader constructor.
     */
    public function __construct();

    /**
     * Can the current IReader read the file?
     *
     * @param string $pFilename
     *
     * @return bool
     */
    public function canRead($pFilename);

    /**
     * Read data only?
     *        If this is true, then the Reader will only read data values
for cells, it will not read any formatting information.
     *        If false (the default) it will read data and formatting.
     *
     * @return bool
     */
    public function getReadDataOnly();

    /**
     * Set read data only
     *        Set to true, to advise the Reader only to read data values
for cells, and to ignore any formatting information.
     *        Set to false (the default) to advise the Reader to read both
data and formatting for cells.
     *
     * @param bool $pValue
     *
     * @return IReader
     */
    public function setReadDataOnly($pValue);

    /**
     * Read empty cells?
     *        If this is true (the default), then the Reader will read data
values for all cells, irrespective of value.
     *        If false it will not read data for cells containing a null
value or an empty string.
     *
     * @return bool
     */
    public function getReadEmptyCells();

    /**
     * Set read empty cells
     *        Set to true (the default) to advise the Reader read data
values for all cells, irrespective of value.
     *        Set to false to advise the Reader to ignore cells containing
a null value or an empty string.
     *
     * @param bool $pValue
     *
     * @return IReader
     */
    public function setReadEmptyCells($pValue);

    /**
     * Read charts in workbook?
     *        If this is true, then the Reader will include any charts that
exist in the workbook.
     *      Note that a ReadDataOnly value of false overrides, and charts
won't be read regardless of the IncludeCharts value.
     *        If false (the default) it will ignore any charts defined in
the workbook file.
     *
     * @return bool
     */
    public function getIncludeCharts();

    /**
     * Set read charts in workbook
     *        Set to true, to advise the Reader to include any charts that
exist in the workbook.
     *      Note that a ReadDataOnly value of false overrides, and charts
won't be read regardless of the IncludeCharts value.
     *        Set to false (the default) to discard charts.
     *
     * @param bool $pValue
     *
     * @return IReader
     */
    public function setIncludeCharts($pValue);

    /**
     * Get which sheets to load
     * Returns either an array of worksheet names (the list of worksheets
that should be loaded), or a null
     *        indicating that all worksheets in the workbook should be
loaded.
     *
     * @return mixed
     */
    public function getLoadSheetsOnly();

    /**
     * Set which sheets to load.
     *
     * @param mixed $value
     *        This should be either an array of worksheet names to be
loaded, or a string containing a single worksheet name.
     *        If NULL, then it tells the Reader to read all worksheets in
the workbook
     *
     * @return IReader
     */
    public function setLoadSheetsOnly($value);

    /**
     * Set all sheets to load
     *        Tells the Reader to load all worksheets from the workbook.
     *
     * @return IReader
     */
    public function setLoadAllSheets();

    /**
     * Read filter.
     *
     * @return IReadFilter
     */
    public function getReadFilter();

    /**
     * Set read filter.
     *
     * @param IReadFilter $pValue
     *
     * @return IReader
     */
    public function setReadFilter(IReadFilter $pValue);

    /**
     * Loads PhpSpreadsheet from file.
     *
     * @param string $pFilename
     *
     * @throws Exception
     *
     * @return \PhpOffice\PhpSpreadsheet\Spreadsheet
     */
    public function load($pFilename);
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/IReadFilter.php000064400000000622151165414000022573
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader;

interface IReadFilter
{
    /**
     * Should this cell be read?
     *
     * @param string $column Column address (as a string value like
"A", or "IV")
     * @param int $row Row number
     * @param string $worksheetName Optional worksheet name
     *
     * @return bool
     */
    public function readCell($column, $row, $worksheetName = '');
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/Ods/Properties.php000064400000011445151165414000023327
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader\Ods;

use PhpOffice\PhpSpreadsheet\Document\Properties as DocumentProperties;
use PhpOffice\PhpSpreadsheet\Spreadsheet;

class Properties
{
    private $spreadsheet;

    public function __construct(Spreadsheet $spreadsheet)
    {
        $this->spreadsheet = $spreadsheet;
    }

    public function load(\SimpleXMLElement $xml, $namespacesMeta)
    {
        $docProps = $this->spreadsheet->getProperties();
        $officeProperty =
$xml->children($namespacesMeta['office']);
        foreach ($officeProperty as $officePropertyData) {
            // @var \SimpleXMLElement $officePropertyData
            if (isset($namespacesMeta['dc'])) {
                $officePropertiesDC =
$officePropertyData->children($namespacesMeta['dc']);
                $this->setCoreProperties($docProps,
$officePropertiesDC);
            }

            $officePropertyMeta = (object) [];
            if (isset($namespacesMeta['dc'])) {
                $officePropertyMeta =
$officePropertyData->children($namespacesMeta['meta']);
            }
            foreach ($officePropertyMeta as $propertyName =>
$propertyValue) {
                $this->setMetaProperties($namespacesMeta,
$propertyValue, $propertyName, $docProps);
            }
        }
    }

    private function setCoreProperties(DocumentProperties $docProps,
\SimpleXMLElement $officePropertyDC)
    {
        foreach ($officePropertyDC as $propertyName => $propertyValue) {
            $propertyValue = (string) $propertyValue;
            switch ($propertyName) {
                case 'title':
                    $docProps->setTitle($propertyValue);

                    break;
                case 'subject':
                    $docProps->setSubject($propertyValue);

                    break;
                case 'creator':
                    $docProps->setCreator($propertyValue);
                    $docProps->setLastModifiedBy($propertyValue);

                    break;
                case 'creation-date':
                    $creationDate = strtotime($propertyValue);
                    $docProps->setCreated($creationDate);
                    $docProps->setModified($creationDate);

                    break;
                case 'keyword':
                    $docProps->setKeywords($propertyValue);

                    break;
                case 'description':
                    $docProps->setDescription($propertyValue);

                    break;
            }
        }
    }

    private function setMetaProperties(
        $namespacesMeta,
        \SimpleXMLElement $propertyValue,
        $propertyName,
        DocumentProperties $docProps
    ) {
        $propertyValueAttributes =
$propertyValue->attributes($namespacesMeta['meta']);
        $propertyValue = (string) $propertyValue;
        switch ($propertyName) {
            case 'initial-creator':
                $docProps->setCreator($propertyValue);

                break;
            case 'keyword':
                $docProps->setKeywords($propertyValue);

                break;
            case 'creation-date':
                $creationDate = strtotime($propertyValue);
                $docProps->setCreated($creationDate);

                break;
            case 'user-defined':
                $this->setUserDefinedProperty($propertyValueAttributes,
$propertyValue, $docProps);

                break;
        }
    }

    private function setUserDefinedProperty($propertyValueAttributes,
$propertyValue, DocumentProperties $docProps)
    {
        $propertyValueName = '';
        $propertyValueType = DocumentProperties::PROPERTY_TYPE_STRING;
        foreach ($propertyValueAttributes as $key => $value) {
            if ($key == 'name') {
                $propertyValueName = (string) $value;
            } elseif ($key == 'value-type') {
                switch ($value) {
                    case 'date':
                        $propertyValue =
DocumentProperties::convertProperty($propertyValue, 'date');
                        $propertyValueType =
DocumentProperties::PROPERTY_TYPE_DATE;

                        break;
                    case 'boolean':
                        $propertyValue =
DocumentProperties::convertProperty($propertyValue, 'bool');
                        $propertyValueType =
DocumentProperties::PROPERTY_TYPE_BOOLEAN;

                        break;
                    case 'float':
                        $propertyValue =
DocumentProperties::convertProperty($propertyValue, 'r4');
                        $propertyValueType =
DocumentProperties::PROPERTY_TYPE_FLOAT;

                        break;
                    default:
                        $propertyValueType =
DocumentProperties::PROPERTY_TYPE_STRING;
                }
            }
        }

        $docProps->setCustomProperty($propertyValueName, $propertyValue,
$propertyValueType);
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/Ods.php000064400000074550151165414000021201
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader;

use DateTime;
use DateTimeZone;
use PhpOffice\PhpSpreadsheet\Calculation\Calculation;
use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\Cell\DataType;
use PhpOffice\PhpSpreadsheet\Reader\Ods\Properties as DocumentProperties;
use PhpOffice\PhpSpreadsheet\Reader\Security\XmlScanner;
use PhpOffice\PhpSpreadsheet\RichText\RichText;
use PhpOffice\PhpSpreadsheet\Settings;
use PhpOffice\PhpSpreadsheet\Shared\Date;
use PhpOffice\PhpSpreadsheet\Shared\File;
use PhpOffice\PhpSpreadsheet\Spreadsheet;
use PhpOffice\PhpSpreadsheet\Style\NumberFormat;
use XMLReader;
use ZipArchive;

class Ods extends BaseReader
{
    /**
     * Create a new Ods Reader instance.
     */
    public function __construct()
    {
        parent::__construct();
        $this->securityScanner = XmlScanner::getInstance($this);
    }

    /**
     * Can the current IReader read the file?
     *
     * @param string $pFilename
     *
     * @throws Exception
     *
     * @return bool
     */
    public function canRead($pFilename)
    {
        File::assertFile($pFilename);

        $mimeType = 'UNKNOWN';

        // Load file

        $zip = new ZipArchive();
        if ($zip->open($pFilename) === true) {
            // check if it is an OOXML archive
            $stat = $zip->statName('mimetype');
            if ($stat && ($stat['size'] <= 255)) {
                $mimeType = $zip->getFromName($stat['name']);
            } elseif ($zip->statName('META-INF/manifest.xml'))
{
                $xml = simplexml_load_string(
                   
$this->securityScanner->scan($zip->getFromName('META-INF/manifest.xml')),
                    'SimpleXMLElement',
                    Settings::getLibXmlLoaderOptions()
                );
                $namespacesContent = $xml->getNamespaces(true);
                if (isset($namespacesContent['manifest'])) {
                    $manifest =
$xml->children($namespacesContent['manifest']);
                    foreach ($manifest as $manifestDataSet) {
                        $manifestAttributes =
$manifestDataSet->attributes($namespacesContent['manifest']);
                        if ($manifestAttributes->{'full-path'}
== '/') {
                            $mimeType = (string)
$manifestAttributes->{'media-type'};

                            break;
                        }
                    }
                }
            }

            $zip->close();

            return $mimeType ===
'application/vnd.oasis.opendocument.spreadsheet';
        }

        return false;
    }

    /**
     * Reads names of the worksheets from a file, without parsing the whole
file to a PhpSpreadsheet object.
     *
     * @param string $pFilename
     *
     * @throws Exception
     *
     * @return string[]
     */
    public function listWorksheetNames($pFilename)
    {
        File::assertFile($pFilename);

        $zip = new ZipArchive();
        if (!$zip->open($pFilename)) {
            throw new Exception('Could not open ' . $pFilename .
' for reading! Error opening file.');
        }

        $worksheetNames = [];

        $xml = new XMLReader();
        $xml->xml(
            $this->securityScanner->scanFile('zip://' .
realpath($pFilename) . '#content.xml'),
            null,
            Settings::getLibXmlLoaderOptions()
        );
        $xml->setParserProperty(2, true);

        // Step into the first level of content of the XML
        $xml->read();
        while ($xml->read()) {
            // Quickly jump through to the office:body node
            while ($xml->name !== 'office:body') {
                if ($xml->isEmptyElement) {
                    $xml->read();
                } else {
                    $xml->next();
                }
            }
            // Now read each node until we find our first table:table node
            while ($xml->read()) {
                if ($xml->name == 'table:table' &&
$xml->nodeType == XMLReader::ELEMENT) {
                    // Loop through each table:table node reading the
table:name attribute for each worksheet name
                    do {
                        $worksheetNames[] =
$xml->getAttribute('table:name');
                        $xml->next();
                    } while ($xml->name == 'table:table'
&& $xml->nodeType == XMLReader::ELEMENT);
                }
            }
        }

        return $worksheetNames;
    }

    /**
     * Return worksheet info (Name, Last Column Letter, Last Column Index,
Total Rows, Total Columns).
     *
     * @param string $pFilename
     *
     * @throws Exception
     *
     * @return array
     */
    public function listWorksheetInfo($pFilename)
    {
        File::assertFile($pFilename);

        $worksheetInfo = [];

        $zip = new ZipArchive();
        if (!$zip->open($pFilename)) {
            throw new Exception('Could not open ' . $pFilename .
' for reading! Error opening file.');
        }

        $xml = new XMLReader();
        $xml->xml(
            $this->securityScanner->scanFile('zip://' .
realpath($pFilename) . '#content.xml'),
            null,
            Settings::getLibXmlLoaderOptions()
        );
        $xml->setParserProperty(2, true);

        // Step into the first level of content of the XML
        $xml->read();
        while ($xml->read()) {
            // Quickly jump through to the office:body node
            while ($xml->name !== 'office:body') {
                if ($xml->isEmptyElement) {
                    $xml->read();
                } else {
                    $xml->next();
                }
            }
            // Now read each node until we find our first table:table node
            while ($xml->read()) {
                if ($xml->name == 'table:table' &&
$xml->nodeType == XMLReader::ELEMENT) {
                    $worksheetNames[] =
$xml->getAttribute('table:name');

                    $tmpInfo = [
                        'worksheetName' =>
$xml->getAttribute('table:name'),
                        'lastColumnLetter' => 'A',
                        'lastColumnIndex' => 0,
                        'totalRows' => 0,
                        'totalColumns' => 0,
                    ];

                    // Loop through each child node of the table:table
element reading
                    $currCells = 0;
                    do {
                        $xml->read();
                        if ($xml->name == 'table:table-row'
&& $xml->nodeType == XMLReader::ELEMENT) {
                            $rowspan =
$xml->getAttribute('table:number-rows-repeated');
                            $rowspan = empty($rowspan) ? 1 : $rowspan;
                            $tmpInfo['totalRows'] += $rowspan;
                            $tmpInfo['totalColumns'] =
max($tmpInfo['totalColumns'], $currCells);
                            $currCells = 0;
                            // Step into the row
                            $xml->read();
                            do {
                                if ($xml->name ==
'table:table-cell' && $xml->nodeType ==
XMLReader::ELEMENT) {
                                    if (!$xml->isEmptyElement) {
                                        ++$currCells;
                                        $xml->next();
                                    } else {
                                        $xml->read();
                                    }
                                } elseif ($xml->name ==
'table:covered-table-cell' && $xml->nodeType ==
XMLReader::ELEMENT) {
                                    $mergeSize =
$xml->getAttribute('table:number-columns-repeated');
                                    $currCells += (int) $mergeSize;
                                    $xml->read();
                                } else {
                                    $xml->read();
                                }
                            } while ($xml->name !=
'table:table-row');
                        }
                    } while ($xml->name != 'table:table');

                    $tmpInfo['totalColumns'] =
max($tmpInfo['totalColumns'], $currCells);
                    $tmpInfo['lastColumnIndex'] =
$tmpInfo['totalColumns'] - 1;
                    $tmpInfo['lastColumnLetter'] =
Coordinate::stringFromColumnIndex($tmpInfo['lastColumnIndex'] +
1);
                    $worksheetInfo[] = $tmpInfo;
                }
            }
        }

        return $worksheetInfo;
    }

    /**
     * Loads PhpSpreadsheet from file.
     *
     * @param string $pFilename
     *
     * @throws Exception
     *
     * @return Spreadsheet
     */
    public function load($pFilename)
    {
        // Create new Spreadsheet
        $spreadsheet = new Spreadsheet();

        // Load into this instance
        return $this->loadIntoExisting($pFilename, $spreadsheet);
    }

    /**
     * Loads PhpSpreadsheet from file into PhpSpreadsheet instance.
     *
     * @param string $pFilename
     * @param Spreadsheet $spreadsheet
     *
     * @throws Exception
     *
     * @return Spreadsheet
     */
    public function loadIntoExisting($pFilename, Spreadsheet $spreadsheet)
    {
        File::assertFile($pFilename);

        $timezoneObj = new DateTimeZone('Europe/London');
        $GMT = new \DateTimeZone('UTC');

        $zip = new ZipArchive();
        if (!$zip->open($pFilename)) {
            throw new Exception("Could not open {$pFilename} for
reading! Error opening file.");
        }

        // Meta

        $xml = simplexml_load_string(
           
$this->securityScanner->scan($zip->getFromName('meta.xml')),
            'SimpleXMLElement',
            Settings::getLibXmlLoaderOptions()
        );
        if ($xml === false) {
            throw new Exception('Unable to read data from
{$pFilename}');
        }

        $namespacesMeta = $xml->getNamespaces(true);

        (new DocumentProperties($spreadsheet))->load($xml,
$namespacesMeta);

        // Content

        $dom = new \DOMDocument('1.01', 'UTF-8');
        $dom->loadXML(
           
$this->securityScanner->scan($zip->getFromName('content.xml')),
            Settings::getLibXmlLoaderOptions()
        );

        $officeNs = $dom->lookupNamespaceUri('office');
        $tableNs = $dom->lookupNamespaceUri('table');
        $textNs = $dom->lookupNamespaceUri('text');
        $xlinkNs = $dom->lookupNamespaceUri('xlink');

        $spreadsheets = $dom->getElementsByTagNameNS($officeNs,
'body')
            ->item(0)
            ->getElementsByTagNameNS($officeNs,
'spreadsheet');

        foreach ($spreadsheets as $workbookData) {
            /** @var \DOMElement $workbookData */
            $tables = $workbookData->getElementsByTagNameNS($tableNs,
'table');

            $worksheetID = 0;
            foreach ($tables as $worksheetDataSet) {
                /** @var \DOMElement $worksheetDataSet */
                $worksheetName =
$worksheetDataSet->getAttributeNS($tableNs, 'name');

                // Check loadSheetsOnly
                if (isset($this->loadSheetsOnly)
                    && $worksheetName
                    && !in_array($worksheetName,
$this->loadSheetsOnly)) {
                    continue;
                }

                // Create sheet
                if ($worksheetID > 0) {
                    $spreadsheet->createSheet(); // First sheet is added
by default
                }
                $spreadsheet->setActiveSheetIndex($worksheetID);

                if ($worksheetName) {
                    // Use false for $updateFormulaCellReferences to
prevent adjustment of worksheet references in
                    // formula cells... during the load, all formulae
should be correct, and we're simply
                    // bringing the worksheet name in line with the
formula, not the reverse
                   
$spreadsheet->getActiveSheet()->setTitle($worksheetName, false,
false);
                }

                // Go through every child of table element
                $rowID = 1;
                foreach ($worksheetDataSet->childNodes as $childNode) {
                    /** @var \DOMElement $childNode */

                    // Filter elements which are not under the
"table" ns
                    if ($childNode->namespaceURI != $tableNs) {
                        continue;
                    }

                    $key = $childNode->nodeName;

                    // Remove ns from node name
                    if (strpos($key, ':') !== false) {
                        $keyChunks = explode(':', $key);
                        $key = array_pop($keyChunks);
                    }

                    switch ($key) {
                        case 'table-header-rows':
                            /// TODO :: Figure this out. This is only a
partial implementation I guess.
                            //          ($rowData it's not used at all
and I'm not sure that PHPExcel
                            //          has an API for this)

//                            foreach ($rowData as $keyRowData =>
$cellData) {
//                                $rowData = $cellData;
//                                break;
//                            }
                            break;
                        case 'table-row':
                            if ($childNode->hasAttributeNS($tableNs,
'number-rows-repeated')) {
                                $rowRepeats =
$childNode->getAttributeNS($tableNs, 'number-rows-repeated');
                            } else {
                                $rowRepeats = 1;
                            }

                            $columnID = 'A';
                            foreach ($childNode->childNodes as $key
=> $cellData) {
                                // @var \DOMElement $cellData

                                if ($this->getReadFilter() !== null) {
                                    if
(!$this->getReadFilter()->readCell($columnID, $rowID,
$worksheetName)) {
                                        ++$columnID;

                                        continue;
                                    }
                                }

                                // Initialize variables
                                $formatting = $hyperlink = null;
                                $hasCalculatedValue = false;
                                $cellDataFormula = '';

                                if ($cellData->hasAttributeNS($tableNs,
'formula')) {
                                    $cellDataFormula =
$cellData->getAttributeNS($tableNs, 'formula');
                                    $hasCalculatedValue = true;
                                }

                                // Annotations
                                $annotation =
$cellData->getElementsByTagNameNS($officeNs, 'annotation');

                                if ($annotation->length > 0) {
                                    $textNode =
$annotation->item(0)->getElementsByTagNameNS($textNs, 'p');

                                    if ($textNode->length > 0) {
                                        $text =
$this->scanElementForText($textNode->item(0));

                                        $spreadsheet->getActiveSheet()
                                            ->getComment($columnID .
$rowID)
                                           
->setText($this->parseRichText($text));
//                                                                   
->setAuthor( $author )
                                    }
                                }

                                // Content

                                /** @var \DOMElement[] $paragraphs */
                                $paragraphs = [];

                                foreach ($cellData->childNodes as $item)
{
                                    /** @var \DOMElement $item */

                                    // Filter text:p elements
                                    if ($item->nodeName ==
'text:p') {
                                        $paragraphs[] = $item;
                                    }
                                }

                                if (count($paragraphs) > 0) {
                                    // Consolidate if there are multiple p
records (maybe with spans as well)
                                    $dataArray = [];

                                    // Text can have multiple text:p and
within those, multiple text:span.
                                    // text:p newlines, but text:span does
not.
                                    // Also, here we assume there is no
text data is span fields are specified, since
                                    // we have no way of knowing proper
positioning anyway.

                                    foreach ($paragraphs as $pData) {
                                        $dataArray[] =
$this->scanElementForText($pData);
                                    }
                                    $allCellDataText =
implode("\n", $dataArray);

                                    $type =
$cellData->getAttributeNS($officeNs, 'value-type');

                                    switch ($type) {
                                        case 'string':
                                            $type = DataType::TYPE_STRING;
                                            $dataValue = $allCellDataText;

                                            foreach ($paragraphs as
$paragraph) {
                                                $link =
$paragraph->getElementsByTagNameNS($textNs, 'a');
                                                if ($link->length >
0) {
                                                    $hyperlink =
$link->item(0)->getAttributeNS($xlinkNs, 'href');
                                                }
                                            }

                                            break;
                                        case 'boolean':
                                            $type = DataType::TYPE_BOOL;
                                            $dataValue = ($allCellDataText
== 'TRUE') ? true : false;

                                            break;
                                        case 'percentage':
                                            $type = DataType::TYPE_NUMERIC;
                                            $dataValue = (float)
$cellData->getAttributeNS($officeNs, 'value');

                                            if (floor($dataValue) ==
$dataValue) {
                                                $dataValue = (int)
$dataValue;
                                            }
                                            $formatting =
NumberFormat::FORMAT_PERCENTAGE_00;

                                            break;
                                        case 'currency':
                                            $type = DataType::TYPE_NUMERIC;
                                            $dataValue = (float)
$cellData->getAttributeNS($officeNs, 'value');

                                            if (floor($dataValue) ==
$dataValue) {
                                                $dataValue = (int)
$dataValue;
                                            }
                                            $formatting =
NumberFormat::FORMAT_CURRENCY_USD_SIMPLE;

                                            break;
                                        case 'float':
                                            $type = DataType::TYPE_NUMERIC;
                                            $dataValue = (float)
$cellData->getAttributeNS($officeNs, 'value');

                                            if (floor($dataValue) ==
$dataValue) {
                                                if ($dataValue == (int)
$dataValue) {
                                                    $dataValue = (int)
$dataValue;
                                                } else {
                                                    $dataValue = (float)
$dataValue;
                                                }
                                            }

                                            break;
                                        case 'date':
                                            $type = DataType::TYPE_NUMERIC;
                                            $value =
$cellData->getAttributeNS($officeNs, 'date-value');

                                            $dateObj = new DateTime($value,
$GMT);
                                           
$dateObj->setTimeZone($timezoneObj);
                                            [$year, $month, $day, $hour,
$minute, $second] = explode(
                                                ' ',
                                                $dateObj->format('Y
m d H i s')
                                            );

                                            $dataValue =
Date::formattedPHPToExcel(
                                                (int) $year,
                                                (int) $month,
                                                (int) $day,
                                                (int) $hour,
                                                (int) $minute,
                                                (int) $second
                                            );

                                            if ($dataValue !=
floor($dataValue)) {
                                                $formatting =
NumberFormat::FORMAT_DATE_XLSX15
                                                    . ' '
                                                    .
NumberFormat::FORMAT_DATE_TIME4;
                                            } else {
                                                $formatting =
NumberFormat::FORMAT_DATE_XLSX15;
                                            }

                                            break;
                                        case 'time':
                                            $type = DataType::TYPE_NUMERIC;

                                            $timeValue =
$cellData->getAttributeNS($officeNs, 'time-value');

                                            $dataValue = Date::PHPToExcel(
                                                strtotime(
                                                    '01-01-1970 '
. implode(':', sscanf($timeValue, 'PT%dH%dM%dS'))
                                                )
                                            );
                                            $formatting =
NumberFormat::FORMAT_DATE_TIME4;

                                            break;
                                        default:
                                            $dataValue = null;
                                    }
                                } else {
                                    $type = DataType::TYPE_NULL;
                                    $dataValue = null;
                                }

                                if ($hasCalculatedValue) {
                                    $type = DataType::TYPE_FORMULA;
                                    $cellDataFormula =
substr($cellDataFormula, strpos($cellDataFormula, ':=') + 1);
                                    $temp = explode('"',
$cellDataFormula);
                                    $tKey = false;
                                    foreach ($temp as &$value) {
                                        // Only replace in alternate array
entries (i.e. non-quoted blocks)
                                        if ($tKey = !$tKey) {
                                            // Cell range reference in
another sheet
                                            $value =
preg_replace('/\[([^\.]+)\.([^\.]+):\.([^\.]+)\]/U',
'$1!$2:$3', $value);

                                            // Cell reference in another
sheet
                                            $value =
preg_replace('/\[([^\.]+)\.([^\.]+)\]/U', '$1!$2',
$value);

                                            // Cell range reference
                                            $value =
preg_replace('/\[\.([^\.]+):\.([^\.]+)\]/U', '$1:$2',
$value);

                                            // Simple cell reference
                                            $value =
preg_replace('/\[\.([^\.]+)\]/U', '$1', $value);

                                            $value =
Calculation::translateSeparator(';', ',', $value,
$inBraces);
                                        }
                                    }
                                    unset($value);

                                    // Then rebuild the formula string
                                    $cellDataFormula =
implode('"', $temp);
                                }

                                if ($cellData->hasAttributeNS($tableNs,
'number-columns-repeated')) {
                                    $colRepeats = (int)
$cellData->getAttributeNS($tableNs,
'number-columns-repeated');
                                } else {
                                    $colRepeats = 1;
                                }

                                if ($type !== null) {
                                    for ($i = 0; $i < $colRepeats; ++$i)
{
                                        if ($i > 0) {
                                            ++$columnID;
                                        }

                                        if ($type !== DataType::TYPE_NULL)
{
                                            for ($rowAdjust = 0; $rowAdjust
< $rowRepeats; ++$rowAdjust) {
                                                $rID = $rowID + $rowAdjust;

                                                $cell =
$spreadsheet->getActiveSheet()
                                                    ->getCell($columnID
. $rID);

                                                // Set value
                                                if ($hasCalculatedValue) {
                                                   
$cell->setValueExplicit($cellDataFormula, $type);
                                                } else {
                                                   
$cell->setValueExplicit($dataValue, $type);
                                                }

                                                if ($hasCalculatedValue) {
                                                   
$cell->setCalculatedValue($dataValue);
                                                }

                                                // Set other properties
                                                if ($formatting !== null) {
                                                   
$spreadsheet->getActiveSheet()
                                                       
->getStyle($columnID . $rID)
                                                       
->getNumberFormat()
                                                       
->setFormatCode($formatting);
                                                } else {
                                                   
$spreadsheet->getActiveSheet()
                                                       
->getStyle($columnID . $rID)
                                                       
->getNumberFormat()
                                                       
->setFormatCode(NumberFormat::FORMAT_GENERAL);
                                                }

                                                if ($hyperlink !== null) {
                                                   
$cell->getHyperlink()
                                                       
->setUrl($hyperlink);
                                                }
                                            }
                                        }
                                    }
                                }

                                // Merged cells
                                if ($cellData->hasAttributeNS($tableNs,
'number-columns-spanned')
                                    ||
$cellData->hasAttributeNS($tableNs, 'number-rows-spanned')
                                ) {
                                    if (($type !== DataType::TYPE_NULL) ||
(!$this->readDataOnly)) {
                                        $columnTo = $columnID;

                                        if
($cellData->hasAttributeNS($tableNs,
'number-columns-spanned')) {
                                            $columnIndex =
Coordinate::columnIndexFromString($columnID);
                                            $columnIndex += (int)
$cellData->getAttributeNS($tableNs, 'number-columns-spanned');
                                            $columnIndex -= 2;

                                            $columnTo =
Coordinate::stringFromColumnIndex($columnIndex + 1);
                                        }

                                        $rowTo = $rowID;

                                        if
($cellData->hasAttributeNS($tableNs, 'number-rows-spanned')) {
                                            $rowTo = $rowTo + (int)
$cellData->getAttributeNS($tableNs, 'number-rows-spanned') -
1;
                                        }

                                        $cellRange = $columnID . $rowID .
':' . $columnTo . $rowTo;
                                       
$spreadsheet->getActiveSheet()->mergeCells($cellRange);
                                    }
                                }

                                ++$columnID;
                            }
                            $rowID += $rowRepeats;

                            break;
                    }
                }
                ++$worksheetID;
            }
        }

        // Return
        return $spreadsheet;
    }

    /**
     * Recursively scan element.
     *
     * @param \DOMNode $element
     *
     * @return string
     */
    protected function scanElementForText(\DOMNode $element)
    {
        $str = '';
        foreach ($element->childNodes as $child) {
            /** @var \DOMNode $child */
            if ($child->nodeType == XML_TEXT_NODE) {
                $str .= $child->nodeValue;
            } elseif ($child->nodeType == XML_ELEMENT_NODE &&
$child->nodeName == 'text:s') {
                // It's a space

                // Multiple spaces?
                /** @var \DOMAttr $cAttr */
                $cAttr =
$child->attributes->getNamedItem('c');
                if ($cAttr) {
                    $multiplier = (int) $cAttr->nodeValue;
                } else {
                    $multiplier = 1;
                }

                $str .= str_repeat(' ', $multiplier);
            }

            if ($child->hasChildNodes()) {
                $str .= $this->scanElementForText($child);
            }
        }

        return $str;
    }

    /**
     * @param string $is
     *
     * @return RichText
     */
    private function parseRichText($is)
    {
        $value = new RichText();
        $value->createText($is);

        return $value;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/Security/XmlScanner.php000064400000010207151165414000024322
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader\Security;

use PhpOffice\PhpSpreadsheet\Reader;
use PhpOffice\PhpSpreadsheet\Settings;

class XmlScanner
{
    /**
     * String used to identify risky xml elements.
     *
     * @var string
     */
    private $pattern;

    private $callback;

    private static $libxmlDisableEntityLoaderValue;

    public function __construct($pattern = '<!DOCTYPE')
    {
        $this->pattern = $pattern;

        $this->disableEntityLoaderCheck();

        // A fatal error will bypass the destructor, so we register a
shutdown here
        register_shutdown_function([__CLASS__, 'shutdown']);
    }

    public static function getInstance(Reader\IReader $reader)
    {
        switch (true) {
            case $reader instanceof Reader\Html:
                return new self('<!ENTITY');
            case $reader instanceof Reader\Xlsx:
            case $reader instanceof Reader\Xml:
            case $reader instanceof Reader\Ods:
            case $reader instanceof Reader\Gnumeric:
                return new self('<!DOCTYPE');
            default:
                return new self('<!DOCTYPE');
        }
    }

    public static function
threadSafeLibxmlDisableEntityLoaderAvailability()
    {
        if (PHP_MAJOR_VERSION == 7) {
            switch (PHP_MINOR_VERSION) {
                case 2:
                    return PHP_RELEASE_VERSION >= 1;
                case 1:
                    return PHP_RELEASE_VERSION >= 13;
                case 0:
                    return PHP_RELEASE_VERSION >= 27;
            }

            return true;
        }

        return false;
    }

    private function disableEntityLoaderCheck()
    {
        if (Settings::getLibXmlDisableEntityLoader()) {
            $libxmlDisableEntityLoaderValue =
libxml_disable_entity_loader(true);

            if (self::$libxmlDisableEntityLoaderValue === null) {
                self::$libxmlDisableEntityLoaderValue =
$libxmlDisableEntityLoaderValue;
            }
        }
    }

    public static function shutdown()
    {
        if (self::$libxmlDisableEntityLoaderValue !== null) {
           
libxml_disable_entity_loader(self::$libxmlDisableEntityLoaderValue);
            self::$libxmlDisableEntityLoaderValue = null;
        }
    }

    public function __destruct()
    {
        self::shutdown();
    }

    public function setAdditionalCallback(callable $callback)
    {
        $this->callback = $callback;
    }

    private function toUtf8($xml)
    {
        $pattern = '/encoding="(.*?)"/';
        $result = preg_match($pattern, $xml, $matches);
        $charset = strtoupper($result ? $matches[1] : 'UTF-8');

        if ($charset !== 'UTF-8') {
            $xml = mb_convert_encoding($xml, 'UTF-8', $charset);

            $result = preg_match($pattern, $xml, $matches);
            $charset = strtoupper($result ? $matches[1] :
'UTF-8');
            if ($charset !== 'UTF-8') {
                throw new Reader\Exception('Suspicious Double-encoded
XML, spreadsheet file load() aborted to prevent XXE/XEE attacks');
            }
        }

        return $xml;
    }

    /**
     * Scan the XML for use of <!ENTITY to prevent XXE/XEE attacks.
     *
     * @param mixed $xml
     *
     * @throws Reader\Exception
     *
     * @return string
     */
    public function scan($xml)
    {
        $this->disableEntityLoaderCheck();

        $xml = $this->toUtf8($xml);

        // Don't rely purely on libxml_disable_entity_loader()
        $pattern = '/\\0?' . implode('\\0?',
str_split($this->pattern)) . '\\0?/';

        if (preg_match($pattern, $xml)) {
            throw new Reader\Exception('Detected use of ENTITY in XML,
spreadsheet file load() aborted to prevent XXE/XEE attacks');
        }

        if ($this->callback !== null &&
is_callable($this->callback)) {
            $xml = call_user_func($this->callback, $xml);
        }

        return $xml;
    }

    /**
     * Scan theXML for use of <!ENTITY to prevent XXE/XEE attacks.
     *
     * @param string $filestream
     *
     * @throws Reader\Exception
     *
     * @return string
     */
    public function scanFile($filestream)
    {
        return $this->scan(file_get_contents($filestream));
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/Slk.php000064400000044072151165414000021201
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader;

use PhpOffice\PhpSpreadsheet\Calculation\Calculation;
use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\Shared\StringHelper;
use PhpOffice\PhpSpreadsheet\Spreadsheet;
use PhpOffice\PhpSpreadsheet\Style\Border;

class Slk extends BaseReader
{
    /**
     * Input encoding.
     *
     * @var string
     */
    private $inputEncoding = 'ANSI';

    /**
     * Sheet index to read.
     *
     * @var int
     */
    private $sheetIndex = 0;

    /**
     * Formats.
     *
     * @var array
     */
    private $formats = [];

    /**
     * Format Count.
     *
     * @var int
     */
    private $format = 0;

    /**
     * Create a new SYLK Reader instance.
     */
    public function __construct()
    {
        parent::__construct();
    }

    /**
     * Validate that the current file is a SYLK file.
     *
     * @param string $pFilename
     *
     * @return bool
     */
    public function canRead($pFilename)
    {
        // Check if file exists
        try {
            $this->openFile($pFilename);
        } catch (Exception $e) {
            return false;
        }

        // Read sample data (first 2 KB will do)
        $data = fread($this->fileHandle, 2048);

        // Count delimiters in file
        $delimiterCount = substr_count($data, ';');
        $hasDelimiter = $delimiterCount > 0;

        // Analyze first line looking for ID; signature
        $lines = explode("\n", $data);
        $hasId = substr($lines[0], 0, 4) === 'ID;P';

        fclose($this->fileHandle);

        return $hasDelimiter && $hasId;
    }

    /**
     * Set input encoding.
     *
     * @param string $pValue Input encoding, eg: 'ANSI'
     *
     * @return $this
     */
    public function setInputEncoding($pValue)
    {
        $this->inputEncoding = $pValue;

        return $this;
    }

    /**
     * Get input encoding.
     *
     * @return string
     */
    public function getInputEncoding()
    {
        return $this->inputEncoding;
    }

    /**
     * Return worksheet info (Name, Last Column Letter, Last Column Index,
Total Rows, Total Columns).
     *
     * @param string $pFilename
     *
     * @throws Exception
     *
     * @return array
     */
    public function listWorksheetInfo($pFilename)
    {
        // Open file
        if (!$this->canRead($pFilename)) {
            throw new Exception($pFilename . ' is an Invalid
Spreadsheet file.');
        }
        $this->openFile($pFilename);
        $fileHandle = $this->fileHandle;
        rewind($fileHandle);

        $worksheetInfo = [];
        $worksheetInfo[0]['worksheetName'] =
'Worksheet';
        $worksheetInfo[0]['lastColumnLetter'] = 'A';
        $worksheetInfo[0]['lastColumnIndex'] = 0;
        $worksheetInfo[0]['totalRows'] = 0;
        $worksheetInfo[0]['totalColumns'] = 0;

        // loop through one row (line) at a time in the file
        $rowIndex = 0;
        while (($rowData = fgets($fileHandle)) !== false) {
            $columnIndex = 0;

            // convert SYLK encoded $rowData to UTF-8
            $rowData = StringHelper::SYLKtoUTF8($rowData);

            // explode each row at semicolons while taking into account
that literal semicolon (;)
            // is escaped like this (;;)
            $rowData = explode("\t", str_replace('¤',
';', str_replace(';', "\t",
str_replace(';;', '¤', rtrim($rowData)))));

            $dataType = array_shift($rowData);
            if ($dataType == 'C') {
                //  Read cell value data
                foreach ($rowData as $rowDatum) {
                    switch ($rowDatum[0]) {
                        case 'C':
                        case 'X':
                            $columnIndex = substr($rowDatum, 1) - 1;

                            break;
                        case 'R':
                        case 'Y':
                            $rowIndex = substr($rowDatum, 1);

                            break;
                    }

                    $worksheetInfo[0]['totalRows'] =
max($worksheetInfo[0]['totalRows'], $rowIndex);
                    $worksheetInfo[0]['lastColumnIndex'] =
max($worksheetInfo[0]['lastColumnIndex'], $columnIndex);
                }
            }
        }

        $worksheetInfo[0]['lastColumnLetter'] =
Coordinate::stringFromColumnIndex($worksheetInfo[0]['lastColumnIndex']
+ 1);
        $worksheetInfo[0]['totalColumns'] =
$worksheetInfo[0]['lastColumnIndex'] + 1;

        // Close file
        fclose($fileHandle);

        return $worksheetInfo;
    }

    /**
     * Loads PhpSpreadsheet from file.
     *
     * @param string $pFilename
     *
     * @throws Exception
     *
     * @return Spreadsheet
     */
    public function load($pFilename)
    {
        // Create new Spreadsheet
        $spreadsheet = new Spreadsheet();

        // Load into this instance
        return $this->loadIntoExisting($pFilename, $spreadsheet);
    }

    /**
     * Loads PhpSpreadsheet from file into PhpSpreadsheet instance.
     *
     * @param string $pFilename
     * @param Spreadsheet $spreadsheet
     *
     * @throws Exception
     *
     * @return Spreadsheet
     */
    public function loadIntoExisting($pFilename, Spreadsheet $spreadsheet)
    {
        // Open file
        if (!$this->canRead($pFilename)) {
            throw new Exception($pFilename . ' is an Invalid
Spreadsheet file.');
        }
        $this->openFile($pFilename);
        $fileHandle = $this->fileHandle;
        rewind($fileHandle);

        // Create new Worksheets
        while ($spreadsheet->getSheetCount() <= $this->sheetIndex)
{
            $spreadsheet->createSheet();
        }
        $spreadsheet->setActiveSheetIndex($this->sheetIndex);

        $fromFormats = ['\-', '\ '];
        $toFormats = ['-', ' '];

        // Loop through file
        $column = $row = '';

        // loop through one row (line) at a time in the file
        while (($rowData = fgets($fileHandle)) !== false) {
            // convert SYLK encoded $rowData to UTF-8
            $rowData = StringHelper::SYLKtoUTF8($rowData);

            // explode each row at semicolons while taking into account
that literal semicolon (;)
            // is escaped like this (;;)
            $rowData = explode("\t", str_replace('¤',
';', str_replace(';', "\t",
str_replace(';;', '¤', rtrim($rowData)))));

            $dataType = array_shift($rowData);
            //    Read shared styles
            if ($dataType == 'P') {
                $formatArray = [];
                foreach ($rowData as $rowDatum) {
                    switch ($rowDatum[0]) {
                        case 'P':
                           
$formatArray['numberFormat']['formatCode'] =
str_replace($fromFormats, $toFormats, substr($rowDatum, 1));

                            break;
                        case 'E':
                        case 'F':
                           
$formatArray['font']['name'] = substr($rowDatum, 1);

                            break;
                        case 'L':
                           
$formatArray['font']['size'] = substr($rowDatum, 1);

                            break;
                        case 'S':
                            $styleSettings = substr($rowDatum, 1);
                            $iMax = strlen($styleSettings);
                            for ($i = 0; $i < $iMax; ++$i) {
                                switch ($styleSettings[$i]) {
                                    case 'I':
                                       
$formatArray['font']['italic'] = true;

                                        break;
                                    case 'D':
                                       
$formatArray['font']['bold'] = true;

                                        break;
                                    case 'T':
                                       
$formatArray['borders']['top']['borderStyle']
= Border::BORDER_THIN;

                                        break;
                                    case 'B':
                                       
$formatArray['borders']['bottom']['borderStyle']
= Border::BORDER_THIN;

                                        break;
                                    case 'L':
                                       
$formatArray['borders']['left']['borderStyle']
= Border::BORDER_THIN;

                                        break;
                                    case 'R':
                                       
$formatArray['borders']['right']['borderStyle']
= Border::BORDER_THIN;

                                        break;
                                }
                            }

                            break;
                    }
                }
                $this->formats['P' . $this->format++] =
$formatArray;
            //    Read cell value data
            } elseif ($dataType == 'C') {
                $hasCalculatedValue = false;
                $cellData = $cellDataFormula = '';
                foreach ($rowData as $rowDatum) {
                    switch ($rowDatum[0]) {
                        case 'C':
                        case 'X':
                            $column = substr($rowDatum, 1);

                            break;
                        case 'R':
                        case 'Y':
                            $row = substr($rowDatum, 1);

                            break;
                        case 'K':
                            $cellData = substr($rowDatum, 1);

                            break;
                        case 'E':
                            $cellDataFormula = '=' .
substr($rowDatum, 1);
                            //    Convert R1C1 style references to A1 style
references (but only when not quoted)
                            $temp = explode('"',
$cellDataFormula);
                            $key = false;
                            foreach ($temp as &$value) {
                                //    Only count/replace in alternate array
entries
                                if ($key = !$key) {
                                   
preg_match_all('/(R(\[?-?\d*\]?))(C(\[?-?\d*\]?))/', $value,
$cellReferences, PREG_SET_ORDER + PREG_OFFSET_CAPTURE);
                                    //    Reverse the matches array,
otherwise all our offsets will become incorrect if we modify our way
                                    //        through the formula from left
to right. Reversing means that we work right to left.through
                                    //        the formula
                                    $cellReferences =
array_reverse($cellReferences);
                                    //    Loop through each R1C1 style
reference in turn, converting it to its A1 style equivalent,
                                    //        then modify the formula to
use that new reference
                                    foreach ($cellReferences as
$cellReference) {
                                        $rowReference =
$cellReference[2][0];
                                        //    Empty R reference is the
current row
                                        if ($rowReference == '')
{
                                            $rowReference = $row;
                                        }
                                        //    Bracketed R references are
relative to the current row
                                        if ($rowReference[0] ==
'[') {
                                            $rowReference = $row +
trim($rowReference, '[]');
                                        }
                                        $columnReference =
$cellReference[4][0];
                                        //    Empty C reference is the
current column
                                        if ($columnReference ==
'') {
                                            $columnReference = $column;
                                        }
                                        //    Bracketed C references are
relative to the current column
                                        if ($columnReference[0] ==
'[') {
                                            $columnReference = $column +
trim($columnReference, '[]');
                                        }
                                        $A1CellReference =
Coordinate::stringFromColumnIndex($columnReference) . $rowReference;

                                        $value = substr_replace($value,
$A1CellReference, $cellReference[0][1], strlen($cellReference[0][0]));
                                    }
                                }
                            }
                            unset($value);
                            //    Then rebuild the formula string
                            $cellDataFormula = implode('"',
$temp);
                            $hasCalculatedValue = true;

                            break;
                    }
                }
                $columnLetter = Coordinate::stringFromColumnIndex($column);
                $cellData = Calculation::unwrapResult($cellData);

                // Set cell value
                $spreadsheet->getActiveSheet()->getCell($columnLetter
. $row)->setValue(($hasCalculatedValue) ? $cellDataFormula : $cellData);
                if ($hasCalculatedValue) {
                    $cellData = Calculation::unwrapResult($cellData);
                   
$spreadsheet->getActiveSheet()->getCell($columnLetter .
$row)->setCalculatedValue($cellData);
                }
                //    Read cell formatting
            } elseif ($dataType == 'F') {
                $formatStyle = $columnWidth = $styleSettings =
'';
                $styleData = [];
                foreach ($rowData as $rowDatum) {
                    switch ($rowDatum[0]) {
                        case 'C':
                        case 'X':
                            $column = substr($rowDatum, 1);

                            break;
                        case 'R':
                        case 'Y':
                            $row = substr($rowDatum, 1);

                            break;
                        case 'P':
                            $formatStyle = $rowDatum;

                            break;
                        case 'W':
                            [$startCol, $endCol, $columnWidth] =
explode(' ', substr($rowDatum, 1));

                            break;
                        case 'S':
                            $styleSettings = substr($rowDatum, 1);
                            $iMax = strlen($styleSettings);
                            for ($i = 0; $i < $iMax; ++$i) {
                                switch ($styleSettings[$i]) {
                                    case 'I':
                                       
$styleData['font']['italic'] = true;

                                        break;
                                    case 'D':
                                       
$styleData['font']['bold'] = true;

                                        break;
                                    case 'T':
                                       
$styleData['borders']['top']['borderStyle'] =
Border::BORDER_THIN;

                                        break;
                                    case 'B':
                                       
$styleData['borders']['bottom']['borderStyle']
= Border::BORDER_THIN;

                                        break;
                                    case 'L':
                                       
$styleData['borders']['left']['borderStyle']
= Border::BORDER_THIN;

                                        break;
                                    case 'R':
                                       
$styleData['borders']['right']['borderStyle']
= Border::BORDER_THIN;

                                        break;
                                }
                            }

                            break;
                    }
                }
                if (($formatStyle > '') && ($column
> '') && ($row > '')) {
                    $columnLetter =
Coordinate::stringFromColumnIndex($column);
                    if (isset($this->formats[$formatStyle])) {
                       
$spreadsheet->getActiveSheet()->getStyle($columnLetter .
$row)->applyFromArray($this->formats[$formatStyle]);
                    }
                }
                if ((!empty($styleData)) && ($column >
'') && ($row > '')) {
                    $columnLetter =
Coordinate::stringFromColumnIndex($column);
                   
$spreadsheet->getActiveSheet()->getStyle($columnLetter .
$row)->applyFromArray($styleData);
                }
                if ($columnWidth > '') {
                    if ($startCol == $endCol) {
                        $startCol =
Coordinate::stringFromColumnIndex($startCol);
                       
$spreadsheet->getActiveSheet()->getColumnDimension($startCol)->setWidth($columnWidth);
                    } else {
                        $startCol =
Coordinate::stringFromColumnIndex($startCol);
                        $endCol =
Coordinate::stringFromColumnIndex($endCol);
                       
$spreadsheet->getActiveSheet()->getColumnDimension($startCol)->setWidth($columnWidth);
                        do {
                           
$spreadsheet->getActiveSheet()->getColumnDimension(++$startCol)->setWidth($columnWidth);
                        } while ($startCol != $endCol);
                    }
                }
            } else {
                foreach ($rowData as $rowDatum) {
                    switch ($rowDatum[0]) {
                        case 'C':
                        case 'X':
                            $column = substr($rowDatum, 1);

                            break;
                        case 'R':
                        case 'Y':
                            $row = substr($rowDatum, 1);

                            break;
                    }
                }
            }
        }

        // Close file
        fclose($fileHandle);

        // Return
        return $spreadsheet;
    }

    /**
     * Get sheet index.
     *
     * @return int
     */
    public function getSheetIndex()
    {
        return $this->sheetIndex;
    }

    /**
     * Set sheet index.
     *
     * @param int $pValue Sheet index
     *
     * @return $this
     */
    public function setSheetIndex($pValue)
    {
        $this->sheetIndex = $pValue;

        return $this;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/Xls/Color/BIFF5.php000064400000003547151165414000023071
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader\Xls\Color;

class BIFF5
{
    protected static $map = [
        0x08 => '000000',
        0x09 => 'FFFFFF',
        0x0A => 'FF0000',
        0x0B => '00FF00',
        0x0C => '0000FF',
        0x0D => 'FFFF00',
        0x0E => 'FF00FF',
        0x0F => '00FFFF',
        0x10 => '800000',
        0x11 => '008000',
        0x12 => '000080',
        0x13 => '808000',
        0x14 => '800080',
        0x15 => '008080',
        0x16 => 'C0C0C0',
        0x17 => '808080',
        0x18 => '8080FF',
        0x19 => '802060',
        0x1A => 'FFFFC0',
        0x1B => 'A0E0F0',
        0x1C => '600080',
        0x1D => 'FF8080',
        0x1E => '0080C0',
        0x1F => 'C0C0FF',
        0x20 => '000080',
        0x21 => 'FF00FF',
        0x22 => 'FFFF00',
        0x23 => '00FFFF',
        0x24 => '800080',
        0x25 => '800000',
        0x26 => '008080',
        0x27 => '0000FF',
        0x28 => '00CFFF',
        0x29 => '69FFFF',
        0x2A => 'E0FFE0',
        0x2B => 'FFFF80',
        0x2C => 'A6CAF0',
        0x2D => 'DD9CB3',
        0x2E => 'B38FEE',
        0x2F => 'E3E3E3',
        0x30 => '2A6FF9',
        0x31 => '3FB8CD',
        0x32 => '488436',
        0x33 => '958C41',
        0x34 => '8E5E42',
        0x35 => 'A0627A',
        0x36 => '624FAC',
        0x37 => '969696',
        0x38 => '1D2FBE',
        0x39 => '286676',
        0x3A => '004500',
        0x3B => '453E01',
        0x3C => '6A2813',
        0x3D => '85396A',
        0x3E => '4A3285',
        0x3F => '424242',
    ];

    /**
     * Map color array from BIFF5 built-in color index.
     *
     * @param int $color
     *
     * @return array
     */
    public static function lookup($color)
    {
        if (isset(self::$map[$color])) {
            return ['rgb' => self::$map[$color]];
        }

        return ['rgb' => '000000'];
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/Xls/Color/BIFF8.php000064400000003547151165414000023074
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader\Xls\Color;

class BIFF8
{
    protected static $map = [
        0x08 => '000000',
        0x09 => 'FFFFFF',
        0x0A => 'FF0000',
        0x0B => '00FF00',
        0x0C => '0000FF',
        0x0D => 'FFFF00',
        0x0E => 'FF00FF',
        0x0F => '00FFFF',
        0x10 => '800000',
        0x11 => '008000',
        0x12 => '000080',
        0x13 => '808000',
        0x14 => '800080',
        0x15 => '008080',
        0x16 => 'C0C0C0',
        0x17 => '808080',
        0x18 => '9999FF',
        0x19 => '993366',
        0x1A => 'FFFFCC',
        0x1B => 'CCFFFF',
        0x1C => '660066',
        0x1D => 'FF8080',
        0x1E => '0066CC',
        0x1F => 'CCCCFF',
        0x20 => '000080',
        0x21 => 'FF00FF',
        0x22 => 'FFFF00',
        0x23 => '00FFFF',
        0x24 => '800080',
        0x25 => '800000',
        0x26 => '008080',
        0x27 => '0000FF',
        0x28 => '00CCFF',
        0x29 => 'CCFFFF',
        0x2A => 'CCFFCC',
        0x2B => 'FFFF99',
        0x2C => '99CCFF',
        0x2D => 'FF99CC',
        0x2E => 'CC99FF',
        0x2F => 'FFCC99',
        0x30 => '3366FF',
        0x31 => '33CCCC',
        0x32 => '99CC00',
        0x33 => 'FFCC00',
        0x34 => 'FF9900',
        0x35 => 'FF6600',
        0x36 => '666699',
        0x37 => '969696',
        0x38 => '003366',
        0x39 => '339966',
        0x3A => '003300',
        0x3B => '333300',
        0x3C => '993300',
        0x3D => '993366',
        0x3E => '333399',
        0x3F => '333333',
    ];

    /**
     * Map color array from BIFF8 built-in color index.
     *
     * @param int $color
     *
     * @return array
     */
    public static function lookup($color)
    {
        if (isset(self::$map[$color])) {
            return ['rgb' => self::$map[$color]];
        }

        return ['rgb' => '000000'];
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/Xls/Color/BuiltIn.php000064400000001371151165414000023635
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader\Xls\Color;

class BuiltIn
{
    protected static $map = [
        0x00 => '000000',
        0x01 => 'FFFFFF',
        0x02 => 'FF0000',
        0x03 => '00FF00',
        0x04 => '0000FF',
        0x05 => 'FFFF00',
        0x06 => 'FF00FF',
        0x07 => '00FFFF',
        0x40 => '000000', // system window text color
        0x41 => 'FFFFFF', // system window background color
    ];

    /**
     * Map built-in color to RGB value.
     *
     * @param int $color Indexed color
     *
     * @return array
     */
    public static function lookup($color)
    {
        if (isset(self::$map[$color])) {
            return ['rgb' => self::$map[$color]];
        }

        return ['rgb' => '000000'];
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/Xls/Color.php000064400000001630151165414000022265
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader\Xls;

use PhpOffice\PhpSpreadsheet\Reader\Xls;

class Color
{
    /**
     * Read color.
     *
     * @param int $color Indexed color
     * @param array $palette Color palette
     * @param int $version
     *
     * @return array RGB color value, example: ['rgb' =>
'FF0000']
     */
    public static function map($color, $palette, $version)
    {
        if ($color <= 0x07 || $color >= 0x40) {
            // special built-in color
            return Color\BuiltIn::lookup($color);
        } elseif (isset($palette, $palette[$color - 8])) {
            // palette color, color index 0x08 maps to pallete index 0
            return $palette[$color - 8];
        }

        // default color table
        if ($version == Xls::XLS_BIFF8) {
            return Color\BIFF8::lookup($color);
        }

        // BIFF5
        return Color\BIFF5::lookup($color);
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/Xls/ErrorCode.php000064400000001076151165414000023077
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader\Xls;

class ErrorCode
{
    protected static $map = [
        0x00 => '#NULL!',
        0x07 => '#DIV/0!',
        0x0F => '#VALUE!',
        0x17 => '#REF!',
        0x1D => '#NAME?',
        0x24 => '#NUM!',
        0x2A => '#N/A',
    ];

    /**
     * Map error code, e.g. '#N/A'.
     *
     * @param int $code
     *
     * @return bool|string
     */
    public static function lookup($code)
    {
        if (isset(self::$map[$code])) {
            return self::$map[$code];
        }

        return false;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/Xls/Escher.php000064400000047221151165414000022426
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader\Xls;

use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\Reader\Xls;
use PhpOffice\PhpSpreadsheet\Shared\Escher\DgContainer;
use PhpOffice\PhpSpreadsheet\Shared\Escher\DgContainer\SpgrContainer;
use
PhpOffice\PhpSpreadsheet\Shared\Escher\DgContainer\SpgrContainer\SpContainer;
use PhpOffice\PhpSpreadsheet\Shared\Escher\DggContainer;
use PhpOffice\PhpSpreadsheet\Shared\Escher\DggContainer\BstoreContainer;
use
PhpOffice\PhpSpreadsheet\Shared\Escher\DggContainer\BstoreContainer\BSE;
use
PhpOffice\PhpSpreadsheet\Shared\Escher\DggContainer\BstoreContainer\BSE\Blip;

class Escher
{
    const DGGCONTAINER = 0xF000;
    const BSTORECONTAINER = 0xF001;
    const DGCONTAINER = 0xF002;
    const SPGRCONTAINER = 0xF003;
    const SPCONTAINER = 0xF004;
    const DGG = 0xF006;
    const BSE = 0xF007;
    const DG = 0xF008;
    const SPGR = 0xF009;
    const SP = 0xF00A;
    const OPT = 0xF00B;
    const CLIENTTEXTBOX = 0xF00D;
    const CLIENTANCHOR = 0xF010;
    const CLIENTDATA = 0xF011;
    const BLIPJPEG = 0xF01D;
    const BLIPPNG = 0xF01E;
    const SPLITMENUCOLORS = 0xF11E;
    const TERTIARYOPT = 0xF122;

    /**
     * Escher stream data (binary).
     *
     * @var string
     */
    private $data;

    /**
     * Size in bytes of the Escher stream data.
     *
     * @var int
     */
    private $dataSize;

    /**
     * Current position of stream pointer in Escher stream data.
     *
     * @var int
     */
    private $pos;

    /**
     * The object to be returned by the reader. Modified during load.
     *
     * @var
BSE|BstoreContainer|DgContainer|DggContainer|\PhpOffice\PhpSpreadsheet\Shared\Escher|SpContainer|SpgrContainer
     */
    private $object;

    /**
     * Create a new Escher instance.
     *
     * @param mixed $object
     */
    public function __construct($object)
    {
        $this->object = $object;
    }

    /**
     * Load Escher stream data. May be a partial Escher stream.
     *
     * @param string $data
     *
     * @return
BSE|BstoreContainer|DgContainer|DggContainer|\PhpOffice\PhpSpreadsheet\Shared\Escher|SpContainer|SpgrContainer
     */
    public function load($data)
    {
        $this->data = $data;

        // total byte size of Excel data (workbook global substream + sheet
substreams)
        $this->dataSize = strlen($this->data);

        $this->pos = 0;

        // Parse Escher stream
        while ($this->pos < $this->dataSize) {
            // offset: 2; size: 2: Record Type
            $fbt = Xls::getUInt2d($this->data, $this->pos + 2);

            switch ($fbt) {
                case self::DGGCONTAINER:
                    $this->readDggContainer();

                    break;
                case self::DGG:
                    $this->readDgg();

                    break;
                case self::BSTORECONTAINER:
                    $this->readBstoreContainer();

                    break;
                case self::BSE:
                    $this->readBSE();

                    break;
                case self::BLIPJPEG:
                    $this->readBlipJPEG();

                    break;
                case self::BLIPPNG:
                    $this->readBlipPNG();

                    break;
                case self::OPT:
                    $this->readOPT();

                    break;
                case self::TERTIARYOPT:
                    $this->readTertiaryOPT();

                    break;
                case self::SPLITMENUCOLORS:
                    $this->readSplitMenuColors();

                    break;
                case self::DGCONTAINER:
                    $this->readDgContainer();

                    break;
                case self::DG:
                    $this->readDg();

                    break;
                case self::SPGRCONTAINER:
                    $this->readSpgrContainer();

                    break;
                case self::SPCONTAINER:
                    $this->readSpContainer();

                    break;
                case self::SPGR:
                    $this->readSpgr();

                    break;
                case self::SP:
                    $this->readSp();

                    break;
                case self::CLIENTTEXTBOX:
                    $this->readClientTextbox();

                    break;
                case self::CLIENTANCHOR:
                    $this->readClientAnchor();

                    break;
                case self::CLIENTDATA:
                    $this->readClientData();

                    break;
                default:
                    $this->readDefault();

                    break;
            }
        }

        return $this->object;
    }

    /**
     * Read a generic record.
     */
    private function readDefault()
    {
        // offset 0; size: 2; recVer and recInstance
        $verInstance = Xls::getUInt2d($this->data, $this->pos);

        // offset: 2; size: 2: Record Type
        $fbt = Xls::getUInt2d($this->data, $this->pos + 2);

        // bit: 0-3; mask: 0x000F; recVer
        $recVer = (0x000F & $verInstance) >> 0;

        $length = Xls::getInt4d($this->data, $this->pos + 4);
        $recordData = substr($this->data, $this->pos + 8, $length);

        // move stream pointer to next record
        $this->pos += 8 + $length;
    }

    /**
     * Read DggContainer record (Drawing Group Container).
     */
    private function readDggContainer()
    {
        $length = Xls::getInt4d($this->data, $this->pos + 4);
        $recordData = substr($this->data, $this->pos + 8, $length);

        // move stream pointer to next record
        $this->pos += 8 + $length;

        // record is a container, read contents
        $dggContainer = new DggContainer();
        $this->object->setDggContainer($dggContainer);
        $reader = new self($dggContainer);
        $reader->load($recordData);
    }

    /**
     * Read Dgg record (Drawing Group).
     */
    private function readDgg()
    {
        $length = Xls::getInt4d($this->data, $this->pos + 4);
        $recordData = substr($this->data, $this->pos + 8, $length);

        // move stream pointer to next record
        $this->pos += 8 + $length;
    }

    /**
     * Read BstoreContainer record (Blip Store Container).
     */
    private function readBstoreContainer()
    {
        $length = Xls::getInt4d($this->data, $this->pos + 4);
        $recordData = substr($this->data, $this->pos + 8, $length);

        // move stream pointer to next record
        $this->pos += 8 + $length;

        // record is a container, read contents
        $bstoreContainer = new BstoreContainer();
        $this->object->setBstoreContainer($bstoreContainer);
        $reader = new self($bstoreContainer);
        $reader->load($recordData);
    }

    /**
     * Read BSE record.
     */
    private function readBSE()
    {
        // offset: 0; size: 2; recVer and recInstance

        // bit: 4-15; mask: 0xFFF0; recInstance
        $recInstance = (0xFFF0 & Xls::getUInt2d($this->data,
$this->pos)) >> 4;

        $length = Xls::getInt4d($this->data, $this->pos + 4);
        $recordData = substr($this->data, $this->pos + 8, $length);

        // move stream pointer to next record
        $this->pos += 8 + $length;

        // add BSE to BstoreContainer
        $BSE = new BSE();
        $this->object->addBSE($BSE);

        $BSE->setBLIPType($recInstance);

        // offset: 0; size: 1; btWin32 (MSOBLIPTYPE)
        $btWin32 = ord($recordData[0]);

        // offset: 1; size: 1; btWin32 (MSOBLIPTYPE)
        $btMacOS = ord($recordData[1]);

        // offset: 2; size: 16; MD4 digest
        $rgbUid = substr($recordData, 2, 16);

        // offset: 18; size: 2; tag
        $tag = Xls::getUInt2d($recordData, 18);

        // offset: 20; size: 4; size of BLIP in bytes
        $size = Xls::getInt4d($recordData, 20);

        // offset: 24; size: 4; number of references to this BLIP
        $cRef = Xls::getInt4d($recordData, 24);

        // offset: 28; size: 4; MSOFO file offset
        $foDelay = Xls::getInt4d($recordData, 28);

        // offset: 32; size: 1; unused1
        $unused1 = ord($recordData[32]);

        // offset: 33; size: 1; size of nameData in bytes (including null
terminator)
        $cbName = ord($recordData[33]);

        // offset: 34; size: 1; unused2
        $unused2 = ord($recordData[34]);

        // offset: 35; size: 1; unused3
        $unused3 = ord($recordData[35]);

        // offset: 36; size: $cbName; nameData
        $nameData = substr($recordData, 36, $cbName);

        // offset: 36 + $cbName, size: var; the BLIP data
        $blipData = substr($recordData, 36 + $cbName);

        // record is a container, read contents
        $reader = new self($BSE);
        $reader->load($blipData);
    }

    /**
     * Read BlipJPEG record. Holds raw JPEG image data.
     */
    private function readBlipJPEG()
    {
        // offset: 0; size: 2; recVer and recInstance

        // bit: 4-15; mask: 0xFFF0; recInstance
        $recInstance = (0xFFF0 & Xls::getUInt2d($this->data,
$this->pos)) >> 4;

        $length = Xls::getInt4d($this->data, $this->pos + 4);
        $recordData = substr($this->data, $this->pos + 8, $length);

        // move stream pointer to next record
        $this->pos += 8 + $length;

        $pos = 0;

        // offset: 0; size: 16; rgbUid1 (MD4 digest of)
        $rgbUid1 = substr($recordData, 0, 16);
        $pos += 16;

        // offset: 16; size: 16; rgbUid2 (MD4 digest), only if $recInstance
= 0x46B or 0x6E3
        if (in_array($recInstance, [0x046B, 0x06E3])) {
            $rgbUid2 = substr($recordData, 16, 16);
            $pos += 16;
        }

        // offset: var; size: 1; tag
        $tag = ord($recordData[$pos]);
        $pos += 1;

        // offset: var; size: var; the raw image data
        $data = substr($recordData, $pos);

        $blip = new Blip();
        $blip->setData($data);

        $this->object->setBlip($blip);
    }

    /**
     * Read BlipPNG record. Holds raw PNG image data.
     */
    private function readBlipPNG()
    {
        // offset: 0; size: 2; recVer and recInstance

        // bit: 4-15; mask: 0xFFF0; recInstance
        $recInstance = (0xFFF0 & Xls::getUInt2d($this->data,
$this->pos)) >> 4;

        $length = Xls::getInt4d($this->data, $this->pos + 4);
        $recordData = substr($this->data, $this->pos + 8, $length);

        // move stream pointer to next record
        $this->pos += 8 + $length;

        $pos = 0;

        // offset: 0; size: 16; rgbUid1 (MD4 digest of)
        $rgbUid1 = substr($recordData, 0, 16);
        $pos += 16;

        // offset: 16; size: 16; rgbUid2 (MD4 digest), only if $recInstance
= 0x46B or 0x6E3
        if ($recInstance == 0x06E1) {
            $rgbUid2 = substr($recordData, 16, 16);
            $pos += 16;
        }

        // offset: var; size: 1; tag
        $tag = ord($recordData[$pos]);
        $pos += 1;

        // offset: var; size: var; the raw image data
        $data = substr($recordData, $pos);

        $blip = new Blip();
        $blip->setData($data);

        $this->object->setBlip($blip);
    }

    /**
     * Read OPT record. This record may occur within DggContainer record or
SpContainer.
     */
    private function readOPT()
    {
        // offset: 0; size: 2; recVer and recInstance

        // bit: 4-15; mask: 0xFFF0; recInstance
        $recInstance = (0xFFF0 & Xls::getUInt2d($this->data,
$this->pos)) >> 4;

        $length = Xls::getInt4d($this->data, $this->pos + 4);
        $recordData = substr($this->data, $this->pos + 8, $length);

        // move stream pointer to next record
        $this->pos += 8 + $length;

        $this->readOfficeArtRGFOPTE($recordData, $recInstance);
    }

    /**
     * Read TertiaryOPT record.
     */
    private function readTertiaryOPT()
    {
        // offset: 0; size: 2; recVer and recInstance

        // bit: 4-15; mask: 0xFFF0; recInstance
        $recInstance = (0xFFF0 & Xls::getUInt2d($this->data,
$this->pos)) >> 4;

        $length = Xls::getInt4d($this->data, $this->pos + 4);
        $recordData = substr($this->data, $this->pos + 8, $length);

        // move stream pointer to next record
        $this->pos += 8 + $length;
    }

    /**
     * Read SplitMenuColors record.
     */
    private function readSplitMenuColors()
    {
        $length = Xls::getInt4d($this->data, $this->pos + 4);
        $recordData = substr($this->data, $this->pos + 8, $length);

        // move stream pointer to next record
        $this->pos += 8 + $length;
    }

    /**
     * Read DgContainer record (Drawing Container).
     */
    private function readDgContainer()
    {
        $length = Xls::getInt4d($this->data, $this->pos + 4);
        $recordData = substr($this->data, $this->pos + 8, $length);

        // move stream pointer to next record
        $this->pos += 8 + $length;

        // record is a container, read contents
        $dgContainer = new DgContainer();
        $this->object->setDgContainer($dgContainer);
        $reader = new self($dgContainer);
        $escher = $reader->load($recordData);
    }

    /**
     * Read Dg record (Drawing).
     */
    private function readDg()
    {
        $length = Xls::getInt4d($this->data, $this->pos + 4);
        $recordData = substr($this->data, $this->pos + 8, $length);

        // move stream pointer to next record
        $this->pos += 8 + $length;
    }

    /**
     * Read SpgrContainer record (Shape Group Container).
     */
    private function readSpgrContainer()
    {
        // context is either context DgContainer or SpgrContainer

        $length = Xls::getInt4d($this->data, $this->pos + 4);
        $recordData = substr($this->data, $this->pos + 8, $length);

        // move stream pointer to next record
        $this->pos += 8 + $length;

        // record is a container, read contents
        $spgrContainer = new SpgrContainer();

        if ($this->object instanceof DgContainer) {
            // DgContainer
            $this->object->setSpgrContainer($spgrContainer);
        } else {
            // SpgrContainer
            $this->object->addChild($spgrContainer);
        }

        $reader = new self($spgrContainer);
        $escher = $reader->load($recordData);
    }

    /**
     * Read SpContainer record (Shape Container).
     */
    private function readSpContainer()
    {
        $length = Xls::getInt4d($this->data, $this->pos + 4);
        $recordData = substr($this->data, $this->pos + 8, $length);

        // add spContainer to spgrContainer
        $spContainer = new SpContainer();
        $this->object->addChild($spContainer);

        // move stream pointer to next record
        $this->pos += 8 + $length;

        // record is a container, read contents
        $reader = new self($spContainer);
        $escher = $reader->load($recordData);
    }

    /**
     * Read Spgr record (Shape Group).
     */
    private function readSpgr()
    {
        $length = Xls::getInt4d($this->data, $this->pos + 4);
        $recordData = substr($this->data, $this->pos + 8, $length);

        // move stream pointer to next record
        $this->pos += 8 + $length;
    }

    /**
     * Read Sp record (Shape).
     */
    private function readSp()
    {
        // offset: 0; size: 2; recVer and recInstance

        // bit: 4-15; mask: 0xFFF0; recInstance
        $recInstance = (0xFFF0 & Xls::getUInt2d($this->data,
$this->pos)) >> 4;

        $length = Xls::getInt4d($this->data, $this->pos + 4);
        $recordData = substr($this->data, $this->pos + 8, $length);

        // move stream pointer to next record
        $this->pos += 8 + $length;
    }

    /**
     * Read ClientTextbox record.
     */
    private function readClientTextbox()
    {
        // offset: 0; size: 2; recVer and recInstance

        // bit: 4-15; mask: 0xFFF0; recInstance
        $recInstance = (0xFFF0 & Xls::getUInt2d($this->data,
$this->pos)) >> 4;

        $length = Xls::getInt4d($this->data, $this->pos + 4);
        $recordData = substr($this->data, $this->pos + 8, $length);

        // move stream pointer to next record
        $this->pos += 8 + $length;
    }

    /**
     * Read ClientAnchor record. This record holds information about where
the shape is anchored in worksheet.
     */
    private function readClientAnchor()
    {
        $length = Xls::getInt4d($this->data, $this->pos + 4);
        $recordData = substr($this->data, $this->pos + 8, $length);

        // move stream pointer to next record
        $this->pos += 8 + $length;

        // offset: 2; size: 2; upper-left corner column index (0-based)
        $c1 = Xls::getUInt2d($recordData, 2);

        // offset: 4; size: 2; upper-left corner horizontal offset in
1/1024 of column width
        $startOffsetX = Xls::getUInt2d($recordData, 4);

        // offset: 6; size: 2; upper-left corner row index (0-based)
        $r1 = Xls::getUInt2d($recordData, 6);

        // offset: 8; size: 2; upper-left corner vertical offset in 1/256
of row height
        $startOffsetY = Xls::getUInt2d($recordData, 8);

        // offset: 10; size: 2; bottom-right corner column index (0-based)
        $c2 = Xls::getUInt2d($recordData, 10);

        // offset: 12; size: 2; bottom-right corner horizontal offset in
1/1024 of column width
        $endOffsetX = Xls::getUInt2d($recordData, 12);

        // offset: 14; size: 2; bottom-right corner row index (0-based)
        $r2 = Xls::getUInt2d($recordData, 14);

        // offset: 16; size: 2; bottom-right corner vertical offset in
1/256 of row height
        $endOffsetY = Xls::getUInt2d($recordData, 16);

        // set the start coordinates
       
$this->object->setStartCoordinates(Coordinate::stringFromColumnIndex($c1
+ 1) . ($r1 + 1));

        // set the start offsetX
        $this->object->setStartOffsetX($startOffsetX);

        // set the start offsetY
        $this->object->setStartOffsetY($startOffsetY);

        // set the end coordinates
       
$this->object->setEndCoordinates(Coordinate::stringFromColumnIndex($c2
+ 1) . ($r2 + 1));

        // set the end offsetX
        $this->object->setEndOffsetX($endOffsetX);

        // set the end offsetY
        $this->object->setEndOffsetY($endOffsetY);
    }

    /**
     * Read ClientData record.
     */
    private function readClientData()
    {
        $length = Xls::getInt4d($this->data, $this->pos + 4);
        $recordData = substr($this->data, $this->pos + 8, $length);

        // move stream pointer to next record
        $this->pos += 8 + $length;
    }

    /**
     * Read OfficeArtRGFOPTE table of property-value pairs.
     *
     * @param string $data Binary data
     * @param int $n Number of properties
     */
    private function readOfficeArtRGFOPTE($data, $n)
    {
        $splicedComplexData = substr($data, 6 * $n);

        // loop through property-value pairs
        for ($i = 0; $i < $n; ++$i) {
            // read 6 bytes at a time
            $fopte = substr($data, 6 * $i, 6);

            // offset: 0; size: 2; opid
            $opid = Xls::getUInt2d($fopte, 0);

            // bit: 0-13; mask: 0x3FFF; opid.opid
            $opidOpid = (0x3FFF & $opid) >> 0;

            // bit: 14; mask 0x4000; 1 = value in op field is BLIP
identifier
            $opidFBid = (0x4000 & $opid) >> 14;

            // bit: 15; mask 0x8000; 1 = this is a complex property, op
field specifies size of complex data
            $opidFComplex = (0x8000 & $opid) >> 15;

            // offset: 2; size: 4; the value for this property
            $op = Xls::getInt4d($fopte, 2);

            if ($opidFComplex) {
                $complexData = substr($splicedComplexData, 0, $op);
                $splicedComplexData = substr($splicedComplexData, $op);

                // we store string value with complex data
                $value = $complexData;
            } else {
                // we store integer value
                $value = $op;
            }

            $this->object->setOPT($opidOpid, $value);
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/Xls/MD5.php000064400000015137151165414000021603
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader\Xls;

class MD5
{
    // Context
    private $a;

    private $b;

    private $c;

    private $d;

    /**
     * MD5 stream constructor.
     */
    public function __construct()
    {
        $this->reset();
    }

    /**
     * Reset the MD5 stream context.
     */
    public function reset()
    {
        $this->a = 0x67452301;
        $this->b = 0xEFCDAB89;
        $this->c = 0x98BADCFE;
        $this->d = 0x10325476;
    }

    /**
     * Get MD5 stream context.
     *
     * @return string
     */
    public function getContext()
    {
        $s = '';
        foreach (['a', 'b', 'c',
'd'] as $i) {
            $v = $this->{$i};
            $s .= chr($v & 0xff);
            $s .= chr(($v >> 8) & 0xff);
            $s .= chr(($v >> 16) & 0xff);
            $s .= chr(($v >> 24) & 0xff);
        }

        return $s;
    }

    /**
     * Add data to context.
     *
     * @param string $data Data to add
     */
    public function add($data)
    {
        $words = array_values(unpack('V16', $data));

        $A = $this->a;
        $B = $this->b;
        $C = $this->c;
        $D = $this->d;

        $F = ['self', 'f'];
        $G = ['self', 'g'];
        $H = ['self', 'h'];
        $I = ['self', 'i'];

        // ROUND 1
        self::step($F, $A, $B, $C, $D, $words[0], 7, 0xd76aa478);
        self::step($F, $D, $A, $B, $C, $words[1], 12, 0xe8c7b756);
        self::step($F, $C, $D, $A, $B, $words[2], 17, 0x242070db);
        self::step($F, $B, $C, $D, $A, $words[3], 22, 0xc1bdceee);
        self::step($F, $A, $B, $C, $D, $words[4], 7, 0xf57c0faf);
        self::step($F, $D, $A, $B, $C, $words[5], 12, 0x4787c62a);
        self::step($F, $C, $D, $A, $B, $words[6], 17, 0xa8304613);
        self::step($F, $B, $C, $D, $A, $words[7], 22, 0xfd469501);
        self::step($F, $A, $B, $C, $D, $words[8], 7, 0x698098d8);
        self::step($F, $D, $A, $B, $C, $words[9], 12, 0x8b44f7af);
        self::step($F, $C, $D, $A, $B, $words[10], 17, 0xffff5bb1);
        self::step($F, $B, $C, $D, $A, $words[11], 22, 0x895cd7be);
        self::step($F, $A, $B, $C, $D, $words[12], 7, 0x6b901122);
        self::step($F, $D, $A, $B, $C, $words[13], 12, 0xfd987193);
        self::step($F, $C, $D, $A, $B, $words[14], 17, 0xa679438e);
        self::step($F, $B, $C, $D, $A, $words[15], 22, 0x49b40821);

        // ROUND 2
        self::step($G, $A, $B, $C, $D, $words[1], 5, 0xf61e2562);
        self::step($G, $D, $A, $B, $C, $words[6], 9, 0xc040b340);
        self::step($G, $C, $D, $A, $B, $words[11], 14, 0x265e5a51);
        self::step($G, $B, $C, $D, $A, $words[0], 20, 0xe9b6c7aa);
        self::step($G, $A, $B, $C, $D, $words[5], 5, 0xd62f105d);
        self::step($G, $D, $A, $B, $C, $words[10], 9, 0x02441453);
        self::step($G, $C, $D, $A, $B, $words[15], 14, 0xd8a1e681);
        self::step($G, $B, $C, $D, $A, $words[4], 20, 0xe7d3fbc8);
        self::step($G, $A, $B, $C, $D, $words[9], 5, 0x21e1cde6);
        self::step($G, $D, $A, $B, $C, $words[14], 9, 0xc33707d6);
        self::step($G, $C, $D, $A, $B, $words[3], 14, 0xf4d50d87);
        self::step($G, $B, $C, $D, $A, $words[8], 20, 0x455a14ed);
        self::step($G, $A, $B, $C, $D, $words[13], 5, 0xa9e3e905);
        self::step($G, $D, $A, $B, $C, $words[2], 9, 0xfcefa3f8);
        self::step($G, $C, $D, $A, $B, $words[7], 14, 0x676f02d9);
        self::step($G, $B, $C, $D, $A, $words[12], 20, 0x8d2a4c8a);

        // ROUND 3
        self::step($H, $A, $B, $C, $D, $words[5], 4, 0xfffa3942);
        self::step($H, $D, $A, $B, $C, $words[8], 11, 0x8771f681);
        self::step($H, $C, $D, $A, $B, $words[11], 16, 0x6d9d6122);
        self::step($H, $B, $C, $D, $A, $words[14], 23, 0xfde5380c);
        self::step($H, $A, $B, $C, $D, $words[1], 4, 0xa4beea44);
        self::step($H, $D, $A, $B, $C, $words[4], 11, 0x4bdecfa9);
        self::step($H, $C, $D, $A, $B, $words[7], 16, 0xf6bb4b60);
        self::step($H, $B, $C, $D, $A, $words[10], 23, 0xbebfbc70);
        self::step($H, $A, $B, $C, $D, $words[13], 4, 0x289b7ec6);
        self::step($H, $D, $A, $B, $C, $words[0], 11, 0xeaa127fa);
        self::step($H, $C, $D, $A, $B, $words[3], 16, 0xd4ef3085);
        self::step($H, $B, $C, $D, $A, $words[6], 23, 0x04881d05);
        self::step($H, $A, $B, $C, $D, $words[9], 4, 0xd9d4d039);
        self::step($H, $D, $A, $B, $C, $words[12], 11, 0xe6db99e5);
        self::step($H, $C, $D, $A, $B, $words[15], 16, 0x1fa27cf8);
        self::step($H, $B, $C, $D, $A, $words[2], 23, 0xc4ac5665);

        // ROUND 4
        self::step($I, $A, $B, $C, $D, $words[0], 6, 0xf4292244);
        self::step($I, $D, $A, $B, $C, $words[7], 10, 0x432aff97);
        self::step($I, $C, $D, $A, $B, $words[14], 15, 0xab9423a7);
        self::step($I, $B, $C, $D, $A, $words[5], 21, 0xfc93a039);
        self::step($I, $A, $B, $C, $D, $words[12], 6, 0x655b59c3);
        self::step($I, $D, $A, $B, $C, $words[3], 10, 0x8f0ccc92);
        self::step($I, $C, $D, $A, $B, $words[10], 15, 0xffeff47d);
        self::step($I, $B, $C, $D, $A, $words[1], 21, 0x85845dd1);
        self::step($I, $A, $B, $C, $D, $words[8], 6, 0x6fa87e4f);
        self::step($I, $D, $A, $B, $C, $words[15], 10, 0xfe2ce6e0);
        self::step($I, $C, $D, $A, $B, $words[6], 15, 0xa3014314);
        self::step($I, $B, $C, $D, $A, $words[13], 21, 0x4e0811a1);
        self::step($I, $A, $B, $C, $D, $words[4], 6, 0xf7537e82);
        self::step($I, $D, $A, $B, $C, $words[11], 10, 0xbd3af235);
        self::step($I, $C, $D, $A, $B, $words[2], 15, 0x2ad7d2bb);
        self::step($I, $B, $C, $D, $A, $words[9], 21, 0xeb86d391);

        $this->a = ($this->a + $A) & 0xffffffff;
        $this->b = ($this->b + $B) & 0xffffffff;
        $this->c = ($this->c + $C) & 0xffffffff;
        $this->d = ($this->d + $D) & 0xffffffff;
    }

    private static function f($X, $Y, $Z)
    {
        return ($X & $Y) | ((~$X) & $Z); // X AND Y OR NOT X AND Z
    }

    private static function g($X, $Y, $Z)
    {
        return ($X & $Z) | ($Y & (~$Z)); // X AND Z OR Y AND NOT Z
    }

    private static function h($X, $Y, $Z)
    {
        return $X ^ $Y ^ $Z; // X XOR Y XOR Z
    }

    private static function i($X, $Y, $Z)
    {
        return $Y ^ ($X | (~$Z)); // Y XOR (X OR NOT Z)
    }

    private static function step($func, &$A, $B, $C, $D, $M, $s, $t)
    {
        $A = ($A + call_user_func($func, $B, $C, $D) + $M + $t) &
0xffffffff;
        $A = self::rotate($A, $s);
        $A = ($B + $A) & 0xffffffff;
    }

    private static function rotate($decimal, $bits)
    {
        $binary = str_pad(decbin($decimal), 32, '0',
STR_PAD_LEFT);

        return bindec(substr($binary, $bits) . substr($binary, 0, $bits));
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/Xls/RC4.php000064400000002702151165414000021600
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader\Xls;

class RC4
{
    // Context
    protected $s = [];

    protected $i = 0;

    protected $j = 0;

    /**
     * RC4 stream decryption/encryption constrcutor.
     *
     * @param string $key Encryption key/passphrase
     */
    public function __construct($key)
    {
        $len = strlen($key);

        for ($this->i = 0; $this->i < 256; ++$this->i) {
            $this->s[$this->i] = $this->i;
        }

        $this->j = 0;
        for ($this->i = 0; $this->i < 256; ++$this->i) {
            $this->j = ($this->j + $this->s[$this->i] +
ord($key[$this->i % $len])) % 256;
            $t = $this->s[$this->i];
            $this->s[$this->i] = $this->s[$this->j];
            $this->s[$this->j] = $t;
        }
        $this->i = $this->j = 0;
    }

    /**
     * Symmetric decryption/encryption function.
     *
     * @param string $data Data to encrypt/decrypt
     *
     * @return string
     */
    public function RC4($data)
    {
        $len = strlen($data);
        for ($c = 0; $c < $len; ++$c) {
            $this->i = ($this->i + 1) % 256;
            $this->j = ($this->j + $this->s[$this->i]) % 256;
            $t = $this->s[$this->i];
            $this->s[$this->i] = $this->s[$this->j];
            $this->s[$this->j] = $t;

            $t = ($this->s[$this->i] + $this->s[$this->j]) %
256;

            $data[$c] = chr(ord($data[$c]) ^ $this->s[$t]);
        }

        return $data;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/Xls/Style/Border.php000064400000002172151165414000023526
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader\Xls\Style;

use PhpOffice\PhpSpreadsheet\Style\Border as StyleBorder;

class Border
{
    protected static $map = [
        0x00 => StyleBorder::BORDER_NONE,
        0x01 => StyleBorder::BORDER_THIN,
        0x02 => StyleBorder::BORDER_MEDIUM,
        0x03 => StyleBorder::BORDER_DASHED,
        0x04 => StyleBorder::BORDER_DOTTED,
        0x05 => StyleBorder::BORDER_THICK,
        0x06 => StyleBorder::BORDER_DOUBLE,
        0x07 => StyleBorder::BORDER_HAIR,
        0x08 => StyleBorder::BORDER_MEDIUMDASHED,
        0x09 => StyleBorder::BORDER_DASHDOT,
        0x0A => StyleBorder::BORDER_MEDIUMDASHDOT,
        0x0B => StyleBorder::BORDER_DASHDOTDOT,
        0x0C => StyleBorder::BORDER_MEDIUMDASHDOTDOT,
        0x0D => StyleBorder::BORDER_SLANTDASHDOT,
    ];

    /**
     * Map border style
     * OpenOffice documentation: 2.5.11.
     *
     * @param int $index
     *
     * @return string
     */
    public static function lookup($index)
    {
        if (isset(self::$map[$index])) {
            return self::$map[$index];
        }

        return StyleBorder::BORDER_NONE;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/Xls/Style/FillPattern.php000064400000002513151165414000024534
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader\Xls\Style;

use PhpOffice\PhpSpreadsheet\Style\Fill;

class FillPattern
{
    protected static $map = [
        0x00 => Fill::FILL_NONE,
        0x01 => Fill::FILL_SOLID,
        0x02 => Fill::FILL_PATTERN_MEDIUMGRAY,
        0x03 => Fill::FILL_PATTERN_DARKGRAY,
        0x04 => Fill::FILL_PATTERN_LIGHTGRAY,
        0x05 => Fill::FILL_PATTERN_DARKHORIZONTAL,
        0x06 => Fill::FILL_PATTERN_DARKVERTICAL,
        0x07 => Fill::FILL_PATTERN_DARKDOWN,
        0x08 => Fill::FILL_PATTERN_DARKUP,
        0x09 => Fill::FILL_PATTERN_DARKGRID,
        0x0A => Fill::FILL_PATTERN_DARKTRELLIS,
        0x0B => Fill::FILL_PATTERN_LIGHTHORIZONTAL,
        0x0C => Fill::FILL_PATTERN_LIGHTVERTICAL,
        0x0D => Fill::FILL_PATTERN_LIGHTDOWN,
        0x0E => Fill::FILL_PATTERN_LIGHTUP,
        0x0F => Fill::FILL_PATTERN_LIGHTGRID,
        0x10 => Fill::FILL_PATTERN_LIGHTTRELLIS,
        0x11 => Fill::FILL_PATTERN_GRAY125,
        0x12 => Fill::FILL_PATTERN_GRAY0625,
    ];

    /**
     * Get fill pattern from index
     * OpenOffice documentation: 2.5.12.
     *
     * @param int $index
     *
     * @return string
     */
    public static function lookup($index)
    {
        if (isset(self::$map[$index])) {
            return self::$map[$index];
        }

        return Fill::FILL_NONE;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/Xls.php000064400001056175151165414000021226
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader;

use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\Cell\DataType;
use PhpOffice\PhpSpreadsheet\Cell\DataValidation;
use PhpOffice\PhpSpreadsheet\Exception as PhpSpreadsheetException;
use PhpOffice\PhpSpreadsheet\NamedRange;
use PhpOffice\PhpSpreadsheet\RichText\RichText;
use PhpOffice\PhpSpreadsheet\Shared\CodePage;
use PhpOffice\PhpSpreadsheet\Shared\Date;
use PhpOffice\PhpSpreadsheet\Shared\Escher;
use
PhpOffice\PhpSpreadsheet\Shared\Escher\DggContainer\BstoreContainer\BSE;
use PhpOffice\PhpSpreadsheet\Shared\File;
use PhpOffice\PhpSpreadsheet\Shared\OLE;
use PhpOffice\PhpSpreadsheet\Shared\OLERead;
use PhpOffice\PhpSpreadsheet\Shared\StringHelper;
use PhpOffice\PhpSpreadsheet\Spreadsheet;
use PhpOffice\PhpSpreadsheet\Style\Alignment;
use PhpOffice\PhpSpreadsheet\Style\Borders;
use PhpOffice\PhpSpreadsheet\Style\Font;
use PhpOffice\PhpSpreadsheet\Style\NumberFormat;
use PhpOffice\PhpSpreadsheet\Style\Protection;
use PhpOffice\PhpSpreadsheet\Style\Style;
use PhpOffice\PhpSpreadsheet\Worksheet\MemoryDrawing;
use PhpOffice\PhpSpreadsheet\Worksheet\PageSetup;
use PhpOffice\PhpSpreadsheet\Worksheet\SheetView;
use PhpOffice\PhpSpreadsheet\Worksheet\Worksheet;

// Original file header of ParseXL (used as the base for this class):
//
--------------------------------------------------------------------------------
// Adapted from Excel_Spreadsheet_Reader developed by users bizon153,
// trex005, and mmp11 (SourceForge.net)
// https://sourceforge.net/projects/phpexcelreader/
// Primary changes made by canyoncasa (dvc) for ParseXL 1.00 ...
//     Modelled moreso after Perl Excel Parse/Write modules
//     Added Parse_Excel_Spreadsheet object
//         Reads a whole worksheet or tab as row,column array or as
//         associated hash of indexed rows and named column fields
//     Added variables for worksheet (tab) indexes and names
//     Added an object call for loading individual woorksheets
//     Changed default indexing defaults to 0 based arrays
//     Fixed date/time and percent formats
//     Includes patches found at SourceForge...
//         unicode patch by nobody
//         unpack("d") machine depedency patch by matchy
//         boundsheet utf16 patch by bjaenichen
//     Renamed functions for shorter names
//     General code cleanup and rigor, including <80 column width
//     Included a testcase Excel file and PHP example calls
//     Code works for PHP 5.x

// Primary changes made by canyoncasa (dvc) for ParseXL 1.10 ...
//
http://sourceforge.net/tracker/index.php?func=detail&aid=1466964&group_id=99160&atid=623334
//     Decoding of formula conditions, results, and tokens.
//     Support for user-defined named cells added as an array
"namedcells"
//         Patch code for user-defined named cells supports single cells
only.
//         NOTE: this patch only works for BIFF8 as BIFF5-7 use a different
//         external sheet reference structure
class Xls extends BaseReader
{
    // ParseXL definitions
    const XLS_BIFF8 = 0x0600;
    const XLS_BIFF7 = 0x0500;
    const XLS_WORKBOOKGLOBALS = 0x0005;
    const XLS_WORKSHEET = 0x0010;

    // record identifiers
    const XLS_TYPE_FORMULA = 0x0006;
    const XLS_TYPE_EOF = 0x000a;
    const XLS_TYPE_PROTECT = 0x0012;
    const XLS_TYPE_OBJECTPROTECT = 0x0063;
    const XLS_TYPE_SCENPROTECT = 0x00dd;
    const XLS_TYPE_PASSWORD = 0x0013;
    const XLS_TYPE_HEADER = 0x0014;
    const XLS_TYPE_FOOTER = 0x0015;
    const XLS_TYPE_EXTERNSHEET = 0x0017;
    const XLS_TYPE_DEFINEDNAME = 0x0018;
    const XLS_TYPE_VERTICALPAGEBREAKS = 0x001a;
    const XLS_TYPE_HORIZONTALPAGEBREAKS = 0x001b;
    const XLS_TYPE_NOTE = 0x001c;
    const XLS_TYPE_SELECTION = 0x001d;
    const XLS_TYPE_DATEMODE = 0x0022;
    const XLS_TYPE_EXTERNNAME = 0x0023;
    const XLS_TYPE_LEFTMARGIN = 0x0026;
    const XLS_TYPE_RIGHTMARGIN = 0x0027;
    const XLS_TYPE_TOPMARGIN = 0x0028;
    const XLS_TYPE_BOTTOMMARGIN = 0x0029;
    const XLS_TYPE_PRINTGRIDLINES = 0x002b;
    const XLS_TYPE_FILEPASS = 0x002f;
    const XLS_TYPE_FONT = 0x0031;
    const XLS_TYPE_CONTINUE = 0x003c;
    const XLS_TYPE_PANE = 0x0041;
    const XLS_TYPE_CODEPAGE = 0x0042;
    const XLS_TYPE_DEFCOLWIDTH = 0x0055;
    const XLS_TYPE_OBJ = 0x005d;
    const XLS_TYPE_COLINFO = 0x007d;
    const XLS_TYPE_IMDATA = 0x007f;
    const XLS_TYPE_SHEETPR = 0x0081;
    const XLS_TYPE_HCENTER = 0x0083;
    const XLS_TYPE_VCENTER = 0x0084;
    const XLS_TYPE_SHEET = 0x0085;
    const XLS_TYPE_PALETTE = 0x0092;
    const XLS_TYPE_SCL = 0x00a0;
    const XLS_TYPE_PAGESETUP = 0x00a1;
    const XLS_TYPE_MULRK = 0x00bd;
    const XLS_TYPE_MULBLANK = 0x00be;
    const XLS_TYPE_DBCELL = 0x00d7;
    const XLS_TYPE_XF = 0x00e0;
    const XLS_TYPE_MERGEDCELLS = 0x00e5;
    const XLS_TYPE_MSODRAWINGGROUP = 0x00eb;
    const XLS_TYPE_MSODRAWING = 0x00ec;
    const XLS_TYPE_SST = 0x00fc;
    const XLS_TYPE_LABELSST = 0x00fd;
    const XLS_TYPE_EXTSST = 0x00ff;
    const XLS_TYPE_EXTERNALBOOK = 0x01ae;
    const XLS_TYPE_DATAVALIDATIONS = 0x01b2;
    const XLS_TYPE_TXO = 0x01b6;
    const XLS_TYPE_HYPERLINK = 0x01b8;
    const XLS_TYPE_DATAVALIDATION = 0x01be;
    const XLS_TYPE_DIMENSION = 0x0200;
    const XLS_TYPE_BLANK = 0x0201;
    const XLS_TYPE_NUMBER = 0x0203;
    const XLS_TYPE_LABEL = 0x0204;
    const XLS_TYPE_BOOLERR = 0x0205;
    const XLS_TYPE_STRING = 0x0207;
    const XLS_TYPE_ROW = 0x0208;
    const XLS_TYPE_INDEX = 0x020b;
    const XLS_TYPE_ARRAY = 0x0221;
    const XLS_TYPE_DEFAULTROWHEIGHT = 0x0225;
    const XLS_TYPE_WINDOW2 = 0x023e;
    const XLS_TYPE_RK = 0x027e;
    const XLS_TYPE_STYLE = 0x0293;
    const XLS_TYPE_FORMAT = 0x041e;
    const XLS_TYPE_SHAREDFMLA = 0x04bc;
    const XLS_TYPE_BOF = 0x0809;
    const XLS_TYPE_SHEETPROTECTION = 0x0867;
    const XLS_TYPE_RANGEPROTECTION = 0x0868;
    const XLS_TYPE_SHEETLAYOUT = 0x0862;
    const XLS_TYPE_XFEXT = 0x087d;
    const XLS_TYPE_PAGELAYOUTVIEW = 0x088b;
    const XLS_TYPE_UNKNOWN = 0xffff;

    // Encryption type
    const MS_BIFF_CRYPTO_NONE = 0;
    const MS_BIFF_CRYPTO_XOR = 1;
    const MS_BIFF_CRYPTO_RC4 = 2;

    // Size of stream blocks when using RC4 encryption
    const REKEY_BLOCK = 0x400;

    /**
     * Summary Information stream data.
     *
     * @var string
     */
    private $summaryInformation;

    /**
     * Extended Summary Information stream data.
     *
     * @var string
     */
    private $documentSummaryInformation;

    /**
     * Workbook stream data. (Includes workbook globals substream as well
as sheet substreams).
     *
     * @var string
     */
    private $data;

    /**
     * Size in bytes of $this->data.
     *
     * @var int
     */
    private $dataSize;

    /**
     * Current position in stream.
     *
     * @var int
     */
    private $pos;

    /**
     * Workbook to be returned by the reader.
     *
     * @var Spreadsheet
     */
    private $spreadsheet;

    /**
     * Worksheet that is currently being built by the reader.
     *
     * @var Worksheet
     */
    private $phpSheet;

    /**
     * BIFF version.
     *
     * @var int
     */
    private $version;

    /**
     * Codepage set in the Excel file being read. Only important for BIFF5
(Excel 5.0 - Excel 95)
     * For BIFF8 (Excel 97 - Excel 2003) this will always have the value
'UTF-16LE'.
     *
     * @var string
     */
    private $codepage;

    /**
     * Shared formats.
     *
     * @var array
     */
    private $formats;

    /**
     * Shared fonts.
     *
     * @var array
     */
    private $objFonts;

    /**
     * Color palette.
     *
     * @var array
     */
    private $palette;

    /**
     * Worksheets.
     *
     * @var array
     */
    private $sheets;

    /**
     * External books.
     *
     * @var array
     */
    private $externalBooks;

    /**
     * REF structures. Only applies to BIFF8.
     *
     * @var array
     */
    private $ref;

    /**
     * External names.
     *
     * @var array
     */
    private $externalNames;

    /**
     * Defined names.
     *
     * @var array
     */
    private $definedname;

    /**
     * Shared strings. Only applies to BIFF8.
     *
     * @var array
     */
    private $sst;

    /**
     * Panes are frozen? (in sheet currently being read). See WINDOW2
record.
     *
     * @var bool
     */
    private $frozen;

    /**
     * Fit printout to number of pages? (in sheet currently being read).
See SHEETPR record.
     *
     * @var bool
     */
    private $isFitToPages;

    /**
     * Objects. One OBJ record contributes with one entry.
     *
     * @var array
     */
    private $objs;

    /**
     * Text Objects. One TXO record corresponds with one entry.
     *
     * @var array
     */
    private $textObjects;

    /**
     * Cell Annotations (BIFF8).
     *
     * @var array
     */
    private $cellNotes;

    /**
     * The combined MSODRAWINGGROUP data.
     *
     * @var string
     */
    private $drawingGroupData;

    /**
     * The combined MSODRAWING data (per sheet).
     *
     * @var string
     */
    private $drawingData;

    /**
     * Keep track of XF index.
     *
     * @var int
     */
    private $xfIndex;

    /**
     * Mapping of XF index (that is a cell XF) to final index in cellXf
collection.
     *
     * @var array
     */
    private $mapCellXfIndex;

    /**
     * Mapping of XF index (that is a style XF) to final index in
cellStyleXf collection.
     *
     * @var array
     */
    private $mapCellStyleXfIndex;

    /**
     * The shared formulas in a sheet. One SHAREDFMLA record contributes
with one value.
     *
     * @var array
     */
    private $sharedFormulas;

    /**
     * The shared formula parts in a sheet. One FORMULA record contributes
with one value if it
     * refers to a shared formula.
     *
     * @var array
     */
    private $sharedFormulaParts;

    /**
     * The type of encryption in use.
     *
     * @var int
     */
    private $encryption = 0;

    /**
     * The position in the stream after which contents are encrypted.
     *
     * @var int
     */
    private $encryptionStartPos = false;

    /**
     * The current RC4 decryption object.
     *
     * @var Xls\RC4
     */
    private $rc4Key;

    /**
     * The position in the stream that the RC4 decryption object was left
at.
     *
     * @var int
     */
    private $rc4Pos = 0;

    /**
     * The current MD5 context state.
     *
     * @var string
     */
    private $md5Ctxt;

    /**
     * @var int
     */
    private $textObjRef;

    /**
     * @var string
     */
    private $baseCell;

    /**
     * Create a new Xls Reader instance.
     */
    public function __construct()
    {
        parent::__construct();
    }

    /**
     * Can the current IReader read the file?
     *
     * @param string $pFilename
     *
     * @return bool
     */
    public function canRead($pFilename)
    {
        File::assertFile($pFilename);

        try {
            // Use ParseXL for the hard work.
            $ole = new OLERead();

            // get excel data
            $ole->read($pFilename);

            return true;
        } catch (PhpSpreadsheetException $e) {
            return false;
        }
    }

    /**
     * Reads names of the worksheets from a file, without parsing the whole
file to a PhpSpreadsheet object.
     *
     * @param string $pFilename
     *
     * @throws Exception
     *
     * @return array
     */
    public function listWorksheetNames($pFilename)
    {
        File::assertFile($pFilename);

        $worksheetNames = [];

        // Read the OLE file
        $this->loadOLE($pFilename);

        // total byte size of Excel data (workbook global substream + sheet
substreams)
        $this->dataSize = strlen($this->data);

        $this->pos = 0;
        $this->sheets = [];

        // Parse Workbook Global Substream
        while ($this->pos < $this->dataSize) {
            $code = self::getUInt2d($this->data, $this->pos);

            switch ($code) {
                case self::XLS_TYPE_BOF:
                    $this->readBof();

                    break;
                case self::XLS_TYPE_SHEET:
                    $this->readSheet();

                    break;
                case self::XLS_TYPE_EOF:
                    $this->readDefault();

                    break 2;
                default:
                    $this->readDefault();

                    break;
            }
        }

        foreach ($this->sheets as $sheet) {
            if ($sheet['sheetType'] != 0x00) {
                // 0x00: Worksheet, 0x02: Chart, 0x06: Visual Basic module
                continue;
            }

            $worksheetNames[] = $sheet['name'];
        }

        return $worksheetNames;
    }

    /**
     * Return worksheet info (Name, Last Column Letter, Last Column Index,
Total Rows, Total Columns).
     *
     * @param string $pFilename
     *
     * @throws Exception
     *
     * @return array
     */
    public function listWorksheetInfo($pFilename)
    {
        File::assertFile($pFilename);

        $worksheetInfo = [];

        // Read the OLE file
        $this->loadOLE($pFilename);

        // total byte size of Excel data (workbook global substream + sheet
substreams)
        $this->dataSize = strlen($this->data);

        // initialize
        $this->pos = 0;
        $this->sheets = [];

        // Parse Workbook Global Substream
        while ($this->pos < $this->dataSize) {
            $code = self::getUInt2d($this->data, $this->pos);

            switch ($code) {
                case self::XLS_TYPE_BOF:
                    $this->readBof();

                    break;
                case self::XLS_TYPE_SHEET:
                    $this->readSheet();

                    break;
                case self::XLS_TYPE_EOF:
                    $this->readDefault();

                    break 2;
                default:
                    $this->readDefault();

                    break;
            }
        }

        // Parse the individual sheets
        foreach ($this->sheets as $sheet) {
            if ($sheet['sheetType'] != 0x00) {
                // 0x00: Worksheet
                // 0x02: Chart
                // 0x06: Visual Basic module
                continue;
            }

            $tmpInfo = [];
            $tmpInfo['worksheetName'] = $sheet['name'];
            $tmpInfo['lastColumnLetter'] = 'A';
            $tmpInfo['lastColumnIndex'] = 0;
            $tmpInfo['totalRows'] = 0;
            $tmpInfo['totalColumns'] = 0;

            $this->pos = $sheet['offset'];

            while ($this->pos <= $this->dataSize - 4) {
                $code = self::getUInt2d($this->data, $this->pos);

                switch ($code) {
                    case self::XLS_TYPE_RK:
                    case self::XLS_TYPE_LABELSST:
                    case self::XLS_TYPE_NUMBER:
                    case self::XLS_TYPE_FORMULA:
                    case self::XLS_TYPE_BOOLERR:
                    case self::XLS_TYPE_LABEL:
                        $length = self::getUInt2d($this->data,
$this->pos + 2);
                        $recordData =
$this->readRecordData($this->data, $this->pos + 4, $length);

                        // move stream pointer to next record
                        $this->pos += 4 + $length;

                        $rowIndex = self::getUInt2d($recordData, 0) + 1;
                        $columnIndex = self::getUInt2d($recordData, 2);

                        $tmpInfo['totalRows'] =
max($tmpInfo['totalRows'], $rowIndex);
                        $tmpInfo['lastColumnIndex'] =
max($tmpInfo['lastColumnIndex'], $columnIndex);

                        break;
                    case self::XLS_TYPE_BOF:
                        $this->readBof();

                        break;
                    case self::XLS_TYPE_EOF:
                        $this->readDefault();

                        break 2;
                    default:
                        $this->readDefault();

                        break;
                }
            }

            $tmpInfo['lastColumnLetter'] =
Coordinate::stringFromColumnIndex($tmpInfo['lastColumnIndex'] +
1);
            $tmpInfo['totalColumns'] =
$tmpInfo['lastColumnIndex'] + 1;

            $worksheetInfo[] = $tmpInfo;
        }

        return $worksheetInfo;
    }

    /**
     * Loads PhpSpreadsheet from file.
     *
     * @param string $pFilename
     *
     * @throws Exception
     *
     * @return Spreadsheet
     */
    public function load($pFilename)
    {
        // Read the OLE file
        $this->loadOLE($pFilename);

        // Initialisations
        $this->spreadsheet = new Spreadsheet();
        $this->spreadsheet->removeSheetByIndex(0); // remove 1st
sheet
        if (!$this->readDataOnly) {
            $this->spreadsheet->removeCellStyleXfByIndex(0); //
remove the default style
            $this->spreadsheet->removeCellXfByIndex(0); // remove the
default style
        }

        // Read the summary information stream (containing meta data)
        $this->readSummaryInformation();

        // Read the Additional document summary information stream
(containing application-specific meta data)
        $this->readDocumentSummaryInformation();

        // total byte size of Excel data (workbook global substream + sheet
substreams)
        $this->dataSize = strlen($this->data);

        // initialize
        $this->pos = 0;
        $this->codepage = 'CP1252';
        $this->formats = [];
        $this->objFonts = [];
        $this->palette = [];
        $this->sheets = [];
        $this->externalBooks = [];
        $this->ref = [];
        $this->definedname = [];
        $this->sst = [];
        $this->drawingGroupData = '';
        $this->xfIndex = '';
        $this->mapCellXfIndex = [];
        $this->mapCellStyleXfIndex = [];

        // Parse Workbook Global Substream
        while ($this->pos < $this->dataSize) {
            $code = self::getUInt2d($this->data, $this->pos);

            switch ($code) {
                case self::XLS_TYPE_BOF:
                    $this->readBof();

                    break;
                case self::XLS_TYPE_FILEPASS:
                    $this->readFilepass();

                    break;
                case self::XLS_TYPE_CODEPAGE:
                    $this->readCodepage();

                    break;
                case self::XLS_TYPE_DATEMODE:
                    $this->readDateMode();

                    break;
                case self::XLS_TYPE_FONT:
                    $this->readFont();

                    break;
                case self::XLS_TYPE_FORMAT:
                    $this->readFormat();

                    break;
                case self::XLS_TYPE_XF:
                    $this->readXf();

                    break;
                case self::XLS_TYPE_XFEXT:
                    $this->readXfExt();

                    break;
                case self::XLS_TYPE_STYLE:
                    $this->readStyle();

                    break;
                case self::XLS_TYPE_PALETTE:
                    $this->readPalette();

                    break;
                case self::XLS_TYPE_SHEET:
                    $this->readSheet();

                    break;
                case self::XLS_TYPE_EXTERNALBOOK:
                    $this->readExternalBook();

                    break;
                case self::XLS_TYPE_EXTERNNAME:
                    $this->readExternName();

                    break;
                case self::XLS_TYPE_EXTERNSHEET:
                    $this->readExternSheet();

                    break;
                case self::XLS_TYPE_DEFINEDNAME:
                    $this->readDefinedName();

                    break;
                case self::XLS_TYPE_MSODRAWINGGROUP:
                    $this->readMsoDrawingGroup();

                    break;
                case self::XLS_TYPE_SST:
                    $this->readSst();

                    break;
                case self::XLS_TYPE_EOF:
                    $this->readDefault();

                    break 2;
                default:
                    $this->readDefault();

                    break;
            }
        }

        // Resolve indexed colors for font, fill, and border colors
        // Cannot be resolved already in XF record, because PALETTE record
comes afterwards
        if (!$this->readDataOnly) {
            foreach ($this->objFonts as $objFont) {
                if (isset($objFont->colorIndex)) {
                    $color = Xls\Color::map($objFont->colorIndex,
$this->palette, $this->version);
                   
$objFont->getColor()->setRGB($color['rgb']);
                }
            }

            foreach ($this->spreadsheet->getCellXfCollection() as
$objStyle) {
                // fill start and end color
                $fill = $objStyle->getFill();

                if (isset($fill->startcolorIndex)) {
                    $startColor = Xls\Color::map($fill->startcolorIndex,
$this->palette, $this->version);
                   
$fill->getStartColor()->setRGB($startColor['rgb']);
                }
                if (isset($fill->endcolorIndex)) {
                    $endColor = Xls\Color::map($fill->endcolorIndex,
$this->palette, $this->version);
                   
$fill->getEndColor()->setRGB($endColor['rgb']);
                }

                // border colors
                $top = $objStyle->getBorders()->getTop();
                $right = $objStyle->getBorders()->getRight();
                $bottom = $objStyle->getBorders()->getBottom();
                $left = $objStyle->getBorders()->getLeft();
                $diagonal = $objStyle->getBorders()->getDiagonal();

                if (isset($top->colorIndex)) {
                    $borderTopColor = Xls\Color::map($top->colorIndex,
$this->palette, $this->version);
                   
$top->getColor()->setRGB($borderTopColor['rgb']);
                }
                if (isset($right->colorIndex)) {
                    $borderRightColor =
Xls\Color::map($right->colorIndex, $this->palette,
$this->version);
                   
$right->getColor()->setRGB($borderRightColor['rgb']);
                }
                if (isset($bottom->colorIndex)) {
                    $borderBottomColor =
Xls\Color::map($bottom->colorIndex, $this->palette,
$this->version);
                   
$bottom->getColor()->setRGB($borderBottomColor['rgb']);
                }
                if (isset($left->colorIndex)) {
                    $borderLeftColor = Xls\Color::map($left->colorIndex,
$this->palette, $this->version);
                   
$left->getColor()->setRGB($borderLeftColor['rgb']);
                }
                if (isset($diagonal->colorIndex)) {
                    $borderDiagonalColor =
Xls\Color::map($diagonal->colorIndex, $this->palette,
$this->version);
                   
$diagonal->getColor()->setRGB($borderDiagonalColor['rgb']);
                }
            }
        }

        // treat MSODRAWINGGROUP records, workbook-level Escher
        if (!$this->readDataOnly && $this->drawingGroupData)
{
            $escherWorkbook = new Escher();
            $reader = new Xls\Escher($escherWorkbook);
            $escherWorkbook = $reader->load($this->drawingGroupData);
        }

        // Parse the individual sheets
        foreach ($this->sheets as $sheet) {
            if ($sheet['sheetType'] != 0x00) {
                // 0x00: Worksheet, 0x02: Chart, 0x06: Visual Basic module
                continue;
            }

            // check if sheet should be skipped
            if (isset($this->loadSheetsOnly) &&
!in_array($sheet['name'], $this->loadSheetsOnly)) {
                continue;
            }

            // add sheet to PhpSpreadsheet object
            $this->phpSheet = $this->spreadsheet->createSheet();
            //    Use false for $updateFormulaCellReferences to prevent
adjustment of worksheet references in formula
            //        cells... during the load, all formulae should be
correct, and we're simply bringing the worksheet
            //        name in line with the formula, not the reverse
            $this->phpSheet->setTitle($sheet['name'],
false, false);
           
$this->phpSheet->setSheetState($sheet['sheetState']);

            $this->pos = $sheet['offset'];

            // Initialize isFitToPages. May change after reading SHEETPR
record.
            $this->isFitToPages = false;

            // Initialize drawingData
            $this->drawingData = '';

            // Initialize objs
            $this->objs = [];

            // Initialize shared formula parts
            $this->sharedFormulaParts = [];

            // Initialize shared formulas
            $this->sharedFormulas = [];

            // Initialize text objs
            $this->textObjects = [];

            // Initialize cell annotations
            $this->cellNotes = [];
            $this->textObjRef = -1;

            while ($this->pos <= $this->dataSize - 4) {
                $code = self::getUInt2d($this->data, $this->pos);

                switch ($code) {
                    case self::XLS_TYPE_BOF:
                        $this->readBof();

                        break;
                    case self::XLS_TYPE_PRINTGRIDLINES:
                        $this->readPrintGridlines();

                        break;
                    case self::XLS_TYPE_DEFAULTROWHEIGHT:
                        $this->readDefaultRowHeight();

                        break;
                    case self::XLS_TYPE_SHEETPR:
                        $this->readSheetPr();

                        break;
                    case self::XLS_TYPE_HORIZONTALPAGEBREAKS:
                        $this->readHorizontalPageBreaks();

                        break;
                    case self::XLS_TYPE_VERTICALPAGEBREAKS:
                        $this->readVerticalPageBreaks();

                        break;
                    case self::XLS_TYPE_HEADER:
                        $this->readHeader();

                        break;
                    case self::XLS_TYPE_FOOTER:
                        $this->readFooter();

                        break;
                    case self::XLS_TYPE_HCENTER:
                        $this->readHcenter();

                        break;
                    case self::XLS_TYPE_VCENTER:
                        $this->readVcenter();

                        break;
                    case self::XLS_TYPE_LEFTMARGIN:
                        $this->readLeftMargin();

                        break;
                    case self::XLS_TYPE_RIGHTMARGIN:
                        $this->readRightMargin();

                        break;
                    case self::XLS_TYPE_TOPMARGIN:
                        $this->readTopMargin();

                        break;
                    case self::XLS_TYPE_BOTTOMMARGIN:
                        $this->readBottomMargin();

                        break;
                    case self::XLS_TYPE_PAGESETUP:
                        $this->readPageSetup();

                        break;
                    case self::XLS_TYPE_PROTECT:
                        $this->readProtect();

                        break;
                    case self::XLS_TYPE_SCENPROTECT:
                        $this->readScenProtect();

                        break;
                    case self::XLS_TYPE_OBJECTPROTECT:
                        $this->readObjectProtect();

                        break;
                    case self::XLS_TYPE_PASSWORD:
                        $this->readPassword();

                        break;
                    case self::XLS_TYPE_DEFCOLWIDTH:
                        $this->readDefColWidth();

                        break;
                    case self::XLS_TYPE_COLINFO:
                        $this->readColInfo();

                        break;
                    case self::XLS_TYPE_DIMENSION:
                        $this->readDefault();

                        break;
                    case self::XLS_TYPE_ROW:
                        $this->readRow();

                        break;
                    case self::XLS_TYPE_DBCELL:
                        $this->readDefault();

                        break;
                    case self::XLS_TYPE_RK:
                        $this->readRk();

                        break;
                    case self::XLS_TYPE_LABELSST:
                        $this->readLabelSst();

                        break;
                    case self::XLS_TYPE_MULRK:
                        $this->readMulRk();

                        break;
                    case self::XLS_TYPE_NUMBER:
                        $this->readNumber();

                        break;
                    case self::XLS_TYPE_FORMULA:
                        $this->readFormula();

                        break;
                    case self::XLS_TYPE_SHAREDFMLA:
                        $this->readSharedFmla();

                        break;
                    case self::XLS_TYPE_BOOLERR:
                        $this->readBoolErr();

                        break;
                    case self::XLS_TYPE_MULBLANK:
                        $this->readMulBlank();

                        break;
                    case self::XLS_TYPE_LABEL:
                        $this->readLabel();

                        break;
                    case self::XLS_TYPE_BLANK:
                        $this->readBlank();

                        break;
                    case self::XLS_TYPE_MSODRAWING:
                        $this->readMsoDrawing();

                        break;
                    case self::XLS_TYPE_OBJ:
                        $this->readObj();

                        break;
                    case self::XLS_TYPE_WINDOW2:
                        $this->readWindow2();

                        break;
                    case self::XLS_TYPE_PAGELAYOUTVIEW:
                        $this->readPageLayoutView();

                        break;
                    case self::XLS_TYPE_SCL:
                        $this->readScl();

                        break;
                    case self::XLS_TYPE_PANE:
                        $this->readPane();

                        break;
                    case self::XLS_TYPE_SELECTION:
                        $this->readSelection();

                        break;
                    case self::XLS_TYPE_MERGEDCELLS:
                        $this->readMergedCells();

                        break;
                    case self::XLS_TYPE_HYPERLINK:
                        $this->readHyperLink();

                        break;
                    case self::XLS_TYPE_DATAVALIDATIONS:
                        $this->readDataValidations();

                        break;
                    case self::XLS_TYPE_DATAVALIDATION:
                        $this->readDataValidation();

                        break;
                    case self::XLS_TYPE_SHEETLAYOUT:
                        $this->readSheetLayout();

                        break;
                    case self::XLS_TYPE_SHEETPROTECTION:
                        $this->readSheetProtection();

                        break;
                    case self::XLS_TYPE_RANGEPROTECTION:
                        $this->readRangeProtection();

                        break;
                    case self::XLS_TYPE_NOTE:
                        $this->readNote();

                        break;
                    case self::XLS_TYPE_TXO:
                        $this->readTextObject();

                        break;
                    case self::XLS_TYPE_CONTINUE:
                        $this->readContinue();

                        break;
                    case self::XLS_TYPE_EOF:
                        $this->readDefault();

                        break 2;
                    default:
                        $this->readDefault();

                        break;
                }
            }

            // treat MSODRAWING records, sheet-level Escher
            if (!$this->readDataOnly && $this->drawingData) {
                $escherWorksheet = new Escher();
                $reader = new Xls\Escher($escherWorksheet);
                $escherWorksheet = $reader->load($this->drawingData);

                // get all spContainers in one long array, so they can be
mapped to OBJ records
                $allSpContainers =
$escherWorksheet->getDgContainer()->getSpgrContainer()->getAllSpContainers();
            }

            // treat OBJ records
            foreach ($this->objs as $n => $obj) {
                // the first shape container never has a corresponding OBJ
record, hence $n + 1
                if (isset($allSpContainers[$n + 1]) &&
is_object($allSpContainers[$n + 1])) {
                    $spContainer = $allSpContainers[$n + 1];

                    // we skip all spContainers that are a part of a group
shape since we cannot yet handle those
                    if ($spContainer->getNestingLevel() > 1) {
                        continue;
                    }

                    // calculate the width and height of the shape
                    [$startColumn, $startRow] =
Coordinate::coordinateFromString($spContainer->getStartCoordinates());
                    [$endColumn, $endRow] =
Coordinate::coordinateFromString($spContainer->getEndCoordinates());

                    $startOffsetX = $spContainer->getStartOffsetX();
                    $startOffsetY = $spContainer->getStartOffsetY();
                    $endOffsetX = $spContainer->getEndOffsetX();
                    $endOffsetY = $spContainer->getEndOffsetY();

                    $width =
\PhpOffice\PhpSpreadsheet\Shared\Xls::getDistanceX($this->phpSheet,
$startColumn, $startOffsetX, $endColumn, $endOffsetX);
                    $height =
\PhpOffice\PhpSpreadsheet\Shared\Xls::getDistanceY($this->phpSheet,
$startRow, $startOffsetY, $endRow, $endOffsetY);

                    // calculate offsetX and offsetY of the shape
                    $offsetX = $startOffsetX *
\PhpOffice\PhpSpreadsheet\Shared\Xls::sizeCol($this->phpSheet,
$startColumn) / 1024;
                    $offsetY = $startOffsetY *
\PhpOffice\PhpSpreadsheet\Shared\Xls::sizeRow($this->phpSheet,
$startRow) / 256;

                    switch ($obj['otObjType']) {
                        case 0x19:
                            // Note
                            if
(isset($this->cellNotes[$obj['idObjID']])) {
                                $cellNote =
$this->cellNotes[$obj['idObjID']];

                                if
(isset($this->textObjects[$obj['idObjID']])) {
                                    $textObject =
$this->textObjects[$obj['idObjID']];
                                   
$this->cellNotes[$obj['idObjID']]['objTextData'] =
$textObject;
                                }
                            }

                            break;
                        case 0x08:
                            // picture
                            // get index to BSE entry (1-based)
                            $BSEindex = $spContainer->getOPT(0x0104);

                            // If there is no BSE Index, we will fail here
and other fields are not read.
                            // Fix by checking here.
                            // TODO: Why is there no BSE Index? Is this a
new Office Version? Password protected field?
                            // More likely : a uncompatible picture
                            if (!$BSEindex) {
                                continue 2;
                            }

                            $BSECollection =
$escherWorkbook->getDggContainer()->getBstoreContainer()->getBSECollection();
                            $BSE = $BSECollection[$BSEindex - 1];
                            $blipType = $BSE->getBlipType();

                            // need check because some blip types are not
supported by Escher reader such as EMF
                            if ($blip = $BSE->getBlip()) {
                                $ih =
imagecreatefromstring($blip->getData());
                                $drawing = new MemoryDrawing();
                                $drawing->setImageResource($ih);

                                // width, height, offsetX, offsetY
                                $drawing->setResizeProportional(false);
                                $drawing->setWidth($width);
                                $drawing->setHeight($height);
                                $drawing->setOffsetX($offsetX);
                                $drawing->setOffsetY($offsetY);

                                switch ($blipType) {
                                    case BSE::BLIPTYPE_JPEG:
                                       
$drawing->setRenderingFunction(MemoryDrawing::RENDERING_JPEG);
                                       
$drawing->setMimeType(MemoryDrawing::MIMETYPE_JPEG);

                                        break;
                                    case BSE::BLIPTYPE_PNG:
                                       
$drawing->setRenderingFunction(MemoryDrawing::RENDERING_PNG);
                                       
$drawing->setMimeType(MemoryDrawing::MIMETYPE_PNG);

                                        break;
                                }

                               
$drawing->setWorksheet($this->phpSheet);
                               
$drawing->setCoordinates($spContainer->getStartCoordinates());
                            }

                            break;
                        default:
                            // other object type
                            break;
                    }
                }
            }

            // treat SHAREDFMLA records
            if ($this->version == self::XLS_BIFF8) {
                foreach ($this->sharedFormulaParts as $cell =>
$baseCell) {
                    [$column, $row] =
Coordinate::coordinateFromString($cell);
                    if (($this->getReadFilter() !== null) &&
$this->getReadFilter()->readCell($column, $row,
$this->phpSheet->getTitle())) {
                        $formula =
$this->getFormulaFromStructure($this->sharedFormulas[$baseCell],
$cell);
                       
$this->phpSheet->getCell($cell)->setValueExplicit('=' .
$formula, DataType::TYPE_FORMULA);
                    }
                }
            }

            if (!empty($this->cellNotes)) {
                foreach ($this->cellNotes as $note => $noteDetails) {
                    if (!isset($noteDetails['objTextData'])) {
                        if (isset($this->textObjects[$note])) {
                            $textObject = $this->textObjects[$note];
                            $noteDetails['objTextData'] =
$textObject;
                        } else {
                           
$noteDetails['objTextData']['text'] = '';
                        }
                    }
                    $cellAddress = str_replace('$', '',
$noteDetails['cellRef']);
                   
$this->phpSheet->getComment($cellAddress)->setAuthor($noteDetails['author'])->setText($this->parseRichText($noteDetails['objTextData']['text']));
                }
            }
        }

        // add the named ranges (defined names)
        foreach ($this->definedname as $definedName) {
            if ($definedName['isBuiltInName']) {
                switch ($definedName['name']) {
                    case pack('C', 0x06):
                        // print area
                        //    in general, formula looks like this:
Foo!$C$7:$J$66,Bar!$A$1:$IV$2
                        $ranges = explode(',',
$definedName['formula']); // FIXME: what if sheetname contains
comma?

                        $extractedRanges = [];
                        foreach ($ranges as $range) {
                            // $range should look like one of these
                            //        Foo!$C$7:$J$66
                            //        Bar!$A$1:$IV$2
                            $explodes =
Worksheet::extractSheetTitle($range, true);
                            $sheetName = trim($explodes[0],
"'");
                            if (count($explodes) == 2) {
                                if (strpos($explodes[1], ':') ===
false) {
                                    $explodes[1] = $explodes[1] .
':' . $explodes[1];
                                }
                                $extractedRanges[] =
str_replace('$', '', $explodes[1]); // C7:J66
                            }
                        }
                        if ($docSheet =
$this->spreadsheet->getSheetByName($sheetName)) {
                           
$docSheet->getPageSetup()->setPrintArea(implode(',',
$extractedRanges)); // C7:J66,A1:IV2
                        }

                        break;
                    case pack('C', 0x07):
                        // print titles (repeating rows)
                        // Assuming BIFF8, there are 3 cases
                        // 1. repeating rows
                        //        formula looks like this: Sheet!$A$1:$IV$2
                        //        rows 1-2 repeat
                        // 2. repeating columns
                        //        formula looks like this:
Sheet!$A$1:$B$65536
                        //        columns A-B repeat
                        // 3. both repeating rows and repeating columns
                        //        formula looks like this:
Sheet!$A$1:$B$65536,Sheet!$A$1:$IV$2
                        $ranges = explode(',',
$definedName['formula']); // FIXME: what if sheetname contains
comma?
                        foreach ($ranges as $range) {
                            // $range should look like this one of these
                            //        Sheet!$A$1:$B$65536
                            //        Sheet!$A$1:$IV$2
                            if (strpos($range, '!') !== false) {
                                $explodes =
Worksheet::extractSheetTitle($range, true);
                                if ($docSheet =
$this->spreadsheet->getSheetByName($explodes[0])) {
                                    $extractedRange = $explodes[1];
                                    $extractedRange =
str_replace('$', '', $extractedRange);

                                    $coordinateStrings =
explode(':', $extractedRange);
                                    if (count($coordinateStrings) == 2) {
                                        [$firstColumn, $firstRow] =
Coordinate::coordinateFromString($coordinateStrings[0]);
                                        [$lastColumn, $lastRow] =
Coordinate::coordinateFromString($coordinateStrings[1]);

                                        if ($firstColumn == 'A'
and $lastColumn == 'IV') {
                                            // then we have repeating rows
                                           
$docSheet->getPageSetup()->setRowsToRepeatAtTop([$firstRow,
$lastRow]);
                                        } elseif ($firstRow == 1 and
$lastRow == 65536) {
                                            // then we have repeating
columns
                                           
$docSheet->getPageSetup()->setColumnsToRepeatAtLeft([$firstColumn,
$lastColumn]);
                                        }
                                    }
                                }
                            }
                        }

                        break;
                }
            } else {
                // Extract range
                if (strpos($definedName['formula'],
'!') !== false) {
                    $explodes =
Worksheet::extractSheetTitle($definedName['formula'], true);
                    if (($docSheet =
$this->spreadsheet->getSheetByName($explodes[0])) ||
                        ($docSheet =
$this->spreadsheet->getSheetByName(trim($explodes[0],
"'")))) {
                        $extractedRange = $explodes[1];
                        $extractedRange = str_replace('$',
'', $extractedRange);

                        $localOnly = ($definedName['scope'] == 0)
? false : true;

                        $scope = ($definedName['scope'] == 0) ?
null :
$this->spreadsheet->getSheetByName($this->sheets[$definedName['scope']
- 1]['name']);

                        $this->spreadsheet->addNamedRange(new
NamedRange((string) $definedName['name'], $docSheet,
$extractedRange, $localOnly, $scope));
                    }
                }
                //    Named Value
                    //    TODO Provide support for named values
            }
        }
        $this->data = null;

        return $this->spreadsheet;
    }

    /**
     * Read record data from stream, decrypting as required.
     *
     * @param string $data Data stream to read from
     * @param int $pos Position to start reading from
     * @param int $len Record data length
     *
     * @return string Record data
     */
    private function readRecordData($data, $pos, $len)
    {
        $data = substr($data, $pos, $len);

        // File not encrypted, or record before encryption start point
        if ($this->encryption == self::MS_BIFF_CRYPTO_NONE || $pos <
$this->encryptionStartPos) {
            return $data;
        }

        $recordData = '';
        if ($this->encryption == self::MS_BIFF_CRYPTO_RC4) {
            $oldBlock = floor($this->rc4Pos / self::REKEY_BLOCK);
            $block = floor($pos / self::REKEY_BLOCK);
            $endBlock = floor(($pos + $len) / self::REKEY_BLOCK);

            // Spin an RC4 decryptor to the right spot. If we have a
decryptor sitting
            // at a point earlier in the current block, re-use it as we can
save some time.
            if ($block != $oldBlock || $pos < $this->rc4Pos ||
!$this->rc4Key) {
                $this->rc4Key = $this->makeKey($block,
$this->md5Ctxt);
                $step = $pos % self::REKEY_BLOCK;
            } else {
                $step = $pos - $this->rc4Pos;
            }
            $this->rc4Key->RC4(str_repeat("\0", $step));

            // Decrypt record data (re-keying at the end of every block)
            while ($block != $endBlock) {
                $step = self::REKEY_BLOCK - ($pos % self::REKEY_BLOCK);
                $recordData .= $this->rc4Key->RC4(substr($data, 0,
$step));
                $data = substr($data, $step);
                $pos += $step;
                $len -= $step;
                ++$block;
                $this->rc4Key = $this->makeKey($block,
$this->md5Ctxt);
            }
            $recordData .= $this->rc4Key->RC4(substr($data, 0,
$len));

            // Keep track of the position of this decryptor.
            // We'll try and re-use it later if we can to speed things
up
            $this->rc4Pos = $pos + $len;
        } elseif ($this->encryption == self::MS_BIFF_CRYPTO_XOR) {
            throw new Exception('XOr encryption not supported');
        }

        return $recordData;
    }

    /**
     * Use OLE reader to extract the relevant data streams from the OLE
file.
     *
     * @param string $pFilename
     */
    private function loadOLE($pFilename)
    {
        // OLE reader
        $ole = new OLERead();
        // get excel data,
        $ole->read($pFilename);
        // Get workbook data: workbook stream + sheet streams
        $this->data = $ole->getStream($ole->wrkbook);
        // Get summary information data
        $this->summaryInformation =
$ole->getStream($ole->summaryInformation);
        // Get additional document summary information data
        $this->documentSummaryInformation =
$ole->getStream($ole->documentSummaryInformation);
    }

    /**
     * Read summary information.
     */
    private function readSummaryInformation()
    {
        if (!isset($this->summaryInformation)) {
            return;
        }

        // offset: 0; size: 2; must be 0xFE 0xFF (UTF-16 LE byte order
mark)
        // offset: 2; size: 2;
        // offset: 4; size: 2; OS version
        // offset: 6; size: 2; OS indicator
        // offset: 8; size: 16
        // offset: 24; size: 4; section count
        $secCount = self::getInt4d($this->summaryInformation, 24);

        // offset: 28; size: 16; first section's class id: e0 85 9f f2
f9 4f 68 10 ab 91 08 00 2b 27 b3 d9
        // offset: 44; size: 4
        $secOffset = self::getInt4d($this->summaryInformation, 44);

        // section header
        // offset: $secOffset; size: 4; section length
        $secLength = self::getInt4d($this->summaryInformation,
$secOffset);

        // offset: $secOffset+4; size: 4; property count
        $countProperties = self::getInt4d($this->summaryInformation,
$secOffset + 4);

        // initialize code page (used to resolve string values)
        $codePage = 'CP1252';

        // offset: ($secOffset+8); size: var
        // loop through property decarations and properties
        for ($i = 0; $i < $countProperties; ++$i) {
            // offset: ($secOffset+8) + (8 * $i); size: 4; property ID
            $id = self::getInt4d($this->summaryInformation, ($secOffset
+ 8) + (8 * $i));

            // Use value of property id as appropriate
            // offset: ($secOffset+12) + (8 * $i); size: 4; offset from
beginning of section (48)
            $offset = self::getInt4d($this->summaryInformation,
($secOffset + 12) + (8 * $i));

            $type = self::getInt4d($this->summaryInformation, $secOffset
+ $offset);

            // initialize property value
            $value = null;

            // extract property value based on property type
            switch ($type) {
                case 0x02: // 2 byte signed integer
                    $value = self::getUInt2d($this->summaryInformation,
$secOffset + 4 + $offset);

                    break;
                case 0x03: // 4 byte signed integer
                    $value = self::getInt4d($this->summaryInformation,
$secOffset + 4 + $offset);

                    break;
                case 0x13: // 4 byte unsigned integer
                    // not needed yet, fix later if necessary
                    break;
                case 0x1E: // null-terminated string prepended by dword
string length
                    $byteLength =
self::getInt4d($this->summaryInformation, $secOffset + 4 + $offset);
                    $value = substr($this->summaryInformation,
$secOffset + 8 + $offset, $byteLength);
                    $value = StringHelper::convertEncoding($value,
'UTF-8', $codePage);
                    $value = rtrim($value);

                    break;
                case 0x40: // Filetime (64-bit value representing the
number of 100-nanosecond intervals since January 1, 1601)
                    // PHP-time
                    $value =
OLE::OLE2LocalDate(substr($this->summaryInformation, $secOffset + 4 +
$offset, 8));

                    break;
                case 0x47: // Clipboard format
                    // not needed yet, fix later if necessary
                    break;
            }

            switch ($id) {
                case 0x01:    //    Code Page
                    $codePage = CodePage::numberToName($value);

                    break;
                case 0x02:    //    Title
                   
$this->spreadsheet->getProperties()->setTitle($value);

                    break;
                case 0x03:    //    Subject
                   
$this->spreadsheet->getProperties()->setSubject($value);

                    break;
                case 0x04:    //    Author (Creator)
                   
$this->spreadsheet->getProperties()->setCreator($value);

                    break;
                case 0x05:    //    Keywords
                   
$this->spreadsheet->getProperties()->setKeywords($value);

                    break;
                case 0x06:    //    Comments (Description)
                   
$this->spreadsheet->getProperties()->setDescription($value);

                    break;
                case 0x07:    //    Template
                    //    Not supported by PhpSpreadsheet
                    break;
                case 0x08:    //    Last Saved By (LastModifiedBy)
                   
$this->spreadsheet->getProperties()->setLastModifiedBy($value);

                    break;
                case 0x09:    //    Revision
                    //    Not supported by PhpSpreadsheet
                    break;
                case 0x0A:    //    Total Editing Time
                    //    Not supported by PhpSpreadsheet
                    break;
                case 0x0B:    //    Last Printed
                    //    Not supported by PhpSpreadsheet
                    break;
                case 0x0C:    //    Created Date/Time
                   
$this->spreadsheet->getProperties()->setCreated($value);

                    break;
                case 0x0D:    //    Modified Date/Time
                   
$this->spreadsheet->getProperties()->setModified($value);

                    break;
                case 0x0E:    //    Number of Pages
                    //    Not supported by PhpSpreadsheet
                    break;
                case 0x0F:    //    Number of Words
                    //    Not supported by PhpSpreadsheet
                    break;
                case 0x10:    //    Number of Characters
                    //    Not supported by PhpSpreadsheet
                    break;
                case 0x11:    //    Thumbnail
                    //    Not supported by PhpSpreadsheet
                    break;
                case 0x12:    //    Name of creating application
                    //    Not supported by PhpSpreadsheet
                    break;
                case 0x13:    //    Security
                    //    Not supported by PhpSpreadsheet
                    break;
            }
        }
    }

    /**
     * Read additional document summary information.
     */
    private function readDocumentSummaryInformation()
    {
        if (!isset($this->documentSummaryInformation)) {
            return;
        }

        //    offset: 0;    size: 2;    must be 0xFE 0xFF (UTF-16 LE byte
order mark)
        //    offset: 2;    size: 2;
        //    offset: 4;    size: 2;    OS version
        //    offset: 6;    size: 2;    OS indicator
        //    offset: 8;    size: 16
        //    offset: 24;    size: 4;    section count
        $secCount = self::getInt4d($this->documentSummaryInformation,
24);

        // offset: 28;    size: 16;    first section's class id: 02 d5
cd d5 9c 2e 1b 10 93 97 08 00 2b 2c f9 ae
        // offset: 44;    size: 4;    first section offset
        $secOffset = self::getInt4d($this->documentSummaryInformation,
44);

        //    section header
        //    offset: $secOffset;    size: 4;    section length
        $secLength = self::getInt4d($this->documentSummaryInformation,
$secOffset);

        //    offset: $secOffset+4;    size: 4;    property count
        $countProperties =
self::getInt4d($this->documentSummaryInformation, $secOffset + 4);

        // initialize code page (used to resolve string values)
        $codePage = 'CP1252';

        //    offset: ($secOffset+8);    size: var
        //    loop through property decarations and properties
        for ($i = 0; $i < $countProperties; ++$i) {
            //    offset: ($secOffset+8) + (8 * $i);    size: 4;   
property ID
            $id = self::getInt4d($this->documentSummaryInformation,
($secOffset + 8) + (8 * $i));

            // Use value of property id as appropriate
            // offset: 60 + 8 * $i;    size: 4;    offset from beginning of
section (48)
            $offset = self::getInt4d($this->documentSummaryInformation,
($secOffset + 12) + (8 * $i));

            $type = self::getInt4d($this->documentSummaryInformation,
$secOffset + $offset);

            // initialize property value
            $value = null;

            // extract property value based on property type
            switch ($type) {
                case 0x02:    //    2 byte signed integer
                    $value =
self::getUInt2d($this->documentSummaryInformation, $secOffset + 4 +
$offset);

                    break;
                case 0x03:    //    4 byte signed integer
                    $value =
self::getInt4d($this->documentSummaryInformation, $secOffset + 4 +
$offset);

                    break;
                case 0x0B:  // Boolean
                    $value =
self::getUInt2d($this->documentSummaryInformation, $secOffset + 4 +
$offset);
                    $value = ($value == 0 ? false : true);

                    break;
                case 0x13:    //    4 byte unsigned integer
                    // not needed yet, fix later if necessary
                    break;
                case 0x1E:    //    null-terminated string prepended by
dword string length
                    $byteLength =
self::getInt4d($this->documentSummaryInformation, $secOffset + 4 +
$offset);
                    $value = substr($this->documentSummaryInformation,
$secOffset + 8 + $offset, $byteLength);
                    $value = StringHelper::convertEncoding($value,
'UTF-8', $codePage);
                    $value = rtrim($value);

                    break;
                case 0x40:    //    Filetime (64-bit value representing the
number of 100-nanosecond intervals since January 1, 1601)
                    // PHP-Time
                    $value =
OLE::OLE2LocalDate(substr($this->documentSummaryInformation, $secOffset
+ 4 + $offset, 8));

                    break;
                case 0x47:    //    Clipboard format
                    // not needed yet, fix later if necessary
                    break;
            }

            switch ($id) {
                case 0x01:    //    Code Page
                    $codePage = CodePage::numberToName($value);

                    break;
                case 0x02:    //    Category
                   
$this->spreadsheet->getProperties()->setCategory($value);

                    break;
                case 0x03:    //    Presentation Target
                    //    Not supported by PhpSpreadsheet
                    break;
                case 0x04:    //    Bytes
                    //    Not supported by PhpSpreadsheet
                    break;
                case 0x05:    //    Lines
                    //    Not supported by PhpSpreadsheet
                    break;
                case 0x06:    //    Paragraphs
                    //    Not supported by PhpSpreadsheet
                    break;
                case 0x07:    //    Slides
                    //    Not supported by PhpSpreadsheet
                    break;
                case 0x08:    //    Notes
                    //    Not supported by PhpSpreadsheet
                    break;
                case 0x09:    //    Hidden Slides
                    //    Not supported by PhpSpreadsheet
                    break;
                case 0x0A:    //    MM Clips
                    //    Not supported by PhpSpreadsheet
                    break;
                case 0x0B:    //    Scale Crop
                    //    Not supported by PhpSpreadsheet
                    break;
                case 0x0C:    //    Heading Pairs
                    //    Not supported by PhpSpreadsheet
                    break;
                case 0x0D:    //    Titles of Parts
                    //    Not supported by PhpSpreadsheet
                    break;
                case 0x0E:    //    Manager
                   
$this->spreadsheet->getProperties()->setManager($value);

                    break;
                case 0x0F:    //    Company
                   
$this->spreadsheet->getProperties()->setCompany($value);

                    break;
                case 0x10:    //    Links up-to-date
                    //    Not supported by PhpSpreadsheet
                    break;
            }
        }
    }

    /**
     * Reads a general type of BIFF record. Does nothing except for moving
stream pointer forward to next record.
     */
    private function readDefault()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);

        // move stream pointer to next record
        $this->pos += 4 + $length;
    }

    /**
     *    The NOTE record specifies a comment associated with a particular
cell. In Excel 95 (BIFF7) and earlier versions,
     *        this record stores a note (cell note). This feature was
significantly enhanced in Excel 97.
     */
    private function readNote()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        if ($this->readDataOnly) {
            return;
        }

        $cellAddress = $this->readBIFF8CellAddress(substr($recordData,
0, 4));
        if ($this->version == self::XLS_BIFF8) {
            $noteObjID = self::getUInt2d($recordData, 6);
            $noteAuthor = self::readUnicodeStringLong(substr($recordData,
8));
            $noteAuthor = $noteAuthor['value'];
            $this->cellNotes[$noteObjID] = [
                'cellRef' => $cellAddress,
                'objectID' => $noteObjID,
                'author' => $noteAuthor,
            ];
        } else {
            $extension = false;
            if ($cellAddress == '$B$65536') {
                //    If the address row is -1 and the column is 0, (which
translates as $B$65536) then this is a continuation
                //        note from the previous cell annotation.
We're not yet handling this, so annotations longer than the
                //        max 2048 bytes will probably throw a wobbly.
                $row = self::getUInt2d($recordData, 0);
                $extension = true;
                $cellAddress =
array_pop(array_keys($this->phpSheet->getComments()));
            }

            $cellAddress = str_replace('$', '',
$cellAddress);
            $noteLength = self::getUInt2d($recordData, 4);
            $noteText = trim(substr($recordData, 6));

            if ($extension) {
                //    Concatenate this extension with the currently set
comment for the cell
                $comment = $this->phpSheet->getComment($cellAddress);
                $commentText = $comment->getText()->getPlainText();
                $comment->setText($this->parseRichText($commentText .
$noteText));
            } else {
                //    Set comment for the cell
               
$this->phpSheet->getComment($cellAddress)->setText($this->parseRichText($noteText));
//                                                   
->setAuthor($author)
            }
        }
    }

    /**
     * The TEXT Object record contains the text associated with a cell
annotation.
     */
    private function readTextObject()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        if ($this->readDataOnly) {
            return;
        }

        // recordData consists of an array of subrecords looking like this:
        //    grbit: 2 bytes; Option Flags
        //    rot: 2 bytes; rotation
        //    cchText: 2 bytes; length of the text (in the first continue
record)
        //    cbRuns: 2 bytes; length of the formatting (in the second
continue record)
        // followed by the continuation records containing the actual text
and formatting
        $grbitOpts = self::getUInt2d($recordData, 0);
        $rot = self::getUInt2d($recordData, 2);
        $cchText = self::getUInt2d($recordData, 10);
        $cbRuns = self::getUInt2d($recordData, 12);
        $text = $this->getSplicedRecordData();

        $textByte = $text['spliceOffsets'][1] -
$text['spliceOffsets'][0] - 1;
        $textStr = substr($text['recordData'],
$text['spliceOffsets'][0] + 1, $textByte);
        // get 1 byte
        $is16Bit = ord($text['recordData'][0]);
        // it is possible to use a compressed format,
        // which omits the high bytes of all characters, if they are all
zero
        if (($is16Bit & 0x01) === 0) {
            $textStr = StringHelper::ConvertEncoding($textStr,
'UTF-8', 'ISO-8859-1');
        } else {
            $textStr = $this->decodeCodepage($textStr);
        }

        $this->textObjects[$this->textObjRef] = [
            'text' => $textStr,
            'format' => substr($text['recordData'],
$text['spliceOffsets'][1], $cbRuns),
            'alignment' => $grbitOpts,
            'rotation' => $rot,
        ];
    }

    /**
     * Read BOF.
     */
    private function readBof()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = substr($this->data, $this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        // offset: 2; size: 2; type of the following data
        $substreamType = self::getUInt2d($recordData, 2);

        switch ($substreamType) {
            case self::XLS_WORKBOOKGLOBALS:
                $version = self::getUInt2d($recordData, 0);
                if (($version != self::XLS_BIFF8) && ($version !=
self::XLS_BIFF7)) {
                    throw new Exception('Cannot read this Excel file.
Version is too old.');
                }
                $this->version = $version;

                break;
            case self::XLS_WORKSHEET:
                // do not use this version information for anything
                // it is unreliable (OpenOffice doc, 5.8), use only version
information from the global stream
                break;
            default:
                // substream, e.g. chart
                // just skip the entire substream
                do {
                    $code = self::getUInt2d($this->data, $this->pos);
                    $this->readDefault();
                } while ($code != self::XLS_TYPE_EOF &&
$this->pos < $this->dataSize);

                break;
        }
    }

    /**
     * FILEPASS.
     *
     * This record is part of the File Protection Block. It
     * contains information about the read/write password of the
     * file. All record contents following this record will be
     * encrypted.
     *
     * --    "OpenOffice.org's Documentation of the Microsoft
     *         Excel File Format"
     *
     * The decryption functions and objects used from here on in
     * are based on the source of Spreadsheet-ParseExcel:
     * https://metacpan.org/release/Spreadsheet-ParseExcel
     */
    private function readFilepass()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);

        if ($length != 54) {
            throw new Exception('Unexpected file pass record
length');
        }

        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        if (!$this->verifyPassword('VelvetSweatshop',
substr($recordData, 6, 16), substr($recordData, 22, 16),
substr($recordData, 38, 16), $this->md5Ctxt)) {
            throw new Exception('Decryption password incorrect');
        }

        $this->encryption = self::MS_BIFF_CRYPTO_RC4;

        // Decryption required from the record after next onwards
        $this->encryptionStartPos = $this->pos +
self::getUInt2d($this->data, $this->pos + 2);
    }

    /**
     * Make an RC4 decryptor for the given block.
     *
     * @param int $block Block for which to create decrypto
     * @param string $valContext MD5 context state
     *
     * @return Xls\RC4
     */
    private function makeKey($block, $valContext)
    {
        $pwarray = str_repeat("\0", 64);

        for ($i = 0; $i < 5; ++$i) {
            $pwarray[$i] = $valContext[$i];
        }

        $pwarray[5] = chr($block & 0xff);
        $pwarray[6] = chr(($block >> 8) & 0xff);
        $pwarray[7] = chr(($block >> 16) & 0xff);
        $pwarray[8] = chr(($block >> 24) & 0xff);

        $pwarray[9] = "\x80";
        $pwarray[56] = "\x48";

        $md5 = new Xls\MD5();
        $md5->add($pwarray);

        $s = $md5->getContext();

        return new Xls\RC4($s);
    }

    /**
     * Verify RC4 file password.
     *
     * @param string $password Password to check
     * @param string $docid Document id
     * @param string $salt_data Salt data
     * @param string $hashedsalt_data Hashed salt data
     * @param string $valContext Set to the MD5 context of the value
     *
     * @return bool Success
     */
    private function verifyPassword($password, $docid, $salt_data,
$hashedsalt_data, &$valContext)
    {
        $pwarray = str_repeat("\0", 64);

        $iMax = strlen($password);
        for ($i = 0; $i < $iMax; ++$i) {
            $o = ord(substr($password, $i, 1));
            $pwarray[2 * $i] = chr($o & 0xff);
            $pwarray[2 * $i + 1] = chr(($o >> 8) & 0xff);
        }
        $pwarray[2 * $i] = chr(0x80);
        $pwarray[56] = chr(($i << 4) & 0xff);

        $md5 = new Xls\MD5();
        $md5->add($pwarray);

        $mdContext1 = $md5->getContext();

        $offset = 0;
        $keyoffset = 0;
        $tocopy = 5;

        $md5->reset();

        while ($offset != 16) {
            if ((64 - $offset) < 5) {
                $tocopy = 64 - $offset;
            }
            for ($i = 0; $i <= $tocopy; ++$i) {
                $pwarray[$offset + $i] = $mdContext1[$keyoffset + $i];
            }
            $offset += $tocopy;

            if ($offset == 64) {
                $md5->add($pwarray);
                $keyoffset = $tocopy;
                $tocopy = 5 - $tocopy;
                $offset = 0;

                continue;
            }

            $keyoffset = 0;
            $tocopy = 5;
            for ($i = 0; $i < 16; ++$i) {
                $pwarray[$offset + $i] = $docid[$i];
            }
            $offset += 16;
        }

        $pwarray[16] = "\x80";
        for ($i = 0; $i < 47; ++$i) {
            $pwarray[17 + $i] = "\0";
        }
        $pwarray[56] = "\x80";
        $pwarray[57] = "\x0a";

        $md5->add($pwarray);
        $valContext = $md5->getContext();

        $key = $this->makeKey(0, $valContext);

        $salt = $key->RC4($salt_data);
        $hashedsalt = $key->RC4($hashedsalt_data);

        $salt .= "\x80" . str_repeat("\0", 47);
        $salt[56] = "\x80";

        $md5->reset();
        $md5->add($salt);
        $mdContext2 = $md5->getContext();

        return $mdContext2 == $hashedsalt;
    }

    /**
     * CODEPAGE.
     *
     * This record stores the text encoding used to write byte
     * strings, stored as MS Windows code page identifier.
     *
     * --    "OpenOffice.org's Documentation of the Microsoft
     *         Excel File Format"
     */
    private function readCodepage()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        // offset: 0; size: 2; code page identifier
        $codepage = self::getUInt2d($recordData, 0);

        $this->codepage = CodePage::numberToName($codepage);
    }

    /**
     * DATEMODE.
     *
     * This record specifies the base date for displaying date
     * values. All dates are stored as count of days past this
     * base date. In BIFF2-BIFF4 this record is part of the
     * Calculation Settings Block. In BIFF5-BIFF8 it is
     * stored in the Workbook Globals Substream.
     *
     * --    "OpenOffice.org's Documentation of the Microsoft
     *         Excel File Format"
     */
    private function readDateMode()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        // offset: 0; size: 2; 0 = base 1900, 1 = base 1904
        Date::setExcelCalendar(Date::CALENDAR_WINDOWS_1900);
        if (ord($recordData[0]) == 1) {
            Date::setExcelCalendar(Date::CALENDAR_MAC_1904);
        }
    }

    /**
     * Read a FONT record.
     */
    private function readFont()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        if (!$this->readDataOnly) {
            $objFont = new Font();

            // offset: 0; size: 2; height of the font (in twips = 1/20 of a
point)
            $size = self::getUInt2d($recordData, 0);
            $objFont->setSize($size / 20);

            // offset: 2; size: 2; option flags
            // bit: 0; mask 0x0001; bold (redundant in BIFF5-BIFF8)
            // bit: 1; mask 0x0002; italic
            $isItalic = (0x0002 & self::getUInt2d($recordData, 2))
>> 1;
            if ($isItalic) {
                $objFont->setItalic(true);
            }

            // bit: 2; mask 0x0004; underlined (redundant in BIFF5-BIFF8)
            // bit: 3; mask 0x0008; strikethrough
            $isStrike = (0x0008 & self::getUInt2d($recordData, 2))
>> 3;
            if ($isStrike) {
                $objFont->setStrikethrough(true);
            }

            // offset: 4; size: 2; colour index
            $colorIndex = self::getUInt2d($recordData, 4);
            $objFont->colorIndex = $colorIndex;

            // offset: 6; size: 2; font weight
            $weight = self::getUInt2d($recordData, 6);
            switch ($weight) {
                case 0x02BC:
                    $objFont->setBold(true);

                    break;
            }

            // offset: 8; size: 2; escapement type
            $escapement = self::getUInt2d($recordData, 8);
            switch ($escapement) {
                case 0x0001:
                    $objFont->setSuperscript(true);

                    break;
                case 0x0002:
                    $objFont->setSubscript(true);

                    break;
            }

            // offset: 10; size: 1; underline type
            $underlineType = ord($recordData[10]);
            switch ($underlineType) {
                case 0x00:
                    break; // no underline
                case 0x01:
                    $objFont->setUnderline(Font::UNDERLINE_SINGLE);

                    break;
                case 0x02:
                    $objFont->setUnderline(Font::UNDERLINE_DOUBLE);

                    break;
                case 0x21:
                   
$objFont->setUnderline(Font::UNDERLINE_SINGLEACCOUNTING);

                    break;
                case 0x22:
                   
$objFont->setUnderline(Font::UNDERLINE_DOUBLEACCOUNTING);

                    break;
            }

            // offset: 11; size: 1; font family
            // offset: 12; size: 1; character set
            // offset: 13; size: 1; not used
            // offset: 14; size: var; font name
            if ($this->version == self::XLS_BIFF8) {
                $string = self::readUnicodeStringShort(substr($recordData,
14));
            } else {
                $string = $this->readByteStringShort(substr($recordData,
14));
            }
            $objFont->setName($string['value']);

            $this->objFonts[] = $objFont;
        }
    }

    /**
     * FORMAT.
     *
     * This record contains information about a number format.
     * All FORMAT records occur together in a sequential list.
     *
     * In BIFF2-BIFF4 other records referencing a FORMAT record
     * contain a zero-based index into this list. From BIFF5 on
     * the FORMAT record contains the index itself that will be
     * used by other records.
     *
     * --    "OpenOffice.org's Documentation of the Microsoft
     *         Excel File Format"
     */
    private function readFormat()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        if (!$this->readDataOnly) {
            $indexCode = self::getUInt2d($recordData, 0);

            if ($this->version == self::XLS_BIFF8) {
                $string = self::readUnicodeStringLong(substr($recordData,
2));
            } else {
                // BIFF7
                $string = $this->readByteStringShort(substr($recordData,
2));
            }

            $formatString = $string['value'];
            $this->formats[$indexCode] = $formatString;
        }
    }

    /**
     * XF - Extended Format.
     *
     * This record contains formatting information for cells, rows, columns
or styles.
     * According to https://support.microsoft.com/en-us/help/147732 there
are always at least 15 cell style XF
     * and 1 cell XF.
     * Inspection of Excel files generated by MS Office Excel shows that XF
records 0-14 are cell style XF
     * and XF record 15 is a cell XF
     * We only read the first cell style XF and skip the remaining cell
style XF records
     * We read all cell XF records.
     *
     * --    "OpenOffice.org's Documentation of the Microsoft
     *         Excel File Format"
     */
    private function readXf()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        $objStyle = new Style();

        if (!$this->readDataOnly) {
            // offset:  0; size: 2; Index to FONT record
            if (self::getUInt2d($recordData, 0) < 4) {
                $fontIndex = self::getUInt2d($recordData, 0);
            } else {
                // this has to do with that index 4 is omitted in all BIFF
versions for some strange reason
                // check the OpenOffice documentation of the FONT record
                $fontIndex = self::getUInt2d($recordData, 0) - 1;
            }
            $objStyle->setFont($this->objFonts[$fontIndex]);

            // offset:  2; size: 2; Index to FORMAT record
            $numberFormatIndex = self::getUInt2d($recordData, 2);
            if (isset($this->formats[$numberFormatIndex])) {
                // then we have user-defined format code
                $numberFormat = ['formatCode' =>
$this->formats[$numberFormatIndex]];
            } elseif (($code =
NumberFormat::builtInFormatCode($numberFormatIndex)) !== '') {
                // then we have built-in format code
                $numberFormat = ['formatCode' => $code];
            } else {
                // we set the general format code
                $numberFormat = ['formatCode' =>
'General'];
            }
           
$objStyle->getNumberFormat()->setFormatCode($numberFormat['formatCode']);

            // offset:  4; size: 2; XF type, cell protection, and parent
style XF
            // bit 2-0; mask 0x0007; XF_TYPE_PROT
            $xfTypeProt = self::getUInt2d($recordData, 4);
            // bit 0; mask 0x01; 1 = cell is locked
            $isLocked = (0x01 & $xfTypeProt) >> 0;
            $objStyle->getProtection()->setLocked($isLocked ?
Protection::PROTECTION_INHERIT : Protection::PROTECTION_UNPROTECTED);

            // bit 1; mask 0x02; 1 = Formula is hidden
            $isHidden = (0x02 & $xfTypeProt) >> 1;
            $objStyle->getProtection()->setHidden($isHidden ?
Protection::PROTECTION_PROTECTED : Protection::PROTECTION_UNPROTECTED);

            // bit 2; mask 0x04; 0 = Cell XF, 1 = Cell Style XF
            $isCellStyleXf = (0x04 & $xfTypeProt) >> 2;

            // offset:  6; size: 1; Alignment and text break
            // bit 2-0, mask 0x07; horizontal alignment
            $horAlign = (0x07 & ord($recordData[6])) >> 0;
            switch ($horAlign) {
                case 0:
                   
$objStyle->getAlignment()->setHorizontal(Alignment::HORIZONTAL_GENERAL);

                    break;
                case 1:
                   
$objStyle->getAlignment()->setHorizontal(Alignment::HORIZONTAL_LEFT);

                    break;
                case 2:
                   
$objStyle->getAlignment()->setHorizontal(Alignment::HORIZONTAL_CENTER);

                    break;
                case 3:
                   
$objStyle->getAlignment()->setHorizontal(Alignment::HORIZONTAL_RIGHT);

                    break;
                case 4:
                   
$objStyle->getAlignment()->setHorizontal(Alignment::HORIZONTAL_FILL);

                    break;
                case 5:
                   
$objStyle->getAlignment()->setHorizontal(Alignment::HORIZONTAL_JUSTIFY);

                    break;
                case 6:
                   
$objStyle->getAlignment()->setHorizontal(Alignment::HORIZONTAL_CENTER_CONTINUOUS);

                    break;
            }
            // bit 3, mask 0x08; wrap text
            $wrapText = (0x08 & ord($recordData[6])) >> 3;
            switch ($wrapText) {
                case 0:
                    $objStyle->getAlignment()->setWrapText(false);

                    break;
                case 1:
                    $objStyle->getAlignment()->setWrapText(true);

                    break;
            }
            // bit 6-4, mask 0x70; vertical alignment
            $vertAlign = (0x70 & ord($recordData[6])) >> 4;
            switch ($vertAlign) {
                case 0:
                   
$objStyle->getAlignment()->setVertical(Alignment::VERTICAL_TOP);

                    break;
                case 1:
                   
$objStyle->getAlignment()->setVertical(Alignment::VERTICAL_CENTER);

                    break;
                case 2:
                   
$objStyle->getAlignment()->setVertical(Alignment::VERTICAL_BOTTOM);

                    break;
                case 3:
                   
$objStyle->getAlignment()->setVertical(Alignment::VERTICAL_JUSTIFY);

                    break;
            }

            if ($this->version == self::XLS_BIFF8) {
                // offset:  7; size: 1; XF_ROTATION: Text rotation angle
                $angle = ord($recordData[7]);
                $rotation = 0;
                if ($angle <= 90) {
                    $rotation = $angle;
                } elseif ($angle <= 180) {
                    $rotation = 90 - $angle;
                } elseif ($angle == 255) {
                    $rotation = -165;
                }
               
$objStyle->getAlignment()->setTextRotation($rotation);

                // offset:  8; size: 1; Indentation, shrink to cell size,
and text direction
                // bit: 3-0; mask: 0x0F; indent level
                $indent = (0x0F & ord($recordData[8])) >> 0;
                $objStyle->getAlignment()->setIndent($indent);

                // bit: 4; mask: 0x10; 1 = shrink content to fit into cell
                $shrinkToFit = (0x10 & ord($recordData[8])) >> 4;
                switch ($shrinkToFit) {
                    case 0:
                       
$objStyle->getAlignment()->setShrinkToFit(false);

                        break;
                    case 1:
                       
$objStyle->getAlignment()->setShrinkToFit(true);

                        break;
                }

                // offset:  9; size: 1; Flags used for attribute groups

                // offset: 10; size: 4; Cell border lines and background
area
                // bit: 3-0; mask: 0x0000000F; left style
                if ($bordersLeftStyle =
Xls\Style\Border::lookup((0x0000000F & self::getInt4d($recordData, 10))
>> 0)) {
                   
$objStyle->getBorders()->getLeft()->setBorderStyle($bordersLeftStyle);
                }
                // bit: 7-4; mask: 0x000000F0; right style
                if ($bordersRightStyle =
Xls\Style\Border::lookup((0x000000F0 & self::getInt4d($recordData, 10))
>> 4)) {
                   
$objStyle->getBorders()->getRight()->setBorderStyle($bordersRightStyle);
                }
                // bit: 11-8; mask: 0x00000F00; top style
                if ($bordersTopStyle = Xls\Style\Border::lookup((0x00000F00
& self::getInt4d($recordData, 10)) >> 8)) {
                   
$objStyle->getBorders()->getTop()->setBorderStyle($bordersTopStyle);
                }
                // bit: 15-12; mask: 0x0000F000; bottom style
                if ($bordersBottomStyle =
Xls\Style\Border::lookup((0x0000F000 & self::getInt4d($recordData, 10))
>> 12)) {
                   
$objStyle->getBorders()->getBottom()->setBorderStyle($bordersBottomStyle);
                }
                // bit: 22-16; mask: 0x007F0000; left color
                $objStyle->getBorders()->getLeft()->colorIndex =
(0x007F0000 & self::getInt4d($recordData, 10)) >> 16;

                // bit: 29-23; mask: 0x3F800000; right color
                $objStyle->getBorders()->getRight()->colorIndex =
(0x3F800000 & self::getInt4d($recordData, 10)) >> 23;

                // bit: 30; mask: 0x40000000; 1 = diagonal line from top
left to right bottom
                $diagonalDown = (0x40000000 &
self::getInt4d($recordData, 10)) >> 30 ? true : false;

                // bit: 31; mask: 0x80000000; 1 = diagonal line from bottom
left to top right
                $diagonalUp = (0x80000000 & self::getInt4d($recordData,
10)) >> 31 ? true : false;

                if ($diagonalUp == false && $diagonalDown == false)
{
                   
$objStyle->getBorders()->setDiagonalDirection(Borders::DIAGONAL_NONE);
                } elseif ($diagonalUp == true && $diagonalDown ==
false) {
                   
$objStyle->getBorders()->setDiagonalDirection(Borders::DIAGONAL_UP);
                } elseif ($diagonalUp == false && $diagonalDown ==
true) {
                   
$objStyle->getBorders()->setDiagonalDirection(Borders::DIAGONAL_DOWN);
                } elseif ($diagonalUp == true && $diagonalDown ==
true) {
                   
$objStyle->getBorders()->setDiagonalDirection(Borders::DIAGONAL_BOTH);
                }

                // offset: 14; size: 4;
                // bit: 6-0; mask: 0x0000007F; top color
                $objStyle->getBorders()->getTop()->colorIndex =
(0x0000007F & self::getInt4d($recordData, 14)) >> 0;

                // bit: 13-7; mask: 0x00003F80; bottom color
                $objStyle->getBorders()->getBottom()->colorIndex =
(0x00003F80 & self::getInt4d($recordData, 14)) >> 7;

                // bit: 20-14; mask: 0x001FC000; diagonal color
                $objStyle->getBorders()->getDiagonal()->colorIndex
= (0x001FC000 & self::getInt4d($recordData, 14)) >> 14;

                // bit: 24-21; mask: 0x01E00000; diagonal style
                if ($bordersDiagonalStyle =
Xls\Style\Border::lookup((0x01E00000 & self::getInt4d($recordData, 14))
>> 21)) {
                   
$objStyle->getBorders()->getDiagonal()->setBorderStyle($bordersDiagonalStyle);
                }

                // bit: 31-26; mask: 0xFC000000 fill pattern
                if ($fillType = Xls\Style\FillPattern::lookup((0xFC000000
& self::getInt4d($recordData, 14)) >> 26)) {
                    $objStyle->getFill()->setFillType($fillType);
                }
                // offset: 18; size: 2; pattern and background colour
                // bit: 6-0; mask: 0x007F; color index for pattern color
                $objStyle->getFill()->startcolorIndex = (0x007F &
self::getUInt2d($recordData, 18)) >> 0;

                // bit: 13-7; mask: 0x3F80; color index for pattern
background
                $objStyle->getFill()->endcolorIndex = (0x3F80 &
self::getUInt2d($recordData, 18)) >> 7;
            } else {
                // BIFF5

                // offset: 7; size: 1; Text orientation and flags
                $orientationAndFlags = ord($recordData[7]);

                // bit: 1-0; mask: 0x03; XF_ORIENTATION: Text orientation
                $xfOrientation = (0x03 & $orientationAndFlags) >>
0;
                switch ($xfOrientation) {
                    case 0:
                       
$objStyle->getAlignment()->setTextRotation(0);

                        break;
                    case 1:
                       
$objStyle->getAlignment()->setTextRotation(-165);

                        break;
                    case 2:
                       
$objStyle->getAlignment()->setTextRotation(90);

                        break;
                    case 3:
                       
$objStyle->getAlignment()->setTextRotation(-90);

                        break;
                }

                // offset: 8; size: 4; cell border lines and background
area
                $borderAndBackground = self::getInt4d($recordData, 8);

                // bit: 6-0; mask: 0x0000007F; color index for pattern
color
                $objStyle->getFill()->startcolorIndex = (0x0000007F
& $borderAndBackground) >> 0;

                // bit: 13-7; mask: 0x00003F80; color index for pattern
background
                $objStyle->getFill()->endcolorIndex = (0x00003F80
& $borderAndBackground) >> 7;

                // bit: 21-16; mask: 0x003F0000; fill pattern
               
$objStyle->getFill()->setFillType(Xls\Style\FillPattern::lookup((0x003F0000
& $borderAndBackground) >> 16));

                // bit: 24-22; mask: 0x01C00000; bottom line style
               
$objStyle->getBorders()->getBottom()->setBorderStyle(Xls\Style\Border::lookup((0x01C00000
& $borderAndBackground) >> 22));

                // bit: 31-25; mask: 0xFE000000; bottom line color
                $objStyle->getBorders()->getBottom()->colorIndex =
(0xFE000000 & $borderAndBackground) >> 25;

                // offset: 12; size: 4; cell border lines
                $borderLines = self::getInt4d($recordData, 12);

                // bit: 2-0; mask: 0x00000007; top line style
               
$objStyle->getBorders()->getTop()->setBorderStyle(Xls\Style\Border::lookup((0x00000007
& $borderLines) >> 0));

                // bit: 5-3; mask: 0x00000038; left line style
               
$objStyle->getBorders()->getLeft()->setBorderStyle(Xls\Style\Border::lookup((0x00000038
& $borderLines) >> 3));

                // bit: 8-6; mask: 0x000001C0; right line style
               
$objStyle->getBorders()->getRight()->setBorderStyle(Xls\Style\Border::lookup((0x000001C0
& $borderLines) >> 6));

                // bit: 15-9; mask: 0x0000FE00; top line color index
                $objStyle->getBorders()->getTop()->colorIndex =
(0x0000FE00 & $borderLines) >> 9;

                // bit: 22-16; mask: 0x007F0000; left line color index
                $objStyle->getBorders()->getLeft()->colorIndex =
(0x007F0000 & $borderLines) >> 16;

                // bit: 29-23; mask: 0x3F800000; right line color index
                $objStyle->getBorders()->getRight()->colorIndex =
(0x3F800000 & $borderLines) >> 23;
            }

            // add cellStyleXf or cellXf and update mapping
            if ($isCellStyleXf) {
                // we only read one style XF record which is always the
first
                if ($this->xfIndex == 0) {
                    $this->spreadsheet->addCellStyleXf($objStyle);
                    $this->mapCellStyleXfIndex[$this->xfIndex] = 0;
                }
            } else {
                // we read all cell XF records
                $this->spreadsheet->addCellXf($objStyle);
                $this->mapCellXfIndex[$this->xfIndex] =
count($this->spreadsheet->getCellXfCollection()) - 1;
            }

            // update XF index for when we read next record
            ++$this->xfIndex;
        }
    }

    private function readXfExt()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        if (!$this->readDataOnly) {
            // offset: 0; size: 2; 0x087D = repeated header

            // offset: 2; size: 2

            // offset: 4; size: 8; not used

            // offset: 12; size: 2; record version

            // offset: 14; size: 2; index to XF record which this record
modifies
            $ixfe = self::getUInt2d($recordData, 14);

            // offset: 16; size: 2; not used

            // offset: 18; size: 2; number of extension properties that
follow
            $cexts = self::getUInt2d($recordData, 18);

            // start reading the actual extension data
            $offset = 20;
            while ($offset < $length) {
                // extension type
                $extType = self::getUInt2d($recordData, $offset);

                // extension length
                $cb = self::getUInt2d($recordData, $offset + 2);

                // extension data
                $extData = substr($recordData, $offset + 4, $cb);

                switch ($extType) {
                    case 4:        // fill start color
                        $xclfType = self::getUInt2d($extData, 0); // color
type
                        $xclrValue = substr($extData, 4, 4); // color value
(value based on color type)

                        if ($xclfType == 2) {
                            $rgb = sprintf('%02X%02X%02X',
ord($xclrValue[0]), ord($xclrValue[1]), ord($xclrValue[2]));

                            // modify the relevant style property
                            if (isset($this->mapCellXfIndex[$ixfe])) {
                                $fill =
$this->spreadsheet->getCellXfByIndex($this->mapCellXfIndex[$ixfe])->getFill();
                                $fill->getStartColor()->setRGB($rgb);
                                unset($fill->startcolorIndex); // normal
color index does not apply, discard
                            }
                        }

                        break;
                    case 5:        // fill end color
                        $xclfType = self::getUInt2d($extData, 0); // color
type
                        $xclrValue = substr($extData, 4, 4); // color value
(value based on color type)

                        if ($xclfType == 2) {
                            $rgb = sprintf('%02X%02X%02X',
ord($xclrValue[0]), ord($xclrValue[1]), ord($xclrValue[2]));

                            // modify the relevant style property
                            if (isset($this->mapCellXfIndex[$ixfe])) {
                                $fill =
$this->spreadsheet->getCellXfByIndex($this->mapCellXfIndex[$ixfe])->getFill();
                                $fill->getEndColor()->setRGB($rgb);
                                unset($fill->endcolorIndex); // normal
color index does not apply, discard
                            }
                        }

                        break;
                    case 7:        // border color top
                        $xclfType = self::getUInt2d($extData, 0); // color
type
                        $xclrValue = substr($extData, 4, 4); // color value
(value based on color type)

                        if ($xclfType == 2) {
                            $rgb = sprintf('%02X%02X%02X',
ord($xclrValue[0]), ord($xclrValue[1]), ord($xclrValue[2]));

                            // modify the relevant style property
                            if (isset($this->mapCellXfIndex[$ixfe])) {
                                $top =
$this->spreadsheet->getCellXfByIndex($this->mapCellXfIndex[$ixfe])->getBorders()->getTop();
                                $top->getColor()->setRGB($rgb);
                                unset($top->colorIndex); // normal color
index does not apply, discard
                            }
                        }

                        break;
                    case 8:        // border color bottom
                        $xclfType = self::getUInt2d($extData, 0); // color
type
                        $xclrValue = substr($extData, 4, 4); // color value
(value based on color type)

                        if ($xclfType == 2) {
                            $rgb = sprintf('%02X%02X%02X',
ord($xclrValue[0]), ord($xclrValue[1]), ord($xclrValue[2]));

                            // modify the relevant style property
                            if (isset($this->mapCellXfIndex[$ixfe])) {
                                $bottom =
$this->spreadsheet->getCellXfByIndex($this->mapCellXfIndex[$ixfe])->getBorders()->getBottom();
                                $bottom->getColor()->setRGB($rgb);
                                unset($bottom->colorIndex); // normal
color index does not apply, discard
                            }
                        }

                        break;
                    case 9:        // border color left
                        $xclfType = self::getUInt2d($extData, 0); // color
type
                        $xclrValue = substr($extData, 4, 4); // color value
(value based on color type)

                        if ($xclfType == 2) {
                            $rgb = sprintf('%02X%02X%02X',
ord($xclrValue[0]), ord($xclrValue[1]), ord($xclrValue[2]));

                            // modify the relevant style property
                            if (isset($this->mapCellXfIndex[$ixfe])) {
                                $left =
$this->spreadsheet->getCellXfByIndex($this->mapCellXfIndex[$ixfe])->getBorders()->getLeft();
                                $left->getColor()->setRGB($rgb);
                                unset($left->colorIndex); // normal
color index does not apply, discard
                            }
                        }

                        break;
                    case 10:        // border color right
                        $xclfType = self::getUInt2d($extData, 0); // color
type
                        $xclrValue = substr($extData, 4, 4); // color value
(value based on color type)

                        if ($xclfType == 2) {
                            $rgb = sprintf('%02X%02X%02X',
ord($xclrValue[0]), ord($xclrValue[1]), ord($xclrValue[2]));

                            // modify the relevant style property
                            if (isset($this->mapCellXfIndex[$ixfe])) {
                                $right =
$this->spreadsheet->getCellXfByIndex($this->mapCellXfIndex[$ixfe])->getBorders()->getRight();
                                $right->getColor()->setRGB($rgb);
                                unset($right->colorIndex); // normal
color index does not apply, discard
                            }
                        }

                        break;
                    case 11:        // border color diagonal
                        $xclfType = self::getUInt2d($extData, 0); // color
type
                        $xclrValue = substr($extData, 4, 4); // color value
(value based on color type)

                        if ($xclfType == 2) {
                            $rgb = sprintf('%02X%02X%02X',
ord($xclrValue[0]), ord($xclrValue[1]), ord($xclrValue[2]));

                            // modify the relevant style property
                            if (isset($this->mapCellXfIndex[$ixfe])) {
                                $diagonal =
$this->spreadsheet->getCellXfByIndex($this->mapCellXfIndex[$ixfe])->getBorders()->getDiagonal();
                                $diagonal->getColor()->setRGB($rgb);
                                unset($diagonal->colorIndex); // normal
color index does not apply, discard
                            }
                        }

                        break;
                    case 13:    // font color
                        $xclfType = self::getUInt2d($extData, 0); // color
type
                        $xclrValue = substr($extData, 4, 4); // color value
(value based on color type)

                        if ($xclfType == 2) {
                            $rgb = sprintf('%02X%02X%02X',
ord($xclrValue[0]), ord($xclrValue[1]), ord($xclrValue[2]));

                            // modify the relevant style property
                            if (isset($this->mapCellXfIndex[$ixfe])) {
                                $font =
$this->spreadsheet->getCellXfByIndex($this->mapCellXfIndex[$ixfe])->getFont();
                                $font->getColor()->setRGB($rgb);
                                unset($font->colorIndex); // normal
color index does not apply, discard
                            }
                        }

                        break;
                }

                $offset += $cb;
            }
        }
    }

    /**
     * Read STYLE record.
     */
    private function readStyle()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        if (!$this->readDataOnly) {
            // offset: 0; size: 2; index to XF record and flag for built-in
style
            $ixfe = self::getUInt2d($recordData, 0);

            // bit: 11-0; mask 0x0FFF; index to XF record
            $xfIndex = (0x0FFF & $ixfe) >> 0;

            // bit: 15; mask 0x8000; 0 = user-defined style, 1 = built-in
style
            $isBuiltIn = (bool) ((0x8000 & $ixfe) >> 15);

            if ($isBuiltIn) {
                // offset: 2; size: 1; identifier for built-in style
                $builtInId = ord($recordData[2]);

                switch ($builtInId) {
                    case 0x00:
                        // currently, we are not using this for anything
                        break;
                    default:
                        break;
                }
            }
            // user-defined; not supported by PhpSpreadsheet
        }
    }

    /**
     * Read PALETTE record.
     */
    private function readPalette()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        if (!$this->readDataOnly) {
            // offset: 0; size: 2; number of following colors
            $nm = self::getUInt2d($recordData, 0);

            // list of RGB colors
            for ($i = 0; $i < $nm; ++$i) {
                $rgb = substr($recordData, 2 + 4 * $i, 4);
                $this->palette[] = self::readRGB($rgb);
            }
        }
    }

    /**
     * SHEET.
     *
     * This record is  located in the  Workbook Globals
     * Substream  and represents a sheet inside the workbook.
     * One SHEET record is written for each sheet. It stores the
     * sheet name and a stream offset to the BOF record of the
     * respective Sheet Substream within the Workbook Stream.
     *
     * --    "OpenOffice.org's Documentation of the Microsoft
     *         Excel File Format"
     */
    private function readSheet()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // offset: 0; size: 4; absolute stream position of the BOF record
of the sheet
        // NOTE: not encrypted
        $rec_offset = self::getInt4d($this->data, $this->pos + 4);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        // offset: 4; size: 1; sheet state
        switch (ord($recordData[4])) {
            case 0x00:
                $sheetState = Worksheet::SHEETSTATE_VISIBLE;

                break;
            case 0x01:
                $sheetState = Worksheet::SHEETSTATE_HIDDEN;

                break;
            case 0x02:
                $sheetState = Worksheet::SHEETSTATE_VERYHIDDEN;

                break;
            default:
                $sheetState = Worksheet::SHEETSTATE_VISIBLE;

                break;
        }

        // offset: 5; size: 1; sheet type
        $sheetType = ord($recordData[5]);

        // offset: 6; size: var; sheet name
        if ($this->version == self::XLS_BIFF8) {
            $string = self::readUnicodeStringShort(substr($recordData, 6));
            $rec_name = $string['value'];
        } elseif ($this->version == self::XLS_BIFF7) {
            $string = $this->readByteStringShort(substr($recordData,
6));
            $rec_name = $string['value'];
        }

        $this->sheets[] = [
            'name' => $rec_name,
            'offset' => $rec_offset,
            'sheetState' => $sheetState,
            'sheetType' => $sheetType,
        ];
    }

    /**
     * Read EXTERNALBOOK record.
     */
    private function readExternalBook()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        // offset within record data
        $offset = 0;

        // there are 4 types of records
        if (strlen($recordData) > 4) {
            // external reference
            // offset: 0; size: 2; number of sheet names ($nm)
            $nm = self::getUInt2d($recordData, 0);
            $offset += 2;

            // offset: 2; size: var; encoded URL without sheet name
(Unicode string, 16-bit length)
            $encodedUrlString =
self::readUnicodeStringLong(substr($recordData, 2));
            $offset += $encodedUrlString['size'];

            // offset: var; size: var; list of $nm sheet names (Unicode
strings, 16-bit length)
            $externalSheetNames = [];
            for ($i = 0; $i < $nm; ++$i) {
                $externalSheetNameString =
self::readUnicodeStringLong(substr($recordData, $offset));
                $externalSheetNames[] =
$externalSheetNameString['value'];
                $offset += $externalSheetNameString['size'];
            }

            // store the record data
            $this->externalBooks[] = [
                'type' => 'external',
                'encodedUrl' =>
$encodedUrlString['value'],
                'externalSheetNames' => $externalSheetNames,
            ];
        } elseif (substr($recordData, 2, 2) == pack('CC', 0x01,
0x04)) {
            // internal reference
            // offset: 0; size: 2; number of sheet in this document
            // offset: 2; size: 2; 0x01 0x04
            $this->externalBooks[] = [
                'type' => 'internal',
            ];
        } elseif (substr($recordData, 0, 4) == pack('vCC',
0x0001, 0x01, 0x3A)) {
            // add-in function
            // offset: 0; size: 2; 0x0001
            $this->externalBooks[] = [
                'type' => 'addInFunction',
            ];
        } elseif (substr($recordData, 0, 2) == pack('v', 0x0000))
{
            // DDE links, OLE links
            // offset: 0; size: 2; 0x0000
            // offset: 2; size: var; encoded source document name
            $this->externalBooks[] = [
                'type' => 'DDEorOLE',
            ];
        }
    }

    /**
     * Read EXTERNNAME record.
     */
    private function readExternName()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        // external sheet references provided for named cells
        if ($this->version == self::XLS_BIFF8) {
            // offset: 0; size: 2; options
            $options = self::getUInt2d($recordData, 0);

            // offset: 2; size: 2;

            // offset: 4; size: 2; not used

            // offset: 6; size: var
            $nameString = self::readUnicodeStringShort(substr($recordData,
6));

            // offset: var; size: var; formula data
            $offset = 6 + $nameString['size'];
            $formula =
$this->getFormulaFromStructure(substr($recordData, $offset));

            $this->externalNames[] = [
                'name' => $nameString['value'],
                'formula' => $formula,
            ];
        }
    }

    /**
     * Read EXTERNSHEET record.
     */
    private function readExternSheet()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        // external sheet references provided for named cells
        if ($this->version == self::XLS_BIFF8) {
            // offset: 0; size: 2; number of following ref structures
            $nm = self::getUInt2d($recordData, 0);
            for ($i = 0; $i < $nm; ++$i) {
                $this->ref[] = [
                    // offset: 2 + 6 * $i; index to EXTERNALBOOK record
                    'externalBookIndex' =>
self::getUInt2d($recordData, 2 + 6 * $i),
                    // offset: 4 + 6 * $i; index to first sheet in
EXTERNALBOOK record
                    'firstSheetIndex' =>
self::getUInt2d($recordData, 4 + 6 * $i),
                    // offset: 6 + 6 * $i; index to last sheet in
EXTERNALBOOK record
                    'lastSheetIndex' =>
self::getUInt2d($recordData, 6 + 6 * $i),
                ];
            }
        }
    }

    /**
     * DEFINEDNAME.
     *
     * This record is part of a Link Table. It contains the name
     * and the token array of an internal defined name. Token
     * arrays of defined names contain tokens with aberrant
     * token classes.
     *
     * --    "OpenOffice.org's Documentation of the Microsoft
     *         Excel File Format"
     */
    private function readDefinedName()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        if ($this->version == self::XLS_BIFF8) {
            // retrieves named cells

            // offset: 0; size: 2; option flags
            $opts = self::getUInt2d($recordData, 0);

            // bit: 5; mask: 0x0020; 0 = user-defined name, 1 =
built-in-name
            $isBuiltInName = (0x0020 & $opts) >> 5;

            // offset: 2; size: 1; keyboard shortcut

            // offset: 3; size: 1; length of the name (character count)
            $nlen = ord($recordData[3]);

            // offset: 4; size: 2; size of the formula data (it can happen
that this is zero)
            // note: there can also be additional data, this is not
included in $flen
            $flen = self::getUInt2d($recordData, 4);

            // offset: 8; size: 2; 0=Global name, otherwise index to sheet
(1-based)
            $scope = self::getUInt2d($recordData, 8);

            // offset: 14; size: var; Name (Unicode string without length
field)
            $string = self::readUnicodeString(substr($recordData, 14),
$nlen);

            // offset: var; size: $flen; formula data
            $offset = 14 + $string['size'];
            $formulaStructure = pack('v', $flen) .
substr($recordData, $offset);

            try {
                $formula =
$this->getFormulaFromStructure($formulaStructure);
            } catch (PhpSpreadsheetException $e) {
                $formula = '';
            }

            $this->definedname[] = [
                'isBuiltInName' => $isBuiltInName,
                'name' => $string['value'],
                'formula' => $formula,
                'scope' => $scope,
            ];
        }
    }

    /**
     * Read MSODRAWINGGROUP record.
     */
    private function readMsoDrawingGroup()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);

        // get spliced record data
        $splicedRecordData = $this->getSplicedRecordData();
        $recordData = $splicedRecordData['recordData'];

        $this->drawingGroupData .= $recordData;
    }

    /**
     * SST - Shared String Table.
     *
     * This record contains a list of all strings used anywhere
     * in the workbook. Each string occurs only once. The
     * workbook uses indexes into the list to reference the
     * strings.
     *
     * --    "OpenOffice.org's Documentation of the Microsoft
     *         Excel File Format"
     */
    private function readSst()
    {
        // offset within (spliced) record data
        $pos = 0;

        // get spliced record data
        $splicedRecordData = $this->getSplicedRecordData();

        $recordData = $splicedRecordData['recordData'];
        $spliceOffsets = $splicedRecordData['spliceOffsets'];

        // offset: 0; size: 4; total number of strings in the workbook
        $pos += 4;

        // offset: 4; size: 4; number of following strings ($nm)
        $nm = self::getInt4d($recordData, 4);
        $pos += 4;

        // loop through the Unicode strings (16-bit length)
        for ($i = 0; $i < $nm; ++$i) {
            // number of characters in the Unicode string
            $numChars = self::getUInt2d($recordData, $pos);
            $pos += 2;

            // option flags
            $optionFlags = ord($recordData[$pos]);
            ++$pos;

            // bit: 0; mask: 0x01; 0 = compressed; 1 = uncompressed
            $isCompressed = (($optionFlags & 0x01) == 0);

            // bit: 2; mask: 0x02; 0 = ordinary; 1 = Asian phonetic
            $hasAsian = (($optionFlags & 0x04) != 0);

            // bit: 3; mask: 0x03; 0 = ordinary; 1 = Rich-Text
            $hasRichText = (($optionFlags & 0x08) != 0);

            if ($hasRichText) {
                // number of Rich-Text formatting runs
                $formattingRuns = self::getUInt2d($recordData, $pos);
                $pos += 2;
            }

            if ($hasAsian) {
                // size of Asian phonetic setting
                $extendedRunLength = self::getInt4d($recordData, $pos);
                $pos += 4;
            }

            // expected byte length of character array if not split
            $len = ($isCompressed) ? $numChars : $numChars * 2;

            // look up limit position
            foreach ($spliceOffsets as $spliceOffset) {
                // it can happen that the string is empty, therefore we
need
                // <= and not just <
                if ($pos <= $spliceOffset) {
                    $limitpos = $spliceOffset;

                    break;
                }
            }

            if ($pos + $len <= $limitpos) {
                // character array is not split between records

                $retstr = substr($recordData, $pos, $len);
                $pos += $len;
            } else {
                // character array is split between records

                // first part of character array
                $retstr = substr($recordData, $pos, $limitpos - $pos);

                $bytesRead = $limitpos - $pos;

                // remaining characters in Unicode string
                $charsLeft = $numChars - (($isCompressed) ? $bytesRead :
($bytesRead / 2));

                $pos = $limitpos;

                // keep reading the characters
                while ($charsLeft > 0) {
                    // look up next limit position, in case the string span
more than one continue record
                    foreach ($spliceOffsets as $spliceOffset) {
                        if ($pos < $spliceOffset) {
                            $limitpos = $spliceOffset;

                            break;
                        }
                    }

                    // repeated option flags
                    // OpenOffice.org documentation 5.21
                    $option = ord($recordData[$pos]);
                    ++$pos;

                    if ($isCompressed && ($option == 0)) {
                        // 1st fragment compressed
                        // this fragment compressed
                        $len = min($charsLeft, $limitpos - $pos);
                        $retstr .= substr($recordData, $pos, $len);
                        $charsLeft -= $len;
                        $isCompressed = true;
                    } elseif (!$isCompressed && ($option != 0)) {
                        // 1st fragment uncompressed
                        // this fragment uncompressed
                        $len = min($charsLeft * 2, $limitpos - $pos);
                        $retstr .= substr($recordData, $pos, $len);
                        $charsLeft -= $len / 2;
                        $isCompressed = false;
                    } elseif (!$isCompressed && ($option == 0)) {
                        // 1st fragment uncompressed
                        // this fragment compressed
                        $len = min($charsLeft, $limitpos - $pos);
                        for ($j = 0; $j < $len; ++$j) {
                            $retstr .= $recordData[$pos + $j]
                            . chr(0);
                        }
                        $charsLeft -= $len;
                        $isCompressed = false;
                    } else {
                        // 1st fragment compressed
                        // this fragment uncompressed
                        $newstr = '';
                        $jMax = strlen($retstr);
                        for ($j = 0; $j < $jMax; ++$j) {
                            $newstr .= $retstr[$j] . chr(0);
                        }
                        $retstr = $newstr;
                        $len = min($charsLeft * 2, $limitpos - $pos);
                        $retstr .= substr($recordData, $pos, $len);
                        $charsLeft -= $len / 2;
                        $isCompressed = false;
                    }

                    $pos += $len;
                }
            }

            // convert to UTF-8
            $retstr = self::encodeUTF16($retstr, $isCompressed);

            // read additional Rich-Text information, if any
            $fmtRuns = [];
            if ($hasRichText) {
                // list of formatting runs
                for ($j = 0; $j < $formattingRuns; ++$j) {
                    // first formatted character; zero-based
                    $charPos = self::getUInt2d($recordData, $pos + $j * 4);

                    // index to font record
                    $fontIndex = self::getUInt2d($recordData, $pos + 2 + $j
* 4);

                    $fmtRuns[] = [
                        'charPos' => $charPos,
                        'fontIndex' => $fontIndex,
                    ];
                }
                $pos += 4 * $formattingRuns;
            }

            // read additional Asian phonetics information, if any
            if ($hasAsian) {
                // For Asian phonetic settings, we skip the extended string
data
                $pos += $extendedRunLength;
            }

            // store the shared sting
            $this->sst[] = [
                'value' => $retstr,
                'fmtRuns' => $fmtRuns,
            ];
        }

        // getSplicedRecordData() takes care of moving current position in
data stream
    }

    /**
     * Read PRINTGRIDLINES record.
     */
    private function readPrintGridlines()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        if ($this->version == self::XLS_BIFF8 &&
!$this->readDataOnly) {
            // offset: 0; size: 2; 0 = do not print sheet grid lines; 1 =
print sheet gridlines
            $printGridlines = (bool) self::getUInt2d($recordData, 0);
            $this->phpSheet->setPrintGridlines($printGridlines);
        }
    }

    /**
     * Read DEFAULTROWHEIGHT record.
     */
    private function readDefaultRowHeight()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        // offset: 0; size: 2; option flags
        // offset: 2; size: 2; default height for unused rows, (twips 1/20
point)
        $height = self::getUInt2d($recordData, 2);
       
$this->phpSheet->getDefaultRowDimension()->setRowHeight($height /
20);
    }

    /**
     * Read SHEETPR record.
     */
    private function readSheetPr()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        // offset: 0; size: 2

        // bit: 6; mask: 0x0040; 0 = outline buttons above outline group
        $isSummaryBelow = (0x0040 & self::getUInt2d($recordData, 0))
>> 6;
        $this->phpSheet->setShowSummaryBelow($isSummaryBelow);

        // bit: 7; mask: 0x0080; 0 = outline buttons left of outline group
        $isSummaryRight = (0x0080 & self::getUInt2d($recordData, 0))
>> 7;
        $this->phpSheet->setShowSummaryRight($isSummaryRight);

        // bit: 8; mask: 0x100; 0 = scale printout in percent, 1 = fit
printout to number of pages
        // this corresponds to radio button setting in page setup dialog in
Excel
        $this->isFitToPages = (bool) ((0x0100 &
self::getUInt2d($recordData, 0)) >> 8);
    }

    /**
     * Read HORIZONTALPAGEBREAKS record.
     */
    private function readHorizontalPageBreaks()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        if ($this->version == self::XLS_BIFF8 &&
!$this->readDataOnly) {
            // offset: 0; size: 2; number of the following row index
structures
            $nm = self::getUInt2d($recordData, 0);

            // offset: 2; size: 6 * $nm; list of $nm row index structures
            for ($i = 0; $i < $nm; ++$i) {
                $r = self::getUInt2d($recordData, 2 + 6 * $i);
                $cf = self::getUInt2d($recordData, 2 + 6 * $i + 2);
                $cl = self::getUInt2d($recordData, 2 + 6 * $i + 4);

                // not sure why two column indexes are necessary?
                $this->phpSheet->setBreakByColumnAndRow($cf + 1, $r,
Worksheet::BREAK_ROW);
            }
        }
    }

    /**
     * Read VERTICALPAGEBREAKS record.
     */
    private function readVerticalPageBreaks()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        if ($this->version == self::XLS_BIFF8 &&
!$this->readDataOnly) {
            // offset: 0; size: 2; number of the following column index
structures
            $nm = self::getUInt2d($recordData, 0);

            // offset: 2; size: 6 * $nm; list of $nm row index structures
            for ($i = 0; $i < $nm; ++$i) {
                $c = self::getUInt2d($recordData, 2 + 6 * $i);
                $rf = self::getUInt2d($recordData, 2 + 6 * $i + 2);
                $rl = self::getUInt2d($recordData, 2 + 6 * $i + 4);

                // not sure why two row indexes are necessary?
                $this->phpSheet->setBreakByColumnAndRow($c + 1, $rf,
Worksheet::BREAK_COLUMN);
            }
        }
    }

    /**
     * Read HEADER record.
     */
    private function readHeader()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        if (!$this->readDataOnly) {
            // offset: 0; size: var
            // realized that $recordData can be empty even when record
exists
            if ($recordData) {
                if ($this->version == self::XLS_BIFF8) {
                    $string = self::readUnicodeStringLong($recordData);
                } else {
                    $string = $this->readByteStringShort($recordData);
                }

               
$this->phpSheet->getHeaderFooter()->setOddHeader($string['value']);
               
$this->phpSheet->getHeaderFooter()->setEvenHeader($string['value']);
            }
        }
    }

    /**
     * Read FOOTER record.
     */
    private function readFooter()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        if (!$this->readDataOnly) {
            // offset: 0; size: var
            // realized that $recordData can be empty even when record
exists
            if ($recordData) {
                if ($this->version == self::XLS_BIFF8) {
                    $string = self::readUnicodeStringLong($recordData);
                } else {
                    $string = $this->readByteStringShort($recordData);
                }
               
$this->phpSheet->getHeaderFooter()->setOddFooter($string['value']);
               
$this->phpSheet->getHeaderFooter()->setEvenFooter($string['value']);
            }
        }
    }

    /**
     * Read HCENTER record.
     */
    private function readHcenter()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        if (!$this->readDataOnly) {
            // offset: 0; size: 2; 0 = print sheet left aligned, 1 = print
sheet centered horizontally
            $isHorizontalCentered = (bool) self::getUInt2d($recordData, 0);

           
$this->phpSheet->getPageSetup()->setHorizontalCentered($isHorizontalCentered);
        }
    }

    /**
     * Read VCENTER record.
     */
    private function readVcenter()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        if (!$this->readDataOnly) {
            // offset: 0; size: 2; 0 = print sheet aligned at top page
border, 1 = print sheet vertically centered
            $isVerticalCentered = (bool) self::getUInt2d($recordData, 0);

           
$this->phpSheet->getPageSetup()->setVerticalCentered($isVerticalCentered);
        }
    }

    /**
     * Read LEFTMARGIN record.
     */
    private function readLeftMargin()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        if (!$this->readDataOnly) {
            // offset: 0; size: 8
           
$this->phpSheet->getPageMargins()->setLeft(self::extractNumber($recordData));
        }
    }

    /**
     * Read RIGHTMARGIN record.
     */
    private function readRightMargin()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        if (!$this->readDataOnly) {
            // offset: 0; size: 8
           
$this->phpSheet->getPageMargins()->setRight(self::extractNumber($recordData));
        }
    }

    /**
     * Read TOPMARGIN record.
     */
    private function readTopMargin()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        if (!$this->readDataOnly) {
            // offset: 0; size: 8
           
$this->phpSheet->getPageMargins()->setTop(self::extractNumber($recordData));
        }
    }

    /**
     * Read BOTTOMMARGIN record.
     */
    private function readBottomMargin()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        if (!$this->readDataOnly) {
            // offset: 0; size: 8
           
$this->phpSheet->getPageMargins()->setBottom(self::extractNumber($recordData));
        }
    }

    /**
     * Read PAGESETUP record.
     */
    private function readPageSetup()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        if (!$this->readDataOnly) {
            // offset: 0; size: 2; paper size
            $paperSize = self::getUInt2d($recordData, 0);

            // offset: 2; size: 2; scaling factor
            $scale = self::getUInt2d($recordData, 2);

            // offset: 6; size: 2; fit worksheet width to this number of
pages, 0 = use as many as needed
            $fitToWidth = self::getUInt2d($recordData, 6);

            // offset: 8; size: 2; fit worksheet height to this number of
pages, 0 = use as many as needed
            $fitToHeight = self::getUInt2d($recordData, 8);

            // offset: 10; size: 2; option flags

            // bit: 1; mask: 0x0002; 0=landscape, 1=portrait
            $isPortrait = (0x0002 & self::getUInt2d($recordData, 10))
>> 1;

            // bit: 2; mask: 0x0004; 1= paper size, scaling factor, paper
orient. not init
            // when this bit is set, do not use flags for those properties
            $isNotInit = (0x0004 & self::getUInt2d($recordData, 10))
>> 2;

            if (!$isNotInit) {
               
$this->phpSheet->getPageSetup()->setPaperSize($paperSize);
                switch ($isPortrait) {
                    case 0:
                       
$this->phpSheet->getPageSetup()->setOrientation(PageSetup::ORIENTATION_LANDSCAPE);

                        break;
                    case 1:
                       
$this->phpSheet->getPageSetup()->setOrientation(PageSetup::ORIENTATION_PORTRAIT);

                        break;
                }

                $this->phpSheet->getPageSetup()->setScale($scale,
false);
               
$this->phpSheet->getPageSetup()->setFitToPage((bool)
$this->isFitToPages);
               
$this->phpSheet->getPageSetup()->setFitToWidth($fitToWidth,
false);
               
$this->phpSheet->getPageSetup()->setFitToHeight($fitToHeight,
false);
            }

            // offset: 16; size: 8; header margin (IEEE 754 floating-point
value)
            $marginHeader = self::extractNumber(substr($recordData, 16,
8));
           
$this->phpSheet->getPageMargins()->setHeader($marginHeader);

            // offset: 24; size: 8; footer margin (IEEE 754 floating-point
value)
            $marginFooter = self::extractNumber(substr($recordData, 24,
8));
           
$this->phpSheet->getPageMargins()->setFooter($marginFooter);
        }
    }

    /**
     * PROTECT - Sheet protection (BIFF2 through BIFF8)
     *   if this record is omitted, then it also means no sheet protection.
     */
    private function readProtect()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        if ($this->readDataOnly) {
            return;
        }

        // offset: 0; size: 2;

        // bit 0, mask 0x01; 1 = sheet is protected
        $bool = (0x01 & self::getUInt2d($recordData, 0)) >> 0;
        $this->phpSheet->getProtection()->setSheet((bool) $bool);
    }

    /**
     * SCENPROTECT.
     */
    private function readScenProtect()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        if ($this->readDataOnly) {
            return;
        }

        // offset: 0; size: 2;

        // bit: 0, mask 0x01; 1 = scenarios are protected
        $bool = (0x01 & self::getUInt2d($recordData, 0)) >> 0;

        $this->phpSheet->getProtection()->setScenarios((bool)
$bool);
    }

    /**
     * OBJECTPROTECT.
     */
    private function readObjectProtect()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        if ($this->readDataOnly) {
            return;
        }

        // offset: 0; size: 2;

        // bit: 0, mask 0x01; 1 = objects are protected
        $bool = (0x01 & self::getUInt2d($recordData, 0)) >> 0;

        $this->phpSheet->getProtection()->setObjects((bool)
$bool);
    }

    /**
     * PASSWORD - Sheet protection (hashed) password (BIFF2 through BIFF8).
     */
    private function readPassword()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        if (!$this->readDataOnly) {
            // offset: 0; size: 2; 16-bit hash value of password
            $password = strtoupper(dechex(self::getUInt2d($recordData,
0))); // the hashed password
           
$this->phpSheet->getProtection()->setPassword($password, true);
        }
    }

    /**
     * Read DEFCOLWIDTH record.
     */
    private function readDefColWidth()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        // offset: 0; size: 2; default column width
        $width = self::getUInt2d($recordData, 0);
        if ($width != 8) {
           
$this->phpSheet->getDefaultColumnDimension()->setWidth($width);
        }
    }

    /**
     * Read COLINFO record.
     */
    private function readColInfo()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        if (!$this->readDataOnly) {
            // offset: 0; size: 2; index to first column in range
            $firstColumnIndex = self::getUInt2d($recordData, 0);

            // offset: 2; size: 2; index to last column in range
            $lastColumnIndex = self::getUInt2d($recordData, 2);

            // offset: 4; size: 2; width of the column in 1/256 of the
width of the zero character
            $width = self::getUInt2d($recordData, 4);

            // offset: 6; size: 2; index to XF record for default column
formatting
            $xfIndex = self::getUInt2d($recordData, 6);

            // offset: 8; size: 2; option flags
            // bit: 0; mask: 0x0001; 1= columns are hidden
            $isHidden = (0x0001 & self::getUInt2d($recordData, 8))
>> 0;

            // bit: 10-8; mask: 0x0700; outline level of the columns (0 =
no outline)
            $level = (0x0700 & self::getUInt2d($recordData, 8))
>> 8;

            // bit: 12; mask: 0x1000; 1 = collapsed
            $isCollapsed = (0x1000 & self::getUInt2d($recordData, 8))
>> 12;

            // offset: 10; size: 2; not used

            for ($i = $firstColumnIndex + 1; $i <= $lastColumnIndex + 1;
++$i) {
                if ($lastColumnIndex == 255 || $lastColumnIndex == 256) {
                   
$this->phpSheet->getDefaultColumnDimension()->setWidth($width /
256);

                    break;
                }
               
$this->phpSheet->getColumnDimensionByColumn($i)->setWidth($width /
256);
               
$this->phpSheet->getColumnDimensionByColumn($i)->setVisible(!$isHidden);
               
$this->phpSheet->getColumnDimensionByColumn($i)->setOutlineLevel($level);
               
$this->phpSheet->getColumnDimensionByColumn($i)->setCollapsed($isCollapsed);
               
$this->phpSheet->getColumnDimensionByColumn($i)->setXfIndex($this->mapCellXfIndex[$xfIndex]);
            }
        }
    }

    /**
     * ROW.
     *
     * This record contains the properties of a single row in a
     * sheet. Rows and cells in a sheet are divided into blocks
     * of 32 rows.
     *
     * --    "OpenOffice.org's Documentation of the Microsoft
     *         Excel File Format"
     */
    private function readRow()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        if (!$this->readDataOnly) {
            // offset: 0; size: 2; index of this row
            $r = self::getUInt2d($recordData, 0);

            // offset: 2; size: 2; index to column of the first cell which
is described by a cell record

            // offset: 4; size: 2; index to column of the last cell which
is described by a cell record, increased by 1

            // offset: 6; size: 2;

            // bit: 14-0; mask: 0x7FFF; height of the row, in twips = 1/20
of a point
            $height = (0x7FFF & self::getUInt2d($recordData, 6))
>> 0;

            // bit: 15: mask: 0x8000; 0 = row has custom height; 1= row has
default height
            $useDefaultHeight = (0x8000 & self::getUInt2d($recordData,
6)) >> 15;

            if (!$useDefaultHeight) {
                $this->phpSheet->getRowDimension($r +
1)->setRowHeight($height / 20);
            }

            // offset: 8; size: 2; not used

            // offset: 10; size: 2; not used in BIFF5-BIFF8

            // offset: 12; size: 4; option flags and default row formatting

            // bit: 2-0: mask: 0x00000007; outline level of the row
            $level = (0x00000007 & self::getInt4d($recordData, 12))
>> 0;
            $this->phpSheet->getRowDimension($r +
1)->setOutlineLevel($level);

            // bit: 4; mask: 0x00000010; 1 = outline group start or ends
here... and is collapsed
            $isCollapsed = (0x00000010 & self::getInt4d($recordData,
12)) >> 4;
            $this->phpSheet->getRowDimension($r +
1)->setCollapsed($isCollapsed);

            // bit: 5; mask: 0x00000020; 1 = row is hidden
            $isHidden = (0x00000020 & self::getInt4d($recordData, 12))
>> 5;
            $this->phpSheet->getRowDimension($r +
1)->setVisible(!$isHidden);

            // bit: 7; mask: 0x00000080; 1 = row has explicit format
            $hasExplicitFormat = (0x00000080 &
self::getInt4d($recordData, 12)) >> 7;

            // bit: 27-16; mask: 0x0FFF0000; only applies when
hasExplicitFormat = 1; index to XF record
            $xfIndex = (0x0FFF0000 & self::getInt4d($recordData, 12))
>> 16;

            if ($hasExplicitFormat &&
isset($this->mapCellXfIndex[$xfIndex])) {
                $this->phpSheet->getRowDimension($r +
1)->setXfIndex($this->mapCellXfIndex[$xfIndex]);
            }
        }
    }

    /**
     * Read RK record
     * This record represents a cell that contains an RK value
     * (encoded integer or floating-point value). If a
     * floating-point value cannot be encoded to an RK value,
     * a NUMBER record will be written. This record replaces the
     * record INTEGER written in BIFF2.
     *
     * --    "OpenOffice.org's Documentation of the Microsoft
     *         Excel File Format"
     */
    private function readRk()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        // offset: 0; size: 2; index to row
        $row = self::getUInt2d($recordData, 0);

        // offset: 2; size: 2; index to column
        $column = self::getUInt2d($recordData, 2);
        $columnString = Coordinate::stringFromColumnIndex($column + 1);

        // Read cell?
        if (($this->getReadFilter() !== null) &&
$this->getReadFilter()->readCell($columnString, $row + 1,
$this->phpSheet->getTitle())) {
            // offset: 4; size: 2; index to XF record
            $xfIndex = self::getUInt2d($recordData, 4);

            // offset: 6; size: 4; RK value
            $rknum = self::getInt4d($recordData, 6);
            $numValue = self::getIEEE754($rknum);

            $cell = $this->phpSheet->getCell($columnString . ($row +
1));
            if (!$this->readDataOnly) {
                // add style information
                $cell->setXfIndex($this->mapCellXfIndex[$xfIndex]);
            }

            // add cell
            $cell->setValueExplicit($numValue, DataType::TYPE_NUMERIC);
        }
    }

    /**
     * Read LABELSST record
     * This record represents a cell that contains a string. It
     * replaces the LABEL record and RSTRING record used in
     * BIFF2-BIFF5.
     *
     * --    "OpenOffice.org's Documentation of the Microsoft
     *         Excel File Format"
     */
    private function readLabelSst()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        // offset: 0; size: 2; index to row
        $row = self::getUInt2d($recordData, 0);

        // offset: 2; size: 2; index to column
        $column = self::getUInt2d($recordData, 2);
        $columnString = Coordinate::stringFromColumnIndex($column + 1);

        $emptyCell = true;
        // Read cell?
        if (($this->getReadFilter() !== null) &&
$this->getReadFilter()->readCell($columnString, $row + 1,
$this->phpSheet->getTitle())) {
            // offset: 4; size: 2; index to XF record
            $xfIndex = self::getUInt2d($recordData, 4);

            // offset: 6; size: 4; index to SST record
            $index = self::getInt4d($recordData, 6);

            // add cell
            if (($fmtRuns = $this->sst[$index]['fmtRuns'])
&& !$this->readDataOnly) {
                // then we should treat as rich text
                $richText = new RichText();
                $charPos = 0;
                $sstCount =
count($this->sst[$index]['fmtRuns']);
                for ($i = 0; $i <= $sstCount; ++$i) {
                    if (isset($fmtRuns[$i])) {
                        $text =
StringHelper::substring($this->sst[$index]['value'], $charPos,
$fmtRuns[$i]['charPos'] - $charPos);
                        $charPos = $fmtRuns[$i]['charPos'];
                    } else {
                        $text =
StringHelper::substring($this->sst[$index]['value'], $charPos,
StringHelper::countCharacters($this->sst[$index]['value']));
                    }

                    if (StringHelper::countCharacters($text) > 0) {
                        if ($i == 0) { // first text run, no style
                            $richText->createText($text);
                        } else {
                            $textRun = $richText->createTextRun($text);
                            if (isset($fmtRuns[$i - 1])) {
                                if ($fmtRuns[$i - 1]['fontIndex']
< 4) {
                                    $fontIndex = $fmtRuns[$i -
1]['fontIndex'];
                                } else {
                                    // this has to do with that index 4 is
omitted in all BIFF versions for some strange reason
                                    // check the OpenOffice documentation
of the FONT record
                                    $fontIndex = $fmtRuns[$i -
1]['fontIndex'] - 1;
                                }
                                $textRun->setFont(clone
$this->objFonts[$fontIndex]);
                            }
                        }
                    }
                }
                if ($this->readEmptyCells ||
trim($richText->getPlainText()) !== '') {
                    $cell = $this->phpSheet->getCell($columnString .
($row + 1));
                    $cell->setValueExplicit($richText,
DataType::TYPE_STRING);
                    $emptyCell = false;
                }
            } else {
                if ($this->readEmptyCells ||
trim($this->sst[$index]['value']) !== '') {
                    $cell = $this->phpSheet->getCell($columnString .
($row + 1));
                   
$cell->setValueExplicit($this->sst[$index]['value'],
DataType::TYPE_STRING);
                    $emptyCell = false;
                }
            }

            if (!$this->readDataOnly && !$emptyCell &&
isset($this->mapCellXfIndex[$xfIndex])) {
                // add style information
                $cell->setXfIndex($this->mapCellXfIndex[$xfIndex]);
            }
        }
    }

    /**
     * Read MULRK record
     * This record represents a cell range containing RK value
     * cells. All cells are located in the same row.
     *
     * --    "OpenOffice.org's Documentation of the Microsoft
     *         Excel File Format"
     */
    private function readMulRk()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        // offset: 0; size: 2; index to row
        $row = self::getUInt2d($recordData, 0);

        // offset: 2; size: 2; index to first column
        $colFirst = self::getUInt2d($recordData, 2);

        // offset: var; size: 2; index to last column
        $colLast = self::getUInt2d($recordData, $length - 2);
        $columns = $colLast - $colFirst + 1;

        // offset within record data
        $offset = 4;

        for ($i = 1; $i <= $columns; ++$i) {
            $columnString = Coordinate::stringFromColumnIndex($colFirst +
$i);

            // Read cell?
            if (($this->getReadFilter() !== null) &&
$this->getReadFilter()->readCell($columnString, $row + 1,
$this->phpSheet->getTitle())) {
                // offset: var; size: 2; index to XF record
                $xfIndex = self::getUInt2d($recordData, $offset);

                // offset: var; size: 4; RK value
                $numValue = self::getIEEE754(self::getInt4d($recordData,
$offset + 2));
                $cell = $this->phpSheet->getCell($columnString .
($row + 1));
                if (!$this->readDataOnly) {
                    // add style
                   
$cell->setXfIndex($this->mapCellXfIndex[$xfIndex]);
                }

                // add cell value
                $cell->setValueExplicit($numValue,
DataType::TYPE_NUMERIC);
            }

            $offset += 6;
        }
    }

    /**
     * Read NUMBER record
     * This record represents a cell that contains a
     * floating-point value.
     *
     * --    "OpenOffice.org's Documentation of the Microsoft
     *         Excel File Format"
     */
    private function readNumber()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        // offset: 0; size: 2; index to row
        $row = self::getUInt2d($recordData, 0);

        // offset: 2; size 2; index to column
        $column = self::getUInt2d($recordData, 2);
        $columnString = Coordinate::stringFromColumnIndex($column + 1);

        // Read cell?
        if (($this->getReadFilter() !== null) &&
$this->getReadFilter()->readCell($columnString, $row + 1,
$this->phpSheet->getTitle())) {
            // offset 4; size: 2; index to XF record
            $xfIndex = self::getUInt2d($recordData, 4);

            $numValue = self::extractNumber(substr($recordData, 6, 8));

            $cell = $this->phpSheet->getCell($columnString . ($row +
1));
            if (!$this->readDataOnly) {
                // add cell style
                $cell->setXfIndex($this->mapCellXfIndex[$xfIndex]);
            }

            // add cell value
            $cell->setValueExplicit($numValue, DataType::TYPE_NUMERIC);
        }
    }

    /**
     * Read FORMULA record + perhaps a following STRING record if formula
result is a string
     * This record contains the token array and the result of a
     * formula cell.
     *
     * --    "OpenOffice.org's Documentation of the Microsoft
     *         Excel File Format"
     */
    private function readFormula()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        // offset: 0; size: 2; row index
        $row = self::getUInt2d($recordData, 0);

        // offset: 2; size: 2; col index
        $column = self::getUInt2d($recordData, 2);
        $columnString = Coordinate::stringFromColumnIndex($column + 1);

        // offset: 20: size: variable; formula structure
        $formulaStructure = substr($recordData, 20);

        // offset: 14: size: 2; option flags, recalculate always,
recalculate on open etc.
        $options = self::getUInt2d($recordData, 14);

        // bit: 0; mask: 0x0001; 1 = recalculate always
        // bit: 1; mask: 0x0002; 1 = calculate on open
        // bit: 2; mask: 0x0008; 1 = part of a shared formula
        $isPartOfSharedFormula = (bool) (0x0008 & $options);

        // WARNING:
        // We can apparently not rely on $isPartOfSharedFormula. Even when
$isPartOfSharedFormula = true
        // the formula data may be ordinary formula data, therefore we need
to check
        // explicitly for the tExp token (0x01)
        $isPartOfSharedFormula = $isPartOfSharedFormula &&
ord($formulaStructure[2]) == 0x01;

        if ($isPartOfSharedFormula) {
            // part of shared formula which means there will be a formula
with a tExp token and nothing else
            // get the base cell, grab tExp token
            $baseRow = self::getUInt2d($formulaStructure, 3);
            $baseCol = self::getUInt2d($formulaStructure, 5);
            $this->baseCell = Coordinate::stringFromColumnIndex($baseCol
+ 1) . ($baseRow + 1);
        }

        // Read cell?
        if (($this->getReadFilter() !== null) &&
$this->getReadFilter()->readCell($columnString, $row + 1,
$this->phpSheet->getTitle())) {
            if ($isPartOfSharedFormula) {
                // formula is added to this cell after the sheet has been
read
                $this->sharedFormulaParts[$columnString . ($row + 1)] =
$this->baseCell;
            }

            // offset: 16: size: 4; not used

            // offset: 4; size: 2; XF index
            $xfIndex = self::getUInt2d($recordData, 4);

            // offset: 6; size: 8; result of the formula
            if ((ord($recordData[6]) == 0) && (ord($recordData[12])
== 255) && (ord($recordData[13]) == 255)) {
                // String formula. Result follows in appended STRING record
                $dataType = DataType::TYPE_STRING;

                // read possible SHAREDFMLA record
                $code = self::getUInt2d($this->data, $this->pos);
                if ($code == self::XLS_TYPE_SHAREDFMLA) {
                    $this->readSharedFmla();
                }

                // read STRING record
                $value = $this->readString();
            } elseif ((ord($recordData[6]) == 1)
                && (ord($recordData[12]) == 255)
                && (ord($recordData[13]) == 255)) {
                // Boolean formula. Result is in +2; 0=false, 1=true
                $dataType = DataType::TYPE_BOOL;
                $value = (bool) ord($recordData[8]);
            } elseif ((ord($recordData[6]) == 2)
                && (ord($recordData[12]) == 255)
                && (ord($recordData[13]) == 255)) {
                // Error formula. Error code is in +2
                $dataType = DataType::TYPE_ERROR;
                $value = Xls\ErrorCode::lookup(ord($recordData[8]));
            } elseif ((ord($recordData[6]) == 3)
                && (ord($recordData[12]) == 255)
                && (ord($recordData[13]) == 255)) {
                // Formula result is a null string
                $dataType = DataType::TYPE_NULL;
                $value = '';
            } else {
                // forumla result is a number, first 14 bytes like _NUMBER
record
                $dataType = DataType::TYPE_NUMERIC;
                $value = self::extractNumber(substr($recordData, 6, 8));
            }

            $cell = $this->phpSheet->getCell($columnString . ($row +
1));
            if (!$this->readDataOnly) {
                // add cell style
                $cell->setXfIndex($this->mapCellXfIndex[$xfIndex]);
            }

            // store the formula
            if (!$isPartOfSharedFormula) {
                // not part of shared formula
                // add cell value. If we can read formula, populate with
formula, otherwise just used cached value
                try {
                    if ($this->version != self::XLS_BIFF8) {
                        throw new Exception('Not BIFF8. Can only read
BIFF8 formulas');
                    }
                    $formula =
$this->getFormulaFromStructure($formulaStructure); // get formula in
human language
                    $cell->setValueExplicit('=' . $formula,
DataType::TYPE_FORMULA);
                } catch (PhpSpreadsheetException $e) {
                    $cell->setValueExplicit($value, $dataType);
                }
            } else {
                if ($this->version == self::XLS_BIFF8) {
                    // do nothing at this point, formula id added later in
the code
                } else {
                    $cell->setValueExplicit($value, $dataType);
                }
            }

            // store the cached calculated value
            $cell->setCalculatedValue($value);
        }
    }

    /**
     * Read a SHAREDFMLA record. This function just stores the binary
shared formula in the reader,
     * which usually contains relative references.
     * These will be used to construct the formula in each shared formula
part after the sheet is read.
     */
    private function readSharedFmla()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        // offset: 0, size: 6; cell range address of the area used by the
shared formula, not used for anything
        $cellRange = substr($recordData, 0, 6);
        $cellRange = $this->readBIFF5CellRangeAddressFixed($cellRange);
// note: even BIFF8 uses BIFF5 syntax

        // offset: 6, size: 1; not used

        // offset: 7, size: 1; number of existing FORMULA records for this
shared formula
        $no = ord($recordData[7]);

        // offset: 8, size: var; Binary token array of the shared formula
        $formula = substr($recordData, 8);

        // at this point we only store the shared formula for later use
        $this->sharedFormulas[$this->baseCell] = $formula;
    }

    /**
     * Read a STRING record from current stream position and advance the
stream pointer to next record
     * This record is used for storing result from FORMULA record when it
is a string, and
     * it occurs directly after the FORMULA record.
     *
     * @return string The string contents as UTF-8
     */
    private function readString()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        if ($this->version == self::XLS_BIFF8) {
            $string = self::readUnicodeStringLong($recordData);
            $value = $string['value'];
        } else {
            $string = $this->readByteStringLong($recordData);
            $value = $string['value'];
        }

        return $value;
    }

    /**
     * Read BOOLERR record
     * This record represents a Boolean value or error value
     * cell.
     *
     * --    "OpenOffice.org's Documentation of the Microsoft
     *         Excel File Format"
     */
    private function readBoolErr()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        // offset: 0; size: 2; row index
        $row = self::getUInt2d($recordData, 0);

        // offset: 2; size: 2; column index
        $column = self::getUInt2d($recordData, 2);
        $columnString = Coordinate::stringFromColumnIndex($column + 1);

        // Read cell?
        if (($this->getReadFilter() !== null) &&
$this->getReadFilter()->readCell($columnString, $row + 1,
$this->phpSheet->getTitle())) {
            // offset: 4; size: 2; index to XF record
            $xfIndex = self::getUInt2d($recordData, 4);

            // offset: 6; size: 1; the boolean value or error value
            $boolErr = ord($recordData[6]);

            // offset: 7; size: 1; 0=boolean; 1=error
            $isError = ord($recordData[7]);

            $cell = $this->phpSheet->getCell($columnString . ($row +
1));
            switch ($isError) {
                case 0: // boolean
                    $value = (bool) $boolErr;

                    // add cell value
                    $cell->setValueExplicit($value,
DataType::TYPE_BOOL);

                    break;
                case 1: // error type
                    $value = Xls\ErrorCode::lookup($boolErr);

                    // add cell value
                    $cell->setValueExplicit($value,
DataType::TYPE_ERROR);

                    break;
            }

            if (!$this->readDataOnly) {
                // add cell style
                $cell->setXfIndex($this->mapCellXfIndex[$xfIndex]);
            }
        }
    }

    /**
     * Read MULBLANK record
     * This record represents a cell range of empty cells. All
     * cells are located in the same row.
     *
     * --    "OpenOffice.org's Documentation of the Microsoft
     *         Excel File Format"
     */
    private function readMulBlank()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        // offset: 0; size: 2; index to row
        $row = self::getUInt2d($recordData, 0);

        // offset: 2; size: 2; index to first column
        $fc = self::getUInt2d($recordData, 2);

        // offset: 4; size: 2 x nc; list of indexes to XF records
        // add style information
        if (!$this->readDataOnly && $this->readEmptyCells) {
            for ($i = 0; $i < $length / 2 - 3; ++$i) {
                $columnString = Coordinate::stringFromColumnIndex($fc + $i
+ 1);

                // Read cell?
                if (($this->getReadFilter() !== null) &&
$this->getReadFilter()->readCell($columnString, $row + 1,
$this->phpSheet->getTitle())) {
                    $xfIndex = self::getUInt2d($recordData, 4 + 2 * $i);
                    $this->phpSheet->getCell($columnString . ($row +
1))->setXfIndex($this->mapCellXfIndex[$xfIndex]);
                }
            }
        }

        // offset: 6; size 2; index to last column (not needed)
    }

    /**
     * Read LABEL record
     * This record represents a cell that contains a string. In
     * BIFF8 it is usually replaced by the LABELSST record.
     * Excel still uses this record, if it copies unformatted
     * text cells to the clipboard.
     *
     * --    "OpenOffice.org's Documentation of the Microsoft
     *         Excel File Format"
     */
    private function readLabel()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        // offset: 0; size: 2; index to row
        $row = self::getUInt2d($recordData, 0);

        // offset: 2; size: 2; index to column
        $column = self::getUInt2d($recordData, 2);
        $columnString = Coordinate::stringFromColumnIndex($column + 1);

        // Read cell?
        if (($this->getReadFilter() !== null) &&
$this->getReadFilter()->readCell($columnString, $row + 1,
$this->phpSheet->getTitle())) {
            // offset: 4; size: 2; XF index
            $xfIndex = self::getUInt2d($recordData, 4);

            // add cell value
            // todo: what if string is very long? continue record
            if ($this->version == self::XLS_BIFF8) {
                $string = self::readUnicodeStringLong(substr($recordData,
6));
                $value = $string['value'];
            } else {
                $string = $this->readByteStringLong(substr($recordData,
6));
                $value = $string['value'];
            }
            if ($this->readEmptyCells || trim($value) !== '')
{
                $cell = $this->phpSheet->getCell($columnString .
($row + 1));
                $cell->setValueExplicit($value, DataType::TYPE_STRING);

                if (!$this->readDataOnly) {
                    // add cell style
                   
$cell->setXfIndex($this->mapCellXfIndex[$xfIndex]);
                }
            }
        }
    }

    /**
     * Read BLANK record.
     */
    private function readBlank()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        // offset: 0; size: 2; row index
        $row = self::getUInt2d($recordData, 0);

        // offset: 2; size: 2; col index
        $col = self::getUInt2d($recordData, 2);
        $columnString = Coordinate::stringFromColumnIndex($col + 1);

        // Read cell?
        if (($this->getReadFilter() !== null) &&
$this->getReadFilter()->readCell($columnString, $row + 1,
$this->phpSheet->getTitle())) {
            // offset: 4; size: 2; XF index
            $xfIndex = self::getUInt2d($recordData, 4);

            // add style information
            if (!$this->readDataOnly &&
$this->readEmptyCells) {
                $this->phpSheet->getCell($columnString . ($row +
1))->setXfIndex($this->mapCellXfIndex[$xfIndex]);
            }
        }
    }

    /**
     * Read MSODRAWING record.
     */
    private function readMsoDrawing()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);

        // get spliced record data
        $splicedRecordData = $this->getSplicedRecordData();
        $recordData = $splicedRecordData['recordData'];

        $this->drawingData .= $recordData;
    }

    /**
     * Read OBJ record.
     */
    private function readObj()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        if ($this->readDataOnly || $this->version != self::XLS_BIFF8)
{
            return;
        }

        // recordData consists of an array of subrecords looking like this:
        //    ft: 2 bytes; ftCmo type (0x15)
        //    cb: 2 bytes; size in bytes of ftCmo data
        //    ot: 2 bytes; Object Type
        //    id: 2 bytes; Object id number
        //    grbit: 2 bytes; Option Flags
        //    data: var; subrecord data

        // for now, we are just interested in the second subrecord
containing the object type
        $ftCmoType = self::getUInt2d($recordData, 0);
        $cbCmoSize = self::getUInt2d($recordData, 2);
        $otObjType = self::getUInt2d($recordData, 4);
        $idObjID = self::getUInt2d($recordData, 6);
        $grbitOpts = self::getUInt2d($recordData, 6);

        $this->objs[] = [
            'ftCmoType' => $ftCmoType,
            'cbCmoSize' => $cbCmoSize,
            'otObjType' => $otObjType,
            'idObjID' => $idObjID,
            'grbitOpts' => $grbitOpts,
        ];
        $this->textObjRef = $idObjID;
    }

    /**
     * Read WINDOW2 record.
     */
    private function readWindow2()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        // offset: 0; size: 2; option flags
        $options = self::getUInt2d($recordData, 0);

        // offset: 2; size: 2; index to first visible row
        $firstVisibleRow = self::getUInt2d($recordData, 2);

        // offset: 4; size: 2; index to first visible colum
        $firstVisibleColumn = self::getUInt2d($recordData, 4);
        if ($this->version === self::XLS_BIFF8) {
            // offset:  8; size: 2; not used
            // offset: 10; size: 2; cached magnification factor in page
break preview (in percent); 0 = Default (60%)
            // offset: 12; size: 2; cached magnification factor in normal
view (in percent); 0 = Default (100%)
            // offset: 14; size: 4; not used
            $zoomscaleInPageBreakPreview = self::getUInt2d($recordData,
10);
            if ($zoomscaleInPageBreakPreview === 0) {
                $zoomscaleInPageBreakPreview = 60;
            }
            $zoomscaleInNormalView = self::getUInt2d($recordData, 12);
            if ($zoomscaleInNormalView === 0) {
                $zoomscaleInNormalView = 100;
            }
        }

        // bit: 1; mask: 0x0002; 0 = do not show gridlines, 1 = show
gridlines
        $showGridlines = (bool) ((0x0002 & $options) >> 1);
        $this->phpSheet->setShowGridlines($showGridlines);

        // bit: 2; mask: 0x0004; 0 = do not show headers, 1 = show headers
        $showRowColHeaders = (bool) ((0x0004 & $options) >> 2);
        $this->phpSheet->setShowRowColHeaders($showRowColHeaders);

        // bit: 3; mask: 0x0008; 0 = panes are not frozen, 1 = panes are
frozen
        $this->frozen = (bool) ((0x0008 & $options) >> 3);

        // bit: 6; mask: 0x0040; 0 = columns from left to right, 1 =
columns from right to left
        $this->phpSheet->setRightToLeft((bool) ((0x0040 &
$options) >> 6));

        // bit: 10; mask: 0x0400; 0 = sheet not active, 1 = sheet active
        $isActive = (bool) ((0x0400 & $options) >> 10);
        if ($isActive) {
           
$this->spreadsheet->setActiveSheetIndex($this->spreadsheet->getIndex($this->phpSheet));
        }

        // bit: 11; mask: 0x0800; 0 = normal view, 1 = page break view
        $isPageBreakPreview = (bool) ((0x0800 & $options) >> 11);

        //FIXME: set $firstVisibleRow and $firstVisibleColumn

        if ($this->phpSheet->getSheetView()->getView() !==
SheetView::SHEETVIEW_PAGE_LAYOUT) {
            //NOTE: this setting is inferior to page layout
view(Excel2007-)
            $view = $isPageBreakPreview ?
SheetView::SHEETVIEW_PAGE_BREAK_PREVIEW : SheetView::SHEETVIEW_NORMAL;
            $this->phpSheet->getSheetView()->setView($view);
            if ($this->version === self::XLS_BIFF8) {
                $zoomScale = $isPageBreakPreview ?
$zoomscaleInPageBreakPreview : $zoomscaleInNormalView;
               
$this->phpSheet->getSheetView()->setZoomScale($zoomScale);
               
$this->phpSheet->getSheetView()->setZoomScaleNormal($zoomscaleInNormalView);
            }
        }
    }

    /**
     * Read PLV Record(Created by Excel2007 or upper).
     */
    private function readPageLayoutView()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        // offset: 0; size: 2; rt
        //->ignore
        $rt = self::getUInt2d($recordData, 0);
        // offset: 2; size: 2; grbitfr
        //->ignore
        $grbitFrt = self::getUInt2d($recordData, 2);
        // offset: 4; size: 8; reserved
        //->ignore

        // offset: 12; size 2; zoom scale
        $wScalePLV = self::getUInt2d($recordData, 12);
        // offset: 14; size 2; grbit
        $grbit = self::getUInt2d($recordData, 14);

        // decomprise grbit
        $fPageLayoutView = $grbit & 0x01;
        $fRulerVisible = ($grbit >> 1) & 0x01; //no support
        $fWhitespaceHidden = ($grbit >> 3) & 0x01; //no support

        if ($fPageLayoutView === 1) {
           
$this->phpSheet->getSheetView()->setView(SheetView::SHEETVIEW_PAGE_LAYOUT);
           
$this->phpSheet->getSheetView()->setZoomScale($wScalePLV); //set
by Excel2007 only if SHEETVIEW_PAGE_LAYOUT
        }
        //otherwise, we cannot know whether SHEETVIEW_PAGE_LAYOUT or
SHEETVIEW_PAGE_BREAK_PREVIEW.
    }

    /**
     * Read SCL record.
     */
    private function readScl()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        // offset: 0; size: 2; numerator of the view magnification
        $numerator = self::getUInt2d($recordData, 0);

        // offset: 2; size: 2; numerator of the view magnification
        $denumerator = self::getUInt2d($recordData, 2);

        // set the zoom scale (in percent)
        $this->phpSheet->getSheetView()->setZoomScale($numerator *
100 / $denumerator);
    }

    /**
     * Read PANE record.
     */
    private function readPane()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        if (!$this->readDataOnly) {
            // offset: 0; size: 2; position of vertical split
            $px = self::getUInt2d($recordData, 0);

            // offset: 2; size: 2; position of horizontal split
            $py = self::getUInt2d($recordData, 2);

            // offset: 4; size: 2; top most visible row in the bottom pane
            $rwTop = self::getUInt2d($recordData, 4);

            // offset: 6; size: 2; first visible left column in the right
pane
            $colLeft = self::getUInt2d($recordData, 6);

            if ($this->frozen) {
                // frozen panes
                $cell = Coordinate::stringFromColumnIndex($px + 1) . ($py +
1);
                $topLeftCell = Coordinate::stringFromColumnIndex($colLeft +
1) . ($rwTop + 1);
                $this->phpSheet->freezePane($cell, $topLeftCell);
            }
            // unfrozen panes; split windows; not supported by
PhpSpreadsheet core
        }
    }

    /**
     * Read SELECTION record. There is one such record for each pane in the
sheet.
     */
    private function readSelection()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        if (!$this->readDataOnly) {
            // offset: 0; size: 1; pane identifier
            $paneId = ord($recordData[0]);

            // offset: 1; size: 2; index to row of the active cell
            $r = self::getUInt2d($recordData, 1);

            // offset: 3; size: 2; index to column of the active cell
            $c = self::getUInt2d($recordData, 3);

            // offset: 5; size: 2; index into the following cell range list
to the
            //  entry that contains the active cell
            $index = self::getUInt2d($recordData, 5);

            // offset: 7; size: var; cell range address list containing all
selected cell ranges
            $data = substr($recordData, 7);
            $cellRangeAddressList =
$this->readBIFF5CellRangeAddressList($data); // note: also BIFF8 uses
BIFF5 syntax

            $selectedCells =
$cellRangeAddressList['cellRangeAddresses'][0];

            // first row '1' + last row '16384'
indicates that full column is selected (apparently also in BIFF8!)
            if (preg_match('/^([A-Z]+1\:[A-Z]+)16384$/',
$selectedCells)) {
                $selectedCells =
preg_replace('/^([A-Z]+1\:[A-Z]+)16384$/',
'${1}1048576', $selectedCells);
            }

            // first row '1' + last row '65536'
indicates that full column is selected
            if (preg_match('/^([A-Z]+1\:[A-Z]+)65536$/',
$selectedCells)) {
                $selectedCells =
preg_replace('/^([A-Z]+1\:[A-Z]+)65536$/',
'${1}1048576', $selectedCells);
            }

            // first column 'A' + last column 'IV'
indicates that full row is selected
            if (preg_match('/^(A\d+\:)IV(\d+)$/',
$selectedCells)) {
                $selectedCells =
preg_replace('/^(A\d+\:)IV(\d+)$/', '${1}XFD${2}',
$selectedCells);
            }

            $this->phpSheet->setSelectedCells($selectedCells);
        }
    }

    private function includeCellRangeFiltered($cellRangeAddress)
    {
        $includeCellRange = true;
        if ($this->getReadFilter() !== null) {
            $includeCellRange = false;
            $rangeBoundaries =
Coordinate::getRangeBoundaries($cellRangeAddress);
            ++$rangeBoundaries[1][0];
            for ($row = $rangeBoundaries[0][1]; $row <=
$rangeBoundaries[1][1]; ++$row) {
                for ($column = $rangeBoundaries[0][0]; $column !=
$rangeBoundaries[1][0]; ++$column) {
                    if ($this->getReadFilter()->readCell($column,
$row, $this->phpSheet->getTitle())) {
                        $includeCellRange = true;

                        break 2;
                    }
                }
            }
        }

        return $includeCellRange;
    }

    /**
     * MERGEDCELLS.
     *
     * This record contains the addresses of merged cell ranges
     * in the current sheet.
     *
     * --    "OpenOffice.org's Documentation of the Microsoft
     *         Excel File Format"
     */
    private function readMergedCells()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        if ($this->version == self::XLS_BIFF8 &&
!$this->readDataOnly) {
            $cellRangeAddressList =
$this->readBIFF8CellRangeAddressList($recordData);
            foreach ($cellRangeAddressList['cellRangeAddresses']
as $cellRangeAddress) {
                if ((strpos($cellRangeAddress, ':') !== false)
&&
                   
($this->includeCellRangeFiltered($cellRangeAddress))) {
                    $this->phpSheet->mergeCells($cellRangeAddress);
                }
            }
        }
    }

    /**
     * Read HYPERLINK record.
     */
    private function readHyperLink()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer forward to next record
        $this->pos += 4 + $length;

        if (!$this->readDataOnly) {
            // offset: 0; size: 8; cell range address of all cells
containing this hyperlink
            try {
                $cellRange =
$this->readBIFF8CellRangeAddressFixed($recordData);
            } catch (PhpSpreadsheetException $e) {
                return;
            }

            // offset: 8, size: 16; GUID of StdLink

            // offset: 24, size: 4; unknown value

            // offset: 28, size: 4; option flags
            // bit: 0; mask: 0x00000001; 0 = no link or extant, 1 = file
link or URL
            $isFileLinkOrUrl = (0x00000001 &
self::getUInt2d($recordData, 28)) >> 0;

            // bit: 1; mask: 0x00000002; 0 = relative path, 1 = absolute
path or URL
            $isAbsPathOrUrl = (0x00000001 &
self::getUInt2d($recordData, 28)) >> 1;

            // bit: 2 (and 4); mask: 0x00000014; 0 = no description
            $hasDesc = (0x00000014 & self::getUInt2d($recordData, 28))
>> 2;

            // bit: 3; mask: 0x00000008; 0 = no text, 1 = has text
            $hasText = (0x00000008 & self::getUInt2d($recordData, 28))
>> 3;

            // bit: 7; mask: 0x00000080; 0 = no target frame, 1 = has
target frame
            $hasFrame = (0x00000080 & self::getUInt2d($recordData, 28))
>> 7;

            // bit: 8; mask: 0x00000100; 0 = file link or URL, 1 = UNC path
(inc. server name)
            $isUNC = (0x00000100 & self::getUInt2d($recordData, 28))
>> 8;

            // offset within record data
            $offset = 32;

            if ($hasDesc) {
                // offset: 32; size: var; character count of description
text
                $dl = self::getInt4d($recordData, 32);
                // offset: 36; size: var; character array of description
text, no Unicode string header, always 16-bit characters, zero terminated
                $desc = self::encodeUTF16(substr($recordData, 36, 2 * ($dl
- 1)), false);
                $offset += 4 + 2 * $dl;
            }
            if ($hasFrame) {
                $fl = self::getInt4d($recordData, $offset);
                $offset += 4 + 2 * $fl;
            }

            // detect type of hyperlink (there are 4 types)
            $hyperlinkType = null;

            if ($isUNC) {
                $hyperlinkType = 'UNC';
            } elseif (!$isFileLinkOrUrl) {
                $hyperlinkType = 'workbook';
            } elseif (ord($recordData[$offset]) == 0x03) {
                $hyperlinkType = 'local';
            } elseif (ord($recordData[$offset]) == 0xE0) {
                $hyperlinkType = 'URL';
            }

            switch ($hyperlinkType) {
                case 'URL':
                    // section 5.58.2: Hyperlink containing a URL
                    // e.g. http://example.org/index.php

                    // offset: var; size: 16; GUID of URL Moniker
                    $offset += 16;
                    // offset: var; size: 4; size (in bytes) of character
array of the URL including trailing zero word
                    $us = self::getInt4d($recordData, $offset);
                    $offset += 4;
                    // offset: var; size: $us; character array of the URL,
no Unicode string header, always 16-bit characters, zero-terminated
                    $url = self::encodeUTF16(substr($recordData, $offset,
$us - 2), false);
                    $nullOffset = strpos($url, chr(0x00));
                    if ($nullOffset) {
                        $url = substr($url, 0, $nullOffset);
                    }
                    $url .= $hasText ? '#' : '';
                    $offset += $us;

                    break;
                case 'local':
                    // section 5.58.3: Hyperlink to local file
                    // examples:
                    //   mydoc.txt
                    //   ../../somedoc.xls#Sheet!A1

                    // offset: var; size: 16; GUI of File Moniker
                    $offset += 16;

                    // offset: var; size: 2; directory up-level count.
                    $upLevelCount = self::getUInt2d($recordData, $offset);
                    $offset += 2;

                    // offset: var; size: 4; character count of the
shortened file path and name, including trailing zero word
                    $sl = self::getInt4d($recordData, $offset);
                    $offset += 4;

                    // offset: var; size: sl; character array of the
shortened file path and name in 8.3-DOS-format (compressed Unicode string)
                    $shortenedFilePath = substr($recordData, $offset, $sl);
                    $shortenedFilePath =
self::encodeUTF16($shortenedFilePath, true);
                    $shortenedFilePath = substr($shortenedFilePath, 0, -1);
// remove trailing zero

                    $offset += $sl;

                    // offset: var; size: 24; unknown sequence
                    $offset += 24;

                    // extended file path
                    // offset: var; size: 4; size of the following file
link field including string lenth mark
                    $sz = self::getInt4d($recordData, $offset);
                    $offset += 4;

                    // only present if $sz > 0
                    if ($sz > 0) {
                        // offset: var; size: 4; size of the character
array of the extended file path and name
                        $xl = self::getInt4d($recordData, $offset);
                        $offset += 4;

                        // offset: var; size 2; unknown
                        $offset += 2;

                        // offset: var; size $xl; character array of the
extended file path and name.
                        $extendedFilePath = substr($recordData, $offset,
$xl);
                        $extendedFilePath =
self::encodeUTF16($extendedFilePath, false);
                        $offset += $xl;
                    }

                    // construct the path
                    $url = str_repeat('..\\', $upLevelCount);
                    $url .= ($sz > 0) ? $extendedFilePath :
$shortenedFilePath; // use extended path if available
                    $url .= $hasText ? '#' : '';

                    break;
                case 'UNC':
                    // section 5.58.4: Hyperlink to a File with UNC
(Universal Naming Convention) Path
                    // todo: implement
                    return;
                case 'workbook':
                    // section 5.58.5: Hyperlink to the Current Workbook
                    // e.g. Sheet2!B1:C2, stored in text mark field
                    $url = 'sheet://';

                    break;
                default:
                    return;
            }

            if ($hasText) {
                // offset: var; size: 4; character count of text mark
including trailing zero word
                $tl = self::getInt4d($recordData, $offset);
                $offset += 4;
                // offset: var; size: var; character array of the text mark
without the # sign, no Unicode header, always 16-bit characters,
zero-terminated
                $text = self::encodeUTF16(substr($recordData, $offset, 2 *
($tl - 1)), false);
                $url .= $text;
            }

            // apply the hyperlink to all the relevant cells
            foreach
(Coordinate::extractAllCellReferencesInRange($cellRange) as $coordinate) {
               
$this->phpSheet->getCell($coordinate)->getHyperLink()->setUrl($url);
            }
        }
    }

    /**
     * Read DATAVALIDATIONS record.
     */
    private function readDataValidations()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer forward to next record
        $this->pos += 4 + $length;
    }

    /**
     * Read DATAVALIDATION record.
     */
    private function readDataValidation()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer forward to next record
        $this->pos += 4 + $length;

        if ($this->readDataOnly) {
            return;
        }

        // offset: 0; size: 4; Options
        $options = self::getInt4d($recordData, 0);

        // bit: 0-3; mask: 0x0000000F; type
        $type = (0x0000000F & $options) >> 0;
        switch ($type) {
            case 0x00:
                $type = DataValidation::TYPE_NONE;

                break;
            case 0x01:
                $type = DataValidation::TYPE_WHOLE;

                break;
            case 0x02:
                $type = DataValidation::TYPE_DECIMAL;

                break;
            case 0x03:
                $type = DataValidation::TYPE_LIST;

                break;
            case 0x04:
                $type = DataValidation::TYPE_DATE;

                break;
            case 0x05:
                $type = DataValidation::TYPE_TIME;

                break;
            case 0x06:
                $type = DataValidation::TYPE_TEXTLENGTH;

                break;
            case 0x07:
                $type = DataValidation::TYPE_CUSTOM;

                break;
        }

        // bit: 4-6; mask: 0x00000070; error type
        $errorStyle = (0x00000070 & $options) >> 4;
        switch ($errorStyle) {
            case 0x00:
                $errorStyle = DataValidation::STYLE_STOP;

                break;
            case 0x01:
                $errorStyle = DataValidation::STYLE_WARNING;

                break;
            case 0x02:
                $errorStyle = DataValidation::STYLE_INFORMATION;

                break;
        }

        // bit: 7; mask: 0x00000080; 1= formula is explicit (only applies
to list)
        // I have only seen cases where this is 1
        $explicitFormula = (0x00000080 & $options) >> 7;

        // bit: 8; mask: 0x00000100; 1= empty cells allowed
        $allowBlank = (0x00000100 & $options) >> 8;

        // bit: 9; mask: 0x00000200; 1= suppress drop down arrow in list
type validity
        $suppressDropDown = (0x00000200 & $options) >> 9;

        // bit: 18; mask: 0x00040000; 1= show prompt box if cell selected
        $showInputMessage = (0x00040000 & $options) >> 18;

        // bit: 19; mask: 0x00080000; 1= show error box if invalid values
entered
        $showErrorMessage = (0x00080000 & $options) >> 19;

        // bit: 20-23; mask: 0x00F00000; condition operator
        $operator = (0x00F00000 & $options) >> 20;
        switch ($operator) {
            case 0x00:
                $operator = DataValidation::OPERATOR_BETWEEN;

                break;
            case 0x01:
                $operator = DataValidation::OPERATOR_NOTBETWEEN;

                break;
            case 0x02:
                $operator = DataValidation::OPERATOR_EQUAL;

                break;
            case 0x03:
                $operator = DataValidation::OPERATOR_NOTEQUAL;

                break;
            case 0x04:
                $operator = DataValidation::OPERATOR_GREATERTHAN;

                break;
            case 0x05:
                $operator = DataValidation::OPERATOR_LESSTHAN;

                break;
            case 0x06:
                $operator = DataValidation::OPERATOR_GREATERTHANOREQUAL;

                break;
            case 0x07:
                $operator = DataValidation::OPERATOR_LESSTHANOREQUAL;

                break;
        }

        // offset: 4; size: var; title of the prompt box
        $offset = 4;
        $string = self::readUnicodeStringLong(substr($recordData,
$offset));
        $promptTitle = $string['value'] !== chr(0) ?
$string['value'] : '';
        $offset += $string['size'];

        // offset: var; size: var; title of the error box
        $string = self::readUnicodeStringLong(substr($recordData,
$offset));
        $errorTitle = $string['value'] !== chr(0) ?
$string['value'] : '';
        $offset += $string['size'];

        // offset: var; size: var; text of the prompt box
        $string = self::readUnicodeStringLong(substr($recordData,
$offset));
        $prompt = $string['value'] !== chr(0) ?
$string['value'] : '';
        $offset += $string['size'];

        // offset: var; size: var; text of the error box
        $string = self::readUnicodeStringLong(substr($recordData,
$offset));
        $error = $string['value'] !== chr(0) ?
$string['value'] : '';
        $offset += $string['size'];

        // offset: var; size: 2; size of the formula data for the first
condition
        $sz1 = self::getUInt2d($recordData, $offset);
        $offset += 2;

        // offset: var; size: 2; not used
        $offset += 2;

        // offset: var; size: $sz1; formula data for first condition
(without size field)
        $formula1 = substr($recordData, $offset, $sz1);
        $formula1 = pack('v', $sz1) . $formula1; // prepend the
length
        try {
            $formula1 = $this->getFormulaFromStructure($formula1);

            // in list type validity, null characters are used as item
separators
            if ($type == DataValidation::TYPE_LIST) {
                $formula1 = str_replace(chr(0), ',', $formula1);
            }
        } catch (PhpSpreadsheetException $e) {
            return;
        }
        $offset += $sz1;

        // offset: var; size: 2; size of the formula data for the first
condition
        $sz2 = self::getUInt2d($recordData, $offset);
        $offset += 2;

        // offset: var; size: 2; not used
        $offset += 2;

        // offset: var; size: $sz2; formula data for second condition
(without size field)
        $formula2 = substr($recordData, $offset, $sz2);
        $formula2 = pack('v', $sz2) . $formula2; // prepend the
length
        try {
            $formula2 = $this->getFormulaFromStructure($formula2);
        } catch (PhpSpreadsheetException $e) {
            return;
        }
        $offset += $sz2;

        // offset: var; size: var; cell range address list with
        $cellRangeAddressList =
$this->readBIFF8CellRangeAddressList(substr($recordData, $offset));
        $cellRangeAddresses =
$cellRangeAddressList['cellRangeAddresses'];

        foreach ($cellRangeAddresses as $cellRange) {
            $stRange = $this->phpSheet->shrinkRangeToFit($cellRange);
            foreach (Coordinate::extractAllCellReferencesInRange($stRange)
as $coordinate) {
                $objValidation =
$this->phpSheet->getCell($coordinate)->getDataValidation();
                $objValidation->setType($type);
                $objValidation->setErrorStyle($errorStyle);
                $objValidation->setAllowBlank((bool) $allowBlank);
                $objValidation->setShowInputMessage((bool)
$showInputMessage);
                $objValidation->setShowErrorMessage((bool)
$showErrorMessage);
                $objValidation->setShowDropDown(!$suppressDropDown);
                $objValidation->setOperator($operator);
                $objValidation->setErrorTitle($errorTitle);
                $objValidation->setError($error);
                $objValidation->setPromptTitle($promptTitle);
                $objValidation->setPrompt($prompt);
                $objValidation->setFormula1($formula1);
                $objValidation->setFormula2($formula2);
            }
        }
    }

    /**
     * Read SHEETLAYOUT record. Stores sheet tab color information.
     */
    private function readSheetLayout()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        // local pointer in record data
        $offset = 0;

        if (!$this->readDataOnly) {
            // offset: 0; size: 2; repeated record identifier 0x0862

            // offset: 2; size: 10; not used

            // offset: 12; size: 4; size of record data
            // Excel 2003 uses size of 0x14 (documented), Excel 2007 uses
size of 0x28 (not documented?)
            $sz = self::getInt4d($recordData, 12);

            switch ($sz) {
                case 0x14:
                    // offset: 16; size: 2; color index for sheet tab
                    $colorIndex = self::getUInt2d($recordData, 16);
                    $color = Xls\Color::map($colorIndex, $this->palette,
$this->version);
                   
$this->phpSheet->getTabColor()->setRGB($color['rgb']);

                    break;
                case 0x28:
                    // TODO: Investigate structure for .xls SHEETLAYOUT
record as saved by MS Office Excel 2007
                    return;

                    break;
            }
        }
    }

    /**
     * Read SHEETPROTECTION record (FEATHEADR).
     */
    private function readSheetProtection()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        if ($this->readDataOnly) {
            return;
        }

        // offset: 0; size: 2; repeated record header

        // offset: 2; size: 2; FRT cell reference flag (=0 currently)

        // offset: 4; size: 8; Currently not used and set to 0

        // offset: 12; size: 2; Shared feature type index (2=Enhanced
Protetion, 4=SmartTag)
        $isf = self::getUInt2d($recordData, 12);
        if ($isf != 2) {
            return;
        }

        // offset: 14; size: 1; =1 since this is a feat header

        // offset: 15; size: 4; size of rgbHdrSData

        // rgbHdrSData, assume "Enhanced Protection"
        // offset: 19; size: 2; option flags
        $options = self::getUInt2d($recordData, 19);

        // bit: 0; mask 0x0001; 1 = user may edit objects, 0 = users must
not edit objects
        $bool = (0x0001 & $options) >> 0;
        $this->phpSheet->getProtection()->setObjects(!$bool);

        // bit: 1; mask 0x0002; edit scenarios
        $bool = (0x0002 & $options) >> 1;
        $this->phpSheet->getProtection()->setScenarios(!$bool);

        // bit: 2; mask 0x0004; format cells
        $bool = (0x0004 & $options) >> 2;
        $this->phpSheet->getProtection()->setFormatCells(!$bool);

        // bit: 3; mask 0x0008; format columns
        $bool = (0x0008 & $options) >> 3;
       
$this->phpSheet->getProtection()->setFormatColumns(!$bool);

        // bit: 4; mask 0x0010; format rows
        $bool = (0x0010 & $options) >> 4;
        $this->phpSheet->getProtection()->setFormatRows(!$bool);

        // bit: 5; mask 0x0020; insert columns
        $bool = (0x0020 & $options) >> 5;
       
$this->phpSheet->getProtection()->setInsertColumns(!$bool);

        // bit: 6; mask 0x0040; insert rows
        $bool = (0x0040 & $options) >> 6;
        $this->phpSheet->getProtection()->setInsertRows(!$bool);

        // bit: 7; mask 0x0080; insert hyperlinks
        $bool = (0x0080 & $options) >> 7;
       
$this->phpSheet->getProtection()->setInsertHyperlinks(!$bool);

        // bit: 8; mask 0x0100; delete columns
        $bool = (0x0100 & $options) >> 8;
       
$this->phpSheet->getProtection()->setDeleteColumns(!$bool);

        // bit: 9; mask 0x0200; delete rows
        $bool = (0x0200 & $options) >> 9;
        $this->phpSheet->getProtection()->setDeleteRows(!$bool);

        // bit: 10; mask 0x0400; select locked cells
        $bool = (0x0400 & $options) >> 10;
       
$this->phpSheet->getProtection()->setSelectLockedCells(!$bool);

        // bit: 11; mask 0x0800; sort cell range
        $bool = (0x0800 & $options) >> 11;
        $this->phpSheet->getProtection()->setSort(!$bool);

        // bit: 12; mask 0x1000; auto filter
        $bool = (0x1000 & $options) >> 12;
        $this->phpSheet->getProtection()->setAutoFilter(!$bool);

        // bit: 13; mask 0x2000; pivot tables
        $bool = (0x2000 & $options) >> 13;
        $this->phpSheet->getProtection()->setPivotTables(!$bool);

        // bit: 14; mask 0x4000; select unlocked cells
        $bool = (0x4000 & $options) >> 14;
       
$this->phpSheet->getProtection()->setSelectUnlockedCells(!$bool);

        // offset: 21; size: 2; not used
    }

    /**
     * Read RANGEPROTECTION record
     * Reading of this record is based on Microsoft Office Excel 97-2000
Binary File Format Specification,
     * where it is referred to as FEAT record.
     */
    private function readRangeProtection()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // move stream pointer to next record
        $this->pos += 4 + $length;

        // local pointer in record data
        $offset = 0;

        if (!$this->readDataOnly) {
            $offset += 12;

            // offset: 12; size: 2; shared feature type, 2 = enhanced
protection, 4 = smart tag
            $isf = self::getUInt2d($recordData, 12);
            if ($isf != 2) {
                // we only read FEAT records of type 2
                return;
            }
            $offset += 2;

            $offset += 5;

            // offset: 19; size: 2; count of ref ranges this feature is on
            $cref = self::getUInt2d($recordData, 19);
            $offset += 2;

            $offset += 6;

            // offset: 27; size: 8 * $cref; list of cell ranges (like in
hyperlink record)
            $cellRanges = [];
            for ($i = 0; $i < $cref; ++$i) {
                try {
                    $cellRange =
$this->readBIFF8CellRangeAddressFixed(substr($recordData, 27 + 8 * $i,
8));
                } catch (PhpSpreadsheetException $e) {
                    return;
                }
                $cellRanges[] = $cellRange;
                $offset += 8;
            }

            // offset: var; size: var; variable length of feature specific
data
            $rgbFeat = substr($recordData, $offset);
            $offset += 4;

            // offset: var; size: 4; the encrypted password (only 16-bit
although field is 32-bit)
            $wPassword = self::getInt4d($recordData, $offset);
            $offset += 4;

            // Apply range protection to sheet
            if ($cellRanges) {
                $this->phpSheet->protectCells(implode(' ',
$cellRanges), strtoupper(dechex($wPassword)), true);
            }
        }
    }

    /**
     * Read a free CONTINUE record. Free CONTINUE record may be a
camouflaged MSODRAWING record
     * When MSODRAWING data on a sheet exceeds 8224 bytes, CONTINUE records
are used instead. Undocumented.
     * In this case, we must treat the CONTINUE record as a MSODRAWING
record.
     */
    private function readContinue()
    {
        $length = self::getUInt2d($this->data, $this->pos + 2);
        $recordData = $this->readRecordData($this->data,
$this->pos + 4, $length);

        // check if we are reading drawing data
        // this is in case a free CONTINUE record occurs in other
circumstances we are unaware of
        if ($this->drawingData == '') {
            // move stream pointer to next record
            $this->pos += 4 + $length;

            return;
        }

        // check if record data is at least 4 bytes long, otherwise there
is no chance this is MSODRAWING data
        if ($length < 4) {
            // move stream pointer to next record
            $this->pos += 4 + $length;

            return;
        }

        // dirty check to see if CONTINUE record could be a camouflaged
MSODRAWING record
        // look inside CONTINUE record to see if it looks like a part of an
Escher stream
        // we know that Escher stream may be split at least at
        //        0xF003 MsofbtSpgrContainer
        //        0xF004 MsofbtSpContainer
        //        0xF00D MsofbtClientTextbox
        $validSplitPoints = [0xF003, 0xF004, 0xF00D]; // add identifiers if
we find more

        $splitPoint = self::getUInt2d($recordData, 2);
        if (in_array($splitPoint, $validSplitPoints)) {
            // get spliced record data (and move pointer to next record)
            $splicedRecordData = $this->getSplicedRecordData();
            $this->drawingData .=
$splicedRecordData['recordData'];

            return;
        }

        // move stream pointer to next record
        $this->pos += 4 + $length;
    }

    /**
     * Reads a record from current position in data stream and continues
reading data as long as CONTINUE
     * records are found. Splices the record data pieces and returns the
combined string as if record data
     * is in one piece.
     * Moves to next current position in data stream to start of next
record different from a CONtINUE record.
     *
     * @return array
     */
    private function getSplicedRecordData()
    {
        $data = '';
        $spliceOffsets = [];

        $i = 0;
        $spliceOffsets[0] = 0;

        do {
            ++$i;

            // offset: 0; size: 2; identifier
            $identifier = self::getUInt2d($this->data, $this->pos);
            // offset: 2; size: 2; length
            $length = self::getUInt2d($this->data, $this->pos + 2);
            $data .= $this->readRecordData($this->data, $this->pos
+ 4, $length);

            $spliceOffsets[$i] = $spliceOffsets[$i - 1] + $length;

            $this->pos += 4 + $length;
            $nextIdentifier = self::getUInt2d($this->data,
$this->pos);
        } while ($nextIdentifier == self::XLS_TYPE_CONTINUE);

        return [
            'recordData' => $data,
            'spliceOffsets' => $spliceOffsets,
        ];
    }

    /**
     * Convert formula structure into human readable Excel formula like
'A3+A5*5'.
     *
     * @param string $formulaStructure The complete binary data for the
formula
     * @param string $baseCell Base cell, only needed when formula contains
tRefN tokens, e.g. with shared formulas
     *
     * @return string Human readable formula
     */
    private function getFormulaFromStructure($formulaStructure, $baseCell =
'A1')
    {
        // offset: 0; size: 2; size of the following formula data
        $sz = self::getUInt2d($formulaStructure, 0);

        // offset: 2; size: sz
        $formulaData = substr($formulaStructure, 2, $sz);

        // offset: 2 + sz; size: variable (optional)
        if (strlen($formulaStructure) > 2 + $sz) {
            $additionalData = substr($formulaStructure, 2 + $sz);
        } else {
            $additionalData = '';
        }

        return $this->getFormulaFromData($formulaData, $additionalData,
$baseCell);
    }

    /**
     * Take formula data and additional data for formula and return human
readable formula.
     *
     * @param string $formulaData The binary data for the formula itself
     * @param string $additionalData Additional binary data going with the
formula
     * @param string $baseCell Base cell, only needed when formula contains
tRefN tokens, e.g. with shared formulas
     *
     * @return string Human readable formula
     */
    private function getFormulaFromData($formulaData, $additionalData =
'', $baseCell = 'A1')
    {
        // start parsing the formula data
        $tokens = [];

        while (strlen($formulaData) > 0 and $token =
$this->getNextToken($formulaData, $baseCell)) {
            $tokens[] = $token;
            $formulaData = substr($formulaData, $token['size']);
        }

        $formulaString = $this->createFormulaFromTokens($tokens,
$additionalData);

        return $formulaString;
    }

    /**
     * Take array of tokens together with additional data for formula and
return human readable formula.
     *
     * @param array $tokens
     * @param string $additionalData Additional binary data going with the
formula
     *
     * @return string Human readable formula
     */
    private function createFormulaFromTokens($tokens, $additionalData)
    {
        // empty formula?
        if (empty($tokens)) {
            return '';
        }

        $formulaStrings = [];
        foreach ($tokens as $token) {
            // initialize spaces
            $space0 = $space0 ?? ''; // spaces before next token,
not tParen
            $space1 = $space1 ?? ''; // carriage returns before
next token, not tParen
            $space2 = $space2 ?? ''; // spaces before opening
parenthesis
            $space3 = $space3 ?? ''; // carriage returns before
opening parenthesis
            $space4 = $space4 ?? ''; // spaces before closing
parenthesis
            $space5 = $space5 ?? ''; // carriage returns before
closing parenthesis

            switch ($token['name']) {
                case 'tAdd': // addition
                case 'tConcat': // addition
                case 'tDiv': // division
                case 'tEQ': // equality
                case 'tGE': // greater than or equal
                case 'tGT': // greater than
                case 'tIsect': // intersection
                case 'tLE': // less than or equal
                case 'tList': // less than or equal
                case 'tLT': // less than
                case 'tMul': // multiplication
                case 'tNE': // multiplication
                case 'tPower': // power
                case 'tRange': // range
                case 'tSub': // subtraction
                    $op2 = array_pop($formulaStrings);
                    $op1 = array_pop($formulaStrings);
                    $formulaStrings[] =
"$op1$space1$space0{$token['data']}$op2";
                    unset($space0, $space1);

                    break;
                case 'tUplus': // unary plus
                case 'tUminus': // unary minus
                    $op = array_pop($formulaStrings);
                    $formulaStrings[] =
"$space1$space0{$token['data']}$op";
                    unset($space0, $space1);

                    break;
                case 'tPercent': // percent sign
                    $op = array_pop($formulaStrings);
                    $formulaStrings[] =
"$op$space1$space0{$token['data']}";
                    unset($space0, $space1);

                    break;
                case 'tAttrVolatile': // indicates volatile
function
                case 'tAttrIf':
                case 'tAttrSkip':
                case 'tAttrChoose':
                    // token is only important for Excel formula evaluator
                    // do nothing
                    break;
                case 'tAttrSpace': // space / carriage return
                    // space will be used when next token arrives, do not
alter formulaString stack
                    switch
($token['data']['spacetype']) {
                        case 'type0':
                            $space0 = str_repeat(' ',
$token['data']['spacecount']);

                            break;
                        case 'type1':
                            $space1 = str_repeat("\n",
$token['data']['spacecount']);

                            break;
                        case 'type2':
                            $space2 = str_repeat(' ',
$token['data']['spacecount']);

                            break;
                        case 'type3':
                            $space3 = str_repeat("\n",
$token['data']['spacecount']);

                            break;
                        case 'type4':
                            $space4 = str_repeat(' ',
$token['data']['spacecount']);

                            break;
                        case 'type5':
                            $space5 = str_repeat("\n",
$token['data']['spacecount']);

                            break;
                    }

                    break;
                case 'tAttrSum': // SUM function with one
parameter
                    $op = array_pop($formulaStrings);
                    $formulaStrings[] =
"{$space1}{$space0}SUM($op)";
                    unset($space0, $space1);

                    break;
                case 'tFunc': // function with fixed number of
arguments
                case 'tFuncV': // function with variable number
of arguments
                    if ($token['data']['function'] !=
'') {
                        // normal function
                        $ops = []; // array of operators
                        for ($i = 0; $i <
$token['data']['args']; ++$i) {
                            $ops[] = array_pop($formulaStrings);
                        }
                        $ops = array_reverse($ops);
                        $formulaStrings[] =
"$space1$space0{$token['data']['function']}("
. implode(',', $ops) . ')';
                        unset($space0, $space1);
                    } else {
                        // add-in function
                        $ops = []; // array of operators
                        for ($i = 0; $i <
$token['data']['args'] - 1; ++$i) {
                            $ops[] = array_pop($formulaStrings);
                        }
                        $ops = array_reverse($ops);
                        $function = array_pop($formulaStrings);
                        $formulaStrings[] =
"$space1$space0$function(" . implode(',', $ops) .
')';
                        unset($space0, $space1);
                    }

                    break;
                case 'tParen': // parenthesis
                    $expression = array_pop($formulaStrings);
                    $formulaStrings[] =
"$space3$space2($expression$space5$space4)";
                    unset($space2, $space3, $space4, $space5);

                    break;
                case 'tArray': // array constant
                    $constantArray =
self::readBIFF8ConstantArray($additionalData);
                    $formulaStrings[] = $space1 . $space0 .
$constantArray['value'];
                    $additionalData = substr($additionalData,
$constantArray['size']); // bite of chunk of additional data
                    unset($space0, $space1);

                    break;
                case 'tMemArea':
                    // bite off chunk of additional data
                    $cellRangeAddressList =
$this->readBIFF8CellRangeAddressList($additionalData);
                    $additionalData = substr($additionalData,
$cellRangeAddressList['size']);
                    $formulaStrings[] =
"$space1$space0{$token['data']}";
                    unset($space0, $space1);

                    break;
                case 'tArea': // cell range address
                case 'tBool': // boolean
                case 'tErr': // error code
                case 'tInt': // integer
                case 'tMemErr':
                case 'tMemFunc':
                case 'tMissArg':
                case 'tName':
                case 'tNameX':
                case 'tNum': // number
                case 'tRef': // single cell reference
                case 'tRef3d': // 3d cell reference
                case 'tArea3d': // 3d cell range reference
                case 'tRefN':
                case 'tAreaN':
                case 'tStr': // string
                    $formulaStrings[] =
"$space1$space0{$token['data']}";
                    unset($space0, $space1);

                    break;
            }
        }
        $formulaString = $formulaStrings[0];

        return $formulaString;
    }

    /**
     * Fetch next token from binary formula data.
     *
     * @param string $formulaData Formula data
     * @param string $baseCell Base cell, only needed when formula contains
tRefN tokens, e.g. with shared formulas
     *
     * @throws Exception
     *
     * @return array
     */
    private function getNextToken($formulaData, $baseCell = 'A1')
    {
        // offset: 0; size: 1; token id
        $id = ord($formulaData[0]); // token id
        $name = false; // initialize token name

        switch ($id) {
            case 0x03:
                $name = 'tAdd';
                $size = 1;
                $data = '+';

                break;
            case 0x04:
                $name = 'tSub';
                $size = 1;
                $data = '-';

                break;
            case 0x05:
                $name = 'tMul';
                $size = 1;
                $data = '*';

                break;
            case 0x06:
                $name = 'tDiv';
                $size = 1;
                $data = '/';

                break;
            case 0x07:
                $name = 'tPower';
                $size = 1;
                $data = '^';

                break;
            case 0x08:
                $name = 'tConcat';
                $size = 1;
                $data = '&';

                break;
            case 0x09:
                $name = 'tLT';
                $size = 1;
                $data = '<';

                break;
            case 0x0A:
                $name = 'tLE';
                $size = 1;
                $data = '<=';

                break;
            case 0x0B:
                $name = 'tEQ';
                $size = 1;
                $data = '=';

                break;
            case 0x0C:
                $name = 'tGE';
                $size = 1;
                $data = '>=';

                break;
            case 0x0D:
                $name = 'tGT';
                $size = 1;
                $data = '>';

                break;
            case 0x0E:
                $name = 'tNE';
                $size = 1;
                $data = '<>';

                break;
            case 0x0F:
                $name = 'tIsect';
                $size = 1;
                $data = ' ';

                break;
            case 0x10:
                $name = 'tList';
                $size = 1;
                $data = ',';

                break;
            case 0x11:
                $name = 'tRange';
                $size = 1;
                $data = ':';

                break;
            case 0x12:
                $name = 'tUplus';
                $size = 1;
                $data = '+';

                break;
            case 0x13:
                $name = 'tUminus';
                $size = 1;
                $data = '-';

                break;
            case 0x14:
                $name = 'tPercent';
                $size = 1;
                $data = '%';

                break;
            case 0x15:    //    parenthesis
                $name = 'tParen';
                $size = 1;
                $data = null;

                break;
            case 0x16:    //    missing argument
                $name = 'tMissArg';
                $size = 1;
                $data = '';

                break;
            case 0x17:    //    string
                $name = 'tStr';
                // offset: 1; size: var; Unicode string, 8-bit string
length
                $string = self::readUnicodeStringShort(substr($formulaData,
1));
                $size = 1 + $string['size'];
                $data =
self::UTF8toExcelDoubleQuoted($string['value']);

                break;
            case 0x19:    //    Special attribute
                // offset: 1; size: 1; attribute type flags:
                switch (ord($formulaData[1])) {
                    case 0x01:
                        $name = 'tAttrVolatile';
                        $size = 4;
                        $data = null;

                        break;
                    case 0x02:
                        $name = 'tAttrIf';
                        $size = 4;
                        $data = null;

                        break;
                    case 0x04:
                        $name = 'tAttrChoose';
                        // offset: 2; size: 2; number of choices in the
CHOOSE function ($nc, number of parameters decreased by 1)
                        $nc = self::getUInt2d($formulaData, 2);
                        // offset: 4; size: 2 * $nc
                        // offset: 4 + 2 * $nc; size: 2
                        $size = 2 * $nc + 6;
                        $data = null;

                        break;
                    case 0x08:
                        $name = 'tAttrSkip';
                        $size = 4;
                        $data = null;

                        break;
                    case 0x10:
                        $name = 'tAttrSum';
                        $size = 4;
                        $data = null;

                        break;
                    case 0x40:
                    case 0x41:
                        $name = 'tAttrSpace';
                        $size = 4;
                        // offset: 2; size: 2; space type and position
                        switch (ord($formulaData[2])) {
                            case 0x00:
                                $spacetype = 'type0';

                                break;
                            case 0x01:
                                $spacetype = 'type1';

                                break;
                            case 0x02:
                                $spacetype = 'type2';

                                break;
                            case 0x03:
                                $spacetype = 'type3';

                                break;
                            case 0x04:
                                $spacetype = 'type4';

                                break;
                            case 0x05:
                                $spacetype = 'type5';

                                break;
                            default:
                                throw new Exception('Unrecognized
space type in tAttrSpace token');

                                break;
                        }
                        // offset: 3; size: 1; number of inserted
spaces/carriage returns
                        $spacecount = ord($formulaData[3]);

                        $data = ['spacetype' => $spacetype,
'spacecount' => $spacecount];

                        break;
                    default:
                        throw new Exception('Unrecognized attribute
flag in tAttr token');

                        break;
                }

                break;
            case 0x1C:    //    error code
                // offset: 1; size: 1; error code
                $name = 'tErr';
                $size = 2;
                $data = Xls\ErrorCode::lookup(ord($formulaData[1]));

                break;
            case 0x1D:    //    boolean
                // offset: 1; size: 1; 0 = false, 1 = true;
                $name = 'tBool';
                $size = 2;
                $data = ord($formulaData[1]) ? 'TRUE' :
'FALSE';

                break;
            case 0x1E:    //    integer
                // offset: 1; size: 2; unsigned 16-bit integer
                $name = 'tInt';
                $size = 3;
                $data = self::getUInt2d($formulaData, 1);

                break;
            case 0x1F:    //    number
                // offset: 1; size: 8;
                $name = 'tNum';
                $size = 9;
                $data = self::extractNumber(substr($formulaData, 1));
                $data = str_replace(',', '.', (string)
$data); // in case non-English locale
                break;
            case 0x20:    //    array constant
            case 0x40:
            case 0x60:
                // offset: 1; size: 7; not used
                $name = 'tArray';
                $size = 8;
                $data = null;

                break;
            case 0x21:    //    function with fixed number of arguments
            case 0x41:
            case 0x61:
                $name = 'tFunc';
                $size = 3;
                // offset: 1; size: 2; index to built-in sheet function
                switch (self::getUInt2d($formulaData, 1)) {
                    case 2:
                        $function = 'ISNA';
                        $args = 1;

                        break;
                    case 3:
                        $function = 'ISERROR';
                        $args = 1;

                        break;
                    case 10:
                        $function = 'NA';
                        $args = 0;

                        break;
                    case 15:
                        $function = 'SIN';
                        $args = 1;

                        break;
                    case 16:
                        $function = 'COS';
                        $args = 1;

                        break;
                    case 17:
                        $function = 'TAN';
                        $args = 1;

                        break;
                    case 18:
                        $function = 'ATAN';
                        $args = 1;

                        break;
                    case 19:
                        $function = 'PI';
                        $args = 0;

                        break;
                    case 20:
                        $function = 'SQRT';
                        $args = 1;

                        break;
                    case 21:
                        $function = 'EXP';
                        $args = 1;

                        break;
                    case 22:
                        $function = 'LN';
                        $args = 1;

                        break;
                    case 23:
                        $function = 'LOG10';
                        $args = 1;

                        break;
                    case 24:
                        $function = 'ABS';
                        $args = 1;

                        break;
                    case 25:
                        $function = 'INT';
                        $args = 1;

                        break;
                    case 26:
                        $function = 'SIGN';
                        $args = 1;

                        break;
                    case 27:
                        $function = 'ROUND';
                        $args = 2;

                        break;
                    case 30:
                        $function = 'REPT';
                        $args = 2;

                        break;
                    case 31:
                        $function = 'MID';
                        $args = 3;

                        break;
                    case 32:
                        $function = 'LEN';
                        $args = 1;

                        break;
                    case 33:
                        $function = 'VALUE';
                        $args = 1;

                        break;
                    case 34:
                        $function = 'TRUE';
                        $args = 0;

                        break;
                    case 35:
                        $function = 'FALSE';
                        $args = 0;

                        break;
                    case 38:
                        $function = 'NOT';
                        $args = 1;

                        break;
                    case 39:
                        $function = 'MOD';
                        $args = 2;

                        break;
                    case 40:
                        $function = 'DCOUNT';
                        $args = 3;

                        break;
                    case 41:
                        $function = 'DSUM';
                        $args = 3;

                        break;
                    case 42:
                        $function = 'DAVERAGE';
                        $args = 3;

                        break;
                    case 43:
                        $function = 'DMIN';
                        $args = 3;

                        break;
                    case 44:
                        $function = 'DMAX';
                        $args = 3;

                        break;
                    case 45:
                        $function = 'DSTDEV';
                        $args = 3;

                        break;
                    case 48:
                        $function = 'TEXT';
                        $args = 2;

                        break;
                    case 61:
                        $function = 'MIRR';
                        $args = 3;

                        break;
                    case 63:
                        $function = 'RAND';
                        $args = 0;

                        break;
                    case 65:
                        $function = 'DATE';
                        $args = 3;

                        break;
                    case 66:
                        $function = 'TIME';
                        $args = 3;

                        break;
                    case 67:
                        $function = 'DAY';
                        $args = 1;

                        break;
                    case 68:
                        $function = 'MONTH';
                        $args = 1;

                        break;
                    case 69:
                        $function = 'YEAR';
                        $args = 1;

                        break;
                    case 71:
                        $function = 'HOUR';
                        $args = 1;

                        break;
                    case 72:
                        $function = 'MINUTE';
                        $args = 1;

                        break;
                    case 73:
                        $function = 'SECOND';
                        $args = 1;

                        break;
                    case 74:
                        $function = 'NOW';
                        $args = 0;

                        break;
                    case 75:
                        $function = 'AREAS';
                        $args = 1;

                        break;
                    case 76:
                        $function = 'ROWS';
                        $args = 1;

                        break;
                    case 77:
                        $function = 'COLUMNS';
                        $args = 1;

                        break;
                    case 83:
                        $function = 'TRANSPOSE';
                        $args = 1;

                        break;
                    case 86:
                        $function = 'TYPE';
                        $args = 1;

                        break;
                    case 97:
                        $function = 'ATAN2';
                        $args = 2;

                        break;
                    case 98:
                        $function = 'ASIN';
                        $args = 1;

                        break;
                    case 99:
                        $function = 'ACOS';
                        $args = 1;

                        break;
                    case 105:
                        $function = 'ISREF';
                        $args = 1;

                        break;
                    case 111:
                        $function = 'CHAR';
                        $args = 1;

                        break;
                    case 112:
                        $function = 'LOWER';
                        $args = 1;

                        break;
                    case 113:
                        $function = 'UPPER';
                        $args = 1;

                        break;
                    case 114:
                        $function = 'PROPER';
                        $args = 1;

                        break;
                    case 117:
                        $function = 'EXACT';
                        $args = 2;

                        break;
                    case 118:
                        $function = 'TRIM';
                        $args = 1;

                        break;
                    case 119:
                        $function = 'REPLACE';
                        $args = 4;

                        break;
                    case 121:
                        $function = 'CODE';
                        $args = 1;

                        break;
                    case 126:
                        $function = 'ISERR';
                        $args = 1;

                        break;
                    case 127:
                        $function = 'ISTEXT';
                        $args = 1;

                        break;
                    case 128:
                        $function = 'ISNUMBER';
                        $args = 1;

                        break;
                    case 129:
                        $function = 'ISBLANK';
                        $args = 1;

                        break;
                    case 130:
                        $function = 'T';
                        $args = 1;

                        break;
                    case 131:
                        $function = 'N';
                        $args = 1;

                        break;
                    case 140:
                        $function = 'DATEVALUE';
                        $args = 1;

                        break;
                    case 141:
                        $function = 'TIMEVALUE';
                        $args = 1;

                        break;
                    case 142:
                        $function = 'SLN';
                        $args = 3;

                        break;
                    case 143:
                        $function = 'SYD';
                        $args = 4;

                        break;
                    case 162:
                        $function = 'CLEAN';
                        $args = 1;

                        break;
                    case 163:
                        $function = 'MDETERM';
                        $args = 1;

                        break;
                    case 164:
                        $function = 'MINVERSE';
                        $args = 1;

                        break;
                    case 165:
                        $function = 'MMULT';
                        $args = 2;

                        break;
                    case 184:
                        $function = 'FACT';
                        $args = 1;

                        break;
                    case 189:
                        $function = 'DPRODUCT';
                        $args = 3;

                        break;
                    case 190:
                        $function = 'ISNONTEXT';
                        $args = 1;

                        break;
                    case 195:
                        $function = 'DSTDEVP';
                        $args = 3;

                        break;
                    case 196:
                        $function = 'DVARP';
                        $args = 3;

                        break;
                    case 198:
                        $function = 'ISLOGICAL';
                        $args = 1;

                        break;
                    case 199:
                        $function = 'DCOUNTA';
                        $args = 3;

                        break;
                    case 207:
                        $function = 'REPLACEB';
                        $args = 4;

                        break;
                    case 210:
                        $function = 'MIDB';
                        $args = 3;

                        break;
                    case 211:
                        $function = 'LENB';
                        $args = 1;

                        break;
                    case 212:
                        $function = 'ROUNDUP';
                        $args = 2;

                        break;
                    case 213:
                        $function = 'ROUNDDOWN';
                        $args = 2;

                        break;
                    case 214:
                        $function = 'ASC';
                        $args = 1;

                        break;
                    case 215:
                        $function = 'DBCS';
                        $args = 1;

                        break;
                    case 221:
                        $function = 'TODAY';
                        $args = 0;

                        break;
                    case 229:
                        $function = 'SINH';
                        $args = 1;

                        break;
                    case 230:
                        $function = 'COSH';
                        $args = 1;

                        break;
                    case 231:
                        $function = 'TANH';
                        $args = 1;

                        break;
                    case 232:
                        $function = 'ASINH';
                        $args = 1;

                        break;
                    case 233:
                        $function = 'ACOSH';
                        $args = 1;

                        break;
                    case 234:
                        $function = 'ATANH';
                        $args = 1;

                        break;
                    case 235:
                        $function = 'DGET';
                        $args = 3;

                        break;
                    case 244:
                        $function = 'INFO';
                        $args = 1;

                        break;
                    case 252:
                        $function = 'FREQUENCY';
                        $args = 2;

                        break;
                    case 261:
                        $function = 'ERROR.TYPE';
                        $args = 1;

                        break;
                    case 271:
                        $function = 'GAMMALN';
                        $args = 1;

                        break;
                    case 273:
                        $function = 'BINOMDIST';
                        $args = 4;

                        break;
                    case 274:
                        $function = 'CHIDIST';
                        $args = 2;

                        break;
                    case 275:
                        $function = 'CHIINV';
                        $args = 2;

                        break;
                    case 276:
                        $function = 'COMBIN';
                        $args = 2;

                        break;
                    case 277:
                        $function = 'CONFIDENCE';
                        $args = 3;

                        break;
                    case 278:
                        $function = 'CRITBINOM';
                        $args = 3;

                        break;
                    case 279:
                        $function = 'EVEN';
                        $args = 1;

                        break;
                    case 280:
                        $function = 'EXPONDIST';
                        $args = 3;

                        break;
                    case 281:
                        $function = 'FDIST';
                        $args = 3;

                        break;
                    case 282:
                        $function = 'FINV';
                        $args = 3;

                        break;
                    case 283:
                        $function = 'FISHER';
                        $args = 1;

                        break;
                    case 284:
                        $function = 'FISHERINV';
                        $args = 1;

                        break;
                    case 285:
                        $function = 'FLOOR';
                        $args = 2;

                        break;
                    case 286:
                        $function = 'GAMMADIST';
                        $args = 4;

                        break;
                    case 287:
                        $function = 'GAMMAINV';
                        $args = 3;

                        break;
                    case 288:
                        $function = 'CEILING';
                        $args = 2;

                        break;
                    case 289:
                        $function = 'HYPGEOMDIST';
                        $args = 4;

                        break;
                    case 290:
                        $function = 'LOGNORMDIST';
                        $args = 3;

                        break;
                    case 291:
                        $function = 'LOGINV';
                        $args = 3;

                        break;
                    case 292:
                        $function = 'NEGBINOMDIST';
                        $args = 3;

                        break;
                    case 293:
                        $function = 'NORMDIST';
                        $args = 4;

                        break;
                    case 294:
                        $function = 'NORMSDIST';
                        $args = 1;

                        break;
                    case 295:
                        $function = 'NORMINV';
                        $args = 3;

                        break;
                    case 296:
                        $function = 'NORMSINV';
                        $args = 1;

                        break;
                    case 297:
                        $function = 'STANDARDIZE';
                        $args = 3;

                        break;
                    case 298:
                        $function = 'ODD';
                        $args = 1;

                        break;
                    case 299:
                        $function = 'PERMUT';
                        $args = 2;

                        break;
                    case 300:
                        $function = 'POISSON';
                        $args = 3;

                        break;
                    case 301:
                        $function = 'TDIST';
                        $args = 3;

                        break;
                    case 302:
                        $function = 'WEIBULL';
                        $args = 4;

                        break;
                    case 303:
                        $function = 'SUMXMY2';
                        $args = 2;

                        break;
                    case 304:
                        $function = 'SUMX2MY2';
                        $args = 2;

                        break;
                    case 305:
                        $function = 'SUMX2PY2';
                        $args = 2;

                        break;
                    case 306:
                        $function = 'CHITEST';
                        $args = 2;

                        break;
                    case 307:
                        $function = 'CORREL';
                        $args = 2;

                        break;
                    case 308:
                        $function = 'COVAR';
                        $args = 2;

                        break;
                    case 309:
                        $function = 'FORECAST';
                        $args = 3;

                        break;
                    case 310:
                        $function = 'FTEST';
                        $args = 2;

                        break;
                    case 311:
                        $function = 'INTERCEPT';
                        $args = 2;

                        break;
                    case 312:
                        $function = 'PEARSON';
                        $args = 2;

                        break;
                    case 313:
                        $function = 'RSQ';
                        $args = 2;

                        break;
                    case 314:
                        $function = 'STEYX';
                        $args = 2;

                        break;
                    case 315:
                        $function = 'SLOPE';
                        $args = 2;

                        break;
                    case 316:
                        $function = 'TTEST';
                        $args = 4;

                        break;
                    case 325:
                        $function = 'LARGE';
                        $args = 2;

                        break;
                    case 326:
                        $function = 'SMALL';
                        $args = 2;

                        break;
                    case 327:
                        $function = 'QUARTILE';
                        $args = 2;

                        break;
                    case 328:
                        $function = 'PERCENTILE';
                        $args = 2;

                        break;
                    case 331:
                        $function = 'TRIMMEAN';
                        $args = 2;

                        break;
                    case 332:
                        $function = 'TINV';
                        $args = 2;

                        break;
                    case 337:
                        $function = 'POWER';
                        $args = 2;

                        break;
                    case 342:
                        $function = 'RADIANS';
                        $args = 1;

                        break;
                    case 343:
                        $function = 'DEGREES';
                        $args = 1;

                        break;
                    case 346:
                        $function = 'COUNTIF';
                        $args = 2;

                        break;
                    case 347:
                        $function = 'COUNTBLANK';
                        $args = 1;

                        break;
                    case 350:
                        $function = 'ISPMT';
                        $args = 4;

                        break;
                    case 351:
                        $function = 'DATEDIF';
                        $args = 3;

                        break;
                    case 352:
                        $function = 'DATESTRING';
                        $args = 1;

                        break;
                    case 353:
                        $function = 'NUMBERSTRING';
                        $args = 2;

                        break;
                    case 360:
                        $function = 'PHONETIC';
                        $args = 1;

                        break;
                    case 368:
                        $function = 'BAHTTEXT';
                        $args = 1;

                        break;
                    default:
                        throw new Exception('Unrecognized function in
formula');

                        break;
                }
                $data = ['function' => $function,
'args' => $args];

                break;
            case 0x22:    //    function with variable number of arguments
            case 0x42:
            case 0x62:
                $name = 'tFuncV';
                $size = 4;
                // offset: 1; size: 1; number of arguments
                $args = ord($formulaData[1]);
                // offset: 2: size: 2; index to built-in sheet function
                $index = self::getUInt2d($formulaData, 2);
                switch ($index) {
                    case 0:
                        $function = 'COUNT';

                        break;
                    case 1:
                        $function = 'IF';

                        break;
                    case 4:
                        $function = 'SUM';

                        break;
                    case 5:
                        $function = 'AVERAGE';

                        break;
                    case 6:
                        $function = 'MIN';

                        break;
                    case 7:
                        $function = 'MAX';

                        break;
                    case 8:
                        $function = 'ROW';

                        break;
                    case 9:
                        $function = 'COLUMN';

                        break;
                    case 11:
                        $function = 'NPV';

                        break;
                    case 12:
                        $function = 'STDEV';

                        break;
                    case 13:
                        $function = 'DOLLAR';

                        break;
                    case 14:
                        $function = 'FIXED';

                        break;
                    case 28:
                        $function = 'LOOKUP';

                        break;
                    case 29:
                        $function = 'INDEX';

                        break;
                    case 36:
                        $function = 'AND';

                        break;
                    case 37:
                        $function = 'OR';

                        break;
                    case 46:
                        $function = 'VAR';

                        break;
                    case 49:
                        $function = 'LINEST';

                        break;
                    case 50:
                        $function = 'TREND';

                        break;
                    case 51:
                        $function = 'LOGEST';

                        break;
                    case 52:
                        $function = 'GROWTH';

                        break;
                    case 56:
                        $function = 'PV';

                        break;
                    case 57:
                        $function = 'FV';

                        break;
                    case 58:
                        $function = 'NPER';

                        break;
                    case 59:
                        $function = 'PMT';

                        break;
                    case 60:
                        $function = 'RATE';

                        break;
                    case 62:
                        $function = 'IRR';

                        break;
                    case 64:
                        $function = 'MATCH';

                        break;
                    case 70:
                        $function = 'WEEKDAY';

                        break;
                    case 78:
                        $function = 'OFFSET';

                        break;
                    case 82:
                        $function = 'SEARCH';

                        break;
                    case 100:
                        $function = 'CHOOSE';

                        break;
                    case 101:
                        $function = 'HLOOKUP';

                        break;
                    case 102:
                        $function = 'VLOOKUP';

                        break;
                    case 109:
                        $function = 'LOG';

                        break;
                    case 115:
                        $function = 'LEFT';

                        break;
                    case 116:
                        $function = 'RIGHT';

                        break;
                    case 120:
                        $function = 'SUBSTITUTE';

                        break;
                    case 124:
                        $function = 'FIND';

                        break;
                    case 125:
                        $function = 'CELL';

                        break;
                    case 144:
                        $function = 'DDB';

                        break;
                    case 148:
                        $function = 'INDIRECT';

                        break;
                    case 167:
                        $function = 'IPMT';

                        break;
                    case 168:
                        $function = 'PPMT';

                        break;
                    case 169:
                        $function = 'COUNTA';

                        break;
                    case 183:
                        $function = 'PRODUCT';

                        break;
                    case 193:
                        $function = 'STDEVP';

                        break;
                    case 194:
                        $function = 'VARP';

                        break;
                    case 197:
                        $function = 'TRUNC';

                        break;
                    case 204:
                        $function = 'USDOLLAR';

                        break;
                    case 205:
                        $function = 'FINDB';

                        break;
                    case 206:
                        $function = 'SEARCHB';

                        break;
                    case 208:
                        $function = 'LEFTB';

                        break;
                    case 209:
                        $function = 'RIGHTB';

                        break;
                    case 216:
                        $function = 'RANK';

                        break;
                    case 219:
                        $function = 'ADDRESS';

                        break;
                    case 220:
                        $function = 'DAYS360';

                        break;
                    case 222:
                        $function = 'VDB';

                        break;
                    case 227:
                        $function = 'MEDIAN';

                        break;
                    case 228:
                        $function = 'SUMPRODUCT';

                        break;
                    case 247:
                        $function = 'DB';

                        break;
                    case 255:
                        $function = '';

                        break;
                    case 269:
                        $function = 'AVEDEV';

                        break;
                    case 270:
                        $function = 'BETADIST';

                        break;
                    case 272:
                        $function = 'BETAINV';

                        break;
                    case 317:
                        $function = 'PROB';

                        break;
                    case 318:
                        $function = 'DEVSQ';

                        break;
                    case 319:
                        $function = 'GEOMEAN';

                        break;
                    case 320:
                        $function = 'HARMEAN';

                        break;
                    case 321:
                        $function = 'SUMSQ';

                        break;
                    case 322:
                        $function = 'KURT';

                        break;
                    case 323:
                        $function = 'SKEW';

                        break;
                    case 324:
                        $function = 'ZTEST';

                        break;
                    case 329:
                        $function = 'PERCENTRANK';

                        break;
                    case 330:
                        $function = 'MODE';

                        break;
                    case 336:
                        $function = 'CONCATENATE';

                        break;
                    case 344:
                        $function = 'SUBTOTAL';

                        break;
                    case 345:
                        $function = 'SUMIF';

                        break;
                    case 354:
                        $function = 'ROMAN';

                        break;
                    case 358:
                        $function = 'GETPIVOTDATA';

                        break;
                    case 359:
                        $function = 'HYPERLINK';

                        break;
                    case 361:
                        $function = 'AVERAGEA';

                        break;
                    case 362:
                        $function = 'MAXA';

                        break;
                    case 363:
                        $function = 'MINA';

                        break;
                    case 364:
                        $function = 'STDEVPA';

                        break;
                    case 365:
                        $function = 'VARPA';

                        break;
                    case 366:
                        $function = 'STDEVA';

                        break;
                    case 367:
                        $function = 'VARA';

                        break;
                    default:
                        throw new Exception('Unrecognized function in
formula');

                        break;
                }
                $data = ['function' => $function,
'args' => $args];

                break;
            case 0x23:    //    index to defined name
            case 0x43:
            case 0x63:
                $name = 'tName';
                $size = 5;
                // offset: 1; size: 2; one-based index to definedname
record
                $definedNameIndex = self::getUInt2d($formulaData, 1) - 1;
                // offset: 2; size: 2; not used
                $data =
$this->definedname[$definedNameIndex]['name'];

                break;
            case 0x24:    //    single cell reference e.g. A5
            case 0x44:
            case 0x64:
                $name = 'tRef';
                $size = 5;
                $data = $this->readBIFF8CellAddress(substr($formulaData,
1, 4));

                break;
            case 0x25:    //    cell range reference to cells in the same
sheet (2d)
            case 0x45:
            case 0x65:
                $name = 'tArea';
                $size = 9;
                $data =
$this->readBIFF8CellRangeAddress(substr($formulaData, 1, 8));

                break;
            case 0x26:    //    Constant reference sub-expression
            case 0x46:
            case 0x66:
                $name = 'tMemArea';
                // offset: 1; size: 4; not used
                // offset: 5; size: 2; size of the following subexpression
                $subSize = self::getUInt2d($formulaData, 5);
                $size = 7 + $subSize;
                $data = $this->getFormulaFromData(substr($formulaData,
7, $subSize));

                break;
            case 0x27:    //    Deleted constant reference sub-expression
            case 0x47:
            case 0x67:
                $name = 'tMemErr';
                // offset: 1; size: 4; not used
                // offset: 5; size: 2; size of the following subexpression
                $subSize = self::getUInt2d($formulaData, 5);
                $size = 7 + $subSize;
                $data = $this->getFormulaFromData(substr($formulaData,
7, $subSize));

                break;
            case 0x29:    //    Variable reference sub-expression
            case 0x49:
            case 0x69:
                $name = 'tMemFunc';
                // offset: 1; size: 2; size of the following sub-expression
                $subSize = self::getUInt2d($formulaData, 1);
                $size = 3 + $subSize;
                $data = $this->getFormulaFromData(substr($formulaData,
3, $subSize));

                break;
            case 0x2C: // Relative 2d cell reference reference, used in
shared formulas and some other places
            case 0x4C:
            case 0x6C:
                $name = 'tRefN';
                $size = 5;
                $data =
$this->readBIFF8CellAddressB(substr($formulaData, 1, 4), $baseCell);

                break;
            case 0x2D:    //    Relative 2d range reference
            case 0x4D:
            case 0x6D:
                $name = 'tAreaN';
                $size = 9;
                $data =
$this->readBIFF8CellRangeAddressB(substr($formulaData, 1, 8),
$baseCell);

                break;
            case 0x39:    //    External name
            case 0x59:
            case 0x79:
                $name = 'tNameX';
                $size = 7;
                // offset: 1; size: 2; index to REF entry in EXTERNSHEET
record
                // offset: 3; size: 2; one-based index to DEFINEDNAME or
EXTERNNAME record
                $index = self::getUInt2d($formulaData, 3);
                // assume index is to EXTERNNAME record
                $data = $this->externalNames[$index -
1]['name'];
                // offset: 5; size: 2; not used
                break;
            case 0x3A:    //    3d reference to cell
            case 0x5A:
            case 0x7A:
                $name = 'tRef3d';
                $size = 7;

                try {
                    // offset: 1; size: 2; index to REF entry
                    $sheetRange =
$this->readSheetRangeByRefIndex(self::getUInt2d($formulaData, 1));
                    // offset: 3; size: 4; cell address
                    $cellAddress =
$this->readBIFF8CellAddress(substr($formulaData, 3, 4));

                    $data = "$sheetRange!$cellAddress";
                } catch (PhpSpreadsheetException $e) {
                    // deleted sheet reference
                    $data = '#REF!';
                }

                break;
            case 0x3B:    //    3d reference to cell range
            case 0x5B:
            case 0x7B:
                $name = 'tArea3d';
                $size = 11;

                try {
                    // offset: 1; size: 2; index to REF entry
                    $sheetRange =
$this->readSheetRangeByRefIndex(self::getUInt2d($formulaData, 1));
                    // offset: 3; size: 8; cell address
                    $cellRangeAddress =
$this->readBIFF8CellRangeAddress(substr($formulaData, 3, 8));

                    $data = "$sheetRange!$cellRangeAddress";
                } catch (PhpSpreadsheetException $e) {
                    // deleted sheet reference
                    $data = '#REF!';
                }

                break;
            // Unknown cases    // don't know how to deal with
            default:
                throw new Exception('Unrecognized token ' .
sprintf('%02X', $id) . ' in formula');

                break;
        }

        return [
            'id' => $id,
            'name' => $name,
            'size' => $size,
            'data' => $data,
        ];
    }

    /**
     * Reads a cell address in BIFF8 e.g. 'A2' or
'$A$2'
     * section 3.3.4.
     *
     * @param string $cellAddressStructure
     *
     * @return string
     */
    private function readBIFF8CellAddress($cellAddressStructure)
    {
        // offset: 0; size: 2; index to row (0... 65535) (or offset
(-32768... 32767))
        $row = self::getUInt2d($cellAddressStructure, 0) + 1;

        // offset: 2; size: 2; index to column or column offset + relative
flags
        // bit: 7-0; mask 0x00FF; column index
        $column = Coordinate::stringFromColumnIndex((0x00FF &
self::getUInt2d($cellAddressStructure, 2)) + 1);

        // bit: 14; mask 0x4000; (1 = relative column index, 0 = absolute
column index)
        if (!(0x4000 & self::getUInt2d($cellAddressStructure, 2))) {
            $column = '$' . $column;
        }
        // bit: 15; mask 0x8000; (1 = relative row index, 0 = absolute row
index)
        if (!(0x8000 & self::getUInt2d($cellAddressStructure, 2))) {
            $row = '$' . $row;
        }

        return $column . $row;
    }

    /**
     * Reads a cell address in BIFF8 for shared formulas. Uses positive and
negative values for row and column
     * to indicate offsets from a base cell
     * section 3.3.4.
     *
     * @param string $cellAddressStructure
     * @param string $baseCell Base cell, only needed when formula contains
tRefN tokens, e.g. with shared formulas
     *
     * @return string
     */
    private function readBIFF8CellAddressB($cellAddressStructure, $baseCell
= 'A1')
    {
        [$baseCol, $baseRow] = Coordinate::coordinateFromString($baseCell);
        $baseCol = Coordinate::columnIndexFromString($baseCol) - 1;

        // offset: 0; size: 2; index to row (0... 65535) (or offset
(-32768... 32767))
        $rowIndex = self::getUInt2d($cellAddressStructure, 0);
        $row = self::getUInt2d($cellAddressStructure, 0) + 1;

        // bit: 14; mask 0x4000; (1 = relative column index, 0 = absolute
column index)
        if (!(0x4000 & self::getUInt2d($cellAddressStructure, 2))) {
            // offset: 2; size: 2; index to column or column offset +
relative flags
            // bit: 7-0; mask 0x00FF; column index
            $colIndex = 0x00FF & self::getUInt2d($cellAddressStructure,
2);

            $column = Coordinate::stringFromColumnIndex($colIndex + 1);
            $column = '$' . $column;
        } else {
            // offset: 2; size: 2; index to column or column offset +
relative flags
            // bit: 7-0; mask 0x00FF; column index
            $relativeColIndex = 0x00FF &
self::getInt2d($cellAddressStructure, 2);
            $colIndex = $baseCol + $relativeColIndex;
            $colIndex = ($colIndex < 256) ? $colIndex : $colIndex - 256;
            $colIndex = ($colIndex >= 0) ? $colIndex : $colIndex + 256;
            $column = Coordinate::stringFromColumnIndex($colIndex + 1);
        }

        // bit: 15; mask 0x8000; (1 = relative row index, 0 = absolute row
index)
        if (!(0x8000 & self::getUInt2d($cellAddressStructure, 2))) {
            $row = '$' . $row;
        } else {
            $rowIndex = ($rowIndex <= 32767) ? $rowIndex : $rowIndex -
65536;
            $row = $baseRow + $rowIndex;
        }

        return $column . $row;
    }

    /**
     * Reads a cell range address in BIFF5 e.g. 'A2:B6' or
'A1'
     * always fixed range
     * section 2.5.14.
     *
     * @param string $subData
     *
     * @throws Exception
     *
     * @return string
     */
    private function readBIFF5CellRangeAddressFixed($subData)
    {
        // offset: 0; size: 2; index to first row
        $fr = self::getUInt2d($subData, 0) + 1;

        // offset: 2; size: 2; index to last row
        $lr = self::getUInt2d($subData, 2) + 1;

        // offset: 4; size: 1; index to first column
        $fc = ord($subData[4]);

        // offset: 5; size: 1; index to last column
        $lc = ord($subData[5]);

        // check values
        if ($fr > $lr || $fc > $lc) {
            throw new Exception('Not a cell range address');
        }

        // column index to letter
        $fc = Coordinate::stringFromColumnIndex($fc + 1);
        $lc = Coordinate::stringFromColumnIndex($lc + 1);

        if ($fr == $lr and $fc == $lc) {
            return "$fc$fr";
        }

        return "$fc$fr:$lc$lr";
    }

    /**
     * Reads a cell range address in BIFF8 e.g. 'A2:B6' or
'A1'
     * always fixed range
     * section 2.5.14.
     *
     * @param string $subData
     *
     * @throws Exception
     *
     * @return string
     */
    private function readBIFF8CellRangeAddressFixed($subData)
    {
        // offset: 0; size: 2; index to first row
        $fr = self::getUInt2d($subData, 0) + 1;

        // offset: 2; size: 2; index to last row
        $lr = self::getUInt2d($subData, 2) + 1;

        // offset: 4; size: 2; index to first column
        $fc = self::getUInt2d($subData, 4);

        // offset: 6; size: 2; index to last column
        $lc = self::getUInt2d($subData, 6);

        // check values
        if ($fr > $lr || $fc > $lc) {
            throw new Exception('Not a cell range address');
        }

        // column index to letter
        $fc = Coordinate::stringFromColumnIndex($fc + 1);
        $lc = Coordinate::stringFromColumnIndex($lc + 1);

        if ($fr == $lr and $fc == $lc) {
            return "$fc$fr";
        }

        return "$fc$fr:$lc$lr";
    }

    /**
     * Reads a cell range address in BIFF8 e.g. 'A2:B6' or
'$A$2:$B$6'
     * there are flags indicating whether column/row index is relative
     * section 3.3.4.
     *
     * @param string $subData
     *
     * @return string
     */
    private function readBIFF8CellRangeAddress($subData)
    {
        // todo: if cell range is just a single cell, should this funciton
        // not just return e.g. 'A1' and not 'A1:A1' ?

        // offset: 0; size: 2; index to first row (0... 65535) (or offset
(-32768... 32767))
        $fr = self::getUInt2d($subData, 0) + 1;

        // offset: 2; size: 2; index to last row (0... 65535) (or offset
(-32768... 32767))
        $lr = self::getUInt2d($subData, 2) + 1;

        // offset: 4; size: 2; index to first column or column offset +
relative flags

        // bit: 7-0; mask 0x00FF; column index
        $fc = Coordinate::stringFromColumnIndex((0x00FF &
self::getUInt2d($subData, 4)) + 1);

        // bit: 14; mask 0x4000; (1 = relative column index, 0 = absolute
column index)
        if (!(0x4000 & self::getUInt2d($subData, 4))) {
            $fc = '$' . $fc;
        }

        // bit: 15; mask 0x8000; (1 = relative row index, 0 = absolute row
index)
        if (!(0x8000 & self::getUInt2d($subData, 4))) {
            $fr = '$' . $fr;
        }

        // offset: 6; size: 2; index to last column or column offset +
relative flags

        // bit: 7-0; mask 0x00FF; column index
        $lc = Coordinate::stringFromColumnIndex((0x00FF &
self::getUInt2d($subData, 6)) + 1);

        // bit: 14; mask 0x4000; (1 = relative column index, 0 = absolute
column index)
        if (!(0x4000 & self::getUInt2d($subData, 6))) {
            $lc = '$' . $lc;
        }

        // bit: 15; mask 0x8000; (1 = relative row index, 0 = absolute row
index)
        if (!(0x8000 & self::getUInt2d($subData, 6))) {
            $lr = '$' . $lr;
        }

        return "$fc$fr:$lc$lr";
    }

    /**
     * Reads a cell range address in BIFF8 for shared formulas. Uses
positive and negative values for row and column
     * to indicate offsets from a base cell
     * section 3.3.4.
     *
     * @param string $subData
     * @param string $baseCell Base cell
     *
     * @return string Cell range address
     */
    private function readBIFF8CellRangeAddressB($subData, $baseCell =
'A1')
    {
        [$baseCol, $baseRow] = Coordinate::coordinateFromString($baseCell);
        $baseCol = Coordinate::columnIndexFromString($baseCol) - 1;

        // TODO: if cell range is just a single cell, should this funciton
        // not just return e.g. 'A1' and not 'A1:A1' ?

        // offset: 0; size: 2; first row
        $frIndex = self::getUInt2d($subData, 0); // adjust below

        // offset: 2; size: 2; relative index to first row (0... 65535)
should be treated as offset (-32768... 32767)
        $lrIndex = self::getUInt2d($subData, 2); // adjust below

        // bit: 14; mask 0x4000; (1 = relative column index, 0 = absolute
column index)
        if (!(0x4000 & self::getUInt2d($subData, 4))) {
            // absolute column index
            // offset: 4; size: 2; first column with relative/absolute
flags
            // bit: 7-0; mask 0x00FF; column index
            $fcIndex = 0x00FF & self::getUInt2d($subData, 4);
            $fc = Coordinate::stringFromColumnIndex($fcIndex + 1);
            $fc = '$' . $fc;
        } else {
            // column offset
            // offset: 4; size: 2; first column with relative/absolute
flags
            // bit: 7-0; mask 0x00FF; column index
            $relativeFcIndex = 0x00FF & self::getInt2d($subData, 4);
            $fcIndex = $baseCol + $relativeFcIndex;
            $fcIndex = ($fcIndex < 256) ? $fcIndex : $fcIndex - 256;
            $fcIndex = ($fcIndex >= 0) ? $fcIndex : $fcIndex + 256;
            $fc = Coordinate::stringFromColumnIndex($fcIndex + 1);
        }

        // bit: 15; mask 0x8000; (1 = relative row index, 0 = absolute row
index)
        if (!(0x8000 & self::getUInt2d($subData, 4))) {
            // absolute row index
            $fr = $frIndex + 1;
            $fr = '$' . $fr;
        } else {
            // row offset
            $frIndex = ($frIndex <= 32767) ? $frIndex : $frIndex -
65536;
            $fr = $baseRow + $frIndex;
        }

        // bit: 14; mask 0x4000; (1 = relative column index, 0 = absolute
column index)
        if (!(0x4000 & self::getUInt2d($subData, 6))) {
            // absolute column index
            // offset: 6; size: 2; last column with relative/absolute flags
            // bit: 7-0; mask 0x00FF; column index
            $lcIndex = 0x00FF & self::getUInt2d($subData, 6);
            $lc = Coordinate::stringFromColumnIndex($lcIndex + 1);
            $lc = '$' . $lc;
        } else {
            // column offset
            // offset: 4; size: 2; first column with relative/absolute
flags
            // bit: 7-0; mask 0x00FF; column index
            $relativeLcIndex = 0x00FF & self::getInt2d($subData, 4);
            $lcIndex = $baseCol + $relativeLcIndex;
            $lcIndex = ($lcIndex < 256) ? $lcIndex : $lcIndex - 256;
            $lcIndex = ($lcIndex >= 0) ? $lcIndex : $lcIndex + 256;
            $lc = Coordinate::stringFromColumnIndex($lcIndex + 1);
        }

        // bit: 15; mask 0x8000; (1 = relative row index, 0 = absolute row
index)
        if (!(0x8000 & self::getUInt2d($subData, 6))) {
            // absolute row index
            $lr = $lrIndex + 1;
            $lr = '$' . $lr;
        } else {
            // row offset
            $lrIndex = ($lrIndex <= 32767) ? $lrIndex : $lrIndex -
65536;
            $lr = $baseRow + $lrIndex;
        }

        return "$fc$fr:$lc$lr";
    }

    /**
     * Read BIFF8 cell range address list
     * section 2.5.15.
     *
     * @param string $subData
     *
     * @return array
     */
    private function readBIFF8CellRangeAddressList($subData)
    {
        $cellRangeAddresses = [];

        // offset: 0; size: 2; number of the following cell range addresses
        $nm = self::getUInt2d($subData, 0);

        $offset = 2;
        // offset: 2; size: 8 * $nm; list of $nm (fixed) cell range
addresses
        for ($i = 0; $i < $nm; ++$i) {
            $cellRangeAddresses[] =
$this->readBIFF8CellRangeAddressFixed(substr($subData, $offset, 8));
            $offset += 8;
        }

        return [
            'size' => 2 + 8 * $nm,
            'cellRangeAddresses' => $cellRangeAddresses,
        ];
    }

    /**
     * Read BIFF5 cell range address list
     * section 2.5.15.
     *
     * @param string $subData
     *
     * @return array
     */
    private function readBIFF5CellRangeAddressList($subData)
    {
        $cellRangeAddresses = [];

        // offset: 0; size: 2; number of the following cell range addresses
        $nm = self::getUInt2d($subData, 0);

        $offset = 2;
        // offset: 2; size: 6 * $nm; list of $nm (fixed) cell range
addresses
        for ($i = 0; $i < $nm; ++$i) {
            $cellRangeAddresses[] =
$this->readBIFF5CellRangeAddressFixed(substr($subData, $offset, 6));
            $offset += 6;
        }

        return [
            'size' => 2 + 6 * $nm,
            'cellRangeAddresses' => $cellRangeAddresses,
        ];
    }

    /**
     * Get a sheet range like Sheet1:Sheet3 from REF index
     * Note: If there is only one sheet in the range, one gets e.g Sheet1
     * It can also happen that the REF structure uses the -1 (FFFF) code to
indicate deleted sheets,
     * in which case an Exception is thrown.
     *
     * @param int $index
     *
     * @throws Exception
     *
     * @return false|string
     */
    private function readSheetRangeByRefIndex($index)
    {
        if (isset($this->ref[$index])) {
            $type =
$this->externalBooks[$this->ref[$index]['externalBookIndex']]['type'];

            switch ($type) {
                case 'internal':
                    // check if we have a deleted 3d reference
                    if ($this->ref[$index]['firstSheetIndex']
== 0xFFFF or $this->ref[$index]['lastSheetIndex'] == 0xFFFF) {
                        throw new Exception('Deleted sheet
reference');
                    }

                    // we have normal sheet range (collapsed or
uncollapsed)
                    $firstSheetName =
$this->sheets[$this->ref[$index]['firstSheetIndex']]['name'];
                    $lastSheetName =
$this->sheets[$this->ref[$index]['lastSheetIndex']]['name'];

                    if ($firstSheetName == $lastSheetName) {
                        // collapsed sheet range
                        $sheetRange = $firstSheetName;
                    } else {
                        $sheetRange =
"$firstSheetName:$lastSheetName";
                    }

                    // escape the single-quotes
                    $sheetRange = str_replace("'",
"''", $sheetRange);

                    // if there are special characters, we need to enclose
the range in single-quotes
                    // todo: check if we have identified the whole set of
special characters
                    // it seems that the following characters are not
accepted for sheet names
                    // and we may assume that they are not present: []*/:\?
                    if (preg_match("/[
!\"@#£$%&{()}<>=+'|^,;-]/u", $sheetRange)) {
                        $sheetRange = "'$sheetRange'";
                    }

                    return $sheetRange;

                    break;
                default:
                    // TODO: external sheet support
                    throw new Exception('Xls reader only supports
internal sheets in formulas');

                    break;
            }
        }

        return false;
    }

    /**
     * read BIFF8 constant value array from array data
     * returns e.g. ['value' => '{1,2;3,4}',
'size' => 40]
     * section 2.5.8.
     *
     * @param string $arrayData
     *
     * @return array
     */
    private static function readBIFF8ConstantArray($arrayData)
    {
        // offset: 0; size: 1; number of columns decreased by 1
        $nc = ord($arrayData[0]);

        // offset: 1; size: 2; number of rows decreased by 1
        $nr = self::getUInt2d($arrayData, 1);
        $size = 3; // initialize
        $arrayData = substr($arrayData, 3);

        // offset: 3; size: var; list of ($nc + 1) * ($nr + 1) constant
values
        $matrixChunks = [];
        for ($r = 1; $r <= $nr + 1; ++$r) {
            $items = [];
            for ($c = 1; $c <= $nc + 1; ++$c) {
                $constant = self::readBIFF8Constant($arrayData);
                $items[] = $constant['value'];
                $arrayData = substr($arrayData,
$constant['size']);
                $size += $constant['size'];
            }
            $matrixChunks[] = implode(',', $items); // looks like
e.g. '1,"hello"'
        }
        $matrix = '{' . implode(';', $matrixChunks) .
'}';

        return [
            'value' => $matrix,
            'size' => $size,
        ];
    }

    /**
     * read BIFF8 constant value which may be 'Empty Value',
'Number', 'String Value', 'Boolean Value',
'Error Value'
     * section 2.5.7
     * returns e.g. ['value' => '5',
'size' => 9].
     *
     * @param string $valueData
     *
     * @return array
     */
    private static function readBIFF8Constant($valueData)
    {
        // offset: 0; size: 1; identifier for type of constant
        $identifier = ord($valueData[0]);

        switch ($identifier) {
            case 0x00: // empty constant (what is this?)
                $value = '';
                $size = 9;

                break;
            case 0x01: // number
                // offset: 1; size: 8; IEEE 754 floating-point value
                $value = self::extractNumber(substr($valueData, 1, 8));
                $size = 9;

                break;
            case 0x02: // string value
                // offset: 1; size: var; Unicode string, 16-bit string
length
                $string = self::readUnicodeStringLong(substr($valueData,
1));
                $value = '"' . $string['value'] .
'"';
                $size = 1 + $string['size'];

                break;
            case 0x04: // boolean
                // offset: 1; size: 1; 0 = FALSE, 1 = TRUE
                if (ord($valueData[1])) {
                    $value = 'TRUE';
                } else {
                    $value = 'FALSE';
                }
                $size = 9;

                break;
            case 0x10: // error code
                // offset: 1; size: 1; error code
                $value = Xls\ErrorCode::lookup(ord($valueData[1]));
                $size = 9;

                break;
        }

        return [
            'value' => $value,
            'size' => $size,
        ];
    }

    /**
     * Extract RGB color
     * OpenOffice.org's Documentation of the Microsoft Excel File
Format, section 2.5.4.
     *
     * @param string $rgb Encoded RGB value (4 bytes)
     *
     * @return array
     */
    private static function readRGB($rgb)
    {
        // offset: 0; size 1; Red component
        $r = ord($rgb[0]);

        // offset: 1; size: 1; Green component
        $g = ord($rgb[1]);

        // offset: 2; size: 1; Blue component
        $b = ord($rgb[2]);

        // HEX notation, e.g. 'FF00FC'
        $rgb = sprintf('%02X%02X%02X', $r, $g, $b);

        return ['rgb' => $rgb];
    }

    /**
     * Read byte string (8-bit string length)
     * OpenOffice documentation: 2.5.2.
     *
     * @param string $subData
     *
     * @return array
     */
    private function readByteStringShort($subData)
    {
        // offset: 0; size: 1; length of the string (character count)
        $ln = ord($subData[0]);

        // offset: 1: size: var; character array (8-bit characters)
        $value = $this->decodeCodepage(substr($subData, 1, $ln));

        return [
            'value' => $value,
            'size' => 1 + $ln, // size in bytes of data
structure
        ];
    }

    /**
     * Read byte string (16-bit string length)
     * OpenOffice documentation: 2.5.2.
     *
     * @param string $subData
     *
     * @return array
     */
    private function readByteStringLong($subData)
    {
        // offset: 0; size: 2; length of the string (character count)
        $ln = self::getUInt2d($subData, 0);

        // offset: 2: size: var; character array (8-bit characters)
        $value = $this->decodeCodepage(substr($subData, 2));

        //return $string;
        return [
            'value' => $value,
            'size' => 2 + $ln, // size in bytes of data
structure
        ];
    }

    /**
     * Extracts an Excel Unicode short string (8-bit string length)
     * OpenOffice documentation: 2.5.3
     * function will automatically find out where the Unicode string ends.
     *
     * @param string $subData
     *
     * @return array
     */
    private static function readUnicodeStringShort($subData)
    {
        $value = '';

        // offset: 0: size: 1; length of the string (character count)
        $characterCount = ord($subData[0]);

        $string = self::readUnicodeString(substr($subData, 1),
$characterCount);

        // add 1 for the string length
        $string['size'] += 1;

        return $string;
    }

    /**
     * Extracts an Excel Unicode long string (16-bit string length)
     * OpenOffice documentation: 2.5.3
     * this function is under construction, needs to support rich text, and
Asian phonetic settings.
     *
     * @param string $subData
     *
     * @return array
     */
    private static function readUnicodeStringLong($subData)
    {
        $value = '';

        // offset: 0: size: 2; length of the string (character count)
        $characterCount = self::getUInt2d($subData, 0);

        $string = self::readUnicodeString(substr($subData, 2),
$characterCount);

        // add 2 for the string length
        $string['size'] += 2;

        return $string;
    }

    /**
     * Read Unicode string with no string length field, but with known
character count
     * this function is under construction, needs to support rich text, and
Asian phonetic settings
     * OpenOffice.org's Documentation of the Microsoft Excel File
Format, section 2.5.3.
     *
     * @param string $subData
     * @param int $characterCount
     *
     * @return array
     */
    private static function readUnicodeString($subData, $characterCount)
    {
        $value = '';

        // offset: 0: size: 1; option flags
        // bit: 0; mask: 0x01; character compression (0 = compressed 8-bit,
1 = uncompressed 16-bit)
        $isCompressed = !((0x01 & ord($subData[0])) >> 0);

        // bit: 2; mask: 0x04; Asian phonetic settings
        $hasAsian = (0x04) & ord($subData[0]) >> 2;

        // bit: 3; mask: 0x08; Rich-Text settings
        $hasRichText = (0x08) & ord($subData[0]) >> 3;

        // offset: 1: size: var; character array
        // this offset assumes richtext and Asian phonetic settings are off
which is generally wrong
        // needs to be fixed
        $value = self::encodeUTF16(substr($subData, 1, $isCompressed ?
$characterCount : 2 * $characterCount), $isCompressed);

        return [
            'value' => $value,
            'size' => $isCompressed ? 1 + $characterCount : 1
+ 2 * $characterCount, // the size in bytes including the option flags
        ];
    }

    /**
     * Convert UTF-8 string to string surounded by double quotes. Used for
explicit string tokens in formulas.
     * Example:  hello"world  --> 
"hello""world".
     *
     * @param string $value UTF-8 encoded string
     *
     * @return string
     */
    private static function UTF8toExcelDoubleQuoted($value)
    {
        return '"' . str_replace('"',
'""', $value) . '"';
    }

    /**
     * Reads first 8 bytes of a string and return IEEE 754 float.
     *
     * @param string $data Binary string that is at least 8 bytes long
     *
     * @return float
     */
    private static function extractNumber($data)
    {
        $rknumhigh = self::getInt4d($data, 4);
        $rknumlow = self::getInt4d($data, 0);
        $sign = ($rknumhigh & 0x80000000) >> 31;
        $exp = (($rknumhigh & 0x7ff00000) >> 20) - 1023;
        $mantissa = (0x100000 | ($rknumhigh & 0x000fffff));
        $mantissalow1 = ($rknumlow & 0x80000000) >> 31;
        $mantissalow2 = ($rknumlow & 0x7fffffff);
        $value = $mantissa / pow(2, (20 - $exp));

        if ($mantissalow1 != 0) {
            $value += 1 / pow(2, (21 - $exp));
        }

        $value += $mantissalow2 / pow(2, (52 - $exp));
        if ($sign) {
            $value *= -1;
        }

        return $value;
    }

    /**
     * @param int $rknum
     *
     * @return float
     */
    private static function getIEEE754($rknum)
    {
        if (($rknum & 0x02) != 0) {
            $value = $rknum >> 2;
        } else {
            // changes by mmp, info on IEEE754 encoding from
            //
research.microsoft.com/~hollasch/cgindex/coding/ieeefloat.html
            // The RK format calls for using only the most significant 30
bits
            // of the 64 bit floating point value. The other 34 bits are
assumed
            // to be 0 so we use the upper 30 bits of $rknum as follows...
            $sign = ($rknum & 0x80000000) >> 31;
            $exp = ($rknum & 0x7ff00000) >> 20;
            $mantissa = (0x100000 | ($rknum & 0x000ffffc));
            $value = $mantissa / pow(2, (20 - ($exp - 1023)));
            if ($sign) {
                $value = -1 * $value;
            }
            //end of changes by mmp
        }
        if (($rknum & 0x01) != 0) {
            $value /= 100;
        }

        return $value;
    }

    /**
     * Get UTF-8 string from (compressed or uncompressed) UTF-16 string.
     *
     * @param string $string
     * @param bool $compressed
     *
     * @return string
     */
    private static function encodeUTF16($string, $compressed = false)
    {
        if ($compressed) {
            $string = self::uncompressByteString($string);
        }

        return StringHelper::convertEncoding($string, 'UTF-8',
'UTF-16LE');
    }

    /**
     * Convert UTF-16 string in compressed notation to uncompressed form.
Only used for BIFF8.
     *
     * @param string $string
     *
     * @return string
     */
    private static function uncompressByteString($string)
    {
        $uncompressedString = '';
        $strLen = strlen($string);
        for ($i = 0; $i < $strLen; ++$i) {
            $uncompressedString .= $string[$i] . "\0";
        }

        return $uncompressedString;
    }

    /**
     * Convert string to UTF-8. Only used for BIFF5.
     *
     * @param string $string
     *
     * @return string
     */
    private function decodeCodepage($string)
    {
        return StringHelper::convertEncoding($string, 'UTF-8',
$this->codepage);
    }

    /**
     * Read 16-bit unsigned integer.
     *
     * @param string $data
     * @param int $pos
     *
     * @return int
     */
    public static function getUInt2d($data, $pos)
    {
        return ord($data[$pos]) | (ord($data[$pos + 1]) << 8);
    }

    /**
     * Read 16-bit signed integer.
     *
     * @param string $data
     * @param int $pos
     *
     * @return int
     */
    public static function getInt2d($data, $pos)
    {
        return unpack('s', $data[$pos] . $data[$pos + 1])[1];
    }

    /**
     * Read 32-bit signed integer.
     *
     * @param string $data
     * @param int $pos
     *
     * @return int
     */
    public static function getInt4d($data, $pos)
    {
        // FIX: represent numbers correctly on 64-bit system
        //
http://sourceforge.net/tracker/index.php?func=detail&aid=1487372&group_id=99160&atid=623334
        // Changed by Andreas Rehm 2006 to ensure correct result of the
<<24 block on 32 and 64bit systems
        $_or_24 = ord($data[$pos + 3]);
        if ($_or_24 >= 128) {
            // negative number
            $_ord_24 = -abs((256 - $_or_24) << 24);
        } else {
            $_ord_24 = ($_or_24 & 127) << 24;
        }

        return ord($data[$pos]) | (ord($data[$pos + 1]) << 8) |
(ord($data[$pos + 2]) << 16) | $_ord_24;
    }

    private function parseRichText($is)
    {
        $value = new RichText();
        $value->createText($is);

        return $value;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/Xlsx/AutoFilter.php000064400000014277151165414000023470
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader\Xlsx;

use PhpOffice\PhpSpreadsheet\Worksheet\AutoFilter\Column;
use PhpOffice\PhpSpreadsheet\Worksheet\AutoFilter\Column\Rule;
use PhpOffice\PhpSpreadsheet\Worksheet\Worksheet;

class AutoFilter
{
    private $worksheet;

    private $worksheetXml;

    public function __construct(Worksheet $workSheet, \SimpleXMLElement
$worksheetXml)
    {
        $this->worksheet = $workSheet;
        $this->worksheetXml = $worksheetXml;
    }

    public function load()
    {
        // Remove all "$" in the auto filter range
        $autoFilterRange = preg_replace('/\$/', '',
$this->worksheetXml->autoFilter['ref']);
        if (strpos($autoFilterRange, ':') !== false) {
            $this->readAutoFilter($autoFilterRange,
$this->worksheetXml);
        }
    }

    private function readAutoFilter($autoFilterRange, $xmlSheet)
    {
        $autoFilter = $this->worksheet->getAutoFilter();
        $autoFilter->setRange($autoFilterRange);

        foreach ($xmlSheet->autoFilter->filterColumn as
$filterColumn) {
            $column = $autoFilter->getColumnByOffset((int)
$filterColumn['colId']);
            //    Check for standard filters
            if ($filterColumn->filters) {
               
$column->setFilterType(Column::AUTOFILTER_FILTERTYPE_FILTER);
                $filters = $filterColumn->filters;
                if ((isset($filters['blank'])) &&
($filters['blank'] == 1)) {
                    //    Operator is undefined, but always treated as
EQUAL
                    $column->createRule()->setRule(null,
'')->setRuleType(Rule::AUTOFILTER_RULETYPE_FILTER);
                }
                //    Standard filters are always an OR join, so no join
rule needs to be set
                //    Entries can be either filter elements
                foreach ($filters->filter as $filterRule) {
                    //    Operator is undefined, but always treated as
EQUAL
                    $column->createRule()->setRule(null, (string)
$filterRule['val'])->setRuleType(Rule::AUTOFILTER_RULETYPE_FILTER);
                }

                //    Or Date Group elements
                $this->readDateRangeAutoFilter($filters, $column);
            }

            //    Check for custom filters
            $this->readCustomAutoFilter($filterColumn, $column);
            //    Check for dynamic filters
            $this->readDynamicAutoFilter($filterColumn, $column);
            //    Check for dynamic filters
            $this->readTopTenAutoFilter($filterColumn, $column);
        }
    }

    private function readDateRangeAutoFilter(\SimpleXMLElement $filters,
Column $column)
    {
        foreach ($filters->dateGroupItem as $dateGroupItem) {
            //    Operator is undefined, but always treated as EQUAL
            $column->createRule()->setRule(
                null,
                [
                    'year' => (string)
$dateGroupItem['year'],
                    'month' => (string)
$dateGroupItem['month'],
                    'day' => (string)
$dateGroupItem['day'],
                    'hour' => (string)
$dateGroupItem['hour'],
                    'minute' => (string)
$dateGroupItem['minute'],
                    'second' => (string)
$dateGroupItem['second'],
                ],
                (string) $dateGroupItem['dateTimeGrouping']
            )->setRuleType(Rule::AUTOFILTER_RULETYPE_DATEGROUP);
        }
    }

    private function readCustomAutoFilter(\SimpleXMLElement $filterColumn,
Column $column)
    {
        if ($filterColumn->customFilters) {
           
$column->setFilterType(Column::AUTOFILTER_FILTERTYPE_CUSTOMFILTER);
            $customFilters = $filterColumn->customFilters;
            //    Custom filters can an AND or an OR join;
            //        and there should only ever be one or two entries
            if ((isset($customFilters['and'])) &&
($customFilters['and'] == 1)) {
                $column->setJoin(Column::AUTOFILTER_COLUMN_JOIN_AND);
            }
            foreach ($customFilters->customFilter as $filterRule) {
                $column->createRule()->setRule(
                    (string) $filterRule['operator'],
                    (string) $filterRule['val']
                )->setRuleType(Rule::AUTOFILTER_RULETYPE_CUSTOMFILTER);
            }
        }
    }

    private function readDynamicAutoFilter(\SimpleXMLElement $filterColumn,
Column $column)
    {
        if ($filterColumn->dynamicFilter) {
           
$column->setFilterType(Column::AUTOFILTER_FILTERTYPE_DYNAMICFILTER);
            //    We should only ever have one dynamic filter
            foreach ($filterColumn->dynamicFilter as $filterRule) {
                //    Operator is undefined, but always treated as EQUAL
                $column->createRule()->setRule(
                    null,
                    (string) $filterRule['val'],
                    (string) $filterRule['type']
                )->setRuleType(Rule::AUTOFILTER_RULETYPE_DYNAMICFILTER);
                if (isset($filterRule['val'])) {
                    $column->setAttribute('val', (string)
$filterRule['val']);
                }
                if (isset($filterRule['maxVal'])) {
                    $column->setAttribute('maxVal', (string)
$filterRule['maxVal']);
                }
            }
        }
    }

    private function readTopTenAutoFilter(\SimpleXMLElement $filterColumn,
Column $column)
    {
        if ($filterColumn->top10) {
           
$column->setFilterType(Column::AUTOFILTER_FILTERTYPE_TOPTENFILTER);
            //    We should only ever have one top10 filter
            foreach ($filterColumn->top10 as $filterRule) {
                $column->createRule()->setRule(
                    (((isset($filterRule['percent'])) &&
($filterRule['percent'] == 1))
                        ? Rule::AUTOFILTER_COLUMN_RULE_TOPTEN_PERCENT
                        : Rule::AUTOFILTER_COLUMN_RULE_TOPTEN_BY_VALUE
                    ),
                    (string) $filterRule['val'],
                    (((isset($filterRule['top'])) &&
($filterRule['top'] == 1))
                        ? Rule::AUTOFILTER_COLUMN_RULE_TOPTEN_TOP
                        : Rule::AUTOFILTER_COLUMN_RULE_TOPTEN_BOTTOM
                    )
                )->setRuleType(Rule::AUTOFILTER_RULETYPE_TOPTENFILTER);
            }
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/Xlsx/BaseParserClass.php000064400000000533151165414000024415
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader\Xlsx;

class BaseParserClass
{
    protected static function boolean($value)
    {
        if (is_object($value)) {
            $value = (string) $value;
        }

        if (is_numeric($value)) {
            return (bool) $value;
        }

        return $value === strtolower('true');
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/Xlsx/Chart.php000064400000064276151165414000022457
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader\Xlsx;

use PhpOffice\PhpSpreadsheet\Calculation\Functions;
use PhpOffice\PhpSpreadsheet\Chart\DataSeries;
use PhpOffice\PhpSpreadsheet\Chart\DataSeriesValues;
use PhpOffice\PhpSpreadsheet\Chart\Layout;
use PhpOffice\PhpSpreadsheet\Chart\Legend;
use PhpOffice\PhpSpreadsheet\Chart\PlotArea;
use PhpOffice\PhpSpreadsheet\Chart\Title;
use PhpOffice\PhpSpreadsheet\RichText\RichText;
use PhpOffice\PhpSpreadsheet\Style\Color;
use PhpOffice\PhpSpreadsheet\Style\Font;
use SimpleXMLElement;

class Chart
{
    /**
     * @param SimpleXMLElement $component
     * @param string $name
     * @param string $format
     *
     * @return null|bool|float|int|string
     */
    private static function getAttribute(SimpleXMLElement $component,
$name, $format)
    {
        $attributes = $component->attributes();
        if (isset($attributes[$name])) {
            if ($format == 'string') {
                return (string) $attributes[$name];
            } elseif ($format == 'integer') {
                return (int) $attributes[$name];
            } elseif ($format == 'boolean') {
                return (bool) ($attributes[$name] === '0' ||
$attributes[$name] !== 'true') ? false : true;
            }

            return (float) $attributes[$name];
        }

        return null;
    }

    private static function readColor($color, $background = false)
    {
        if (isset($color['rgb'])) {
            return (string) $color['rgb'];
        } elseif (isset($color['indexed'])) {
            return Color::indexedColor($color['indexed'] - 7,
$background)->getARGB();
        }
    }

    /**
     * @param SimpleXMLElement $chartElements
     * @param string $chartName
     *
     * @return \PhpOffice\PhpSpreadsheet\Chart\Chart
     */
    public static function readChart(SimpleXMLElement $chartElements,
$chartName)
    {
        $namespacesChartMeta = $chartElements->getNamespaces(true);
        $chartElementsC =
$chartElements->children($namespacesChartMeta['c']);

        $XaxisLabel = $YaxisLabel = $legend = $title = null;
        $dispBlanksAs = $plotVisOnly = null;

        foreach ($chartElementsC as $chartElementKey => $chartElement) {
            switch ($chartElementKey) {
                case 'chart':
                    foreach ($chartElement as $chartDetailsKey =>
$chartDetails) {
                        $chartDetailsC =
$chartDetails->children($namespacesChartMeta['c']);
                        switch ($chartDetailsKey) {
                            case 'plotArea':
                                $plotAreaLayout = $XaxisLable = $YaxisLable
= null;
                                $plotSeries = $plotAttributes = [];
                                foreach ($chartDetails as $chartDetailKey
=> $chartDetail) {
                                    switch ($chartDetailKey) {
                                        case 'layout':
                                            $plotAreaLayout =
self::chartLayoutDetails($chartDetail, $namespacesChartMeta);

                                            break;
                                        case 'catAx':
                                            if
(isset($chartDetail->title)) {
                                                $XaxisLabel =
self::chartTitle($chartDetail->title->children($namespacesChartMeta['c']),
$namespacesChartMeta);
                                            }

                                            break;
                                        case 'dateAx':
                                            if
(isset($chartDetail->title)) {
                                                $XaxisLabel =
self::chartTitle($chartDetail->title->children($namespacesChartMeta['c']),
$namespacesChartMeta);
                                            }

                                            break;
                                        case 'valAx':
                                            if
(isset($chartDetail->title)) {
                                                $YaxisLabel =
self::chartTitle($chartDetail->title->children($namespacesChartMeta['c']),
$namespacesChartMeta);
                                            }

                                            break;
                                        case 'barChart':
                                        case 'bar3DChart':
                                            $barDirection =
self::getAttribute($chartDetail->barDir, 'val',
'string');
                                            $plotSer =
self::chartDataSeries($chartDetail, $namespacesChartMeta, $chartDetailKey);
                                           
$plotSer->setPlotDirection($barDirection);
                                            $plotSeries[] = $plotSer;
                                            $plotAttributes =
self::readChartAttributes($chartDetail);

                                            break;
                                        case 'lineChart':
                                        case 'line3DChart':
                                            $plotSeries[] =
self::chartDataSeries($chartDetail, $namespacesChartMeta, $chartDetailKey);
                                            $plotAttributes =
self::readChartAttributes($chartDetail);

                                            break;
                                        case 'areaChart':
                                        case 'area3DChart':
                                            $plotSeries[] =
self::chartDataSeries($chartDetail, $namespacesChartMeta, $chartDetailKey);
                                            $plotAttributes =
self::readChartAttributes($chartDetail);

                                            break;
                                        case 'doughnutChart':
                                        case 'pieChart':
                                        case 'pie3DChart':
                                            $explosion =
isset($chartDetail->ser->explosion);
                                            $plotSer =
self::chartDataSeries($chartDetail, $namespacesChartMeta, $chartDetailKey);
                                           
$plotSer->setPlotStyle($explosion);
                                            $plotSeries[] = $plotSer;
                                            $plotAttributes =
self::readChartAttributes($chartDetail);

                                            break;
                                        case 'scatterChart':
                                            $scatterStyle =
self::getAttribute($chartDetail->scatterStyle, 'val',
'string');
                                            $plotSer =
self::chartDataSeries($chartDetail, $namespacesChartMeta, $chartDetailKey);
                                           
$plotSer->setPlotStyle($scatterStyle);
                                            $plotSeries[] = $plotSer;
                                            $plotAttributes =
self::readChartAttributes($chartDetail);

                                            break;
                                        case 'bubbleChart':
                                            $bubbleScale =
self::getAttribute($chartDetail->bubbleScale, 'val',
'integer');
                                            $plotSer =
self::chartDataSeries($chartDetail, $namespacesChartMeta, $chartDetailKey);
                                           
$plotSer->setPlotStyle($bubbleScale);
                                            $plotSeries[] = $plotSer;
                                            $plotAttributes =
self::readChartAttributes($chartDetail);

                                            break;
                                        case 'radarChart':
                                            $radarStyle =
self::getAttribute($chartDetail->radarStyle, 'val',
'string');
                                            $plotSer =
self::chartDataSeries($chartDetail, $namespacesChartMeta, $chartDetailKey);
                                           
$plotSer->setPlotStyle($radarStyle);
                                            $plotSeries[] = $plotSer;
                                            $plotAttributes =
self::readChartAttributes($chartDetail);

                                            break;
                                        case 'surfaceChart':
                                        case 'surface3DChart':
                                            $wireFrame =
self::getAttribute($chartDetail->wireframe, 'val',
'boolean');
                                            $plotSer =
self::chartDataSeries($chartDetail, $namespacesChartMeta, $chartDetailKey);
                                           
$plotSer->setPlotStyle($wireFrame);
                                            $plotSeries[] = $plotSer;
                                            $plotAttributes =
self::readChartAttributes($chartDetail);

                                            break;
                                        case 'stockChart':
                                            $plotSeries[] =
self::chartDataSeries($chartDetail, $namespacesChartMeta, $chartDetailKey);
                                            $plotAttributes =
self::readChartAttributes($plotAreaLayout);

                                            break;
                                    }
                                }
                                if ($plotAreaLayout == null) {
                                    $plotAreaLayout = new Layout();
                                }
                                $plotArea = new PlotArea($plotAreaLayout,
$plotSeries);
                                self::setChartAttributes($plotAreaLayout,
$plotAttributes);

                                break;
                            case 'plotVisOnly':
                                $plotVisOnly =
self::getAttribute($chartDetails, 'val', 'string');

                                break;
                            case 'dispBlanksAs':
                                $dispBlanksAs =
self::getAttribute($chartDetails, 'val', 'string');

                                break;
                            case 'title':
                                $title = self::chartTitle($chartDetails,
$namespacesChartMeta);

                                break;
                            case 'legend':
                                $legendPos = 'r';
                                $legendLayout = null;
                                $legendOverlay = false;
                                foreach ($chartDetails as $chartDetailKey
=> $chartDetail) {
                                    switch ($chartDetailKey) {
                                        case 'legendPos':
                                            $legendPos =
self::getAttribute($chartDetail, 'val', 'string');

                                            break;
                                        case 'overlay':
                                            $legendOverlay =
self::getAttribute($chartDetail, 'val', 'boolean');

                                            break;
                                        case 'layout':
                                            $legendLayout =
self::chartLayoutDetails($chartDetail, $namespacesChartMeta);

                                            break;
                                    }
                                }
                                $legend = new Legend($legendPos,
$legendLayout, $legendOverlay);

                                break;
                        }
                    }
            }
        }
        $chart = new \PhpOffice\PhpSpreadsheet\Chart\Chart($chartName,
$title, $legend, $plotArea, $plotVisOnly, $dispBlanksAs, $XaxisLabel,
$YaxisLabel);

        return $chart;
    }

    private static function chartTitle(SimpleXMLElement $titleDetails,
array $namespacesChartMeta)
    {
        $caption = [];
        $titleLayout = null;
        foreach ($titleDetails as $titleDetailKey => $chartDetail) {
            switch ($titleDetailKey) {
                case 'tx':
                    $titleDetails =
$chartDetail->rich->children($namespacesChartMeta['a']);
                    foreach ($titleDetails as $titleKey => $titleDetail)
{
                        switch ($titleKey) {
                            case 'p':
                                $titleDetailPart =
$titleDetail->children($namespacesChartMeta['a']);
                                $caption[] =
self::parseRichText($titleDetailPart);
                        }
                    }

                    break;
                case 'layout':
                    $titleLayout = self::chartLayoutDetails($chartDetail,
$namespacesChartMeta);

                    break;
            }
        }

        return new Title($caption, $titleLayout);
    }

    private static function chartLayoutDetails($chartDetail,
$namespacesChartMeta)
    {
        if (!isset($chartDetail->manualLayout)) {
            return null;
        }
        $details =
$chartDetail->manualLayout->children($namespacesChartMeta['c']);
        if ($details === null) {
            return null;
        }
        $layout = [];
        foreach ($details as $detailKey => $detail) {
            $layout[$detailKey] = self::getAttribute($detail,
'val', 'string');
        }

        return new Layout($layout);
    }

    private static function chartDataSeries($chartDetail,
$namespacesChartMeta, $plotType)
    {
        $multiSeriesType = null;
        $smoothLine = false;
        $seriesLabel = $seriesCategory = $seriesValues = $plotOrder = [];

        $seriesDetailSet =
$chartDetail->children($namespacesChartMeta['c']);
        foreach ($seriesDetailSet as $seriesDetailKey => $seriesDetails)
{
            switch ($seriesDetailKey) {
                case 'grouping':
                    $multiSeriesType =
self::getAttribute($chartDetail->grouping, 'val',
'string');

                    break;
                case 'ser':
                    $marker = null;
                    $seriesIndex = '';
                    foreach ($seriesDetails as $seriesKey =>
$seriesDetail) {
                        switch ($seriesKey) {
                            case 'idx':
                                $seriesIndex =
self::getAttribute($seriesDetail, 'val', 'integer');

                                break;
                            case 'order':
                                $seriesOrder =
self::getAttribute($seriesDetail, 'val', 'integer');
                                $plotOrder[$seriesIndex] = $seriesOrder;

                                break;
                            case 'tx':
                                $seriesLabel[$seriesIndex] =
self::chartDataSeriesValueSet($seriesDetail, $namespacesChartMeta);

                                break;
                            case 'marker':
                                $marker =
self::getAttribute($seriesDetail->symbol, 'val',
'string');

                                break;
                            case 'smooth':
                                $smoothLine =
self::getAttribute($seriesDetail, 'val', 'boolean');

                                break;
                            case 'cat':
                                $seriesCategory[$seriesIndex] =
self::chartDataSeriesValueSet($seriesDetail, $namespacesChartMeta);

                                break;
                            case 'val':
                                $seriesValues[$seriesIndex] =
self::chartDataSeriesValueSet($seriesDetail, $namespacesChartMeta,
$marker);

                                break;
                            case 'xVal':
                                $seriesCategory[$seriesIndex] =
self::chartDataSeriesValueSet($seriesDetail, $namespacesChartMeta,
$marker);

                                break;
                            case 'yVal':
                                $seriesValues[$seriesIndex] =
self::chartDataSeriesValueSet($seriesDetail, $namespacesChartMeta,
$marker);

                                break;
                        }
                    }
            }
        }

        return new DataSeries($plotType, $multiSeriesType, $plotOrder,
$seriesLabel, $seriesCategory, $seriesValues, $smoothLine);
    }

    private static function chartDataSeriesValueSet($seriesDetail,
$namespacesChartMeta, $marker = null)
    {
        if (isset($seriesDetail->strRef)) {
            $seriesSource = (string) $seriesDetail->strRef->f;
            $seriesData =
self::chartDataSeriesValues($seriesDetail->strRef->strCache->children($namespacesChartMeta['c']),
's');

            return new
DataSeriesValues(DataSeriesValues::DATASERIES_TYPE_STRING, $seriesSource,
$seriesData['formatCode'], $seriesData['pointCount'],
$seriesData['dataValues'], $marker);
        } elseif (isset($seriesDetail->numRef)) {
            $seriesSource = (string) $seriesDetail->numRef->f;
            $seriesData =
self::chartDataSeriesValues($seriesDetail->numRef->numCache->children($namespacesChartMeta['c']));

            return new
DataSeriesValues(DataSeriesValues::DATASERIES_TYPE_NUMBER, $seriesSource,
$seriesData['formatCode'], $seriesData['pointCount'],
$seriesData['dataValues'], $marker);
        } elseif (isset($seriesDetail->multiLvlStrRef)) {
            $seriesSource = (string)
$seriesDetail->multiLvlStrRef->f;
            $seriesData =
self::chartDataSeriesValuesMultiLevel($seriesDetail->multiLvlStrRef->multiLvlStrCache->children($namespacesChartMeta['c']),
's');
            $seriesData['pointCount'] =
count($seriesData['dataValues']);

            return new
DataSeriesValues(DataSeriesValues::DATASERIES_TYPE_STRING, $seriesSource,
$seriesData['formatCode'], $seriesData['pointCount'],
$seriesData['dataValues'], $marker);
        } elseif (isset($seriesDetail->multiLvlNumRef)) {
            $seriesSource = (string)
$seriesDetail->multiLvlNumRef->f;
            $seriesData =
self::chartDataSeriesValuesMultiLevel($seriesDetail->multiLvlNumRef->multiLvlNumCache->children($namespacesChartMeta['c']),
's');
            $seriesData['pointCount'] =
count($seriesData['dataValues']);

            return new
DataSeriesValues(DataSeriesValues::DATASERIES_TYPE_STRING, $seriesSource,
$seriesData['formatCode'], $seriesData['pointCount'],
$seriesData['dataValues'], $marker);
        }

        return null;
    }

    private static function chartDataSeriesValues($seriesValueSet,
$dataType = 'n')
    {
        $seriesVal = [];
        $formatCode = '';
        $pointCount = 0;

        foreach ($seriesValueSet as $seriesValueIdx => $seriesValue) {
            switch ($seriesValueIdx) {
                case 'ptCount':
                    $pointCount = self::getAttribute($seriesValue,
'val', 'integer');

                    break;
                case 'formatCode':
                    $formatCode = (string) $seriesValue;

                    break;
                case 'pt':
                    $pointVal = self::getAttribute($seriesValue,
'idx', 'integer');
                    if ($dataType == 's') {
                        $seriesVal[$pointVal] = (string)
$seriesValue->v;
                    } elseif ($seriesValue->v === Functions::NA()) {
                        $seriesVal[$pointVal] = null;
                    } else {
                        $seriesVal[$pointVal] = (float) $seriesValue->v;
                    }

                    break;
            }
        }

        return [
            'formatCode' => $formatCode,
            'pointCount' => $pointCount,
            'dataValues' => $seriesVal,
        ];
    }

    private static function
chartDataSeriesValuesMultiLevel($seriesValueSet, $dataType = 'n')
    {
        $seriesVal = [];
        $formatCode = '';
        $pointCount = 0;

        foreach ($seriesValueSet->lvl as $seriesLevelIdx =>
$seriesLevel) {
            foreach ($seriesLevel as $seriesValueIdx => $seriesValue) {
                switch ($seriesValueIdx) {
                    case 'ptCount':
                        $pointCount = self::getAttribute($seriesValue,
'val', 'integer');

                        break;
                    case 'formatCode':
                        $formatCode = (string) $seriesValue;

                        break;
                    case 'pt':
                        $pointVal = self::getAttribute($seriesValue,
'idx', 'integer');
                        if ($dataType == 's') {
                            $seriesVal[$pointVal][] = (string)
$seriesValue->v;
                        } elseif ($seriesValue->v === Functions::NA()) {
                            $seriesVal[$pointVal] = null;
                        } else {
                            $seriesVal[$pointVal][] = (float)
$seriesValue->v;
                        }

                        break;
                }
            }
        }

        return [
            'formatCode' => $formatCode,
            'pointCount' => $pointCount,
            'dataValues' => $seriesVal,
        ];
    }

    private static function parseRichText(SimpleXMLElement
$titleDetailPart)
    {
        $value = new RichText();
        $objText = null;
        foreach ($titleDetailPart as $titleDetailElementKey =>
$titleDetailElement) {
            if (isset($titleDetailElement->t)) {
                $objText = $value->createTextRun((string)
$titleDetailElement->t);
            }
            if (isset($titleDetailElement->rPr)) {
                if
(isset($titleDetailElement->rPr->rFont['val'])) {
                    $objText->getFont()->setName((string)
$titleDetailElement->rPr->rFont['val']);
                }

                $fontSize =
(self::getAttribute($titleDetailElement->rPr, 'sz',
'integer'));
                if ($fontSize !== null) {
                    $objText->getFont()->setSize(floor($fontSize /
100));
                }

                $fontColor =
(self::getAttribute($titleDetailElement->rPr, 'color',
'string'));
                if ($fontColor !== null) {
                    $objText->getFont()->setColor(new
Color(self::readColor($fontColor)));
                }

                $bold = self::getAttribute($titleDetailElement->rPr,
'b', 'boolean');
                if ($bold !== null) {
                    $objText->getFont()->setBold($bold);
                }

                $italic = self::getAttribute($titleDetailElement->rPr,
'i', 'boolean');
                if ($italic !== null) {
                    $objText->getFont()->setItalic($italic);
                }

                $baseline = self::getAttribute($titleDetailElement->rPr,
'baseline', 'integer');
                if ($baseline !== null) {
                    if ($baseline > 0) {
                        $objText->getFont()->setSuperscript(true);
                    } elseif ($baseline < 0) {
                        $objText->getFont()->setSubscript(true);
                    }
                }

                $underscore =
(self::getAttribute($titleDetailElement->rPr, 'u',
'string'));
                if ($underscore !== null) {
                    if ($underscore == 'sng') {
                       
$objText->getFont()->setUnderline(Font::UNDERLINE_SINGLE);
                    } elseif ($underscore == 'dbl') {
                       
$objText->getFont()->setUnderline(Font::UNDERLINE_DOUBLE);
                    } else {
                       
$objText->getFont()->setUnderline(Font::UNDERLINE_NONE);
                    }
                }

                $strikethrough =
(self::getAttribute($titleDetailElement->rPr, 's',
'string'));
                if ($strikethrough !== null) {
                    if ($strikethrough == 'noStrike') {
                        $objText->getFont()->setStrikethrough(false);
                    } else {
                        $objText->getFont()->setStrikethrough(true);
                    }
                }
            }
        }

        return $value;
    }

    private static function readChartAttributes($chartDetail)
    {
        $plotAttributes = [];
        if (isset($chartDetail->dLbls)) {
            if (isset($chartDetail->dLbls->howLegendKey)) {
                $plotAttributes['showLegendKey'] =
self::getAttribute($chartDetail->dLbls->showLegendKey,
'val', 'string');
            }
            if (isset($chartDetail->dLbls->showVal)) {
                $plotAttributes['showVal'] =
self::getAttribute($chartDetail->dLbls->showVal, 'val',
'string');
            }
            if (isset($chartDetail->dLbls->showCatName)) {
                $plotAttributes['showCatName'] =
self::getAttribute($chartDetail->dLbls->showCatName, 'val',
'string');
            }
            if (isset($chartDetail->dLbls->showSerName)) {
                $plotAttributes['showSerName'] =
self::getAttribute($chartDetail->dLbls->showSerName, 'val',
'string');
            }
            if (isset($chartDetail->dLbls->showPercent)) {
                $plotAttributes['showPercent'] =
self::getAttribute($chartDetail->dLbls->showPercent, 'val',
'string');
            }
            if (isset($chartDetail->dLbls->showBubbleSize)) {
                $plotAttributes['showBubbleSize'] =
self::getAttribute($chartDetail->dLbls->showBubbleSize,
'val', 'string');
            }
            if (isset($chartDetail->dLbls->showLeaderLines)) {
                $plotAttributes['showLeaderLines'] =
self::getAttribute($chartDetail->dLbls->showLeaderLines,
'val', 'string');
            }
        }

        return $plotAttributes;
    }

    /**
     * @param Layout $plotArea
     * @param mixed $plotAttributes
     */
    private static function setChartAttributes(Layout $plotArea,
$plotAttributes)
    {
        foreach ($plotAttributes as $plotAttributeKey =>
$plotAttributeValue) {
            switch ($plotAttributeKey) {
                case 'showLegendKey':
                    $plotArea->setShowLegendKey($plotAttributeValue);

                    break;
                case 'showVal':
                    $plotArea->setShowVal($plotAttributeValue);

                    break;
                case 'showCatName':
                    $plotArea->setShowCatName($plotAttributeValue);

                    break;
                case 'showSerName':
                    $plotArea->setShowSerName($plotAttributeValue);

                    break;
                case 'showPercent':
                    $plotArea->setShowPercent($plotAttributeValue);

                    break;
                case 'showBubbleSize':
                    $plotArea->setShowBubbleSize($plotAttributeValue);

                    break;
                case 'showLeaderLines':
                    $plotArea->setShowLeaderLines($plotAttributeValue);

                    break;
            }
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/Xlsx/ColumnAndRowAttributes.php000064400000017377151165414000026035
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader\Xlsx;

use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\Reader\IReadFilter;
use PhpOffice\PhpSpreadsheet\Worksheet\Worksheet;

class ColumnAndRowAttributes extends BaseParserClass
{
    private $worksheet;

    private $worksheetXml;

    public function __construct(Worksheet $workSheet, \SimpleXMLElement
$worksheetXml = null)
    {
        $this->worksheet = $workSheet;
        $this->worksheetXml = $worksheetXml;
    }

    /**
     * Set Worksheet column attributes by attributes array passed.
     *
     * @param string $columnAddress A, B, ... DX, ...
     * @param array $columnAttributes array of attributes (indexes are
attribute name, values are value)
     *                               'xfIndex',
'visible', 'collapsed', 'outlineLevel',
'width', ... ?
     */
    private function setColumnAttributes($columnAddress, array
$columnAttributes)
    {
        if (isset($columnAttributes['xfIndex'])) {
           
$this->worksheet->getColumnDimension($columnAddress)->setXfIndex($columnAttributes['xfIndex']);
        }
        if (isset($columnAttributes['visible'])) {
           
$this->worksheet->getColumnDimension($columnAddress)->setVisible($columnAttributes['visible']);
        }
        if (isset($columnAttributes['collapsed'])) {
           
$this->worksheet->getColumnDimension($columnAddress)->setCollapsed($columnAttributes['collapsed']);
        }
        if (isset($columnAttributes['outlineLevel'])) {
           
$this->worksheet->getColumnDimension($columnAddress)->setOutlineLevel($columnAttributes['outlineLevel']);
        }
        if (isset($columnAttributes['width'])) {
           
$this->worksheet->getColumnDimension($columnAddress)->setWidth($columnAttributes['width']);
        }
    }

    /**
     * Set Worksheet row attributes by attributes array passed.
     *
     * @param int $rowNumber 1, 2, 3, ... 99, ...
     * @param array $rowAttributes array of attributes (indexes are
attribute name, values are value)
     *                               'xfIndex',
'visible', 'collapsed', 'outlineLevel',
'rowHeight', ... ?
     */
    private function setRowAttributes($rowNumber, array $rowAttributes)
    {
        if (isset($rowAttributes['xfIndex'])) {
           
$this->worksheet->getRowDimension($rowNumber)->setXfIndex($rowAttributes['xfIndex']);
        }
        if (isset($rowAttributes['visible'])) {
           
$this->worksheet->getRowDimension($rowNumber)->setVisible($rowAttributes['visible']);
        }
        if (isset($rowAttributes['collapsed'])) {
           
$this->worksheet->getRowDimension($rowNumber)->setCollapsed($rowAttributes['collapsed']);
        }
        if (isset($rowAttributes['outlineLevel'])) {
           
$this->worksheet->getRowDimension($rowNumber)->setOutlineLevel($rowAttributes['outlineLevel']);
        }
        if (isset($rowAttributes['rowHeight'])) {
           
$this->worksheet->getRowDimension($rowNumber)->setRowHeight($rowAttributes['rowHeight']);
        }
    }

    /**
     * @param IReadFilter $readFilter
     * @param bool $readDataOnly
     */
    public function load(IReadFilter $readFilter = null, $readDataOnly =
false)
    {
        if ($this->worksheetXml === null) {
            return;
        }

        $columnsAttributes = [];
        $rowsAttributes = [];
        if (isset($this->worksheetXml->cols)) {
            $columnsAttributes =
$this->readColumnAttributes($this->worksheetXml->cols,
$readDataOnly);
        }

        if ($this->worksheetXml->sheetData &&
$this->worksheetXml->sheetData->row) {
            $rowsAttributes =
$this->readRowAttributes($this->worksheetXml->sheetData->row,
$readDataOnly);
        }

        // set columns/rows attributes
        $columnsAttributesAreSet = [];
        foreach ($columnsAttributes as $columnCoordinate =>
$columnAttributes) {
            if ($readFilter === null ||
                !$this->isFilteredColumn($readFilter, $columnCoordinate,
$rowsAttributes)) {
                if (!isset($columnsAttributesAreSet[$columnCoordinate])) {
                    $this->setColumnAttributes($columnCoordinate,
$columnAttributes);
                    $columnsAttributesAreSet[$columnCoordinate] = true;
                }
            }
        }

        $rowsAttributesAreSet = [];
        foreach ($rowsAttributes as $rowCoordinate => $rowAttributes) {
            if ($readFilter === null ||
                !$this->isFilteredRow($readFilter, $rowCoordinate,
$columnsAttributes)) {
                if (!isset($rowsAttributesAreSet[$rowCoordinate])) {
                    $this->setRowAttributes($rowCoordinate,
$rowAttributes);
                    $rowsAttributesAreSet[$rowCoordinate] = true;
                }
            }
        }
    }

    private function isFilteredColumn(IReadFilter $readFilter,
$columnCoordinate, array $rowsAttributes)
    {
        foreach ($rowsAttributes as $rowCoordinate => $rowAttributes) {
            if (!$readFilter->readCell($columnCoordinate,
$rowCoordinate, $this->worksheet->getTitle())) {
                return true;
            }
        }

        return false;
    }

    private function readColumnAttributes(\SimpleXMLElement $worksheetCols,
$readDataOnly)
    {
        $columnAttributes = [];

        foreach ($worksheetCols->col as $column) {
            $startColumn = Coordinate::stringFromColumnIndex((int)
$column['min']);
            $endColumn = Coordinate::stringFromColumnIndex((int)
$column['max']);
            ++$endColumn;
            for ($columnAddress = $startColumn; $columnAddress !==
$endColumn; ++$columnAddress) {
                $columnAttributes[$columnAddress] =
$this->readColumnRangeAttributes($column, $readDataOnly);

                if ((int) ($column['max']) == 16384) {
                    break;
                }
            }
        }

        return $columnAttributes;
    }

    private function readColumnRangeAttributes(\SimpleXMLElement $column,
$readDataOnly)
    {
        $columnAttributes = [];

        if ($column['style'] && !$readDataOnly) {
            $columnAttributes['xfIndex'] = (int)
$column['style'];
        }
        if (self::boolean($column['hidden'])) {
            $columnAttributes['visible'] = false;
        }
        if (self::boolean($column['collapsed'])) {
            $columnAttributes['collapsed'] = true;
        }
        if (((int) $column['outlineLevel']) > 0) {
            $columnAttributes['outlineLevel'] = (int)
$column['outlineLevel'];
        }
        $columnAttributes['width'] = (float)
$column['width'];

        return $columnAttributes;
    }

    private function isFilteredRow(IReadFilter $readFilter, $rowCoordinate,
array $columnsAttributes)
    {
        foreach ($columnsAttributes as $columnCoordinate =>
$columnAttributes) {
            if (!$readFilter->readCell($columnCoordinate,
$rowCoordinate, $this->worksheet->getTitle())) {
                return true;
            }
        }

        return false;
    }

    private function readRowAttributes(\SimpleXMLElement $worksheetRow,
$readDataOnly)
    {
        $rowAttributes = [];

        foreach ($worksheetRow as $row) {
            if ($row['ht'] && !$readDataOnly) {
                $rowAttributes[(int)
$row['r']]['rowHeight'] = (float) $row['ht'];
            }
            if (self::boolean($row['hidden'])) {
                $rowAttributes[(int)
$row['r']]['visible'] = false;
            }
            if (self::boolean($row['collapsed'])) {
                $rowAttributes[(int)
$row['r']]['collapsed'] = true;
            }
            if ((int) $row['outlineLevel'] > 0) {
                $rowAttributes[(int)
$row['r']]['outlineLevel'] = (int)
$row['outlineLevel'];
            }
            if ($row['s'] && !$readDataOnly) {
                $rowAttributes[(int)
$row['r']]['xfIndex'] = (int) $row['s'];
            }
        }

        return $rowAttributes;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/Xlsx/ConditionalStyles.php000064400000006336151165414000025056
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader\Xlsx;

use PhpOffice\PhpSpreadsheet\Style\Conditional;
use PhpOffice\PhpSpreadsheet\Worksheet\Worksheet;

class ConditionalStyles
{
    private $worksheet;

    private $worksheetXml;

    private $dxfs;

    public function __construct(Worksheet $workSheet, \SimpleXMLElement
$worksheetXml, array $dxfs = [])
    {
        $this->worksheet = $workSheet;
        $this->worksheetXml = $worksheetXml;
        $this->dxfs = $dxfs;
    }

    public function load()
    {
        $this->setConditionalStyles(
            $this->worksheet,
            $this->readConditionalStyles($this->worksheetXml)
        );
    }

    private function readConditionalStyles($xmlSheet)
    {
        $conditionals = [];
        foreach ($xmlSheet->conditionalFormatting as $conditional) {
            foreach ($conditional->cfRule as $cfRule) {
                if (((string) $cfRule['type'] ==
Conditional::CONDITION_NONE
                    || (string) $cfRule['type'] ==
Conditional::CONDITION_CELLIS
                    || (string) $cfRule['type'] ==
Conditional::CONDITION_CONTAINSTEXT
                    || (string) $cfRule['type'] ==
Conditional::CONDITION_CONTAINSBLANKS
                    || (string) $cfRule['type'] ==
Conditional::CONDITION_NOTCONTAINSBLANKS
                    || (string) $cfRule['type'] ==
Conditional::CONDITION_EXPRESSION)
                    && isset($this->dxfs[(int)
($cfRule['dxfId'])])) {
                    $conditionals[(string)
$conditional['sqref']][(int) ($cfRule['priority'])] =
$cfRule;
                }
            }
        }

        return $conditionals;
    }

    private function setConditionalStyles(Worksheet $worksheet, array
$conditionals)
    {
        foreach ($conditionals as $ref => $cfRules) {
            ksort($cfRules);
            $conditionalStyles = $this->readStyleRules($cfRules);

            // Extract all cell references in $ref
            $cellBlocks = explode(' ', str_replace('$',
'', strtoupper($ref)));
            foreach ($cellBlocks as $cellBlock) {
               
$worksheet->getStyle($cellBlock)->setConditionalStyles($conditionalStyles);
            }
        }
    }

    private function readStyleRules($cfRules)
    {
        $conditionalStyles = [];
        foreach ($cfRules as $cfRule) {
            $objConditional = new Conditional();
            $objConditional->setConditionType((string)
$cfRule['type']);
            $objConditional->setOperatorType((string)
$cfRule['operator']);

            if ((string) $cfRule['text'] != '') {
                $objConditional->setText((string)
$cfRule['text']);
            }

            if (isset($cfRule['stopIfTrue']) && (int)
$cfRule['stopIfTrue'] === 1) {
                $objConditional->setStopIfTrue(true);
            }

            if (count($cfRule->formula) > 1) {
                foreach ($cfRule->formula as $formula) {
                    $objConditional->addCondition((string) $formula);
                }
            } else {
                $objConditional->addCondition((string)
$cfRule->formula);
            }
            $objConditional->setStyle(clone $this->dxfs[(int)
($cfRule['dxfId'])]);
            $conditionalStyles[] = $objConditional;
        }

        return $conditionalStyles;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/Xlsx/DataValidations.php000064400000004360151165414000024451
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader\Xlsx;

use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\Worksheet\Worksheet;

class DataValidations
{
    private $worksheet;

    private $worksheetXml;

    public function __construct(Worksheet $workSheet, \SimpleXMLElement
$worksheetXml)
    {
        $this->worksheet = $workSheet;
        $this->worksheetXml = $worksheetXml;
    }

    public function load()
    {
        foreach
($this->worksheetXml->dataValidations->dataValidation as
$dataValidation) {
            // Uppercase coordinate
            $range = strtoupper($dataValidation['sqref']);
            $rangeSet = explode(' ', $range);
            foreach ($rangeSet as $range) {
                $stRange =
$this->worksheet->shrinkRangeToFit($range);

                // Extract all cell references in $range
                foreach
(Coordinate::extractAllCellReferencesInRange($stRange) as $reference) {
                    // Create validation
                    $docValidation =
$this->worksheet->getCell($reference)->getDataValidation();
                    $docValidation->setType((string)
$dataValidation['type']);
                    $docValidation->setErrorStyle((string)
$dataValidation['errorStyle']);
                    $docValidation->setOperator((string)
$dataValidation['operator']);
                   
$docValidation->setAllowBlank($dataValidation['allowBlank'] !=
0);
                   
$docValidation->setShowDropDown($dataValidation['showDropDown']
== 0);
                   
$docValidation->setShowInputMessage($dataValidation['showInputMessage']
!= 0);
                   
$docValidation->setShowErrorMessage($dataValidation['showErrorMessage']
!= 0);
                    $docValidation->setErrorTitle((string)
$dataValidation['errorTitle']);
                    $docValidation->setError((string)
$dataValidation['error']);
                    $docValidation->setPromptTitle((string)
$dataValidation['promptTitle']);
                    $docValidation->setPrompt((string)
$dataValidation['prompt']);
                    $docValidation->setFormula1((string)
$dataValidation->formula1);
                    $docValidation->setFormula2((string)
$dataValidation->formula2);
                }
            }
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/Xlsx/Hyperlinks.php000064400000003676151165414000023543
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader\Xlsx;

use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\Worksheet\Worksheet;

class Hyperlinks
{
    private $worksheet;

    private $hyperlinks = [];

    public function __construct(Worksheet $workSheet)
    {
        $this->worksheet = $workSheet;
    }

    public function readHyperlinks(\SimpleXMLElement $relsWorksheet)
    {
        foreach ($relsWorksheet->Relationship as $element) {
            if ($element['Type'] ==
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/hyperlink')
{
                $this->hyperlinks[(string) $element['Id']] =
(string) $element['Target'];
            }
        }
    }

    public function setHyperlinks(\SimpleXMLElement $worksheetXml)
    {
        foreach ($worksheetXml->hyperlink as $hyperlink) {
            $this->setHyperlink($hyperlink, $this->worksheet);
        }
    }

    private function setHyperlink(\SimpleXMLElement $hyperlink, Worksheet
$worksheet)
    {
        // Link url
        $linkRel =
$hyperlink->attributes('http://schemas.openxmlformats.org/officeDocument/2006/relationships');

        foreach
(Coordinate::extractAllCellReferencesInRange($hyperlink['ref'])
as $cellReference) {
            $cell = $worksheet->getCell($cellReference);
            if (isset($linkRel['id'])) {
                $hyperlinkUrl = $this->hyperlinks[(string)
$linkRel['id']];
                if (isset($hyperlink['location'])) {
                    $hyperlinkUrl .= '#' . (string)
$hyperlink['location'];
                }
                $cell->getHyperlink()->setUrl($hyperlinkUrl);
            } elseif (isset($hyperlink['location'])) {
                $cell->getHyperlink()->setUrl('sheet://' .
(string) $hyperlink['location']);
            }

            // Tooltip
            if (isset($hyperlink['tooltip'])) {
                $cell->getHyperlink()->setTooltip((string)
$hyperlink['tooltip']);
            }
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/Xlsx/PageSetup.php000064400000014533151165414000023302
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader\Xlsx;

use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\Worksheet\Worksheet;

class PageSetup extends BaseParserClass
{
    private $worksheet;

    private $worksheetXml;

    public function __construct(Worksheet $workSheet, \SimpleXMLElement
$worksheetXml = null)
    {
        $this->worksheet = $workSheet;
        $this->worksheetXml = $worksheetXml;
    }

    public function load(array $unparsedLoadedData)
    {
        if (!$this->worksheetXml) {
            return $unparsedLoadedData;
        }

        $this->margins($this->worksheetXml, $this->worksheet);
        $unparsedLoadedData = $this->pageSetup($this->worksheetXml,
$this->worksheet, $unparsedLoadedData);
        $this->headerFooter($this->worksheetXml,
$this->worksheet);
        $this->pageBreaks($this->worksheetXml, $this->worksheet);

        return $unparsedLoadedData;
    }

    private function margins(\SimpleXMLElement $xmlSheet, Worksheet
$worksheet)
    {
        if ($xmlSheet->pageMargins) {
            $docPageMargins = $worksheet->getPageMargins();
            $docPageMargins->setLeft((float)
($xmlSheet->pageMargins['left']));
            $docPageMargins->setRight((float)
($xmlSheet->pageMargins['right']));
            $docPageMargins->setTop((float)
($xmlSheet->pageMargins['top']));
            $docPageMargins->setBottom((float)
($xmlSheet->pageMargins['bottom']));
            $docPageMargins->setHeader((float)
($xmlSheet->pageMargins['header']));
            $docPageMargins->setFooter((float)
($xmlSheet->pageMargins['footer']));
        }
    }

    private function pageSetup(\SimpleXMLElement $xmlSheet, Worksheet
$worksheet, array $unparsedLoadedData)
    {
        if ($xmlSheet->pageSetup) {
            $docPageSetup = $worksheet->getPageSetup();

            if (isset($xmlSheet->pageSetup['orientation'])) {
                $docPageSetup->setOrientation((string)
$xmlSheet->pageSetup['orientation']);
            }
            if (isset($xmlSheet->pageSetup['paperSize'])) {
                $docPageSetup->setPaperSize((int)
($xmlSheet->pageSetup['paperSize']));
            }
            if (isset($xmlSheet->pageSetup['scale'])) {
                $docPageSetup->setScale((int)
($xmlSheet->pageSetup['scale']), false);
            }
            if (isset($xmlSheet->pageSetup['fitToHeight'])
&& (int) ($xmlSheet->pageSetup['fitToHeight']) >=
0) {
                $docPageSetup->setFitToHeight((int)
($xmlSheet->pageSetup['fitToHeight']), false);
            }
            if (isset($xmlSheet->pageSetup['fitToWidth'])
&& (int) ($xmlSheet->pageSetup['fitToWidth']) >= 0)
{
                $docPageSetup->setFitToWidth((int)
($xmlSheet->pageSetup['fitToWidth']), false);
            }
            if (isset($xmlSheet->pageSetup['firstPageNumber'],
$xmlSheet->pageSetup['useFirstPageNumber']) &&
                self::boolean((string)
$xmlSheet->pageSetup['useFirstPageNumber'])) {
                $docPageSetup->setFirstPageNumber((int)
($xmlSheet->pageSetup['firstPageNumber']));
            }

            $relAttributes =
$xmlSheet->pageSetup->attributes('http://schemas.openxmlformats.org/officeDocument/2006/relationships');
            if (isset($relAttributes['id'])) {
               
$unparsedLoadedData['sheets'][$worksheet->getCodeName()]['pageSetupRelId']
= (string) $relAttributes['id'];
            }
        }

        return $unparsedLoadedData;
    }

    private function headerFooter(\SimpleXMLElement $xmlSheet, Worksheet
$worksheet)
    {
        if ($xmlSheet->headerFooter) {
            $docHeaderFooter = $worksheet->getHeaderFooter();

            if
(isset($xmlSheet->headerFooter['differentOddEven']) &&
                self::boolean((string)
$xmlSheet->headerFooter['differentOddEven'])) {
                $docHeaderFooter->setDifferentOddEven(true);
            } else {
                $docHeaderFooter->setDifferentOddEven(false);
            }
            if
(isset($xmlSheet->headerFooter['differentFirst']) &&
                self::boolean((string)
$xmlSheet->headerFooter['differentFirst'])) {
                $docHeaderFooter->setDifferentFirst(true);
            } else {
                $docHeaderFooter->setDifferentFirst(false);
            }
            if (isset($xmlSheet->headerFooter['scaleWithDoc'])
&&
                !self::boolean((string)
$xmlSheet->headerFooter['scaleWithDoc'])) {
                $docHeaderFooter->setScaleWithDocument(false);
            } else {
                $docHeaderFooter->setScaleWithDocument(true);
            }
            if
(isset($xmlSheet->headerFooter['alignWithMargins']) &&
                !self::boolean((string)
$xmlSheet->headerFooter['alignWithMargins'])) {
                $docHeaderFooter->setAlignWithMargins(false);
            } else {
                $docHeaderFooter->setAlignWithMargins(true);
            }

            $docHeaderFooter->setOddHeader((string)
$xmlSheet->headerFooter->oddHeader);
            $docHeaderFooter->setOddFooter((string)
$xmlSheet->headerFooter->oddFooter);
            $docHeaderFooter->setEvenHeader((string)
$xmlSheet->headerFooter->evenHeader);
            $docHeaderFooter->setEvenFooter((string)
$xmlSheet->headerFooter->evenFooter);
            $docHeaderFooter->setFirstHeader((string)
$xmlSheet->headerFooter->firstHeader);
            $docHeaderFooter->setFirstFooter((string)
$xmlSheet->headerFooter->firstFooter);
        }
    }

    private function pageBreaks(\SimpleXMLElement $xmlSheet, Worksheet
$worksheet)
    {
        if ($xmlSheet->rowBreaks &&
$xmlSheet->rowBreaks->brk) {
            $this->rowBreaks($xmlSheet, $worksheet);
        }
        if ($xmlSheet->colBreaks &&
$xmlSheet->colBreaks->brk) {
            $this->columnBreaks($xmlSheet, $worksheet);
        }
    }

    private function rowBreaks(\SimpleXMLElement $xmlSheet, Worksheet
$worksheet)
    {
        foreach ($xmlSheet->rowBreaks->brk as $brk) {
            if ($brk['man']) {
               
$worksheet->setBreak("A{$brk['id']}",
Worksheet::BREAK_ROW);
            }
        }
    }

    private function columnBreaks(\SimpleXMLElement $xmlSheet, Worksheet
$worksheet)
    {
        foreach ($xmlSheet->colBreaks->brk as $brk) {
            if ($brk['man']) {
                $worksheet->setBreak(
                    Coordinate::stringFromColumnIndex(((int)
$brk['id']) + 1) . '1',
                    Worksheet::BREAK_COLUMN
                );
            }
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/Xlsx/Properties.php000064400000007511151165414000023537
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader\Xlsx;

use PhpOffice\PhpSpreadsheet\Document\Properties as DocumentProperties;
use PhpOffice\PhpSpreadsheet\Reader\Security\XmlScanner;
use PhpOffice\PhpSpreadsheet\Settings;

class Properties
{
    private $securityScanner;

    private $docProps;

    public function __construct(XmlScanner $securityScanner,
DocumentProperties $docProps)
    {
        $this->securityScanner = $securityScanner;
        $this->docProps = $docProps;
    }

    private function extractPropertyData($propertyData)
    {
        return simplexml_load_string(
            $this->securityScanner->scan($propertyData),
            'SimpleXMLElement',
            Settings::getLibXmlLoaderOptions()
        );
    }

    public function readCoreProperties($propertyData)
    {
        $xmlCore = $this->extractPropertyData($propertyData);

        if (is_object($xmlCore)) {
            $xmlCore->registerXPathNamespace('dc',
'http://purl.org/dc/elements/1.1/');
            $xmlCore->registerXPathNamespace('dcterms',
'http://purl.org/dc/terms/');
            $xmlCore->registerXPathNamespace('cp',
'http://schemas.openxmlformats.org/package/2006/metadata/core-properties');

            $this->docProps->setCreator((string)
self::getArrayItem($xmlCore->xpath('dc:creator')));
            $this->docProps->setLastModifiedBy((string)
self::getArrayItem($xmlCore->xpath('cp:lastModifiedBy')));
           
$this->docProps->setCreated(strtotime(self::getArrayItem($xmlCore->xpath('dcterms:created'))));
//! respect xsi:type
           
$this->docProps->setModified(strtotime(self::getArrayItem($xmlCore->xpath('dcterms:modified'))));
//! respect xsi:type
            $this->docProps->setTitle((string)
self::getArrayItem($xmlCore->xpath('dc:title')));
            $this->docProps->setDescription((string)
self::getArrayItem($xmlCore->xpath('dc:description')));
            $this->docProps->setSubject((string)
self::getArrayItem($xmlCore->xpath('dc:subject')));
            $this->docProps->setKeywords((string)
self::getArrayItem($xmlCore->xpath('cp:keywords')));
            $this->docProps->setCategory((string)
self::getArrayItem($xmlCore->xpath('cp:category')));
        }
    }

    public function readExtendedProperties($propertyData)
    {
        $xmlCore = $this->extractPropertyData($propertyData);

        if (is_object($xmlCore)) {
            if (isset($xmlCore->Company)) {
                $this->docProps->setCompany((string)
$xmlCore->Company);
            }
            if (isset($xmlCore->Manager)) {
                $this->docProps->setManager((string)
$xmlCore->Manager);
            }
        }
    }

    public function readCustomProperties($propertyData)
    {
        $xmlCore = $this->extractPropertyData($propertyData);

        if (is_object($xmlCore)) {
            foreach ($xmlCore as $xmlProperty) {
                /** @var \SimpleXMLElement $xmlProperty */
                $cellDataOfficeAttributes = $xmlProperty->attributes();
                if (isset($cellDataOfficeAttributes['name'])) {
                    $propertyName = (string)
$cellDataOfficeAttributes['name'];
                    $cellDataOfficeChildren =
$xmlProperty->children('http://schemas.openxmlformats.org/officeDocument/2006/docPropsVTypes');

                    $attributeType = $cellDataOfficeChildren->getName();
                    $attributeValue = (string)
$cellDataOfficeChildren->{$attributeType};
                    $attributeValue =
DocumentProperties::convertProperty($attributeValue, $attributeType);
                    $attributeType =
DocumentProperties::convertPropertyType($attributeType);
                    $this->docProps->setCustomProperty($propertyName,
$attributeValue, $attributeType);
                }
            }
        }
    }

    private static function getArrayItem(array $array, $key = 0)
    {
        return $array[$key] ?? null;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/Xlsx/SheetViewOptions.php000064400000010222151165414000024653
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader\Xlsx;

use PhpOffice\PhpSpreadsheet\Worksheet\Worksheet;

class SheetViewOptions extends BaseParserClass
{
    private $worksheet;

    private $worksheetXml;

    public function __construct(Worksheet $workSheet, \SimpleXMLElement
$worksheetXml = null)
    {
        $this->worksheet = $workSheet;
        $this->worksheetXml = $worksheetXml;
    }

    /**
     * @param bool $readDataOnly
     */
    public function load($readDataOnly = false)
    {
        if ($this->worksheetXml === null) {
            return;
        }

        if (isset($this->worksheetXml->sheetPr)) {
            $this->tabColor($this->worksheetXml->sheetPr);
            $this->codeName($this->worksheetXml->sheetPr);
            $this->outlines($this->worksheetXml->sheetPr);
            $this->pageSetup($this->worksheetXml->sheetPr);
        }

        if (isset($this->worksheetXml->sheetFormatPr)) {
           
$this->sheetFormat($this->worksheetXml->sheetFormatPr);
        }

        if (!$readDataOnly &&
isset($this->worksheetXml->printOptions)) {
           
$this->printOptions($this->worksheetXml->printOptions);
        }
    }

    private function tabColor(\SimpleXMLElement $sheetPr)
    {
        if (isset($sheetPr->tabColor,
$sheetPr->tabColor['rgb'])) {
            $this->worksheet->getTabColor()->setARGB((string)
$sheetPr->tabColor['rgb']);
        }
    }

    private function codeName(\SimpleXMLElement $sheetPr)
    {
        if (isset($sheetPr['codeName'])) {
            $this->worksheet->setCodeName((string)
$sheetPr['codeName'], false);
        }
    }

    private function outlines(\SimpleXMLElement $sheetPr)
    {
        if (isset($sheetPr->outlinePr)) {
            if (isset($sheetPr->outlinePr['summaryRight'])
&&
                !self::boolean((string)
$sheetPr->outlinePr['summaryRight'])) {
                $this->worksheet->setShowSummaryRight(false);
            } else {
                $this->worksheet->setShowSummaryRight(true);
            }

            if (isset($sheetPr->outlinePr['summaryBelow'])
&&
                !self::boolean((string)
$sheetPr->outlinePr['summaryBelow'])) {
                $this->worksheet->setShowSummaryBelow(false);
            } else {
                $this->worksheet->setShowSummaryBelow(true);
            }
        }
    }

    private function pageSetup(\SimpleXMLElement $sheetPr)
    {
        if (isset($sheetPr->pageSetUpPr)) {
            if (isset($sheetPr->pageSetUpPr['fitToPage'])
&&
                !self::boolean((string)
$sheetPr->pageSetUpPr['fitToPage'])) {
               
$this->worksheet->getPageSetup()->setFitToPage(false);
            } else {
               
$this->worksheet->getPageSetup()->setFitToPage(true);
            }
        }
    }

    private function sheetFormat(\SimpleXMLElement $sheetFormatPr)
    {
        if (isset($sheetFormatPr['customHeight']) &&
            self::boolean((string)
$sheetFormatPr['customHeight']) &&
            isset($sheetFormatPr['defaultRowHeight'])) {
            $this->worksheet->getDefaultRowDimension()
                ->setRowHeight((float)
$sheetFormatPr['defaultRowHeight']);
        }

        if (isset($sheetFormatPr['defaultColWidth'])) {
            $this->worksheet->getDefaultColumnDimension()
                ->setWidth((float)
$sheetFormatPr['defaultColWidth']);
        }

        if (isset($sheetFormatPr['zeroHeight']) &&
            ((string) $sheetFormatPr['zeroHeight'] ===
'1')) {
           
$this->worksheet->getDefaultRowDimension()->setZeroHeight(true);
        }
    }

    private function printOptions(\SimpleXMLElement $printOptions)
    {
        if (self::boolean((string)
$printOptions['gridLinesSet'])) {
            $this->worksheet->setShowGridlines(true);
        }
        if (self::boolean((string) $printOptions['gridLines'])) {
            $this->worksheet->setPrintGridlines(true);
        }
        if (self::boolean((string)
$printOptions['horizontalCentered'])) {
           
$this->worksheet->getPageSetup()->setHorizontalCentered(true);
        }
        if (self::boolean((string)
$printOptions['verticalCentered'])) {
           
$this->worksheet->getPageSetup()->setVerticalCentered(true);
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/Xlsx/SheetViews.php000064400000007752151165414000023500
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader\Xlsx;

use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\Worksheet\Worksheet;

class SheetViews extends BaseParserClass
{
    private $sheetViewXml;

    private $worksheet;

    public function __construct(\SimpleXMLElement $sheetViewXml, Worksheet
$workSheet)
    {
        $this->sheetViewXml = $sheetViewXml;
        $this->worksheet = $workSheet;
    }

    public function load()
    {
        $this->zoomScale();
        $this->view();
        $this->gridLines();
        $this->headers();
        $this->direction();
        $this->showZeros();

        if (isset($this->sheetViewXml->pane)) {
            $this->pane();
        }
        if (isset($this->sheetViewXml->selection,
$this->sheetViewXml->selection['sqref'])) {
            $this->selection();
        }
    }

    private function zoomScale()
    {
        if (isset($this->sheetViewXml['zoomScale'])) {
            $zoomScale = (int)
($this->sheetViewXml['zoomScale']);
            if ($zoomScale <= 0) {
                // setZoomScale will throw an Exception if the scale is
less than or equals 0
                // that is OK when manually creating documents, but we
should be able to read all documents
                $zoomScale = 100;
            }

           
$this->worksheet->getSheetView()->setZoomScale($zoomScale);
        }

        if (isset($this->sheetViewXml['zoomScaleNormal'])) {
            $zoomScaleNormal = (int)
($this->sheetViewXml['zoomScaleNormal']);
            if ($zoomScaleNormal <= 0) {
                // setZoomScaleNormal will throw an Exception if the scale
is less than or equals 0
                // that is OK when manually creating documents, but we
should be able to read all documents
                $zoomScaleNormal = 100;
            }

           
$this->worksheet->getSheetView()->setZoomScaleNormal($zoomScaleNormal);
        }
    }

    private function view()
    {
        if (isset($this->sheetViewXml['view'])) {
            $this->worksheet->getSheetView()->setView((string)
$this->sheetViewXml['view']);
        }
    }

    private function gridLines()
    {
        if (isset($this->sheetViewXml['showGridLines'])) {
            $this->worksheet->setShowGridLines(
                self::boolean((string)
$this->sheetViewXml['showGridLines'])
            );
        }
    }

    private function headers()
    {
        if (isset($this->sheetViewXml['showRowColHeaders'])) {
            $this->worksheet->setShowRowColHeaders(
                self::boolean((string)
$this->sheetViewXml['showRowColHeaders'])
            );
        }
    }

    private function direction()
    {
        if (isset($this->sheetViewXml['rightToLeft'])) {
            $this->worksheet->setRightToLeft(
                self::boolean((string)
$this->sheetViewXml['rightToLeft'])
            );
        }
    }

    private function showZeros()
    {
        if (isset($this->sheetViewXml['showZeros'])) {
            $this->worksheet->getSheetView()->setShowZeros(
                self::boolean((string)
$this->sheetViewXml['showZeros'])
            );
        }
    }

    private function pane()
    {
        $xSplit = 0;
        $ySplit = 0;
        $topLeftCell = null;

        if (isset($this->sheetViewXml->pane['xSplit'])) {
            $xSplit = (int)
($this->sheetViewXml->pane['xSplit']);
        }

        if (isset($this->sheetViewXml->pane['ySplit'])) {
            $ySplit = (int)
($this->sheetViewXml->pane['ySplit']);
        }

        if
(isset($this->sheetViewXml->pane['topLeftCell'])) {
            $topLeftCell = (string)
$this->sheetViewXml->pane['topLeftCell'];
        }

        $this->worksheet->freezePane(
            Coordinate::stringFromColumnIndex($xSplit + 1) . ($ySplit + 1),
            $topLeftCell
        );
    }

    private function selection()
    {
        $sqref = (string)
$this->sheetViewXml->selection['sqref'];
        $sqref = explode(' ', $sqref);
        $sqref = $sqref[0];

        $this->worksheet->setSelectedCells($sqref);
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/Xlsx/Styles.php000064400000025772151165414000022677
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader\Xlsx;

use PhpOffice\PhpSpreadsheet\Style\Alignment;
use PhpOffice\PhpSpreadsheet\Style\Border;
use PhpOffice\PhpSpreadsheet\Style\Borders;
use PhpOffice\PhpSpreadsheet\Style\Color;
use PhpOffice\PhpSpreadsheet\Style\Fill;
use PhpOffice\PhpSpreadsheet\Style\Font;
use PhpOffice\PhpSpreadsheet\Style\NumberFormat;
use PhpOffice\PhpSpreadsheet\Style\Protection;
use PhpOffice\PhpSpreadsheet\Style\Style;

class Styles extends BaseParserClass
{
    /**
     * Theme instance.
     *
     * @var Theme
     */
    private static $theme = null;

    private $styles = [];

    private $cellStyles = [];

    private $styleXml;

    public function __construct(\SimpleXMLElement $styleXml)
    {
        $this->styleXml = $styleXml;
    }

    public function setStyleBaseData(Theme $theme = null, $styles = [],
$cellStyles = [])
    {
        self::$theme = $theme;
        $this->styles = $styles;
        $this->cellStyles = $cellStyles;
    }

    private static function readFontStyle(Font $fontStyle,
\SimpleXMLElement $fontStyleXml)
    {
        $fontStyle->setName((string)
$fontStyleXml->name['val']);
        $fontStyle->setSize((float)
$fontStyleXml->sz['val']);

        if (isset($fontStyleXml->b)) {
           
$fontStyle->setBold(!isset($fontStyleXml->b['val']) ||
self::boolean((string) $fontStyleXml->b['val']));
        }
        if (isset($fontStyleXml->i)) {
           
$fontStyle->setItalic(!isset($fontStyleXml->i['val']) ||
self::boolean((string) $fontStyleXml->i['val']));
        }
        if (isset($fontStyleXml->strike)) {
           
$fontStyle->setStrikethrough(!isset($fontStyleXml->strike['val'])
|| self::boolean((string) $fontStyleXml->strike['val']));
        }
       
$fontStyle->getColor()->setARGB(self::readColor($fontStyleXml->color));

        if (isset($fontStyleXml->u) &&
!isset($fontStyleXml->u['val'])) {
            $fontStyle->setUnderline(Font::UNDERLINE_SINGLE);
        } elseif (isset($fontStyleXml->u,
$fontStyleXml->u['val'])) {
            $fontStyle->setUnderline((string)
$fontStyleXml->u['val']);
        }

        if (isset($fontStyleXml->vertAlign,
$fontStyleXml->vertAlign['val'])) {
            $verticalAlign = strtolower((string)
$fontStyleXml->vertAlign['val']);
            if ($verticalAlign === 'superscript') {
                $fontStyle->setSuperscript(true);
            }
            if ($verticalAlign === 'subscript') {
                $fontStyle->setSubscript(true);
            }
        }
    }

    private static function readNumberFormat(NumberFormat $numfmtStyle,
\SimpleXMLElement $numfmtStyleXml)
    {
        if ($numfmtStyleXml->count() === 0) {
            return;
        }
        $numfmt = $numfmtStyleXml->attributes();
        if ($numfmt->count() > 0 &&
isset($numfmt['formatCode'])) {
            $numfmtStyle->setFormatCode((string)
$numfmt['formatCode']);
        }
    }

    private static function readFillStyle(Fill $fillStyle,
\SimpleXMLElement $fillStyleXml)
    {
        if ($fillStyleXml->gradientFill) {
            /** @var \SimpleXMLElement $gradientFill */
            $gradientFill = $fillStyleXml->gradientFill[0];
            if (!empty($gradientFill['type'])) {
                $fillStyle->setFillType((string)
$gradientFill['type']);
            }
            $fillStyle->setRotation((float)
($gradientFill['degree']));
            $gradientFill->registerXPathNamespace('sml',
'http://schemas.openxmlformats.org/spreadsheetml/2006/main');
           
$fillStyle->getStartColor()->setARGB(self::readColor(self::getArrayItem($gradientFill->xpath('sml:stop[@position=0]'))->color));
           
$fillStyle->getEndColor()->setARGB(self::readColor(self::getArrayItem($gradientFill->xpath('sml:stop[@position=1]'))->color));
        } elseif ($fillStyleXml->patternFill) {
            $patternType = (string)
$fillStyleXml->patternFill['patternType'] != '' ?
(string) $fillStyleXml->patternFill['patternType'] :
'solid';
            $fillStyle->setFillType($patternType);
            if ($fillStyleXml->patternFill->fgColor) {
               
$fillStyle->getStartColor()->setARGB(self::readColor($fillStyleXml->patternFill->fgColor,
true));
            } else {
               
$fillStyle->getStartColor()->setARGB('FF000000');
            }
            if ($fillStyleXml->patternFill->bgColor) {
               
$fillStyle->getEndColor()->setARGB(self::readColor($fillStyleXml->patternFill->bgColor,
true));
            }
        }
    }

    private static function readBorderStyle(Borders $borderStyle,
\SimpleXMLElement $borderStyleXml)
    {
        $diagonalUp = self::boolean((string)
$borderStyleXml['diagonalUp']);
        $diagonalDown = self::boolean((string)
$borderStyleXml['diagonalDown']);
        if (!$diagonalUp && !$diagonalDown) {
            $borderStyle->setDiagonalDirection(Borders::DIAGONAL_NONE);
        } elseif ($diagonalUp && !$diagonalDown) {
            $borderStyle->setDiagonalDirection(Borders::DIAGONAL_UP);
        } elseif (!$diagonalUp && $diagonalDown) {
            $borderStyle->setDiagonalDirection(Borders::DIAGONAL_DOWN);
        } else {
            $borderStyle->setDiagonalDirection(Borders::DIAGONAL_BOTH);
        }

        self::readBorder($borderStyle->getLeft(),
$borderStyleXml->left);
        self::readBorder($borderStyle->getRight(),
$borderStyleXml->right);
        self::readBorder($borderStyle->getTop(),
$borderStyleXml->top);
        self::readBorder($borderStyle->getBottom(),
$borderStyleXml->bottom);
        self::readBorder($borderStyle->getDiagonal(),
$borderStyleXml->diagonal);
    }

    private static function readBorder(Border $border, \SimpleXMLElement
$borderXml)
    {
        if (isset($borderXml['style'])) {
            $border->setBorderStyle((string)
$borderXml['style']);
        }
        if (isset($borderXml->color)) {
           
$border->getColor()->setARGB(self::readColor($borderXml->color));
        }
    }

    private static function readAlignmentStyle(Alignment $alignment,
\SimpleXMLElement $alignmentXml)
    {
        $alignment->setHorizontal((string)
$alignmentXml->alignment['horizontal']);
        $alignment->setVertical((string)
$alignmentXml->alignment['vertical']);

        $textRotation = 0;
        if ((int) $alignmentXml->alignment['textRotation']
<= 90) {
            $textRotation = (int)
$alignmentXml->alignment['textRotation'];
        } elseif ((int)
$alignmentXml->alignment['textRotation'] > 90) {
            $textRotation = 90 - (int)
$alignmentXml->alignment['textRotation'];
        }

        $alignment->setTextRotation((int) $textRotation);
        $alignment->setWrapText(self::boolean((string)
$alignmentXml->alignment['wrapText']));
        $alignment->setShrinkToFit(self::boolean((string)
$alignmentXml->alignment['shrinkToFit']));
        $alignment->setIndent((int) ((string)
$alignmentXml->alignment['indent']) > 0 ? (int) ((string)
$alignmentXml->alignment['indent']) : 0);
        $alignment->setReadOrder((int) ((string)
$alignmentXml->alignment['readingOrder']) > 0 ? (int)
((string) $alignmentXml->alignment['readingOrder']) : 0);
    }

    private function readStyle(Style $docStyle, $style)
    {
        if ($style->numFmt instanceof \SimpleXMLElement) {
            self::readNumberFormat($docStyle->getNumberFormat(),
$style->numFmt);
        } else {
           
$docStyle->getNumberFormat()->setFormatCode($style->numFmt);
        }

        if (isset($style->font)) {
            self::readFontStyle($docStyle->getFont(), $style->font);
        }

        if (isset($style->fill)) {
            self::readFillStyle($docStyle->getFill(), $style->fill);
        }

        if (isset($style->border)) {
            self::readBorderStyle($docStyle->getBorders(),
$style->border);
        }

        if (isset($style->alignment->alignment)) {
            self::readAlignmentStyle($docStyle->getAlignment(),
$style->alignment);
        }

        // protection
        if (isset($style->protection)) {
            $this->readProtectionLocked($docStyle, $style);
            $this->readProtectionHidden($docStyle, $style);
        }

        // top-level style settings
        if (isset($style->quotePrefix)) {
            $docStyle->setQuotePrefix(true);
        }
    }

    private function readProtectionLocked(Style $docStyle, $style)
    {
        if (isset($style->protection['locked'])) {
            if (self::boolean((string)
$style->protection['locked'])) {
               
$docStyle->getProtection()->setLocked(Protection::PROTECTION_PROTECTED);
            } else {
               
$docStyle->getProtection()->setLocked(Protection::PROTECTION_UNPROTECTED);
            }
        }
    }

    private function readProtectionHidden(Style $docStyle, $style)
    {
        if (isset($style->protection['hidden'])) {
            if (self::boolean((string)
$style->protection['hidden'])) {
               
$docStyle->getProtection()->setHidden(Protection::PROTECTION_PROTECTED);
            } else {
               
$docStyle->getProtection()->setHidden(Protection::PROTECTION_UNPROTECTED);
            }
        }
    }

    private static function readColor($color, $background = false)
    {
        if (isset($color['rgb'])) {
            return (string) $color['rgb'];
        } elseif (isset($color['indexed'])) {
            return Color::indexedColor($color['indexed'] - 7,
$background)->getARGB();
        } elseif (isset($color['theme'])) {
            if (self::$theme !== null) {
                $returnColour = self::$theme->getColourByIndex((int)
$color['theme']);
                if (isset($color['tint'])) {
                    $tintAdjust = (float) $color['tint'];
                    $returnColour = Color::changeBrightness($returnColour,
$tintAdjust);
                }

                return 'FF' . $returnColour;
            }
        }

        return ($background) ? 'FFFFFFFF' : 'FF000000';
    }

    public function dxfs($readDataOnly = false)
    {
        $dxfs = [];
        if (!$readDataOnly && $this->styleXml) {
            //    Conditional Styles
            if ($this->styleXml->dxfs) {
                foreach ($this->styleXml->dxfs->dxf as $dxf) {
                    $style = new Style(false, true);
                    $this->readStyle($style, $dxf);
                    $dxfs[] = $style;
                }
            }
            //    Cell Styles
            if ($this->styleXml->cellStyles) {
                foreach ($this->styleXml->cellStyles->cellStyle as
$cellStyle) {
                    if ((int) ($cellStyle['builtinId']) == 0) {
                        if (isset($this->cellStyles[(int)
($cellStyle['xfId'])])) {
                            // Set default style
                            $style = new Style();
                            $this->readStyle($style,
$this->cellStyles[(int) ($cellStyle['xfId'])]);

                            // normal style, currently not using it for
anything
                        }
                    }
                }
            }
        }

        return $dxfs;
    }

    public function styles()
    {
        return $this->styles;
    }

    private static function getArrayItem($array, $key = 0)
    {
        return $array[$key] ?? null;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/Xlsx/Theme.php000064400000003367151165414000022452
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader\Xlsx;

class Theme
{
    /**
     * Theme Name.
     *
     * @var string
     */
    private $themeName;

    /**
     * Colour Scheme Name.
     *
     * @var string
     */
    private $colourSchemeName;

    /**
     * Colour Map.
     *
     * @var array of string
     */
    private $colourMap;

    /**
     * Create a new Theme.
     *
     * @param mixed $themeName
     * @param mixed $colourSchemeName
     * @param mixed $colourMap
     */
    public function __construct($themeName, $colourSchemeName, $colourMap)
    {
        // Initialise values
        $this->themeName = $themeName;
        $this->colourSchemeName = $colourSchemeName;
        $this->colourMap = $colourMap;
    }

    /**
     * Get Theme Name.
     *
     * @return string
     */
    public function getThemeName()
    {
        return $this->themeName;
    }

    /**
     * Get colour Scheme Name.
     *
     * @return string
     */
    public function getColourSchemeName()
    {
        return $this->colourSchemeName;
    }

    /**
     * Get colour Map Value by Position.
     *
     * @param mixed $index
     *
     * @return string
     */
    public function getColourByIndex($index)
    {
        if (isset($this->colourMap[$index])) {
            return $this->colourMap[$index];
        }

        return null;
    }

    /**
     * Implement PHP __clone to create a deep clone, not just a shallow
copy.
     */
    public function __clone()
    {
        $vars = get_object_vars($this);
        foreach ($vars as $key => $value) {
            if ((is_object($value)) && ($key !=
'_parent')) {
                $this->$key = clone $value;
            } else {
                $this->$key = $value;
            }
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/Xlsx.php000064400000342075151165414000021412
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader;

use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\Cell\Hyperlink;
use PhpOffice\PhpSpreadsheet\NamedRange;
use PhpOffice\PhpSpreadsheet\Reader\Security\XmlScanner;
use PhpOffice\PhpSpreadsheet\Reader\Xlsx\AutoFilter;
use PhpOffice\PhpSpreadsheet\Reader\Xlsx\Chart;
use PhpOffice\PhpSpreadsheet\Reader\Xlsx\ColumnAndRowAttributes;
use PhpOffice\PhpSpreadsheet\Reader\Xlsx\ConditionalStyles;
use PhpOffice\PhpSpreadsheet\Reader\Xlsx\DataValidations;
use PhpOffice\PhpSpreadsheet\Reader\Xlsx\Hyperlinks;
use PhpOffice\PhpSpreadsheet\Reader\Xlsx\PageSetup;
use PhpOffice\PhpSpreadsheet\Reader\Xlsx\Properties as PropertyReader;
use PhpOffice\PhpSpreadsheet\Reader\Xlsx\SheetViewOptions;
use PhpOffice\PhpSpreadsheet\Reader\Xlsx\SheetViews;
use PhpOffice\PhpSpreadsheet\Reader\Xlsx\Styles;
use PhpOffice\PhpSpreadsheet\ReferenceHelper;
use PhpOffice\PhpSpreadsheet\RichText\RichText;
use PhpOffice\PhpSpreadsheet\Settings;
use PhpOffice\PhpSpreadsheet\Shared\Date;
use PhpOffice\PhpSpreadsheet\Shared\Drawing;
use PhpOffice\PhpSpreadsheet\Shared\File;
use PhpOffice\PhpSpreadsheet\Shared\Font;
use PhpOffice\PhpSpreadsheet\Shared\StringHelper;
use PhpOffice\PhpSpreadsheet\Spreadsheet;
use PhpOffice\PhpSpreadsheet\Style\Border;
use PhpOffice\PhpSpreadsheet\Style\Borders;
use PhpOffice\PhpSpreadsheet\Style\Color;
use PhpOffice\PhpSpreadsheet\Style\NumberFormat;
use PhpOffice\PhpSpreadsheet\Style\Protection;
use PhpOffice\PhpSpreadsheet\Style\Style;
use PhpOffice\PhpSpreadsheet\Worksheet\HeaderFooterDrawing;
use PhpOffice\PhpSpreadsheet\Worksheet\Worksheet;
use SimpleXMLElement;
use XMLReader;
use ZipArchive;

class Xlsx extends BaseReader
{
    /**
     * ReferenceHelper instance.
     *
     * @var ReferenceHelper
     */
    private $referenceHelper;

    /**
     * Xlsx\Theme instance.
     *
     * @var Xlsx\Theme
     */
    private static $theme = null;

    /**
     * Create a new Xlsx Reader instance.
     */
    public function __construct()
    {
        parent::__construct();
        $this->referenceHelper = ReferenceHelper::getInstance();
        $this->securityScanner = XmlScanner::getInstance($this);
    }

    /**
     * Can the current IReader read the file?
     *
     * @param string $pFilename
     *
     * @throws Exception
     *
     * @return bool
     */
    public function canRead($pFilename)
    {
        File::assertFile($pFilename);

        $result = false;
        $zip = new ZipArchive();

        if ($zip->open($pFilename) === true) {
            $workbookBasename = $this->getWorkbookBaseName($zip);
            $result = !empty($workbookBasename);

            $zip->close();
        }

        return $result;
    }

    /**
     * Reads names of the worksheets from a file, without parsing the whole
file to a Spreadsheet object.
     *
     * @param string $pFilename
     *
     * @throws Exception
     *
     * @return array
     */
    public function listWorksheetNames($pFilename)
    {
        File::assertFile($pFilename);

        $worksheetNames = [];

        $zip = new ZipArchive();
        $zip->open($pFilename);

        //    The files we're looking at here are small enough that
simpleXML is more efficient than XMLReader
        //~
http://schemas.openxmlformats.org/package/2006/relationships");
        $rels = simplexml_load_string(
           
$this->securityScanner->scan($this->getFromZipArchive($zip,
'_rels/.rels'))
        );
        foreach ($rels->Relationship as $rel) {
            switch ($rel['Type']) {
                case
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/officeDocument':
                    //~
http://schemas.openxmlformats.org/spreadsheetml/2006/main"
                    $xmlWorkbook = simplexml_load_string(
                       
$this->securityScanner->scan($this->getFromZipArchive($zip,
"{$rel['Target']}"))
                    );

                    if ($xmlWorkbook->sheets) {
                        foreach ($xmlWorkbook->sheets->sheet as
$eleSheet) {
                            // Check if sheet should be skipped
                            $worksheetNames[] = (string)
$eleSheet['name'];
                        }
                    }
            }
        }

        $zip->close();

        return $worksheetNames;
    }

    /**
     * Return worksheet info (Name, Last Column Letter, Last Column Index,
Total Rows, Total Columns).
     *
     * @param string $pFilename
     *
     * @throws Exception
     *
     * @return array
     */
    public function listWorksheetInfo($pFilename)
    {
        File::assertFile($pFilename);

        $worksheetInfo = [];

        $zip = new ZipArchive();
        $zip->open($pFilename);

        //~
http://schemas.openxmlformats.org/package/2006/relationships"
        $rels = simplexml_load_string(
           
$this->securityScanner->scan($this->getFromZipArchive($zip,
'_rels/.rels')),
            'SimpleXMLElement',
            Settings::getLibXmlLoaderOptions()
        );
        foreach ($rels->Relationship as $rel) {
            if ($rel['Type'] ==
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/officeDocument')
{
                $dir = dirname($rel['Target']);

                //~
http://schemas.openxmlformats.org/package/2006/relationships"
                $relsWorkbook = simplexml_load_string(
                    $this->securityScanner->scan(
                        $this->getFromZipArchive($zip,
"$dir/_rels/" . basename($rel['Target']) .
'.rels')
                    ),
                    'SimpleXMLElement',
                    Settings::getLibXmlLoaderOptions()
                );
                $relsWorkbook->registerXPathNamespace('rel',
'http://schemas.openxmlformats.org/package/2006/relationships');

                $worksheets = [];
                foreach ($relsWorkbook->Relationship as $ele) {
                    if ($ele['Type'] ==
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/worksheet')
{
                        $worksheets[(string) $ele['Id']] =
$ele['Target'];
                    }
                }

                //~
http://schemas.openxmlformats.org/spreadsheetml/2006/main"
                $xmlWorkbook = simplexml_load_string(
                    $this->securityScanner->scan(
                        $this->getFromZipArchive($zip,
"{$rel['Target']}")
                    ),
                    'SimpleXMLElement',
                    Settings::getLibXmlLoaderOptions()
                );
                if ($xmlWorkbook->sheets) {
                    $dir = dirname($rel['Target']);
                    /** @var SimpleXMLElement $eleSheet */
                    foreach ($xmlWorkbook->sheets->sheet as
$eleSheet) {
                        $tmpInfo = [
                            'worksheetName' => (string)
$eleSheet['name'],
                            'lastColumnLetter' =>
'A',
                            'lastColumnIndex' => 0,
                            'totalRows' => 0,
                            'totalColumns' => 0,
                        ];

                        $fileWorksheet = $worksheets[(string)
self::getArrayItem($eleSheet->attributes('http://schemas.openxmlformats.org/officeDocument/2006/relationships'),
'id')];

                        $xml = new XMLReader();
                        $xml->xml(
                            $this->securityScanner->scanFile(
                                'zip://' .
File::realpath($pFilename) . '#' .
"$dir/$fileWorksheet"
                            ),
                            null,
                            Settings::getLibXmlLoaderOptions()
                        );
                        $xml->setParserProperty(2, true);

                        $currCells = 0;
                        while ($xml->read()) {
                            if ($xml->name == 'row' &&
$xml->nodeType == XMLReader::ELEMENT) {
                                $row =
$xml->getAttribute('r');
                                $tmpInfo['totalRows'] = $row;
                                $tmpInfo['totalColumns'] =
max($tmpInfo['totalColumns'], $currCells);
                                $currCells = 0;
                            } elseif ($xml->name == 'c'
&& $xml->nodeType == XMLReader::ELEMENT) {
                                ++$currCells;
                            }
                        }
                        $tmpInfo['totalColumns'] =
max($tmpInfo['totalColumns'], $currCells);
                        $xml->close();

                        $tmpInfo['lastColumnIndex'] =
$tmpInfo['totalColumns'] - 1;
                        $tmpInfo['lastColumnLetter'] =
Coordinate::stringFromColumnIndex($tmpInfo['lastColumnIndex'] +
1);

                        $worksheetInfo[] = $tmpInfo;
                    }
                }
            }
        }

        $zip->close();

        return $worksheetInfo;
    }

    private static function castToBoolean($c)
    {
        $value = isset($c->v) ? (string) $c->v : null;
        if ($value == '0') {
            return false;
        } elseif ($value == '1') {
            return true;
        }

        return (bool) $c->v;
    }

    private static function castToError($c)
    {
        return isset($c->v) ? (string) $c->v : null;
    }

    private static function castToString($c)
    {
        return isset($c->v) ? (string) $c->v : null;
    }

    private function castToFormula($c, $r, &$cellDataType, &$value,
&$calculatedValue, &$sharedFormulas, $castBaseType)
    {
        $cellDataType = 'f';
        $value = "={$c->f}";
        $calculatedValue = self::$castBaseType($c);

        // Shared formula?
        if (isset($c->f['t']) && strtolower((string)
$c->f['t']) == 'shared') {
            $instance = (string) $c->f['si'];

            if (!isset($sharedFormulas[(string) $c->f['si']]))
{
                $sharedFormulas[$instance] = ['master' => $r,
'formula' => $value];
            } else {
                $master =
Coordinate::coordinateFromString($sharedFormulas[$instance]['master']);
                $current = Coordinate::coordinateFromString($r);

                $difference = [0, 0];
                $difference[0] =
Coordinate::columnIndexFromString($current[0]) -
Coordinate::columnIndexFromString($master[0]);
                $difference[1] = $current[1] - $master[1];

                $value =
$this->referenceHelper->updateFormulaReferences($sharedFormulas[$instance]['formula'],
'A1', $difference[0], $difference[1]);
            }
        }
    }

    /**
     * @param ZipArchive $archive
     * @param string $fileName
     *
     * @return string
     */
    private function getFromZipArchive(ZipArchive $archive, $fileName =
'')
    {
        // Root-relative paths
        if (strpos($fileName, '//') !== false) {
            $fileName = substr($fileName, strpos($fileName, '//')
+ 1);
        }
        $fileName = File::realpath($fileName);

        // Sadly, some 3rd party xlsx generators don't use consistent
case for filenaming
        //    so we need to load case-insensitively from the zip file

        // Apache POI fixes
        $contents = $archive->getFromName($fileName, 0,
ZipArchive::FL_NOCASE);
        if ($contents === false) {
            $contents = $archive->getFromName(substr($fileName, 1), 0,
ZipArchive::FL_NOCASE);
        }

        return $contents;
    }

    /**
     * Loads Spreadsheet from file.
     *
     * @param string $pFilename
     *
     * @throws Exception
     *
     * @return Spreadsheet
     */
    public function load($pFilename)
    {
        File::assertFile($pFilename);

        // Initialisations
        $excel = new Spreadsheet();
        $excel->removeSheetByIndex(0);
        if (!$this->readDataOnly) {
            $excel->removeCellStyleXfByIndex(0); // remove the default
style
            $excel->removeCellXfByIndex(0); // remove the default style
        }
        $unparsedLoadedData = [];

        $zip = new ZipArchive();
        $zip->open($pFilename);

        //    Read the theme first, because we need the colour scheme when
reading the styles
        //~
http://schemas.openxmlformats.org/package/2006/relationships"
        $workbookBasename = $this->getWorkbookBaseName($zip);
        $wbRels = simplexml_load_string(
           
$this->securityScanner->scan($this->getFromZipArchive($zip,
"xl/_rels/${workbookBasename}.rels")),
            'SimpleXMLElement',
            Settings::getLibXmlLoaderOptions()
        );
        foreach ($wbRels->Relationship as $rel) {
            switch ($rel['Type']) {
                case
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/theme':
                    $themeOrderArray = ['lt1', 'dk1',
'lt2', 'dk2'];
                    $themeOrderAdditional = count($themeOrderArray);

                    $xmlTheme = simplexml_load_string(
                       
$this->securityScanner->scan($this->getFromZipArchive($zip,
"xl/{$rel['Target']}")),
                        'SimpleXMLElement',
                        Settings::getLibXmlLoaderOptions()
                    );
                    if (is_object($xmlTheme)) {
                        $xmlThemeName = $xmlTheme->attributes();
                        $xmlTheme =
$xmlTheme->children('http://schemas.openxmlformats.org/drawingml/2006/main');
                        $themeName = (string)
$xmlThemeName['name'];

                        $colourScheme =
$xmlTheme->themeElements->clrScheme->attributes();
                        $colourSchemeName = (string)
$colourScheme['name'];
                        $colourScheme =
$xmlTheme->themeElements->clrScheme->children('http://schemas.openxmlformats.org/drawingml/2006/main');

                        $themeColours = [];
                        foreach ($colourScheme as $k => $xmlColour) {
                            $themePos = array_search($k, $themeOrderArray);
                            if ($themePos === false) {
                                $themePos = $themeOrderAdditional++;
                            }
                            if (isset($xmlColour->sysClr)) {
                                $xmlColourData =
$xmlColour->sysClr->attributes();
                                $themeColours[$themePos] =
$xmlColourData['lastClr'];
                            } elseif (isset($xmlColour->srgbClr)) {
                                $xmlColourData =
$xmlColour->srgbClr->attributes();
                                $themeColours[$themePos] =
$xmlColourData['val'];
                            }
                        }
                        self::$theme = new Xlsx\Theme($themeName,
$colourSchemeName, $themeColours);
                    }

                    break;
            }
        }

        //~
http://schemas.openxmlformats.org/package/2006/relationships"
        $rels = simplexml_load_string(
           
$this->securityScanner->scan($this->getFromZipArchive($zip,
'_rels/.rels')),
            'SimpleXMLElement',
            Settings::getLibXmlLoaderOptions()
        );

        $propertyReader = new PropertyReader($this->securityScanner,
$excel->getProperties());
        foreach ($rels->Relationship as $rel) {
            switch ($rel['Type']) {
                case
'http://schemas.openxmlformats.org/package/2006/relationships/metadata/core-properties':
                   
$propertyReader->readCoreProperties($this->getFromZipArchive($zip,
"{$rel['Target']}"));

                    break;
                case
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/extended-properties':
                   
$propertyReader->readExtendedProperties($this->getFromZipArchive($zip,
"{$rel['Target']}"));

                    break;
                case
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/custom-properties':
                   
$propertyReader->readCustomProperties($this->getFromZipArchive($zip,
"{$rel['Target']}"));

                    break;
                //Ribbon
                case
'http://schemas.microsoft.com/office/2006/relationships/ui/extensibility':
                    $customUI = $rel['Target'];
                    if ($customUI !== null) {
                        $this->readRibbon($excel, $customUI, $zip);
                    }

                    break;
                case
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/officeDocument':
                    $dir = dirname($rel['Target']);
                    //~
http://schemas.openxmlformats.org/package/2006/relationships"
                    $relsWorkbook = simplexml_load_string(
                       
$this->securityScanner->scan($this->getFromZipArchive($zip,
"$dir/_rels/" . basename($rel['Target']) .
'.rels')),
                        'SimpleXMLElement',
                        Settings::getLibXmlLoaderOptions()
                    );
                   
$relsWorkbook->registerXPathNamespace('rel',
'http://schemas.openxmlformats.org/package/2006/relationships');

                    $sharedStrings = [];
                    $xpath =
self::getArrayItem($relsWorkbook->xpath("rel:Relationship[@Type='http://schemas.openxmlformats.org/officeDocument/2006/relationships/sharedStrings']"));
                    if ($xpath) {
                        //~
http://schemas.openxmlformats.org/spreadsheetml/2006/main"
                        $xmlStrings = simplexml_load_string(
                           
$this->securityScanner->scan($this->getFromZipArchive($zip,
"$dir/$xpath[Target]")),
                            'SimpleXMLElement',
                            Settings::getLibXmlLoaderOptions()
                        );
                        if (isset($xmlStrings, $xmlStrings->si)) {
                            foreach ($xmlStrings->si as $val) {
                                if (isset($val->t)) {
                                    $sharedStrings[] =
StringHelper::controlCharacterOOXML2PHP((string) $val->t);
                                } elseif (isset($val->r)) {
                                    $sharedStrings[] =
$this->parseRichText($val);
                                }
                            }
                        }
                    }

                    $worksheets = [];
                    $macros = $customUI = null;
                    foreach ($relsWorkbook->Relationship as $ele) {
                        switch ($ele['Type']) {
                            case
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/worksheet':
                                $worksheets[(string) $ele['Id']]
= $ele['Target'];

                                break;
                            // a vbaProject ? (: some macros)
                            case
'http://schemas.microsoft.com/office/2006/relationships/vbaProject':
                                $macros = $ele['Target'];

                                break;
                        }
                    }

                    if ($macros !== null) {
                        $macrosCode = $this->getFromZipArchive($zip,
'xl/vbaProject.bin'); //vbaProject.bin always in 'xl'
dir and always named vbaProject.bin
                        if ($macrosCode !== false) {
                            $excel->setMacrosCode($macrosCode);
                            $excel->setHasMacros(true);
                            //short-circuit : not reading
vbaProject.bin.rel to get Signature =>allways vbaProjectSignature.bin in
'xl' dir
                            $Certificate =
$this->getFromZipArchive($zip, 'xl/vbaProjectSignature.bin');
                            if ($Certificate !== false) {
                               
$excel->setMacrosCertificate($Certificate);
                            }
                        }
                    }

                    $xpath =
self::getArrayItem($relsWorkbook->xpath("rel:Relationship[@Type='http://schemas.openxmlformats.org/officeDocument/2006/relationships/styles']"));
                    //~
http://schemas.openxmlformats.org/spreadsheetml/2006/main"
                    $xmlStyles = simplexml_load_string(
                       
$this->securityScanner->scan($this->getFromZipArchive($zip,
"$dir/$xpath[Target]")),
                        'SimpleXMLElement',
                        Settings::getLibXmlLoaderOptions()
                    );

                    $styles = [];
                    $cellStyles = [];
                    $numFmts = null;
                    if ($xmlStyles && $xmlStyles->numFmts[0]) {
                        $numFmts = $xmlStyles->numFmts[0];
                    }
                    if (isset($numFmts) && ($numFmts !== null)) {
                       
$numFmts->registerXPathNamespace('sml',
'http://schemas.openxmlformats.org/spreadsheetml/2006/main');
                    }
                    if (!$this->readDataOnly && $xmlStyles) {
                        foreach ($xmlStyles->cellXfs->xf as $xf) {
                            $numFmt = NumberFormat::FORMAT_GENERAL;

                            if ($xf['numFmtId']) {
                                if (isset($numFmts)) {
                                    $tmpNumFmt =
self::getArrayItem($numFmts->xpath("sml:numFmt[@numFmtId=$xf[numFmtId]]"));

                                    if
(isset($tmpNumFmt['formatCode'])) {
                                        $numFmt = (string)
$tmpNumFmt['formatCode'];
                                    }
                                }

                                // We shouldn't override any of the
built-in MS Excel values (values below id 164)
                                //  But there's a lot of naughty
homebrew xlsx writers that do use "reserved" id values that
aren't actually used
                                //  So we make allowance for them rather
than lose formatting masks
                                if ((int) $xf['numFmtId'] <
164 &&
                                    NumberFormat::builtInFormatCode((int)
$xf['numFmtId']) !== '') {
                                    $numFmt =
NumberFormat::builtInFormatCode((int) $xf['numFmtId']);
                                }
                            }
                            $quotePrefix = false;
                            if (isset($xf['quotePrefix'])) {
                                $quotePrefix = (bool)
$xf['quotePrefix'];
                            }

                            $style = (object) [
                                'numFmt' => $numFmt,
                                'font' =>
$xmlStyles->fonts->font[(int) ($xf['fontId'])],
                                'fill' =>
$xmlStyles->fills->fill[(int) ($xf['fillId'])],
                                'border' =>
$xmlStyles->borders->border[(int) ($xf['borderId'])],
                                'alignment' =>
$xf->alignment,
                                'protection' =>
$xf->protection,
                                'quotePrefix' => $quotePrefix,
                            ];
                            $styles[] = $style;

                            // add style to cellXf collection
                            $objStyle = new Style();
                            self::readStyle($objStyle, $style);
                            $excel->addCellXf($objStyle);
                        }

                        foreach (isset($xmlStyles->cellStyleXfs->xf)
? $xmlStyles->cellStyleXfs->xf : [] as $xf) {
                            $numFmt = NumberFormat::FORMAT_GENERAL;
                            if ($numFmts &&
$xf['numFmtId']) {
                                $tmpNumFmt =
self::getArrayItem($numFmts->xpath("sml:numFmt[@numFmtId=$xf[numFmtId]]"));
                                if
(isset($tmpNumFmt['formatCode'])) {
                                    $numFmt = (string)
$tmpNumFmt['formatCode'];
                                } elseif ((int) $xf['numFmtId']
< 165) {
                                    $numFmt =
NumberFormat::builtInFormatCode((int) $xf['numFmtId']);
                                }
                            }

                            $cellStyle = (object) [
                                'numFmt' => $numFmt,
                                'font' =>
$xmlStyles->fonts->font[(int) ($xf['fontId'])],
                                'fill' =>
$xmlStyles->fills->fill[(int) ($xf['fillId'])],
                                'border' =>
$xmlStyles->borders->border[(int) ($xf['borderId'])],
                                'alignment' =>
$xf->alignment,
                                'protection' =>
$xf->protection,
                                'quotePrefix' => $quotePrefix,
                            ];
                            $cellStyles[] = $cellStyle;

                            // add style to cellStyleXf collection
                            $objStyle = new Style();
                            self::readStyle($objStyle, $cellStyle);
                            $excel->addCellStyleXf($objStyle);
                        }
                    }

                    $styleReader = new Styles($xmlStyles);
                    $styleReader->setStyleBaseData(self::$theme,
$styles, $cellStyles);
                    $dxfs = $styleReader->dxfs($this->readDataOnly);
                    $styles = $styleReader->styles();

                    //~
http://schemas.openxmlformats.org/spreadsheetml/2006/main"
                    $xmlWorkbook = simplexml_load_string(
                       
$this->securityScanner->scan($this->getFromZipArchive($zip,
"{$rel['Target']}")),
                        'SimpleXMLElement',
                        Settings::getLibXmlLoaderOptions()
                    );

                    // Set base date
                    if ($xmlWorkbook->workbookPr) {
                       
Date::setExcelCalendar(Date::CALENDAR_WINDOWS_1900);
                        if
(isset($xmlWorkbook->workbookPr['date1904'])) {
                            if (self::boolean((string)
$xmlWorkbook->workbookPr['date1904'])) {
                               
Date::setExcelCalendar(Date::CALENDAR_MAC_1904);
                            }
                        }
                    }

                    // Set protection
                    $this->readProtection($excel, $xmlWorkbook);

                    $sheetId = 0; // keep track of new sheet id in final
workbook
                    $oldSheetId = -1; // keep track of old sheet id in
final workbook
                    $countSkippedSheets = 0; // keep track of number of
skipped sheets
                    $mapSheetId = []; // mapping of sheet ids from old to
new

                    $charts = $chartDetails = [];

                    if ($xmlWorkbook->sheets) {
                        /** @var SimpleXMLElement $eleSheet */
                        foreach ($xmlWorkbook->sheets->sheet as
$eleSheet) {
                            ++$oldSheetId;

                            // Check if sheet should be skipped
                            if (isset($this->loadSheetsOnly) &&
!in_array((string) $eleSheet['name'], $this->loadSheetsOnly))
{
                                ++$countSkippedSheets;
                                $mapSheetId[$oldSheetId] = null;

                                continue;
                            }

                            // Map old sheet id in original workbook to new
sheet id.
                            // They will differ if loadSheetsOnly() is
being used
                            $mapSheetId[$oldSheetId] = $oldSheetId -
$countSkippedSheets;

                            // Load sheet
                            $docSheet = $excel->createSheet();
                            //    Use false for
$updateFormulaCellReferences to prevent adjustment of worksheet
                            //        references in formula cells... during
the load, all formulae should be correct,
                            //        and we're simply bringing the
worksheet name in line with the formula, not the
                            //        reverse
                            $docSheet->setTitle((string)
$eleSheet['name'], false, false);
                            $fileWorksheet = $worksheets[(string)
self::getArrayItem($eleSheet->attributes('http://schemas.openxmlformats.org/officeDocument/2006/relationships'),
'id')];
                            //~
http://schemas.openxmlformats.org/spreadsheetml/2006/main"
                            $xmlSheet = simplexml_load_string(
                               
$this->securityScanner->scan($this->getFromZipArchive($zip,
"$dir/$fileWorksheet")),
                                'SimpleXMLElement',
                                Settings::getLibXmlLoaderOptions()
                            );

                            $sharedFormulas = [];

                            if (isset($eleSheet['state'])
&& (string) $eleSheet['state'] != '') {
                                $docSheet->setSheetState((string)
$eleSheet['state']);
                            }

                            if ($xmlSheet) {
                                if (isset($xmlSheet->sheetViews,
$xmlSheet->sheetViews->sheetView)) {
                                    $sheetViews = new
SheetViews($xmlSheet->sheetViews->sheetView, $docSheet);
                                    $sheetViews->load();
                                }

                                $sheetViewOptions = new
SheetViewOptions($docSheet, $xmlSheet);
                               
$sheetViewOptions->load($this->getReadDataOnly());

                                (new ColumnAndRowAttributes($docSheet,
$xmlSheet))
                                    ->load($this->getReadFilter(),
$this->getReadDataOnly());
                            }

                            if ($xmlSheet &&
$xmlSheet->sheetData && $xmlSheet->sheetData->row) {
                                $cIndex = 1; // Cell Start from 1
                                foreach ($xmlSheet->sheetData->row as
$row) {
                                    $rowIndex = 1;
                                    foreach ($row->c as $c) {
                                        $r = (string) $c['r'];
                                        if ($r == '') {
                                            $r =
Coordinate::stringFromColumnIndex($rowIndex) . $cIndex;
                                        }
                                        $cellDataType = (string)
$c['t'];
                                        $value = null;
                                        $calculatedValue = null;

                                        // Read cell?
                                        if ($this->getReadFilter() !==
null) {
                                            $coordinates =
Coordinate::coordinateFromString($r);

                                            if
(!$this->getReadFilter()->readCell($coordinates[0], (int)
$coordinates[1], $docSheet->getTitle())) {
                                                $rowIndex += 1;

                                                continue;
                                            }
                                        }

                                        // Read cell!
                                        switch ($cellDataType) {
                                            case 's':
                                                if ((string) $c->v !=
'') {
                                                    $value =
$sharedStrings[(int) ($c->v)];

                                                    if ($value instanceof
RichText) {
                                                        $value = clone
$value;
                                                    }
                                                } else {
                                                    $value = '';
                                                }

                                                break;
                                            case 'b':
                                                if (!isset($c->f)) {
                                                    $value =
self::castToBoolean($c);
                                                } else {
                                                    // Formula
                                                   
$this->castToFormula($c, $r, $cellDataType, $value, $calculatedValue,
$sharedFormulas, 'castToBoolean');
                                                    if
(isset($c->f['t'])) {
                                                        $att = $c->f;
                                                       
$docSheet->getCell($r)->setFormulaAttributes($att);
                                                    }
                                                }

                                                break;
                                            case 'inlineStr':
                                                if (isset($c->f)) {
                                                   
$this->castToFormula($c, $r, $cellDataType, $value, $calculatedValue,
$sharedFormulas, 'castToError');
                                                } else {
                                                    $value =
$this->parseRichText($c->is);
                                                }

                                                break;
                                            case 'e':
                                                if (!isset($c->f)) {
                                                    $value =
self::castToError($c);
                                                } else {
                                                    // Formula
                                                   
$this->castToFormula($c, $r, $cellDataType, $value, $calculatedValue,
$sharedFormulas, 'castToError');
                                                }

                                                break;
                                            default:
                                                if (!isset($c->f)) {
                                                    $value =
self::castToString($c);
                                                } else {
                                                    // Formula
                                                   
$this->castToFormula($c, $r, $cellDataType, $value, $calculatedValue,
$sharedFormulas, 'castToString');
                                                }

                                                break;
                                        }

                                        // read empty cells or the cells
are not empty
                                        if ($this->readEmptyCells ||
($value !== null && $value !== '')) {
                                            // Rich text?
                                            if ($value instanceof RichText
&& $this->readDataOnly) {
                                                $value =
$value->getPlainText();
                                            }

                                            $cell =
$docSheet->getCell($r);
                                            // Assign value
                                            if ($cellDataType !=
'') {
                                               
$cell->setValueExplicit($value, $cellDataType);
                                            } else {
                                                $cell->setValue($value);
                                            }
                                            if ($calculatedValue !== null)
{
                                               
$cell->setCalculatedValue($calculatedValue);
                                            }

                                            // Style information?
                                            if ($c['s']
&& !$this->readDataOnly) {
                                                // no style index means 0,
it seems
                                               
$cell->setXfIndex(isset($styles[(int) ($c['s'])]) ?
                                                    (int)
($c['s']) : 0);
                                            }
                                        }
                                        $rowIndex += 1;
                                    }
                                    $cIndex += 1;
                                }
                            }

                            if (!$this->readDataOnly &&
$xmlSheet && $xmlSheet->conditionalFormatting) {
                                (new ConditionalStyles($docSheet,
$xmlSheet, $dxfs))->load();
                            }

                            $aKeys = ['sheet',
'objects', 'scenarios', 'formatCells',
'formatColumns', 'formatRows',
'insertColumns', 'insertRows',
'insertHyperlinks', 'deleteColumns',
'deleteRows', 'selectLockedCells', 'sort',
'autoFilter', 'pivotTables',
'selectUnlockedCells'];
                            if (!$this->readDataOnly &&
$xmlSheet && $xmlSheet->sheetProtection) {
                                foreach ($aKeys as $key) {
                                    $method = 'set' .
ucfirst($key);
                                   
$docSheet->getProtection()->$method(self::boolean((string)
$xmlSheet->sheetProtection[$key]));
                                }
                            }

                            if (!$this->readDataOnly &&
$xmlSheet && $xmlSheet->sheetProtection) {
                               
$docSheet->getProtection()->setPassword((string)
$xmlSheet->sheetProtection['password'], true);
                                if
($xmlSheet->protectedRanges->protectedRange) {
                                    foreach
($xmlSheet->protectedRanges->protectedRange as $protectedRange) {
                                        $docSheet->protectCells((string)
$protectedRange['sqref'], (string)
$protectedRange['password'], true);
                                    }
                                }
                            }

                            if ($xmlSheet &&
$xmlSheet->autoFilter && !$this->readDataOnly) {
                                (new AutoFilter($docSheet,
$xmlSheet))->load();
                            }

                            if ($xmlSheet &&
$xmlSheet->mergeCells && $xmlSheet->mergeCells->mergeCell
&& !$this->readDataOnly) {
                                foreach
($xmlSheet->mergeCells->mergeCell as $mergeCell) {
                                    $mergeRef = (string)
$mergeCell['ref'];
                                    if (strpos($mergeRef, ':')
!== false) {
                                        $docSheet->mergeCells((string)
$mergeCell['ref']);
                                    }
                                }
                            }

                            if ($xmlSheet &&
!$this->readDataOnly) {
                                $unparsedLoadedData = (new
PageSetup($docSheet, $xmlSheet))->load($unparsedLoadedData);
                            }

                            if ($xmlSheet &&
$xmlSheet->dataValidations && !$this->readDataOnly) {
                                (new DataValidations($docSheet,
$xmlSheet))->load();
                            }

                            // unparsed sheet AlternateContent
                            if ($xmlSheet &&
!$this->readDataOnly) {
                                $mc =
$xmlSheet->children('http://schemas.openxmlformats.org/markup-compatibility/2006');
                                if ($mc->AlternateContent) {
                                    foreach ($mc->AlternateContent as
$alternateContent) {
                                       
$unparsedLoadedData['sheets'][$docSheet->getCodeName()]['AlternateContents'][]
= $alternateContent->asXML();
                                    }
                                }
                            }

                            // Add hyperlinks
                            if (!$this->readDataOnly) {
                                $hyperlinkReader = new
Hyperlinks($docSheet);
                                // Locate hyperlink relations
                                $relationsFileName =
dirname("$dir/$fileWorksheet") . '/_rels/' .
basename($fileWorksheet) . '.rels';
                                if
($zip->locateName($relationsFileName)) {
                                    //~
http://schemas.openxmlformats.org/package/2006/relationships"
                                    $relsWorksheet = simplexml_load_string(
                                        $this->securityScanner->scan(
                                           
$this->getFromZipArchive($zip, $relationsFileName)
                                        ),
                                        'SimpleXMLElement',
                                        Settings::getLibXmlLoaderOptions()
                                    );
                                   
$hyperlinkReader->readHyperlinks($relsWorksheet);
                                }

                                // Loop through hyperlinks
                                if ($xmlSheet &&
$xmlSheet->hyperlinks) {
                                   
$hyperlinkReader->setHyperlinks($xmlSheet->hyperlinks);
                                }
                            }

                            // Add comments
                            $comments = [];
                            $vmlComments = [];
                            if (!$this->readDataOnly) {
                                // Locate comment relations
                                if
($zip->locateName(dirname("$dir/$fileWorksheet") .
'/_rels/' . basename($fileWorksheet) . '.rels')) {
                                    //~
http://schemas.openxmlformats.org/package/2006/relationships"
                                    $relsWorksheet = simplexml_load_string(
                                        $this->securityScanner->scan(
                                           
$this->getFromZipArchive($zip, dirname("$dir/$fileWorksheet")
. '/_rels/' . basename($fileWorksheet) . '.rels')
                                        ),
                                        'SimpleXMLElement',
                                        Settings::getLibXmlLoaderOptions()
                                    );
                                    foreach
($relsWorksheet->Relationship as $ele) {
                                        if ($ele['Type'] ==
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/comments')
{
                                            $comments[(string)
$ele['Id']] = (string) $ele['Target'];
                                        }
                                        if ($ele['Type'] ==
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/vmlDrawing')
{
                                            $vmlComments[(string)
$ele['Id']] = (string) $ele['Target'];
                                        }
                                    }
                                }

                                // Loop through comments
                                foreach ($comments as $relName =>
$relPath) {
                                    // Load comments file
                                    $relPath =
File::realpath(dirname("$dir/$fileWorksheet") . '/' .
$relPath);
                                    $commentsFile = simplexml_load_string(
                                       
$this->securityScanner->scan($this->getFromZipArchive($zip,
$relPath)),
                                        'SimpleXMLElement',
                                        Settings::getLibXmlLoaderOptions()
                                    );

                                    // Utility variables
                                    $authors = [];

                                    // Loop through authors
                                    foreach
($commentsFile->authors->author as $author) {
                                        $authors[] = (string) $author;
                                    }

                                    // Loop through contents
                                    foreach
($commentsFile->commentList->comment as $comment) {
                                        if
(!empty($comment['authorId'])) {
                                           
$docSheet->getComment((string)
$comment['ref'])->setAuthor($authors[(string)
$comment['authorId']]);
                                        }
                                        $docSheet->getComment((string)
$comment['ref'])->setText($this->parseRichText($comment->text));
                                    }
                                }

                                // later we will remove from it real
vmlComments
                                $unparsedVmlDrawings = $vmlComments;

                                // Loop through VML comments
                                foreach ($vmlComments as $relName =>
$relPath) {
                                    // Load VML comments file
                                    $relPath =
File::realpath(dirname("$dir/$fileWorksheet") . '/' .
$relPath);

                                    try {
                                        $vmlCommentsFile =
simplexml_load_string(
                                           
$this->securityScanner->scan($this->getFromZipArchive($zip,
$relPath)),
                                            'SimpleXMLElement',
                                           
Settings::getLibXmlLoaderOptions()
                                        );
                                       
$vmlCommentsFile->registerXPathNamespace('v',
'urn:schemas-microsoft-com:vml');
                                    } catch (\Throwable $ex) {
                                        //Ignore unparsable vmlDrawings.
Later they will be moved from $unparsedVmlDrawings to $unparsedLoadedData
                                        continue;
                                    }

                                    $shapes =
$vmlCommentsFile->xpath('//v:shape');
                                    foreach ($shapes as $shape) {
                                       
$shape->registerXPathNamespace('v',
'urn:schemas-microsoft-com:vml');

                                        if
(isset($shape['style'])) {
                                            $style = (string)
$shape['style'];
                                            $fillColor =
strtoupper(substr((string) $shape['fillcolor'], 1));
                                            $column = null;
                                            $row = null;

                                            $clientData =
$shape->xpath('.//x:ClientData');
                                            if (is_array($clientData)
&& !empty($clientData)) {
                                                $clientData =
$clientData[0];

                                                if
(isset($clientData['ObjectType']) && (string)
$clientData['ObjectType'] == 'Note') {
                                                    $temp =
$clientData->xpath('.//x:Row');
                                                    if (is_array($temp)) {
                                                        $row = $temp[0];
                                                    }

                                                    $temp =
$clientData->xpath('.//x:Column');
                                                    if (is_array($temp)) {
                                                        $column = $temp[0];
                                                    }
                                                }
                                            }

                                            if (($column !== null)
&& ($row !== null)) {
                                                // Set comment properties
                                                $comment =
$docSheet->getCommentByColumnAndRow($column + 1, $row + 1);
                                               
$comment->getFillColor()->setRGB($fillColor);

                                                // Parse style
                                                $styleArray =
explode(';', str_replace(' ', '', $style));
                                                foreach ($styleArray as
$stylePair) {
                                                    $stylePair =
explode(':', $stylePair);

                                                    if ($stylePair[0] ==
'margin-left') {
                                                       
$comment->setMarginLeft($stylePair[1]);
                                                    }
                                                    if ($stylePair[0] ==
'margin-top') {
                                                       
$comment->setMarginTop($stylePair[1]);
                                                    }
                                                    if ($stylePair[0] ==
'width') {
                                                       
$comment->setWidth($stylePair[1]);
                                                    }
                                                    if ($stylePair[0] ==
'height') {
                                                       
$comment->setHeight($stylePair[1]);
                                                    }
                                                    if ($stylePair[0] ==
'visibility') {
                                                       
$comment->setVisible($stylePair[1] == 'visible');
                                                    }
                                                }

                                               
unset($unparsedVmlDrawings[$relName]);
                                            }
                                        }
                                    }
                                }

                                // unparsed vmlDrawing
                                if ($unparsedVmlDrawings) {
                                    foreach ($unparsedVmlDrawings as $rId
=> $relPath) {
                                        $rId = substr($rId, 3); // rIdXXX
                                        $unparsedVmlDrawing =
&$unparsedLoadedData['sheets'][$docSheet->getCodeName()]['vmlDrawings'];
                                        $unparsedVmlDrawing[$rId] = [];
                                       
$unparsedVmlDrawing[$rId]['filePath'] =
self::dirAdd("$dir/$fileWorksheet", $relPath);
                                       
$unparsedVmlDrawing[$rId]['relFilePath'] = $relPath;
                                       
$unparsedVmlDrawing[$rId]['content'] =
$this->securityScanner->scan($this->getFromZipArchive($zip,
$unparsedVmlDrawing[$rId]['filePath']));
                                        unset($unparsedVmlDrawing);
                                    }
                                }

                                // Header/footer images
                                if ($xmlSheet &&
$xmlSheet->legacyDrawingHF && !$this->readDataOnly) {
                                    if
($zip->locateName(dirname("$dir/$fileWorksheet") .
'/_rels/' . basename($fileWorksheet) . '.rels')) {
                                        //~
http://schemas.openxmlformats.org/package/2006/relationships"
                                        $relsWorksheet =
simplexml_load_string(
                                           
$this->securityScanner->scan(
                                               
$this->getFromZipArchive($zip, dirname("$dir/$fileWorksheet")
. '/_rels/' . basename($fileWorksheet) . '.rels')
                                            ),
                                            'SimpleXMLElement',
                                           
Settings::getLibXmlLoaderOptions()
                                        );
                                        $vmlRelationship = '';

                                        foreach
($relsWorksheet->Relationship as $ele) {
                                            if ($ele['Type'] ==
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/vmlDrawing')
{
                                                $vmlRelationship =
self::dirAdd("$dir/$fileWorksheet", $ele['Target']);
                                            }
                                        }

                                        if ($vmlRelationship !=
'') {
                                            // Fetch linked images
                                            //~
http://schemas.openxmlformats.org/package/2006/relationships"
                                            $relsVML =
simplexml_load_string(
                                               
$this->securityScanner->scan(
                                                   
$this->getFromZipArchive($zip, dirname($vmlRelationship) .
'/_rels/' . basename($vmlRelationship) . '.rels')
                                                ),
                                               
'SimpleXMLElement',
                                               
Settings::getLibXmlLoaderOptions()
                                            );
                                            $drawings = [];
                                            foreach
($relsVML->Relationship as $ele) {
                                                if ($ele['Type']
==
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/image')
{
                                                    $drawings[(string)
$ele['Id']] = self::dirAdd($vmlRelationship,
$ele['Target']);
                                                }
                                            }

                                            // Fetch VML document
                                            $vmlDrawing =
simplexml_load_string(
                                               
$this->securityScanner->scan($this->getFromZipArchive($zip,
$vmlRelationship)),
                                               
'SimpleXMLElement',
                                               
Settings::getLibXmlLoaderOptions()
                                            );
                                           
$vmlDrawing->registerXPathNamespace('v',
'urn:schemas-microsoft-com:vml');

                                            $hfImages = [];

                                            $shapes =
$vmlDrawing->xpath('//v:shape');
                                            foreach ($shapes as $idx =>
$shape) {
                                               
$shape->registerXPathNamespace('v',
'urn:schemas-microsoft-com:vml');
                                                $imageData =
$shape->xpath('//v:imagedata');

                                                if (!$imageData) {
                                                    continue;
                                                }

                                                $imageData =
$imageData[$idx];

                                                $imageData =
$imageData->attributes('urn:schemas-microsoft-com:office:office');
                                                $style =
self::toCSSArray((string) $shape['style']);

                                                $hfImages[(string)
$shape['id']] = new HeaderFooterDrawing();
                                                if
(isset($imageData['title'])) {
                                                    $hfImages[(string)
$shape['id']]->setName((string)
$imageData['title']);
                                                }

                                                $hfImages[(string)
$shape['id']]->setPath('zip://' .
File::realpath($pFilename) . '#' . $drawings[(string)
$imageData['relid']], false);
                                                $hfImages[(string)
$shape['id']]->setResizeProportional(false);
                                                $hfImages[(string)
$shape['id']]->setWidth($style['width']);
                                                $hfImages[(string)
$shape['id']]->setHeight($style['height']);
                                                if
(isset($style['margin-left'])) {
                                                    $hfImages[(string)
$shape['id']]->setOffsetX($style['margin-left']);
                                                }
                                                $hfImages[(string)
$shape['id']]->setOffsetY($style['margin-top']);
                                                $hfImages[(string)
$shape['id']]->setResizeProportional(true);
                                            }

                                           
$docSheet->getHeaderFooter()->setImages($hfImages);
                                        }
                                    }
                                }
                            }

                            // TODO: Autoshapes from twoCellAnchors!
                            if
($zip->locateName(dirname("$dir/$fileWorksheet") .
'/_rels/' . basename($fileWorksheet) . '.rels')) {
                                //~
http://schemas.openxmlformats.org/package/2006/relationships"
                                $relsWorksheet = simplexml_load_string(
                                    $this->securityScanner->scan(
                                        $this->getFromZipArchive($zip,
dirname("$dir/$fileWorksheet") . '/_rels/' .
basename($fileWorksheet) . '.rels')
                                    ),
                                    'SimpleXMLElement',
                                    Settings::getLibXmlLoaderOptions()
                                );
                                $drawings = [];
                                foreach ($relsWorksheet->Relationship as
$ele) {
                                    if ($ele['Type'] ==
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/drawing')
{
                                        $drawings[(string)
$ele['Id']] = self::dirAdd("$dir/$fileWorksheet",
$ele['Target']);
                                    }
                                }
                                if ($xmlSheet->drawing &&
!$this->readDataOnly) {
                                    $unparsedDrawings = [];
                                    foreach ($xmlSheet->drawing as
$drawing) {
                                        $drawingRelId = (string)
self::getArrayItem($drawing->attributes('http://schemas.openxmlformats.org/officeDocument/2006/relationships'),
'id');
                                        $fileDrawing =
$drawings[$drawingRelId];
                                        //~
http://schemas.openxmlformats.org/package/2006/relationships"
                                        $relsDrawing =
simplexml_load_string(
                                           
$this->securityScanner->scan(
                                               
$this->getFromZipArchive($zip, dirname($fileDrawing) .
'/_rels/' . basename($fileDrawing) . '.rels')
                                            ),
                                            'SimpleXMLElement',
                                           
Settings::getLibXmlLoaderOptions()
                                        );
                                        $images = [];
                                        $hyperlinks = [];
                                        if ($relsDrawing &&
$relsDrawing->Relationship) {
                                            foreach
($relsDrawing->Relationship as $ele) {
                                                if ($ele['Type']
==
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/hyperlink')
{
                                                    $hyperlinks[(string)
$ele['Id']] = (string) $ele['Target'];
                                                }
                                                if ($ele['Type']
==
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/image')
{
                                                    $images[(string)
$ele['Id']] = self::dirAdd($fileDrawing,
$ele['Target']);
                                                } elseif
($ele['Type'] ==
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/chart')
{
                                                    if
($this->includeCharts) {
                                                       
$charts[self::dirAdd($fileDrawing, $ele['Target'])] = [
                                                            'id'
=> (string) $ele['Id'],
                                                           
'sheet' => $docSheet->getTitle(),
                                                        ];
                                                    }
                                                }
                                            }
                                        }
                                        $xmlDrawing =
simplexml_load_string(
                                           
$this->securityScanner->scan($this->getFromZipArchive($zip,
$fileDrawing)),
                                            'SimpleXMLElement',
                                           
Settings::getLibXmlLoaderOptions()
                                        );
                                        $xmlDrawingChildren =
$xmlDrawing->children('http://schemas.openxmlformats.org/drawingml/2006/spreadsheetDrawing');

                                        if
($xmlDrawingChildren->oneCellAnchor) {
                                            foreach
($xmlDrawingChildren->oneCellAnchor as $oneCellAnchor) {
                                                if
($oneCellAnchor->pic->blipFill) {
                                                    /** @var
SimpleXMLElement $blip */
                                                    $blip =
$oneCellAnchor->pic->blipFill->children('http://schemas.openxmlformats.org/drawingml/2006/main')->blip;
                                                    /** @var
SimpleXMLElement $xfrm */
                                                    $xfrm =
$oneCellAnchor->pic->spPr->children('http://schemas.openxmlformats.org/drawingml/2006/main')->xfrm;
                                                    /** @var
SimpleXMLElement $outerShdw */
                                                    $outerShdw =
$oneCellAnchor->pic->spPr->children('http://schemas.openxmlformats.org/drawingml/2006/main')->effectLst->outerShdw;
                                                    /** @var
\SimpleXMLElement $hlinkClick */
                                                    $hlinkClick =
$oneCellAnchor->pic->nvPicPr->cNvPr->children('http://schemas.openxmlformats.org/drawingml/2006/main')->hlinkClick;

                                                    $objDrawing = new
\PhpOffice\PhpSpreadsheet\Worksheet\Drawing();
                                                   
$objDrawing->setName((string)
self::getArrayItem($oneCellAnchor->pic->nvPicPr->cNvPr->attributes(),
'name'));
                                                   
$objDrawing->setDescription((string)
self::getArrayItem($oneCellAnchor->pic->nvPicPr->cNvPr->attributes(),
'descr'));
                                                   
$objDrawing->setPath(
                                                        'zip://'
. File::realpath($pFilename) . '#' .
                                                        $images[(string)
self::getArrayItem(
                                                           
$blip->attributes('http://schemas.openxmlformats.org/officeDocument/2006/relationships'),
                                                           
'embed'
                                                        )],
                                                        false
                                                    );
                                                   
$objDrawing->setCoordinates(Coordinate::stringFromColumnIndex(((string)
$oneCellAnchor->from->col) + 1) . ($oneCellAnchor->from->row +
1));
                                                   
$objDrawing->setOffsetX(Drawing::EMUToPixels($oneCellAnchor->from->colOff));
                                                   
$objDrawing->setOffsetY(Drawing::EMUToPixels($oneCellAnchor->from->rowOff));
                                                   
$objDrawing->setResizeProportional(false);
                                                   
$objDrawing->setWidth(Drawing::EMUToPixels(self::getArrayItem($oneCellAnchor->ext->attributes(),
'cx')));
                                                   
$objDrawing->setHeight(Drawing::EMUToPixels(self::getArrayItem($oneCellAnchor->ext->attributes(),
'cy')));
                                                    if ($xfrm) {
                                                       
$objDrawing->setRotation(Drawing::angleToDegrees(self::getArrayItem($xfrm->attributes(),
'rot')));
                                                    }
                                                    if ($outerShdw) {
                                                        $shadow =
$objDrawing->getShadow();
                                                       
$shadow->setVisible(true);
                                                       
$shadow->setBlurRadius(Drawing::EMUToPixels(self::getArrayItem($outerShdw->attributes(),
'blurRad')));
                                                       
$shadow->setDistance(Drawing::EMUToPixels(self::getArrayItem($outerShdw->attributes(),
'dist')));
                                                       
$shadow->setDirection(Drawing::angleToDegrees(self::getArrayItem($outerShdw->attributes(),
'dir')));
                                                       
$shadow->setAlignment((string)
self::getArrayItem($outerShdw->attributes(), 'algn'));
                                                        $clr =
isset($outerShdw->srgbClr) ? $outerShdw->srgbClr :
$outerShdw->prstClr;
                                                       
$shadow->getColor()->setRGB(self::getArrayItem($clr->attributes(),
'val'));
                                                       
$shadow->setAlpha(self::getArrayItem($clr->alpha->attributes(),
'val') / 1000);
                                                    }

                                                   
$this->readHyperLinkDrawing($objDrawing, $oneCellAnchor, $hyperlinks);

                                                   
$objDrawing->setWorksheet($docSheet);
                                                } else {
                                                    //    ? Can charts be
positioned with a oneCellAnchor ?
                                                    $coordinates =
Coordinate::stringFromColumnIndex(((string)
$oneCellAnchor->from->col) + 1) . ($oneCellAnchor->from->row +
1);
                                                    $offsetX =
Drawing::EMUToPixels($oneCellAnchor->from->colOff);
                                                    $offsetY =
Drawing::EMUToPixels($oneCellAnchor->from->rowOff);
                                                    $width =
Drawing::EMUToPixels(self::getArrayItem($oneCellAnchor->ext->attributes(),
'cx'));
                                                    $height =
Drawing::EMUToPixels(self::getArrayItem($oneCellAnchor->ext->attributes(),
'cy'));
                                                }
                                            }
                                        }
                                        if
($xmlDrawingChildren->twoCellAnchor) {
                                            foreach
($xmlDrawingChildren->twoCellAnchor as $twoCellAnchor) {
                                                if
($twoCellAnchor->pic->blipFill) {
                                                    $blip =
$twoCellAnchor->pic->blipFill->children('http://schemas.openxmlformats.org/drawingml/2006/main')->blip;
                                                    $xfrm =
$twoCellAnchor->pic->spPr->children('http://schemas.openxmlformats.org/drawingml/2006/main')->xfrm;
                                                    $outerShdw =
$twoCellAnchor->pic->spPr->children('http://schemas.openxmlformats.org/drawingml/2006/main')->effectLst->outerShdw;
                                                    $hlinkClick =
$twoCellAnchor->pic->nvPicPr->cNvPr->children('http://schemas.openxmlformats.org/drawingml/2006/main')->hlinkClick;
                                                    $objDrawing = new
\PhpOffice\PhpSpreadsheet\Worksheet\Drawing();
                                                   
$objDrawing->setName((string)
self::getArrayItem($twoCellAnchor->pic->nvPicPr->cNvPr->attributes(),
'name'));
                                                   
$objDrawing->setDescription((string)
self::getArrayItem($twoCellAnchor->pic->nvPicPr->cNvPr->attributes(),
'descr'));
                                                   
$objDrawing->setPath(
                                                        'zip://'
. File::realpath($pFilename) . '#' .
                                                        $images[(string)
self::getArrayItem(
                                                           
$blip->attributes('http://schemas.openxmlformats.org/officeDocument/2006/relationships'),
                                                           
'embed'
                                                        )],
                                                        false
                                                    );
                                                   
$objDrawing->setCoordinates(Coordinate::stringFromColumnIndex(((string)
$twoCellAnchor->from->col) + 1) . ($twoCellAnchor->from->row +
1));
                                                   
$objDrawing->setOffsetX(Drawing::EMUToPixels($twoCellAnchor->from->colOff));
                                                   
$objDrawing->setOffsetY(Drawing::EMUToPixels($twoCellAnchor->from->rowOff));
                                                   
$objDrawing->setResizeProportional(false);

                                                    if ($xfrm) {
                                                       
$objDrawing->setWidth(Drawing::EMUToPixels(self::getArrayItem($xfrm->ext->attributes(),
'cx')));
                                                       
$objDrawing->setHeight(Drawing::EMUToPixels(self::getArrayItem($xfrm->ext->attributes(),
'cy')));
                                                       
$objDrawing->setRotation(Drawing::angleToDegrees(self::getArrayItem($xfrm->attributes(),
'rot')));
                                                    }
                                                    if ($outerShdw) {
                                                        $shadow =
$objDrawing->getShadow();
                                                       
$shadow->setVisible(true);
                                                       
$shadow->setBlurRadius(Drawing::EMUToPixels(self::getArrayItem($outerShdw->attributes(),
'blurRad')));
                                                       
$shadow->setDistance(Drawing::EMUToPixels(self::getArrayItem($outerShdw->attributes(),
'dist')));
                                                       
$shadow->setDirection(Drawing::angleToDegrees(self::getArrayItem($outerShdw->attributes(),
'dir')));
                                                       
$shadow->setAlignment((string)
self::getArrayItem($outerShdw->attributes(), 'algn'));
                                                        $clr =
isset($outerShdw->srgbClr) ? $outerShdw->srgbClr :
$outerShdw->prstClr;
                                                       
$shadow->getColor()->setRGB(self::getArrayItem($clr->attributes(),
'val'));
                                                       
$shadow->setAlpha(self::getArrayItem($clr->alpha->attributes(),
'val') / 1000);
                                                    }

                                                   
$this->readHyperLinkDrawing($objDrawing, $twoCellAnchor, $hyperlinks);

                                                   
$objDrawing->setWorksheet($docSheet);
                                                } elseif
(($this->includeCharts) && ($twoCellAnchor->graphicFrame)) {
                                                    $fromCoordinate =
Coordinate::stringFromColumnIndex(((string)
$twoCellAnchor->from->col) + 1) . ($twoCellAnchor->from->row +
1);
                                                    $fromOffsetX =
Drawing::EMUToPixels($twoCellAnchor->from->colOff);
                                                    $fromOffsetY =
Drawing::EMUToPixels($twoCellAnchor->from->rowOff);
                                                    $toCoordinate =
Coordinate::stringFromColumnIndex(((string) $twoCellAnchor->to->col)
+ 1) . ($twoCellAnchor->to->row + 1);
                                                    $toOffsetX =
Drawing::EMUToPixels($twoCellAnchor->to->colOff);
                                                    $toOffsetY =
Drawing::EMUToPixels($twoCellAnchor->to->rowOff);
                                                    $graphic =
$twoCellAnchor->graphicFrame->children('http://schemas.openxmlformats.org/drawingml/2006/main')->graphic;
                                                    /** @var
SimpleXMLElement $chartRef */
                                                    $chartRef =
$graphic->graphicData->children('http://schemas.openxmlformats.org/drawingml/2006/chart')->chart;
                                                    $thisChart = (string)
$chartRef->attributes('http://schemas.openxmlformats.org/officeDocument/2006/relationships');

                                                   
$chartDetails[$docSheet->getTitle() . '!' . $thisChart] = [
                                                       
'fromCoordinate' => $fromCoordinate,
                                                       
'fromOffsetX' => $fromOffsetX,
                                                       
'fromOffsetY' => $fromOffsetY,
                                                       
'toCoordinate' => $toCoordinate,
                                                       
'toOffsetX' => $toOffsetX,
                                                       
'toOffsetY' => $toOffsetY,
                                                       
'worksheetTitle' => $docSheet->getTitle(),
                                                    ];
                                                }
                                            }
                                        }
                                        if ($relsDrawing === false
&& $xmlDrawing->count() == 0) {
                                            // Save Drawing without rels
and children as unparsed
                                           
$unparsedDrawings[$drawingRelId] = $xmlDrawing->asXML();
                                        }
                                    }

                                    // store original rId of drawing files
                                   
$unparsedLoadedData['sheets'][$docSheet->getCodeName()]['drawingOriginalIds']
= [];
                                    foreach
($relsWorksheet->Relationship as $ele) {
                                        if ($ele['Type'] ==
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/drawing')
{
                                            $drawingRelId = (string)
$ele['Id'];
                                           
$unparsedLoadedData['sheets'][$docSheet->getCodeName()]['drawingOriginalIds'][(string)
$ele['Target']] = $drawingRelId;
                                            if
(isset($unparsedDrawings[$drawingRelId])) {
                                               
$unparsedLoadedData['sheets'][$docSheet->getCodeName()]['Drawings'][$drawingRelId]
= $unparsedDrawings[$drawingRelId];
                                            }
                                        }
                                    }

                                    // unparsed drawing AlternateContent
                                    $xmlAltDrawing = simplexml_load_string(
                                       
$this->securityScanner->scan($this->getFromZipArchive($zip,
$fileDrawing)),
                                        'SimpleXMLElement',
                                        Settings::getLibXmlLoaderOptions()
                                   
)->children('http://schemas.openxmlformats.org/markup-compatibility/2006');

                                    if
($xmlAltDrawing->AlternateContent) {
                                        foreach
($xmlAltDrawing->AlternateContent as $alternateContent) {
                                           
$unparsedLoadedData['sheets'][$docSheet->getCodeName()]['drawingAlternateContents'][]
= $alternateContent->asXML();
                                        }
                                    }
                                }
                            }

                            $this->readFormControlProperties($excel,
$zip, $dir, $fileWorksheet, $docSheet, $unparsedLoadedData);
                            $this->readPrinterSettings($excel, $zip,
$dir, $fileWorksheet, $docSheet, $unparsedLoadedData);

                            // Loop through definedNames
                            if ($xmlWorkbook->definedNames) {
                                foreach
($xmlWorkbook->definedNames->definedName as $definedName) {
                                    // Extract range
                                    $extractedRange = (string)
$definedName;
                                    if (($spos = strpos($extractedRange,
'!')) !== false) {
                                        $extractedRange =
substr($extractedRange, 0, $spos) . str_replace('$',
'', substr($extractedRange, $spos));
                                    } else {
                                        $extractedRange =
str_replace('$', '', $extractedRange);
                                    }

                                    // Valid range?
                                    if (stripos((string) $definedName,
'#REF!') !== false || $extractedRange == '') {
                                        continue;
                                    }

                                    // Some definedNames are only
applicable if we are on the same sheet...
                                    if ((string)
$definedName['localSheetId'] != '' && (string)
$definedName['localSheetId'] == $oldSheetId) {
                                        // Switch on type
                                        switch ((string)
$definedName['name']) {
                                            case
'_xlnm._FilterDatabase':
                                                if ((string)
$definedName['hidden'] !== '1') {
                                                    $extractedRange =
explode(',', $extractedRange);
                                                    foreach
($extractedRange as $range) {
                                                        $autoFilterRange =
$range;
                                                        if
(strpos($autoFilterRange, ':') !== false) {
                                                           
$docSheet->getAutoFilter()->setRange($autoFilterRange);
                                                        }
                                                    }
                                                }

                                                break;
                                            case
'_xlnm.Print_Titles':
                                                // Split $extractedRange
                                                $extractedRange =
explode(',', $extractedRange);

                                                // Set print titles
                                                foreach ($extractedRange as
$range) {
                                                    $matches = [];
                                                    $range =
str_replace('$', '', $range);

                                                    // check for repeating
columns, e g. 'A:A' or 'A:D'
                                                    if
(preg_match('/!?([A-Z]+)\:([A-Z]+)$/', $range, $matches)) {
                                                       
$docSheet->getPageSetup()->setColumnsToRepeatAtLeft([$matches[1],
$matches[2]]);
                                                    } elseif
(preg_match('/!?(\d+)\:(\d+)$/', $range, $matches)) {
                                                        // check for
repeating rows, e.g. '1:1' or '1:5'
                                                       
$docSheet->getPageSetup()->setRowsToRepeatAtTop([$matches[1],
$matches[2]]);
                                                    }
                                                }

                                                break;
                                            case
'_xlnm.Print_Area':
                                                $rangeSets =
preg_split("/('?(?:.*?)'?(?:![A-Z0-9]+:[A-Z0-9]+)),?/",
$extractedRange, -1, PREG_SPLIT_NO_EMPTY | PREG_SPLIT_DELIM_CAPTURE);
                                                $newRangeSets = [];
                                                foreach ($rangeSets as
$rangeSet) {
                                                    [$sheetName, $rangeSet]
= Worksheet::extractSheetTitle($rangeSet, true);
                                                    if (strpos($rangeSet,
':') === false) {
                                                        $rangeSet =
$rangeSet . ':' . $rangeSet;
                                                    }
                                                    $newRangeSets[] =
str_replace('$', '', $rangeSet);
                                                }
                                               
$docSheet->getPageSetup()->setPrintArea(implode(',',
$newRangeSets));

                                                break;
                                            default:
                                                break;
                                        }
                                    }
                                }
                            }

                            // Next sheet id
                            ++$sheetId;
                        }

                        // Loop through definedNames
                        if ($xmlWorkbook->definedNames) {
                            foreach
($xmlWorkbook->definedNames->definedName as $definedName) {
                                // Extract range
                                $extractedRange = (string) $definedName;
                                if (($spos = strpos($extractedRange,
'!')) !== false) {
                                    $extractedRange =
substr($extractedRange, 0, $spos) . str_replace('$',
'', substr($extractedRange, $spos));
                                } else {
                                    $extractedRange =
str_replace('$', '', $extractedRange);
                                }

                                // Valid range?
                                if (stripos((string) $definedName,
'#REF!') !== false || $extractedRange == '') {
                                    continue;
                                }

                                // Some definedNames are only applicable if
we are on the same sheet...
                                if ((string)
$definedName['localSheetId'] != '') {
                                    // Local defined name
                                    // Switch on type
                                    switch ((string)
$definedName['name']) {
                                        case
'_xlnm._FilterDatabase':
                                        case
'_xlnm.Print_Titles':
                                        case '_xlnm.Print_Area':
                                            break;
                                        default:
                                            if ($mapSheetId[(int)
$definedName['localSheetId']] !== null) {
                                                if (strpos((string)
$definedName, '!') !== false) {
                                                    $range =
Worksheet::extractSheetTitle((string) $definedName, true);
                                                    $range[0] =
str_replace("''", "'", $range[0]);
                                                    $range[0] =
str_replace("'", '', $range[0]);
                                                    if ($worksheet =
$docSheet->getParent()->getSheetByName($range[0])) {
                                                        $extractedRange =
str_replace('$', '', $range[1]);
                                                        $scope =
$docSheet->getParent()->getSheet($mapSheetId[(int)
$definedName['localSheetId']]);
                                                       
$excel->addNamedRange(new NamedRange((string)
$definedName['name'], $worksheet, $extractedRange, true,
$scope));
                                                    }
                                                }
                                            }

                                            break;
                                    }
                                } elseif
(!isset($definedName['localSheetId'])) {
                                    // "Global" definedNames
                                    $locatedSheet = null;
                                    $extractedSheetName = '';
                                    if (strpos((string) $definedName,
'!') !== false) {
                                        // Extract sheet name
                                        $extractedSheetName =
Worksheet::extractSheetTitle((string) $definedName, true);
                                        $extractedSheetName =
trim($extractedSheetName[0], "'");

                                        // Locate sheet
                                        $locatedSheet =
$excel->getSheetByName($extractedSheetName);

                                        // Modify range
                                        [$worksheetName, $extractedRange] =
Worksheet::extractSheetTitle($extractedRange, true);
                                    }

                                    if ($locatedSheet !== null) {
                                        $excel->addNamedRange(new
NamedRange((string) $definedName['name'], $locatedSheet,
$extractedRange, false));
                                    }
                                }
                            }
                        }
                    }

                    if ((!$this->readDataOnly ||
!empty($this->loadSheetsOnly)) &&
isset($xmlWorkbook->bookViews->workbookView)) {
                        $workbookView =
$xmlWorkbook->bookViews->workbookView;

                        // active sheet index
                        $activeTab = (int)
($workbookView['activeTab']); // refers to old sheet index

                        // keep active sheet index if sheet is still
loaded, else first sheet is set as the active
                        if (isset($mapSheetId[$activeTab]) &&
$mapSheetId[$activeTab] !== null) {
                           
$excel->setActiveSheetIndex($mapSheetId[$activeTab]);
                        } else {
                            if ($excel->getSheetCount() == 0) {
                                $excel->createSheet();
                            }
                            $excel->setActiveSheetIndex(0);
                        }

                        if
(isset($workbookView['showHorizontalScroll'])) {
                            $showHorizontalScroll = (string)
$workbookView['showHorizontalScroll'];
                           
$excel->setShowHorizontalScroll($this->castXsdBooleanToBool($showHorizontalScroll));
                        }

                        if
(isset($workbookView['showVerticalScroll'])) {
                            $showVerticalScroll = (string)
$workbookView['showVerticalScroll'];
                           
$excel->setShowVerticalScroll($this->castXsdBooleanToBool($showVerticalScroll));
                        }

                        if
(isset($workbookView['showSheetTabs'])) {
                            $showSheetTabs = (string)
$workbookView['showSheetTabs'];
                           
$excel->setShowSheetTabs($this->castXsdBooleanToBool($showSheetTabs));
                        }

                        if (isset($workbookView['minimized'])) {
                            $minimized = (string)
$workbookView['minimized'];
                           
$excel->setMinimized($this->castXsdBooleanToBool($minimized));
                        }

                        if
(isset($workbookView['autoFilterDateGrouping'])) {
                            $autoFilterDateGrouping = (string)
$workbookView['autoFilterDateGrouping'];
                           
$excel->setAutoFilterDateGrouping($this->castXsdBooleanToBool($autoFilterDateGrouping));
                        }

                        if (isset($workbookView['firstSheet'])) {
                            $firstSheet = (string)
$workbookView['firstSheet'];
                            $excel->setFirstSheetIndex((int)
$firstSheet);
                        }

                        if (isset($workbookView['visibility'])) {
                            $visibility = (string)
$workbookView['visibility'];
                            $excel->setVisibility($visibility);
                        }

                        if (isset($workbookView['tabRatio'])) {
                            $tabRatio = (string)
$workbookView['tabRatio'];
                            $excel->setTabRatio((int) $tabRatio);
                        }
                    }

                    break;
            }
        }

        if (!$this->readDataOnly) {
            $contentTypes = simplexml_load_string(
                $this->securityScanner->scan(
                    $this->getFromZipArchive($zip,
'[Content_Types].xml')
                ),
                'SimpleXMLElement',
                Settings::getLibXmlLoaderOptions()
            );

            // Default content types
            foreach ($contentTypes->Default as $contentType) {
                switch ($contentType['ContentType']) {
                    case
'application/vnd.openxmlformats-officedocument.spreadsheetml.printerSettings':
                       
$unparsedLoadedData['default_content_types'][(string)
$contentType['Extension']] = (string)
$contentType['ContentType'];

                        break;
                }
            }

            // Override content types
            foreach ($contentTypes->Override as $contentType) {
                switch ($contentType['ContentType']) {
                    case
'application/vnd.openxmlformats-officedocument.drawingml.chart+xml':
                        if ($this->includeCharts) {
                            $chartEntryRef =
ltrim($contentType['PartName'], '/');
                            $chartElements = simplexml_load_string(
                                $this->securityScanner->scan(
                                    $this->getFromZipArchive($zip,
$chartEntryRef)
                                ),
                                'SimpleXMLElement',
                                Settings::getLibXmlLoaderOptions()
                            );
                            $objChart = Chart::readChart($chartElements,
basename($chartEntryRef, '.xml'));

                            if (isset($charts[$chartEntryRef])) {
                                $chartPositionRef =
$charts[$chartEntryRef]['sheet'] . '!' .
$charts[$chartEntryRef]['id'];
                                if
(isset($chartDetails[$chartPositionRef])) {
                                   
$excel->getSheetByName($charts[$chartEntryRef]['sheet'])->addChart($objChart);
                                   
$objChart->setWorksheet($excel->getSheetByName($charts[$chartEntryRef]['sheet']));
                                   
$objChart->setTopLeftPosition($chartDetails[$chartPositionRef]['fromCoordinate'],
$chartDetails[$chartPositionRef]['fromOffsetX'],
$chartDetails[$chartPositionRef]['fromOffsetY']);
                                   
$objChart->setBottomRightPosition($chartDetails[$chartPositionRef]['toCoordinate'],
$chartDetails[$chartPositionRef]['toOffsetX'],
$chartDetails[$chartPositionRef]['toOffsetY']);
                                }
                            }
                        }

                        break;

                    // unparsed
                    case
'application/vnd.ms-excel.controlproperties+xml':
                       
$unparsedLoadedData['override_content_types'][(string)
$contentType['PartName']] = (string)
$contentType['ContentType'];

                        break;
                }
            }
        }

        $excel->setUnparsedLoadedData($unparsedLoadedData);

        $zip->close();

        return $excel;
    }

    private static function readColor($color, $background = false)
    {
        if (isset($color['rgb'])) {
            return (string) $color['rgb'];
        } elseif (isset($color['indexed'])) {
            return Color::indexedColor($color['indexed'] - 7,
$background)->getARGB();
        } elseif (isset($color['theme'])) {
            if (self::$theme !== null) {
                $returnColour = self::$theme->getColourByIndex((int)
$color['theme']);
                if (isset($color['tint'])) {
                    $tintAdjust = (float) $color['tint'];
                    $returnColour = Color::changeBrightness($returnColour,
$tintAdjust);
                }

                return 'FF' . $returnColour;
            }
        }

        if ($background) {
            return 'FFFFFFFF';
        }

        return 'FF000000';
    }

    /**
     * @param Style $docStyle
     * @param SimpleXMLElement|\stdClass $style
     */
    private static function readStyle(Style $docStyle, $style)
    {
       
$docStyle->getNumberFormat()->setFormatCode($style->numFmt);

        // font
        if (isset($style->font)) {
            $docStyle->getFont()->setName((string)
$style->font->name['val']);
            $docStyle->getFont()->setSize((string)
$style->font->sz['val']);
            if (isset($style->font->b)) {
               
$docStyle->getFont()->setBold(!isset($style->font->b['val'])
|| self::boolean((string) $style->font->b['val']));
            }
            if (isset($style->font->i)) {
               
$docStyle->getFont()->setItalic(!isset($style->font->i['val'])
|| self::boolean((string) $style->font->i['val']));
            }
            if (isset($style->font->strike)) {
               
$docStyle->getFont()->setStrikethrough(!isset($style->font->strike['val'])
|| self::boolean((string) $style->font->strike['val']));
            }
           
$docStyle->getFont()->getColor()->setARGB(self::readColor($style->font->color));

            if (isset($style->font->u) &&
!isset($style->font->u['val'])) {
               
$docStyle->getFont()->setUnderline(\PhpOffice\PhpSpreadsheet\Style\Font::UNDERLINE_SINGLE);
            } elseif (isset($style->font->u,
$style->font->u['val'])) {
                $docStyle->getFont()->setUnderline((string)
$style->font->u['val']);
            }

            if (isset($style->font->vertAlign,
$style->font->vertAlign['val'])) {
                $vertAlign = strtolower((string)
$style->font->vertAlign['val']);
                if ($vertAlign == 'superscript') {
                    $docStyle->getFont()->setSuperscript(true);
                }
                if ($vertAlign == 'subscript') {
                    $docStyle->getFont()->setSubscript(true);
                }
            }
        }

        // fill
        if (isset($style->fill)) {
            if ($style->fill->gradientFill) {
                /** @var SimpleXMLElement $gradientFill */
                $gradientFill = $style->fill->gradientFill[0];
                if (!empty($gradientFill['type'])) {
                    $docStyle->getFill()->setFillType((string)
$gradientFill['type']);
                }
                $docStyle->getFill()->setRotation((float)
($gradientFill['degree']));
                $gradientFill->registerXPathNamespace('sml',
'http://schemas.openxmlformats.org/spreadsheetml/2006/main');
               
$docStyle->getFill()->getStartColor()->setARGB(self::readColor(self::getArrayItem($gradientFill->xpath('sml:stop[@position=0]'))->color));
               
$docStyle->getFill()->getEndColor()->setARGB(self::readColor(self::getArrayItem($gradientFill->xpath('sml:stop[@position=1]'))->color));
            } elseif ($style->fill->patternFill) {
                $patternType = (string)
$style->fill->patternFill['patternType'] != '' ?
(string) $style->fill->patternFill['patternType'] :
'solid';
                $docStyle->getFill()->setFillType($patternType);
                if ($style->fill->patternFill->fgColor) {
                   
$docStyle->getFill()->getStartColor()->setARGB(self::readColor($style->fill->patternFill->fgColor,
true));
                } else {
                   
$docStyle->getFill()->getStartColor()->setARGB('FF000000');
                }
                if ($style->fill->patternFill->bgColor) {
                   
$docStyle->getFill()->getEndColor()->setARGB(self::readColor($style->fill->patternFill->bgColor,
true));
                }
            }
        }

        // border
        if (isset($style->border)) {
            $diagonalUp = self::boolean((string)
$style->border['diagonalUp']);
            $diagonalDown = self::boolean((string)
$style->border['diagonalDown']);
            if (!$diagonalUp && !$diagonalDown) {
               
$docStyle->getBorders()->setDiagonalDirection(Borders::DIAGONAL_NONE);
            } elseif ($diagonalUp && !$diagonalDown) {
               
$docStyle->getBorders()->setDiagonalDirection(Borders::DIAGONAL_UP);
            } elseif (!$diagonalUp && $diagonalDown) {
               
$docStyle->getBorders()->setDiagonalDirection(Borders::DIAGONAL_DOWN);
            } else {
               
$docStyle->getBorders()->setDiagonalDirection(Borders::DIAGONAL_BOTH);
            }
            self::readBorder($docStyle->getBorders()->getLeft(),
$style->border->left);
            self::readBorder($docStyle->getBorders()->getRight(),
$style->border->right);
            self::readBorder($docStyle->getBorders()->getTop(),
$style->border->top);
            self::readBorder($docStyle->getBorders()->getBottom(),
$style->border->bottom);
            self::readBorder($docStyle->getBorders()->getDiagonal(),
$style->border->diagonal);
        }

        // alignment
        if (isset($style->alignment)) {
            $docStyle->getAlignment()->setHorizontal((string)
$style->alignment['horizontal']);
            $docStyle->getAlignment()->setVertical((string)
$style->alignment['vertical']);

            $textRotation = 0;
            if ((int) $style->alignment['textRotation'] <=
90) {
                $textRotation = (int)
$style->alignment['textRotation'];
            } elseif ((int) $style->alignment['textRotation']
> 90) {
                $textRotation = 90 - (int)
$style->alignment['textRotation'];
            }

            $docStyle->getAlignment()->setTextRotation((int)
$textRotation);
           
$docStyle->getAlignment()->setWrapText(self::boolean((string)
$style->alignment['wrapText']));
           
$docStyle->getAlignment()->setShrinkToFit(self::boolean((string)
$style->alignment['shrinkToFit']));
            $docStyle->getAlignment()->setIndent((int) ((string)
$style->alignment['indent']) > 0 ? (int) ((string)
$style->alignment['indent']) : 0);
            $docStyle->getAlignment()->setReadOrder((int) ((string)
$style->alignment['readingOrder']) > 0 ? (int) ((string)
$style->alignment['readingOrder']) : 0);
        }

        // protection
        if (isset($style->protection)) {
            if (isset($style->protection['locked'])) {
                if (self::boolean((string)
$style->protection['locked'])) {
                   
$docStyle->getProtection()->setLocked(Protection::PROTECTION_PROTECTED);
                } else {
                   
$docStyle->getProtection()->setLocked(Protection::PROTECTION_UNPROTECTED);
                }
            }

            if (isset($style->protection['hidden'])) {
                if (self::boolean((string)
$style->protection['hidden'])) {
                   
$docStyle->getProtection()->setHidden(Protection::PROTECTION_PROTECTED);
                } else {
                   
$docStyle->getProtection()->setHidden(Protection::PROTECTION_UNPROTECTED);
                }
            }
        }

        // top-level style settings
        if (isset($style->quotePrefix)) {
            $docStyle->setQuotePrefix($style->quotePrefix);
        }
    }

    /**
     * @param Border $docBorder
     * @param SimpleXMLElement $eleBorder
     */
    private static function readBorder(Border $docBorder, $eleBorder)
    {
        if (isset($eleBorder['style'])) {
            $docBorder->setBorderStyle((string)
$eleBorder['style']);
        }
        if (isset($eleBorder->color)) {
           
$docBorder->getColor()->setARGB(self::readColor($eleBorder->color));
        }
    }

    /**
     * @param SimpleXMLElement | null $is
     *
     * @return RichText
     */
    private function parseRichText($is)
    {
        $value = new RichText();

        if (isset($is->t)) {
           
$value->createText(StringHelper::controlCharacterOOXML2PHP((string)
$is->t));
        } else {
            if (is_object($is->r)) {
                foreach ($is->r as $run) {
                    if (!isset($run->rPr)) {
                       
$value->createText(StringHelper::controlCharacterOOXML2PHP((string)
$run->t));
                    } else {
                        $objText =
$value->createTextRun(StringHelper::controlCharacterOOXML2PHP((string)
$run->t));

                        if (isset($run->rPr->rFont['val']))
{
                            $objText->getFont()->setName((string)
$run->rPr->rFont['val']);
                        }
                        if (isset($run->rPr->sz['val'])) {
                            $objText->getFont()->setSize((float)
$run->rPr->sz['val']);
                        }
                        if (isset($run->rPr->color)) {
                            $objText->getFont()->setColor(new
Color(self::readColor($run->rPr->color)));
                        }
                        if ((isset($run->rPr->b['val'])
&& self::boolean((string) $run->rPr->b['val'])) ||
                            (isset($run->rPr->b) &&
!isset($run->rPr->b['val']))) {
                            $objText->getFont()->setBold(true);
                        }
                        if ((isset($run->rPr->i['val'])
&& self::boolean((string) $run->rPr->i['val'])) ||
                            (isset($run->rPr->i) &&
!isset($run->rPr->i['val']))) {
                            $objText->getFont()->setItalic(true);
                        }
                        if (isset($run->rPr->vertAlign,
$run->rPr->vertAlign['val'])) {
                            $vertAlign = strtolower((string)
$run->rPr->vertAlign['val']);
                            if ($vertAlign == 'superscript') {
                               
$objText->getFont()->setSuperscript(true);
                            }
                            if ($vertAlign == 'subscript') {
                               
$objText->getFont()->setSubscript(true);
                            }
                        }
                        if (isset($run->rPr->u) &&
!isset($run->rPr->u['val'])) {
                           
$objText->getFont()->setUnderline(\PhpOffice\PhpSpreadsheet\Style\Font::UNDERLINE_SINGLE);
                        } elseif (isset($run->rPr->u,
$run->rPr->u['val'])) {
                           
$objText->getFont()->setUnderline((string)
$run->rPr->u['val']);
                        }
                        if
((isset($run->rPr->strike['val']) &&
self::boolean((string) $run->rPr->strike['val'])) ||
                            (isset($run->rPr->strike) &&
!isset($run->rPr->strike['val']))) {
                           
$objText->getFont()->setStrikethrough(true);
                        }
                    }
                }
            }
        }

        return $value;
    }

    /**
     * @param Spreadsheet $excel
     * @param mixed $customUITarget
     * @param mixed $zip
     */
    private function readRibbon(Spreadsheet $excel, $customUITarget, $zip)
    {
        $baseDir = dirname($customUITarget);
        $nameCustomUI = basename($customUITarget);
        // get the xml file (ribbon)
        $localRibbon = $this->getFromZipArchive($zip, $customUITarget);
        $customUIImagesNames = [];
        $customUIImagesBinaries = [];
        // something like customUI/_rels/customUI.xml.rels
        $pathRels = $baseDir . '/_rels/' . $nameCustomUI .
'.rels';
        $dataRels = $this->getFromZipArchive($zip, $pathRels);
        if ($dataRels) {
            // exists and not empty if the ribbon have some pictures (other
than internal MSO)
            $UIRels = simplexml_load_string(
                $this->securityScanner->scan($dataRels),
                'SimpleXMLElement',
                Settings::getLibXmlLoaderOptions()
            );
            if (false !== $UIRels) {
                // we need to save id and target to avoid parsing
customUI.xml and "guess" if it's a pseudo callback who load
the image
                foreach ($UIRels->Relationship as $ele) {
                    if ($ele['Type'] ==
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/image')
{
                        // an image ?
                        $customUIImagesNames[(string) $ele['Id']]
= (string) $ele['Target'];
                        $customUIImagesBinaries[(string)
$ele['Target']] = $this->getFromZipArchive($zip, $baseDir .
'/' . (string) $ele['Target']);
                    }
                }
            }
        }
        if ($localRibbon) {
            $excel->setRibbonXMLData($customUITarget, $localRibbon);
            if (count($customUIImagesNames) > 0 &&
count($customUIImagesBinaries) > 0) {
                $excel->setRibbonBinObjects($customUIImagesNames,
$customUIImagesBinaries);
            } else {
                $excel->setRibbonBinObjects(null, null);
            }
        } else {
            $excel->setRibbonXMLData(null, null);
            $excel->setRibbonBinObjects(null, null);
        }
    }

    private static function getArrayItem($array, $key = 0)
    {
        return $array[$key] ?? null;
    }

    private static function dirAdd($base, $add)
    {
        return preg_replace('~[^/]+/\.\./~', '',
dirname($base) . "/$add");
    }

    private static function toCSSArray($style)
    {
        $style = trim(str_replace(["\r", "\n"],
'', $style), ';');

        $temp = explode(';', $style);
        $style = [];
        foreach ($temp as $item) {
            $item = explode(':', $item);

            if (strpos($item[1], 'px') !== false) {
                $item[1] = str_replace('px', '',
$item[1]);
            }
            if (strpos($item[1], 'pt') !== false) {
                $item[1] = str_replace('pt', '',
$item[1]);
                $item[1] = Font::fontSizeToPixels($item[1]);
            }
            if (strpos($item[1], 'in') !== false) {
                $item[1] = str_replace('in', '',
$item[1]);
                $item[1] = Font::inchSizeToPixels($item[1]);
            }
            if (strpos($item[1], 'cm') !== false) {
                $item[1] = str_replace('cm', '',
$item[1]);
                $item[1] = Font::centimeterSizeToPixels($item[1]);
            }

            $style[$item[0]] = $item[1];
        }

        return $style;
    }

    private static function boolean($value)
    {
        if (is_object($value)) {
            $value = (string) $value;
        }
        if (is_numeric($value)) {
            return (bool) $value;
        }

        return $value === 'true' || $value === 'TRUE';
    }

    /**
     * @param \PhpOffice\PhpSpreadsheet\Worksheet\Drawing $objDrawing
     * @param \SimpleXMLElement $cellAnchor
     * @param array $hyperlinks
     */
    private function readHyperLinkDrawing($objDrawing, $cellAnchor,
$hyperlinks)
    {
        $hlinkClick =
$cellAnchor->pic->nvPicPr->cNvPr->children('http://schemas.openxmlformats.org/drawingml/2006/main')->hlinkClick;

        if ($hlinkClick->count() === 0) {
            return;
        }

        $hlinkId = (string)
$hlinkClick->attributes('http://schemas.openxmlformats.org/officeDocument/2006/relationships')['id'];
        $hyperlink = new Hyperlink(
            $hyperlinks[$hlinkId],
            (string)
self::getArrayItem($cellAnchor->pic->nvPicPr->cNvPr->attributes(),
'name')
        );
        $objDrawing->setHyperlink($hyperlink);
    }

    private function readProtection(Spreadsheet $excel, SimpleXMLElement
$xmlWorkbook)
    {
        if (!$xmlWorkbook->workbookProtection) {
            return;
        }

        if ($xmlWorkbook->workbookProtection['lockRevision'])
{
            $excel->getSecurity()->setLockRevision((bool)
$xmlWorkbook->workbookProtection['lockRevision']);
        }

        if ($xmlWorkbook->workbookProtection['lockStructure'])
{
            $excel->getSecurity()->setLockStructure((bool)
$xmlWorkbook->workbookProtection['lockStructure']);
        }

        if ($xmlWorkbook->workbookProtection['lockWindows']) {
            $excel->getSecurity()->setLockWindows((bool)
$xmlWorkbook->workbookProtection['lockWindows']);
        }

        if
($xmlWorkbook->workbookProtection['revisionsPassword']) {
            $excel->getSecurity()->setRevisionsPassword((string)
$xmlWorkbook->workbookProtection['revisionsPassword'], true);
        }

        if
($xmlWorkbook->workbookProtection['workbookPassword']) {
            $excel->getSecurity()->setWorkbookPassword((string)
$xmlWorkbook->workbookProtection['workbookPassword'], true);
        }
    }

    private function readFormControlProperties(Spreadsheet $excel,
ZipArchive $zip, $dir, $fileWorksheet, $docSheet, array
&$unparsedLoadedData)
    {
        if (!$zip->locateName(dirname("$dir/$fileWorksheet") .
'/_rels/' . basename($fileWorksheet) . '.rels')) {
            return;
        }

        //~
http://schemas.openxmlformats.org/package/2006/relationships"
        $relsWorksheet = simplexml_load_string(
            $this->securityScanner->scan(
                $this->getFromZipArchive($zip,
dirname("$dir/$fileWorksheet") . '/_rels/' .
basename($fileWorksheet) . '.rels')
            ),
            'SimpleXMLElement',
            Settings::getLibXmlLoaderOptions()
        );
        $ctrlProps = [];
        foreach ($relsWorksheet->Relationship as $ele) {
            if ($ele['Type'] ==
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/ctrlProp')
{
                $ctrlProps[(string) $ele['Id']] = $ele;
            }
        }

        $unparsedCtrlProps =
&$unparsedLoadedData['sheets'][$docSheet->getCodeName()]['ctrlProps'];
        foreach ($ctrlProps as $rId => $ctrlProp) {
            $rId = substr($rId, 3); // rIdXXX
            $unparsedCtrlProps[$rId] = [];
            $unparsedCtrlProps[$rId]['filePath'] =
self::dirAdd("$dir/$fileWorksheet",
$ctrlProp['Target']);
            $unparsedCtrlProps[$rId]['relFilePath'] = (string)
$ctrlProp['Target'];
            $unparsedCtrlProps[$rId]['content'] =
$this->securityScanner->scan($this->getFromZipArchive($zip,
$unparsedCtrlProps[$rId]['filePath']));
        }
        unset($unparsedCtrlProps);
    }

    private function readPrinterSettings(Spreadsheet $excel, ZipArchive
$zip, $dir, $fileWorksheet, $docSheet, array &$unparsedLoadedData)
    {
        if (!$zip->locateName(dirname("$dir/$fileWorksheet") .
'/_rels/' . basename($fileWorksheet) . '.rels')) {
            return;
        }

        //~
http://schemas.openxmlformats.org/package/2006/relationships"
        $relsWorksheet = simplexml_load_string(
            $this->securityScanner->scan(
                $this->getFromZipArchive($zip,
dirname("$dir/$fileWorksheet") . '/_rels/' .
basename($fileWorksheet) . '.rels')
            ),
            'SimpleXMLElement',
            Settings::getLibXmlLoaderOptions()
        );
        $sheetPrinterSettings = [];
        foreach ($relsWorksheet->Relationship as $ele) {
            if ($ele['Type'] ==
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/printerSettings')
{
                $sheetPrinterSettings[(string) $ele['Id']] =
$ele;
            }
        }

        $unparsedPrinterSettings =
&$unparsedLoadedData['sheets'][$docSheet->getCodeName()]['printerSettings'];
        foreach ($sheetPrinterSettings as $rId => $printerSettings) {
            $rId = substr($rId, 3); // rIdXXX
            $unparsedPrinterSettings[$rId] = [];
            $unparsedPrinterSettings[$rId]['filePath'] =
self::dirAdd("$dir/$fileWorksheet",
$printerSettings['Target']);
            $unparsedPrinterSettings[$rId]['relFilePath'] =
(string) $printerSettings['Target'];
            $unparsedPrinterSettings[$rId]['content'] =
$this->securityScanner->scan($this->getFromZipArchive($zip,
$unparsedPrinterSettings[$rId]['filePath']));
        }
        unset($unparsedPrinterSettings);
    }

    /**
     * Convert an 'xsd:boolean' XML value to a PHP boolean value.
     * A valid 'xsd:boolean' XML value can be one of the
following
     * four values: 'true', 'false', '1',
'0'.  It is case sensitive.
     *
     * Note that just doing '(bool) $xsdBoolean' is not safe,
     * since '(bool) "false"' returns true.
     *
     * @see https://www.w3.org/TR/xmlschema11-2/#boolean
     *
     * @param string $xsdBoolean An XML string value of type
'xsd:boolean'
     *
     * @return bool  Boolean value
     */
    private function castXsdBooleanToBool($xsdBoolean)
    {
        if ($xsdBoolean === 'false') {
            return false;
        }

        return (bool) $xsdBoolean;
    }

    /**
     * @param ZipArchive $zip Opened zip archive
     *
     * @return string basename of the used excel workbook
     */
    private function getWorkbookBaseName(ZipArchive $zip)
    {
        $workbookBasename = '';

        // check if it is an OOXML archive
        $rels = simplexml_load_string(
            $this->securityScanner->scan(
                $this->getFromZipArchive($zip, '_rels/.rels')
            ),
            'SimpleXMLElement',
            Settings::getLibXmlLoaderOptions()
        );
        if ($rels !== false) {
            foreach ($rels->Relationship as $rel) {
                switch ($rel['Type']) {
                    case
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/officeDocument':
                        $basename = basename($rel['Target']);
                        if (preg_match('/workbook.*\.xml/',
$basename)) {
                            $workbookBasename = $basename;
                        }

                        break;
                }
            }
        }

        return $workbookBasename;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Reader/Xml.php000064400000104352151165414000021206
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Reader;

use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\Cell\DataType;
use PhpOffice\PhpSpreadsheet\Document\Properties;
use PhpOffice\PhpSpreadsheet\Reader\Security\XmlScanner;
use PhpOffice\PhpSpreadsheet\RichText\RichText;
use PhpOffice\PhpSpreadsheet\Settings;
use PhpOffice\PhpSpreadsheet\Shared\Date;
use PhpOffice\PhpSpreadsheet\Shared\File;
use PhpOffice\PhpSpreadsheet\Shared\StringHelper;
use PhpOffice\PhpSpreadsheet\Spreadsheet;
use PhpOffice\PhpSpreadsheet\Style\Alignment;
use PhpOffice\PhpSpreadsheet\Style\Border;
use PhpOffice\PhpSpreadsheet\Style\Font;
use SimpleXMLElement;

/**
 * Reader for SpreadsheetML, the XML schema for Microsoft Office Excel
2003.
 */
class Xml extends BaseReader
{
    /**
     * Formats.
     *
     * @var array
     */
    protected $styles = [];

    /**
     * Character set used in the file.
     *
     * @var string
     */
    protected $charSet = 'UTF-8';

    /**
     * Create a new Excel2003XML Reader instance.
     */
    public function __construct()
    {
        parent::__construct();
        $this->securityScanner = XmlScanner::getInstance($this);
    }

    /**
     * Can the current IReader read the file?
     *
     * @param string $pFilename
     *
     * @throws Exception
     *
     * @return bool
     */
    public function canRead($pFilename)
    {
        //    Office                   
xmlns:o="urn:schemas-microsoft-com:office:office"
        //    Excel                   
xmlns:x="urn:schemas-microsoft-com:office:excel"
        //    XML Spreadsheet           
xmlns:ss="urn:schemas-microsoft-com:office:spreadsheet"
        //    Spreadsheet component   
xmlns:c="urn:schemas-microsoft-com:office:component:spreadsheet"
        //    XML schema                
xmlns:s="uuid:BDC6E3F0-6DA3-11d1-A2A3-00AA00C14882"
        //    XML data type           
xmlns:dt="uuid:C2F41010-65B3-11d1-A29F-00AA00C14882"
        //    MS-persist recordset   
xmlns:rs="urn:schemas-microsoft-com:rowset"
        //    Rowset                    xmlns:z="#RowsetSchema"
        //

        $signature = [
            '<?xml version="1.0"',
            '<?mso-application
progid="Excel.Sheet"?>',
        ];

        // Open file
        $this->openFile($pFilename);
        $fileHandle = $this->fileHandle;

        // Read sample data (first 2 KB will do)
        $data = fread($fileHandle, 2048);
        fclose($fileHandle);
        $data = str_replace("'", '"', $data);
// fix headers with single quote

        $valid = true;
        foreach ($signature as $match) {
            // every part of the signature must be present
            if (strpos($data, $match) === false) {
                $valid = false;

                break;
            }
        }

        //    Retrieve charset encoding
        if
(preg_match('/<?xml.*encoding=[\'"](.*?)[\'"].*?>/um',
$data, $matches)) {
            $this->charSet = strtoupper($matches[1]);
        }

        return $valid;
    }

    /**
     * Check if the file is a valid SimpleXML.
     *
     * @param string $pFilename
     *
     * @throws Exception
     *
     * @return false|\SimpleXMLElement
     */
    public function trySimpleXMLLoadString($pFilename)
    {
        try {
            $xml = simplexml_load_string(
               
$this->securityScanner->scan(file_get_contents($pFilename)),
                'SimpleXMLElement',
                Settings::getLibXmlLoaderOptions()
            );
        } catch (\Exception $e) {
            throw new Exception('Cannot load invalid XML file: '
. $pFilename, 0, $e);
        }

        return $xml;
    }

    /**
     * Reads names of the worksheets from a file, without parsing the whole
file to a Spreadsheet object.
     *
     * @param string $pFilename
     *
     * @throws Exception
     *
     * @return array
     */
    public function listWorksheetNames($pFilename)
    {
        File::assertFile($pFilename);
        if (!$this->canRead($pFilename)) {
            throw new Exception($pFilename . ' is an Invalid
Spreadsheet file.');
        }

        $worksheetNames = [];

        $xml = $this->trySimpleXMLLoadString($pFilename);

        $namespaces = $xml->getNamespaces(true);

        $xml_ss = $xml->children($namespaces['ss']);
        foreach ($xml_ss->Worksheet as $worksheet) {
            $worksheet_ss =
$worksheet->attributes($namespaces['ss']);
            $worksheetNames[] = self::convertStringEncoding((string)
$worksheet_ss['Name'], $this->charSet);
        }

        return $worksheetNames;
    }

    /**
     * Return worksheet info (Name, Last Column Letter, Last Column Index,
Total Rows, Total Columns).
     *
     * @param string $pFilename
     *
     * @throws Exception
     *
     * @return array
     */
    public function listWorksheetInfo($pFilename)
    {
        File::assertFile($pFilename);

        $worksheetInfo = [];

        $xml = $this->trySimpleXMLLoadString($pFilename);

        $namespaces = $xml->getNamespaces(true);

        $worksheetID = 1;
        $xml_ss = $xml->children($namespaces['ss']);
        foreach ($xml_ss->Worksheet as $worksheet) {
            $worksheet_ss =
$worksheet->attributes($namespaces['ss']);

            $tmpInfo = [];
            $tmpInfo['worksheetName'] = '';
            $tmpInfo['lastColumnLetter'] = 'A';
            $tmpInfo['lastColumnIndex'] = 0;
            $tmpInfo['totalRows'] = 0;
            $tmpInfo['totalColumns'] = 0;

            if (isset($worksheet_ss['Name'])) {
                $tmpInfo['worksheetName'] = (string)
$worksheet_ss['Name'];
            } else {
                $tmpInfo['worksheetName'] =
"Worksheet_{$worksheetID}";
            }

            if (isset($worksheet->Table->Row)) {
                $rowIndex = 0;

                foreach ($worksheet->Table->Row as $rowData) {
                    $columnIndex = 0;
                    $rowHasData = false;

                    foreach ($rowData->Cell as $cell) {
                        if (isset($cell->Data)) {
                            $tmpInfo['lastColumnIndex'] =
max($tmpInfo['lastColumnIndex'], $columnIndex);
                            $rowHasData = true;
                        }

                        ++$columnIndex;
                    }

                    ++$rowIndex;

                    if ($rowHasData) {
                        $tmpInfo['totalRows'] =
max($tmpInfo['totalRows'], $rowIndex);
                    }
                }
            }

            $tmpInfo['lastColumnLetter'] =
Coordinate::stringFromColumnIndex($tmpInfo['lastColumnIndex'] +
1);
            $tmpInfo['totalColumns'] =
$tmpInfo['lastColumnIndex'] + 1;

            $worksheetInfo[] = $tmpInfo;
            ++$worksheetID;
        }

        return $worksheetInfo;
    }

    /**
     * Loads Spreadsheet from file.
     *
     * @param string $pFilename
     *
     * @throws Exception
     *
     * @return Spreadsheet
     */
    public function load($pFilename)
    {
        // Create new Spreadsheet
        $spreadsheet = new Spreadsheet();
        $spreadsheet->removeSheetByIndex(0);

        // Load into this instance
        return $this->loadIntoExisting($pFilename, $spreadsheet);
    }

    private static function identifyFixedStyleValue($styleList,
&$styleAttributeValue)
    {
        $styleAttributeValue = strtolower($styleAttributeValue);
        foreach ($styleList as $style) {
            if ($styleAttributeValue == strtolower($style)) {
                $styleAttributeValue = $style;

                return true;
            }
        }

        return false;
    }

    /**
     * pixel units to excel width units(units of 1/256th of a character
width).
     *
     * @param float $pxs
     *
     * @return float
     */
    protected static function pixel2WidthUnits($pxs)
    {
        $UNIT_OFFSET_MAP = [0, 36, 73, 109, 146, 182, 219];

        $widthUnits = 256 * ($pxs / 7);
        $widthUnits += $UNIT_OFFSET_MAP[($pxs % 7)];

        return $widthUnits;
    }

    /**
     * excel width units(units of 1/256th of a character width) to pixel
units.
     *
     * @param float $widthUnits
     *
     * @return float
     */
    protected static function widthUnits2Pixel($widthUnits)
    {
        $pixels = ($widthUnits / 256) * 7;
        $offsetWidthUnits = $widthUnits % 256;

        return $pixels + round($offsetWidthUnits / (256 / 7));
    }

    protected static function hex2str($hex)
    {
        return chr(hexdec($hex[1]));
    }

    /**
     * Loads from file into Spreadsheet instance.
     *
     * @param string $pFilename
     * @param Spreadsheet $spreadsheet
     *
     * @throws Exception
     *
     * @return Spreadsheet
     */
    public function loadIntoExisting($pFilename, Spreadsheet $spreadsheet)
    {
        File::assertFile($pFilename);
        if (!$this->canRead($pFilename)) {
            throw new Exception($pFilename . ' is an Invalid
Spreadsheet file.');
        }

        $xml = $this->trySimpleXMLLoadString($pFilename);

        $namespaces = $xml->getNamespaces(true);

        $docProps = $spreadsheet->getProperties();
        if (isset($xml->DocumentProperties[0])) {
            foreach ($xml->DocumentProperties[0] as $propertyName =>
$propertyValue) {
                switch ($propertyName) {
                    case 'Title':
                       
$docProps->setTitle(self::convertStringEncoding($propertyValue,
$this->charSet));

                        break;
                    case 'Subject':
                       
$docProps->setSubject(self::convertStringEncoding($propertyValue,
$this->charSet));

                        break;
                    case 'Author':
                       
$docProps->setCreator(self::convertStringEncoding($propertyValue,
$this->charSet));

                        break;
                    case 'Created':
                        $creationDate = strtotime($propertyValue);
                        $docProps->setCreated($creationDate);

                        break;
                    case 'LastAuthor':
                       
$docProps->setLastModifiedBy(self::convertStringEncoding($propertyValue,
$this->charSet));

                        break;
                    case 'LastSaved':
                        $lastSaveDate = strtotime($propertyValue);
                        $docProps->setModified($lastSaveDate);

                        break;
                    case 'Company':
                       
$docProps->setCompany(self::convertStringEncoding($propertyValue,
$this->charSet));

                        break;
                    case 'Category':
                       
$docProps->setCategory(self::convertStringEncoding($propertyValue,
$this->charSet));

                        break;
                    case 'Manager':
                       
$docProps->setManager(self::convertStringEncoding($propertyValue,
$this->charSet));

                        break;
                    case 'Keywords':
                       
$docProps->setKeywords(self::convertStringEncoding($propertyValue,
$this->charSet));

                        break;
                    case 'Description':
                       
$docProps->setDescription(self::convertStringEncoding($propertyValue,
$this->charSet));

                        break;
                }
            }
        }
        if (isset($xml->CustomDocumentProperties)) {
            foreach ($xml->CustomDocumentProperties[0] as $propertyName
=> $propertyValue) {
                $propertyAttributes =
$propertyValue->attributes($namespaces['dt']);
                $propertyName =
preg_replace_callback('/_x([0-9a-z]{4})_/', ['self',
'hex2str'], $propertyName);
                $propertyType = Properties::PROPERTY_TYPE_UNKNOWN;
                switch ((string) $propertyAttributes) {
                    case 'string':
                        $propertyType = Properties::PROPERTY_TYPE_STRING;
                        $propertyValue = trim($propertyValue);

                        break;
                    case 'boolean':
                        $propertyType = Properties::PROPERTY_TYPE_BOOLEAN;
                        $propertyValue = (bool) $propertyValue;

                        break;
                    case 'integer':
                        $propertyType = Properties::PROPERTY_TYPE_INTEGER;
                        $propertyValue = (int) $propertyValue;

                        break;
                    case 'float':
                        $propertyType = Properties::PROPERTY_TYPE_FLOAT;
                        $propertyValue = (float) $propertyValue;

                        break;
                    case 'dateTime.tz':
                        $propertyType = Properties::PROPERTY_TYPE_DATE;
                        $propertyValue = strtotime(trim($propertyValue));

                        break;
                }
                $docProps->setCustomProperty($propertyName,
$propertyValue, $propertyType);
            }
        }

        $this->parseStyles($xml, $namespaces);

        $worksheetID = 0;
        $xml_ss = $xml->children($namespaces['ss']);

        foreach ($xml_ss->Worksheet as $worksheet) {
            $worksheet_ss =
$worksheet->attributes($namespaces['ss']);

            if ((isset($this->loadSheetsOnly)) &&
(isset($worksheet_ss['Name'])) &&
                (!in_array($worksheet_ss['Name'],
$this->loadSheetsOnly))) {
                continue;
            }

            // Create new Worksheet
            $spreadsheet->createSheet();
            $spreadsheet->setActiveSheetIndex($worksheetID);
            if (isset($worksheet_ss['Name'])) {
                $worksheetName = self::convertStringEncoding((string)
$worksheet_ss['Name'], $this->charSet);
                //    Use false for $updateFormulaCellReferences to prevent
adjustment of worksheet references in
                //        formula cells... during the load, all formulae
should be correct, and we're simply bringing
                //        the worksheet name in line with the formula, not
the reverse
               
$spreadsheet->getActiveSheet()->setTitle($worksheetName, false,
false);
            }

            $columnID = 'A';
            if (isset($worksheet->Table->Column)) {
                foreach ($worksheet->Table->Column as $columnData) {
                    $columnData_ss =
$columnData->attributes($namespaces['ss']);
                    if (isset($columnData_ss['Index'])) {
                        $columnID = Coordinate::stringFromColumnIndex((int)
$columnData_ss['Index']);
                    }
                    if (isset($columnData_ss['Width'])) {
                        $columnWidth = $columnData_ss['Width'];
                       
$spreadsheet->getActiveSheet()->getColumnDimension($columnID)->setWidth($columnWidth
/ 5.4);
                    }
                    ++$columnID;
                }
            }

            $rowID = 1;
            if (isset($worksheet->Table->Row)) {
                $additionalMergedCells = 0;
                foreach ($worksheet->Table->Row as $rowData) {
                    $rowHasData = false;
                    $row_ss =
$rowData->attributes($namespaces['ss']);
                    if (isset($row_ss['Index'])) {
                        $rowID = (int) $row_ss['Index'];
                    }

                    $columnID = 'A';
                    foreach ($rowData->Cell as $cell) {
                        $cell_ss =
$cell->attributes($namespaces['ss']);
                        if (isset($cell_ss['Index'])) {
                            $columnID =
Coordinate::stringFromColumnIndex((int) $cell_ss['Index']);
                        }
                        $cellRange = $columnID . $rowID;

                        if ($this->getReadFilter() !== null) {
                            if
(!$this->getReadFilter()->readCell($columnID, $rowID,
$worksheetName)) {
                                ++$columnID;

                                continue;
                            }
                        }

                        if (isset($cell_ss['HRef'])) {
                           
$spreadsheet->getActiveSheet()->getCell($cellRange)->getHyperlink()->setUrl($cell_ss['HRef']);
                        }

                        if ((isset($cell_ss['MergeAcross'])) ||
(isset($cell_ss['MergeDown']))) {
                            $columnTo = $columnID;
                            if (isset($cell_ss['MergeAcross'])) {
                                $additionalMergedCells += (int)
$cell_ss['MergeAcross'];
                                $columnTo =
Coordinate::stringFromColumnIndex(Coordinate::columnIndexFromString($columnID)
+ $cell_ss['MergeAcross']);
                            }
                            $rowTo = $rowID;
                            if (isset($cell_ss['MergeDown'])) {
                                $rowTo = $rowTo +
$cell_ss['MergeDown'];
                            }
                            $cellRange .= ':' . $columnTo .
$rowTo;
                           
$spreadsheet->getActiveSheet()->mergeCells($cellRange);
                        }

                        $cellIsSet = $hasCalculatedValue = false;
                        $cellDataFormula = '';
                        if (isset($cell_ss['Formula'])) {
                            $cellDataFormula =
$cell_ss['Formula'];
                            $hasCalculatedValue = true;
                        }
                        if (isset($cell->Data)) {
                            $cellValue = $cellData = $cell->Data;
                            $type = DataType::TYPE_NULL;
                            $cellData_ss =
$cellData->attributes($namespaces['ss']);
                            if (isset($cellData_ss['Type'])) {
                                $cellDataType =
$cellData_ss['Type'];
                                switch ($cellDataType) {
                                    /*
                                    const TYPE_STRING        =
's';
                                    const TYPE_FORMULA        =
'f';
                                    const TYPE_NUMERIC        =
'n';
                                    const TYPE_BOOL            =
'b';
                                    const TYPE_NULL            =
'null';
                                    const TYPE_INLINE        =
'inlineStr';
                                    const TYPE_ERROR        =
'e';
                                    */
                                    case 'String':
                                        $cellValue =
self::convertStringEncoding($cellValue, $this->charSet);
                                        $type = DataType::TYPE_STRING;

                                        break;
                                    case 'Number':
                                        $type = DataType::TYPE_NUMERIC;
                                        $cellValue = (float) $cellValue;
                                        if (floor($cellValue) ==
$cellValue) {
                                            $cellValue = (int) $cellValue;
                                        }

                                        break;
                                    case 'Boolean':
                                        $type = DataType::TYPE_BOOL;
                                        $cellValue = ($cellValue != 0);

                                        break;
                                    case 'DateTime':
                                        $type = DataType::TYPE_NUMERIC;
                                        $cellValue =
Date::PHPToExcel(strtotime($cellValue));

                                        break;
                                    case 'Error':
                                        $type = DataType::TYPE_ERROR;

                                        break;
                                }
                            }

                            if ($hasCalculatedValue) {
                                $type = DataType::TYPE_FORMULA;
                                $columnNumber =
Coordinate::columnIndexFromString($columnID);
                                if (substr($cellDataFormula, 0, 3) ==
'of:') {
                                    $cellDataFormula =
substr($cellDataFormula, 3);
                                    $temp = explode('"',
$cellDataFormula);
                                    $key = false;
                                    foreach ($temp as &$value) {
                                        //    Only replace in alternate
array entries (i.e. non-quoted blocks)
                                        if ($key = !$key) {
                                            $value =
str_replace(['[.', '.', ']'], '',
$value);
                                        }
                                    }
                                } else {
                                    //    Convert R1C1 style references to
A1 style references (but only when not quoted)
                                    $temp = explode('"',
$cellDataFormula);
                                    $key = false;
                                    foreach ($temp as &$value) {
                                        //    Only replace in alternate
array entries (i.e. non-quoted blocks)
                                        if ($key = !$key) {
                                           
preg_match_all('/(R(\[?-?\d*\]?))(C(\[?-?\d*\]?))/', $value,
$cellReferences, PREG_SET_ORDER + PREG_OFFSET_CAPTURE);
                                            //    Reverse the matches
array, otherwise all our offsets will become incorrect if we modify our way
                                            //        through the formula
from left to right. Reversing means that we work right to left.through
                                            //        the formula
                                            $cellReferences =
array_reverse($cellReferences);
                                            //    Loop through each R1C1
style reference in turn, converting it to its A1 style equivalent,
                                            //        then modify the
formula to use that new reference
                                            foreach ($cellReferences as
$cellReference) {
                                                $rowReference =
$cellReference[2][0];
                                                //    Empty R reference is
the current row
                                                if ($rowReference ==
'') {
                                                    $rowReference = $rowID;
                                                }
                                                //    Bracketed R
references are relative to the current row
                                                if ($rowReference[0] ==
'[') {
                                                    $rowReference = $rowID
+ trim($rowReference, '[]');
                                                }
                                                $columnReference =
$cellReference[4][0];
                                                //    Empty C reference is
the current column
                                                if ($columnReference ==
'') {
                                                    $columnReference =
$columnNumber;
                                                }
                                                //    Bracketed C
references are relative to the current column
                                                if ($columnReference[0] ==
'[') {
                                                    $columnReference =
$columnNumber + trim($columnReference, '[]');
                                                }
                                                $A1CellReference =
Coordinate::stringFromColumnIndex($columnReference) . $rowReference;
                                                $value =
substr_replace($value, $A1CellReference, $cellReference[0][1],
strlen($cellReference[0][0]));
                                            }
                                        }
                                    }
                                }
                                unset($value);
                                //    Then rebuild the formula string
                                $cellDataFormula =
implode('"', $temp);
                            }

                           
$spreadsheet->getActiveSheet()->getCell($columnID .
$rowID)->setValueExplicit((($hasCalculatedValue) ? $cellDataFormula :
$cellValue), $type);
                            if ($hasCalculatedValue) {
                               
$spreadsheet->getActiveSheet()->getCell($columnID .
$rowID)->setCalculatedValue($cellValue);
                            }
                            $cellIsSet = $rowHasData = true;
                        }

                        if (isset($cell->Comment)) {
                            $commentAttributes =
$cell->Comment->attributes($namespaces['ss']);
                            $author = 'unknown';
                            if (isset($commentAttributes->Author)) {
                                $author = (string)
$commentAttributes->Author;
                            }
                            $node = $cell->Comment->Data->asXML();
                            $annotation = strip_tags($node);
                           
$spreadsheet->getActiveSheet()->getComment($columnID .
$rowID)->setAuthor(self::convertStringEncoding($author,
$this->charSet))->setText($this->parseRichText($annotation));
                        }

                        if (($cellIsSet) &&
(isset($cell_ss['StyleID']))) {
                            $style = (string)
$cell_ss['StyleID'];
                            if ((isset($this->styles[$style]))
&& (!empty($this->styles[$style]))) {
                                if
(!$spreadsheet->getActiveSheet()->cellExists($columnID . $rowID)) {
                                   
$spreadsheet->getActiveSheet()->getCell($columnID .
$rowID)->setValue(null);
                                }
                               
$spreadsheet->getActiveSheet()->getStyle($cellRange)->applyFromArray($this->styles[$style]);
                            }
                        }
                        ++$columnID;
                        while ($additionalMergedCells > 0) {
                            ++$columnID;
                            --$additionalMergedCells;
                        }
                    }

                    if ($rowHasData) {
                        if (isset($row_ss['Height'])) {
                            $rowHeight = $row_ss['Height'];
                           
$spreadsheet->getActiveSheet()->getRowDimension($rowID)->setRowHeight($rowHeight);
                        }
                    }

                    ++$rowID;
                }
            }
            ++$worksheetID;
        }

        // Return
        return $spreadsheet;
    }

    protected static function convertStringEncoding($string, $charset)
    {
        if ($charset != 'UTF-8') {
            return StringHelper::convertEncoding($string,
'UTF-8', $charset);
        }

        return $string;
    }

    protected function parseRichText($is)
    {
        $value = new RichText();

        $value->createText(self::convertStringEncoding($is,
$this->charSet));

        return $value;
    }

    /**
     * @param SimpleXMLElement $xml
     * @param array $namespaces
     */
    private function parseStyles(SimpleXMLElement $xml, array $namespaces)
    {
        if (!isset($xml->Styles)) {
            return;
        }

        foreach ($xml->Styles[0] as $style) {
            $style_ss = $style->attributes($namespaces['ss']);
            $styleID = (string) $style_ss['ID'];
            $this->styles[$styleID] =
(isset($this->styles['Default'])) ?
$this->styles['Default'] : [];
            foreach ($style as $styleType => $styleData) {
                $styleAttributes =
$styleData->attributes($namespaces['ss']);
                switch ($styleType) {
                    case 'Alignment':
                        $this->parseStyleAlignment($styleID,
$styleAttributes);

                        break;
                    case 'Borders':
                        $this->parseStyleBorders($styleID, $styleData,
$namespaces);

                        break;
                    case 'Font':
                        $this->parseStyleFont($styleID,
$styleAttributes);

                        break;
                    case 'Interior':
                        $this->parseStyleInterior($styleID,
$styleAttributes);

                        break;
                    case 'NumberFormat':
                        $this->parseStyleNumberFormat($styleID,
$styleAttributes);

                        break;
                }
            }
        }
    }

    /**
     * @param string $styleID
     * @param SimpleXMLElement $styleAttributes
     */
    private function parseStyleAlignment($styleID, SimpleXMLElement
$styleAttributes)
    {
        $verticalAlignmentStyles = [
            Alignment::VERTICAL_BOTTOM,
            Alignment::VERTICAL_TOP,
            Alignment::VERTICAL_CENTER,
            Alignment::VERTICAL_JUSTIFY,
        ];
        $horizontalAlignmentStyles = [
            Alignment::HORIZONTAL_GENERAL,
            Alignment::HORIZONTAL_LEFT,
            Alignment::HORIZONTAL_RIGHT,
            Alignment::HORIZONTAL_CENTER,
            Alignment::HORIZONTAL_CENTER_CONTINUOUS,
            Alignment::HORIZONTAL_JUSTIFY,
        ];

        foreach ($styleAttributes as $styleAttributeKey =>
$styleAttributeValue) {
            $styleAttributeValue = (string) $styleAttributeValue;
            switch ($styleAttributeKey) {
                case 'Vertical':
                    if
(self::identifyFixedStyleValue($verticalAlignmentStyles,
$styleAttributeValue)) {
                       
$this->styles[$styleID]['alignment']['vertical'] =
$styleAttributeValue;
                    }

                    break;
                case 'Horizontal':
                    if
(self::identifyFixedStyleValue($horizontalAlignmentStyles,
$styleAttributeValue)) {
                       
$this->styles[$styleID]['alignment']['horizontal'] =
$styleAttributeValue;
                    }

                    break;
                case 'WrapText':
                   
$this->styles[$styleID]['alignment']['wrapText'] =
true;

                    break;
            }
        }
    }

    /**
     * @param $styleID
     * @param SimpleXMLElement $styleData
     * @param array $namespaces
     */
    private function parseStyleBorders($styleID, SimpleXMLElement
$styleData, array $namespaces)
    {
        foreach ($styleData->Border as $borderStyle) {
            $borderAttributes =
$borderStyle->attributes($namespaces['ss']);
            $thisBorder = [];
            foreach ($borderAttributes as $borderStyleKey =>
$borderStyleValue) {
                switch ($borderStyleKey) {
                    case 'LineStyle':
                        $thisBorder['borderStyle'] =
Border::BORDER_MEDIUM;

                        break;
                    case 'Weight':
                        break;
                    case 'Position':
                        $borderPosition = strtolower($borderStyleValue);

                        break;
                    case 'Color':
                        $borderColour = substr($borderStyleValue, 1);
                        $thisBorder['color']['rgb'] =
$borderColour;

                        break;
                }
            }
            if (!empty($thisBorder)) {
                if (($borderPosition == 'left') ||
($borderPosition == 'right') || ($borderPosition ==
'top') || ($borderPosition == 'bottom')) {
                   
$this->styles[$styleID]['borders'][$borderPosition] =
$thisBorder;
                }
            }
        }
    }

    /**
     * @param $styleID
     * @param SimpleXMLElement $styleAttributes
     */
    private function parseStyleFont($styleID, SimpleXMLElement
$styleAttributes)
    {
        $underlineStyles = [
            Font::UNDERLINE_NONE,
            Font::UNDERLINE_DOUBLE,
            Font::UNDERLINE_DOUBLEACCOUNTING,
            Font::UNDERLINE_SINGLE,
            Font::UNDERLINE_SINGLEACCOUNTING,
        ];

        foreach ($styleAttributes as $styleAttributeKey =>
$styleAttributeValue) {
            $styleAttributeValue = (string) $styleAttributeValue;
            switch ($styleAttributeKey) {
                case 'FontName':
                   
$this->styles[$styleID]['font']['name'] =
$styleAttributeValue;

                    break;
                case 'Size':
                   
$this->styles[$styleID]['font']['size'] =
$styleAttributeValue;

                    break;
                case 'Color':
                   
$this->styles[$styleID]['font']['color']['rgb']
= substr($styleAttributeValue, 1);

                    break;
                case 'Bold':
                   
$this->styles[$styleID]['font']['bold'] = true;

                    break;
                case 'Italic':
                   
$this->styles[$styleID]['font']['italic'] = true;

                    break;
                case 'Underline':
                    if (self::identifyFixedStyleValue($underlineStyles,
$styleAttributeValue)) {
                       
$this->styles[$styleID]['font']['underline'] =
$styleAttributeValue;
                    }

                    break;
            }
        }
    }

    /**
     * @param $styleID
     * @param SimpleXMLElement $styleAttributes
     */
    private function parseStyleInterior($styleID, SimpleXMLElement
$styleAttributes)
    {
        foreach ($styleAttributes as $styleAttributeKey =>
$styleAttributeValue) {
            switch ($styleAttributeKey) {
                case 'Color':
                   
$this->styles[$styleID]['fill']['color']['rgb']
= substr($styleAttributeValue, 1);

                    break;
                case 'Pattern':
                   
$this->styles[$styleID]['fill']['fillType'] =
strtolower($styleAttributeValue);

                    break;
            }
        }
    }

    /**
     * @param $styleID
     * @param SimpleXMLElement $styleAttributes
     */
    private function parseStyleNumberFormat($styleID, SimpleXMLElement
$styleAttributes)
    {
        $fromFormats = ['\-', '\ '];
        $toFormats = ['-', ' '];

        foreach ($styleAttributes as $styleAttributeKey =>
$styleAttributeValue) {
            $styleAttributeValue = str_replace($fromFormats, $toFormats,
$styleAttributeValue);
            switch ($styleAttributeValue) {
                case 'Short Date':
                    $styleAttributeValue = 'dd/mm/yyyy';

                    break;
            }

            if ($styleAttributeValue > '') {
               
$this->styles[$styleID]['numberFormat']['formatCode']
= $styleAttributeValue;
            }
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/ReferenceHelper.php000064400000125721151165414000022305
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet;

use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\Cell\DataType;
use PhpOffice\PhpSpreadsheet\Worksheet\Worksheet;

class ReferenceHelper
{
    /**    Constants                */
    /**    Regular Expressions      */
    const REFHELPER_REGEXP_CELLREF =
'((\w*|\'[^!]*\')!)?(?<![:a-z\$])(\$?[a-z]{1,3}\$?\d+)(?=[^:!\d\'])';
    const REFHELPER_REGEXP_CELLRANGE =
'((\w*|\'[^!]*\')!)?(\$?[a-z]{1,3}\$?\d+):(\$?[a-z]{1,3}\$?\d+)';
    const REFHELPER_REGEXP_ROWRANGE =
'((\w*|\'[^!]*\')!)?(\$?\d+):(\$?\d+)';
    const REFHELPER_REGEXP_COLRANGE =
'((\w*|\'[^!]*\')!)?(\$?[a-z]{1,3}):(\$?[a-z]{1,3})';

    /**
     * Instance of this class.
     *
     * @var ReferenceHelper
     */
    private static $instance;

    /**
     * Get an instance of this class.
     *
     * @return ReferenceHelper
     */
    public static function getInstance()
    {
        if (!isset(self::$instance) || (self::$instance === null)) {
            self::$instance = new self();
        }

        return self::$instance;
    }

    /**
     * Create a new ReferenceHelper.
     */
    protected function __construct()
    {
    }

    /**
     * Compare two column addresses
     * Intended for use as a Callback function for sorting column addresses
by column.
     *
     * @param string $a First column to test (e.g. 'AA')
     * @param string $b Second column to test (e.g. 'Z')
     *
     * @return int
     */
    public static function columnSort($a, $b)
    {
        return strcasecmp(strlen($a) . $a, strlen($b) . $b);
    }

    /**
     * Compare two column addresses
     * Intended for use as a Callback function for reverse sorting column
addresses by column.
     *
     * @param string $a First column to test (e.g. 'AA')
     * @param string $b Second column to test (e.g. 'Z')
     *
     * @return int
     */
    public static function columnReverseSort($a, $b)
    {
        return 1 - strcasecmp(strlen($a) . $a, strlen($b) . $b);
    }

    /**
     * Compare two cell addresses
     * Intended for use as a Callback function for sorting cell addresses
by column and row.
     *
     * @param string $a First cell to test (e.g. 'AA1')
     * @param string $b Second cell to test (e.g. 'Z1')
     *
     * @return int
     */
    public static function cellSort($a, $b)
    {
        [$ac, $ar] = sscanf($a, '%[A-Z]%d');
        [$bc, $br] = sscanf($b, '%[A-Z]%d');

        if ($ar === $br) {
            return strcasecmp(strlen($ac) . $ac, strlen($bc) . $bc);
        }

        return ($ar < $br) ? -1 : 1;
    }

    /**
     * Compare two cell addresses
     * Intended for use as a Callback function for sorting cell addresses
by column and row.
     *
     * @param string $a First cell to test (e.g. 'AA1')
     * @param string $b Second cell to test (e.g. 'Z1')
     *
     * @return int
     */
    public static function cellReverseSort($a, $b)
    {
        [$ac, $ar] = sscanf($a, '%[A-Z]%d');
        [$bc, $br] = sscanf($b, '%[A-Z]%d');

        if ($ar === $br) {
            return 1 - strcasecmp(strlen($ac) . $ac, strlen($bc) . $bc);
        }

        return ($ar < $br) ? 1 : -1;
    }

    /**
     * Test whether a cell address falls within a defined range of cells.
     *
     * @param string $cellAddress Address of the cell we're testing
     * @param int $beforeRow Number of the row we're
inserting/deleting before
     * @param int $pNumRows Number of rows to insert/delete (negative
values indicate deletion)
     * @param int $beforeColumnIndex Index number of the column we're
inserting/deleting before
     * @param int $pNumCols Number of columns to insert/delete (negative
values indicate deletion)
     *
     * @return bool
     */
    private static function cellAddressInDeleteRange($cellAddress,
$beforeRow, $pNumRows, $beforeColumnIndex, $pNumCols)
    {
        [$cellColumn, $cellRow] =
Coordinate::coordinateFromString($cellAddress);
        $cellColumnIndex = Coordinate::columnIndexFromString($cellColumn);
        //    Is cell within the range of rows/columns if we're
deleting
        if ($pNumRows < 0 &&
            ($cellRow >= ($beforeRow + $pNumRows)) &&
            ($cellRow < $beforeRow)) {
            return true;
        } elseif ($pNumCols < 0 &&
            ($cellColumnIndex >= ($beforeColumnIndex + $pNumCols))
&&
            ($cellColumnIndex < $beforeColumnIndex)) {
            return true;
        }

        return false;
    }

    /**
     * Update page breaks when inserting/deleting rows/columns.
     *
     * @param Worksheet $pSheet The worksheet that we're editing
     * @param string $pBefore Insert/Delete before this cell address (e.g.
'A1')
     * @param int $beforeColumnIndex Index number of the column we're
inserting/deleting before
     * @param int $pNumCols Number of columns to insert/delete (negative
values indicate deletion)
     * @param int $beforeRow Number of the row we're
inserting/deleting before
     * @param int $pNumRows Number of rows to insert/delete (negative
values indicate deletion)
     */
    protected function adjustPageBreaks(Worksheet $pSheet, $pBefore,
$beforeColumnIndex, $pNumCols, $beforeRow, $pNumRows)
    {
        $aBreaks = $pSheet->getBreaks();
        ($pNumCols > 0 || $pNumRows > 0) ?
            uksort($aBreaks, ['self',
'cellReverseSort']) : uksort($aBreaks, ['self',
'cellSort']);

        foreach ($aBreaks as $key => $value) {
            if (self::cellAddressInDeleteRange($key, $beforeRow, $pNumRows,
$beforeColumnIndex, $pNumCols)) {
                //    If we're deleting, then clear any defined breaks
that are within the range
                //        of rows/columns that we're deleting
                $pSheet->setBreak($key, Worksheet::BREAK_NONE);
            } else {
                //    Otherwise update any affected breaks by inserting a
new break at the appropriate point
                //        and removing the old affected break
                $newReference = $this->updateCellReference($key,
$pBefore, $pNumCols, $pNumRows);
                if ($key != $newReference) {
                    $pSheet->setBreak($newReference, $value)
                        ->setBreak($key, Worksheet::BREAK_NONE);
                }
            }
        }
    }

    /**
     * Update cell comments when inserting/deleting rows/columns.
     *
     * @param Worksheet $pSheet The worksheet that we're editing
     * @param string $pBefore Insert/Delete before this cell address (e.g.
'A1')
     * @param int $beforeColumnIndex Index number of the column we're
inserting/deleting before
     * @param int $pNumCols Number of columns to insert/delete (negative
values indicate deletion)
     * @param int $beforeRow Number of the row we're
inserting/deleting before
     * @param int $pNumRows Number of rows to insert/delete (negative
values indicate deletion)
     */
    protected function adjustComments($pSheet, $pBefore,
$beforeColumnIndex, $pNumCols, $beforeRow, $pNumRows)
    {
        $aComments = $pSheet->getComments();
        $aNewComments = []; // the new array of all comments

        foreach ($aComments as $key => &$value) {
            // Any comments inside a deleted range will be ignored
            if (!self::cellAddressInDeleteRange($key, $beforeRow,
$pNumRows, $beforeColumnIndex, $pNumCols)) {
                // Otherwise build a new array of comments indexed by the
adjusted cell reference
                $newReference = $this->updateCellReference($key,
$pBefore, $pNumCols, $pNumRows);
                $aNewComments[$newReference] = $value;
            }
        }
        //    Replace the comments array with the new set of comments
        $pSheet->setComments($aNewComments);
    }

    /**
     * Update hyperlinks when inserting/deleting rows/columns.
     *
     * @param Worksheet $pSheet The worksheet that we're editing
     * @param string $pBefore Insert/Delete before this cell address (e.g.
'A1')
     * @param int $beforeColumnIndex Index number of the column we're
inserting/deleting before
     * @param int $pNumCols Number of columns to insert/delete (negative
values indicate deletion)
     * @param int $beforeRow Number of the row we're
inserting/deleting before
     * @param int $pNumRows Number of rows to insert/delete (negative
values indicate deletion)
     */
    protected function adjustHyperlinks($pSheet, $pBefore,
$beforeColumnIndex, $pNumCols, $beforeRow, $pNumRows)
    {
        $aHyperlinkCollection = $pSheet->getHyperlinkCollection();
        ($pNumCols > 0 || $pNumRows > 0) ?
            uksort($aHyperlinkCollection, ['self',
'cellReverseSort']) : uksort($aHyperlinkCollection,
['self', 'cellSort']);

        foreach ($aHyperlinkCollection as $key => $value) {
            $newReference = $this->updateCellReference($key, $pBefore,
$pNumCols, $pNumRows);
            if ($key != $newReference) {
                $pSheet->setHyperlink($newReference, $value);
                $pSheet->setHyperlink($key, null);
            }
        }
    }

    /**
     * Update data validations when inserting/deleting rows/columns.
     *
     * @param Worksheet $pSheet The worksheet that we're editing
     * @param string $pBefore Insert/Delete before this cell address (e.g.
'A1')
     * @param int $beforeColumnIndex Index number of the column we're
inserting/deleting before
     * @param int $pNumCols Number of columns to insert/delete (negative
values indicate deletion)
     * @param int $beforeRow Number of the row we're
inserting/deleting before
     * @param int $pNumRows Number of rows to insert/delete (negative
values indicate deletion)
     */
    protected function adjustDataValidations($pSheet, $pBefore,
$beforeColumnIndex, $pNumCols, $beforeRow, $pNumRows)
    {
        $aDataValidationCollection =
$pSheet->getDataValidationCollection();
        ($pNumCols > 0 || $pNumRows > 0) ?
            uksort($aDataValidationCollection, ['self',
'cellReverseSort']) : uksort($aDataValidationCollection,
['self', 'cellSort']);

        foreach ($aDataValidationCollection as $key => $value) {
            $newReference = $this->updateCellReference($key, $pBefore,
$pNumCols, $pNumRows);
            if ($key != $newReference) {
                $pSheet->setDataValidation($newReference, $value);
                $pSheet->setDataValidation($key, null);
            }
        }
    }

    /**
     * Update merged cells when inserting/deleting rows/columns.
     *
     * @param Worksheet $pSheet The worksheet that we're editing
     * @param string $pBefore Insert/Delete before this cell address (e.g.
'A1')
     * @param int $beforeColumnIndex Index number of the column we're
inserting/deleting before
     * @param int $pNumCols Number of columns to insert/delete (negative
values indicate deletion)
     * @param int $beforeRow Number of the row we're
inserting/deleting before
     * @param int $pNumRows Number of rows to insert/delete (negative
values indicate deletion)
     */
    protected function adjustMergeCells($pSheet, $pBefore,
$beforeColumnIndex, $pNumCols, $beforeRow, $pNumRows)
    {
        $aMergeCells = $pSheet->getMergeCells();
        $aNewMergeCells = []; // the new array of all merge cells
        foreach ($aMergeCells as $key => &$value) {
            $newReference = $this->updateCellReference($key, $pBefore,
$pNumCols, $pNumRows);
            $aNewMergeCells[$newReference] = $newReference;
        }
        $pSheet->setMergeCells($aNewMergeCells); // replace the merge
cells array
    }

    /**
     * Update protected cells when inserting/deleting rows/columns.
     *
     * @param Worksheet $pSheet The worksheet that we're editing
     * @param string $pBefore Insert/Delete before this cell address (e.g.
'A1')
     * @param int $beforeColumnIndex Index number of the column we're
inserting/deleting before
     * @param int $pNumCols Number of columns to insert/delete (negative
values indicate deletion)
     * @param int $beforeRow Number of the row we're
inserting/deleting before
     * @param int $pNumRows Number of rows to insert/delete (negative
values indicate deletion)
     */
    protected function adjustProtectedCells($pSheet, $pBefore,
$beforeColumnIndex, $pNumCols, $beforeRow, $pNumRows)
    {
        $aProtectedCells = $pSheet->getProtectedCells();
        ($pNumCols > 0 || $pNumRows > 0) ?
            uksort($aProtectedCells, ['self',
'cellReverseSort']) : uksort($aProtectedCells, ['self',
'cellSort']);
        foreach ($aProtectedCells as $key => $value) {
            $newReference = $this->updateCellReference($key, $pBefore,
$pNumCols, $pNumRows);
            if ($key != $newReference) {
                $pSheet->protectCells($newReference, $value, true);
                $pSheet->unprotectCells($key);
            }
        }
    }

    /**
     * Update column dimensions when inserting/deleting rows/columns.
     *
     * @param Worksheet $pSheet The worksheet that we're editing
     * @param string $pBefore Insert/Delete before this cell address (e.g.
'A1')
     * @param int $beforeColumnIndex Index number of the column we're
inserting/deleting before
     * @param int $pNumCols Number of columns to insert/delete (negative
values indicate deletion)
     * @param int $beforeRow Number of the row we're
inserting/deleting before
     * @param int $pNumRows Number of rows to insert/delete (negative
values indicate deletion)
     */
    protected function adjustColumnDimensions($pSheet, $pBefore,
$beforeColumnIndex, $pNumCols, $beforeRow, $pNumRows)
    {
        $aColumnDimensions =
array_reverse($pSheet->getColumnDimensions(), true);
        if (!empty($aColumnDimensions)) {
            foreach ($aColumnDimensions as $objColumnDimension) {
                $newReference =
$this->updateCellReference($objColumnDimension->getColumnIndex() .
'1', $pBefore, $pNumCols, $pNumRows);
                [$newReference] =
Coordinate::coordinateFromString($newReference);
                if ($objColumnDimension->getColumnIndex() !=
$newReference) {
                    $objColumnDimension->setColumnIndex($newReference);
                }
            }
            $pSheet->refreshColumnDimensions();
        }
    }

    /**
     * Update row dimensions when inserting/deleting rows/columns.
     *
     * @param Worksheet $pSheet The worksheet that we're editing
     * @param string $pBefore Insert/Delete before this cell address (e.g.
'A1')
     * @param int $beforeColumnIndex Index number of the column we're
inserting/deleting before
     * @param int $pNumCols Number of columns to insert/delete (negative
values indicate deletion)
     * @param int $beforeRow Number of the row we're
inserting/deleting before
     * @param int $pNumRows Number of rows to insert/delete (negative
values indicate deletion)
     */
    protected function adjustRowDimensions($pSheet, $pBefore,
$beforeColumnIndex, $pNumCols, $beforeRow, $pNumRows)
    {
        $aRowDimensions = array_reverse($pSheet->getRowDimensions(),
true);
        if (!empty($aRowDimensions)) {
            foreach ($aRowDimensions as $objRowDimension) {
                $newReference = $this->updateCellReference('A'
. $objRowDimension->getRowIndex(), $pBefore, $pNumCols, $pNumRows);
                [, $newReference] =
Coordinate::coordinateFromString($newReference);
                if ($objRowDimension->getRowIndex() != $newReference) {
                    $objRowDimension->setRowIndex($newReference);
                }
            }
            $pSheet->refreshRowDimensions();

            $copyDimension = $pSheet->getRowDimension($beforeRow - 1);
            for ($i = $beforeRow; $i <= $beforeRow - 1 + $pNumRows;
++$i) {
                $newDimension = $pSheet->getRowDimension($i);
               
$newDimension->setRowHeight($copyDimension->getRowHeight());
               
$newDimension->setVisible($copyDimension->getVisible());
               
$newDimension->setOutlineLevel($copyDimension->getOutlineLevel());
               
$newDimension->setCollapsed($copyDimension->getCollapsed());
            }
        }
    }

    /**
     * Insert a new column or row, updating all possible related data.
     *
     * @param string $pBefore Insert before this cell address (e.g.
'A1')
     * @param int $pNumCols Number of columns to insert/delete (negative
values indicate deletion)
     * @param int $pNumRows Number of rows to insert/delete (negative
values indicate deletion)
     * @param Worksheet $pSheet The worksheet that we're editing
     *
     * @throws Exception
     */
    public function insertNewBefore($pBefore, $pNumCols, $pNumRows,
Worksheet $pSheet)
    {
        $remove = ($pNumCols < 0 || $pNumRows < 0);
        $allCoordinates = $pSheet->getCoordinates();

        // Get coordinate of $pBefore
        [$beforeColumn, $beforeRow] =
Coordinate::coordinateFromString($pBefore);
        $beforeColumnIndex =
Coordinate::columnIndexFromString($beforeColumn);

        // Clear cells if we are removing columns or rows
        $highestColumn = $pSheet->getHighestColumn();
        $highestRow = $pSheet->getHighestRow();

        // 1. Clear column strips if we are removing columns
        if ($pNumCols < 0 && $beforeColumnIndex - 2 + $pNumCols
> 0) {
            for ($i = 1; $i <= $highestRow - 1; ++$i) {
                for ($j = $beforeColumnIndex - 1 + $pNumCols; $j <=
$beforeColumnIndex - 2; ++$j) {
                    $coordinate = Coordinate::stringFromColumnIndex($j + 1)
. $i;
                    $pSheet->removeConditionalStyles($coordinate);
                    if ($pSheet->cellExists($coordinate)) {
                       
$pSheet->getCell($coordinate)->setValueExplicit('',
DataType::TYPE_NULL);
                        $pSheet->getCell($coordinate)->setXfIndex(0);
                    }
                }
            }
        }

        // 2. Clear row strips if we are removing rows
        if ($pNumRows < 0 && $beforeRow - 1 + $pNumRows > 0)
{
            for ($i = $beforeColumnIndex - 1; $i <=
Coordinate::columnIndexFromString($highestColumn) - 1; ++$i) {
                for ($j = $beforeRow + $pNumRows; $j <= $beforeRow - 1;
++$j) {
                    $coordinate = Coordinate::stringFromColumnIndex($i + 1)
. $j;
                    $pSheet->removeConditionalStyles($coordinate);
                    if ($pSheet->cellExists($coordinate)) {
                       
$pSheet->getCell($coordinate)->setValueExplicit('',
DataType::TYPE_NULL);
                        $pSheet->getCell($coordinate)->setXfIndex(0);
                    }
                }
            }
        }

        // Loop through cells, bottom-up, and change cell coordinate
        if ($remove) {
            // It's faster to reverse and pop than to use unshift,
especially with large cell collections
            $allCoordinates = array_reverse($allCoordinates);
        }
        while ($coordinate = array_pop($allCoordinates)) {
            $cell = $pSheet->getCell($coordinate);
            $cellIndex =
Coordinate::columnIndexFromString($cell->getColumn());

            if ($cellIndex - 1 + $pNumCols < 0) {
                continue;
            }

            // New coordinate
            $newCoordinate = Coordinate::stringFromColumnIndex($cellIndex +
$pNumCols) . ($cell->getRow() + $pNumRows);

            // Should the cell be updated? Move value and cellXf index from
one cell to another.
            if (($cellIndex >= $beforeColumnIndex) &&
($cell->getRow() >= $beforeRow)) {
                // Update cell styles
               
$pSheet->getCell($newCoordinate)->setXfIndex($cell->getXfIndex());

                // Insert this cell at its new location
                if ($cell->getDataType() == DataType::TYPE_FORMULA) {
                    // Formula should be adjusted
                    $pSheet->getCell($newCoordinate)
                       
->setValue($this->updateFormulaReferences($cell->getValue(),
$pBefore, $pNumCols, $pNumRows, $pSheet->getTitle()));
                } else {
                    // Formula should not be adjusted
                   
$pSheet->getCell($newCoordinate)->setValue($cell->getValue());
                }

                // Clear the original cell
                $pSheet->getCellCollection()->delete($coordinate);
            } else {
                /*    We don't need to update styles for rows/columns
before our insertion position,
                        but we do still need to adjust any formulae    in
those cells                    */
                if ($cell->getDataType() == DataType::TYPE_FORMULA) {
                    // Formula should be adjusted
                   
$cell->setValue($this->updateFormulaReferences($cell->getValue(),
$pBefore, $pNumCols, $pNumRows, $pSheet->getTitle()));
                }
            }
        }

        // Duplicate styles for the newly inserted cells
        $highestColumn = $pSheet->getHighestColumn();
        $highestRow = $pSheet->getHighestRow();

        if ($pNumCols > 0 && $beforeColumnIndex - 2 > 0) {
            for ($i = $beforeRow; $i <= $highestRow - 1; ++$i) {
                // Style
                $coordinate =
Coordinate::stringFromColumnIndex($beforeColumnIndex - 1) . $i;
                if ($pSheet->cellExists($coordinate)) {
                    $xfIndex =
$pSheet->getCell($coordinate)->getXfIndex();
                    $conditionalStyles =
$pSheet->conditionalStylesExists($coordinate) ?
                        $pSheet->getConditionalStyles($coordinate) :
false;
                    for ($j = $beforeColumnIndex; $j <=
$beforeColumnIndex - 1 + $pNumCols; ++$j) {
                        $pSheet->getCellByColumnAndRow($j,
$i)->setXfIndex($xfIndex);
                        if ($conditionalStyles) {
                            $cloned = [];
                            foreach ($conditionalStyles as
$conditionalStyle) {
                                $cloned[] = clone $conditionalStyle;
                            }
                           
$pSheet->setConditionalStyles(Coordinate::stringFromColumnIndex($j) .
$i, $cloned);
                        }
                    }
                }
            }
        }

        if ($pNumRows > 0 && $beforeRow - 1 > 0) {
            for ($i = $beforeColumnIndex; $i <=
Coordinate::columnIndexFromString($highestColumn); ++$i) {
                // Style
                $coordinate = Coordinate::stringFromColumnIndex($i) .
($beforeRow - 1);
                if ($pSheet->cellExists($coordinate)) {
                    $xfIndex =
$pSheet->getCell($coordinate)->getXfIndex();
                    $conditionalStyles =
$pSheet->conditionalStylesExists($coordinate) ?
                        $pSheet->getConditionalStyles($coordinate) :
false;
                    for ($j = $beforeRow; $j <= $beforeRow - 1 +
$pNumRows; ++$j) {
                       
$pSheet->getCell(Coordinate::stringFromColumnIndex($i) .
$j)->setXfIndex($xfIndex);
                        if ($conditionalStyles) {
                            $cloned = [];
                            foreach ($conditionalStyles as
$conditionalStyle) {
                                $cloned[] = clone $conditionalStyle;
                            }
                           
$pSheet->setConditionalStyles(Coordinate::stringFromColumnIndex($i) .
$j, $cloned);
                        }
                    }
                }
            }
        }

        // Update worksheet: column dimensions
        $this->adjustColumnDimensions($pSheet, $pBefore,
$beforeColumnIndex, $pNumCols, $beforeRow, $pNumRows);

        // Update worksheet: row dimensions
        $this->adjustRowDimensions($pSheet, $pBefore,
$beforeColumnIndex, $pNumCols, $beforeRow, $pNumRows);

        //    Update worksheet: page breaks
        $this->adjustPageBreaks($pSheet, $pBefore, $beforeColumnIndex,
$pNumCols, $beforeRow, $pNumRows);

        //    Update worksheet: comments
        $this->adjustComments($pSheet, $pBefore, $beforeColumnIndex,
$pNumCols, $beforeRow, $pNumRows);

        // Update worksheet: hyperlinks
        $this->adjustHyperlinks($pSheet, $pBefore, $beforeColumnIndex,
$pNumCols, $beforeRow, $pNumRows);

        // Update worksheet: data validations
        $this->adjustDataValidations($pSheet, $pBefore,
$beforeColumnIndex, $pNumCols, $beforeRow, $pNumRows);

        // Update worksheet: merge cells
        $this->adjustMergeCells($pSheet, $pBefore, $beforeColumnIndex,
$pNumCols, $beforeRow, $pNumRows);

        // Update worksheet: protected cells
        $this->adjustProtectedCells($pSheet, $pBefore,
$beforeColumnIndex, $pNumCols, $beforeRow, $pNumRows);

        // Update worksheet: autofilter
        $autoFilter = $pSheet->getAutoFilter();
        $autoFilterRange = $autoFilter->getRange();
        if (!empty($autoFilterRange)) {
            if ($pNumCols != 0) {
                $autoFilterColumns = $autoFilter->getColumns();
                if (count($autoFilterColumns) > 0) {
                    $column = '';
                    $row = 0;
                    sscanf($pBefore, '%[A-Z]%d', $column, $row);
                    $columnIndex =
Coordinate::columnIndexFromString($column);
                    [$rangeStart, $rangeEnd] =
Coordinate::rangeBoundaries($autoFilterRange);
                    if ($columnIndex <= $rangeEnd[0]) {
                        if ($pNumCols < 0) {
                            //    If we're actually deleting any
columns that fall within the autofilter range,
                            //        then we delete any rules for those
columns
                            $deleteColumn = $columnIndex + $pNumCols - 1;
                            $deleteCount = abs($pNumCols);
                            for ($i = 1; $i <= $deleteCount; ++$i) {
                                if
(isset($autoFilterColumns[Coordinate::stringFromColumnIndex($deleteColumn +
1)])) {
                                   
$autoFilter->clearColumn(Coordinate::stringFromColumnIndex($deleteColumn
+ 1));
                                }
                                ++$deleteColumn;
                            }
                        }
                        $startCol = ($columnIndex > $rangeStart[0]) ?
$columnIndex : $rangeStart[0];

                        //    Shuffle columns in autofilter range
                        if ($pNumCols > 0) {
                            $startColRef = $startCol;
                            $endColRef = $rangeEnd[0];
                            $toColRef = $rangeEnd[0] + $pNumCols;

                            do {
                               
$autoFilter->shiftColumn(Coordinate::stringFromColumnIndex($endColRef),
Coordinate::stringFromColumnIndex($toColRef));
                                --$endColRef;
                                --$toColRef;
                            } while ($startColRef <= $endColRef);
                        } else {
                            //    For delete, we shuffle from beginning to
end to avoid overwriting
                            $startColID =
Coordinate::stringFromColumnIndex($startCol);
                            $toColID =
Coordinate::stringFromColumnIndex($startCol + $pNumCols);
                            $endColID =
Coordinate::stringFromColumnIndex($rangeEnd[0] + 1);
                            do {
                                $autoFilter->shiftColumn($startColID,
$toColID);
                                ++$startColID;
                                ++$toColID;
                            } while ($startColID != $endColID);
                        }
                    }
                }
            }
           
$pSheet->setAutoFilter($this->updateCellReference($autoFilterRange,
$pBefore, $pNumCols, $pNumRows));
        }

        // Update worksheet: freeze pane
        if ($pSheet->getFreezePane()) {
            $splitCell = $pSheet->getFreezePane();
            $topLeftCell = $pSheet->getTopLeftCell();

            $splitCell = $this->updateCellReference($splitCell,
$pBefore, $pNumCols, $pNumRows);
            $topLeftCell = $this->updateCellReference($topLeftCell,
$pBefore, $pNumCols, $pNumRows);

            $pSheet->freezePane($splitCell, $topLeftCell);
        }

        // Page setup
        if ($pSheet->getPageSetup()->isPrintAreaSet()) {
           
$pSheet->getPageSetup()->setPrintArea($this->updateCellReference($pSheet->getPageSetup()->getPrintArea(),
$pBefore, $pNumCols, $pNumRows));
        }

        // Update worksheet: drawings
        $aDrawings = $pSheet->getDrawingCollection();
        foreach ($aDrawings as $objDrawing) {
            $newReference =
$this->updateCellReference($objDrawing->getCoordinates(), $pBefore,
$pNumCols, $pNumRows);
            if ($objDrawing->getCoordinates() != $newReference) {
                $objDrawing->setCoordinates($newReference);
            }
        }

        // Update workbook: named ranges
        if (count($pSheet->getParent()->getNamedRanges()) > 0) {
            foreach ($pSheet->getParent()->getNamedRanges() as
$namedRange) {
                if ($namedRange->getWorksheet()->getHashCode() ==
$pSheet->getHashCode()) {
                   
$namedRange->setRange($this->updateCellReference($namedRange->getRange(),
$pBefore, $pNumCols, $pNumRows));
                }
            }
        }

        // Garbage collect
        $pSheet->garbageCollect();
    }

    /**
     * Update references within formulas.
     *
     * @param string $pFormula Formula to update
     * @param string $pBefore Insert before this one
     * @param int $pNumCols Number of columns to insert
     * @param int $pNumRows Number of rows to insert
     * @param string $sheetName Worksheet name/title
     *
     * @throws Exception
     *
     * @return string Updated formula
     */
    public function updateFormulaReferences($pFormula = '',
$pBefore = 'A1', $pNumCols = 0, $pNumRows = 0, $sheetName =
'')
    {
        //    Update cell references in the formula
        $formulaBlocks = explode('"', $pFormula);
        $i = false;
        foreach ($formulaBlocks as &$formulaBlock) {
            //    Ignore blocks that were enclosed in quotes (alternating
entries in the $formulaBlocks array after the explode)
            if ($i = !$i) {
                $adjustCount = 0;
                $newCellTokens = $cellTokens = [];
                //    Search for row ranges (e.g. 'Sheet1'!3:5 or
3:5) with or without $ absolutes (e.g. $3:5)
                $matchCount = preg_match_all('/' .
self::REFHELPER_REGEXP_ROWRANGE . '/i', ' ' .
$formulaBlock . ' ', $matches, PREG_SET_ORDER);
                if ($matchCount > 0) {
                    foreach ($matches as $match) {
                        $fromString = ($match[2] > '') ?
$match[2] . '!' : '';
                        $fromString .= $match[3] . ':' .
$match[4];
                        $modified3 =
substr($this->updateCellReference('$A' . $match[3], $pBefore,
$pNumCols, $pNumRows), 2);
                        $modified4 =
substr($this->updateCellReference('$A' . $match[4], $pBefore,
$pNumCols, $pNumRows), 2);

                        if ($match[3] . ':' . $match[4] !==
$modified3 . ':' . $modified4) {
                            if (($match[2] == '') ||
(trim($match[2], "'") == $sheetName)) {
                                $toString = ($match[2] > '') ?
$match[2] . '!' : '';
                                $toString .= $modified3 . ':' .
$modified4;
                                //    Max worksheet size is 1,048,576 rows
by 16,384 columns in Excel 2007, so our adjustments need to be at least one
digit more
                                $column = 100000;
                                $row = 10000000 + trim($match[3],
'$');
                                $cellIndex = $column . $row;

                                $newCellTokens[$cellIndex] =
preg_quote($toString, '/');
                                $cellTokens[$cellIndex] =
'/(?<!\d\$\!)' . preg_quote($fromString, '/') .
'(?!\d)/i';
                                ++$adjustCount;
                            }
                        }
                    }
                }
                //    Search for column ranges (e.g. 'Sheet1'!C:E
or C:E) with or without $ absolutes (e.g. $C:E)
                $matchCount = preg_match_all('/' .
self::REFHELPER_REGEXP_COLRANGE . '/i', ' ' .
$formulaBlock . ' ', $matches, PREG_SET_ORDER);
                if ($matchCount > 0) {
                    foreach ($matches as $match) {
                        $fromString = ($match[2] > '') ?
$match[2] . '!' : '';
                        $fromString .= $match[3] . ':' .
$match[4];
                        $modified3 =
substr($this->updateCellReference($match[3] . '$1', $pBefore,
$pNumCols, $pNumRows), 0, -2);
                        $modified4 =
substr($this->updateCellReference($match[4] . '$1', $pBefore,
$pNumCols, $pNumRows), 0, -2);

                        if ($match[3] . ':' . $match[4] !==
$modified3 . ':' . $modified4) {
                            if (($match[2] == '') ||
(trim($match[2], "'") == $sheetName)) {
                                $toString = ($match[2] > '') ?
$match[2] . '!' : '';
                                $toString .= $modified3 . ':' .
$modified4;
                                //    Max worksheet size is 1,048,576 rows
by 16,384 columns in Excel 2007, so our adjustments need to be at least one
digit more
                                $column =
Coordinate::columnIndexFromString(trim($match[3], '$')) + 100000;
                                $row = 10000000;
                                $cellIndex = $column . $row;

                                $newCellTokens[$cellIndex] =
preg_quote($toString, '/');
                                $cellTokens[$cellIndex] =
'/(?<![A-Z\$\!])' . preg_quote($fromString, '/') .
'(?![A-Z])/i';
                                ++$adjustCount;
                            }
                        }
                    }
                }
                //    Search for cell ranges (e.g. 'Sheet1'!A3:C5
or A3:C5) with or without $ absolutes (e.g. $A1:C$5)
                $matchCount = preg_match_all('/' .
self::REFHELPER_REGEXP_CELLRANGE . '/i', ' ' .
$formulaBlock . ' ', $matches, PREG_SET_ORDER);
                if ($matchCount > 0) {
                    foreach ($matches as $match) {
                        $fromString = ($match[2] > '') ?
$match[2] . '!' : '';
                        $fromString .= $match[3] . ':' .
$match[4];
                        $modified3 =
$this->updateCellReference($match[3], $pBefore, $pNumCols, $pNumRows);
                        $modified4 =
$this->updateCellReference($match[4], $pBefore, $pNumCols, $pNumRows);

                        if ($match[3] . $match[4] !== $modified3 .
$modified4) {
                            if (($match[2] == '') ||
(trim($match[2], "'") == $sheetName)) {
                                $toString = ($match[2] > '') ?
$match[2] . '!' : '';
                                $toString .= $modified3 . ':' .
$modified4;
                                [$column, $row] =
Coordinate::coordinateFromString($match[3]);
                                //    Max worksheet size is 1,048,576 rows
by 16,384 columns in Excel 2007, so our adjustments need to be at least one
digit more
                                $column =
Coordinate::columnIndexFromString(trim($column, '$')) + 100000;
                                $row = trim($row, '$') +
10000000;
                                $cellIndex = $column . $row;

                                $newCellTokens[$cellIndex] =
preg_quote($toString, '/');
                                $cellTokens[$cellIndex] =
'/(?<![A-Z]\$\!)' . preg_quote($fromString, '/') .
'(?!\d)/i';
                                ++$adjustCount;
                            }
                        }
                    }
                }
                //    Search for cell references (e.g.
'Sheet1'!A3 or C5) with or without $ absolutes (e.g. $A1 or C$5)
                $matchCount = preg_match_all('/' .
self::REFHELPER_REGEXP_CELLREF . '/i', ' ' .
$formulaBlock . ' ', $matches, PREG_SET_ORDER);

                if ($matchCount > 0) {
                    foreach ($matches as $match) {
                        $fromString = ($match[2] > '') ?
$match[2] . '!' : '';
                        $fromString .= $match[3];

                        $modified3 =
$this->updateCellReference($match[3], $pBefore, $pNumCols, $pNumRows);
                        if ($match[3] !== $modified3) {
                            if (($match[2] == '') ||
(trim($match[2], "'") == $sheetName)) {
                                $toString = ($match[2] > '') ?
$match[2] . '!' : '';
                                $toString .= $modified3;
                                [$column, $row] =
Coordinate::coordinateFromString($match[3]);
                                //    Max worksheet size is 1,048,576 rows
by 16,384 columns in Excel 2007, so our adjustments need to be at least one
digit more
                                $column =
Coordinate::columnIndexFromString(trim($column, '$')) + 100000;
                                $row = trim($row, '$') +
10000000;
                                $cellIndex = $row . $column;

                                $newCellTokens[$cellIndex] =
preg_quote($toString, '/');
                                $cellTokens[$cellIndex] =
'/(?<![A-Z\$\!])' . preg_quote($fromString, '/') .
'(?!\d)/i';
                                ++$adjustCount;
                            }
                        }
                    }
                }
                if ($adjustCount > 0) {
                    if ($pNumCols > 0 || $pNumRows > 0) {
                        krsort($cellTokens);
                        krsort($newCellTokens);
                    } else {
                        ksort($cellTokens);
                        ksort($newCellTokens);
                    }   //  Update cell references in the formula
                    $formulaBlock = str_replace('\\',
'', preg_replace($cellTokens, $newCellTokens, $formulaBlock));
                }
            }
        }
        unset($formulaBlock);

        //    Then rebuild the formula string
        return implode('"', $formulaBlocks);
    }

    /**
     * Update cell reference.
     *
     * @param string $pCellRange Cell range
     * @param string $pBefore Insert before this one
     * @param int $pNumCols Number of columns to increment
     * @param int $pNumRows Number of rows to increment
     *
     * @throws Exception
     *
     * @return string Updated cell range
     */
    public function updateCellReference($pCellRange = 'A1',
$pBefore = 'A1', $pNumCols = 0, $pNumRows = 0)
    {
        // Is it in another worksheet? Will not have to update anything.
        if (strpos($pCellRange, '!') !== false) {
            return $pCellRange;
        // Is it a range or a single cell?
        } elseif (!Coordinate::coordinateIsRange($pCellRange)) {
            // Single cell
            return $this->updateSingleCellReference($pCellRange,
$pBefore, $pNumCols, $pNumRows);
        } elseif (Coordinate::coordinateIsRange($pCellRange)) {
            // Range
            return $this->updateCellRange($pCellRange, $pBefore,
$pNumCols, $pNumRows);
        }

        // Return original
        return $pCellRange;
    }

    /**
     * Update named formulas (i.e. containing worksheet references / named
ranges).
     *
     * @param Spreadsheet $spreadsheet Object to update
     * @param string $oldName Old name (name to replace)
     * @param string $newName New name
     */
    public function updateNamedFormulas(Spreadsheet $spreadsheet, $oldName
= '', $newName = '')
    {
        if ($oldName == '') {
            return;
        }

        foreach ($spreadsheet->getWorksheetIterator() as $sheet) {
            foreach ($sheet->getCoordinates(false) as $coordinate) {
                $cell = $sheet->getCell($coordinate);
                if (($cell !== null) && ($cell->getDataType() ==
DataType::TYPE_FORMULA)) {
                    $formula = $cell->getValue();
                    if (strpos($formula, $oldName) !== false) {
                        $formula = str_replace("'" .
$oldName . "'!", "'" . $newName .
"'!", $formula);
                        $formula = str_replace($oldName . '!',
$newName . '!', $formula);
                        $cell->setValueExplicit($formula,
DataType::TYPE_FORMULA);
                    }
                }
            }
        }
    }

    /**
     * Update cell range.
     *
     * @param string $pCellRange Cell range    (e.g. 'B2:D4',
'B:C' or '2:3')
     * @param string $pBefore Insert before this one
     * @param int $pNumCols Number of columns to increment
     * @param int $pNumRows Number of rows to increment
     *
     * @throws Exception
     *
     * @return string Updated cell range
     */
    private function updateCellRange($pCellRange = 'A1:A1',
$pBefore = 'A1', $pNumCols = 0, $pNumRows = 0)
    {
        if (!Coordinate::coordinateIsRange($pCellRange)) {
            throw new Exception('Only cell ranges may be passed to
this method.');
        }

        // Update range
        $range = Coordinate::splitRange($pCellRange);
        $ic = count($range);
        for ($i = 0; $i < $ic; ++$i) {
            $jc = count($range[$i]);
            for ($j = 0; $j < $jc; ++$j) {
                if (ctype_alpha($range[$i][$j])) {
                    $r =
Coordinate::coordinateFromString($this->updateSingleCellReference($range[$i][$j]
. '1', $pBefore, $pNumCols, $pNumRows));
                    $range[$i][$j] = $r[0];
                } elseif (ctype_digit($range[$i][$j])) {
                    $r =
Coordinate::coordinateFromString($this->updateSingleCellReference('A'
. $range[$i][$j], $pBefore, $pNumCols, $pNumRows));
                    $range[$i][$j] = $r[1];
                } else {
                    $range[$i][$j] =
$this->updateSingleCellReference($range[$i][$j], $pBefore, $pNumCols,
$pNumRows);
                }
            }
        }

        // Recreate range string
        return Coordinate::buildRange($range);
    }

    /**
     * Update single cell reference.
     *
     * @param string $pCellReference Single cell reference
     * @param string $pBefore Insert before this one
     * @param int $pNumCols Number of columns to increment
     * @param int $pNumRows Number of rows to increment
     *
     * @throws Exception
     *
     * @return string Updated cell reference
     */
    private function updateSingleCellReference($pCellReference =
'A1', $pBefore = 'A1', $pNumCols = 0, $pNumRows = 0)
    {
        if (Coordinate::coordinateIsRange($pCellReference)) {
            throw new Exception('Only single cell references may be
passed to this method.');
        }

        // Get coordinate of $pBefore
        [$beforeColumn, $beforeRow] =
Coordinate::coordinateFromString($pBefore);

        // Get coordinate of $pCellReference
        [$newColumn, $newRow] =
Coordinate::coordinateFromString($pCellReference);

        // Verify which parts should be updated
        $updateColumn = (($newColumn[0] != '$') &&
($beforeColumn[0] != '$') &&
(Coordinate::columnIndexFromString($newColumn) >=
Coordinate::columnIndexFromString($beforeColumn)));
        $updateRow = (($newRow[0] != '$') &&
($beforeRow[0] != '$') && $newRow >= $beforeRow);

        // Create new column reference
        if ($updateColumn) {
            $newColumn =
Coordinate::stringFromColumnIndex(Coordinate::columnIndexFromString($newColumn)
+ $pNumCols);
        }

        // Create new row reference
        if ($updateRow) {
            $newRow = $newRow + $pNumRows;
        }

        // Return new reference
        return $newColumn . $newRow;
    }

    /**
     * __clone implementation. Cloning should not be allowed in a
Singleton!
     *
     * @throws Exception
     */
    final public function __clone()
    {
        throw new Exception('Cloning a Singleton is not
allowed!');
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/RichText/ITextElement.php000064400000001064151165414000023341
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\RichText;

interface ITextElement
{
    /**
     * Get text.
     *
     * @return string Text
     */
    public function getText();

    /**
     * Set text.
     *
     * @param $text string Text
     *
     * @return ITextElement
     */
    public function setText($text);

    /**
     * Get font.
     *
     * @return null|\PhpOffice\PhpSpreadsheet\Style\Font
     */
    public function getFont();

    /**
     * Get hash code.
     *
     * @return string Hash code
     */
    public function getHashCode();
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/RichText/RichText.php000064400000007120151165414000022523
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\RichText;

use PhpOffice\PhpSpreadsheet\Cell\Cell;
use PhpOffice\PhpSpreadsheet\Cell\DataType;
use PhpOffice\PhpSpreadsheet\Exception;
use PhpOffice\PhpSpreadsheet\IComparable;

class RichText implements IComparable
{
    /**
     * Rich text elements.
     *
     * @var ITextElement[]
     */
    private $richTextElements;

    /**
     * Create a new RichText instance.
     *
     * @param Cell $pCell
     *
     * @throws Exception
     */
    public function __construct(Cell $pCell = null)
    {
        // Initialise variables
        $this->richTextElements = [];

        // Rich-Text string attached to cell?
        if ($pCell !== null) {
            // Add cell text and style
            if ($pCell->getValue() != '') {
                $objRun = new Run($pCell->getValue());
                $objRun->setFont(clone
$pCell->getWorksheet()->getStyle($pCell->getCoordinate())->getFont());
                $this->addText($objRun);
            }

            // Set parent value
            $pCell->setValueExplicit($this, DataType::TYPE_STRING);
        }
    }

    /**
     * Add text.
     *
     * @param ITextElement $pText Rich text element
     *
     * @return $this
     */
    public function addText(ITextElement $pText)
    {
        $this->richTextElements[] = $pText;

        return $this;
    }

    /**
     * Create text.
     *
     * @param string $pText Text
     *
     * @throws Exception
     *
     * @return TextElement
     */
    public function createText($pText)
    {
        $objText = new TextElement($pText);
        $this->addText($objText);

        return $objText;
    }

    /**
     * Create text run.
     *
     * @param string $pText Text
     *
     * @throws Exception
     *
     * @return Run
     */
    public function createTextRun($pText)
    {
        $objText = new Run($pText);
        $this->addText($objText);

        return $objText;
    }

    /**
     * Get plain text.
     *
     * @return string
     */
    public function getPlainText()
    {
        // Return value
        $returnValue = '';

        // Loop through all ITextElements
        foreach ($this->richTextElements as $text) {
            $returnValue .= $text->getText();
        }

        return $returnValue;
    }

    /**
     * Convert to string.
     *
     * @return string
     */
    public function __toString()
    {
        return $this->getPlainText();
    }

    /**
     * Get Rich Text elements.
     *
     * @return ITextElement[]
     */
    public function getRichTextElements()
    {
        return $this->richTextElements;
    }

    /**
     * Set Rich Text elements.
     *
     * @param ITextElement[] $textElements Array of elements
     *
     * @return $this
     */
    public function setRichTextElements(array $textElements)
    {
        $this->richTextElements = $textElements;

        return $this;
    }

    /**
     * Get hash code.
     *
     * @return string Hash code
     */
    public function getHashCode()
    {
        $hashElements = '';
        foreach ($this->richTextElements as $element) {
            $hashElements .= $element->getHashCode();
        }

        return md5(
            $hashElements .
            __CLASS__
        );
    }

    /**
     * Implement PHP __clone to create a deep clone, not just a shallow
copy.
     */
    public function __clone()
    {
        $vars = get_object_vars($this);
        foreach ($vars as $key => $value) {
            if (is_object($value)) {
                $this->$key = clone $value;
            } else {
                $this->$key = $value;
            }
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/RichText/Run.php000064400000002122151165414000021532
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\RichText;

use PhpOffice\PhpSpreadsheet\Style\Font;

class Run extends TextElement implements ITextElement
{
    /**
     * Font.
     *
     * @var Font
     */
    private $font;

    /**
     * Create a new Run instance.
     *
     * @param string $pText Text
     */
    public function __construct($pText = '')
    {
        parent::__construct($pText);
        // Initialise variables
        $this->font = new Font();
    }

    /**
     * Get font.
     *
     * @return null|\PhpOffice\PhpSpreadsheet\Style\Font
     */
    public function getFont()
    {
        return $this->font;
    }

    /**
     * Set font.
     *
     * @param Font $pFont Font
     *
     * @return $this
     */
    public function setFont(Font $pFont = null)
    {
        $this->font = $pFont;

        return $this;
    }

    /**
     * Get hash code.
     *
     * @return string Hash code
     */
    public function getHashCode()
    {
        return md5(
            $this->getText() .
            $this->font->getHashCode() .
            __CLASS__
        );
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/RichText/TextElement.php000064400000002706151165414000023234
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\RichText;

class TextElement implements ITextElement
{
    /**
     * Text.
     *
     * @var string
     */
    private $text;

    /**
     * Create a new TextElement instance.
     *
     * @param string $pText Text
     */
    public function __construct($pText = '')
    {
        // Initialise variables
        $this->text = $pText;
    }

    /**
     * Get text.
     *
     * @return string Text
     */
    public function getText()
    {
        return $this->text;
    }

    /**
     * Set text.
     *
     * @param $text string Text
     *
     * @return $this
     */
    public function setText($text)
    {
        $this->text = $text;

        return $this;
    }

    /**
     * Get font.
     *
     * @return null|\PhpOffice\PhpSpreadsheet\Style\Font
     */
    public function getFont()
    {
        return null;
    }

    /**
     * Get hash code.
     *
     * @return string Hash code
     */
    public function getHashCode()
    {
        return md5(
            $this->text .
            __CLASS__
        );
    }

    /**
     * Implement PHP __clone to create a deep clone, not just a shallow
copy.
     */
    public function __clone()
    {
        $vars = get_object_vars($this);
        foreach ($vars as $key => $value) {
            if (is_object($value)) {
                $this->$key = clone $value;
            } else {
                $this->$key = $value;
            }
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Settings.php000064400000011367151165414000021047
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet;

use PhpOffice\PhpSpreadsheet\Calculation\Calculation;
use PhpOffice\PhpSpreadsheet\Chart\Renderer\IRenderer;
use PhpOffice\PhpSpreadsheet\Collection\Memory;
use Psr\SimpleCache\CacheInterface;

class Settings
{
    /**
     * Class name of the chart renderer used for rendering charts
     * eg: PhpOffice\PhpSpreadsheet\Chart\Renderer\JpGraph.
     *
     * @var string
     */
    private static $chartRenderer;

    /**
     * Default options for libxml loader.
     *
     * @var int
     */
    private static $libXmlLoaderOptions = null;

    /**
     * Allow/disallow libxml_disable_entity_loader() call when not thread
safe.
     * Default behaviour is to do the check, but if you're running PHP
versions
     *      7.2 < 7.2.1
     *      7.1 < 7.1.13
     *      7.0 < 7.0.27
     * then you may need to disable this check to prevent unwanted
behaviour in other threads
     * SECURITY WARNING: Changing this flag is not recommended.
     *
     * @var bool
     */
    private static $libXmlDisableEntityLoader = true;

    /**
     * The cache implementation to be used for cell collection.
     *
     * @var CacheInterface
     */
    private static $cache;

    /**
     * Set the locale code to use for formula translations and any special
formatting.
     *
     * @param string $locale The locale code to use (e.g. "fr" or
"pt_br" or "en_uk")
     *
     * @return bool Success or failure
     */
    public static function setLocale($locale)
    {
        return Calculation::getInstance()->setLocale($locale);
    }

    /**
     * Identify to PhpSpreadsheet the external library to use for rendering
charts.
     *
     * @param string $rendererClass Class name of the chart renderer
     *    eg: PhpOffice\PhpSpreadsheet\Chart\Renderer\JpGraph
     *
     * @throws Exception
     */
    public static function setChartRenderer($rendererClass)
    {
        if (!is_a($rendererClass, IRenderer::class, true)) {
            throw new Exception('Chart renderer must implement '
. IRenderer::class);
        }

        self::$chartRenderer = $rendererClass;
    }

    /**
     * Return the Chart Rendering Library that PhpSpreadsheet is currently
configured to use.
     *
     * @return null|string Class name of the chart renderer
     *    eg: PhpOffice\PhpSpreadsheet\Chart\Renderer\JpGraph
     */
    public static function getChartRenderer()
    {
        return self::$chartRenderer;
    }

    /**
     * Set default options for libxml loader.
     *
     * @param int $options Default options for libxml loader
     */
    public static function setLibXmlLoaderOptions($options)
    {
        if ($options === null &&
defined('LIBXML_DTDLOAD')) {
            $options = LIBXML_DTDLOAD | LIBXML_DTDATTR;
        }
        self::$libXmlLoaderOptions = $options;
    }

    /**
     * Get default options for libxml loader.
     * Defaults to LIBXML_DTDLOAD | LIBXML_DTDATTR when not set explicitly.
     *
     * @return int Default options for libxml loader
     */
    public static function getLibXmlLoaderOptions()
    {
        if (self::$libXmlLoaderOptions === null &&
defined('LIBXML_DTDLOAD')) {
            self::setLibXmlLoaderOptions(LIBXML_DTDLOAD | LIBXML_DTDATTR);
        } elseif (self::$libXmlLoaderOptions === null) {
            self::$libXmlLoaderOptions = true;
        }

        return self::$libXmlLoaderOptions;
    }

    /**
     * Enable/Disable the entity loader for libxml loader.
     * Allow/disallow libxml_disable_entity_loader() call when not thread
safe.
     * Default behaviour is to do the check, but if you're running PHP
versions
     *      7.2 < 7.2.1
     *      7.1 < 7.1.13
     *      7.0 < 7.0.27
     * then you may need to disable this check to prevent unwanted
behaviour in other threads
     * SECURITY WARNING: Changing this flag to false is not recommended.
     *
     * @param bool $state
     */
    public static function setLibXmlDisableEntityLoader($state)
    {
        self::$libXmlDisableEntityLoader = (bool) $state;
    }

    /**
     * Return the state of the entity loader (disabled/enabled) for libxml
loader.
     *
     * @return bool $state
     */
    public static function getLibXmlDisableEntityLoader()
    {
        return self::$libXmlDisableEntityLoader;
    }

    /**
     * Sets the implementation of cache that should be used for cell
collection.
     *
     * @param CacheInterface $cache
     */
    public static function setCache(CacheInterface $cache)
    {
        self::$cache = $cache;
    }

    /**
     * Gets the implementation of cache that should be used for cell
collection.
     *
     * @return CacheInterface
     */
    public static function getCache()
    {
        if (!self::$cache) {
            self::$cache = new Memory();
        }

        return self::$cache;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/CodePage.php000064400000012320151165414000022112
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Shared;

use PhpOffice\PhpSpreadsheet\Exception as PhpSpreadsheetException;

class CodePage
{
    /**
     * Convert Microsoft Code Page Identifier to Code Page Name which iconv
     * and mbstring understands.
     *
     * @param int $codePage Microsoft Code Page Indentifier
     *
     * @throws PhpSpreadsheetException
     *
     * @return string Code Page Name
     */
    public static function numberToName($codePage)
    {
        switch ($codePage) {
            case 367:
                return 'ASCII'; //    ASCII
            case 437:
                return 'CP437'; //    OEM US
            case 720:
                throw new PhpSpreadsheetException('Code page 720 not
supported.'); //    OEM Arabic
            case 737:
                return 'CP737'; //    OEM Greek
            case 775:
                return 'CP775'; //    OEM Baltic
            case 850:
                return 'CP850'; //    OEM Latin I
            case 852:
                return 'CP852'; //    OEM Latin II (Central
European)
            case 855:
                return 'CP855'; //    OEM Cyrillic
            case 857:
                return 'CP857'; //    OEM Turkish
            case 858:
                return 'CP858'; //    OEM Multilingual Latin I
with Euro
            case 860:
                return 'CP860'; //    OEM Portugese
            case 861:
                return 'CP861'; //    OEM Icelandic
            case 862:
                return 'CP862'; //    OEM Hebrew
            case 863:
                return 'CP863'; //    OEM Canadian (French)
            case 864:
                return 'CP864'; //    OEM Arabic
            case 865:
                return 'CP865'; //    OEM Nordic
            case 866:
                return 'CP866'; //    OEM Cyrillic (Russian)
            case 869:
                return 'CP869'; //    OEM Greek (Modern)
            case 874:
                return 'CP874'; //    ANSI Thai
            case 932:
                return 'CP932'; //    ANSI Japanese Shift-JIS
            case 936:
                return 'CP936'; //    ANSI Chinese Simplified GBK
            case 949:
                return 'CP949'; //    ANSI Korean (Wansung)
            case 950:
                return 'CP950'; //    ANSI Chinese Traditional
BIG5
            case 1200:
                return 'UTF-16LE'; //    UTF-16 (BIFF8)
            case 1250:
                return 'CP1250'; //    ANSI Latin II (Central
European)
            case 1251:
                return 'CP1251'; //    ANSI Cyrillic
            case 0:
                //    CodePage is not always correctly set when the xls
file was saved by Apple's Numbers program
            case 1252:
                return 'CP1252'; //    ANSI Latin I (BIFF4-BIFF7)
            case 1253:
                return 'CP1253'; //    ANSI Greek
            case 1254:
                return 'CP1254'; //    ANSI Turkish
            case 1255:
                return 'CP1255'; //    ANSI Hebrew
            case 1256:
                return 'CP1256'; //    ANSI Arabic
            case 1257:
                return 'CP1257'; //    ANSI Baltic
            case 1258:
                return 'CP1258'; //    ANSI Vietnamese
            case 1361:
                return 'CP1361'; //    ANSI Korean (Johab)
            case 10000:
                return 'MAC'; //    Apple Roman
            case 10001:
                return 'CP932'; //    Macintosh Japanese
            case 10002:
                return 'CP950'; //    Macintosh Chinese
Traditional
            case 10003:
                return 'CP1361'; //    Macintosh Korean
            case 10004:
                return 'MACARABIC'; //    Apple Arabic
            case 10005:
                return 'MACHEBREW'; //    Apple Hebrew
            case 10006:
                return 'MACGREEK'; //    Macintosh Greek
            case 10007:
                return 'MACCYRILLIC'; //    Macintosh Cyrillic
            case 10008:
                return 'CP936'; //    Macintosh - Simplified
Chinese (GB 2312)
            case 10010:
                return 'MACROMANIA'; //    Macintosh Romania
            case 10017:
                return 'MACUKRAINE'; //    Macintosh Ukraine
            case 10021:
                return 'MACTHAI'; //    Macintosh Thai
            case 10029:
                return 'MACCENTRALEUROPE'; //    Macintosh
Central Europe
            case 10079:
                return 'MACICELAND'; //    Macintosh Icelandic
            case 10081:
                return 'MACTURKISH'; //    Macintosh Turkish
            case 10082:
                return 'MACCROATIAN'; //    Macintosh Croatian
            case 21010:
                return 'UTF-16LE'; //    UTF-16 (BIFF8) This
isn't correct, but some Excel writer libraries erroneously use
Codepage 21010 for UTF-16LE
            case 32768:
                return 'MAC'; //    Apple Roman
            case 32769:
                throw new PhpSpreadsheetException('Code page 32769 not
supported.'); //    ANSI Latin I (BIFF2-BIFF3)
            case 65000:
                return 'UTF-7'; //    Unicode (UTF-7)
            case 65001:
                return 'UTF-8'; //    Unicode (UTF-8)
        }

        throw new PhpSpreadsheetException('Unknown codepage: ' .
$codePage);
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/Date.php000064400000037573151165414000021341
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Shared;

use DateTimeInterface;
use DateTimeZone;
use PhpOffice\PhpSpreadsheet\Calculation\DateTime;
use PhpOffice\PhpSpreadsheet\Calculation\Functions;
use PhpOffice\PhpSpreadsheet\Cell\Cell;
use PhpOffice\PhpSpreadsheet\Style\NumberFormat;

class Date
{
    /** constants */
    const CALENDAR_WINDOWS_1900 = 1900; //    Base date of 1st Jan 1900 =
1.0
    const CALENDAR_MAC_1904 = 1904; //    Base date of 2nd Jan 1904 = 1.0

    /**
     * Names of the months of the year, indexed by shortname
     * Planned usage for locale settings.
     *
     * @var string[]
     */
    public static $monthNames = [
        'Jan' => 'January',
        'Feb' => 'February',
        'Mar' => 'March',
        'Apr' => 'April',
        'May' => 'May',
        'Jun' => 'June',
        'Jul' => 'July',
        'Aug' => 'August',
        'Sep' => 'September',
        'Oct' => 'October',
        'Nov' => 'November',
        'Dec' => 'December',
    ];

    /**
     * @var string[]
     */
    public static $numberSuffixes = [
        'st',
        'nd',
        'rd',
        'th',
    ];

    /**
     * Base calendar year to use for calculations
     * Value is either CALENDAR_WINDOWS_1900 (1900) or CALENDAR_MAC_1904
(1904).
     *
     * @var int
     */
    protected static $excelCalendar = self::CALENDAR_WINDOWS_1900;

    /**
     * Default timezone to use for DateTime objects.
     *
     * @var null|\DateTimeZone
     */
    protected static $defaultTimeZone;

    /**
     * Set the Excel calendar (Windows 1900 or Mac 1904).
     *
     * @param int $baseDate Excel base date (1900 or 1904)
     *
     * @return bool Success or failure
     */
    public static function setExcelCalendar($baseDate)
    {
        if (($baseDate == self::CALENDAR_WINDOWS_1900) ||
            ($baseDate == self::CALENDAR_MAC_1904)) {
            self::$excelCalendar = $baseDate;

            return true;
        }

        return false;
    }

    /**
     * Return the Excel calendar (Windows 1900 or Mac 1904).
     *
     * @return int Excel base date (1900 or 1904)
     */
    public static function getExcelCalendar()
    {
        return self::$excelCalendar;
    }

    /**
     * Set the Default timezone to use for dates.
     *
     * @param DateTimeZone|string $timeZone The timezone to set for all
Excel datetimestamp to PHP DateTime Object conversions
     *
     * @throws \Exception
     *
     * @return bool Success or failure
     * @return bool Success or failure
     */
    public static function setDefaultTimezone($timeZone)
    {
        if ($timeZone = self::validateTimeZone($timeZone)) {
            self::$defaultTimeZone = $timeZone;

            return true;
        }

        return false;
    }

    /**
     * Return the Default timezone being used for dates.
     *
     * @return DateTimeZone The timezone being used as default for Excel
timestamp to PHP DateTime object
     */
    public static function getDefaultTimezone()
    {
        if (self::$defaultTimeZone === null) {
            self::$defaultTimeZone = new DateTimeZone('UTC');
        }

        return self::$defaultTimeZone;
    }

    /**
     * Validate a timezone.
     *
     * @param DateTimeZone|string $timeZone The timezone to validate,
either as a timezone string or object
     *
     * @throws \Exception
     *
     * @return DateTimeZone The timezone as a timezone object
     * @return DateTimeZone The timezone as a timezone object
     */
    protected static function validateTimeZone($timeZone)
    {
        if (is_object($timeZone) && $timeZone instanceof
DateTimeZone) {
            return $timeZone;
        } elseif (is_string($timeZone)) {
            return new DateTimeZone($timeZone);
        }

        throw new \Exception('Invalid timezone');
    }

    /**
     * Convert a MS serialized datetime value from Excel to a PHP Date/Time
object.
     *
     * @param float|int $excelTimestamp MS Excel serialized date/time value
     * @param null|DateTimeZone|string $timeZone The timezone to assume for
the Excel timestamp,
     *                                                                     
  if you don't want to treat it as a UTC value
     *                                                                   
Use the default (UST) unless you absolutely need a conversion
     *
     * @throws \Exception
     *
     * @return \DateTime PHP date/time object
     */
    public static function excelToDateTimeObject($excelTimestamp, $timeZone
= null)
    {
        $timeZone = ($timeZone === null) ? self::getDefaultTimezone() :
self::validateTimeZone($timeZone);
        if (Functions::getCompatibilityMode() ==
Functions::COMPATIBILITY_EXCEL) {
            if ($excelTimestamp < 1.0) {
                // Unix timestamp base date
                $baseDate = new \DateTime('1970-01-01',
$timeZone);
            } else {
                // MS Excel calendar base dates
                if (self::$excelCalendar == self::CALENDAR_WINDOWS_1900) {
                    // Allow adjustment for 1900 Leap Year in MS Excel
                    $baseDate = ($excelTimestamp < 60) ? new
\DateTime('1899-12-31', $timeZone) : new
\DateTime('1899-12-30', $timeZone);
                } else {
                    $baseDate = new \DateTime('1904-01-01',
$timeZone);
                }
            }
        } else {
            $baseDate = new \DateTime('1899-12-30', $timeZone);
        }

        $days = floor($excelTimestamp);
        $partDay = $excelTimestamp - $days;
        $hours = floor($partDay * 24);
        $partDay = $partDay * 24 - $hours;
        $minutes = floor($partDay * 60);
        $partDay = $partDay * 60 - $minutes;
        $seconds = round($partDay * 60);

        if ($days >= 0) {
            $days = '+' . $days;
        }
        $interval = $days . ' days';

        return $baseDate->modify($interval)
            ->setTime((int) $hours, (int) $minutes, (int) $seconds);
    }

    /**
     * Convert a MS serialized datetime value from Excel to a unix
timestamp.
     *
     * @param float|int $excelTimestamp MS Excel serialized date/time value
     * @param null|DateTimeZone|string $timeZone The timezone to assume for
the Excel timestamp,
     *                                                                     
  if you don't want to treat it as a UTC value
     *                                                                   
Use the default (UST) unless you absolutely need a conversion
     *
     * @throws \Exception
     *
     * @return int Unix timetamp for this date/time
     */
    public static function excelToTimestamp($excelTimestamp, $timeZone =
null)
    {
        return (int) self::excelToDateTimeObject($excelTimestamp,
$timeZone)
            ->format('U');
    }

    /**
     * Convert a date from PHP to an MS Excel serialized date/time value.
     *
     * @param mixed $dateValue Unix Timestamp or PHP DateTime object or a
string
     *
     * @return bool|float Excel date/time value
     *                                  or boolean FALSE on failure
     */
    public static function PHPToExcel($dateValue)
    {
        if ((is_object($dateValue)) && ($dateValue instanceof
DateTimeInterface)) {
            return self::dateTimeToExcel($dateValue);
        } elseif (is_numeric($dateValue)) {
            return self::timestampToExcel($dateValue);
        } elseif (is_string($dateValue)) {
            return self::stringToExcel($dateValue);
        }

        return false;
    }

    /**
     * Convert a PHP DateTime object to an MS Excel serialized date/time
value.
     *
     * @param DateTimeInterface $dateValue PHP DateTime object
     *
     * @return float MS Excel serialized date/time value
     */
    public static function dateTimeToExcel(DateTimeInterface $dateValue)
    {
        return self::formattedPHPToExcel(
            (int) $dateValue->format('Y'),
            (int) $dateValue->format('m'),
            (int) $dateValue->format('d'),
            (int) $dateValue->format('H'),
            (int) $dateValue->format('i'),
            (int) $dateValue->format('s')
        );
    }

    /**
     * Convert a Unix timestamp to an MS Excel serialized date/time value.
     *
     * @param int $dateValue Unix Timestamp
     *
     * @return float MS Excel serialized date/time value
     */
    public static function timestampToExcel($dateValue)
    {
        if (!is_numeric($dateValue)) {
            return false;
        }

        return self::dateTimeToExcel(new \DateTime('@' .
$dateValue));
    }

    /**
     * formattedPHPToExcel.
     *
     * @param int $year
     * @param int $month
     * @param int $day
     * @param int $hours
     * @param int $minutes
     * @param int $seconds
     *
     * @return float Excel date/time value
     */
    public static function formattedPHPToExcel($year, $month, $day, $hours
= 0, $minutes = 0, $seconds = 0)
    {
        if (self::$excelCalendar == self::CALENDAR_WINDOWS_1900) {
            //
            //    Fudge factor for the erroneous fact that the year 1900 is
treated as a Leap Year in MS Excel
            //    This affects every date following 28th February 1900
            //
            $excel1900isLeapYear = true;
            if (($year == 1900) && ($month <= 2)) {
                $excel1900isLeapYear = false;
            }
            $myexcelBaseDate = 2415020;
        } else {
            $myexcelBaseDate = 2416481;
            $excel1900isLeapYear = false;
        }

        //    Julian base date Adjustment
        if ($month > 2) {
            $month -= 3;
        } else {
            $month += 9;
            --$year;
        }

        //    Calculate the Julian Date, then subtract the Excel base date
(JD 2415020 = 31-Dec-1899 Giving Excel Date of 0)
        $century = substr($year, 0, 2);
        $decade = substr($year, 2, 2);
        $excelDate = floor((146097 * $century) / 4) + floor((1461 *
$decade) / 4) + floor((153 * $month + 2) / 5) + $day + 1721119 -
$myexcelBaseDate + $excel1900isLeapYear;

        $excelTime = (($hours * 3600) + ($minutes * 60) + $seconds) /
86400;

        return (float) $excelDate + $excelTime;
    }

    /**
     * Is a given cell a date/time?
     *
     * @param Cell $pCell
     *
     * @return bool
     */
    public static function isDateTime(Cell $pCell)
    {
        return is_numeric($pCell->getValue()) &&
            self::isDateTimeFormat(
                $pCell->getWorksheet()->getStyle(
                    $pCell->getCoordinate()
                )->getNumberFormat()
            );
    }

    /**
     * Is a given number format a date/time?
     *
     * @param NumberFormat $pFormat
     *
     * @return bool
     */
    public static function isDateTimeFormat(NumberFormat $pFormat)
    {
        return self::isDateTimeFormatCode($pFormat->getFormatCode());
    }

    private static $possibleDateFormatCharacters = 'eymdHs';

    /**
     * Is a given number format code a date/time?
     *
     * @param string $pFormatCode
     *
     * @return bool
     */
    public static function isDateTimeFormatCode($pFormatCode)
    {
        if (strtolower($pFormatCode) ===
strtolower(NumberFormat::FORMAT_GENERAL)) {
            //    "General" contains an epoch letter
'e', so we trap for it explicitly here (case-insensitive check)
            return false;
        }
        if (preg_match('/[0#]E[+-]0/i', $pFormatCode)) {
            //    Scientific format
            return false;
        }

        // Switch on formatcode
        switch ($pFormatCode) {
            //    Explicitly defined date formats
            case NumberFormat::FORMAT_DATE_YYYYMMDD:
            case NumberFormat::FORMAT_DATE_YYYYMMDD2:
            case NumberFormat::FORMAT_DATE_DDMMYYYY:
            case NumberFormat::FORMAT_DATE_DMYSLASH:
            case NumberFormat::FORMAT_DATE_DMYMINUS:
            case NumberFormat::FORMAT_DATE_DMMINUS:
            case NumberFormat::FORMAT_DATE_MYMINUS:
            case NumberFormat::FORMAT_DATE_DATETIME:
            case NumberFormat::FORMAT_DATE_TIME1:
            case NumberFormat::FORMAT_DATE_TIME2:
            case NumberFormat::FORMAT_DATE_TIME3:
            case NumberFormat::FORMAT_DATE_TIME4:
            case NumberFormat::FORMAT_DATE_TIME5:
            case NumberFormat::FORMAT_DATE_TIME6:
            case NumberFormat::FORMAT_DATE_TIME7:
            case NumberFormat::FORMAT_DATE_TIME8:
            case NumberFormat::FORMAT_DATE_YYYYMMDDSLASH:
            case NumberFormat::FORMAT_DATE_XLSX14:
            case NumberFormat::FORMAT_DATE_XLSX15:
            case NumberFormat::FORMAT_DATE_XLSX16:
            case NumberFormat::FORMAT_DATE_XLSX17:
            case NumberFormat::FORMAT_DATE_XLSX22:
                return true;
        }

        //    Typically number, currency or accounting (or occasionally
fraction) formats
        if ((substr($pFormatCode, 0, 1) == '_') ||
(substr($pFormatCode, 0, 2) == '0 ')) {
            return false;
        }
        // Try checking for any of the date formatting characters that
don't appear within square braces
        if (preg_match('/(^|\])[^\[]*[' .
self::$possibleDateFormatCharacters . ']/i', $pFormatCode)) {
            //    We might also have a format mask containing quoted
strings...
            //        we don't want to test for any of our characters
within the quoted blocks
            if (strpos($pFormatCode, '"') !== false) {
                $segMatcher = false;
                foreach (explode('"', $pFormatCode) as
$subVal) {
                    //    Only test in alternate array entries (the
non-quoted blocks)
                    if (($segMatcher = !$segMatcher) &&
                        (preg_match('/(^|\])[^\[]*[' .
self::$possibleDateFormatCharacters . ']/i', $subVal))) {
                        return true;
                    }
                }

                return false;
            }

            return true;
        }

        // No date...
        return false;
    }

    /**
     * Convert a date/time string to Excel time.
     *
     * @param string $dateValue Examples: '2009-12-31',
'2009-12-31 15:59', '2009-12-31 15:59:10'
     *
     * @return false|float Excel date/time serial value
     */
    public static function stringToExcel($dateValue)
    {
        if (strlen($dateValue) < 2) {
            return false;
        }
        if (!preg_match('/^(\d{1,4}[ \.\/\-][A-Z]{3,9}([
\.\/\-]\d{1,4})?|[A-Z]{3,9}[ \.\/\-]\d{1,4}([ \.\/\-]\d{1,4})?|\d{1,4}[
\.\/\-]\d{1,4}([ \.\/\-]\d{1,4})?)( \d{1,2}:\d{1,2}(:\d{1,2})?)?$/iu',
$dateValue)) {
            return false;
        }

        $dateValueNew = DateTime::DATEVALUE($dateValue);

        if ($dateValueNew === Functions::VALUE()) {
            return false;
        }

        if (strpos($dateValue, ':') !== false) {
            $timeValue = DateTime::TIMEVALUE($dateValue);
            if ($timeValue === Functions::VALUE()) {
                return false;
            }
            $dateValueNew += $timeValue;
        }

        return $dateValueNew;
    }

    /**
     * Converts a month name (either a long or a short name) to a month
number.
     *
     * @param string $month Month name or abbreviation
     *
     * @return int|string Month number (1 - 12), or the original string
argument if it isn't a valid month name
     */
    public static function monthStringToNumber($month)
    {
        $monthIndex = 1;
        foreach (self::$monthNames as $shortMonthName => $longMonthName)
{
            if (($month === $longMonthName) || ($month ===
$shortMonthName)) {
                return $monthIndex;
            }
            ++$monthIndex;
        }

        return $month;
    }

    /**
     * Strips an ordinal from a numeric value.
     *
     * @param string $day Day number with an ordinal
     *
     * @return int|string The integer value with any ordinal stripped, or
the original string argument if it isn't a valid numeric
     */
    public static function dayStringToNumber($day)
    {
        $strippedDayValue = (str_replace(self::$numberSuffixes,
'', $day));
        if (is_numeric($strippedDayValue)) {
            return (int) $strippedDayValue;
        }

        return $day;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/Drawing.php000064400000016543151165414000022051
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Shared;

class Drawing
{
    /**
     * Convert pixels to EMU.
     *
     * @param int $pValue Value in pixels
     *
     * @return int Value in EMU
     */
    public static function pixelsToEMU($pValue)
    {
        return round($pValue * 9525);
    }

    /**
     * Convert EMU to pixels.
     *
     * @param int $pValue Value in EMU
     *
     * @return int Value in pixels
     */
    public static function EMUToPixels($pValue)
    {
        if ($pValue != 0) {
            return round($pValue / 9525);
        }

        return 0;
    }

    /**
     * Convert pixels to column width. Exact algorithm not known.
     * By inspection of a real Excel file using Calibri 11, one finds
1000px ~ 142.85546875
     * This gives a conversion factor of 7. Also, we assume that pixels and
font size are proportional.
     *
     * @param int $pValue Value in pixels
     * @param \PhpOffice\PhpSpreadsheet\Style\Font $pDefaultFont Default
font of the workbook
     *
     * @return int Value in cell dimension
     */
    public static function pixelsToCellDimension($pValue,
\PhpOffice\PhpSpreadsheet\Style\Font $pDefaultFont)
    {
        // Font name and size
        $name = $pDefaultFont->getName();
        $size = $pDefaultFont->getSize();

        if (isset(Font::$defaultColumnWidths[$name][$size])) {
            // Exact width can be determined
            $colWidth = $pValue *
Font::$defaultColumnWidths[$name][$size]['width'] /
Font::$defaultColumnWidths[$name][$size]['px'];
        } else {
            // We don't have data for this particular font and size,
use approximation by
            // extrapolating from Calibri 11
            $colWidth = $pValue * 11 *
Font::$defaultColumnWidths['Calibri'][11]['width'] /
Font::$defaultColumnWidths['Calibri'][11]['px'] /
$size;
        }

        return $colWidth;
    }

    /**
     * Convert column width from (intrinsic) Excel units to pixels.
     *
     * @param float $pValue Value in cell dimension
     * @param \PhpOffice\PhpSpreadsheet\Style\Font $pDefaultFont Default
font of the workbook
     *
     * @return int Value in pixels
     */
    public static function cellDimensionToPixels($pValue,
\PhpOffice\PhpSpreadsheet\Style\Font $pDefaultFont)
    {
        // Font name and size
        $name = $pDefaultFont->getName();
        $size = $pDefaultFont->getSize();

        if (isset(Font::$defaultColumnWidths[$name][$size])) {
            // Exact width can be determined
            $colWidth = $pValue *
Font::$defaultColumnWidths[$name][$size]['px'] /
Font::$defaultColumnWidths[$name][$size]['width'];
        } else {
            // We don't have data for this particular font and size,
use approximation by
            // extrapolating from Calibri 11
            $colWidth = $pValue * $size *
Font::$defaultColumnWidths['Calibri'][11]['px'] /
Font::$defaultColumnWidths['Calibri'][11]['width'] /
11;
        }

        // Round pixels to closest integer
        $colWidth = (int) round($colWidth);

        return $colWidth;
    }

    /**
     * Convert pixels to points.
     *
     * @param int $pValue Value in pixels
     *
     * @return float Value in points
     */
    public static function pixelsToPoints($pValue)
    {
        return $pValue * 0.67777777;
    }

    /**
     * Convert points to pixels.
     *
     * @param int $pValue Value in points
     *
     * @return int Value in pixels
     */
    public static function pointsToPixels($pValue)
    {
        if ($pValue != 0) {
            return (int) ceil($pValue * 1.333333333);
        }

        return 0;
    }

    /**
     * Convert degrees to angle.
     *
     * @param int $pValue Degrees
     *
     * @return int Angle
     */
    public static function degreesToAngle($pValue)
    {
        return (int) round($pValue * 60000);
    }

    /**
     * Convert angle to degrees.
     *
     * @param int $pValue Angle
     *
     * @return int Degrees
     */
    public static function angleToDegrees($pValue)
    {
        if ($pValue != 0) {
            return round($pValue / 60000);
        }

        return 0;
    }

    /**
     * Create a new image from file. By alexander at alexauto dot nl.
     *
     * @see
http://www.php.net/manual/en/function.imagecreatefromwbmp.php#86214
     *
     * @param string $p_sFile Path to Windows DIB (BMP) image
     *
     * @return resource
     */
    public static function imagecreatefrombmp($p_sFile)
    {
        //    Load the image into a string
        $file = fopen($p_sFile, 'rb');
        $read = fread($file, 10);
        while (!feof($file) && ($read != '')) {
            $read .= fread($file, 1024);
        }

        $temp = unpack('H*', $read);
        $hex = $temp[1];
        $header = substr($hex, 0, 108);

        //    Process the header
        //    Structure:
http://www.fastgraph.com/help/bmp_header_format.html
        if (substr($header, 0, 4) == '424d') {
            //    Cut it in parts of 2 bytes
            $header_parts = str_split($header, 2);

            //    Get the width        4 bytes
            $width = hexdec($header_parts[19] . $header_parts[18]);

            //    Get the height        4 bytes
            $height = hexdec($header_parts[23] . $header_parts[22]);

            //    Unset the header params
            unset($header_parts);
        }

        //    Define starting X and Y
        $x = 0;
        $y = 1;

        //    Create newimage
        $image = imagecreatetruecolor($width, $height);

        //    Grab the body from the image
        $body = substr($hex, 108);

        //    Calculate if padding at the end-line is needed
        //    Divided by two to keep overview.
        //    1 byte = 2 HEX-chars
        $body_size = (strlen($body) / 2);
        $header_size = ($width * $height);

        //    Use end-line padding? Only when needed
        $usePadding = ($body_size > ($header_size * 3) + 4);

        //    Using a for-loop with index-calculation instaid of str_split
to avoid large memory consumption
        //    Calculate the next DWORD-position in the body
        for ($i = 0; $i < $body_size; $i += 3) {
            //    Calculate line-ending and padding
            if ($x >= $width) {
                // If padding needed, ignore image-padding
                // Shift i to the ending of the current 32-bit-block
                if ($usePadding) {
                    $i += $width % 4;
                }

                //    Reset horizontal position
                $x = 0;

                //    Raise the height-position (bottom-up)
                ++$y;

                //    Reached the image-height? Break the for-loop
                if ($y > $height) {
                    break;
                }
            }

            // Calculation of the RGB-pixel (defined as BGR in image-data)
            // Define $i_pos as absolute position in the body
            $i_pos = $i * 2;
            $r = hexdec($body[$i_pos + 4] . $body[$i_pos + 5]);
            $g = hexdec($body[$i_pos + 2] . $body[$i_pos + 3]);
            $b = hexdec($body[$i_pos] . $body[$i_pos + 1]);

            // Calculate and draw the pixel
            $color = imagecolorallocate($image, $r, $g, $b);
            imagesetpixel($image, $x, $height - $y, $color);

            // Raise the horizontal position
            ++$x;
        }

        // Unset the body / free the memory
        unset($body);

        //    Return image-object
        return $image;
    }
}
phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/Escher/DgContainer/SpgrContainer/SpContainer.php000064400000016341151165414020031006
0ustar00vendor<?php

namespace PhpOffice\PhpSpreadsheet\Shared\Escher\DgContainer\SpgrContainer;

use PhpOffice\PhpSpreadsheet\Shared\Escher\DgContainer\SpgrContainer;

class SpContainer
{
    /**
     * Parent Shape Group Container.
     *
     * @var SpgrContainer
     */
    private $parent;

    /**
     * Is this a group shape?
     *
     * @var bool
     */
    private $spgr = false;

    /**
     * Shape type.
     *
     * @var int
     */
    private $spType;

    /**
     * Shape flag.
     *
     * @var int
     */
    private $spFlag;

    /**
     * Shape index (usually group shape has index 0, and the rest:
1,2,3...).
     *
     * @var int
     */
    private $spId;

    /**
     * Array of options.
     *
     * @var array
     */
    private $OPT;

    /**
     * Cell coordinates of upper-left corner of shape, e.g. 'A1'.
     *
     * @var string
     */
    private $startCoordinates;

    /**
     * Horizontal offset of upper-left corner of shape measured in 1/1024
of column width.
     *
     * @var int
     */
    private $startOffsetX;

    /**
     * Vertical offset of upper-left corner of shape measured in 1/256 of
row height.
     *
     * @var int
     */
    private $startOffsetY;

    /**
     * Cell coordinates of bottom-right corner of shape, e.g.
'B2'.
     *
     * @var string
     */
    private $endCoordinates;

    /**
     * Horizontal offset of bottom-right corner of shape measured in 1/1024
of column width.
     *
     * @var int
     */
    private $endOffsetX;

    /**
     * Vertical offset of bottom-right corner of shape measured in 1/256 of
row height.
     *
     * @var int
     */
    private $endOffsetY;

    /**
     * Set parent Shape Group Container.
     *
     * @param SpgrContainer $parent
     */
    public function setParent($parent)
    {
        $this->parent = $parent;
    }

    /**
     * Get the parent Shape Group Container.
     *
     * @return SpgrContainer
     */
    public function getParent()
    {
        return $this->parent;
    }

    /**
     * Set whether this is a group shape.
     *
     * @param bool $value
     */
    public function setSpgr($value)
    {
        $this->spgr = $value;
    }

    /**
     * Get whether this is a group shape.
     *
     * @return bool
     */
    public function getSpgr()
    {
        return $this->spgr;
    }

    /**
     * Set the shape type.
     *
     * @param int $value
     */
    public function setSpType($value)
    {
        $this->spType = $value;
    }

    /**
     * Get the shape type.
     *
     * @return int
     */
    public function getSpType()
    {
        return $this->spType;
    }

    /**
     * Set the shape flag.
     *
     * @param int $value
     */
    public function setSpFlag($value)
    {
        $this->spFlag = $value;
    }

    /**
     * Get the shape flag.
     *
     * @return int
     */
    public function getSpFlag()
    {
        return $this->spFlag;
    }

    /**
     * Set the shape index.
     *
     * @param int $value
     */
    public function setSpId($value)
    {
        $this->spId = $value;
    }

    /**
     * Get the shape index.
     *
     * @return int
     */
    public function getSpId()
    {
        return $this->spId;
    }

    /**
     * Set an option for the Shape Group Container.
     *
     * @param int $property The number specifies the option
     * @param mixed $value
     */
    public function setOPT($property, $value)
    {
        $this->OPT[$property] = $value;
    }

    /**
     * Get an option for the Shape Group Container.
     *
     * @param int $property The number specifies the option
     *
     * @return mixed
     */
    public function getOPT($property)
    {
        if (isset($this->OPT[$property])) {
            return $this->OPT[$property];
        }

        return null;
    }

    /**
     * Get the collection of options.
     *
     * @return array
     */
    public function getOPTCollection()
    {
        return $this->OPT;
    }

    /**
     * Set cell coordinates of upper-left corner of shape.
     *
     * @param string $value eg: 'A1'
     */
    public function setStartCoordinates($value)
    {
        $this->startCoordinates = $value;
    }

    /**
     * Get cell coordinates of upper-left corner of shape.
     *
     * @return string
     */
    public function getStartCoordinates()
    {
        return $this->startCoordinates;
    }

    /**
     * Set offset in x-direction of upper-left corner of shape measured in
1/1024 of column width.
     *
     * @param int $startOffsetX
     */
    public function setStartOffsetX($startOffsetX)
    {
        $this->startOffsetX = $startOffsetX;
    }

    /**
     * Get offset in x-direction of upper-left corner of shape measured in
1/1024 of column width.
     *
     * @return int
     */
    public function getStartOffsetX()
    {
        return $this->startOffsetX;
    }

    /**
     * Set offset in y-direction of upper-left corner of shape measured in
1/256 of row height.
     *
     * @param int $startOffsetY
     */
    public function setStartOffsetY($startOffsetY)
    {
        $this->startOffsetY = $startOffsetY;
    }

    /**
     * Get offset in y-direction of upper-left corner of shape measured in
1/256 of row height.
     *
     * @return int
     */
    public function getStartOffsetY()
    {
        return $this->startOffsetY;
    }

    /**
     * Set cell coordinates of bottom-right corner of shape.
     *
     * @param string $value eg: 'A1'
     */
    public function setEndCoordinates($value)
    {
        $this->endCoordinates = $value;
    }

    /**
     * Get cell coordinates of bottom-right corner of shape.
     *
     * @return string
     */
    public function getEndCoordinates()
    {
        return $this->endCoordinates;
    }

    /**
     * Set offset in x-direction of bottom-right corner of shape measured
in 1/1024 of column width.
     *
     * @param int $endOffsetX
     */
    public function setEndOffsetX($endOffsetX)
    {
        $this->endOffsetX = $endOffsetX;
    }

    /**
     * Get offset in x-direction of bottom-right corner of shape measured
in 1/1024 of column width.
     *
     * @return int
     */
    public function getEndOffsetX()
    {
        return $this->endOffsetX;
    }

    /**
     * Set offset in y-direction of bottom-right corner of shape measured
in 1/256 of row height.
     *
     * @param int $endOffsetY
     */
    public function setEndOffsetY($endOffsetY)
    {
        $this->endOffsetY = $endOffsetY;
    }

    /**
     * Get offset in y-direction of bottom-right corner of shape measured
in 1/256 of row height.
     *
     * @return int
     */
    public function getEndOffsetY()
    {
        return $this->endOffsetY;
    }

    /**
     * Get the nesting level of this spContainer. This is the number of
spgrContainers between this spContainer and
     * the dgContainer. A value of 1 = immediately within first
spgrContainer
     * Higher nesting level occurs if and only if spContainer is part of a
shape group.
     *
     * @return int Nesting level
     */
    public function getNestingLevel()
    {
        $nestingLevel = 0;

        $parent = $this->getParent();
        while ($parent instanceof SpgrContainer) {
            ++$nestingLevel;
            $parent = $parent->getParent();
        }

        return $nestingLevel;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/Escher/DgContainer/SpgrContainer.php000064400000003310151165414020026630
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Shared\Escher\DgContainer;

class SpgrContainer
{
    /**
     * Parent Shape Group Container.
     *
     * @var
\PhpOffice\PhpSpreadsheet\Shared\Escher\DgContainer\SpgrContainer
     */
    private $parent;

    /**
     * Shape Container collection.
     *
     * @var array
     */
    private $children = [];

    /**
     * Set parent Shape Group Container.
     *
     * @param
\PhpOffice\PhpSpreadsheet\Shared\Escher\DgContainer\SpgrContainer $parent
     */
    public function setParent($parent)
    {
        $this->parent = $parent;
    }

    /**
     * Get the parent Shape Group Container if any.
     *
     * @return
null|\PhpOffice\PhpSpreadsheet\Shared\Escher\DgContainer\SpgrContainer
     */
    public function getParent()
    {
        return $this->parent;
    }

    /**
     * Add a child. This will be either spgrContainer or spContainer.
     *
     * @param mixed $child
     */
    public function addChild($child)
    {
        $this->children[] = $child;
        $child->setParent($this);
    }

    /**
     * Get collection of Shape Containers.
     */
    public function getChildren()
    {
        return $this->children;
    }

    /**
     * Recursively get all spContainers within this spgrContainer.
     *
     * @return SpgrContainer\SpContainer[]
     */
    public function getAllSpContainers()
    {
        $allSpContainers = [];

        foreach ($this->children as $child) {
            if ($child instanceof self) {
                $allSpContainers = array_merge($allSpContainers,
$child->getAllSpContainers());
            } else {
                $allSpContainers[] = $child;
            }
        }

        return $allSpContainers;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/Escher/DgContainer.php000064400000001473151165414020024062
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Shared\Escher;

class DgContainer
{
    /**
     * Drawing index, 1-based.
     *
     * @var int
     */
    private $dgId;

    /**
     * Last shape index in this drawing.
     *
     * @var int
     */
    private $lastSpId;

    private $spgrContainer;

    public function getDgId()
    {
        return $this->dgId;
    }

    public function setDgId($value)
    {
        $this->dgId = $value;
    }

    public function getLastSpId()
    {
        return $this->lastSpId;
    }

    public function setLastSpId($value)
    {
        $this->lastSpId = $value;
    }

    public function getSpgrContainer()
    {
        return $this->spgrContainer;
    }

    public function setSpgrContainer($spgrContainer)
    {
        return $this->spgrContainer = $spgrContainer;
    }
}
phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/Escher/DggContainer/BstoreContainer/BSE/Blip.php000064400000002103151165414020030541
0ustar00vendor<?php

namespace
PhpOffice\PhpSpreadsheet\Shared\Escher\DggContainer\BstoreContainer\BSE;

class Blip
{
    /**
     * The parent BSE.
     *
     * @var
\PhpOffice\PhpSpreadsheet\Shared\Escher\DggContainer\BstoreContainer\BSE
     */
    private $parent;

    /**
     * Raw image data.
     *
     * @var string
     */
    private $data;

    /**
     * Get the raw image data.
     *
     * @return string
     */
    public function getData()
    {
        return $this->data;
    }

    /**
     * Set the raw image data.
     *
     * @param string $data
     */
    public function setData($data)
    {
        $this->data = $data;
    }

    /**
     * Set parent BSE.
     *
     * @param
\PhpOffice\PhpSpreadsheet\Shared\Escher\DggContainer\BstoreContainer\BSE
$parent
     */
    public function setParent($parent)
    {
        $this->parent = $parent;
    }

    /**
     * Get parent BSE.
     *
     * @return
\PhpOffice\PhpSpreadsheet\Shared\Escher\DggContainer\BstoreContainer\BSE
$parent
     */
    public function getParent()
    {
        return $this->parent;
    }
}
phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/Escher/DggContainer/BstoreContainer/BSE.php000064400000003214151165414020027657
0ustar00vendor<?php

namespace
PhpOffice\PhpSpreadsheet\Shared\Escher\DggContainer\BstoreContainer;

class BSE
{
    const BLIPTYPE_ERROR = 0x00;
    const BLIPTYPE_UNKNOWN = 0x01;
    const BLIPTYPE_EMF = 0x02;
    const BLIPTYPE_WMF = 0x03;
    const BLIPTYPE_PICT = 0x04;
    const BLIPTYPE_JPEG = 0x05;
    const BLIPTYPE_PNG = 0x06;
    const BLIPTYPE_DIB = 0x07;
    const BLIPTYPE_TIFF = 0x11;
    const BLIPTYPE_CMYKJPEG = 0x12;

    /**
     * The parent BLIP Store Entry Container.
     *
     * @var
\PhpOffice\PhpSpreadsheet\Shared\Escher\DggContainer\BstoreContainer
     */
    private $parent;

    /**
     * The BLIP (Big Large Image or Picture).
     *
     * @var BSE\Blip
     */
    private $blip;

    /**
     * The BLIP type.
     *
     * @var int
     */
    private $blipType;

    /**
     * Set parent BLIP Store Entry Container.
     *
     * @param
\PhpOffice\PhpSpreadsheet\Shared\Escher\DggContainer\BstoreContainer
$parent
     */
    public function setParent($parent)
    {
        $this->parent = $parent;
    }

    /**
     * Get the BLIP.
     *
     * @return BSE\Blip
     */
    public function getBlip()
    {
        return $this->blip;
    }

    /**
     * Set the BLIP.
     *
     * @param BSE\Blip $blip
     */
    public function setBlip($blip)
    {
        $this->blip = $blip;
        $blip->setParent($this);
    }

    /**
     * Get the BLIP type.
     *
     * @return int
     */
    public function getBlipType()
    {
        return $this->blipType;
    }

    /**
     * Set the BLIP type.
     *
     * @param int $blipType
     */
    public function setBlipType($blipType)
    {
        $this->blipType = $blipType;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/Escher/DggContainer/BstoreContainer.php000064400000001230151165414020027321
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Shared\Escher\DggContainer;

class BstoreContainer
{
    /**
     * BLIP Store Entries. Each of them holds one BLIP (Big Large Image or
Picture).
     *
     * @var array
     */
    private $BSECollection = [];

    /**
     * Add a BLIP Store Entry.
     *
     * @param BstoreContainer\BSE $BSE
     */
    public function addBSE($BSE)
    {
        $this->BSECollection[] = $BSE;
        $BSE->setParent($this);
    }

    /**
     * Get the collection of BLIP Store Entries.
     *
     * @return BstoreContainer\BSE[]
     */
    public function getBSECollection()
    {
        return $this->BSECollection;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/Escher/DggContainer.php000064400000006401151165414020024225
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Shared\Escher;

class DggContainer
{
    /**
     * Maximum shape index of all shapes in all drawings increased by one.
     *
     * @var int
     */
    private $spIdMax;

    /**
     * Total number of drawings saved.
     *
     * @var int
     */
    private $cDgSaved;

    /**
     * Total number of shapes saved (including group shapes).
     *
     * @var int
     */
    private $cSpSaved;

    /**
     * BLIP Store Container.
     *
     * @var DggContainer\BstoreContainer
     */
    private $bstoreContainer;

    /**
     * Array of options for the drawing group.
     *
     * @var array
     */
    private $OPT = [];

    /**
     * Array of identifier clusters containg information about the maximum
shape identifiers.
     *
     * @var array
     */
    private $IDCLs = [];

    /**
     * Get maximum shape index of all shapes in all drawings (plus one).
     *
     * @return int
     */
    public function getSpIdMax()
    {
        return $this->spIdMax;
    }

    /**
     * Set maximum shape index of all shapes in all drawings (plus one).
     *
     * @param int $value
     */
    public function setSpIdMax($value)
    {
        $this->spIdMax = $value;
    }

    /**
     * Get total number of drawings saved.
     *
     * @return int
     */
    public function getCDgSaved()
    {
        return $this->cDgSaved;
    }

    /**
     * Set total number of drawings saved.
     *
     * @param int $value
     */
    public function setCDgSaved($value)
    {
        $this->cDgSaved = $value;
    }

    /**
     * Get total number of shapes saved (including group shapes).
     *
     * @return int
     */
    public function getCSpSaved()
    {
        return $this->cSpSaved;
    }

    /**
     * Set total number of shapes saved (including group shapes).
     *
     * @param int $value
     */
    public function setCSpSaved($value)
    {
        $this->cSpSaved = $value;
    }

    /**
     * Get BLIP Store Container.
     *
     * @return DggContainer\BstoreContainer
     */
    public function getBstoreContainer()
    {
        return $this->bstoreContainer;
    }

    /**
     * Set BLIP Store Container.
     *
     * @param DggContainer\BstoreContainer $bstoreContainer
     */
    public function setBstoreContainer($bstoreContainer)
    {
        $this->bstoreContainer = $bstoreContainer;
    }

    /**
     * Set an option for the drawing group.
     *
     * @param int $property The number specifies the option
     * @param mixed $value
     */
    public function setOPT($property, $value)
    {
        $this->OPT[$property] = $value;
    }

    /**
     * Get an option for the drawing group.
     *
     * @param int $property The number specifies the option
     *
     * @return mixed
     */
    public function getOPT($property)
    {
        if (isset($this->OPT[$property])) {
            return $this->OPT[$property];
        }

        return null;
    }

    /**
     * Get identifier clusters.
     *
     * @return array
     */
    public function getIDCLs()
    {
        return $this->IDCLs;
    }

    /**
     * Set identifier clusters. [<drawingId> => <max shape
id>, ...].
     *
     * @param array $pValue
     */
    public function setIDCLs($pValue)
    {
        $this->IDCLs = $pValue;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/Escher.php000064400000002207151165414020021661
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Shared;

class Escher
{
    /**
     * Drawing Group Container.
     *
     * @var Escher\DggContainer
     */
    private $dggContainer;

    /**
     * Drawing Container.
     *
     * @var Escher\DgContainer
     */
    private $dgContainer;

    /**
     * Get Drawing Group Container.
     *
     * @return Escher\DggContainer
     */
    public function getDggContainer()
    {
        return $this->dggContainer;
    }

    /**
     * Set Drawing Group Container.
     *
     * @param Escher\DggContainer $dggContainer
     *
     * @return Escher\DggContainer
     */
    public function setDggContainer($dggContainer)
    {
        return $this->dggContainer = $dggContainer;
    }

    /**
     * Get Drawing Container.
     *
     * @return Escher\DgContainer
     */
    public function getDgContainer()
    {
        return $this->dgContainer;
    }

    /**
     * Set Drawing Container.
     *
     * @param Escher\DgContainer $dgContainer
     *
     * @return Escher\DgContainer
     */
    public function setDgContainer($dgContainer)
    {
        return $this->dgContainer = $dgContainer;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/File.php000064400000010021151165414020021320
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Shared;

use InvalidArgumentException;
use ZipArchive;

class File
{
    /**
     * Use Temp or File Upload Temp for temporary files.
     *
     * @var bool
     */
    protected static $useUploadTempDirectory = false;

    /**
     * Set the flag indicating whether the File Upload Temp directory
should be used for temporary files.
     *
     * @param bool $useUploadTempDir Use File Upload Temporary directory
(true or false)
     */
    public static function setUseUploadTempDirectory($useUploadTempDir)
    {
        self::$useUploadTempDirectory = (bool) $useUploadTempDir;
    }

    /**
     * Get the flag indicating whether the File Upload Temp directory
should be used for temporary files.
     *
     * @return bool Use File Upload Temporary directory (true or false)
     */
    public static function getUseUploadTempDirectory()
    {
        return self::$useUploadTempDirectory;
    }

    /**
     * Verify if a file exists.
     *
     * @param string $pFilename Filename
     *
     * @return bool
     */
    public static function fileExists($pFilename)
    {
        // Sick construction, but it seems that
        // file_exists returns strange values when
        // doing the original file_exists on ZIP archives...
        if (strtolower(substr($pFilename, 0, 3)) == 'zip') {
            // Open ZIP file and verify if the file exists
            $zipFile = substr($pFilename, 6, strpos($pFilename,
'#') - 6);
            $archiveFile = substr($pFilename, strpos($pFilename,
'#') + 1);

            $zip = new ZipArchive();
            if ($zip->open($zipFile) === true) {
                $returnValue = ($zip->getFromName($archiveFile) !==
false);
                $zip->close();

                return $returnValue;
            }

            return false;
        }

        return file_exists($pFilename);
    }

    /**
     * Returns canonicalized absolute pathname, also for ZIP archives.
     *
     * @param string $pFilename
     *
     * @return string
     */
    public static function realpath($pFilename)
    {
        // Returnvalue
        $returnValue = '';

        // Try using realpath()
        if (file_exists($pFilename)) {
            $returnValue = realpath($pFilename);
        }

        // Found something?
        if ($returnValue == '' || ($returnValue === null)) {
            $pathArray = explode('/', $pFilename);
            while (in_array('..', $pathArray) &&
$pathArray[0] != '..') {
                $iMax = count($pathArray);
                for ($i = 0; $i < $iMax; ++$i) {
                    if ($pathArray[$i] == '..' && $i >
0) {
                        unset($pathArray[$i], $pathArray[$i - 1]);

                        break;
                    }
                }
            }
            $returnValue = implode('/', $pathArray);
        }

        // Return
        return $returnValue;
    }

    /**
     * Get the systems temporary directory.
     *
     * @return string
     */
    public static function sysGetTempDir()
    {
        if (self::$useUploadTempDirectory) {
            //  use upload-directory when defined to allow running on
environments having very restricted
            //      open_basedir configs
            if (ini_get('upload_tmp_dir') !== false) {
                if ($temp = ini_get('upload_tmp_dir')) {
                    if (file_exists($temp)) {
                        return realpath($temp);
                    }
                }
            }
        }

        return realpath(sys_get_temp_dir());
    }

    /**
     * Assert that given path is an existing file and is readable,
otherwise throw exception.
     *
     * @param string $filename
     *
     * @throws InvalidArgumentException
     */
    public static function assertFile($filename)
    {
        if (!is_file($filename)) {
            throw new InvalidArgumentException('File "' .
$filename . '" does not exist.');
        }

        if (!is_readable($filename)) {
            throw new InvalidArgumentException('Could not open
"' . $filename . '" for reading.');
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/Font.php000064400000064651151165414020021371
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Shared;

use PhpOffice\PhpSpreadsheet\Exception as PhpSpreadsheetException;
use PhpOffice\PhpSpreadsheet\RichText\RichText;

class Font
{
    // Methods for resolving autosize value
    const AUTOSIZE_METHOD_APPROX = 'approx';
    const AUTOSIZE_METHOD_EXACT = 'exact';

    private static $autoSizeMethods = [
        self::AUTOSIZE_METHOD_APPROX,
        self::AUTOSIZE_METHOD_EXACT,
    ];

    /** Character set codes used by BIFF5-8 in Font records */
    const CHARSET_ANSI_LATIN = 0x00;
    const CHARSET_SYSTEM_DEFAULT = 0x01;
    const CHARSET_SYMBOL = 0x02;
    const CHARSET_APPLE_ROMAN = 0x4D;
    const CHARSET_ANSI_JAPANESE_SHIFTJIS = 0x80;
    const CHARSET_ANSI_KOREAN_HANGUL = 0x81;
    const CHARSET_ANSI_KOREAN_JOHAB = 0x82;
    const CHARSET_ANSI_CHINESE_SIMIPLIFIED = 0x86; //    gb2312
    const CHARSET_ANSI_CHINESE_TRADITIONAL = 0x88; //    big5
    const CHARSET_ANSI_GREEK = 0xA1;
    const CHARSET_ANSI_TURKISH = 0xA2;
    const CHARSET_ANSI_VIETNAMESE = 0xA3;
    const CHARSET_ANSI_HEBREW = 0xB1;
    const CHARSET_ANSI_ARABIC = 0xB2;
    const CHARSET_ANSI_BALTIC = 0xBA;
    const CHARSET_ANSI_CYRILLIC = 0xCC;
    const CHARSET_ANSI_THAI = 0xDD;
    const CHARSET_ANSI_LATIN_II = 0xEE;
    const CHARSET_OEM_LATIN_I = 0xFF;

    //  XXX: Constants created!
    /** Font filenames */
    const ARIAL = 'arial.ttf';
    const ARIAL_BOLD = 'arialbd.ttf';
    const ARIAL_ITALIC = 'ariali.ttf';
    const ARIAL_BOLD_ITALIC = 'arialbi.ttf';

    const CALIBRI = 'CALIBRI.TTF';
    const CALIBRI_BOLD = 'CALIBRIB.TTF';
    const CALIBRI_ITALIC = 'CALIBRII.TTF';
    const CALIBRI_BOLD_ITALIC = 'CALIBRIZ.TTF';

    const COMIC_SANS_MS = 'comic.ttf';
    const COMIC_SANS_MS_BOLD = 'comicbd.ttf';

    const COURIER_NEW = 'cour.ttf';
    const COURIER_NEW_BOLD = 'courbd.ttf';
    const COURIER_NEW_ITALIC = 'couri.ttf';
    const COURIER_NEW_BOLD_ITALIC = 'courbi.ttf';

    const GEORGIA = 'georgia.ttf';
    const GEORGIA_BOLD = 'georgiab.ttf';
    const GEORGIA_ITALIC = 'georgiai.ttf';
    const GEORGIA_BOLD_ITALIC = 'georgiaz.ttf';

    const IMPACT = 'impact.ttf';

    const LIBERATION_SANS = 'LiberationSans-Regular.ttf';
    const LIBERATION_SANS_BOLD = 'LiberationSans-Bold.ttf';
    const LIBERATION_SANS_ITALIC = 'LiberationSans-Italic.ttf';
    const LIBERATION_SANS_BOLD_ITALIC =
'LiberationSans-BoldItalic.ttf';

    const LUCIDA_CONSOLE = 'lucon.ttf';
    const LUCIDA_SANS_UNICODE = 'l_10646.ttf';

    const MICROSOFT_SANS_SERIF = 'micross.ttf';

    const PALATINO_LINOTYPE = 'pala.ttf';
    const PALATINO_LINOTYPE_BOLD = 'palab.ttf';
    const PALATINO_LINOTYPE_ITALIC = 'palai.ttf';
    const PALATINO_LINOTYPE_BOLD_ITALIC = 'palabi.ttf';

    const SYMBOL = 'symbol.ttf';

    const TAHOMA = 'tahoma.ttf';
    const TAHOMA_BOLD = 'tahomabd.ttf';

    const TIMES_NEW_ROMAN = 'times.ttf';
    const TIMES_NEW_ROMAN_BOLD = 'timesbd.ttf';
    const TIMES_NEW_ROMAN_ITALIC = 'timesi.ttf';
    const TIMES_NEW_ROMAN_BOLD_ITALIC = 'timesbi.ttf';

    const TREBUCHET_MS = 'trebuc.ttf';
    const TREBUCHET_MS_BOLD = 'trebucbd.ttf';
    const TREBUCHET_MS_ITALIC = 'trebucit.ttf';
    const TREBUCHET_MS_BOLD_ITALIC = 'trebucbi.ttf';

    const VERDANA = 'verdana.ttf';
    const VERDANA_BOLD = 'verdanab.ttf';
    const VERDANA_ITALIC = 'verdanai.ttf';
    const VERDANA_BOLD_ITALIC = 'verdanaz.ttf';

    /**
     * AutoSize method.
     *
     * @var string
     */
    private static $autoSizeMethod = self::AUTOSIZE_METHOD_APPROX;

    /**
     * Path to folder containing TrueType font .ttf files.
     *
     * @var string
     */
    private static $trueTypeFontPath = null;

    /**
     * How wide is a default column for a given default font and size?
     * Empirical data found by inspecting real Excel files and reading off
the pixel width
     * in Microsoft Office Excel 2007.
     *
     * @var array
     */
    public static $defaultColumnWidths = [
        'Arial' => [
            1 => ['px' => 24, 'width' =>
12.00000000],
            2 => ['px' => 24, 'width' =>
12.00000000],
            3 => ['px' => 32, 'width' =>
10.66406250],
            4 => ['px' => 32, 'width' =>
10.66406250],
            5 => ['px' => 40, 'width' =>
10.00000000],
            6 => ['px' => 48, 'width' =>
9.59765625],
            7 => ['px' => 48, 'width' =>
9.59765625],
            8 => ['px' => 56, 'width' =>
9.33203125],
            9 => ['px' => 64, 'width' =>
9.14062500],
            10 => ['px' => 64, 'width' =>
9.14062500],
        ],
        'Calibri' => [
            1 => ['px' => 24, 'width' =>
12.00000000],
            2 => ['px' => 24, 'width' =>
12.00000000],
            3 => ['px' => 32, 'width' =>
10.66406250],
            4 => ['px' => 32, 'width' =>
10.66406250],
            5 => ['px' => 40, 'width' =>
10.00000000],
            6 => ['px' => 48, 'width' =>
9.59765625],
            7 => ['px' => 48, 'width' =>
9.59765625],
            8 => ['px' => 56, 'width' =>
9.33203125],
            9 => ['px' => 56, 'width' =>
9.33203125],
            10 => ['px' => 64, 'width' =>
9.14062500],
            11 => ['px' => 64, 'width' =>
9.14062500],
        ],
        'Verdana' => [
            1 => ['px' => 24, 'width' =>
12.00000000],
            2 => ['px' => 24, 'width' =>
12.00000000],
            3 => ['px' => 32, 'width' =>
10.66406250],
            4 => ['px' => 32, 'width' =>
10.66406250],
            5 => ['px' => 40, 'width' =>
10.00000000],
            6 => ['px' => 48, 'width' =>
9.59765625],
            7 => ['px' => 48, 'width' =>
9.59765625],
            8 => ['px' => 64, 'width' =>
9.14062500],
            9 => ['px' => 72, 'width' =>
9.00000000],
            10 => ['px' => 72, 'width' =>
9.00000000],
        ],
    ];

    /**
     * Set autoSize method.
     *
     * @param string $pValue see self::AUTOSIZE_METHOD_*
     *
     * @return bool Success or failure
     */
    public static function setAutoSizeMethod($pValue)
    {
        if (!in_array($pValue, self::$autoSizeMethods)) {
            return false;
        }
        self::$autoSizeMethod = $pValue;

        return true;
    }

    /**
     * Get autoSize method.
     *
     * @return string
     */
    public static function getAutoSizeMethod()
    {
        return self::$autoSizeMethod;
    }

    /**
     * Set the path to the folder containing .ttf files. There should be a
trailing slash.
     * Typical locations on variout some platforms:
     *    <ul>
     *        <li>C:/Windows/Fonts/</li>
     *        <li>/usr/share/fonts/truetype/</li>
     *        <li>~/.fonts/</li>
     * </ul>.
     *
     * @param string $pValue
     */
    public static function setTrueTypeFontPath($pValue)
    {
        self::$trueTypeFontPath = $pValue;
    }

    /**
     * Get the path to the folder containing .ttf files.
     *
     * @return string
     */
    public static function getTrueTypeFontPath()
    {
        return self::$trueTypeFontPath;
    }

    /**
     * Calculate an (approximate) OpenXML column width, based on font size
and text contained.
     *
     * @param \PhpOffice\PhpSpreadsheet\Style\Font $font Font object
     * @param RichText|string $cellText Text to calculate width
     * @param int $rotation Rotation angle
     * @param null|\PhpOffice\PhpSpreadsheet\Style\Font $defaultFont Font
object
     *
     * @return int Column width
     */
    public static function
calculateColumnWidth(\PhpOffice\PhpSpreadsheet\Style\Font $font, $cellText
= '', $rotation = 0, \PhpOffice\PhpSpreadsheet\Style\Font
$defaultFont = null)
    {
        // If it is rich text, use plain text
        if ($cellText instanceof RichText) {
            $cellText = $cellText->getPlainText();
        }

        // Special case if there are one or more newline characters
("\n")
        if (strpos($cellText, "\n") !== false) {
            $lineTexts = explode("\n", $cellText);
            $lineWidths = [];
            foreach ($lineTexts as $lineText) {
                $lineWidths[] = self::calculateColumnWidth($font,
$lineText, $rotation = 0, $defaultFont);
            }

            return max($lineWidths); // width of longest line in cell
        }

        // Try to get the exact text width in pixels
        $approximate = self::$autoSizeMethod ==
self::AUTOSIZE_METHOD_APPROX;
        if (!$approximate) {
            $columnWidthAdjust =
ceil(self::getTextWidthPixelsExact('n', $font, 0) * 1.07);

            try {
                // Width of text in pixels excl. padding
                // and addition because Excel adds some padding, just use
approx width of 'n' glyph
                $columnWidth = self::getTextWidthPixelsExact($cellText,
$font, $rotation) + $columnWidthAdjust;
            } catch (PhpSpreadsheetException $e) {
                $approximate = true;
            }
        }

        if ($approximate) {
            $columnWidthAdjust =
self::getTextWidthPixelsApprox('n', $font, 0);
            // Width of text in pixels excl. padding, approximation
            // and addition because Excel adds some padding, just use
approx width of 'n' glyph
            $columnWidth = self::getTextWidthPixelsApprox($cellText, $font,
$rotation) + $columnWidthAdjust;
        }

        // Convert from pixel width to column width
        $columnWidth = Drawing::pixelsToCellDimension($columnWidth,
$defaultFont);

        // Return
        return round($columnWidth, 6);
    }

    /**
     * Get GD text width in pixels for a string of text in a certain font
at a certain rotation angle.
     *
     * @param string $text
     * @param \PhpOffice\PhpSpreadsheet\Style\Font
     * @param int $rotation
     *
     * @throws PhpSpreadsheetException
     *
     * @return int
     */
    public static function getTextWidthPixelsExact($text,
\PhpOffice\PhpSpreadsheet\Style\Font $font, $rotation = 0)
    {
        if (!function_exists('imagettfbbox')) {
            throw new PhpSpreadsheetException('GD library needs to be
enabled');
        }

        // font size should really be supplied in pixels in GD2,
        // but since GD2 seems to assume 72dpi, pixels and points are the
same
        $fontFile = self::getTrueTypeFontFileFromFont($font);
        $textBox = imagettfbbox($font->getSize(), $rotation, $fontFile,
$text);

        // Get corners positions
        $lowerLeftCornerX = $textBox[0];
        $lowerRightCornerX = $textBox[2];
        $upperRightCornerX = $textBox[4];
        $upperLeftCornerX = $textBox[6];

        // Consider the rotation when calculating the width
        return max($lowerRightCornerX - $upperLeftCornerX,
$upperRightCornerX - $lowerLeftCornerX);
    }

    /**
     * Get approximate width in pixels for a string of text in a certain
font at a certain rotation angle.
     *
     * @param string $columnText
     * @param \PhpOffice\PhpSpreadsheet\Style\Font $font
     * @param int $rotation
     *
     * @return int Text width in pixels (no padding added)
     */
    public static function getTextWidthPixelsApprox($columnText,
\PhpOffice\PhpSpreadsheet\Style\Font $font, $rotation = 0)
    {
        $fontName = $font->getName();
        $fontSize = $font->getSize();

        // Calculate column width in pixels. We assume fixed glyph width.
Result varies with font name and size.
        switch ($fontName) {
            case 'Calibri':
                // value 8.26 was found via interpolation by inspecting
real Excel files with Calibri 11 font.
                $columnWidth = (int) (8.26 *
StringHelper::countCharacters($columnText));
                $columnWidth = $columnWidth * $fontSize / 11; //
extrapolate from font size
                break;
            case 'Arial':
                // value 8 was set because of experience in different
exports at Arial 10 font.
                $columnWidth = (int) (8 *
StringHelper::countCharacters($columnText));
                $columnWidth = $columnWidth * $fontSize / 10; //
extrapolate from font size
                break;
            case 'Verdana':
                // value 8 was found via interpolation by inspecting real
Excel files with Verdana 10 font.
                $columnWidth = (int) (8 *
StringHelper::countCharacters($columnText));
                $columnWidth = $columnWidth * $fontSize / 10; //
extrapolate from font size
                break;
            default:
                // just assume Calibri
                $columnWidth = (int) (8.26 *
StringHelper::countCharacters($columnText));
                $columnWidth = $columnWidth * $fontSize / 11; //
extrapolate from font size
                break;
        }

        // Calculate approximate rotated column width
        if ($rotation !== 0) {
            if ($rotation == -165) {
                // stacked text
                $columnWidth = 4; // approximation
            } else {
                // rotated text
                $columnWidth = $columnWidth * cos(deg2rad($rotation))
                                + $fontSize * abs(sin(deg2rad($rotation)))
/ 5; // approximation
            }
        }

        // pixel width is an integer
        return (int) $columnWidth;
    }

    /**
     * Calculate an (approximate) pixel size, based on a font points size.
     *
     * @param int $fontSizeInPoints Font size (in points)
     *
     * @return int Font size (in pixels)
     */
    public static function fontSizeToPixels($fontSizeInPoints)
    {
        return (int) ((4 / 3) * $fontSizeInPoints);
    }

    /**
     * Calculate an (approximate) pixel size, based on inch size.
     *
     * @param int $sizeInInch Font size (in inch)
     *
     * @return int Size (in pixels)
     */
    public static function inchSizeToPixels($sizeInInch)
    {
        return $sizeInInch * 96;
    }

    /**
     * Calculate an (approximate) pixel size, based on centimeter size.
     *
     * @param int $sizeInCm Font size (in centimeters)
     *
     * @return float Size (in pixels)
     */
    public static function centimeterSizeToPixels($sizeInCm)
    {
        return $sizeInCm * 37.795275591;
    }

    /**
     * Returns the font path given the font.
     *
     * @param \PhpOffice\PhpSpreadsheet\Style\Font $font
     *
     * @return string Path to TrueType font file
     */
    public static function getTrueTypeFontFileFromFont($font)
    {
        if (!file_exists(self::$trueTypeFontPath) ||
!is_dir(self::$trueTypeFontPath)) {
            throw new PhpSpreadsheetException('Valid directory to
TrueType Font files not specified');
        }

        $name = $font->getName();
        $bold = $font->getBold();
        $italic = $font->getItalic();

        // Check if we can map font to true type font file
        switch ($name) {
            case 'Arial':
                $fontFile = (
                    $bold ? ($italic ? self::ARIAL_BOLD_ITALIC :
self::ARIAL_BOLD)
                          : ($italic ? self::ARIAL_ITALIC : self::ARIAL)
                );

                break;
            case 'Calibri':
                $fontFile = (
                    $bold ? ($italic ? self::CALIBRI_BOLD_ITALIC :
self::CALIBRI_BOLD)
                          : ($italic ? self::CALIBRI_ITALIC :
self::CALIBRI)
                );

                break;
            case 'Courier New':
                $fontFile = (
                    $bold ? ($italic ? self::COURIER_NEW_BOLD_ITALIC :
self::COURIER_NEW_BOLD)
                          : ($italic ? self::COURIER_NEW_ITALIC :
self::COURIER_NEW)
                );

                break;
            case 'Comic Sans MS':
                $fontFile = (
                    $bold ? self::COMIC_SANS_MS_BOLD : self::COMIC_SANS_MS
                );

                break;
            case 'Georgia':
                $fontFile = (
                    $bold ? ($italic ? self::GEORGIA_BOLD_ITALIC :
self::GEORGIA_BOLD)
                          : ($italic ? self::GEORGIA_ITALIC :
self::GEORGIA)
                );

                break;
            case 'Impact':
                $fontFile = self::IMPACT;

                break;
            case 'Liberation Sans':
                $fontFile = (
                    $bold ? ($italic ? self::LIBERATION_SANS_BOLD_ITALIC :
self::LIBERATION_SANS_BOLD)
                          : ($italic ? self::LIBERATION_SANS_ITALIC :
self::LIBERATION_SANS)
                );

                break;
            case 'Lucida Console':
                $fontFile = self::LUCIDA_CONSOLE;

                break;
            case 'Lucida Sans Unicode':
                $fontFile = self::LUCIDA_SANS_UNICODE;

                break;
            case 'Microsoft Sans Serif':
                $fontFile = self::MICROSOFT_SANS_SERIF;

                break;
            case 'Palatino Linotype':
                $fontFile = (
                    $bold ? ($italic ? self::PALATINO_LINOTYPE_BOLD_ITALIC
: self::PALATINO_LINOTYPE_BOLD)
                          : ($italic ? self::PALATINO_LINOTYPE_ITALIC :
self::PALATINO_LINOTYPE)
                );

                break;
            case 'Symbol':
                $fontFile = self::SYMBOL;

                break;
            case 'Tahoma':
                $fontFile = (
                    $bold ? self::TAHOMA_BOLD : self::TAHOMA
                );

                break;
            case 'Times New Roman':
                $fontFile = (
                    $bold ? ($italic ? self::TIMES_NEW_ROMAN_BOLD_ITALIC :
self::TIMES_NEW_ROMAN_BOLD)
                          : ($italic ? self::TIMES_NEW_ROMAN_ITALIC :
self::TIMES_NEW_ROMAN)
                );

                break;
            case 'Trebuchet MS':
                $fontFile = (
                    $bold ? ($italic ? self::TREBUCHET_MS_BOLD_ITALIC :
self::TREBUCHET_MS_BOLD)
                          : ($italic ? self::TREBUCHET_MS_ITALIC :
self::TREBUCHET_MS)
                );

                break;
            case 'Verdana':
                $fontFile = (
                    $bold ? ($italic ? self::VERDANA_BOLD_ITALIC :
self::VERDANA_BOLD)
                          : ($italic ? self::VERDANA_ITALIC :
self::VERDANA)
                );

                break;
            default:
                throw new PhpSpreadsheetException('Unknown font name
"' . $name . '". Cannot map to TrueType font
file');

                break;
        }

        $fontFile = self::$trueTypeFontPath . $fontFile;

        // Check if file actually exists
        if (!file_exists($fontFile)) {
            throw new PhpSpreadsheetException('TrueType Font file not
found');
        }

        return $fontFile;
    }

    /**
     * Returns the associated charset for the font name.
     *
     * @param string $name Font name
     *
     * @return int Character set code
     */
    public static function getCharsetFromFontName($name)
    {
        switch ($name) {
            // Add more cases. Check FONT records in real Excel files.
            case 'EucrosiaUPC':
                return self::CHARSET_ANSI_THAI;
            case 'Wingdings':
                return self::CHARSET_SYMBOL;
            case 'Wingdings 2':
                return self::CHARSET_SYMBOL;
            case 'Wingdings 3':
                return self::CHARSET_SYMBOL;
            default:
                return self::CHARSET_ANSI_LATIN;
        }
    }

    /**
     * Get the effective column width for columns without a column
dimension or column with width -1
     * For example, for Calibri 11 this is 9.140625 (64 px).
     *
     * @param \PhpOffice\PhpSpreadsheet\Style\Font $font The workbooks
default font
     * @param bool $pPixels true = return column width in pixels, false =
return in OOXML units
     *
     * @return mixed Column width
     */
    public static function
getDefaultColumnWidthByFont(\PhpOffice\PhpSpreadsheet\Style\Font $font,
$pPixels = false)
    {
        if
(isset(self::$defaultColumnWidths[$font->getName()][$font->getSize()]))
{
            // Exact width can be determined
            $columnWidth = $pPixels ?
               
self::$defaultColumnWidths[$font->getName()][$font->getSize()]['px']
                    :
self::$defaultColumnWidths[$font->getName()][$font->getSize()]['width'];
        } else {
            // We don't have data for this particular font and size,
use approximation by
            // extrapolating from Calibri 11
            $columnWidth = $pPixels ?
               
self::$defaultColumnWidths['Calibri'][11]['px']
                    :
self::$defaultColumnWidths['Calibri'][11]['width'];
            $columnWidth = $columnWidth * $font->getSize() / 11;

            // Round pixels to closest integer
            if ($pPixels) {
                $columnWidth = (int) round($columnWidth);
            }
        }

        return $columnWidth;
    }

    /**
     * Get the effective row height for rows without a row dimension or
rows with height -1
     * For example, for Calibri 11 this is 15 points.
     *
     * @param \PhpOffice\PhpSpreadsheet\Style\Font $font The workbooks
default font
     *
     * @return float Row height in points
     */
    public static function
getDefaultRowHeightByFont(\PhpOffice\PhpSpreadsheet\Style\Font $font)
    {
        switch ($font->getName()) {
            case 'Arial':
                switch ($font->getSize()) {
                    case 10:
                        // inspection of Arial 10 workbook says 12.75pt
~17px
                        $rowHeight = 12.75;

                        break;
                    case 9:
                        // inspection of Arial 9 workbook says 12.00pt
~16px
                        $rowHeight = 12;

                        break;
                    case 8:
                        // inspection of Arial 8 workbook says 11.25pt
~15px
                        $rowHeight = 11.25;

                        break;
                    case 7:
                        // inspection of Arial 7 workbook says 9.00pt ~12px
                        $rowHeight = 9;

                        break;
                    case 6:
                    case 5:
                        // inspection of Arial 5,6 workbook says 8.25pt
~11px
                        $rowHeight = 8.25;

                        break;
                    case 4:
                        // inspection of Arial 4 workbook says 6.75pt ~9px
                        $rowHeight = 6.75;

                        break;
                    case 3:
                        // inspection of Arial 3 workbook says 6.00pt ~8px
                        $rowHeight = 6;

                        break;
                    case 2:
                    case 1:
                        // inspection of Arial 1,2 workbook says 5.25pt
~7px
                        $rowHeight = 5.25;

                        break;
                    default:
                        // use Arial 10 workbook as an approximation,
extrapolation
                        $rowHeight = 12.75 * $font->getSize() / 10;

                        break;
                }

                break;
            case 'Calibri':
                switch ($font->getSize()) {
                    case 11:
                        // inspection of Calibri 11 workbook says 15.00pt
~20px
                        $rowHeight = 15;

                        break;
                    case 10:
                        // inspection of Calibri 10 workbook says 12.75pt
~17px
                        $rowHeight = 12.75;

                        break;
                    case 9:
                        // inspection of Calibri 9 workbook says 12.00pt
~16px
                        $rowHeight = 12;

                        break;
                    case 8:
                        // inspection of Calibri 8 workbook says 11.25pt
~15px
                        $rowHeight = 11.25;

                        break;
                    case 7:
                        // inspection of Calibri 7 workbook says 9.00pt
~12px
                        $rowHeight = 9;

                        break;
                    case 6:
                    case 5:
                        // inspection of Calibri 5,6 workbook says 8.25pt
~11px
                        $rowHeight = 8.25;

                        break;
                    case 4:
                        // inspection of Calibri 4 workbook says 6.75pt
~9px
                        $rowHeight = 6.75;

                        break;
                    case 3:
                        // inspection of Calibri 3 workbook says 6.00pt
~8px
                        $rowHeight = 6.00;

                        break;
                    case 2:
                    case 1:
                        // inspection of Calibri 1,2 workbook says 5.25pt
~7px
                        $rowHeight = 5.25;

                        break;
                    default:
                        // use Calibri 11 workbook as an approximation,
extrapolation
                        $rowHeight = 15 * $font->getSize() / 11;

                        break;
                }

                break;
            case 'Verdana':
                switch ($font->getSize()) {
                    case 10:
                        // inspection of Verdana 10 workbook says 12.75pt
~17px
                        $rowHeight = 12.75;

                        break;
                    case 9:
                        // inspection of Verdana 9 workbook says 11.25pt
~15px
                        $rowHeight = 11.25;

                        break;
                    case 8:
                        // inspection of Verdana 8 workbook says 10.50pt
~14px
                        $rowHeight = 10.50;

                        break;
                    case 7:
                        // inspection of Verdana 7 workbook says 9.00pt
~12px
                        $rowHeight = 9.00;

                        break;
                    case 6:
                    case 5:
                        // inspection of Verdana 5,6 workbook says 8.25pt
~11px
                        $rowHeight = 8.25;

                        break;
                    case 4:
                        // inspection of Verdana 4 workbook says 6.75pt
~9px
                        $rowHeight = 6.75;

                        break;
                    case 3:
                        // inspection of Verdana 3 workbook says 6.00pt
~8px
                        $rowHeight = 6;

                        break;
                    case 2:
                    case 1:
                        // inspection of Verdana 1,2 workbook says 5.25pt
~7px
                        $rowHeight = 5.25;

                        break;
                    default:
                        // use Verdana 10 workbook as an approximation,
extrapolation
                        $rowHeight = 12.75 * $font->getSize() / 10;

                        break;
                }

                break;
            default:
                // just use Calibri as an approximation
                $rowHeight = 15 * $font->getSize() / 11;

                break;
        }

        return $rowHeight;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/JAMA/CHANGELOG.TXT000064400000000764151165414020022345
0ustar00Mar 1, 2005 11:15 AST by PM

+ For consistency, renamed Math.php to Maths.java, utils to util, 
  tests to test, docs to doc - 

+ Removed conditional logic from top of Matrix class.

+ Switched to using hypo function in Maths.php for all php-hypot calls.
  NOTE TO SELF: Need to make sure that all decompositions have been 
  switched over to using the bundled hypo.

Feb 25, 2005 at 10:00 AST by PM

+ Recommend using simpler Error.php instead of JAMA_Error.php but 
  can be persuaded otherwise.

vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/JAMA/CholeskyDecomposition.php000064400000007423151165414020025503
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Shared\JAMA;

use PhpOffice\PhpSpreadsheet\Calculation\Exception as CalculationException;

/**
 *    Cholesky decomposition class.
 *
 *    For a symmetric, positive definite matrix A, the Cholesky
decomposition
 *    is an lower triangular matrix L so that A = L*L'.
 *
 *    If the matrix is not symmetric or positive definite, the constructor
 *    returns a partial decomposition and sets an internal flag that may
 *    be queried by the isSPD() method.
 *
 *    @author Paul Meagher
 *    @author Michael Bommarito
 *
 *    @version 1.2
 */
class CholeskyDecomposition
{
    /**
     * Decomposition storage.
     *
     * @var array
     */
    private $L = [];

    /**
     * Matrix row and column dimension.
     *
     * @var int
     */
    private $m;

    /**
     * Symmetric positive definite flag.
     *
     * @var bool
     */
    private $isspd = true;

    /**
     * CholeskyDecomposition.
     *
     *    Class constructor - decomposes symmetric positive definite matrix
     *
     * @param Matrix $A Matrix square symmetric positive definite matrix
     */
    public function __construct(Matrix $A)
    {
        $this->L = $A->getArray();
        $this->m = $A->getRowDimension();

        for ($i = 0; $i < $this->m; ++$i) {
            for ($j = $i; $j < $this->m; ++$j) {
                for ($sum = $this->L[$i][$j], $k = $i - 1; $k >= 0;
--$k) {
                    $sum -= $this->L[$i][$k] * $this->L[$j][$k];
                }
                if ($i == $j) {
                    if ($sum >= 0) {
                        $this->L[$i][$i] = sqrt($sum);
                    } else {
                        $this->isspd = false;
                    }
                } else {
                    if ($this->L[$i][$i] != 0) {
                        $this->L[$j][$i] = $sum / $this->L[$i][$i];
                    }
                }
            }

            for ($k = $i + 1; $k < $this->m; ++$k) {
                $this->L[$i][$k] = 0.0;
            }
        }
    }

    /**
     *    Is the matrix symmetric and positive definite?
     *
     * @return bool
     */
    public function isSPD()
    {
        return $this->isspd;
    }

    /**
     * getL.
     *
     * Return triangular factor.
     *
     * @return Matrix Lower triangular matrix
     */
    public function getL()
    {
        return new Matrix($this->L);
    }

    /**
     * Solve A*X = B.
     *
     * @param $B Row-equal matrix
     *
     * @return Matrix L * L' * X = B
     */
    public function solve(Matrix $B)
    {
        if ($B->getRowDimension() == $this->m) {
            if ($this->isspd) {
                $X = $B->getArrayCopy();
                $nx = $B->getColumnDimension();

                for ($k = 0; $k < $this->m; ++$k) {
                    for ($i = $k + 1; $i < $this->m; ++$i) {
                        for ($j = 0; $j < $nx; ++$j) {
                            $X[$i][$j] -= $X[$k][$j] * $this->L[$i][$k];
                        }
                    }
                    for ($j = 0; $j < $nx; ++$j) {
                        $X[$k][$j] /= $this->L[$k][$k];
                    }
                }

                for ($k = $this->m - 1; $k >= 0; --$k) {
                    for ($j = 0; $j < $nx; ++$j) {
                        $X[$k][$j] /= $this->L[$k][$k];
                    }
                    for ($i = 0; $i < $k; ++$i) {
                        for ($j = 0; $j < $nx; ++$j) {
                            $X[$i][$j] -= $X[$k][$j] * $this->L[$k][$i];
                        }
                    }
                }

                return new Matrix($X, $this->m, $nx);
            }

            throw new CalculationException(Matrix::MATRIX_SPD_EXCEPTION);
        }

        throw new CalculationException(Matrix::MATRIX_DIMENSION_EXCEPTION);
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/JAMA/EigenvalueDecomposition.php000064400000077371151165414020026017
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Shared\JAMA;

/**
 *    Class to obtain eigenvalues and eigenvectors of a real matrix.
 *
 *    If A is symmetric, then A = V*D*V' where the eigenvalue matrix D
 *    is diagonal and the eigenvector matrix V is orthogonal (i.e.
 *    A = V.times(D.times(V.transpose())) and V.times(V.transpose())
 *    equals the identity matrix).
 *
 *    If A is not symmetric, then the eigenvalue matrix D is block diagonal
 *    with the real eigenvalues in 1-by-1 blocks and any complex
eigenvalues,
 *    lambda + i*mu, in 2-by-2 blocks, [lambda, mu; -mu, lambda].  The
 *    columns of V represent the eigenvectors in the sense that A*V = V*D,
 *    i.e. A.times(V) equals V.times(D).  The matrix V may be badly
 *    conditioned, or even singular, so the validity of the equation
 *    A = V*D*inverse(V) depends upon V.cond().
 *
 *    @author  Paul Meagher
 *
 *    @version 1.1
 */
class EigenvalueDecomposition
{
    /**
     * Row and column dimension (square matrix).
     *
     * @var int
     */
    private $n;

    /**
     * Arrays for internal storage of eigenvalues.
     *
     * @var array
     */
    private $d = [];

    private $e = [];

    /**
     * Array for internal storage of eigenvectors.
     *
     * @var array
     */
    private $V = [];

    /**
     * Array for internal storage of nonsymmetric Hessenberg form.
     *
     * @var array
     */
    private $H = [];

    /**
     * Working storage for nonsymmetric algorithm.
     *
     * @var array
     */
    private $ort;

    /**
     * Used for complex scalar division.
     *
     * @var float
     */
    private $cdivr;

    private $cdivi;

    /**
     * Symmetric Householder reduction to tridiagonal form.
     */
    private function tred2()
    {
        //  This is derived from the Algol procedures tred2 by
        //  Bowdler, Martin, Reinsch, and Wilkinson, Handbook for
        //  Auto. Comp., Vol.ii-Linear Algebra, and the corresponding
        //  Fortran subroutine in EISPACK.
        $this->d = $this->V[$this->n - 1];
        // Householder reduction to tridiagonal form.
        for ($i = $this->n - 1; $i > 0; --$i) {
            $i_ = $i - 1;
            // Scale to avoid under/overflow.
            $h = $scale = 0.0;
            $scale += array_sum(array_map('abs', $this->d));
            if ($scale == 0.0) {
                $this->e[$i] = $this->d[$i_];
                $this->d = array_slice($this->V[$i_], 0, $i_);
                for ($j = 0; $j < $i; ++$j) {
                    $this->V[$j][$i] = $this->V[$i][$j] = 0.0;
                }
            } else {
                // Generate Householder vector.
                for ($k = 0; $k < $i; ++$k) {
                    $this->d[$k] /= $scale;
                    $h += pow($this->d[$k], 2);
                }
                $f = $this->d[$i_];
                $g = sqrt($h);
                if ($f > 0) {
                    $g = -$g;
                }
                $this->e[$i] = $scale * $g;
                $h = $h - $f * $g;
                $this->d[$i_] = $f - $g;
                for ($j = 0; $j < $i; ++$j) {
                    $this->e[$j] = 0.0;
                }
                // Apply similarity transformation to remaining columns.
                for ($j = 0; $j < $i; ++$j) {
                    $f = $this->d[$j];
                    $this->V[$j][$i] = $f;
                    $g = $this->e[$j] + $this->V[$j][$j] * $f;
                    for ($k = $j + 1; $k <= $i_; ++$k) {
                        $g += $this->V[$k][$j] * $this->d[$k];
                        $this->e[$k] += $this->V[$k][$j] * $f;
                    }
                    $this->e[$j] = $g;
                }
                $f = 0.0;
                for ($j = 0; $j < $i; ++$j) {
                    $this->e[$j] /= $h;
                    $f += $this->e[$j] * $this->d[$j];
                }
                $hh = $f / (2 * $h);
                for ($j = 0; $j < $i; ++$j) {
                    $this->e[$j] -= $hh * $this->d[$j];
                }
                for ($j = 0; $j < $i; ++$j) {
                    $f = $this->d[$j];
                    $g = $this->e[$j];
                    for ($k = $j; $k <= $i_; ++$k) {
                        $this->V[$k][$j] -= ($f * $this->e[$k] + $g *
$this->d[$k]);
                    }
                    $this->d[$j] = $this->V[$i - 1][$j];
                    $this->V[$i][$j] = 0.0;
                }
            }
            $this->d[$i] = $h;
        }

        // Accumulate transformations.
        for ($i = 0; $i < $this->n - 1; ++$i) {
            $this->V[$this->n - 1][$i] = $this->V[$i][$i];
            $this->V[$i][$i] = 1.0;
            $h = $this->d[$i + 1];
            if ($h != 0.0) {
                for ($k = 0; $k <= $i; ++$k) {
                    $this->d[$k] = $this->V[$k][$i + 1] / $h;
                }
                for ($j = 0; $j <= $i; ++$j) {
                    $g = 0.0;
                    for ($k = 0; $k <= $i; ++$k) {
                        $g += $this->V[$k][$i + 1] *
$this->V[$k][$j];
                    }
                    for ($k = 0; $k <= $i; ++$k) {
                        $this->V[$k][$j] -= $g * $this->d[$k];
                    }
                }
            }
            for ($k = 0; $k <= $i; ++$k) {
                $this->V[$k][$i + 1] = 0.0;
            }
        }

        $this->d = $this->V[$this->n - 1];
        $this->V[$this->n - 1] = array_fill(0, $j, 0.0);
        $this->V[$this->n - 1][$this->n - 1] = 1.0;
        $this->e[0] = 0.0;
    }

    /**
     * Symmetric tridiagonal QL algorithm.
     *
     *    This is derived from the Algol procedures tql2, by
     *    Bowdler, Martin, Reinsch, and Wilkinson, Handbook for
     *    Auto. Comp., Vol.ii-Linear Algebra, and the corresponding
     * Fortran subroutine in EISPACK.
     */
    private function tql2()
    {
        for ($i = 1; $i < $this->n; ++$i) {
            $this->e[$i - 1] = $this->e[$i];
        }
        $this->e[$this->n - 1] = 0.0;
        $f = 0.0;
        $tst1 = 0.0;
        $eps = pow(2.0, -52.0);

        for ($l = 0; $l < $this->n; ++$l) {
            // Find small subdiagonal element
            $tst1 = max($tst1, abs($this->d[$l]) +
abs($this->e[$l]));
            $m = $l;
            while ($m < $this->n) {
                if (abs($this->e[$m]) <= $eps * $tst1) {
                    break;
                }
                ++$m;
            }
            // If m == l, $this->d[l] is an eigenvalue,
            // otherwise, iterate.
            if ($m > $l) {
                $iter = 0;
                do {
                    // Could check iteration count here.
                    $iter += 1;
                    // Compute implicit shift
                    $g = $this->d[$l];
                    $p = ($this->d[$l + 1] - $g) / (2.0 *
$this->e[$l]);
                    $r = hypo($p, 1.0);
                    if ($p < 0) {
                        $r *= -1;
                    }
                    $this->d[$l] = $this->e[$l] / ($p + $r);
                    $this->d[$l + 1] = $this->e[$l] * ($p + $r);
                    $dl1 = $this->d[$l + 1];
                    $h = $g - $this->d[$l];
                    for ($i = $l + 2; $i < $this->n; ++$i) {
                        $this->d[$i] -= $h;
                    }
                    $f += $h;
                    // Implicit QL transformation.
                    $p = $this->d[$m];
                    $c = 1.0;
                    $c2 = $c3 = $c;
                    $el1 = $this->e[$l + 1];
                    $s = $s2 = 0.0;
                    for ($i = $m - 1; $i >= $l; --$i) {
                        $c3 = $c2;
                        $c2 = $c;
                        $s2 = $s;
                        $g = $c * $this->e[$i];
                        $h = $c * $p;
                        $r = hypo($p, $this->e[$i]);
                        $this->e[$i + 1] = $s * $r;
                        $s = $this->e[$i] / $r;
                        $c = $p / $r;
                        $p = $c * $this->d[$i] - $s * $g;
                        $this->d[$i + 1] = $h + $s * ($c * $g + $s *
$this->d[$i]);
                        // Accumulate transformation.
                        for ($k = 0; $k < $this->n; ++$k) {
                            $h = $this->V[$k][$i + 1];
                            $this->V[$k][$i + 1] = $s *
$this->V[$k][$i] + $c * $h;
                            $this->V[$k][$i] = $c * $this->V[$k][$i]
- $s * $h;
                        }
                    }
                    $p = -$s * $s2 * $c3 * $el1 * $this->e[$l] / $dl1;
                    $this->e[$l] = $s * $p;
                    $this->d[$l] = $c * $p;
                    // Check for convergence.
                } while (abs($this->e[$l]) > $eps * $tst1);
            }
            $this->d[$l] = $this->d[$l] + $f;
            $this->e[$l] = 0.0;
        }

        // Sort eigenvalues and corresponding vectors.
        for ($i = 0; $i < $this->n - 1; ++$i) {
            $k = $i;
            $p = $this->d[$i];
            for ($j = $i + 1; $j < $this->n; ++$j) {
                if ($this->d[$j] < $p) {
                    $k = $j;
                    $p = $this->d[$j];
                }
            }
            if ($k != $i) {
                $this->d[$k] = $this->d[$i];
                $this->d[$i] = $p;
                for ($j = 0; $j < $this->n; ++$j) {
                    $p = $this->V[$j][$i];
                    $this->V[$j][$i] = $this->V[$j][$k];
                    $this->V[$j][$k] = $p;
                }
            }
        }
    }

    /**
     * Nonsymmetric reduction to Hessenberg form.
     *
     *    This is derived from the Algol procedures orthes and ortran,
     *    by Martin and Wilkinson, Handbook for Auto. Comp.,
     *    Vol.ii-Linear Algebra, and the corresponding
     * Fortran subroutines in EISPACK.
     */
    private function orthes()
    {
        $low = 0;
        $high = $this->n - 1;

        for ($m = $low + 1; $m <= $high - 1; ++$m) {
            // Scale column.
            $scale = 0.0;
            for ($i = $m; $i <= $high; ++$i) {
                $scale = $scale + abs($this->H[$i][$m - 1]);
            }
            if ($scale != 0.0) {
                // Compute Householder transformation.
                $h = 0.0;
                for ($i = $high; $i >= $m; --$i) {
                    $this->ort[$i] = $this->H[$i][$m - 1] / $scale;
                    $h += $this->ort[$i] * $this->ort[$i];
                }
                $g = sqrt($h);
                if ($this->ort[$m] > 0) {
                    $g *= -1;
                }
                $h -= $this->ort[$m] * $g;
                $this->ort[$m] -= $g;
                // Apply Householder similarity transformation
                // H = (I -u * u' / h) * H * (I -u * u') / h)
                for ($j = $m; $j < $this->n; ++$j) {
                    $f = 0.0;
                    for ($i = $high; $i >= $m; --$i) {
                        $f += $this->ort[$i] * $this->H[$i][$j];
                    }
                    $f /= $h;
                    for ($i = $m; $i <= $high; ++$i) {
                        $this->H[$i][$j] -= $f * $this->ort[$i];
                    }
                }
                for ($i = 0; $i <= $high; ++$i) {
                    $f = 0.0;
                    for ($j = $high; $j >= $m; --$j) {
                        $f += $this->ort[$j] * $this->H[$i][$j];
                    }
                    $f = $f / $h;
                    for ($j = $m; $j <= $high; ++$j) {
                        $this->H[$i][$j] -= $f * $this->ort[$j];
                    }
                }
                $this->ort[$m] = $scale * $this->ort[$m];
                $this->H[$m][$m - 1] = $scale * $g;
            }
        }

        // Accumulate transformations (Algol's ortran).
        for ($i = 0; $i < $this->n; ++$i) {
            for ($j = 0; $j < $this->n; ++$j) {
                $this->V[$i][$j] = ($i == $j ? 1.0 : 0.0);
            }
        }
        for ($m = $high - 1; $m >= $low + 1; --$m) {
            if ($this->H[$m][$m - 1] != 0.0) {
                for ($i = $m + 1; $i <= $high; ++$i) {
                    $this->ort[$i] = $this->H[$i][$m - 1];
                }
                for ($j = $m; $j <= $high; ++$j) {
                    $g = 0.0;
                    for ($i = $m; $i <= $high; ++$i) {
                        $g += $this->ort[$i] * $this->V[$i][$j];
                    }
                    // Double division avoids possible underflow
                    $g = ($g / $this->ort[$m]) / $this->H[$m][$m -
1];
                    for ($i = $m; $i <= $high; ++$i) {
                        $this->V[$i][$j] += $g * $this->ort[$i];
                    }
                }
            }
        }
    }

    /**
     * Performs complex division.
     *
     * @param mixed $xr
     * @param mixed $xi
     * @param mixed $yr
     * @param mixed $yi
     */
    private function cdiv($xr, $xi, $yr, $yi)
    {
        if (abs($yr) > abs($yi)) {
            $r = $yi / $yr;
            $d = $yr + $r * $yi;
            $this->cdivr = ($xr + $r * $xi) / $d;
            $this->cdivi = ($xi - $r * $xr) / $d;
        } else {
            $r = $yr / $yi;
            $d = $yi + $r * $yr;
            $this->cdivr = ($r * $xr + $xi) / $d;
            $this->cdivi = ($r * $xi - $xr) / $d;
        }
    }

    /**
     * Nonsymmetric reduction from Hessenberg to real Schur form.
     *
     *    Code is derived from the Algol procedure hqr2,
     *    by Martin and Wilkinson, Handbook for Auto. Comp.,
     *    Vol.ii-Linear Algebra, and the corresponding
     * Fortran subroutine in EISPACK.
     */
    private function hqr2()
    {
        //  Initialize
        $nn = $this->n;
        $n = $nn - 1;
        $low = 0;
        $high = $nn - 1;
        $eps = pow(2.0, -52.0);
        $exshift = 0.0;
        $p = $q = $r = $s = $z = 0;
        // Store roots isolated by balanc and compute matrix norm
        $norm = 0.0;

        for ($i = 0; $i < $nn; ++$i) {
            if (($i < $low) or ($i > $high)) {
                $this->d[$i] = $this->H[$i][$i];
                $this->e[$i] = 0.0;
            }
            for ($j = max($i - 1, 0); $j < $nn; ++$j) {
                $norm = $norm + abs($this->H[$i][$j]);
            }
        }

        // Outer loop over eigenvalue index
        $iter = 0;
        while ($n >= $low) {
            // Look for single small sub-diagonal element
            $l = $n;
            while ($l > $low) {
                $s = abs($this->H[$l - 1][$l - 1]) +
abs($this->H[$l][$l]);
                if ($s == 0.0) {
                    $s = $norm;
                }
                if (abs($this->H[$l][$l - 1]) < $eps * $s) {
                    break;
                }
                --$l;
            }
            // Check for convergence
            // One root found
            if ($l == $n) {
                $this->H[$n][$n] = $this->H[$n][$n] + $exshift;
                $this->d[$n] = $this->H[$n][$n];
                $this->e[$n] = 0.0;
                --$n;
                $iter = 0;
            // Two roots found
            } elseif ($l == $n - 1) {
                $w = $this->H[$n][$n - 1] * $this->H[$n - 1][$n];
                $p = ($this->H[$n - 1][$n - 1] - $this->H[$n][$n]) /
2.0;
                $q = $p * $p + $w;
                $z = sqrt(abs($q));
                $this->H[$n][$n] = $this->H[$n][$n] + $exshift;
                $this->H[$n - 1][$n - 1] = $this->H[$n - 1][$n - 1] +
$exshift;
                $x = $this->H[$n][$n];
                // Real pair
                if ($q >= 0) {
                    if ($p >= 0) {
                        $z = $p + $z;
                    } else {
                        $z = $p - $z;
                    }
                    $this->d[$n - 1] = $x + $z;
                    $this->d[$n] = $this->d[$n - 1];
                    if ($z != 0.0) {
                        $this->d[$n] = $x - $w / $z;
                    }
                    $this->e[$n - 1] = 0.0;
                    $this->e[$n] = 0.0;
                    $x = $this->H[$n][$n - 1];
                    $s = abs($x) + abs($z);
                    $p = $x / $s;
                    $q = $z / $s;
                    $r = sqrt($p * $p + $q * $q);
                    $p = $p / $r;
                    $q = $q / $r;
                    // Row modification
                    for ($j = $n - 1; $j < $nn; ++$j) {
                        $z = $this->H[$n - 1][$j];
                        $this->H[$n - 1][$j] = $q * $z + $p *
$this->H[$n][$j];
                        $this->H[$n][$j] = $q * $this->H[$n][$j] - $p
* $z;
                    }
                    // Column modification
                    for ($i = 0; $i <= $n; ++$i) {
                        $z = $this->H[$i][$n - 1];
                        $this->H[$i][$n - 1] = $q * $z + $p *
$this->H[$i][$n];
                        $this->H[$i][$n] = $q * $this->H[$i][$n] - $p
* $z;
                    }
                    // Accumulate transformations
                    for ($i = $low; $i <= $high; ++$i) {
                        $z = $this->V[$i][$n - 1];
                        $this->V[$i][$n - 1] = $q * $z + $p *
$this->V[$i][$n];
                        $this->V[$i][$n] = $q * $this->V[$i][$n] - $p
* $z;
                    }
                    // Complex pair
                } else {
                    $this->d[$n - 1] = $x + $p;
                    $this->d[$n] = $x + $p;
                    $this->e[$n - 1] = $z;
                    $this->e[$n] = -$z;
                }
                $n = $n - 2;
                $iter = 0;
            // No convergence yet
            } else {
                // Form shift
                $x = $this->H[$n][$n];
                $y = 0.0;
                $w = 0.0;
                if ($l < $n) {
                    $y = $this->H[$n - 1][$n - 1];
                    $w = $this->H[$n][$n - 1] * $this->H[$n - 1][$n];
                }
                // Wilkinson's original ad hoc shift
                if ($iter == 10) {
                    $exshift += $x;
                    for ($i = $low; $i <= $n; ++$i) {
                        $this->H[$i][$i] -= $x;
                    }
                    $s = abs($this->H[$n][$n - 1]) + abs($this->H[$n
- 1][$n - 2]);
                    $x = $y = 0.75 * $s;
                    $w = -0.4375 * $s * $s;
                }
                // MATLAB's new ad hoc shift
                if ($iter == 30) {
                    $s = ($y - $x) / 2.0;
                    $s = $s * $s + $w;
                    if ($s > 0) {
                        $s = sqrt($s);
                        if ($y < $x) {
                            $s = -$s;
                        }
                        $s = $x - $w / (($y - $x) / 2.0 + $s);
                        for ($i = $low; $i <= $n; ++$i) {
                            $this->H[$i][$i] -= $s;
                        }
                        $exshift += $s;
                        $x = $y = $w = 0.964;
                    }
                }
                // Could check iteration count here.
                $iter = $iter + 1;
                // Look for two consecutive small sub-diagonal elements
                $m = $n - 2;
                while ($m >= $l) {
                    $z = $this->H[$m][$m];
                    $r = $x - $z;
                    $s = $y - $z;
                    $p = ($r * $s - $w) / $this->H[$m + 1][$m] +
$this->H[$m][$m + 1];
                    $q = $this->H[$m + 1][$m + 1] - $z - $r - $s;
                    $r = $this->H[$m + 2][$m + 1];
                    $s = abs($p) + abs($q) + abs($r);
                    $p = $p / $s;
                    $q = $q / $s;
                    $r = $r / $s;
                    if ($m == $l) {
                        break;
                    }
                    if (abs($this->H[$m][$m - 1]) * (abs($q) + abs($r))
<
                        $eps * (abs($p) * (abs($this->H[$m - 1][$m - 1])
+ abs($z) + abs($this->H[$m + 1][$m + 1])))) {
                        break;
                    }
                    --$m;
                }
                for ($i = $m + 2; $i <= $n; ++$i) {
                    $this->H[$i][$i - 2] = 0.0;
                    if ($i > $m + 2) {
                        $this->H[$i][$i - 3] = 0.0;
                    }
                }
                // Double QR step involving rows l:n and columns m:n
                for ($k = $m; $k <= $n - 1; ++$k) {
                    $notlast = ($k != $n - 1);
                    if ($k != $m) {
                        $p = $this->H[$k][$k - 1];
                        $q = $this->H[$k + 1][$k - 1];
                        $r = ($notlast ? $this->H[$k + 2][$k - 1] :
0.0);
                        $x = abs($p) + abs($q) + abs($r);
                        if ($x != 0.0) {
                            $p = $p / $x;
                            $q = $q / $x;
                            $r = $r / $x;
                        }
                    }
                    if ($x == 0.0) {
                        break;
                    }
                    $s = sqrt($p * $p + $q * $q + $r * $r);
                    if ($p < 0) {
                        $s = -$s;
                    }
                    if ($s != 0) {
                        if ($k != $m) {
                            $this->H[$k][$k - 1] = -$s * $x;
                        } elseif ($l != $m) {
                            $this->H[$k][$k - 1] = -$this->H[$k][$k -
1];
                        }
                        $p = $p + $s;
                        $x = $p / $s;
                        $y = $q / $s;
                        $z = $r / $s;
                        $q = $q / $p;
                        $r = $r / $p;
                        // Row modification
                        for ($j = $k; $j < $nn; ++$j) {
                            $p = $this->H[$k][$j] + $q * $this->H[$k
+ 1][$j];
                            if ($notlast) {
                                $p = $p + $r * $this->H[$k + 2][$j];
                                $this->H[$k + 2][$j] = $this->H[$k +
2][$j] - $p * $z;
                            }
                            $this->H[$k][$j] = $this->H[$k][$j] - $p
* $x;
                            $this->H[$k + 1][$j] = $this->H[$k +
1][$j] - $p * $y;
                        }
                        // Column modification
                        $iMax = min($n, $k + 3);
                        for ($i = 0; $i <= $iMax; ++$i) {
                            $p = $x * $this->H[$i][$k] + $y *
$this->H[$i][$k + 1];
                            if ($notlast) {
                                $p = $p + $z * $this->H[$i][$k + 2];
                                $this->H[$i][$k + 2] =
$this->H[$i][$k + 2] - $p * $r;
                            }
                            $this->H[$i][$k] = $this->H[$i][$k] - $p;
                            $this->H[$i][$k + 1] = $this->H[$i][$k +
1] - $p * $q;
                        }
                        // Accumulate transformations
                        for ($i = $low; $i <= $high; ++$i) {
                            $p = $x * $this->V[$i][$k] + $y *
$this->V[$i][$k + 1];
                            if ($notlast) {
                                $p = $p + $z * $this->V[$i][$k + 2];
                                $this->V[$i][$k + 2] =
$this->V[$i][$k + 2] - $p * $r;
                            }
                            $this->V[$i][$k] = $this->V[$i][$k] - $p;
                            $this->V[$i][$k + 1] = $this->V[$i][$k +
1] - $p * $q;
                        }
                    }  // ($s != 0)
                }  // k loop
            }  // check convergence
        }  // while ($n >= $low)

        // Backsubstitute to find vectors of upper triangular form
        if ($norm == 0.0) {
            return;
        }

        for ($n = $nn - 1; $n >= 0; --$n) {
            $p = $this->d[$n];
            $q = $this->e[$n];
            // Real vector
            if ($q == 0) {
                $l = $n;
                $this->H[$n][$n] = 1.0;
                for ($i = $n - 1; $i >= 0; --$i) {
                    $w = $this->H[$i][$i] - $p;
                    $r = 0.0;
                    for ($j = $l; $j <= $n; ++$j) {
                        $r = $r + $this->H[$i][$j] *
$this->H[$j][$n];
                    }
                    if ($this->e[$i] < 0.0) {
                        $z = $w;
                        $s = $r;
                    } else {
                        $l = $i;
                        if ($this->e[$i] == 0.0) {
                            if ($w != 0.0) {
                                $this->H[$i][$n] = -$r / $w;
                            } else {
                                $this->H[$i][$n] = -$r / ($eps * $norm);
                            }
                            // Solve real equations
                        } else {
                            $x = $this->H[$i][$i + 1];
                            $y = $this->H[$i + 1][$i];
                            $q = ($this->d[$i] - $p) * ($this->d[$i]
- $p) + $this->e[$i] * $this->e[$i];
                            $t = ($x * $s - $z * $r) / $q;
                            $this->H[$i][$n] = $t;
                            if (abs($x) > abs($z)) {
                                $this->H[$i + 1][$n] = (-$r - $w * $t) /
$x;
                            } else {
                                $this->H[$i + 1][$n] = (-$s - $y * $t) /
$z;
                            }
                        }
                        // Overflow control
                        $t = abs($this->H[$i][$n]);
                        if (($eps * $t) * $t > 1) {
                            for ($j = $i; $j <= $n; ++$j) {
                                $this->H[$j][$n] = $this->H[$j][$n] /
$t;
                            }
                        }
                    }
                }
                // Complex vector
            } elseif ($q < 0) {
                $l = $n - 1;
                // Last vector component imaginary so matrix is triangular
                if (abs($this->H[$n][$n - 1]) > abs($this->H[$n -
1][$n])) {
                    $this->H[$n - 1][$n - 1] = $q / $this->H[$n][$n -
1];
                    $this->H[$n - 1][$n] = -($this->H[$n][$n] - $p) /
$this->H[$n][$n - 1];
                } else {
                    $this->cdiv(0.0, -$this->H[$n - 1][$n],
$this->H[$n - 1][$n - 1] - $p, $q);
                    $this->H[$n - 1][$n - 1] = $this->cdivr;
                    $this->H[$n - 1][$n] = $this->cdivi;
                }
                $this->H[$n][$n - 1] = 0.0;
                $this->H[$n][$n] = 1.0;
                for ($i = $n - 2; $i >= 0; --$i) {
                    // double ra,sa,vr,vi;
                    $ra = 0.0;
                    $sa = 0.0;
                    for ($j = $l; $j <= $n; ++$j) {
                        $ra = $ra + $this->H[$i][$j] *
$this->H[$j][$n - 1];
                        $sa = $sa + $this->H[$i][$j] *
$this->H[$j][$n];
                    }
                    $w = $this->H[$i][$i] - $p;
                    if ($this->e[$i] < 0.0) {
                        $z = $w;
                        $r = $ra;
                        $s = $sa;
                    } else {
                        $l = $i;
                        if ($this->e[$i] == 0) {
                            $this->cdiv(-$ra, -$sa, $w, $q);
                            $this->H[$i][$n - 1] = $this->cdivr;
                            $this->H[$i][$n] = $this->cdivi;
                        } else {
                            // Solve complex equations
                            $x = $this->H[$i][$i + 1];
                            $y = $this->H[$i + 1][$i];
                            $vr = ($this->d[$i] - $p) * ($this->d[$i]
- $p) + $this->e[$i] * $this->e[$i] - $q * $q;
                            $vi = ($this->d[$i] - $p) * 2.0 * $q;
                            if ($vr == 0.0 & $vi == 0.0) {
                                $vr = $eps * $norm * (abs($w) + abs($q) +
abs($x) + abs($y) + abs($z));
                            }
                            $this->cdiv($x * $r - $z * $ra + $q * $sa,
$x * $s - $z * $sa - $q * $ra, $vr, $vi);
                            $this->H[$i][$n - 1] = $this->cdivr;
                            $this->H[$i][$n] = $this->cdivi;
                            if (abs($x) > (abs($z) + abs($q))) {
                                $this->H[$i + 1][$n - 1] = (-$ra - $w *
$this->H[$i][$n - 1] + $q * $this->H[$i][$n]) / $x;
                                $this->H[$i + 1][$n] = (-$sa - $w *
$this->H[$i][$n] - $q * $this->H[$i][$n - 1]) / $x;
                            } else {
                                $this->cdiv(-$r - $y *
$this->H[$i][$n - 1], -$s - $y * $this->H[$i][$n], $z, $q);
                                $this->H[$i + 1][$n - 1] =
$this->cdivr;
                                $this->H[$i + 1][$n] = $this->cdivi;
                            }
                        }
                        // Overflow control
                        $t = max(abs($this->H[$i][$n - 1]),
abs($this->H[$i][$n]));
                        if (($eps * $t) * $t > 1) {
                            for ($j = $i; $j <= $n; ++$j) {
                                $this->H[$j][$n - 1] =
$this->H[$j][$n - 1] / $t;
                                $this->H[$j][$n] = $this->H[$j][$n] /
$t;
                            }
                        }
                    } // end else
                } // end for
            } // end else for complex case
        } // end for

        // Vectors of isolated roots
        for ($i = 0; $i < $nn; ++$i) {
            if ($i < $low | $i > $high) {
                for ($j = $i; $j < $nn; ++$j) {
                    $this->V[$i][$j] = $this->H[$i][$j];
                }
            }
        }

        // Back transformation to get eigenvectors of original matrix
        for ($j = $nn - 1; $j >= $low; --$j) {
            for ($i = $low; $i <= $high; ++$i) {
                $z = 0.0;
                $kMax = min($j, $high);
                for ($k = $low; $k <= $kMax; ++$k) {
                    $z = $z + $this->V[$i][$k] * $this->H[$k][$j];
                }
                $this->V[$i][$j] = $z;
            }
        }
    }

    // end hqr2

    /**
     * Constructor: Check for symmetry, then construct the eigenvalue
decomposition.
     *
     * @param mixed $Arg A Square matrix
     */
    public function __construct($Arg)
    {
        $this->A = $Arg->getArray();
        $this->n = $Arg->getColumnDimension();

        $issymmetric = true;
        for ($j = 0; ($j < $this->n) & $issymmetric; ++$j) {
            for ($i = 0; ($i < $this->n) & $issymmetric; ++$i) {
                $issymmetric = ($this->A[$i][$j] ==
$this->A[$j][$i]);
            }
        }

        if ($issymmetric) {
            $this->V = $this->A;
            // Tridiagonalize.
            $this->tred2();
            // Diagonalize.
            $this->tql2();
        } else {
            $this->H = $this->A;
            $this->ort = [];
            // Reduce to Hessenberg form.
            $this->orthes();
            // Reduce Hessenberg to real Schur form.
            $this->hqr2();
        }
    }

    /**
     * Return the eigenvector matrix.
     *
     * @return Matrix V
     */
    public function getV()
    {
        return new Matrix($this->V, $this->n, $this->n);
    }

    /**
     * Return the real parts of the eigenvalues.
     *
     * @return array real(diag(D))
     */
    public function getRealEigenvalues()
    {
        return $this->d;
    }

    /**
     * Return the imaginary parts of the eigenvalues.
     *
     * @return array imag(diag(D))
     */
    public function getImagEigenvalues()
    {
        return $this->e;
    }

    /**
     * Return the block diagonal eigenvalue matrix.
     *
     * @return Matrix D
     */
    public function getD()
    {
        for ($i = 0; $i < $this->n; ++$i) {
            $D[$i] = array_fill(0, $this->n, 0.0);
            $D[$i][$i] = $this->d[$i];
            if ($this->e[$i] == 0) {
                continue;
            }
            $o = ($this->e[$i] > 0) ? $i + 1 : $i - 1;
            $D[$i][$o] = $this->e[$i];
        }

        return new Matrix($D);
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/JAMA/LUDecomposition.php000064400000017334151165414030024245
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Shared\JAMA;

use PhpOffice\PhpSpreadsheet\Calculation\Exception as CalculationException;

/**
 *    For an m-by-n matrix A with m >= n, the LU decomposition is an
m-by-n
 *    unit lower triangular matrix L, an n-by-n upper triangular matrix U,
 *    and a permutation vector piv of length m so that A(piv,:) = L*U.
 *    If m < n, then L is m-by-m and U is m-by-n.
 *
 *    The LU decompostion with pivoting always exists, even if the matrix
is
 *    singular, so the constructor will never fail. The primary use of the
 *    LU decomposition is in the solution of square systems of simultaneous
 *    linear equations. This will fail if isNonsingular() returns false.
 *
 *    @author Paul Meagher
 *    @author Bartosz Matosiuk
 *    @author Michael Bommarito
 *
 *    @version 1.1
 */
class LUDecomposition
{
    const MATRIX_SINGULAR_EXCEPTION = 'Can only perform operation on
singular matrix.';
    const MATRIX_SQUARE_EXCEPTION = 'Mismatched Row dimension';

    /**
     * Decomposition storage.
     *
     * @var array
     */
    private $LU = [];

    /**
     * Row dimension.
     *
     * @var int
     */
    private $m;

    /**
     * Column dimension.
     *
     * @var int
     */
    private $n;

    /**
     * Pivot sign.
     *
     * @var int
     */
    private $pivsign;

    /**
     * Internal storage of pivot vector.
     *
     * @var array
     */
    private $piv = [];

    /**
     * LU Decomposition constructor.
     *
     * @param Matrix $A Rectangular matrix
     */
    public function __construct($A)
    {
        if ($A instanceof Matrix) {
            // Use a "left-looking", dot-product, Crout/Doolittle
algorithm.
            $this->LU = $A->getArray();
            $this->m = $A->getRowDimension();
            $this->n = $A->getColumnDimension();
            for ($i = 0; $i < $this->m; ++$i) {
                $this->piv[$i] = $i;
            }
            $this->pivsign = 1;
            $LUrowi = $LUcolj = [];

            // Outer loop.
            for ($j = 0; $j < $this->n; ++$j) {
                // Make a copy of the j-th column to localize references.
                for ($i = 0; $i < $this->m; ++$i) {
                    $LUcolj[$i] = &$this->LU[$i][$j];
                }
                // Apply previous transformations.
                for ($i = 0; $i < $this->m; ++$i) {
                    $LUrowi = $this->LU[$i];
                    // Most of the time is spent in the following dot
product.
                    $kmax = min($i, $j);
                    $s = 0.0;
                    for ($k = 0; $k < $kmax; ++$k) {
                        $s += $LUrowi[$k] * $LUcolj[$k];
                    }
                    $LUrowi[$j] = $LUcolj[$i] -= $s;
                }
                // Find pivot and exchange if necessary.
                $p = $j;
                for ($i = $j + 1; $i < $this->m; ++$i) {
                    if (abs($LUcolj[$i]) > abs($LUcolj[$p])) {
                        $p = $i;
                    }
                }
                if ($p != $j) {
                    for ($k = 0; $k < $this->n; ++$k) {
                        $t = $this->LU[$p][$k];
                        $this->LU[$p][$k] = $this->LU[$j][$k];
                        $this->LU[$j][$k] = $t;
                    }
                    $k = $this->piv[$p];
                    $this->piv[$p] = $this->piv[$j];
                    $this->piv[$j] = $k;
                    $this->pivsign = $this->pivsign * -1;
                }
                // Compute multipliers.
                if (($j < $this->m) && ($this->LU[$j][$j]
!= 0.0)) {
                    for ($i = $j + 1; $i < $this->m; ++$i) {
                        $this->LU[$i][$j] /= $this->LU[$j][$j];
                    }
                }
            }
        } else {
            throw new
CalculationException(Matrix::ARGUMENT_TYPE_EXCEPTION);
        }
    }

    //    function __construct()

    /**
     * Get lower triangular factor.
     *
     * @return Matrix Lower triangular factor
     */
    public function getL()
    {
        for ($i = 0; $i < $this->m; ++$i) {
            for ($j = 0; $j < $this->n; ++$j) {
                if ($i > $j) {
                    $L[$i][$j] = $this->LU[$i][$j];
                } elseif ($i == $j) {
                    $L[$i][$j] = 1.0;
                } else {
                    $L[$i][$j] = 0.0;
                }
            }
        }

        return new Matrix($L);
    }

    //    function getL()

    /**
     * Get upper triangular factor.
     *
     * @return Matrix Upper triangular factor
     */
    public function getU()
    {
        for ($i = 0; $i < $this->n; ++$i) {
            for ($j = 0; $j < $this->n; ++$j) {
                if ($i <= $j) {
                    $U[$i][$j] = $this->LU[$i][$j];
                } else {
                    $U[$i][$j] = 0.0;
                }
            }
        }

        return new Matrix($U);
    }

    //    function getU()

    /**
     * Return pivot permutation vector.
     *
     * @return array Pivot vector
     */
    public function getPivot()
    {
        return $this->piv;
    }

    //    function getPivot()

    /**
     * Alias for getPivot.
     *
     *    @see getPivot
     */
    public function getDoublePivot()
    {
        return $this->getPivot();
    }

    //    function getDoublePivot()

    /**
     *    Is the matrix nonsingular?
     *
     * @return bool true if U, and hence A, is nonsingular
     */
    public function isNonsingular()
    {
        for ($j = 0; $j < $this->n; ++$j) {
            if ($this->LU[$j][$j] == 0) {
                return false;
            }
        }

        return true;
    }

    //    function isNonsingular()

    /**
     * Count determinants.
     *
     * @return array d matrix deterninat
     */
    public function det()
    {
        if ($this->m == $this->n) {
            $d = $this->pivsign;
            for ($j = 0; $j < $this->n; ++$j) {
                $d *= $this->LU[$j][$j];
            }

            return $d;
        }

        throw new CalculationException(Matrix::MATRIX_DIMENSION_EXCEPTION);
    }

    //    function det()

    /**
     * Solve A*X = B.
     *
     * @param mixed $B a Matrix with as many rows as A and any number of
columns
     *
     * @throws CalculationException illegalArgumentException Matrix row
dimensions must agree
     * @throws CalculationException runtimeException  Matrix is singular
     *
     * @return Matrix X so that L*U*X = B(piv,:)
     */
    public function solve($B)
    {
        if ($B->getRowDimension() == $this->m) {
            if ($this->isNonsingular()) {
                // Copy right hand side with pivoting
                $nx = $B->getColumnDimension();
                $X = $B->getMatrix($this->piv, 0, $nx - 1);
                // Solve L*Y = B(piv,:)
                for ($k = 0; $k < $this->n; ++$k) {
                    for ($i = $k + 1; $i < $this->n; ++$i) {
                        for ($j = 0; $j < $nx; ++$j) {
                            $X->A[$i][$j] -= $X->A[$k][$j] *
$this->LU[$i][$k];
                        }
                    }
                }
                // Solve U*X = Y;
                for ($k = $this->n - 1; $k >= 0; --$k) {
                    for ($j = 0; $j < $nx; ++$j) {
                        $X->A[$k][$j] /= $this->LU[$k][$k];
                    }
                    for ($i = 0; $i < $k; ++$i) {
                        for ($j = 0; $j < $nx; ++$j) {
                            $X->A[$i][$j] -= $X->A[$k][$j] *
$this->LU[$i][$k];
                        }
                    }
                }

                return $X;
            }

            throw new
CalculationException(self::MATRIX_SINGULAR_EXCEPTION);
        }

        throw new CalculationException(self::MATRIX_SQUARE_EXCEPTION);
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/JAMA/Matrix.php000064400000111130151165414030022421
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Shared\JAMA;

use PhpOffice\PhpSpreadsheet\Calculation\Exception as CalculationException;
use PhpOffice\PhpSpreadsheet\Calculation\Functions;
use PhpOffice\PhpSpreadsheet\Shared\StringHelper;

/**
 * Matrix class.
 *
 * @author Paul Meagher
 * @author Michael Bommarito
 * @author Lukasz Karapuda
 * @author Bartek Matosiuk
 *
 * @version 1.8
 *
 * @see https://math.nist.gov/javanumerics/jama/
 */
class Matrix
{
    const POLYMORPHIC_ARGUMENT_EXCEPTION = 'Invalid argument pattern
for polymorphic function.';
    const ARGUMENT_TYPE_EXCEPTION = 'Invalid argument type.';
    const ARGUMENT_BOUNDS_EXCEPTION = 'Invalid argument range.';
    const MATRIX_DIMENSION_EXCEPTION = 'Matrix dimensions are not
equal.';
    const ARRAY_LENGTH_EXCEPTION = 'Array length must be a multiple of
m.';
    const MATRIX_SPD_EXCEPTION = 'Can only perform operation on
symmetric positive definite matrix.';

    /**
     * Matrix storage.
     *
     * @var array
     */
    public $A = [];

    /**
     * Matrix row dimension.
     *
     * @var int
     */
    private $m;

    /**
     * Matrix column dimension.
     *
     * @var int
     */
    private $n;

    /**
     * Polymorphic constructor.
     *
     * As PHP has no support for polymorphic constructors, we use tricks to
make our own sort of polymorphism using func_num_args, func_get_arg, and
gettype. In essence, we're just implementing a simple RTTI filter and
calling the appropriate constructor.
     */
    public function __construct(...$args)
    {
        if (count($args) > 0) {
            $match = implode(',', array_map('gettype',
$args));

            switch ($match) {
                //Rectangular matrix - m x n initialized from 2D array
                case 'array':
                    $this->m = count($args[0]);
                    $this->n = count($args[0][0]);
                    $this->A = $args[0];

                    break;
                //Square matrix - n x n
                case 'integer':
                    $this->m = $args[0];
                    $this->n = $args[0];
                    $this->A = array_fill(0, $this->m, array_fill(0,
$this->n, 0));

                    break;
                //Rectangular matrix - m x n
                case 'integer,integer':
                    $this->m = $args[0];
                    $this->n = $args[1];
                    $this->A = array_fill(0, $this->m, array_fill(0,
$this->n, 0));

                    break;
                //Rectangular matrix - m x n initialized from packed array
                case 'array,integer':
                    $this->m = $args[1];
                    if ($this->m != 0) {
                        $this->n = count($args[0]) / $this->m;
                    } else {
                        $this->n = 0;
                    }
                    if (($this->m * $this->n) == count($args[0])) {
                        for ($i = 0; $i < $this->m; ++$i) {
                            for ($j = 0; $j < $this->n; ++$j) {
                                $this->A[$i][$j] = $args[0][$i + $j *
$this->m];
                            }
                        }
                    } else {
                        throw new
CalculationException(self::ARRAY_LENGTH_EXCEPTION);
                    }

                    break;
                default:
                    throw new
CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION);

                    break;
            }
        } else {
            throw new
CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION);
        }
    }

    /**
     * getArray.
     *
     * @return array Matrix array
     */
    public function getArray()
    {
        return $this->A;
    }

    /**
     * getRowDimension.
     *
     * @return int Row dimension
     */
    public function getRowDimension()
    {
        return $this->m;
    }

    /**
     * getColumnDimension.
     *
     * @return int Column dimension
     */
    public function getColumnDimension()
    {
        return $this->n;
    }

    /**
     * get.
     *
     * Get the i,j-th element of the matrix.
     *
     * @param int $i Row position
     * @param int $j Column position
     *
     * @return mixed Element (int/float/double)
     */
    public function get($i = null, $j = null)
    {
        return $this->A[$i][$j];
    }

    /**
     * getMatrix.
     *
     *    Get a submatrix
     *
     * @param int $i0 Initial row index
     * @param int $iF Final row index
     * @param int $j0 Initial column index
     * @param int $jF Final column index
     *
     * @return Matrix Submatrix
     */
    public function getMatrix(...$args)
    {
        if (count($args) > 0) {
            $match = implode(',', array_map('gettype',
$args));

            switch ($match) {
                //A($i0...; $j0...)
                case 'integer,integer':
                    [$i0, $j0] = $args;
                    if ($i0 >= 0) {
                        $m = $this->m - $i0;
                    } else {
                        throw new
CalculationException(self::ARGUMENT_BOUNDS_EXCEPTION);
                    }
                    if ($j0 >= 0) {
                        $n = $this->n - $j0;
                    } else {
                        throw new
CalculationException(self::ARGUMENT_BOUNDS_EXCEPTION);
                    }
                    $R = new self($m, $n);
                    for ($i = $i0; $i < $this->m; ++$i) {
                        for ($j = $j0; $j < $this->n; ++$j) {
                            $R->set($i, $j, $this->A[$i][$j]);
                        }
                    }

                    return $R;

                    break;
                //A($i0...$iF; $j0...$jF)
                case 'integer,integer,integer,integer':
                    [$i0, $iF, $j0, $jF] = $args;
                    if (($iF > $i0) && ($this->m >= $iF)
&& ($i0 >= 0)) {
                        $m = $iF - $i0;
                    } else {
                        throw new
CalculationException(self::ARGUMENT_BOUNDS_EXCEPTION);
                    }
                    if (($jF > $j0) && ($this->n >= $jF)
&& ($j0 >= 0)) {
                        $n = $jF - $j0;
                    } else {
                        throw new
CalculationException(self::ARGUMENT_BOUNDS_EXCEPTION);
                    }
                    $R = new self($m + 1, $n + 1);
                    for ($i = $i0; $i <= $iF; ++$i) {
                        for ($j = $j0; $j <= $jF; ++$j) {
                            $R->set($i - $i0, $j - $j0,
$this->A[$i][$j]);
                        }
                    }

                    return $R;

                    break;
                //$R = array of row indices; $C = array of column indices
                case 'array,array':
                    [$RL, $CL] = $args;
                    if (count($RL) > 0) {
                        $m = count($RL);
                    } else {
                        throw new
CalculationException(self::ARGUMENT_BOUNDS_EXCEPTION);
                    }
                    if (count($CL) > 0) {
                        $n = count($CL);
                    } else {
                        throw new
CalculationException(self::ARGUMENT_BOUNDS_EXCEPTION);
                    }
                    $R = new self($m, $n);
                    for ($i = 0; $i < $m; ++$i) {
                        for ($j = 0; $j < $n; ++$j) {
                            $R->set($i, $j,
$this->A[$RL[$i]][$CL[$j]]);
                        }
                    }

                    return $R;

                    break;
                //A($i0...$iF); $CL = array of column indices
                case 'integer,integer,array':
                    [$i0, $iF, $CL] = $args;
                    if (($iF > $i0) && ($this->m >= $iF)
&& ($i0 >= 0)) {
                        $m = $iF - $i0;
                    } else {
                        throw new
CalculationException(self::ARGUMENT_BOUNDS_EXCEPTION);
                    }
                    if (count($CL) > 0) {
                        $n = count($CL);
                    } else {
                        throw new
CalculationException(self::ARGUMENT_BOUNDS_EXCEPTION);
                    }
                    $R = new self($m, $n);
                    for ($i = $i0; $i < $iF; ++$i) {
                        for ($j = 0; $j < $n; ++$j) {
                            $R->set($i - $i0, $j,
$this->A[$i][$CL[$j]]);
                        }
                    }

                    return $R;

                    break;
                //$RL = array of row indices
                case 'array,integer,integer':
                    [$RL, $j0, $jF] = $args;
                    if (count($RL) > 0) {
                        $m = count($RL);
                    } else {
                        throw new
CalculationException(self::ARGUMENT_BOUNDS_EXCEPTION);
                    }
                    if (($jF >= $j0) && ($this->n >= $jF)
&& ($j0 >= 0)) {
                        $n = $jF - $j0;
                    } else {
                        throw new
CalculationException(self::ARGUMENT_BOUNDS_EXCEPTION);
                    }
                    $R = new self($m, $n + 1);
                    for ($i = 0; $i < $m; ++$i) {
                        for ($j = $j0; $j <= $jF; ++$j) {
                            $R->set($i, $j - $j0,
$this->A[$RL[$i]][$j]);
                        }
                    }

                    return $R;

                    break;
                default:
                    throw new
CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION);

                    break;
            }
        } else {
            throw new
CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION);
        }
    }

    /**
     * checkMatrixDimensions.
     *
     *    Is matrix B the same size?
     *
     * @param Matrix $B Matrix B
     *
     * @return bool
     */
    public function checkMatrixDimensions($B = null)
    {
        if ($B instanceof self) {
            if (($this->m == $B->getRowDimension()) &&
($this->n == $B->getColumnDimension())) {
                return true;
            }

            throw new
CalculationException(self::MATRIX_DIMENSION_EXCEPTION);
        }

        throw new CalculationException(self::ARGUMENT_TYPE_EXCEPTION);
    }

    //    function checkMatrixDimensions()

    /**
     * set.
     *
     * Set the i,j-th element of the matrix.
     *
     * @param int $i Row position
     * @param int $j Column position
     * @param mixed $c Int/float/double value
     *
     * @return mixed Element (int/float/double)
     */
    public function set($i = null, $j = null, $c = null)
    {
        // Optimized set version just has this
        $this->A[$i][$j] = $c;
    }

    //    function set()

    /**
     * identity.
     *
     * Generate an identity matrix.
     *
     * @param int $m Row dimension
     * @param int $n Column dimension
     *
     * @return Matrix Identity matrix
     */
    public function identity($m = null, $n = null)
    {
        return $this->diagonal($m, $n, 1);
    }

    /**
     * diagonal.
     *
     *    Generate a diagonal matrix
     *
     * @param int $m Row dimension
     * @param int $n Column dimension
     * @param mixed $c Diagonal value
     *
     * @return Matrix Diagonal matrix
     */
    public function diagonal($m = null, $n = null, $c = 1)
    {
        $R = new self($m, $n);
        for ($i = 0; $i < $m; ++$i) {
            $R->set($i, $i, $c);
        }

        return $R;
    }

    /**
     * getMatrixByRow.
     *
     *    Get a submatrix by row index/range
     *
     * @param int $i0 Initial row index
     * @param int $iF Final row index
     *
     * @return Matrix Submatrix
     */
    public function getMatrixByRow($i0 = null, $iF = null)
    {
        if (is_int($i0)) {
            if (is_int($iF)) {
                return $this->getMatrix($i0, 0, $iF + 1, $this->n);
            }

            return $this->getMatrix($i0, 0, $i0 + 1, $this->n);
        }

        throw new CalculationException(self::ARGUMENT_TYPE_EXCEPTION);
    }

    /**
     * getMatrixByCol.
     *
     *    Get a submatrix by column index/range
     *
     * @param int $j0 Initial column index
     * @param int $jF Final column index
     *
     * @return Matrix Submatrix
     */
    public function getMatrixByCol($j0 = null, $jF = null)
    {
        if (is_int($j0)) {
            if (is_int($jF)) {
                return $this->getMatrix(0, $j0, $this->m, $jF + 1);
            }

            return $this->getMatrix(0, $j0, $this->m, $j0 + 1);
        }

        throw new CalculationException(self::ARGUMENT_TYPE_EXCEPTION);
    }

    /**
     * transpose.
     *
     *    Tranpose matrix
     *
     * @return Matrix Transposed matrix
     */
    public function transpose()
    {
        $R = new self($this->n, $this->m);
        for ($i = 0; $i < $this->m; ++$i) {
            for ($j = 0; $j < $this->n; ++$j) {
                $R->set($j, $i, $this->A[$i][$j]);
            }
        }

        return $R;
    }

    //    function transpose()

    /**
     * trace.
     *
     *    Sum of diagonal elements
     *
     * @return float Sum of diagonal elements
     */
    public function trace()
    {
        $s = 0;
        $n = min($this->m, $this->n);
        for ($i = 0; $i < $n; ++$i) {
            $s += $this->A[$i][$i];
        }

        return $s;
    }

    /**
     * uminus.
     *
     *    Unary minus matrix -A
     *
     * @return Matrix Unary minus matrix
     */
    public function uminus()
    {
    }

    /**
     * plus.
     *
     *    A + B
     *
     * @param mixed $B Matrix/Array
     *
     * @return Matrix Sum
     */
    public function plus(...$args)
    {
        if (count($args) > 0) {
            $match = implode(',', array_map('gettype',
$args));

            switch ($match) {
                case 'object':
                    if ($args[0] instanceof self) {
                        $M = $args[0];
                    } else {
                        throw new
CalculationException(self::ARGUMENT_TYPE_EXCEPTION);
                    }

                    break;
                case 'array':
                    $M = new self($args[0]);

                    break;
                default:
                    throw new
CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION);

                    break;
            }
            $this->checkMatrixDimensions($M);
            for ($i = 0; $i < $this->m; ++$i) {
                for ($j = 0; $j < $this->n; ++$j) {
                    $M->set($i, $j, $M->get($i, $j) +
$this->A[$i][$j]);
                }
            }

            return $M;
        }

        throw new
CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION);
    }

    /**
     * plusEquals.
     *
     *    A = A + B
     *
     * @param mixed $B Matrix/Array
     *
     * @return $this
     */
    public function plusEquals(...$args)
    {
        if (count($args) > 0) {
            $match = implode(',', array_map('gettype',
$args));

            switch ($match) {
                case 'object':
                    if ($args[0] instanceof self) {
                        $M = $args[0];
                    } else {
                        throw new
CalculationException(self::ARGUMENT_TYPE_EXCEPTION);
                    }

                    break;
                case 'array':
                    $M = new self($args[0]);

                    break;
                default:
                    throw new
CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION);

                    break;
            }
            $this->checkMatrixDimensions($M);
            for ($i = 0; $i < $this->m; ++$i) {
                for ($j = 0; $j < $this->n; ++$j) {
                    $validValues = true;
                    $value = $M->get($i, $j);
                    if ((is_string($this->A[$i][$j])) &&
(strlen($this->A[$i][$j]) > 0) &&
(!is_numeric($this->A[$i][$j]))) {
                        $this->A[$i][$j] = trim($this->A[$i][$j],
'"');
                        $validValues &=
StringHelper::convertToNumberIfFraction($this->A[$i][$j]);
                    }
                    if ((is_string($value)) && (strlen($value) >
0) && (!is_numeric($value))) {
                        $value = trim($value, '"');
                        $validValues &=
StringHelper::convertToNumberIfFraction($value);
                    }
                    if ($validValues) {
                        $this->A[$i][$j] += $value;
                    } else {
                        $this->A[$i][$j] = Functions::NAN();
                    }
                }
            }

            return $this;
        }

        throw new
CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION);
    }

    /**
     * minus.
     *
     *    A - B
     *
     * @param mixed $B Matrix/Array
     *
     * @return Matrix Sum
     */
    public function minus(...$args)
    {
        if (count($args) > 0) {
            $match = implode(',', array_map('gettype',
$args));

            switch ($match) {
                case 'object':
                    if ($args[0] instanceof self) {
                        $M = $args[0];
                    } else {
                        throw new
CalculationException(self::ARGUMENT_TYPE_EXCEPTION);
                    }

                    break;
                case 'array':
                    $M = new self($args[0]);

                    break;
                default:
                    throw new
CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION);

                    break;
            }
            $this->checkMatrixDimensions($M);
            for ($i = 0; $i < $this->m; ++$i) {
                for ($j = 0; $j < $this->n; ++$j) {
                    $M->set($i, $j, $M->get($i, $j) -
$this->A[$i][$j]);
                }
            }

            return $M;
        }

        throw new
CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION);
    }

    /**
     * minusEquals.
     *
     *    A = A - B
     *
     * @param mixed $B Matrix/Array
     *
     * @return $this
     */
    public function minusEquals(...$args)
    {
        if (count($args) > 0) {
            $match = implode(',', array_map('gettype',
$args));

            switch ($match) {
                case 'object':
                    if ($args[0] instanceof self) {
                        $M = $args[0];
                    } else {
                        throw new
CalculationException(self::ARGUMENT_TYPE_EXCEPTION);
                    }

                    break;
                case 'array':
                    $M = new self($args[0]);

                    break;
                default:
                    throw new
CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION);

                    break;
            }
            $this->checkMatrixDimensions($M);
            for ($i = 0; $i < $this->m; ++$i) {
                for ($j = 0; $j < $this->n; ++$j) {
                    $validValues = true;
                    $value = $M->get($i, $j);
                    if ((is_string($this->A[$i][$j])) &&
(strlen($this->A[$i][$j]) > 0) &&
(!is_numeric($this->A[$i][$j]))) {
                        $this->A[$i][$j] = trim($this->A[$i][$j],
'"');
                        $validValues &=
StringHelper::convertToNumberIfFraction($this->A[$i][$j]);
                    }
                    if ((is_string($value)) && (strlen($value) >
0) && (!is_numeric($value))) {
                        $value = trim($value, '"');
                        $validValues &=
StringHelper::convertToNumberIfFraction($value);
                    }
                    if ($validValues) {
                        $this->A[$i][$j] -= $value;
                    } else {
                        $this->A[$i][$j] = Functions::NAN();
                    }
                }
            }

            return $this;
        }

        throw new
CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION);
    }

    /**
     * arrayTimes.
     *
     *    Element-by-element multiplication
     *    Cij = Aij * Bij
     *
     * @param mixed $B Matrix/Array
     *
     * @return Matrix Matrix Cij
     */
    public function arrayTimes(...$args)
    {
        if (count($args) > 0) {
            $match = implode(',', array_map('gettype',
$args));

            switch ($match) {
                case 'object':
                    if ($args[0] instanceof self) {
                        $M = $args[0];
                    } else {
                        throw new
CalculationException(self::ARGUMENT_TYPE_EXCEPTION);
                    }

                    break;
                case 'array':
                    $M = new self($args[0]);

                    break;
                default:
                    throw new
CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION);

                    break;
            }
            $this->checkMatrixDimensions($M);
            for ($i = 0; $i < $this->m; ++$i) {
                for ($j = 0; $j < $this->n; ++$j) {
                    $M->set($i, $j, $M->get($i, $j) *
$this->A[$i][$j]);
                }
            }

            return $M;
        }

        throw new
CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION);
    }

    /**
     * arrayTimesEquals.
     *
     *    Element-by-element multiplication
     *    Aij = Aij * Bij
     *
     * @param mixed $B Matrix/Array
     *
     * @return $this
     */
    public function arrayTimesEquals(...$args)
    {
        if (count($args) > 0) {
            $match = implode(',', array_map('gettype',
$args));

            switch ($match) {
                case 'object':
                    if ($args[0] instanceof self) {
                        $M = $args[0];
                    } else {
                        throw new
CalculationException(self::ARGUMENT_TYPE_EXCEPTION);
                    }

                    break;
                case 'array':
                    $M = new self($args[0]);

                    break;
                default:
                    throw new
CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION);

                    break;
            }
            $this->checkMatrixDimensions($M);
            for ($i = 0; $i < $this->m; ++$i) {
                for ($j = 0; $j < $this->n; ++$j) {
                    $validValues = true;
                    $value = $M->get($i, $j);
                    if ((is_string($this->A[$i][$j])) &&
(strlen($this->A[$i][$j]) > 0) &&
(!is_numeric($this->A[$i][$j]))) {
                        $this->A[$i][$j] = trim($this->A[$i][$j],
'"');
                        $validValues &=
StringHelper::convertToNumberIfFraction($this->A[$i][$j]);
                    }
                    if ((is_string($value)) && (strlen($value) >
0) && (!is_numeric($value))) {
                        $value = trim($value, '"');
                        $validValues &=
StringHelper::convertToNumberIfFraction($value);
                    }
                    if ($validValues) {
                        $this->A[$i][$j] *= $value;
                    } else {
                        $this->A[$i][$j] = Functions::NAN();
                    }
                }
            }

            return $this;
        }

        throw new
CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION);
    }

    /**
     * arrayRightDivide.
     *
     *    Element-by-element right division
     *    A / B
     *
     * @param Matrix $B Matrix B
     *
     * @return Matrix Division result
     */
    public function arrayRightDivide(...$args)
    {
        if (count($args) > 0) {
            $match = implode(',', array_map('gettype',
$args));

            switch ($match) {
                case 'object':
                    if ($args[0] instanceof self) {
                        $M = $args[0];
                    } else {
                        throw new
CalculationException(self::ARGUMENT_TYPE_EXCEPTION);
                    }

                    break;
                case 'array':
                    $M = new self($args[0]);

                    break;
                default:
                    throw new
CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION);

                    break;
            }
            $this->checkMatrixDimensions($M);
            for ($i = 0; $i < $this->m; ++$i) {
                for ($j = 0; $j < $this->n; ++$j) {
                    $validValues = true;
                    $value = $M->get($i, $j);
                    if ((is_string($this->A[$i][$j])) &&
(strlen($this->A[$i][$j]) > 0) &&
(!is_numeric($this->A[$i][$j]))) {
                        $this->A[$i][$j] = trim($this->A[$i][$j],
'"');
                        $validValues &=
StringHelper::convertToNumberIfFraction($this->A[$i][$j]);
                    }
                    if ((is_string($value)) && (strlen($value) >
0) && (!is_numeric($value))) {
                        $value = trim($value, '"');
                        $validValues &=
StringHelper::convertToNumberIfFraction($value);
                    }
                    if ($validValues) {
                        if ($value == 0) {
                            //    Trap for Divide by Zero error
                            $M->set($i, $j, '#DIV/0!');
                        } else {
                            $M->set($i, $j, $this->A[$i][$j] /
$value);
                        }
                    } else {
                        $M->set($i, $j, Functions::NAN());
                    }
                }
            }

            return $M;
        }

        throw new
CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION);
    }

    /**
     * arrayRightDivideEquals.
     *
     *    Element-by-element right division
     *    Aij = Aij / Bij
     *
     * @param mixed $B Matrix/Array
     *
     * @return Matrix Matrix Aij
     */
    public function arrayRightDivideEquals(...$args)
    {
        if (count($args) > 0) {
            $match = implode(',', array_map('gettype',
$args));

            switch ($match) {
                case 'object':
                    if ($args[0] instanceof self) {
                        $M = $args[0];
                    } else {
                        throw new
CalculationException(self::ARGUMENT_TYPE_EXCEPTION);
                    }

                    break;
                case 'array':
                    $M = new self($args[0]);

                    break;
                default:
                    throw new
CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION);

                    break;
            }
            $this->checkMatrixDimensions($M);
            for ($i = 0; $i < $this->m; ++$i) {
                for ($j = 0; $j < $this->n; ++$j) {
                    $this->A[$i][$j] = $this->A[$i][$j] /
$M->get($i, $j);
                }
            }

            return $M;
        }

        throw new
CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION);
    }

    /**
     * arrayLeftDivide.
     *
     *    Element-by-element Left division
     *    A / B
     *
     * @param Matrix $B Matrix B
     *
     * @return Matrix Division result
     */
    public function arrayLeftDivide(...$args)
    {
        if (count($args) > 0) {
            $match = implode(',', array_map('gettype',
$args));

            switch ($match) {
                case 'object':
                    if ($args[0] instanceof self) {
                        $M = $args[0];
                    } else {
                        throw new
CalculationException(self::ARGUMENT_TYPE_EXCEPTION);
                    }

                    break;
                case 'array':
                    $M = new self($args[0]);

                    break;
                default:
                    throw new
CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION);

                    break;
            }
            $this->checkMatrixDimensions($M);
            for ($i = 0; $i < $this->m; ++$i) {
                for ($j = 0; $j < $this->n; ++$j) {
                    $M->set($i, $j, $M->get($i, $j) /
$this->A[$i][$j]);
                }
            }

            return $M;
        }

        throw new
CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION);
    }

    /**
     * arrayLeftDivideEquals.
     *
     *    Element-by-element Left division
     *    Aij = Aij / Bij
     *
     * @param mixed $B Matrix/Array
     *
     * @return Matrix Matrix Aij
     */
    public function arrayLeftDivideEquals(...$args)
    {
        if (count($args) > 0) {
            $match = implode(',', array_map('gettype',
$args));

            switch ($match) {
                case 'object':
                    if ($args[0] instanceof self) {
                        $M = $args[0];
                    } else {
                        throw new
CalculationException(self::ARGUMENT_TYPE_EXCEPTION);
                    }

                    break;
                case 'array':
                    $M = new self($args[0]);

                    break;
                default:
                    throw new
CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION);

                    break;
            }
            $this->checkMatrixDimensions($M);
            for ($i = 0; $i < $this->m; ++$i) {
                for ($j = 0; $j < $this->n; ++$j) {
                    $this->A[$i][$j] = $M->get($i, $j) /
$this->A[$i][$j];
                }
            }

            return $M;
        }

        throw new
CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION);
    }

    /**
     * times.
     *
     *    Matrix multiplication
     *
     * @param mixed $n Matrix/Array/Scalar
     *
     * @return Matrix Product
     */
    public function times(...$args)
    {
        if (count($args) > 0) {
            $match = implode(',', array_map('gettype',
$args));

            switch ($match) {
                case 'object':
                    if ($args[0] instanceof self) {
                        $B = $args[0];
                    } else {
                        throw new
CalculationException(self::ARGUMENT_TYPE_EXCEPTION);
                    }
                    if ($this->n == $B->m) {
                        $C = new self($this->m, $B->n);
                        for ($j = 0; $j < $B->n; ++$j) {
                            $Bcolj = [];
                            for ($k = 0; $k < $this->n; ++$k) {
                                $Bcolj[$k] = $B->A[$k][$j];
                            }
                            for ($i = 0; $i < $this->m; ++$i) {
                                $Arowi = $this->A[$i];
                                $s = 0;
                                for ($k = 0; $k < $this->n; ++$k) {
                                    $s += $Arowi[$k] * $Bcolj[$k];
                                }
                                $C->A[$i][$j] = $s;
                            }
                        }

                        return $C;
                    }

                    throw new
CalculationException(self::MATRIX_DIMENSION_EXCEPTION);
                case 'array':
                    $B = new self($args[0]);
                    if ($this->n == $B->m) {
                        $C = new self($this->m, $B->n);
                        for ($i = 0; $i < $C->m; ++$i) {
                            for ($j = 0; $j < $C->n; ++$j) {
                                $s = '0';
                                for ($k = 0; $k < $C->n; ++$k) {
                                    $s += $this->A[$i][$k] *
$B->A[$k][$j];
                                }
                                $C->A[$i][$j] = $s;
                            }
                        }

                        return $C;
                    }

                    throw new
CalculationException(self::MATRIX_DIMENSION_EXCEPTION);
                case 'integer':
                    $C = new self($this->A);
                    for ($i = 0; $i < $C->m; ++$i) {
                        for ($j = 0; $j < $C->n; ++$j) {
                            $C->A[$i][$j] *= $args[0];
                        }
                    }

                    return $C;
                case 'double':
                    $C = new self($this->m, $this->n);
                    for ($i = 0; $i < $C->m; ++$i) {
                        for ($j = 0; $j < $C->n; ++$j) {
                            $C->A[$i][$j] = $args[0] *
$this->A[$i][$j];
                        }
                    }

                    return $C;
                case 'float':
                    $C = new self($this->A);
                    for ($i = 0; $i < $C->m; ++$i) {
                        for ($j = 0; $j < $C->n; ++$j) {
                            $C->A[$i][$j] *= $args[0];
                        }
                    }

                    return $C;
                default:
                    throw new
CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION);
            }
        } else {
            throw new
CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION);
        }
    }

    /**
     * power.
     *
     *    A = A ^ B
     *
     * @param mixed $B Matrix/Array
     *
     * @return $this
     */
    public function power(...$args)
    {
        if (count($args) > 0) {
            $match = implode(',', array_map('gettype',
$args));

            switch ($match) {
                case 'object':
                    if ($args[0] instanceof self) {
                        $M = $args[0];
                    } else {
                        throw new
CalculationException(self::ARGUMENT_TYPE_EXCEPTION);
                    }

                    break;
                case 'array':
                    $M = new self($args[0]);

                    break;
                default:
                    throw new
CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION);

                    break;
            }
            $this->checkMatrixDimensions($M);
            for ($i = 0; $i < $this->m; ++$i) {
                for ($j = 0; $j < $this->n; ++$j) {
                    $validValues = true;
                    $value = $M->get($i, $j);
                    if ((is_string($this->A[$i][$j])) &&
(strlen($this->A[$i][$j]) > 0) &&
(!is_numeric($this->A[$i][$j]))) {
                        $this->A[$i][$j] = trim($this->A[$i][$j],
'"');
                        $validValues &=
StringHelper::convertToNumberIfFraction($this->A[$i][$j]);
                    }
                    if ((is_string($value)) && (strlen($value) >
0) && (!is_numeric($value))) {
                        $value = trim($value, '"');
                        $validValues &=
StringHelper::convertToNumberIfFraction($value);
                    }
                    if ($validValues) {
                        $this->A[$i][$j] = pow($this->A[$i][$j],
$value);
                    } else {
                        $this->A[$i][$j] = Functions::NAN();
                    }
                }
            }

            return $this;
        }

        throw new
CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION);
    }

    /**
     * concat.
     *
     *    A = A & B
     *
     * @param mixed $B Matrix/Array
     *
     * @return $this
     */
    public function concat(...$args)
    {
        if (count($args) > 0) {
            $match = implode(',', array_map('gettype',
$args));

            switch ($match) {
                case 'object':
                    if ($args[0] instanceof self) {
                        $M = $args[0];
                    } else {
                        throw new
CalculationException(self::ARGUMENT_TYPE_EXCEPTION);
                    }

                    break;
                case 'array':
                    $M = new self($args[0]);

                    break;
                default:
                    throw new
CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION);

                    break;
            }
            $this->checkMatrixDimensions($M);
            for ($i = 0; $i < $this->m; ++$i) {
                for ($j = 0; $j < $this->n; ++$j) {
                    $this->A[$i][$j] = trim($this->A[$i][$j],
'"') . trim($M->get($i, $j), '"');
                }
            }

            return $this;
        }

        throw new
CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION);
    }

    /**
     * Solve A*X = B.
     *
     * @param Matrix $B Right hand side
     *
     * @return Matrix ... Solution if A is square, least squares solution
otherwise
     */
    public function solve($B)
    {
        if ($this->m == $this->n) {
            $LU = new LUDecomposition($this);

            return $LU->solve($B);
        }
        $QR = new QRDecomposition($this);

        return $QR->solve($B);
    }

    /**
     * Matrix inverse or pseudoinverse.
     *
     * @return Matrix ... Inverse(A) if A is square, pseudoinverse
otherwise.
     */
    public function inverse()
    {
        return $this->solve($this->identity($this->m,
$this->m));
    }

    /**
     * det.
     *
     *    Calculate determinant
     *
     * @return float Determinant
     */
    public function det()
    {
        $L = new LUDecomposition($this);

        return $L->det();
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/JAMA/QRDecomposition.php000064400000016111151165414030024237
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Shared\JAMA;

use PhpOffice\PhpSpreadsheet\Calculation\Exception as CalculationException;

/**
 *    For an m-by-n matrix A with m >= n, the QR decomposition is an
m-by-n
 *    orthogonal matrix Q and an n-by-n upper triangular matrix R so that
 *    A = Q*R.
 *
 *    The QR decompostion always exists, even if the matrix does not have
 *    full rank, so the constructor will never fail.  The primary use of
the
 *    QR decomposition is in the least squares solution of nonsquare
systems
 *    of simultaneous linear equations.  This will fail if isFullRank()
 *    returns false.
 *
 *    @author  Paul Meagher
 *
 *    @version 1.1
 */
class QRDecomposition
{
    const MATRIX_RANK_EXCEPTION = 'Can only perform operation on
full-rank matrix.';

    /**
     * Array for internal storage of decomposition.
     *
     * @var array
     */
    private $QR = [];

    /**
     * Row dimension.
     *
     * @var int
     */
    private $m;

    /**
     * Column dimension.
     *
     * @var int
     */
    private $n;

    /**
     * Array for internal storage of diagonal of R.
     *
     * @var array
     */
    private $Rdiag = [];

    /**
     * QR Decomposition computed by Householder reflections.
     *
     * @param matrix $A Rectangular matrix
     */
    public function __construct($A)
    {
        if ($A instanceof Matrix) {
            // Initialize.
            $this->QR = $A->getArray();
            $this->m = $A->getRowDimension();
            $this->n = $A->getColumnDimension();
            // Main loop.
            for ($k = 0; $k < $this->n; ++$k) {
                // Compute 2-norm of k-th column without under/overflow.
                $nrm = 0.0;
                for ($i = $k; $i < $this->m; ++$i) {
                    $nrm = hypo($nrm, $this->QR[$i][$k]);
                }
                if ($nrm != 0.0) {
                    // Form k-th Householder vector.
                    if ($this->QR[$k][$k] < 0) {
                        $nrm = -$nrm;
                    }
                    for ($i = $k; $i < $this->m; ++$i) {
                        $this->QR[$i][$k] /= $nrm;
                    }
                    $this->QR[$k][$k] += 1.0;
                    // Apply transformation to remaining columns.
                    for ($j = $k + 1; $j < $this->n; ++$j) {
                        $s = 0.0;
                        for ($i = $k; $i < $this->m; ++$i) {
                            $s += $this->QR[$i][$k] *
$this->QR[$i][$j];
                        }
                        $s = -$s / $this->QR[$k][$k];
                        for ($i = $k; $i < $this->m; ++$i) {
                            $this->QR[$i][$j] += $s *
$this->QR[$i][$k];
                        }
                    }
                }
                $this->Rdiag[$k] = -$nrm;
            }
        } else {
            throw new
CalculationException(Matrix::ARGUMENT_TYPE_EXCEPTION);
        }
    }

    //    function __construct()

    /**
     *    Is the matrix full rank?
     *
     * @return bool true if R, and hence A, has full rank, else false
     */
    public function isFullRank()
    {
        for ($j = 0; $j < $this->n; ++$j) {
            if ($this->Rdiag[$j] == 0) {
                return false;
            }
        }

        return true;
    }

    //    function isFullRank()

    /**
     * Return the Householder vectors.
     *
     * @return Matrix Lower trapezoidal matrix whose columns define the
reflections
     */
    public function getH()
    {
        $H = [];
        for ($i = 0; $i < $this->m; ++$i) {
            for ($j = 0; $j < $this->n; ++$j) {
                if ($i >= $j) {
                    $H[$i][$j] = $this->QR[$i][$j];
                } else {
                    $H[$i][$j] = 0.0;
                }
            }
        }

        return new Matrix($H);
    }

    //    function getH()

    /**
     * Return the upper triangular factor.
     *
     * @return Matrix upper triangular factor
     */
    public function getR()
    {
        $R = [];
        for ($i = 0; $i < $this->n; ++$i) {
            for ($j = 0; $j < $this->n; ++$j) {
                if ($i < $j) {
                    $R[$i][$j] = $this->QR[$i][$j];
                } elseif ($i == $j) {
                    $R[$i][$j] = $this->Rdiag[$i];
                } else {
                    $R[$i][$j] = 0.0;
                }
            }
        }

        return new Matrix($R);
    }

    //    function getR()

    /**
     * Generate and return the (economy-sized) orthogonal factor.
     *
     * @return Matrix orthogonal factor
     */
    public function getQ()
    {
        $Q = [];
        for ($k = $this->n - 1; $k >= 0; --$k) {
            for ($i = 0; $i < $this->m; ++$i) {
                $Q[$i][$k] = 0.0;
            }
            $Q[$k][$k] = 1.0;
            for ($j = $k; $j < $this->n; ++$j) {
                if ($this->QR[$k][$k] != 0) {
                    $s = 0.0;
                    for ($i = $k; $i < $this->m; ++$i) {
                        $s += $this->QR[$i][$k] * $Q[$i][$j];
                    }
                    $s = -$s / $this->QR[$k][$k];
                    for ($i = $k; $i < $this->m; ++$i) {
                        $Q[$i][$j] += $s * $this->QR[$i][$k];
                    }
                }
            }
        }

        return new Matrix($Q);
    }

    //    function getQ()

    /**
     * Least squares solution of A*X = B.
     *
     * @param Matrix $B a Matrix with as many rows as A and any number of
columns
     *
     * @return Matrix matrix that minimizes the two norm of Q*R*X-B
     */
    public function solve($B)
    {
        if ($B->getRowDimension() == $this->m) {
            if ($this->isFullRank()) {
                // Copy right hand side
                $nx = $B->getColumnDimension();
                $X = $B->getArrayCopy();
                // Compute Y = transpose(Q)*B
                for ($k = 0; $k < $this->n; ++$k) {
                    for ($j = 0; $j < $nx; ++$j) {
                        $s = 0.0;
                        for ($i = $k; $i < $this->m; ++$i) {
                            $s += $this->QR[$i][$k] * $X[$i][$j];
                        }
                        $s = -$s / $this->QR[$k][$k];
                        for ($i = $k; $i < $this->m; ++$i) {
                            $X[$i][$j] += $s * $this->QR[$i][$k];
                        }
                    }
                }
                // Solve R*X = Y;
                for ($k = $this->n - 1; $k >= 0; --$k) {
                    for ($j = 0; $j < $nx; ++$j) {
                        $X[$k][$j] /= $this->Rdiag[$k];
                    }
                    for ($i = 0; $i < $k; ++$i) {
                        for ($j = 0; $j < $nx; ++$j) {
                            $X[$i][$j] -= $X[$k][$j] *
$this->QR[$i][$k];
                        }
                    }
                }
                $X = new Matrix($X);

                return $X->getMatrix(0, $this->n - 1, 0, $nx);
            }

            throw new CalculationException(self::MATRIX_RANK_EXCEPTION);
        }

        throw new CalculationException(Matrix::MATRIX_DIMENSION_EXCEPTION);
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/JAMA/SingularValueDecomposition.php000064400000044134151165414030026504
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Shared\JAMA;

/**
 *    For an m-by-n matrix A with m >= n, the singular value
decomposition is
 *    an m-by-n orthogonal matrix U, an n-by-n diagonal matrix S, and
 *    an n-by-n orthogonal matrix V so that A = U*S*V'.
 *
 *    The singular values, sigma[$k] = S[$k][$k], are ordered so that
 *    sigma[0] >= sigma[1] >= ... >= sigma[n-1].
 *
 *    The singular value decompostion always exists, so the constructor
will
 *    never fail.  The matrix condition number and the effective numerical
 *    rank can be computed from this decomposition.
 *
 *    @author  Paul Meagher
 *
 *    @version 1.1
 */
class SingularValueDecomposition
{
    /**
     * Internal storage of U.
     *
     * @var array
     */
    private $U = [];

    /**
     * Internal storage of V.
     *
     * @var array
     */
    private $V = [];

    /**
     * Internal storage of singular values.
     *
     * @var array
     */
    private $s = [];

    /**
     * Row dimension.
     *
     * @var int
     */
    private $m;

    /**
     * Column dimension.
     *
     * @var int
     */
    private $n;

    /**
     * Construct the singular value decomposition.
     *
     * Derived from LINPACK code.
     *
     * @param mixed $Arg Rectangular matrix
     */
    public function __construct($Arg)
    {
        // Initialize.
        $A = $Arg->getArrayCopy();
        $this->m = $Arg->getRowDimension();
        $this->n = $Arg->getColumnDimension();
        $nu = min($this->m, $this->n);
        $e = [];
        $work = [];
        $wantu = true;
        $wantv = true;
        $nct = min($this->m - 1, $this->n);
        $nrt = max(0, min($this->n - 2, $this->m));

        // Reduce A to bidiagonal form, storing the diagonal elements
        // in s and the super-diagonal elements in e.
        $kMax = max($nct, $nrt);
        for ($k = 0; $k < $kMax; ++$k) {
            if ($k < $nct) {
                // Compute the transformation for the k-th column and
                // place the k-th diagonal in s[$k].
                // Compute 2-norm of k-th column without under/overflow.
                $this->s[$k] = 0;
                for ($i = $k; $i < $this->m; ++$i) {
                    $this->s[$k] = hypo($this->s[$k], $A[$i][$k]);
                }
                if ($this->s[$k] != 0.0) {
                    if ($A[$k][$k] < 0.0) {
                        $this->s[$k] = -$this->s[$k];
                    }
                    for ($i = $k; $i < $this->m; ++$i) {
                        $A[$i][$k] /= $this->s[$k];
                    }
                    $A[$k][$k] += 1.0;
                }
                $this->s[$k] = -$this->s[$k];
            }

            for ($j = $k + 1; $j < $this->n; ++$j) {
                if (($k < $nct) & ($this->s[$k] != 0.0)) {
                    // Apply the transformation.
                    $t = 0;
                    for ($i = $k; $i < $this->m; ++$i) {
                        $t += $A[$i][$k] * $A[$i][$j];
                    }
                    $t = -$t / $A[$k][$k];
                    for ($i = $k; $i < $this->m; ++$i) {
                        $A[$i][$j] += $t * $A[$i][$k];
                    }
                    // Place the k-th row of A into e for the
                    // subsequent calculation of the row transformation.
                    $e[$j] = $A[$k][$j];
                }
            }

            if ($wantu and ($k < $nct)) {
                // Place the transformation in U for subsequent back
                // multiplication.
                for ($i = $k; $i < $this->m; ++$i) {
                    $this->U[$i][$k] = $A[$i][$k];
                }
            }

            if ($k < $nrt) {
                // Compute the k-th row transformation and place the
                // k-th super-diagonal in e[$k].
                // Compute 2-norm without under/overflow.
                $e[$k] = 0;
                for ($i = $k + 1; $i < $this->n; ++$i) {
                    $e[$k] = hypo($e[$k], $e[$i]);
                }
                if ($e[$k] != 0.0) {
                    if ($e[$k + 1] < 0.0) {
                        $e[$k] = -$e[$k];
                    }
                    for ($i = $k + 1; $i < $this->n; ++$i) {
                        $e[$i] /= $e[$k];
                    }
                    $e[$k + 1] += 1.0;
                }
                $e[$k] = -$e[$k];
                if (($k + 1 < $this->m) and ($e[$k] != 0.0)) {
                    // Apply the transformation.
                    for ($i = $k + 1; $i < $this->m; ++$i) {
                        $work[$i] = 0.0;
                    }
                    for ($j = $k + 1; $j < $this->n; ++$j) {
                        for ($i = $k + 1; $i < $this->m; ++$i) {
                            $work[$i] += $e[$j] * $A[$i][$j];
                        }
                    }
                    for ($j = $k + 1; $j < $this->n; ++$j) {
                        $t = -$e[$j] / $e[$k + 1];
                        for ($i = $k + 1; $i < $this->m; ++$i) {
                            $A[$i][$j] += $t * $work[$i];
                        }
                    }
                }
                if ($wantv) {
                    // Place the transformation in V for subsequent
                    // back multiplication.
                    for ($i = $k + 1; $i < $this->n; ++$i) {
                        $this->V[$i][$k] = $e[$i];
                    }
                }
            }
        }

        // Set up the final bidiagonal matrix or order p.
        $p = min($this->n, $this->m + 1);
        if ($nct < $this->n) {
            $this->s[$nct] = $A[$nct][$nct];
        }
        if ($this->m < $p) {
            $this->s[$p - 1] = 0.0;
        }
        if ($nrt + 1 < $p) {
            $e[$nrt] = $A[$nrt][$p - 1];
        }
        $e[$p - 1] = 0.0;
        // If required, generate U.
        if ($wantu) {
            for ($j = $nct; $j < $nu; ++$j) {
                for ($i = 0; $i < $this->m; ++$i) {
                    $this->U[$i][$j] = 0.0;
                }
                $this->U[$j][$j] = 1.0;
            }
            for ($k = $nct - 1; $k >= 0; --$k) {
                if ($this->s[$k] != 0.0) {
                    for ($j = $k + 1; $j < $nu; ++$j) {
                        $t = 0;
                        for ($i = $k; $i < $this->m; ++$i) {
                            $t += $this->U[$i][$k] *
$this->U[$i][$j];
                        }
                        $t = -$t / $this->U[$k][$k];
                        for ($i = $k; $i < $this->m; ++$i) {
                            $this->U[$i][$j] += $t *
$this->U[$i][$k];
                        }
                    }
                    for ($i = $k; $i < $this->m; ++$i) {
                        $this->U[$i][$k] = -$this->U[$i][$k];
                    }
                    $this->U[$k][$k] = 1.0 + $this->U[$k][$k];
                    for ($i = 0; $i < $k - 1; ++$i) {
                        $this->U[$i][$k] = 0.0;
                    }
                } else {
                    for ($i = 0; $i < $this->m; ++$i) {
                        $this->U[$i][$k] = 0.0;
                    }
                    $this->U[$k][$k] = 1.0;
                }
            }
        }

        // If required, generate V.
        if ($wantv) {
            for ($k = $this->n - 1; $k >= 0; --$k) {
                if (($k < $nrt) and ($e[$k] != 0.0)) {
                    for ($j = $k + 1; $j < $nu; ++$j) {
                        $t = 0;
                        for ($i = $k + 1; $i < $this->n; ++$i) {
                            $t += $this->V[$i][$k] *
$this->V[$i][$j];
                        }
                        $t = -$t / $this->V[$k + 1][$k];
                        for ($i = $k + 1; $i < $this->n; ++$i) {
                            $this->V[$i][$j] += $t *
$this->V[$i][$k];
                        }
                    }
                }
                for ($i = 0; $i < $this->n; ++$i) {
                    $this->V[$i][$k] = 0.0;
                }
                $this->V[$k][$k] = 1.0;
            }
        }

        // Main iteration loop for the singular values.
        $pp = $p - 1;
        $iter = 0;
        $eps = pow(2.0, -52.0);

        while ($p > 0) {
            // Here is where a test for too many iterations would go.
            // This section of the program inspects for negligible
            // elements in the s and e arrays.  On completion the
            // variables kase and k are set as follows:
            // kase = 1  if s(p) and e[k-1] are negligible and k<p
            // kase = 2  if s(k) is negligible and k<p
            // kase = 3  if e[k-1] is negligible, k<p, and
            //           s(k), ..., s(p) are not negligible (qr step).
            // kase = 4  if e(p-1) is negligible (convergence).
            for ($k = $p - 2; $k >= -1; --$k) {
                if ($k == -1) {
                    break;
                }
                if (abs($e[$k]) <= $eps * (abs($this->s[$k]) +
abs($this->s[$k + 1]))) {
                    $e[$k] = 0.0;

                    break;
                }
            }
            if ($k == $p - 2) {
                $kase = 4;
            } else {
                for ($ks = $p - 1; $ks >= $k; --$ks) {
                    if ($ks == $k) {
                        break;
                    }
                    $t = ($ks != $p ? abs($e[$ks]) : 0.) + ($ks != $k + 1 ?
abs($e[$ks - 1]) : 0.);
                    if (abs($this->s[$ks]) <= $eps * $t) {
                        $this->s[$ks] = 0.0;

                        break;
                    }
                }
                if ($ks == $k) {
                    $kase = 3;
                } elseif ($ks == $p - 1) {
                    $kase = 1;
                } else {
                    $kase = 2;
                    $k = $ks;
                }
            }
            ++$k;

            // Perform the task indicated by kase.
            switch ($kase) {
                // Deflate negligible s(p).
                case 1:
                    $f = $e[$p - 2];
                    $e[$p - 2] = 0.0;
                    for ($j = $p - 2; $j >= $k; --$j) {
                        $t = hypo($this->s[$j], $f);
                        $cs = $this->s[$j] / $t;
                        $sn = $f / $t;
                        $this->s[$j] = $t;
                        if ($j != $k) {
                            $f = -$sn * $e[$j - 1];
                            $e[$j - 1] = $cs * $e[$j - 1];
                        }
                        if ($wantv) {
                            for ($i = 0; $i < $this->n; ++$i) {
                                $t = $cs * $this->V[$i][$j] + $sn *
$this->V[$i][$p - 1];
                                $this->V[$i][$p - 1] = -$sn *
$this->V[$i][$j] + $cs * $this->V[$i][$p - 1];
                                $this->V[$i][$j] = $t;
                            }
                        }
                    }

                    break;
                // Split at negligible s(k).
                case 2:
                    $f = $e[$k - 1];
                    $e[$k - 1] = 0.0;
                    for ($j = $k; $j < $p; ++$j) {
                        $t = hypo($this->s[$j], $f);
                        $cs = $this->s[$j] / $t;
                        $sn = $f / $t;
                        $this->s[$j] = $t;
                        $f = -$sn * $e[$j];
                        $e[$j] = $cs * $e[$j];
                        if ($wantu) {
                            for ($i = 0; $i < $this->m; ++$i) {
                                $t = $cs * $this->U[$i][$j] + $sn *
$this->U[$i][$k - 1];
                                $this->U[$i][$k - 1] = -$sn *
$this->U[$i][$j] + $cs * $this->U[$i][$k - 1];
                                $this->U[$i][$j] = $t;
                            }
                        }
                    }

                    break;
                // Perform one qr step.
                case 3:
                    // Calculate the shift.
                    $scale = max(max(max(max(abs($this->s[$p - 1]),
abs($this->s[$p - 2])), abs($e[$p - 2])), abs($this->s[$k])),
abs($e[$k]));
                    $sp = $this->s[$p - 1] / $scale;
                    $spm1 = $this->s[$p - 2] / $scale;
                    $epm1 = $e[$p - 2] / $scale;
                    $sk = $this->s[$k] / $scale;
                    $ek = $e[$k] / $scale;
                    $b = (($spm1 + $sp) * ($spm1 - $sp) + $epm1 * $epm1) /
2.0;
                    $c = ($sp * $epm1) * ($sp * $epm1);
                    $shift = 0.0;
                    if (($b != 0.0) || ($c != 0.0)) {
                        $shift = sqrt($b * $b + $c);
                        if ($b < 0.0) {
                            $shift = -$shift;
                        }
                        $shift = $c / ($b + $shift);
                    }
                    $f = ($sk + $sp) * ($sk - $sp) + $shift;
                    $g = $sk * $ek;
                    // Chase zeros.
                    for ($j = $k; $j < $p - 1; ++$j) {
                        $t = hypo($f, $g);
                        $cs = $f / $t;
                        $sn = $g / $t;
                        if ($j != $k) {
                            $e[$j - 1] = $t;
                        }
                        $f = $cs * $this->s[$j] + $sn * $e[$j];
                        $e[$j] = $cs * $e[$j] - $sn * $this->s[$j];
                        $g = $sn * $this->s[$j + 1];
                        $this->s[$j + 1] = $cs * $this->s[$j + 1];
                        if ($wantv) {
                            for ($i = 0; $i < $this->n; ++$i) {
                                $t = $cs * $this->V[$i][$j] + $sn *
$this->V[$i][$j + 1];
                                $this->V[$i][$j + 1] = -$sn *
$this->V[$i][$j] + $cs * $this->V[$i][$j + 1];
                                $this->V[$i][$j] = $t;
                            }
                        }
                        $t = hypo($f, $g);
                        $cs = $f / $t;
                        $sn = $g / $t;
                        $this->s[$j] = $t;
                        $f = $cs * $e[$j] + $sn * $this->s[$j + 1];
                        $this->s[$j + 1] = -$sn * $e[$j] + $cs *
$this->s[$j + 1];
                        $g = $sn * $e[$j + 1];
                        $e[$j + 1] = $cs * $e[$j + 1];
                        if ($wantu && ($j < $this->m - 1)) {
                            for ($i = 0; $i < $this->m; ++$i) {
                                $t = $cs * $this->U[$i][$j] + $sn *
$this->U[$i][$j + 1];
                                $this->U[$i][$j + 1] = -$sn *
$this->U[$i][$j] + $cs * $this->U[$i][$j + 1];
                                $this->U[$i][$j] = $t;
                            }
                        }
                    }
                    $e[$p - 2] = $f;
                    $iter = $iter + 1;

                    break;
                // Convergence.
                case 4:
                    // Make the singular values positive.
                    if ($this->s[$k] <= 0.0) {
                        $this->s[$k] = ($this->s[$k] < 0.0 ?
-$this->s[$k] : 0.0);
                        if ($wantv) {
                            for ($i = 0; $i <= $pp; ++$i) {
                                $this->V[$i][$k] = -$this->V[$i][$k];
                            }
                        }
                    }
                    // Order the singular values.
                    while ($k < $pp) {
                        if ($this->s[$k] >= $this->s[$k + 1]) {
                            break;
                        }
                        $t = $this->s[$k];
                        $this->s[$k] = $this->s[$k + 1];
                        $this->s[$k + 1] = $t;
                        if ($wantv and ($k < $this->n - 1)) {
                            for ($i = 0; $i < $this->n; ++$i) {
                                $t = $this->V[$i][$k + 1];
                                $this->V[$i][$k + 1] =
$this->V[$i][$k];
                                $this->V[$i][$k] = $t;
                            }
                        }
                        if ($wantu and ($k < $this->m - 1)) {
                            for ($i = 0; $i < $this->m; ++$i) {
                                $t = $this->U[$i][$k + 1];
                                $this->U[$i][$k + 1] =
$this->U[$i][$k];
                                $this->U[$i][$k] = $t;
                            }
                        }
                        ++$k;
                    }
                    $iter = 0;
                    --$p;

                    break;
            } // end switch
        } // end while
    }

    /**
     * Return the left singular vectors.
     *
     * @return Matrix U
     */
    public function getU()
    {
        return new Matrix($this->U, $this->m, min($this->m + 1,
$this->n));
    }

    /**
     * Return the right singular vectors.
     *
     * @return Matrix V
     */
    public function getV()
    {
        return new Matrix($this->V);
    }

    /**
     * Return the one-dimensional array of singular values.
     *
     * @return array diagonal of S
     */
    public function getSingularValues()
    {
        return $this->s;
    }

    /**
     * Return the diagonal matrix of singular values.
     *
     * @return Matrix S
     */
    public function getS()
    {
        for ($i = 0; $i < $this->n; ++$i) {
            for ($j = 0; $j < $this->n; ++$j) {
                $S[$i][$j] = 0.0;
            }
            $S[$i][$i] = $this->s[$i];
        }

        return new Matrix($S);
    }

    /**
     * Two norm.
     *
     * @return float max(S)
     */
    public function norm2()
    {
        return $this->s[0];
    }

    /**
     * Two norm condition number.
     *
     * @return float max(S)/min(S)
     */
    public function cond()
    {
        return $this->s[0] / $this->s[min($this->m, $this->n) -
1];
    }

    /**
     * Effective numerical matrix rank.
     *
     * @return int Number of nonnegligible singular values
     */
    public function rank()
    {
        $eps = pow(2.0, -52.0);
        $tol = max($this->m, $this->n) * $this->s[0] * $eps;
        $r = 0;
        $iMax = count($this->s);
        for ($i = 0; $i < $iMax; ++$i) {
            if ($this->s[$i] > $tol) {
                ++$r;
            }
        }

        return $r;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/JAMA/utils/Maths.php000064400000000756151165414030023404
0ustar00<?php
/**
 *    Pythagorean Theorem:.
 *
 *    a = 3
 *    b = 4
 *    r = sqrt(square(a) + square(b))
 *    r = 5
 *
 *    r = sqrt(a^2 + b^2) without under/overflow.
 *
 * @param mixed $a
 * @param mixed $b
 *
 * @return float
 */
function hypo($a, $b)
{
    if (abs($a) > abs($b)) {
        $r = $b / $a;
        $r = abs($a) * sqrt(1 + $r * $r);
    } elseif ($b != 0) {
        $r = $a / $b;
        $r = abs($b) * sqrt(1 + $r * $r);
    } else {
        $r = 0.0;
    }

    return $r;
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/OLE/ChainedBlockStream.php000064400000013263151165414030024556
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Shared\OLE;

use PhpOffice\PhpSpreadsheet\Shared\OLE;

class ChainedBlockStream
{
    /**
     * The OLE container of the file that is being read.
     *
     * @var OLE
     */
    public $ole;

    /**
     * Parameters specified by fopen().
     *
     * @var array
     */
    public $params;

    /**
     * The binary data of the file.
     *
     * @var string
     */
    public $data;

    /**
     * The file pointer.
     *
     * @var int byte offset
     */
    public $pos;

    /**
     * Implements support for fopen().
     * For creating streams using this wrapper, use
OLE_PPS_File::getStream().
     *
     * @param string $path resource name including scheme, e.g.
     *                                   
ole-chainedblockstream://oleInstanceId=1
     * @param string $mode only "r" is supported
     * @param int $options mask of STREAM_REPORT_ERRORS and STREAM_USE_PATH
     * @param string &$openedPath absolute path of the opened stream
(out parameter)
     *
     * @return bool true on success
     */
    public function stream_open($path, $mode, $options, &$openedPath)
// @codingStandardsIgnoreLine
    {
        if ($mode != 'r') {
            if ($options & STREAM_REPORT_ERRORS) {
                trigger_error('Only reading is supported',
E_USER_WARNING);
            }

            return false;
        }

        // 25 is length of "ole-chainedblockstream://"
        parse_str(substr($path, 25), $this->params);
        if (!isset($this->params['oleInstanceId'],
$this->params['blockId'],
$GLOBALS['_OLE_INSTANCES'][$this->params['oleInstanceId']]))
{
            if ($options & STREAM_REPORT_ERRORS) {
                trigger_error('OLE stream not found',
E_USER_WARNING);
            }

            return false;
        }
        $this->ole =
$GLOBALS['_OLE_INSTANCES'][$this->params['oleInstanceId']];

        $blockId = $this->params['blockId'];
        $this->data = '';
        if (isset($this->params['size']) &&
$this->params['size'] < $this->ole->bigBlockThreshold
&& $blockId != $this->ole->root->startBlock) {
            // Block id refers to small blocks
            $rootPos =
$this->ole->_getBlockOffset($this->ole->root->startBlock);
            while ($blockId != -2) {
                $pos = $rootPos + $blockId *
$this->ole->bigBlockSize;
                $blockId = $this->ole->sbat[$blockId];
                fseek($this->ole->_file_handle, $pos);
                $this->data .= fread($this->ole->_file_handle,
$this->ole->bigBlockSize);
            }
        } else {
            // Block id refers to big blocks
            while ($blockId != -2) {
                $pos = $this->ole->_getBlockOffset($blockId);
                fseek($this->ole->_file_handle, $pos);
                $this->data .= fread($this->ole->_file_handle,
$this->ole->bigBlockSize);
                $blockId = $this->ole->bbat[$blockId];
            }
        }
        if (isset($this->params['size'])) {
            $this->data = substr($this->data, 0,
$this->params['size']);
        }

        if ($options & STREAM_USE_PATH) {
            $openedPath = $path;
        }

        return true;
    }

    /**
     * Implements support for fclose().
     */
    public function stream_close() // @codingStandardsIgnoreLine
    {
        $this->ole = null;
        unset($GLOBALS['_OLE_INSTANCES']);
    }

    /**
     * Implements support for fread(), fgets() etc.
     *
     * @param int $count maximum number of bytes to read
     *
     * @return string
     */
    public function stream_read($count) // @codingStandardsIgnoreLine
    {
        if ($this->stream_eof()) {
            return false;
        }
        $s = substr($this->data, $this->pos, $count);
        $this->pos += $count;

        return $s;
    }

    /**
     * Implements support for feof().
     *
     * @return bool TRUE if the file pointer is at EOF; otherwise FALSE
     */
    public function stream_eof() // @codingStandardsIgnoreLine
    {
        return $this->pos >= strlen($this->data);
    }

    /**
     * Returns the position of the file pointer, i.e. its offset into the
file
     * stream. Implements support for ftell().
     *
     * @return int
     */
    public function stream_tell() // @codingStandardsIgnoreLine
    {
        return $this->pos;
    }

    /**
     * Implements support for fseek().
     *
     * @param int $offset byte offset
     * @param int $whence SEEK_SET, SEEK_CUR or SEEK_END
     *
     * @return bool
     */
    public function stream_seek($offset, $whence) //
@codingStandardsIgnoreLine
    {
        if ($whence == SEEK_SET && $offset >= 0) {
            $this->pos = $offset;
        } elseif ($whence == SEEK_CUR && -$offset <=
$this->pos) {
            $this->pos += $offset;
        } elseif ($whence == SEEK_END && -$offset <=
count($this->data)) {
            $this->pos = strlen($this->data) + $offset;
        } else {
            return false;
        }

        return true;
    }

    /**
     * Implements support for fstat(). Currently the only supported field
is
     * "size".
     *
     * @return array
     */
    public function stream_stat() // @codingStandardsIgnoreLine
    {
        return [
            'size' => strlen($this->data),
            ];
    }

    // Methods used by stream_wrapper_register() that are not implemented:
    // bool stream_flush ( void )
    // int stream_write ( string data )
    // bool rename ( string path_from, string path_to )
    // bool mkdir ( string path, int mode, int options )
    // bool rmdir ( string path, int options )
    // bool dir_opendir ( string path, int options )
    // array url_stat ( string path, int flags )
    // string dir_readdir ( void )
    // bool dir_rewinddir ( void )
    // bool dir_closedir ( void )
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/OLE/PPS/File.php000064400000004306151165414030022413
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Shared\OLE\PPS;

// vim: set expandtab tabstop=4 shiftwidth=4:
// +----------------------------------------------------------------------+
// | PHP Version 4                                                        |
// +----------------------------------------------------------------------+
// | Copyright (c) 1997-2002 The PHP Group                                |
// +----------------------------------------------------------------------+
// | This source file is subject to version 2.02 of the PHP license,      |
// | that is bundled with this package in the file LICENSE, and is        |
// | available at through the world-wide-web at                           |
// | http://www.php.net/license/2_02.txt.                                 |
// | If you did not receive a copy of the PHP license and are unable to   |
// | obtain it through the world-wide-web, please send a note to          |
// | license@php.net so we can mail you a copy immediately.               |
// +----------------------------------------------------------------------+
// | Author: Xavier Noguer <xnoguer@php.net>                         
    |
// | Based on OLE::Storage_Lite by Kawai, Takanori                        |
// +----------------------------------------------------------------------+
//
use PhpOffice\PhpSpreadsheet\Shared\OLE;
use PhpOffice\PhpSpreadsheet\Shared\OLE\PPS;

/**
 * Class for creating File PPS's for OLE containers.
 *
 * @author   Xavier Noguer <xnoguer@php.net>
 *
 * @category PhpSpreadsheet
 */
class File extends PPS
{
    /**
     * The constructor.
     *
     * @param string $name The name of the file (in Unicode)
     *
     * @see OLE::ascToUcs()
     */
    public function __construct($name)
    {
        parent::__construct(null, $name, OLE::OLE_PPS_TYPE_FILE, null,
null, null, null, null, '', []);
    }

    /**
     * Initialization method. Has to be called right after OLE_PPS_File().
     *
     * @return mixed true on success
     */
    public function init()
    {
        return true;
    }

    /**
     * Append data to PPS.
     *
     * @param string $data The data to append
     */
    public function append($data)
    {
        $this->_data .= $data;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/OLE/PPS/Root.php000064400000037633151165414030022470
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Shared\OLE\PPS;

// vim: set expandtab tabstop=4 shiftwidth=4:
// +----------------------------------------------------------------------+
// | PHP Version 4                                                        |
// +----------------------------------------------------------------------+
// | Copyright (c) 1997-2002 The PHP Group                                |
// +----------------------------------------------------------------------+
// | This source file is subject to version 2.02 of the PHP license,      |
// | that is bundled with this package in the file LICENSE, and is        |
// | available at through the world-wide-web at                           |
// | http://www.php.net/license/2_02.txt.                                 |
// | If you did not receive a copy of the PHP license and are unable to   |
// | obtain it through the world-wide-web, please send a note to          |
// | license@php.net so we can mail you a copy immediately.               |
// +----------------------------------------------------------------------+
// | Author: Xavier Noguer <xnoguer@php.net>                         
    |
// | Based on OLE::Storage_Lite by Kawai, Takanori                        |
// +----------------------------------------------------------------------+
//
use PhpOffice\PhpSpreadsheet\Shared\OLE;
use PhpOffice\PhpSpreadsheet\Shared\OLE\PPS;
use PhpOffice\PhpSpreadsheet\Writer\Exception as WriterException;

/**
 * Class for creating Root PPS's for OLE containers.
 *
 * @author   Xavier Noguer <xnoguer@php.net>
 *
 * @category PhpSpreadsheet
 */
class Root extends PPS
{
    /**
     * Directory for temporary files.
     *
     * @var string
     */
    protected $tempDirectory;

    /**
     * @var resource
     */
    private $fileHandle;

    /**
     * @var string
     */
    private $tempFilename;

    /**
     * @var int
     */
    private $smallBlockSize;

    /**
     * @var int
     */
    private $bigBlockSize;

    /**
     * @param int $time_1st A timestamp
     * @param int $time_2nd A timestamp
     * @param File[] $raChild
     */
    public function __construct($time_1st, $time_2nd, $raChild)
    {
        $this->tempDirectory =
\PhpOffice\PhpSpreadsheet\Shared\File::sysGetTempDir();

        parent::__construct(null, OLE::ascToUcs('Root Entry'),
OLE::OLE_PPS_TYPE_ROOT, null, null, null, $time_1st, $time_2nd, null,
$raChild);
    }

    /**
     * Method for saving the whole OLE container (including files).
     * In fact, if called with an empty argument (or '-'), it
saves to a
     * temporary file and then outputs it's contents to stdout.
     * If a resource pointer to a stream created by fopen() is passed
     * it will be used, but you have to close such stream by yourself.
     *
     * @param resource|string $filename the name of the file or stream
where to save the OLE container
     *
     * @throws WriterException
     *
     * @return bool true on success
     */
    public function save($filename)
    {
        // Initial Setting for saving
        $this->bigBlockSize = pow(
            2,
            (isset($this->bigBlockSize)) ?
self::adjust2($this->bigBlockSize) : 9
        );
        $this->smallBlockSize = pow(
            2,
            (isset($this->smallBlockSize)) ?
self::adjust2($this->smallBlockSize) : 6
        );

        if (is_resource($filename)) {
            $this->fileHandle = $filename;
        } elseif ($filename == '-' || $filename == '')
{
            if ($this->tempDirectory === null) {
                $this->tempDirectory =
\PhpOffice\PhpSpreadsheet\Shared\File::sysGetTempDir();
            }
            $this->tempFilename = tempnam($this->tempDirectory,
'OLE_PPS_Root');
            $this->fileHandle = fopen($this->tempFilename,
'w+b');
            if ($this->fileHandle == false) {
                throw new WriterException("Can't create temporary
file.");
            }
        } else {
            $this->fileHandle = fopen($filename, 'wb');
        }
        if ($this->fileHandle == false) {
            throw new WriterException("Can't open $filename. It
may be in use or protected.");
        }
        // Make an array of PPS's (for Save)
        $aList = [];
        PPS::_savePpsSetPnt($aList, [$this]);
        // calculate values for header
        [$iSBDcnt, $iBBcnt, $iPPScnt] = $this->_calcSize($aList); //,
$rhInfo);
        // Save Header
        $this->_saveHeader($iSBDcnt, $iBBcnt, $iPPScnt);

        // Make Small Data string (write SBD)
        $this->_data = $this->_makeSmallData($aList);

        // Write BB
        $this->_saveBigData($iSBDcnt, $aList);
        // Write PPS
        $this->_savePps($aList);
        // Write Big Block Depot and BDList and Adding Header informations
        $this->_saveBbd($iSBDcnt, $iBBcnt, $iPPScnt);

        if (!is_resource($filename)) {
            fclose($this->fileHandle);
        }

        return true;
    }

    /**
     * Calculate some numbers.
     *
     * @param array $raList Reference to an array of PPS's
     *
     * @return float[] The array of numbers
     */
    public function _calcSize(&$raList)
    {
        // Calculate Basic Setting
        [$iSBDcnt, $iBBcnt, $iPPScnt] = [0, 0, 0];
        $iSmallLen = 0;
        $iSBcnt = 0;
        $iCount = count($raList);
        for ($i = 0; $i < $iCount; ++$i) {
            if ($raList[$i]->Type == OLE::OLE_PPS_TYPE_FILE) {
                $raList[$i]->Size = $raList[$i]->getDataLen();
                if ($raList[$i]->Size < OLE::OLE_DATA_SIZE_SMALL) {
                    $iSBcnt += floor($raList[$i]->Size /
$this->smallBlockSize)
                                  + (($raList[$i]->Size %
$this->smallBlockSize) ? 1 : 0);
                } else {
                    $iBBcnt += (floor($raList[$i]->Size /
$this->bigBlockSize) +
                        (($raList[$i]->Size % $this->bigBlockSize) ?
1 : 0));
                }
            }
        }
        $iSmallLen = $iSBcnt * $this->smallBlockSize;
        $iSlCnt = floor($this->bigBlockSize / OLE::OLE_LONG_INT_SIZE);
        $iSBDcnt = floor($iSBcnt / $iSlCnt) + (($iSBcnt % $iSlCnt) ? 1 :
0);
        $iBBcnt += (floor($iSmallLen / $this->bigBlockSize) +
                      (($iSmallLen % $this->bigBlockSize) ? 1 : 0));
        $iCnt = count($raList);
        $iBdCnt = $this->bigBlockSize / OLE::OLE_PPS_SIZE;
        $iPPScnt = (floor($iCnt / $iBdCnt) + (($iCnt % $iBdCnt) ? 1 : 0));

        return [$iSBDcnt, $iBBcnt, $iPPScnt];
    }

    /**
     * Helper function for caculating a magic value for block sizes.
     *
     * @param int $i2 The argument
     *
     * @see save()
     *
     * @return float
     */
    private static function adjust2($i2)
    {
        $iWk = log($i2) / log(2);

        return ($iWk > floor($iWk)) ? floor($iWk) + 1 : $iWk;
    }

    /**
     * Save OLE header.
     *
     * @param int $iSBDcnt
     * @param int $iBBcnt
     * @param int $iPPScnt
     */
    public function _saveHeader($iSBDcnt, $iBBcnt, $iPPScnt)
    {
        $FILE = $this->fileHandle;

        // Calculate Basic Setting
        $iBlCnt = $this->bigBlockSize / OLE::OLE_LONG_INT_SIZE;
        $i1stBdL = ($this->bigBlockSize - 0x4C) /
OLE::OLE_LONG_INT_SIZE;

        $iBdExL = 0;
        $iAll = $iBBcnt + $iPPScnt + $iSBDcnt;
        $iAllW = $iAll;
        $iBdCntW = floor($iAllW / $iBlCnt) + (($iAllW % $iBlCnt) ? 1 : 0);
        $iBdCnt = floor(($iAll + $iBdCntW) / $iBlCnt) + ((($iAllW +
$iBdCntW) % $iBlCnt) ? 1 : 0);

        // Calculate BD count
        if ($iBdCnt > $i1stBdL) {
            while (1) {
                ++$iBdExL;
                ++$iAllW;
                $iBdCntW = floor($iAllW / $iBlCnt) + (($iAllW % $iBlCnt) ?
1 : 0);
                $iBdCnt = floor(($iAllW + $iBdCntW) / $iBlCnt) + ((($iAllW
+ $iBdCntW) % $iBlCnt) ? 1 : 0);
                if ($iBdCnt <= ($iBdExL * $iBlCnt + $i1stBdL)) {
                    break;
                }
            }
        }

        // Save Header
        fwrite(
            $FILE,
            "\xD0\xCF\x11\xE0\xA1\xB1\x1A\xE1"
            . "\x00\x00\x00\x00"
            . "\x00\x00\x00\x00"
            . "\x00\x00\x00\x00"
            . "\x00\x00\x00\x00"
            . pack('v', 0x3b)
            . pack('v', 0x03)
            . pack('v', -2)
            . pack('v', 9)
            . pack('v', 6)
            . pack('v', 0)
            . "\x00\x00\x00\x00"
            . "\x00\x00\x00\x00"
            . pack('V', $iBdCnt)
            . pack('V', $iBBcnt + $iSBDcnt) //ROOT START
            . pack('V', 0)
            . pack('V', 0x1000)
            . pack('V', $iSBDcnt ? 0 : -2) //Small Block Depot
            . pack('V', $iSBDcnt)
        );
        // Extra BDList Start, Count
        if ($iBdCnt < $i1stBdL) {
            fwrite(
                $FILE,
                pack('V', -2) // Extra BDList Start
                . pack('V', 0)// Extra BDList Count
            );
        } else {
            fwrite($FILE, pack('V', $iAll + $iBdCnt) .
pack('V', $iBdExL));
        }

        // BDList
        for ($i = 0; $i < $i1stBdL && $i < $iBdCnt; ++$i) {
            fwrite($FILE, pack('V', $iAll + $i));
        }
        if ($i < $i1stBdL) {
            $jB = $i1stBdL - $i;
            for ($j = 0; $j < $jB; ++$j) {
                fwrite($FILE, (pack('V', -1)));
            }
        }
    }

    /**
     * Saving big data (PPS's with data bigger than
\PhpOffice\PhpSpreadsheet\Shared\OLE::OLE_DATA_SIZE_SMALL).
     *
     * @param int $iStBlk
     * @param array &$raList Reference to array of PPS's
     */
    public function _saveBigData($iStBlk, &$raList)
    {
        $FILE = $this->fileHandle;

        // cycle through PPS's
        $iCount = count($raList);
        for ($i = 0; $i < $iCount; ++$i) {
            if ($raList[$i]->Type != OLE::OLE_PPS_TYPE_DIR) {
                $raList[$i]->Size = $raList[$i]->getDataLen();
                if (($raList[$i]->Size >= OLE::OLE_DATA_SIZE_SMALL)
|| (($raList[$i]->Type == OLE::OLE_PPS_TYPE_ROOT) &&
isset($raList[$i]->_data))) {
                    fwrite($FILE, $raList[$i]->_data);

                    if ($raList[$i]->Size % $this->bigBlockSize) {
                        fwrite($FILE, str_repeat("\x00",
$this->bigBlockSize - ($raList[$i]->Size % $this->bigBlockSize)));
                    }
                    // Set For PPS
                    $raList[$i]->startBlock = $iStBlk;
                    $iStBlk +=
                            (floor($raList[$i]->Size /
$this->bigBlockSize) +
                                (($raList[$i]->Size %
$this->bigBlockSize) ? 1 : 0));
                }
            }
        }
    }

    /**
     * get small data (PPS's with data smaller than
\PhpOffice\PhpSpreadsheet\Shared\OLE::OLE_DATA_SIZE_SMALL).
     *
     * @param array &$raList Reference to array of PPS's
     *
     * @return string
     */
    public function _makeSmallData(&$raList)
    {
        $sRes = '';
        $FILE = $this->fileHandle;
        $iSmBlk = 0;

        $iCount = count($raList);
        for ($i = 0; $i < $iCount; ++$i) {
            // Make SBD, small data string
            if ($raList[$i]->Type == OLE::OLE_PPS_TYPE_FILE) {
                if ($raList[$i]->Size <= 0) {
                    continue;
                }
                if ($raList[$i]->Size < OLE::OLE_DATA_SIZE_SMALL) {
                    $iSmbCnt = floor($raList[$i]->Size /
$this->smallBlockSize)
                                  + (($raList[$i]->Size %
$this->smallBlockSize) ? 1 : 0);
                    // Add to SBD
                    $jB = $iSmbCnt - 1;
                    for ($j = 0; $j < $jB; ++$j) {
                        fwrite($FILE, pack('V', $j + $iSmBlk +
1));
                    }
                    fwrite($FILE, pack('V', -2));

                    // Add to Data String(this will be written for
RootEntry)
                    $sRes .= $raList[$i]->_data;
                    if ($raList[$i]->Size % $this->smallBlockSize) {
                        $sRes .= str_repeat("\x00",
$this->smallBlockSize - ($raList[$i]->Size %
$this->smallBlockSize));
                    }
                    // Set for PPS
                    $raList[$i]->startBlock = $iSmBlk;
                    $iSmBlk += $iSmbCnt;
                }
            }
        }
        $iSbCnt = floor($this->bigBlockSize / OLE::OLE_LONG_INT_SIZE);
        if ($iSmBlk % $iSbCnt) {
            $iB = $iSbCnt - ($iSmBlk % $iSbCnt);
            for ($i = 0; $i < $iB; ++$i) {
                fwrite($FILE, pack('V', -1));
            }
        }

        return $sRes;
    }

    /**
     * Saves all the PPS's WKs.
     *
     * @param array $raList Reference to an array with all PPS's
     */
    public function _savePps(&$raList)
    {
        // Save each PPS WK
        $iC = count($raList);
        for ($i = 0; $i < $iC; ++$i) {
            fwrite($this->fileHandle, $raList[$i]->_getPpsWk());
        }
        // Adjust for Block
        $iCnt = count($raList);
        $iBCnt = $this->bigBlockSize / OLE::OLE_PPS_SIZE;
        if ($iCnt % $iBCnt) {
            fwrite($this->fileHandle, str_repeat("\x00",
($iBCnt - ($iCnt % $iBCnt)) * OLE::OLE_PPS_SIZE));
        }
    }

    /**
     * Saving Big Block Depot.
     *
     * @param int $iSbdSize
     * @param int $iBsize
     * @param int $iPpsCnt
     */
    public function _saveBbd($iSbdSize, $iBsize, $iPpsCnt)
    {
        $FILE = $this->fileHandle;
        // Calculate Basic Setting
        $iBbCnt = $this->bigBlockSize / OLE::OLE_LONG_INT_SIZE;
        $i1stBdL = ($this->bigBlockSize - 0x4C) /
OLE::OLE_LONG_INT_SIZE;

        $iBdExL = 0;
        $iAll = $iBsize + $iPpsCnt + $iSbdSize;
        $iAllW = $iAll;
        $iBdCntW = floor($iAllW / $iBbCnt) + (($iAllW % $iBbCnt) ? 1 : 0);
        $iBdCnt = floor(($iAll + $iBdCntW) / $iBbCnt) + ((($iAllW +
$iBdCntW) % $iBbCnt) ? 1 : 0);
        // Calculate BD count
        if ($iBdCnt > $i1stBdL) {
            while (1) {
                ++$iBdExL;
                ++$iAllW;
                $iBdCntW = floor($iAllW / $iBbCnt) + (($iAllW % $iBbCnt) ?
1 : 0);
                $iBdCnt = floor(($iAllW + $iBdCntW) / $iBbCnt) + ((($iAllW
+ $iBdCntW) % $iBbCnt) ? 1 : 0);
                if ($iBdCnt <= ($iBdExL * $iBbCnt + $i1stBdL)) {
                    break;
                }
            }
        }

        // Making BD
        // Set for SBD
        if ($iSbdSize > 0) {
            for ($i = 0; $i < ($iSbdSize - 1); ++$i) {
                fwrite($FILE, pack('V', $i + 1));
            }
            fwrite($FILE, pack('V', -2));
        }
        // Set for B
        for ($i = 0; $i < ($iBsize - 1); ++$i) {
            fwrite($FILE, pack('V', $i + $iSbdSize + 1));
        }
        fwrite($FILE, pack('V', -2));

        // Set for PPS
        for ($i = 0; $i < ($iPpsCnt - 1); ++$i) {
            fwrite($FILE, pack('V', $i + $iSbdSize + $iBsize +
1));
        }
        fwrite($FILE, pack('V', -2));
        // Set for BBD itself ( 0xFFFFFFFD : BBD)
        for ($i = 0; $i < $iBdCnt; ++$i) {
            fwrite($FILE, pack('V', 0xFFFFFFFD));
        }
        // Set for ExtraBDList
        for ($i = 0; $i < $iBdExL; ++$i) {
            fwrite($FILE, pack('V', 0xFFFFFFFC));
        }
        // Adjust for Block
        if (($iAllW + $iBdCnt) % $iBbCnt) {
            $iBlock = ($iBbCnt - (($iAllW + $iBdCnt) % $iBbCnt));
            for ($i = 0; $i < $iBlock; ++$i) {
                fwrite($FILE, pack('V', -1));
            }
        }
        // Extra BDList
        if ($iBdCnt > $i1stBdL) {
            $iN = 0;
            $iNb = 0;
            for ($i = $i1stBdL; $i < $iBdCnt; $i++, ++$iN) {
                if ($iN >= ($iBbCnt - 1)) {
                    $iN = 0;
                    ++$iNb;
                    fwrite($FILE, pack('V', $iAll + $iBdCnt +
$iNb));
                }
                fwrite($FILE, pack('V', $iBsize + $iSbdSize +
$iPpsCnt + $i));
            }
            if (($iBdCnt - $i1stBdL) % ($iBbCnt - 1)) {
                $iB = ($iBbCnt - 1) - (($iBdCnt - $i1stBdL) % ($iBbCnt -
1));
                for ($i = 0; $i < $iB; ++$i) {
                    fwrite($FILE, pack('V', -1));
                }
            }
            fwrite($FILE, pack('V', -2));
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/OLE/PPS.php000064400000016061151165414030021535
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Shared\OLE;

// vim: set expandtab tabstop=4 shiftwidth=4:
// +----------------------------------------------------------------------+
// | PHP Version 4                                                        |
// +----------------------------------------------------------------------+
// | Copyright (c) 1997-2002 The PHP Group                                |
// +----------------------------------------------------------------------+
// | This source file is subject to version 2.02 of the PHP license,      |
// | that is bundled with this package in the file LICENSE, and is        |
// | available at through the world-wide-web at                           |
// | http://www.php.net/license/2_02.txt.                                 |
// | If you did not receive a copy of the PHP license and are unable to   |
// | obtain it through the world-wide-web, please send a note to          |
// | license@php.net so we can mail you a copy immediately.               |
// +----------------------------------------------------------------------+
// | Author: Xavier Noguer <xnoguer@php.net>                         
    |
// | Based on OLE::Storage_Lite by Kawai, Takanori                        |
// +----------------------------------------------------------------------+
//
use PhpOffice\PhpSpreadsheet\Shared\OLE;

/**
 * Class for creating PPS's for OLE containers.
 *
 * @author   Xavier Noguer <xnoguer@php.net>
 *
 * @category PhpSpreadsheet
 */
class PPS
{
    /**
     * The PPS index.
     *
     * @var int
     */
    public $No;

    /**
     * The PPS name (in Unicode).
     *
     * @var string
     */
    public $Name;

    /**
     * The PPS type. Dir, Root or File.
     *
     * @var int
     */
    public $Type;

    /**
     * The index of the previous PPS.
     *
     * @var int
     */
    public $PrevPps;

    /**
     * The index of the next PPS.
     *
     * @var int
     */
    public $NextPps;

    /**
     * The index of it's first child if this is a Dir or Root PPS.
     *
     * @var int
     */
    public $DirPps;

    /**
     * A timestamp.
     *
     * @var int
     */
    public $Time1st;

    /**
     * A timestamp.
     *
     * @var int
     */
    public $Time2nd;

    /**
     * Starting block (small or big) for this PPS's data  inside the
container.
     *
     * @var int
     */
    public $startBlock;

    /**
     * The size of the PPS's data (in bytes).
     *
     * @var int
     */
    public $Size;

    /**
     * The PPS's data (only used if it's not using a temporary
file).
     *
     * @var string
     */
    public $_data;

    /**
     * Array of child PPS's (only used by Root and Dir PPS's).
     *
     * @var array
     */
    public $children = [];

    /**
     * Pointer to OLE container.
     *
     * @var OLE
     */
    public $ole;

    /**
     * The constructor.
     *
     * @param int $No The PPS index
     * @param string $name The PPS name
     * @param int $type The PPS type. Dir, Root or File
     * @param int $prev The index of the previous PPS
     * @param int $next The index of the next PPS
     * @param int $dir The index of it's first child if this is a Dir
or Root PPS
     * @param int $time_1st A timestamp
     * @param int $time_2nd A timestamp
     * @param string $data The (usually binary) source data of the PPS
     * @param array $children Array containing children PPS for this PPS
     */
    public function __construct($No, $name, $type, $prev, $next, $dir,
$time_1st, $time_2nd, $data, $children)
    {
        $this->No = $No;
        $this->Name = $name;
        $this->Type = $type;
        $this->PrevPps = $prev;
        $this->NextPps = $next;
        $this->DirPps = $dir;
        $this->Time1st = $time_1st;
        $this->Time2nd = $time_2nd;
        $this->_data = $data;
        $this->children = $children;
        if ($data != '') {
            $this->Size = strlen($data);
        } else {
            $this->Size = 0;
        }
    }

    /**
     * Returns the amount of data saved for this PPS.
     *
     * @return int The amount of data (in bytes)
     */
    public function getDataLen()
    {
        if (!isset($this->_data)) {
            return 0;
        }

        return strlen($this->_data);
    }

    /**
     * Returns a string with the PPS's WK (What is a WK?).
     *
     * @return string The binary string
     */
    public function _getPpsWk()
    {
        $ret = str_pad($this->Name, 64, "\x00");

        $ret .= pack('v', strlen($this->Name) + 2)  // 66
            . pack('c', $this->Type)              // 67
            . pack('c', 0x00) //UK                // 68
            . pack('V', $this->PrevPps) //Prev    // 72
            . pack('V', $this->NextPps) //Next    // 76
            . pack('V', $this->DirPps)  //Dir     // 80
            . "\x00\x09\x02\x00"                  // 84
            . "\x00\x00\x00\x00"                  // 88
            . "\xc0\x00\x00\x00"                  // 92
            . "\x00\x00\x00\x46"                  // 96 // Seems
to be ok only for Root
            . "\x00\x00\x00\x00"                  // 100
            . OLE::localDateToOLE($this->Time1st)          // 108
            . OLE::localDateToOLE($this->Time2nd)          // 116
            . pack('V', isset($this->startBlock) ?
$this->startBlock : 0)  // 120
            . pack('V', $this->Size)               // 124
            . pack('V', 0); // 128
        return $ret;
    }

    /**
     * Updates index and pointers to previous, next and children PPS's
for this
     * PPS. I don't think it'll work with Dir PPS's.
     *
     * @param array &$raList Reference to the array of PPS's for
the whole OLE
     *                          container
     * @param mixed $to_save
     * @param mixed $depth
     *
     * @return int The index for this PPS
     */
    public static function _savePpsSetPnt(&$raList, $to_save, $depth =
0)
    {
        if (!is_array($to_save) || (empty($to_save))) {
            return 0xFFFFFFFF;
        } elseif (count($to_save) == 1) {
            $cnt = count($raList);
            // If the first entry, it's the root... Don't clone
it!
            $raList[$cnt] = ($depth == 0) ? $to_save[0] : clone
$to_save[0];
            $raList[$cnt]->No = $cnt;
            $raList[$cnt]->PrevPps = 0xFFFFFFFF;
            $raList[$cnt]->NextPps = 0xFFFFFFFF;
            $raList[$cnt]->DirPps = self::_savePpsSetPnt($raList,
@$raList[$cnt]->children, $depth++);
        } else {
            $iPos = floor(count($to_save) / 2);
            $aPrev = array_slice($to_save, 0, $iPos);
            $aNext = array_slice($to_save, $iPos + 1);
            $cnt = count($raList);
            // If the first entry, it's the root... Don't clone
it!
            $raList[$cnt] = ($depth == 0) ? $to_save[$iPos] : clone
$to_save[$iPos];
            $raList[$cnt]->No = $cnt;
            $raList[$cnt]->PrevPps = self::_savePpsSetPnt($raList,
$aPrev, $depth++);
            $raList[$cnt]->NextPps = self::_savePpsSetPnt($raList,
$aNext, $depth++);
            $raList[$cnt]->DirPps = self::_savePpsSetPnt($raList,
@$raList[$cnt]->children, $depth++);
        }

        return $cnt;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/OLE.php000064400000042543151165414030021077
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Shared;

// vim: set expandtab tabstop=4 shiftwidth=4:
// +----------------------------------------------------------------------+
// | PHP Version 4                                                        |
// +----------------------------------------------------------------------+
// | Copyright (c) 1997-2002 The PHP Group                                |
// +----------------------------------------------------------------------+
// | This source file is subject to version 2.02 of the PHP license,      |
// | that is bundled with this package in the file LICENSE, and is        |
// | available at through the world-wide-web at                           |
// | http://www.php.net/license/2_02.txt.                                 |
// | If you did not receive a copy of the PHP license and are unable to   |
// | obtain it through the world-wide-web, please send a note to          |
// | license@php.net so we can mail you a copy immediately.               |
// +----------------------------------------------------------------------+
// | Author: Xavier Noguer <xnoguer@php.net>                         
    |
// | Based on OLE::Storage_Lite by Kawai, Takanori                        |
// +----------------------------------------------------------------------+
//

use PhpOffice\PhpSpreadsheet\Reader\Exception as ReaderException;
use PhpOffice\PhpSpreadsheet\Shared\OLE\ChainedBlockStream;
use PhpOffice\PhpSpreadsheet\Shared\OLE\PPS\Root;

/*
 * Array for storing OLE instances that are accessed from
 * OLE_ChainedBlockStream::stream_open().
 *
 * @var array
 */
$GLOBALS['_OLE_INSTANCES'] = [];

/**
 * OLE package base class.
 *
 * @author   Xavier Noguer <xnoguer@php.net>
 * @author   Christian Schmidt <schmidt@php.net>
 *
 * @category   PhpSpreadsheet
 */
class OLE
{
    const OLE_PPS_TYPE_ROOT = 5;
    const OLE_PPS_TYPE_DIR = 1;
    const OLE_PPS_TYPE_FILE = 2;
    const OLE_DATA_SIZE_SMALL = 0x1000;
    const OLE_LONG_INT_SIZE = 4;
    const OLE_PPS_SIZE = 0x80;

    /**
     * The file handle for reading an OLE container.
     *
     * @var resource
     */
    public $_file_handle;

    /**
     * Array of PPS's found on the OLE container.
     *
     * @var array
     */
    public $_list = [];

    /**
     * Root directory of OLE container.
     *
     * @var Root
     */
    public $root;

    /**
     * Big Block Allocation Table.
     *
     * @var array (blockId => nextBlockId)
     */
    public $bbat;

    /**
     * Short Block Allocation Table.
     *
     * @var array (blockId => nextBlockId)
     */
    public $sbat;

    /**
     * Size of big blocks. This is usually 512.
     *
     * @var int number of octets per block
     */
    public $bigBlockSize;

    /**
     * Size of small blocks. This is usually 64.
     *
     * @var int number of octets per block
     */
    public $smallBlockSize;

    /**
     * Threshold for big blocks.
     *
     * @var int
     */
    public $bigBlockThreshold;

    /**
     * Reads an OLE container from the contents of the file given.
     *
     * @acces public
     *
     * @param string $file
     *
     * @throws ReaderException
     *
     * @return bool true on success, PEAR_Error on failure
     */
    public function read($file)
    {
        $fh = fopen($file, 'r');
        if (!$fh) {
            throw new ReaderException("Can't open file
$file");
        }
        $this->_file_handle = $fh;

        $signature = fread($fh, 8);
        if ("\xD0\xCF\x11\xE0\xA1\xB1\x1A\xE1" != $signature) {
            throw new ReaderException("File doesn't seem to be an
OLE container.");
        }
        fseek($fh, 28);
        if (fread($fh, 2) != "\xFE\xFF") {
            // This shouldn't be a problem in practice
            throw new ReaderException('Only Little-Endian encoding is
supported.');
        }
        // Size of blocks and short blocks in bytes
        $this->bigBlockSize = pow(2, self::_readInt2($fh));
        $this->smallBlockSize = pow(2, self::_readInt2($fh));

        // Skip UID, revision number and version number
        fseek($fh, 44);
        // Number of blocks in Big Block Allocation Table
        $bbatBlockCount = self::_readInt4($fh);

        // Root chain 1st block
        $directoryFirstBlockId = self::_readInt4($fh);

        // Skip unused bytes
        fseek($fh, 56);
        // Streams shorter than this are stored using small blocks
        $this->bigBlockThreshold = self::_readInt4($fh);
        // Block id of first sector in Short Block Allocation Table
        $sbatFirstBlockId = self::_readInt4($fh);
        // Number of blocks in Short Block Allocation Table
        $sbbatBlockCount = self::_readInt4($fh);
        // Block id of first sector in Master Block Allocation Table
        $mbatFirstBlockId = self::_readInt4($fh);
        // Number of blocks in Master Block Allocation Table
        $mbbatBlockCount = self::_readInt4($fh);
        $this->bbat = [];

        // Remaining 4 * 109 bytes of current block is beginning of Master
        // Block Allocation Table
        $mbatBlocks = [];
        for ($i = 0; $i < 109; ++$i) {
            $mbatBlocks[] = self::_readInt4($fh);
        }

        // Read rest of Master Block Allocation Table (if any is left)
        $pos = $this->_getBlockOffset($mbatFirstBlockId);
        for ($i = 0; $i < $mbbatBlockCount; ++$i) {
            fseek($fh, $pos);
            for ($j = 0; $j < $this->bigBlockSize / 4 - 1; ++$j) {
                $mbatBlocks[] = self::_readInt4($fh);
            }
            // Last block id in each block points to next block
            $pos = $this->_getBlockOffset(self::_readInt4($fh));
        }

        // Read Big Block Allocation Table according to chain specified by
$mbatBlocks
        for ($i = 0; $i < $bbatBlockCount; ++$i) {
            $pos = $this->_getBlockOffset($mbatBlocks[$i]);
            fseek($fh, $pos);
            for ($j = 0; $j < $this->bigBlockSize / 4; ++$j) {
                $this->bbat[] = self::_readInt4($fh);
            }
        }

        // Read short block allocation table (SBAT)
        $this->sbat = [];
        $shortBlockCount = $sbbatBlockCount * $this->bigBlockSize / 4;
        $sbatFh = $this->getStream($sbatFirstBlockId);
        for ($blockId = 0; $blockId < $shortBlockCount; ++$blockId) {
            $this->sbat[$blockId] = self::_readInt4($sbatFh);
        }
        fclose($sbatFh);

        $this->_readPpsWks($directoryFirstBlockId);

        return true;
    }

    /**
     * @param int $blockId byte offset from beginning of file
     *
     * @return int
     */
    public function _getBlockOffset($blockId)
    {
        return 512 + $blockId * $this->bigBlockSize;
    }

    /**
     * Returns a stream for use with fread() etc. External callers should
     * use \PhpOffice\PhpSpreadsheet\Shared\OLE\PPS\File::getStream().
     *
     * @param int|OLE\PPS $blockIdOrPps block id or PPS
     *
     * @return resource read-only stream
     */
    public function getStream($blockIdOrPps)
    {
        static $isRegistered = false;
        if (!$isRegistered) {
            stream_wrapper_register('ole-chainedblockstream',
ChainedBlockStream::class);
            $isRegistered = true;
        }

        // Store current instance in global array, so that it can be
accessed
        // in OLE_ChainedBlockStream::stream_open().
        // Object is removed from self::$instances in OLE_Stream::close().
        $GLOBALS['_OLE_INSTANCES'][] = $this;
        $instanceId =
end(array_keys($GLOBALS['_OLE_INSTANCES']));

        $path = 'ole-chainedblockstream://oleInstanceId=' .
$instanceId;
        if ($blockIdOrPps instanceof OLE\PPS) {
            $path .= '&blockId=' .
$blockIdOrPps->startBlock;
            $path .= '&size=' . $blockIdOrPps->Size;
        } else {
            $path .= '&blockId=' . $blockIdOrPps;
        }

        return fopen($path, 'r');
    }

    /**
     * Reads a signed char.
     *
     * @param resource $fh file handle
     *
     * @return int
     */
    private static function _readInt1($fh)
    {
        [, $tmp] = unpack('c', fread($fh, 1));

        return $tmp;
    }

    /**
     * Reads an unsigned short (2 octets).
     *
     * @param resource $fh file handle
     *
     * @return int
     */
    private static function _readInt2($fh)
    {
        [, $tmp] = unpack('v', fread($fh, 2));

        return $tmp;
    }

    /**
     * Reads an unsigned long (4 octets).
     *
     * @param resource $fh file handle
     *
     * @return int
     */
    private static function _readInt4($fh)
    {
        [, $tmp] = unpack('V', fread($fh, 4));

        return $tmp;
    }

    /**
     * Gets information about all PPS's on the OLE container from the
PPS WK's
     * creates an OLE_PPS object for each one.
     *
     * @param int $blockId the block id of the first block
     *
     * @return bool true on success, PEAR_Error on failure
     */
    public function _readPpsWks($blockId)
    {
        $fh = $this->getStream($blockId);
        for ($pos = 0; true; $pos += 128) {
            fseek($fh, $pos, SEEK_SET);
            $nameUtf16 = fread($fh, 64);
            $nameLength = self::_readInt2($fh);
            $nameUtf16 = substr($nameUtf16, 0, $nameLength - 2);
            // Simple conversion from UTF-16LE to ISO-8859-1
            $name = str_replace("\x00", '',
$nameUtf16);
            $type = self::_readInt1($fh);
            switch ($type) {
                case self::OLE_PPS_TYPE_ROOT:
                    $pps = new OLE\PPS\Root(null, null, []);
                    $this->root = $pps;

                    break;
                case self::OLE_PPS_TYPE_DIR:
                    $pps = new OLE\PPS(null, null, null, null, null, null,
null, null, null, []);

                    break;
                case self::OLE_PPS_TYPE_FILE:
                    $pps = new OLE\PPS\File($name);

                    break;
                default:
                    break;
            }
            fseek($fh, 1, SEEK_CUR);
            $pps->Type = $type;
            $pps->Name = $name;
            $pps->PrevPps = self::_readInt4($fh);
            $pps->NextPps = self::_readInt4($fh);
            $pps->DirPps = self::_readInt4($fh);
            fseek($fh, 20, SEEK_CUR);
            $pps->Time1st = self::OLE2LocalDate(fread($fh, 8));
            $pps->Time2nd = self::OLE2LocalDate(fread($fh, 8));
            $pps->startBlock = self::_readInt4($fh);
            $pps->Size = self::_readInt4($fh);
            $pps->No = count($this->_list);
            $this->_list[] = $pps;

            // check if the PPS tree (starting from root) is complete
            if (isset($this->root) &&
$this->_ppsTreeComplete($this->root->No)) {
                break;
            }
        }
        fclose($fh);

        // Initialize $pps->children on directories
        foreach ($this->_list as $pps) {
            if ($pps->Type == self::OLE_PPS_TYPE_DIR || $pps->Type ==
self::OLE_PPS_TYPE_ROOT) {
                $nos = [$pps->DirPps];
                $pps->children = [];
                while ($nos) {
                    $no = array_pop($nos);
                    if ($no != -1) {
                        $childPps = $this->_list[$no];
                        $nos[] = $childPps->PrevPps;
                        $nos[] = $childPps->NextPps;
                        $pps->children[] = $childPps;
                    }
                }
            }
        }

        return true;
    }

    /**
     * It checks whether the PPS tree is complete (all PPS's read)
     * starting with the given PPS (not necessarily root).
     *
     * @param int $index The index of the PPS from which we are checking
     *
     * @return bool Whether the PPS tree for the given PPS is complete
     */
    public function _ppsTreeComplete($index)
    {
        return isset($this->_list[$index]) &&
            ($pps = $this->_list[$index]) &&
            ($pps->PrevPps == -1 ||
                $this->_ppsTreeComplete($pps->PrevPps)) &&
            ($pps->NextPps == -1 ||
                $this->_ppsTreeComplete($pps->NextPps)) &&
            ($pps->DirPps == -1 ||
                $this->_ppsTreeComplete($pps->DirPps));
    }

    /**
     * Checks whether a PPS is a File PPS or not.
     * If there is no PPS for the index given, it will return false.
     *
     * @param int $index The index for the PPS
     *
     * @return bool true if it's a File PPS, false otherwise
     */
    public function isFile($index)
    {
        if (isset($this->_list[$index])) {
            return $this->_list[$index]->Type ==
self::OLE_PPS_TYPE_FILE;
        }

        return false;
    }

    /**
     * Checks whether a PPS is a Root PPS or not.
     * If there is no PPS for the index given, it will return false.
     *
     * @param int $index the index for the PPS
     *
     * @return bool true if it's a Root PPS, false otherwise
     */
    public function isRoot($index)
    {
        if (isset($this->_list[$index])) {
            return $this->_list[$index]->Type ==
self::OLE_PPS_TYPE_ROOT;
        }

        return false;
    }

    /**
     * Gives the total number of PPS's found in the OLE container.
     *
     * @return int The total number of PPS's found in the OLE
container
     */
    public function ppsTotal()
    {
        return count($this->_list);
    }

    /**
     * Gets data from a PPS
     * If there is no PPS for the index given, it will return an empty
string.
     *
     * @param int $index The index for the PPS
     * @param int $position The position from which to start reading
     *                          (relative to the PPS)
     * @param int $length The amount of bytes to read (at most)
     *
     * @return string The binary string containing the data requested
     *
     * @see OLE_PPS_File::getStream()
     */
    public function getData($index, $position, $length)
    {
        // if position is not valid return empty string
        if (!isset($this->_list[$index]) || ($position >=
$this->_list[$index]->Size) || ($position < 0)) {
            return '';
        }
        $fh = $this->getStream($this->_list[$index]);
        $data = stream_get_contents($fh, $length, $position);
        fclose($fh);

        return $data;
    }

    /**
     * Gets the data length from a PPS
     * If there is no PPS for the index given, it will return 0.
     *
     * @param int $index The index for the PPS
     *
     * @return int The amount of bytes in data the PPS has
     */
    public function getDataLength($index)
    {
        if (isset($this->_list[$index])) {
            return $this->_list[$index]->Size;
        }

        return 0;
    }

    /**
     * Utility function to transform ASCII text to Unicode.
     *
     * @param string $ascii The ASCII string to transform
     *
     * @return string The string in Unicode
     */
    public static function ascToUcs($ascii)
    {
        $rawname = '';
        $iMax = strlen($ascii);
        for ($i = 0; $i < $iMax; ++$i) {
            $rawname .= $ascii[$i]
                . "\x00";
        }

        return $rawname;
    }

    /**
     * Utility function
     * Returns a string for the OLE container with the date given.
     *
     * @param int $date A timestamp
     *
     * @return string The string for the OLE container
     */
    public static function localDateToOLE($date)
    {
        if (!isset($date)) {
            return "\x00\x00\x00\x00\x00\x00\x00\x00";
        }

        // factor used for separating numbers into 4 bytes parts
        $factor = pow(2, 32);

        // days from 1-1-1601 until the beggining of UNIX era
        $days = 134774;
        // calculate seconds
        $big_date = $days * 24 * 3600 + gmmktime(date('H',
$date), date('i', $date), date('s', $date),
date('m', $date), date('d', $date), date('Y',
$date));
        // multiply just to make MS happy
        $big_date *= 10000000;

        $high_part = floor($big_date / $factor);
        // lower 4 bytes
        $low_part = floor((($big_date / $factor) - $high_part) * $factor);

        // Make HEX string
        $res = '';

        for ($i = 0; $i < 4; ++$i) {
            $hex = $low_part % 0x100;
            $res .= pack('c', $hex);
            $low_part /= 0x100;
        }
        for ($i = 0; $i < 4; ++$i) {
            $hex = $high_part % 0x100;
            $res .= pack('c', $hex);
            $high_part /= 0x100;
        }

        return $res;
    }

    /**
     * Returns a timestamp from an OLE container's date.
     *
     * @param string $oleTimestamp A binary string with the encoded date
     *
     * @throws ReaderException
     *
     * @return int The Unix timestamp corresponding to the string
     */
    public static function OLE2LocalDate($oleTimestamp)
    {
        if (strlen($oleTimestamp) != 8) {
            throw new ReaderException('Expecting 8 byte string');
        }

        // convert to units of 100 ns since 1601:
        $unpackedTimestamp = unpack('v4', $oleTimestamp);
        $timestampHigh = (float) $unpackedTimestamp[4] * 65536 + (float)
$unpackedTimestamp[3];
        $timestampLow = (float) $unpackedTimestamp[2] * 65536 + (float)
$unpackedTimestamp[1];

        // translate to seconds since 1601:
        $timestampHigh /= 10000000;
        $timestampLow /= 10000000;

        // days from 1601 to 1970:
        $days = 134774;

        // translate to seconds since 1970:
        $unixTimestamp = floor(65536.0 * 65536.0 * $timestampHigh +
$timestampLow - $days * 24 * 3600 + 0.5);

        if ((int) $unixTimestamp == $unixTimestamp) {
            return (int) $unixTimestamp;
        }

        return $unixTimestamp >= 0.0 ? PHP_INT_MAX : PHP_INT_MIN;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/OLERead.php000064400000024324151165414030021670
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Shared;

use PhpOffice\PhpSpreadsheet\Reader\Exception as ReaderException;

class OLERead
{
    private $data = '';

    // Size of a sector = 512 bytes
    const BIG_BLOCK_SIZE = 0x200;

    // Size of a short sector = 64 bytes
    const SMALL_BLOCK_SIZE = 0x40;

    // Size of a directory entry always = 128 bytes
    const PROPERTY_STORAGE_BLOCK_SIZE = 0x80;

    // Minimum size of a standard stream = 4096 bytes, streams smaller than
this are stored as short streams
    const SMALL_BLOCK_THRESHOLD = 0x1000;

    // header offsets
    const NUM_BIG_BLOCK_DEPOT_BLOCKS_POS = 0x2c;
    const ROOT_START_BLOCK_POS = 0x30;
    const SMALL_BLOCK_DEPOT_BLOCK_POS = 0x3c;
    const EXTENSION_BLOCK_POS = 0x44;
    const NUM_EXTENSION_BLOCK_POS = 0x48;
    const BIG_BLOCK_DEPOT_BLOCKS_POS = 0x4c;

    // property storage offsets (directory offsets)
    const SIZE_OF_NAME_POS = 0x40;
    const TYPE_POS = 0x42;
    const START_BLOCK_POS = 0x74;
    const SIZE_POS = 0x78;

    public $wrkbook;

    public $summaryInformation;

    public $documentSummaryInformation;

    /**
     * @var int
     */
    private $numBigBlockDepotBlocks;

    /**
     * @var int
     */
    private $rootStartBlock;

    /**
     * @var int
     */
    private $sbdStartBlock;

    /**
     * @var int
     */
    private $extensionBlock;

    /**
     * @var int
     */
    private $numExtensionBlocks;

    /**
     * @var string
     */
    private $bigBlockChain;

    /**
     * @var string
     */
    private $smallBlockChain;

    /**
     * @var string
     */
    private $entry;

    /**
     * @var int
     */
    private $rootentry;

    /**
     * @var array
     */
    private $props = [];

    /**
     * Read the file.
     *
     * @param $pFilename string Filename
     *
     * @throws ReaderException
     */
    public function read($pFilename)
    {
        File::assertFile($pFilename);

        // Get the file identifier
        // Don't bother reading the whole file until we know it's
a valid OLE file
        $this->data = file_get_contents($pFilename, false, null, 0, 8);

        // Check OLE identifier
        $identifierOle = pack('CCCCCCCC', 0xd0, 0xcf, 0x11, 0xe0,
0xa1, 0xb1, 0x1a, 0xe1);
        if ($this->data != $identifierOle) {
            throw new ReaderException('The filename ' .
$pFilename . ' is not recognised as an OLE file');
        }

        // Get the file data
        $this->data = file_get_contents($pFilename);

        // Total number of sectors used for the SAT
        $this->numBigBlockDepotBlocks = self::getInt4d($this->data,
self::NUM_BIG_BLOCK_DEPOT_BLOCKS_POS);

        // SecID of the first sector of the directory stream
        $this->rootStartBlock = self::getInt4d($this->data,
self::ROOT_START_BLOCK_POS);

        // SecID of the first sector of the SSAT (or -2 if not extant)
        $this->sbdStartBlock = self::getInt4d($this->data,
self::SMALL_BLOCK_DEPOT_BLOCK_POS);

        // SecID of the first sector of the MSAT (or -2 if no additional
sectors are used)
        $this->extensionBlock = self::getInt4d($this->data,
self::EXTENSION_BLOCK_POS);

        // Total number of sectors used by MSAT
        $this->numExtensionBlocks = self::getInt4d($this->data,
self::NUM_EXTENSION_BLOCK_POS);

        $bigBlockDepotBlocks = [];
        $pos = self::BIG_BLOCK_DEPOT_BLOCKS_POS;

        $bbdBlocks = $this->numBigBlockDepotBlocks;

        if ($this->numExtensionBlocks != 0) {
            $bbdBlocks = (self::BIG_BLOCK_SIZE -
self::BIG_BLOCK_DEPOT_BLOCKS_POS) / 4;
        }

        for ($i = 0; $i < $bbdBlocks; ++$i) {
            $bigBlockDepotBlocks[$i] = self::getInt4d($this->data,
$pos);
            $pos += 4;
        }

        for ($j = 0; $j < $this->numExtensionBlocks; ++$j) {
            $pos = ($this->extensionBlock + 1) * self::BIG_BLOCK_SIZE;
            $blocksToRead = min($this->numBigBlockDepotBlocks -
$bbdBlocks, self::BIG_BLOCK_SIZE / 4 - 1);

            for ($i = $bbdBlocks; $i < $bbdBlocks + $blocksToRead; ++$i)
{
                $bigBlockDepotBlocks[$i] = self::getInt4d($this->data,
$pos);
                $pos += 4;
            }

            $bbdBlocks += $blocksToRead;
            if ($bbdBlocks < $this->numBigBlockDepotBlocks) {
                $this->extensionBlock = self::getInt4d($this->data,
$pos);
            }
        }

        $pos = 0;
        $this->bigBlockChain = '';
        $bbs = self::BIG_BLOCK_SIZE / 4;
        for ($i = 0; $i < $this->numBigBlockDepotBlocks; ++$i) {
            $pos = ($bigBlockDepotBlocks[$i] + 1) * self::BIG_BLOCK_SIZE;

            $this->bigBlockChain .= substr($this->data, $pos, 4 *
$bbs);
            $pos += 4 * $bbs;
        }

        $pos = 0;
        $sbdBlock = $this->sbdStartBlock;
        $this->smallBlockChain = '';
        while ($sbdBlock != -2) {
            $pos = ($sbdBlock + 1) * self::BIG_BLOCK_SIZE;

            $this->smallBlockChain .= substr($this->data, $pos, 4 *
$bbs);
            $pos += 4 * $bbs;

            $sbdBlock = self::getInt4d($this->bigBlockChain, $sbdBlock *
4);
        }

        // read the directory stream
        $block = $this->rootStartBlock;
        $this->entry = $this->_readData($block);

        $this->readPropertySets();
    }

    /**
     * Extract binary stream data.
     *
     * @param int $stream
     *
     * @return string
     */
    public function getStream($stream)
    {
        if ($stream === null) {
            return null;
        }

        $streamData = '';

        if ($this->props[$stream]['size'] <
self::SMALL_BLOCK_THRESHOLD) {
            $rootdata =
$this->_readData($this->props[$this->rootentry]['startBlock']);

            $block = $this->props[$stream]['startBlock'];

            while ($block != -2) {
                $pos = $block * self::SMALL_BLOCK_SIZE;
                $streamData .= substr($rootdata, $pos,
self::SMALL_BLOCK_SIZE);

                $block = self::getInt4d($this->smallBlockChain, $block *
4);
            }

            return $streamData;
        }
        $numBlocks = $this->props[$stream]['size'] /
self::BIG_BLOCK_SIZE;
        if ($this->props[$stream]['size'] %
self::BIG_BLOCK_SIZE != 0) {
            ++$numBlocks;
        }

        if ($numBlocks == 0) {
            return '';
        }

        $block = $this->props[$stream]['startBlock'];

        while ($block != -2) {
            $pos = ($block + 1) * self::BIG_BLOCK_SIZE;
            $streamData .= substr($this->data, $pos,
self::BIG_BLOCK_SIZE);
            $block = self::getInt4d($this->bigBlockChain, $block * 4);
        }

        return $streamData;
    }

    /**
     * Read a standard stream (by joining sectors using information from
SAT).
     *
     * @param int $bl Sector ID where the stream starts
     *
     * @return string Data for standard stream
     */
    private function _readData($bl)
    {
        $block = $bl;
        $data = '';

        while ($block != -2) {
            $pos = ($block + 1) * self::BIG_BLOCK_SIZE;
            $data .= substr($this->data, $pos, self::BIG_BLOCK_SIZE);
            $block = self::getInt4d($this->bigBlockChain, $block * 4);
        }

        return $data;
    }

    /**
     * Read entries in the directory stream.
     */
    private function readPropertySets()
    {
        $offset = 0;

        // loop through entires, each entry is 128 bytes
        $entryLen = strlen($this->entry);
        while ($offset < $entryLen) {
            // entry data (128 bytes)
            $d = substr($this->entry, $offset,
self::PROPERTY_STORAGE_BLOCK_SIZE);

            // size in bytes of name
            $nameSize = ord($d[self::SIZE_OF_NAME_POS]) |
(ord($d[self::SIZE_OF_NAME_POS + 1]) << 8);

            // type of entry
            $type = ord($d[self::TYPE_POS]);

            // sectorID of first sector or short sector, if this entry
refers to a stream (the case with workbook)
            // sectorID of first sector of the short-stream container
stream, if this entry is root entry
            $startBlock = self::getInt4d($d, self::START_BLOCK_POS);

            $size = self::getInt4d($d, self::SIZE_POS);

            $name = str_replace("\x00", '', substr($d,
0, $nameSize));

            $this->props[] = [
                'name' => $name,
                'type' => $type,
                'startBlock' => $startBlock,
                'size' => $size,
            ];

            // tmp helper to simplify checks
            $upName = strtoupper($name);

            // Workbook directory entry (BIFF5 uses Book, BIFF8 uses
Workbook)
            if (($upName === 'WORKBOOK') || ($upName ===
'BOOK')) {
                $this->wrkbook = count($this->props) - 1;
            } elseif ($upName === 'ROOT ENTRY' || $upName ===
'R') {
                // Root entry
                $this->rootentry = count($this->props) - 1;
            }

            // Summary information
            if ($name == chr(5) . 'SummaryInformation') {
                $this->summaryInformation = count($this->props) - 1;
            }

            // Additional Document Summary information
            if ($name == chr(5) . 'DocumentSummaryInformation') {
                $this->documentSummaryInformation =
count($this->props) - 1;
            }

            $offset += self::PROPERTY_STORAGE_BLOCK_SIZE;
        }
    }

    /**
     * Read 4 bytes of data at specified position.
     *
     * @param string $data
     * @param int $pos
     *
     * @return int
     */
    private static function getInt4d($data, $pos)
    {
        if ($pos < 0) {
            // Invalid position
            throw new ReaderException('Parameter pos=' . $pos .
' is invalid.');
        }

        $len = strlen($data);
        if ($len < $pos + 4) {
            $data .= str_repeat("\0", $pos + 4 - $len);
        }

        // FIX: represent numbers correctly on 64-bit system
        //
http://sourceforge.net/tracker/index.php?func=detail&aid=1487372&group_id=99160&atid=623334
        // Changed by Andreas Rehm 2006 to ensure correct result of the
<<24 block on 32 and 64bit systems
        $_or_24 = ord($data[$pos + 3]);
        if ($_or_24 >= 128) {
            // negative number
            $_ord_24 = -abs((256 - $_or_24) << 24);
        } else {
            $_ord_24 = ($_or_24 & 127) << 24;
        }

        return ord($data[$pos]) | (ord($data[$pos + 1]) << 8) |
(ord($data[$pos + 2]) << 16) | $_ord_24;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/PasswordHasher.php000064400000002130151165414030023401
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Shared;

class PasswordHasher
{
    /**
     * Create a password hash from a given string.
     *
     * This method is based on the algorithm provided by
     * Daniel Rentz of OpenOffice and the PEAR package
     * Spreadsheet_Excel_Writer by Xavier Noguer
<xnoguer@rezebra.com>.
     *
     * @param string $pPassword Password to hash
     *
     * @return string Hashed password
     */
    public static function hashPassword($pPassword)
    {
        $password = 0x0000;
        $charPos = 1; // char position

        // split the plain text password in its component characters
        $chars = preg_split('//', $pPassword, -1,
PREG_SPLIT_NO_EMPTY);
        foreach ($chars as $char) {
            $value = ord($char) << $charPos++; // shifted ASCII value
            $rotated_bits = $value >> 15; // rotated bits beyond bit
15
            $value &= 0x7fff; // first 15 bits
            $password ^= ($value | $rotated_bits);
        }

        $password ^= strlen($pPassword);
        $password ^= 0xCE4B;

        return strtoupper(dechex($password));
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/StringHelper.php000064400000055717151165414030023075
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Shared;

use PhpOffice\PhpSpreadsheet\Calculation\Calculation;

class StringHelper
{
    /**    Constants                */
    /**    Regular Expressions        */
    //    Fraction
    const STRING_REGEXP_FRACTION = '(-?)(\d+)\s+(\d+\/\d+)';

    /**
     * Control characters array.
     *
     * @var string[]
     */
    private static $controlCharacters = [];

    /**
     * SYLK Characters array.
     *
     * @var array
     */
    private static $SYLKCharacters = [];

    /**
     * Decimal separator.
     *
     * @var string
     */
    private static $decimalSeparator;

    /**
     * Thousands separator.
     *
     * @var string
     */
    private static $thousandsSeparator;

    /**
     * Currency code.
     *
     * @var string
     */
    private static $currencyCode;

    /**
     * Is iconv extension avalable?
     *
     * @var bool
     */
    private static $isIconvEnabled;

    /**
     * iconv options.
     *
     * @var string
     */
    private static $iconvOptions = '//IGNORE//TRANSLIT';

    /**
     * Build control characters array.
     */
    private static function buildControlCharacters()
    {
        for ($i = 0; $i <= 31; ++$i) {
            if ($i != 9 && $i != 10 && $i != 13) {
                $find = '_x' . sprintf('%04s',
strtoupper(dechex($i))) . '_';
                $replace = chr($i);
                self::$controlCharacters[$find] = $replace;
            }
        }
    }

    /**
     * Build SYLK characters array.
     */
    private static function buildSYLKCharacters()
    {
        self::$SYLKCharacters = [
            "\x1B 0" => chr(0),
            "\x1B 1" => chr(1),
            "\x1B 2" => chr(2),
            "\x1B 3" => chr(3),
            "\x1B 4" => chr(4),
            "\x1B 5" => chr(5),
            "\x1B 6" => chr(6),
            "\x1B 7" => chr(7),
            "\x1B 8" => chr(8),
            "\x1B 9" => chr(9),
            "\x1B :" => chr(10),
            "\x1B ;" => chr(11),
            "\x1B <" => chr(12),
            "\x1B =" => chr(13),
            "\x1B >" => chr(14),
            "\x1B ?" => chr(15),
            "\x1B!0" => chr(16),
            "\x1B!1" => chr(17),
            "\x1B!2" => chr(18),
            "\x1B!3" => chr(19),
            "\x1B!4" => chr(20),
            "\x1B!5" => chr(21),
            "\x1B!6" => chr(22),
            "\x1B!7" => chr(23),
            "\x1B!8" => chr(24),
            "\x1B!9" => chr(25),
            "\x1B!:" => chr(26),
            "\x1B!;" => chr(27),
            "\x1B!<" => chr(28),
            "\x1B!=" => chr(29),
            "\x1B!>" => chr(30),
            "\x1B!?" => chr(31),
            "\x1B'?" => chr(127),
            "\x1B(0" => '€', // 128 in CP1252
            "\x1B(2" => '‚', // 130 in CP1252
            "\x1B(3" => 'ƒ', // 131 in CP1252
            "\x1B(4" => '„', // 132 in CP1252
            "\x1B(5" => '…', // 133 in CP1252
            "\x1B(6" => '†', // 134 in CP1252
            "\x1B(7" => '‡', // 135 in CP1252
            "\x1B(8" => 'ˆ', // 136 in CP1252
            "\x1B(9" => '‰', // 137 in CP1252
            "\x1B(:" => 'Š', // 138 in CP1252
            "\x1B(;" => '‹', // 139 in CP1252
            "\x1BNj" => 'Œ', // 140 in CP1252
            "\x1B(>" => 'Ž', // 142 in CP1252
            "\x1B)1" => '‘', // 145 in CP1252
            "\x1B)2" => '’', // 146 in CP1252
            "\x1B)3" => '“', // 147 in CP1252
            "\x1B)4" => '”', // 148 in CP1252
            "\x1B)5" => '•', // 149 in CP1252
            "\x1B)6" => '–', // 150 in CP1252
            "\x1B)7" => '—', // 151 in CP1252
            "\x1B)8" => '˜', // 152 in CP1252
            "\x1B)9" => '™', // 153 in CP1252
            "\x1B):" => 'š', // 154 in CP1252
            "\x1B);" => '›', // 155 in CP1252
            "\x1BNz" => 'œ', // 156 in CP1252
            "\x1B)>" => 'ž', // 158 in CP1252
            "\x1B)?" => 'Ÿ', // 159 in CP1252
            "\x1B*0" => ' ', // 160 in CP1252
            "\x1BN!" => '¡', // 161 in CP1252
            "\x1BN\"" => '¢', // 162 in CP1252
            "\x1BN#" => '£', // 163 in CP1252
            "\x1BN(" => '¤', // 164 in CP1252
            "\x1BN%" => '¥', // 165 in CP1252
            "\x1B*6" => '¦', // 166 in CP1252
            "\x1BN'" => '§', // 167 in CP1252
            "\x1BNH " => '¨', // 168 in CP1252
            "\x1BNS" => '©', // 169 in CP1252
            "\x1BNc" => 'ª', // 170 in CP1252
            "\x1BN+" => '«', // 171 in CP1252
            "\x1B*<" => '¬', // 172 in CP1252
            "\x1B*=" => '­', // 173 in CP1252
            "\x1BNR" => '®', // 174 in CP1252
            "\x1B*?" => '¯', // 175 in CP1252
            "\x1BN0" => '°', // 176 in CP1252
            "\x1BN1" => '±', // 177 in CP1252
            "\x1BN2" => '²', // 178 in CP1252
            "\x1BN3" => '³', // 179 in CP1252
            "\x1BNB " => '´', // 180 in CP1252
            "\x1BN5" => 'µ', // 181 in CP1252
            "\x1BN6" => '¶', // 182 in CP1252
            "\x1BN7" => '·', // 183 in CP1252
            "\x1B+8" => '¸', // 184 in CP1252
            "\x1BNQ" => '¹', // 185 in CP1252
            "\x1BNk" => 'º', // 186 in CP1252
            "\x1BN;" => '»', // 187 in CP1252
            "\x1BN<" => '¼', // 188 in CP1252
            "\x1BN=" => '½', // 189 in CP1252
            "\x1BN>" => '¾', // 190 in CP1252
            "\x1BN?" => '¿', // 191 in CP1252
            "\x1BNAA" => 'À', // 192 in CP1252
            "\x1BNBA" => 'Á', // 193 in CP1252
            "\x1BNCA" => 'Â', // 194 in CP1252
            "\x1BNDA" => 'Ã', // 195 in CP1252
            "\x1BNHA" => 'Ä', // 196 in CP1252
            "\x1BNJA" => 'Å', // 197 in CP1252
            "\x1BNa" => 'Æ', // 198 in CP1252
            "\x1BNKC" => 'Ç', // 199 in CP1252
            "\x1BNAE" => 'È', // 200 in CP1252
            "\x1BNBE" => 'É', // 201 in CP1252
            "\x1BNCE" => 'Ê', // 202 in CP1252
            "\x1BNHE" => 'Ë', // 203 in CP1252
            "\x1BNAI" => 'Ì', // 204 in CP1252
            "\x1BNBI" => 'Í', // 205 in CP1252
            "\x1BNCI" => 'Î', // 206 in CP1252
            "\x1BNHI" => 'Ï', // 207 in CP1252
            "\x1BNb" => 'Ð', // 208 in CP1252
            "\x1BNDN" => 'Ñ', // 209 in CP1252
            "\x1BNAO" => 'Ò', // 210 in CP1252
            "\x1BNBO" => 'Ó', // 211 in CP1252
            "\x1BNCO" => 'Ô', // 212 in CP1252
            "\x1BNDO" => 'Õ', // 213 in CP1252
            "\x1BNHO" => 'Ö', // 214 in CP1252
            "\x1B-7" => '×', // 215 in CP1252
            "\x1BNi" => 'Ø', // 216 in CP1252
            "\x1BNAU" => 'Ù', // 217 in CP1252
            "\x1BNBU" => 'Ú', // 218 in CP1252
            "\x1BNCU" => 'Û', // 219 in CP1252
            "\x1BNHU" => 'Ü', // 220 in CP1252
            "\x1B-=" => 'Ý', // 221 in CP1252
            "\x1BNl" => 'Þ', // 222 in CP1252
            "\x1BN{" => 'ß', // 223 in CP1252
            "\x1BNAa" => 'à', // 224 in CP1252
            "\x1BNBa" => 'á', // 225 in CP1252
            "\x1BNCa" => 'â', // 226 in CP1252
            "\x1BNDa" => 'ã', // 227 in CP1252
            "\x1BNHa" => 'ä', // 228 in CP1252
            "\x1BNJa" => 'å', // 229 in CP1252
            "\x1BNq" => 'æ', // 230 in CP1252
            "\x1BNKc" => 'ç', // 231 in CP1252
            "\x1BNAe" => 'è', // 232 in CP1252
            "\x1BNBe" => 'é', // 233 in CP1252
            "\x1BNCe" => 'ê', // 234 in CP1252
            "\x1BNHe" => 'ë', // 235 in CP1252
            "\x1BNAi" => 'ì', // 236 in CP1252
            "\x1BNBi" => 'í', // 237 in CP1252
            "\x1BNCi" => 'î', // 238 in CP1252
            "\x1BNHi" => 'ï', // 239 in CP1252
            "\x1BNs" => 'ð', // 240 in CP1252
            "\x1BNDn" => 'ñ', // 241 in CP1252
            "\x1BNAo" => 'ò', // 242 in CP1252
            "\x1BNBo" => 'ó', // 243 in CP1252
            "\x1BNCo" => 'ô', // 244 in CP1252
            "\x1BNDo" => 'õ', // 245 in CP1252
            "\x1BNHo" => 'ö', // 246 in CP1252
            "\x1B/7" => '÷', // 247 in CP1252
            "\x1BNy" => 'ø', // 248 in CP1252
            "\x1BNAu" => 'ù', // 249 in CP1252
            "\x1BNBu" => 'ú', // 250 in CP1252
            "\x1BNCu" => 'û', // 251 in CP1252
            "\x1BNHu" => 'ü', // 252 in CP1252
            "\x1B/=" => 'ý', // 253 in CP1252
            "\x1BN|" => 'þ', // 254 in CP1252
            "\x1BNHy" => 'ÿ', // 255 in CP1252
        ];
    }

    /**
     * Get whether iconv extension is available.
     *
     * @return bool
     */
    public static function getIsIconvEnabled()
    {
        if (isset(self::$isIconvEnabled)) {
            return self::$isIconvEnabled;
        }

        // Assume no problems with iconv
        self::$isIconvEnabled = true;

        // Fail if iconv doesn't exist
        if (!function_exists('iconv')) {
            self::$isIconvEnabled = false;
        } elseif (!@iconv('UTF-8', 'UTF-16LE',
'x')) {
            // Sometimes iconv is not working, and e.g.
iconv('UTF-8', 'UTF-16LE', 'x') just returns
false,
            self::$isIconvEnabled = false;
        } elseif (defined('PHP_OS') && @stristr(PHP_OS,
'AIX') && defined('ICONV_IMPL') &&
(@strcasecmp(ICONV_IMPL, 'unknown') == 0) &&
defined('ICONV_VERSION') && (@strcasecmp(ICONV_VERSION,
'unknown') == 0)) {
            // CUSTOM: IBM AIX iconv() does not work
            self::$isIconvEnabled = false;
        }

        // Deactivate iconv default options if they fail (as seen on IMB i)
        if (self::$isIconvEnabled && !@iconv('UTF-8',
'UTF-16LE' . self::$iconvOptions, 'x')) {
            self::$iconvOptions = '';
        }

        return self::$isIconvEnabled;
    }

    private static function buildCharacterSets()
    {
        if (empty(self::$controlCharacters)) {
            self::buildControlCharacters();
        }

        if (empty(self::$SYLKCharacters)) {
            self::buildSYLKCharacters();
        }
    }

    /**
     * Convert from OpenXML escaped control character to PHP control
character.
     *
     * Excel 2007 team:
     * ----------------
     * That's correct, control characters are stored directly in the
shared-strings table.
     * We do encode characters that cannot be represented in XML using the
following escape sequence:
     * _xHHHH_ where H represents a hexadecimal character in the
character's value...
     * So you could end up with something like _x0008_ in a string (either
in a cell value (<v>)
     * element or in the shared string <t> element.
     *
     * @param string $value Value to unescape
     *
     * @return string
     */
    public static function controlCharacterOOXML2PHP($value)
    {
        self::buildCharacterSets();

        return str_replace(array_keys(self::$controlCharacters),
array_values(self::$controlCharacters), $value);
    }

    /**
     * Convert from PHP control character to OpenXML escaped control
character.
     *
     * Excel 2007 team:
     * ----------------
     * That's correct, control characters are stored directly in the
shared-strings table.
     * We do encode characters that cannot be represented in XML using the
following escape sequence:
     * _xHHHH_ where H represents a hexadecimal character in the
character's value...
     * So you could end up with something like _x0008_ in a string (either
in a cell value (<v>)
     * element or in the shared string <t> element.
     *
     * @param string $value Value to escape
     *
     * @return string
     */
    public static function controlCharacterPHP2OOXML($value)
    {
        self::buildCharacterSets();

        return str_replace(array_values(self::$controlCharacters),
array_keys(self::$controlCharacters), $value);
    }

    /**
     * Try to sanitize UTF8, stripping invalid byte sequences. Not perfect.
Does not surrogate characters.
     *
     * @param string $value
     *
     * @return string
     */
    public static function sanitizeUTF8($value)
    {
        if (self::getIsIconvEnabled()) {
            $value = @iconv('UTF-8', 'UTF-8', $value);

            return $value;
        }

        $value = mb_convert_encoding($value, 'UTF-8',
'UTF-8');

        return $value;
    }

    /**
     * Check if a string contains UTF8 data.
     *
     * @param string $value
     *
     * @return bool
     */
    public static function isUTF8($value)
    {
        return $value === '' || preg_match('/^./su',
$value) === 1;
    }

    /**
     * Formats a numeric value as a string for output in various output
writers forcing
     * point as decimal separator in case locale is other than English.
     *
     * @param mixed $value
     *
     * @return string
     */
    public static function formatNumber($value)
    {
        if (is_float($value)) {
            return str_replace(',', '.', $value);
        }

        return (string) $value;
    }

    /**
     * Converts a UTF-8 string into BIFF8 Unicode string data (8-bit string
length)
     * Writes the string using uncompressed notation, no rich text, no
Asian phonetics
     * If mbstring extension is not available, ASCII is assumed, and
compressed notation is used
     * although this will give wrong results for non-ASCII strings
     * see OpenOffice.org's Documentation of the Microsoft Excel File
Format, sect. 2.5.3.
     *
     * @param string $value UTF-8 encoded string
     * @param mixed[] $arrcRuns Details of rich text runs in $value
     *
     * @return string
     */
    public static function UTF8toBIFF8UnicodeShort($value, $arrcRuns = [])
    {
        // character count
        $ln = self::countCharacters($value, 'UTF-8');
        // option flags
        if (empty($arrcRuns)) {
            $data = pack('CC', $ln, 0x0001);
            // characters
            $data .= self::convertEncoding($value, 'UTF-16LE',
'UTF-8');
        } else {
            $data = pack('vC', $ln, 0x09);
            $data .= pack('v', count($arrcRuns));
            // characters
            $data .= self::convertEncoding($value, 'UTF-16LE',
'UTF-8');
            foreach ($arrcRuns as $cRun) {
                $data .= pack('v', $cRun['strlen']);
                $data .= pack('v', $cRun['fontidx']);
            }
        }

        return $data;
    }

    /**
     * Converts a UTF-8 string into BIFF8 Unicode string data (16-bit
string length)
     * Writes the string using uncompressed notation, no rich text, no
Asian phonetics
     * If mbstring extension is not available, ASCII is assumed, and
compressed notation is used
     * although this will give wrong results for non-ASCII strings
     * see OpenOffice.org's Documentation of the Microsoft Excel File
Format, sect. 2.5.3.
     *
     * @param string $value UTF-8 encoded string
     *
     * @return string
     */
    public static function UTF8toBIFF8UnicodeLong($value)
    {
        // character count
        $ln = self::countCharacters($value, 'UTF-8');

        // characters
        $chars = self::convertEncoding($value, 'UTF-16LE',
'UTF-8');

        return pack('vC', $ln, 0x0001) . $chars;
    }

    /**
     * Convert string from one encoding to another.
     *
     * @param string $value
     * @param string $to Encoding to convert to, e.g. 'UTF-8'
     * @param string $from Encoding to convert from, e.g.
'UTF-16LE'
     *
     * @return string
     */
    public static function convertEncoding($value, $to, $from)
    {
        if (self::getIsIconvEnabled()) {
            $result = iconv($from, $to . self::$iconvOptions, $value);
            if (false !== $result) {
                return $result;
            }
        }

        return mb_convert_encoding($value, $to, $from);
    }

    /**
     * Get character count.
     *
     * @param string $value
     * @param string $enc Encoding
     *
     * @return int Character count
     */
    public static function countCharacters($value, $enc =
'UTF-8')
    {
        return mb_strlen($value, $enc);
    }

    /**
     * Get a substring of a UTF-8 encoded string.
     *
     * @param string $pValue UTF-8 encoded string
     * @param int $pStart Start offset
     * @param int $pLength Maximum number of characters in substring
     *
     * @return string
     */
    public static function substring($pValue, $pStart, $pLength = 0)
    {
        return mb_substr($pValue, $pStart, $pLength, 'UTF-8');
    }

    /**
     * Convert a UTF-8 encoded string to upper case.
     *
     * @param string $pValue UTF-8 encoded string
     *
     * @return string
     */
    public static function strToUpper($pValue)
    {
        return mb_convert_case($pValue, MB_CASE_UPPER, 'UTF-8');
    }

    /**
     * Convert a UTF-8 encoded string to lower case.
     *
     * @param string $pValue UTF-8 encoded string
     *
     * @return string
     */
    public static function strToLower($pValue)
    {
        return mb_convert_case($pValue, MB_CASE_LOWER, 'UTF-8');
    }

    /**
     * Convert a UTF-8 encoded string to title/proper case
     * (uppercase every first character in each word, lower case all other
characters).
     *
     * @param string $pValue UTF-8 encoded string
     *
     * @return string
     */
    public static function strToTitle($pValue)
    {
        return mb_convert_case($pValue, MB_CASE_TITLE, 'UTF-8');
    }

    public static function mbIsUpper($char)
    {
        return mb_strtolower($char, 'UTF-8') != $char;
    }

    public static function mbStrSplit($string)
    {
        // Split at all position not after the start: ^
        // and not before the end: $
        return preg_split('/(?<!^)(?!$)/u', $string);
    }

    /**
     * Reverse the case of a string, so that all uppercase characters
become lowercase
     * and all lowercase characters become uppercase.
     *
     * @param string $pValue UTF-8 encoded string
     *
     * @return string
     */
    public static function strCaseReverse($pValue)
    {
        $characters = self::mbStrSplit($pValue);
        foreach ($characters as &$character) {
            if (self::mbIsUpper($character)) {
                $character = mb_strtolower($character, 'UTF-8');
            } else {
                $character = mb_strtoupper($character, 'UTF-8');
            }
        }

        return implode('', $characters);
    }

    /**
     * Identify whether a string contains a fractional numeric value,
     * and convert it to a numeric if it is.
     *
     * @param string &$operand string value to test
     *
     * @return bool
     */
    public static function convertToNumberIfFraction(&$operand)
    {
        if (preg_match('/^' . self::STRING_REGEXP_FRACTION .
'$/i', $operand, $match)) {
            $sign = ($match[1] == '-') ? '-' :
'+';
            $fractionFormula = '=' . $sign . $match[2] . $sign .
$match[3];
            $operand =
Calculation::getInstance()->_calculateFormulaValue($fractionFormula);

            return true;
        }

        return false;
    }

    //    function convertToNumberIfFraction()

    /**
     * Get the decimal separator. If it has not yet been set explicitly,
try to obtain number
     * formatting information from locale.
     *
     * @return string
     */
    public static function getDecimalSeparator()
    {
        if (!isset(self::$decimalSeparator)) {
            $localeconv = localeconv();
            self::$decimalSeparator =
($localeconv['decimal_point'] != '')
                ? $localeconv['decimal_point'] :
$localeconv['mon_decimal_point'];

            if (self::$decimalSeparator == '') {
                // Default to .
                self::$decimalSeparator = '.';
            }
        }

        return self::$decimalSeparator;
    }

    /**
     * Set the decimal separator. Only used by
NumberFormat::toFormattedString()
     * to format output by \PhpOffice\PhpSpreadsheet\Writer\Html and
\PhpOffice\PhpSpreadsheet\Writer\Pdf.
     *
     * @param string $pValue Character for decimal separator
     */
    public static function setDecimalSeparator($pValue)
    {
        self::$decimalSeparator = $pValue;
    }

    /**
     * Get the thousands separator. If it has not yet been set explicitly,
try to obtain number
     * formatting information from locale.
     *
     * @return string
     */
    public static function getThousandsSeparator()
    {
        if (!isset(self::$thousandsSeparator)) {
            $localeconv = localeconv();
            self::$thousandsSeparator =
($localeconv['thousands_sep'] != '')
                ? $localeconv['thousands_sep'] :
$localeconv['mon_thousands_sep'];

            if (self::$thousandsSeparator == '') {
                // Default to .
                self::$thousandsSeparator = ',';
            }
        }

        return self::$thousandsSeparator;
    }

    /**
     * Set the thousands separator. Only used by
NumberFormat::toFormattedString()
     * to format output by \PhpOffice\PhpSpreadsheet\Writer\Html and
\PhpOffice\PhpSpreadsheet\Writer\Pdf.
     *
     * @param string $pValue Character for thousands separator
     */
    public static function setThousandsSeparator($pValue)
    {
        self::$thousandsSeparator = $pValue;
    }

    /**
     *    Get the currency code. If it has not yet been set explicitly, try
to obtain the
     *        symbol information from locale.
     *
     * @return string
     */
    public static function getCurrencyCode()
    {
        if (!empty(self::$currencyCode)) {
            return self::$currencyCode;
        }
        self::$currencyCode = '$';
        $localeconv = localeconv();
        if (!empty($localeconv['currency_symbol'])) {
            self::$currencyCode = $localeconv['currency_symbol'];

            return self::$currencyCode;
        }
        if (!empty($localeconv['int_curr_symbol'])) {
            self::$currencyCode = $localeconv['int_curr_symbol'];

            return self::$currencyCode;
        }

        return self::$currencyCode;
    }

    /**
     * Set the currency code. Only used by
NumberFormat::toFormattedString()
     *        to format output by \PhpOffice\PhpSpreadsheet\Writer\Html and
\PhpOffice\PhpSpreadsheet\Writer\Pdf.
     *
     * @param string $pValue Character for currency code
     */
    public static function setCurrencyCode($pValue)
    {
        self::$currencyCode = $pValue;
    }

    /**
     * Convert SYLK encoded string to UTF-8.
     *
     * @param string $pValue
     *
     * @return string UTF-8 encoded string
     */
    public static function SYLKtoUTF8($pValue)
    {
        self::buildCharacterSets();

        // If there is no escape character in the string there is nothing
to do
        if (strpos($pValue, '') === false) {
            return $pValue;
        }

        foreach (self::$SYLKCharacters as $k => $v) {
            $pValue = str_replace($k, $v, $pValue);
        }

        return $pValue;
    }

    /**
     * Retrieve any leading numeric part of a string, or return the full
string if no leading numeric
     * (handles basic integer or float, but not exponent or non decimal).
     *
     * @param string $value
     *
     * @return mixed string or only the leading numeric part of the string
     */
    public static function testStringAsNumeric($value)
    {
        if (is_numeric($value)) {
            return $value;
        }
        $v = (float) $value;

        return (is_numeric(substr($value, 0, strlen($v)))) ? $v : $value;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/TimeZone.php000064400000004354151165414030022210
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Shared;

use DateTimeZone;
use PhpOffice\PhpSpreadsheet\Exception as PhpSpreadsheetException;

class TimeZone
{
    /**
     * Default Timezone used for date/time conversions.
     *
     * @var string
     */
    protected static $timezone = 'UTC';

    /**
     * Validate a Timezone name.
     *
     * @param string $timezone Time zone (e.g. 'Europe/London')
     *
     * @return bool Success or failure
     */
    private static function validateTimeZone($timezone)
    {
        return in_array($timezone, DateTimeZone::listIdentifiers());
    }

    /**
     * Set the Default Timezone used for date/time conversions.
     *
     * @param string $timezone Time zone (e.g. 'Europe/London')
     *
     * @return bool Success or failure
     */
    public static function setTimeZone($timezone)
    {
        if (self::validateTimezone($timezone)) {
            self::$timezone = $timezone;

            return true;
        }

        return false;
    }

    /**
     * Return the Default Timezone used for date/time conversions.
     *
     * @return string Timezone (e.g. 'Europe/London')
     */
    public static function getTimeZone()
    {
        return self::$timezone;
    }

    /**
     *    Return the Timezone offset used for date/time conversions to/from
UST
     * This requires both the timezone and the calculated date/time to
allow for local DST.
     *
     * @param string $timezone The timezone for finding the adjustment to
UST
     * @param int $timestamp PHP date/time value
     *
     * @throws PhpSpreadsheetException
     *
     * @return int Number of seconds for timezone adjustment
     */
    public static function getTimeZoneAdjustment($timezone, $timestamp)
    {
        if ($timezone !== null) {
            if (!self::validateTimezone($timezone)) {
                throw new PhpSpreadsheetException('Invalid timezone
' . $timezone);
            }
        } else {
            $timezone = self::$timezone;
        }

        if ($timezone == 'UST') {
            return 0;
        }

        $objTimezone = new DateTimeZone($timezone);
        $transitions = $objTimezone->getTransitions($timestamp,
$timestamp);

        return (count($transitions) > 0) ?
$transitions[0]['offset'] : 0;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/Trend/BestFit.php000064400000025742151165414030023076
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Shared\Trend;

class BestFit
{
    /**
     * Indicator flag for a calculation error.
     *
     * @var bool
     */
    protected $error = false;

    /**
     * Algorithm type to use for best-fit.
     *
     * @var string
     */
    protected $bestFitType = 'undetermined';

    /**
     * Number of entries in the sets of x- and y-value arrays.
     *
     * @var int
     */
    protected $valueCount = 0;

    /**
     * X-value dataseries of values.
     *
     * @var float[]
     */
    protected $xValues = [];

    /**
     * Y-value dataseries of values.
     *
     * @var float[]
     */
    protected $yValues = [];

    /**
     * Flag indicating whether values should be adjusted to Y=0.
     *
     * @var bool
     */
    protected $adjustToZero = false;

    /**
     * Y-value series of best-fit values.
     *
     * @var float[]
     */
    protected $yBestFitValues = [];

    protected $goodnessOfFit = 1;

    protected $stdevOfResiduals = 0;

    protected $covariance = 0;

    protected $correlation = 0;

    protected $SSRegression = 0;

    protected $SSResiduals = 0;

    protected $DFResiduals = 0;

    protected $f = 0;

    protected $slope = 0;

    protected $slopeSE = 0;

    protected $intersect = 0;

    protected $intersectSE = 0;

    protected $xOffset = 0;

    protected $yOffset = 0;

    public function getError()
    {
        return $this->error;
    }

    public function getBestFitType()
    {
        return $this->bestFitType;
    }

    /**
     * Return the Y-Value for a specified value of X.
     *
     * @param float $xValue X-Value
     *
     * @return bool Y-Value
     */
    public function getValueOfYForX($xValue)
    {
        return false;
    }

    /**
     * Return the X-Value for a specified value of Y.
     *
     * @param float $yValue Y-Value
     *
     * @return bool X-Value
     */
    public function getValueOfXForY($yValue)
    {
        return false;
    }

    /**
     * Return the original set of X-Values.
     *
     * @return float[] X-Values
     */
    public function getXValues()
    {
        return $this->xValues;
    }

    /**
     * Return the Equation of the best-fit line.
     *
     * @param int $dp Number of places of decimal precision to display
     *
     * @return bool
     */
    public function getEquation($dp = 0)
    {
        return false;
    }

    /**
     * Return the Slope of the line.
     *
     * @param int $dp Number of places of decimal precision to display
     *
     * @return float
     */
    public function getSlope($dp = 0)
    {
        if ($dp != 0) {
            return round($this->slope, $dp);
        }

        return $this->slope;
    }

    /**
     * Return the standard error of the Slope.
     *
     * @param int $dp Number of places of decimal precision to display
     *
     * @return float
     */
    public function getSlopeSE($dp = 0)
    {
        if ($dp != 0) {
            return round($this->slopeSE, $dp);
        }

        return $this->slopeSE;
    }

    /**
     * Return the Value of X where it intersects Y = 0.
     *
     * @param int $dp Number of places of decimal precision to display
     *
     * @return float
     */
    public function getIntersect($dp = 0)
    {
        if ($dp != 0) {
            return round($this->intersect, $dp);
        }

        return $this->intersect;
    }

    /**
     * Return the standard error of the Intersect.
     *
     * @param int $dp Number of places of decimal precision to display
     *
     * @return float
     */
    public function getIntersectSE($dp = 0)
    {
        if ($dp != 0) {
            return round($this->intersectSE, $dp);
        }

        return $this->intersectSE;
    }

    /**
     * Return the goodness of fit for this regression.
     *
     * @param int $dp Number of places of decimal precision to return
     *
     * @return float
     */
    public function getGoodnessOfFit($dp = 0)
    {
        if ($dp != 0) {
            return round($this->goodnessOfFit, $dp);
        }

        return $this->goodnessOfFit;
    }

    /**
     * Return the goodness of fit for this regression.
     *
     * @param int $dp Number of places of decimal precision to return
     *
     * @return float
     */
    public function getGoodnessOfFitPercent($dp = 0)
    {
        if ($dp != 0) {
            return round($this->goodnessOfFit * 100, $dp);
        }

        return $this->goodnessOfFit * 100;
    }

    /**
     * Return the standard deviation of the residuals for this regression.
     *
     * @param int $dp Number of places of decimal precision to return
     *
     * @return float
     */
    public function getStdevOfResiduals($dp = 0)
    {
        if ($dp != 0) {
            return round($this->stdevOfResiduals, $dp);
        }

        return $this->stdevOfResiduals;
    }

    /**
     * @param int $dp Number of places of decimal precision to return
     *
     * @return float
     */
    public function getSSRegression($dp = 0)
    {
        if ($dp != 0) {
            return round($this->SSRegression, $dp);
        }

        return $this->SSRegression;
    }

    /**
     * @param int $dp Number of places of decimal precision to return
     *
     * @return float
     */
    public function getSSResiduals($dp = 0)
    {
        if ($dp != 0) {
            return round($this->SSResiduals, $dp);
        }

        return $this->SSResiduals;
    }

    /**
     * @param int $dp Number of places of decimal precision to return
     *
     * @return float
     */
    public function getDFResiduals($dp = 0)
    {
        if ($dp != 0) {
            return round($this->DFResiduals, $dp);
        }

        return $this->DFResiduals;
    }

    /**
     * @param int $dp Number of places of decimal precision to return
     *
     * @return float
     */
    public function getF($dp = 0)
    {
        if ($dp != 0) {
            return round($this->f, $dp);
        }

        return $this->f;
    }

    /**
     * @param int $dp Number of places of decimal precision to return
     *
     * @return float
     */
    public function getCovariance($dp = 0)
    {
        if ($dp != 0) {
            return round($this->covariance, $dp);
        }

        return $this->covariance;
    }

    /**
     * @param int $dp Number of places of decimal precision to return
     *
     * @return float
     */
    public function getCorrelation($dp = 0)
    {
        if ($dp != 0) {
            return round($this->correlation, $dp);
        }

        return $this->correlation;
    }

    /**
     * @return float[]
     */
    public function getYBestFitValues()
    {
        return $this->yBestFitValues;
    }

    protected function calculateGoodnessOfFit($sumX, $sumY, $sumX2, $sumY2,
$sumXY, $meanX, $meanY, $const)
    {
        $SSres = $SScov = $SScor = $SStot = $SSsex = 0.0;
        foreach ($this->xValues as $xKey => $xValue) {
            $bestFitY = $this->yBestFitValues[$xKey] =
$this->getValueOfYForX($xValue);

            $SSres += ($this->yValues[$xKey] - $bestFitY) *
($this->yValues[$xKey] - $bestFitY);
            if ($const) {
                $SStot += ($this->yValues[$xKey] - $meanY) *
($this->yValues[$xKey] - $meanY);
            } else {
                $SStot += $this->yValues[$xKey] *
$this->yValues[$xKey];
            }
            $SScov += ($this->xValues[$xKey] - $meanX) *
($this->yValues[$xKey] - $meanY);
            if ($const) {
                $SSsex += ($this->xValues[$xKey] - $meanX) *
($this->xValues[$xKey] - $meanX);
            } else {
                $SSsex += $this->xValues[$xKey] *
$this->xValues[$xKey];
            }
        }

        $this->SSResiduals = $SSres;
        $this->DFResiduals = $this->valueCount - 1 - $const;

        if ($this->DFResiduals == 0.0) {
            $this->stdevOfResiduals = 0.0;
        } else {
            $this->stdevOfResiduals = sqrt($SSres /
$this->DFResiduals);
        }
        if (($SStot == 0.0) || ($SSres == $SStot)) {
            $this->goodnessOfFit = 1;
        } else {
            $this->goodnessOfFit = 1 - ($SSres / $SStot);
        }

        $this->SSRegression = $this->goodnessOfFit * $SStot;
        $this->covariance = $SScov / $this->valueCount;
        $this->correlation = ($this->valueCount * $sumXY - $sumX *
$sumY) / sqrt(($this->valueCount * $sumX2 - pow($sumX, 2)) *
($this->valueCount * $sumY2 - pow($sumY, 2)));
        $this->slopeSE = $this->stdevOfResiduals / sqrt($SSsex);
        $this->intersectSE = $this->stdevOfResiduals * sqrt(1 /
($this->valueCount - ($sumX * $sumX) / $sumX2));
        if ($this->SSResiduals != 0.0) {
            if ($this->DFResiduals == 0.0) {
                $this->f = 0.0;
            } else {
                $this->f = $this->SSRegression /
($this->SSResiduals / $this->DFResiduals);
            }
        } else {
            if ($this->DFResiduals == 0.0) {
                $this->f = 0.0;
            } else {
                $this->f = $this->SSRegression /
$this->DFResiduals;
            }
        }
    }

    /**
     * @param float[] $yValues
     * @param float[] $xValues
     * @param bool $const
     */
    protected function leastSquareFit(array $yValues, array $xValues,
$const)
    {
        // calculate sums
        $x_sum = array_sum($xValues);
        $y_sum = array_sum($yValues);
        $meanX = $x_sum / $this->valueCount;
        $meanY = $y_sum / $this->valueCount;
        $mBase = $mDivisor = $xx_sum = $xy_sum = $yy_sum = 0.0;
        for ($i = 0; $i < $this->valueCount; ++$i) {
            $xy_sum += $xValues[$i] * $yValues[$i];
            $xx_sum += $xValues[$i] * $xValues[$i];
            $yy_sum += $yValues[$i] * $yValues[$i];

            if ($const) {
                $mBase += ($xValues[$i] - $meanX) * ($yValues[$i] -
$meanY);
                $mDivisor += ($xValues[$i] - $meanX) * ($xValues[$i] -
$meanX);
            } else {
                $mBase += $xValues[$i] * $yValues[$i];
                $mDivisor += $xValues[$i] * $xValues[$i];
            }
        }

        // calculate slope
        $this->slope = $mBase / $mDivisor;

        // calculate intersect
        if ($const) {
            $this->intersect = $meanY - ($this->slope * $meanX);
        } else {
            $this->intersect = 0;
        }

        $this->calculateGoodnessOfFit($x_sum, $y_sum, $xx_sum, $yy_sum,
$xy_sum, $meanX, $meanY, $const);
    }

    /**
     * Define the regression.
     *
     * @param float[] $yValues The set of Y-values for this regression
     * @param float[] $xValues The set of X-values for this regression
     * @param bool $const
     */
    public function __construct($yValues, $xValues = [], $const = true)
    {
        //    Calculate number of points
        $nY = count($yValues);
        $nX = count($xValues);

        //    Define X Values if necessary
        if ($nX == 0) {
            $xValues = range(1, $nY);
        } elseif ($nY != $nX) {
            //    Ensure both arrays of points are the same size
            $this->error = true;
        }

        $this->valueCount = $nY;
        $this->xValues = $xValues;
        $this->yValues = $yValues;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/Trend/ExponentialBestFit.php000064400000006100151165414030025270
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Shared\Trend;

class ExponentialBestFit extends BestFit
{
    /**
     * Algorithm type to use for best-fit
     * (Name of this Trend class).
     *
     * @var string
     */
    protected $bestFitType = 'exponential';

    /**
     * Return the Y-Value for a specified value of X.
     *
     * @param float $xValue X-Value
     *
     * @return float Y-Value
     */
    public function getValueOfYForX($xValue)
    {
        return $this->getIntersect() * pow($this->getSlope(),
($xValue - $this->xOffset));
    }

    /**
     * Return the X-Value for a specified value of Y.
     *
     * @param float $yValue Y-Value
     *
     * @return float X-Value
     */
    public function getValueOfXForY($yValue)
    {
        return log(($yValue + $this->yOffset) /
$this->getIntersect()) / log($this->getSlope());
    }

    /**
     * Return the Equation of the best-fit line.
     *
     * @param int $dp Number of places of decimal precision to display
     *
     * @return string
     */
    public function getEquation($dp = 0)
    {
        $slope = $this->getSlope($dp);
        $intersect = $this->getIntersect($dp);

        return 'Y = ' . $intersect . ' * ' . $slope .
'^X';
    }

    /**
     * Return the Slope of the line.
     *
     * @param int $dp Number of places of decimal precision to display
     *
     * @return float
     */
    public function getSlope($dp = 0)
    {
        if ($dp != 0) {
            return round(exp($this->slope), $dp);
        }

        return exp($this->slope);
    }

    /**
     * Return the Value of X where it intersects Y = 0.
     *
     * @param int $dp Number of places of decimal precision to display
     *
     * @return float
     */
    public function getIntersect($dp = 0)
    {
        if ($dp != 0) {
            return round(exp($this->intersect), $dp);
        }

        return exp($this->intersect);
    }

    /**
     * Execute the regression and calculate the goodness of fit for a set
of X and Y data values.
     *
     * @param float[] $yValues The set of Y-values for this regression
     * @param float[] $xValues The set of X-values for this regression
     * @param bool $const
     */
    private function exponentialRegression($yValues, $xValues, $const)
    {
        foreach ($yValues as &$value) {
            if ($value < 0.0) {
                $value = 0 - log(abs($value));
            } elseif ($value > 0.0) {
                $value = log($value);
            }
        }
        unset($value);

        $this->leastSquareFit($yValues, $xValues, $const);
    }

    /**
     * Define the regression and calculate the goodness of fit for a set of
X and Y data values.
     *
     * @param float[] $yValues The set of Y-values for this regression
     * @param float[] $xValues The set of X-values for this regression
     * @param bool $const
     */
    public function __construct($yValues, $xValues = [], $const = true)
    {
        parent::__construct($yValues, $xValues);

        if (!$this->error) {
            $this->exponentialRegression($yValues, $xValues, $const);
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/Trend/LinearBestFit.php000064400000004130151165414030024215
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Shared\Trend;

class LinearBestFit extends BestFit
{
    /**
     * Algorithm type to use for best-fit
     * (Name of this Trend class).
     *
     * @var string
     */
    protected $bestFitType = 'linear';

    /**
     * Return the Y-Value for a specified value of X.
     *
     * @param float $xValue X-Value
     *
     * @return float Y-Value
     */
    public function getValueOfYForX($xValue)
    {
        return $this->getIntersect() + $this->getSlope() * $xValue;
    }

    /**
     * Return the X-Value for a specified value of Y.
     *
     * @param float $yValue Y-Value
     *
     * @return float X-Value
     */
    public function getValueOfXForY($yValue)
    {
        return ($yValue - $this->getIntersect()) / $this->getSlope();
    }

    /**
     * Return the Equation of the best-fit line.
     *
     * @param int $dp Number of places of decimal precision to display
     *
     * @return string
     */
    public function getEquation($dp = 0)
    {
        $slope = $this->getSlope($dp);
        $intersect = $this->getIntersect($dp);

        return 'Y = ' . $intersect . ' + ' . $slope .
' * X';
    }

    /**
     * Execute the regression and calculate the goodness of fit for a set
of X and Y data values.
     *
     * @param float[] $yValues The set of Y-values for this regression
     * @param float[] $xValues The set of X-values for this regression
     * @param bool $const
     */
    private function linearRegression($yValues, $xValues, $const)
    {
        $this->leastSquareFit($yValues, $xValues, $const);
    }

    /**
     * Define the regression and calculate the goodness of fit for a set of
X and Y data values.
     *
     * @param float[] $yValues The set of Y-values for this regression
     * @param float[] $xValues The set of X-values for this regression
     * @param bool $const
     */
    public function __construct($yValues, $xValues = [], $const = true)
    {
        parent::__construct($yValues, $xValues);

        if (!$this->error) {
            $this->linearRegression($yValues, $xValues, $const);
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/Trend/LogarithmicBestFit.php000064400000004577151165414030025264
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Shared\Trend;

class LogarithmicBestFit extends BestFit
{
    /**
     * Algorithm type to use for best-fit
     * (Name of this Trend class).
     *
     * @var string
     */
    protected $bestFitType = 'logarithmic';

    /**
     * Return the Y-Value for a specified value of X.
     *
     * @param float $xValue X-Value
     *
     * @return float Y-Value
     */
    public function getValueOfYForX($xValue)
    {
        return $this->getIntersect() + $this->getSlope() *
log($xValue - $this->xOffset);
    }

    /**
     * Return the X-Value for a specified value of Y.
     *
     * @param float $yValue Y-Value
     *
     * @return float X-Value
     */
    public function getValueOfXForY($yValue)
    {
        return exp(($yValue - $this->getIntersect()) /
$this->getSlope());
    }

    /**
     * Return the Equation of the best-fit line.
     *
     * @param int $dp Number of places of decimal precision to display
     *
     * @return string
     */
    public function getEquation($dp = 0)
    {
        $slope = $this->getSlope($dp);
        $intersect = $this->getIntersect($dp);

        return 'Y = ' . $intersect . ' + ' . $slope .
' * log(X)';
    }

    /**
     * Execute the regression and calculate the goodness of fit for a set
of X and Y data values.
     *
     * @param float[] $yValues The set of Y-values for this regression
     * @param float[] $xValues The set of X-values for this regression
     * @param bool $const
     */
    private function logarithmicRegression($yValues, $xValues, $const)
    {
        foreach ($xValues as &$value) {
            if ($value < 0.0) {
                $value = 0 - log(abs($value));
            } elseif ($value > 0.0) {
                $value = log($value);
            }
        }
        unset($value);

        $this->leastSquareFit($yValues, $xValues, $const);
    }

    /**
     * Define the regression and calculate the goodness of fit for a set of
X and Y data values.
     *
     * @param float[] $yValues The set of Y-values for this regression
     * @param float[] $xValues The set of X-values for this regression
     * @param bool $const
     */
    public function __construct($yValues, $xValues = [], $const = true)
    {
        parent::__construct($yValues, $xValues);

        if (!$this->error) {
            $this->logarithmicRegression($yValues, $xValues, $const);
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/Trend/PolynomialBestFit.php000064400000012754151165414030025141
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Shared\Trend;

use PhpOffice\PhpSpreadsheet\Shared\JAMA\Matrix;

class PolynomialBestFit extends BestFit
{
    /**
     * Algorithm type to use for best-fit
     * (Name of this Trend class).
     *
     * @var string
     */
    protected $bestFitType = 'polynomial';

    /**
     * Polynomial order.
     *
     * @var int
     */
    protected $order = 0;

    /**
     * Return the order of this polynomial.
     *
     * @return int
     */
    public function getOrder()
    {
        return $this->order;
    }

    /**
     * Return the Y-Value for a specified value of X.
     *
     * @param float $xValue X-Value
     *
     * @return float Y-Value
     */
    public function getValueOfYForX($xValue)
    {
        $retVal = $this->getIntersect();
        $slope = $this->getSlope();
        foreach ($slope as $key => $value) {
            if ($value != 0.0) {
                $retVal += $value * pow($xValue, $key + 1);
            }
        }

        return $retVal;
    }

    /**
     * Return the X-Value for a specified value of Y.
     *
     * @param float $yValue Y-Value
     *
     * @return float X-Value
     */
    public function getValueOfXForY($yValue)
    {
        return ($yValue - $this->getIntersect()) / $this->getSlope();
    }

    /**
     * Return the Equation of the best-fit line.
     *
     * @param int $dp Number of places of decimal precision to display
     *
     * @return string
     */
    public function getEquation($dp = 0)
    {
        $slope = $this->getSlope($dp);
        $intersect = $this->getIntersect($dp);

        $equation = 'Y = ' . $intersect;
        foreach ($slope as $key => $value) {
            if ($value != 0.0) {
                $equation .= ' + ' . $value . ' * X';
                if ($key > 0) {
                    $equation .= '^' . ($key + 1);
                }
            }
        }

        return $equation;
    }

    /**
     * Return the Slope of the line.
     *
     * @param int $dp Number of places of decimal precision to display
     *
     * @return string
     */
    public function getSlope($dp = 0)
    {
        if ($dp != 0) {
            $coefficients = [];
            foreach ($this->slope as $coefficient) {
                $coefficients[] = round($coefficient, $dp);
            }

            return $coefficients;
        }

        return $this->slope;
    }

    public function getCoefficients($dp = 0)
    {
        return array_merge([$this->getIntersect($dp)],
$this->getSlope($dp));
    }

    /**
     * Execute the regression and calculate the goodness of fit for a set
of X and Y data values.
     *
     * @param int $order Order of Polynomial for this regression
     * @param float[] $yValues The set of Y-values for this regression
     * @param float[] $xValues The set of X-values for this regression
     */
    private function polynomialRegression($order, $yValues, $xValues)
    {
        // calculate sums
        $x_sum = array_sum($xValues);
        $y_sum = array_sum($yValues);
        $xx_sum = $xy_sum = $yy_sum = 0;
        for ($i = 0; $i < $this->valueCount; ++$i) {
            $xy_sum += $xValues[$i] * $yValues[$i];
            $xx_sum += $xValues[$i] * $xValues[$i];
            $yy_sum += $yValues[$i] * $yValues[$i];
        }
        /*
         *    This routine uses logic from the PHP port of polyfit version
0.1
         *    written by Michael Bommarito and Paul Meagher
         *
         *    The function fits a polynomial function of order $order
through
         *    a series of x-y data points using least squares.
         *
         */
        $A = [];
        $B = [];
        for ($i = 0; $i < $this->valueCount; ++$i) {
            for ($j = 0; $j <= $order; ++$j) {
                $A[$i][$j] = pow($xValues[$i], $j);
            }
        }
        for ($i = 0; $i < $this->valueCount; ++$i) {
            $B[$i] = [$yValues[$i]];
        }
        $matrixA = new Matrix($A);
        $matrixB = new Matrix($B);
        $C = $matrixA->solve($matrixB);

        $coefficients = [];
        for ($i = 0; $i < $C->getRowDimension(); ++$i) {
            $r = $C->get($i, 0);
            if (abs($r) <= pow(10, -9)) {
                $r = 0;
            }
            $coefficients[] = $r;
        }

        $this->intersect = array_shift($coefficients);
        $this->slope = $coefficients;

        $this->calculateGoodnessOfFit($x_sum, $y_sum, $xx_sum, $yy_sum,
$xy_sum, 0, 0, 0);
        foreach ($this->xValues as $xKey => $xValue) {
            $this->yBestFitValues[$xKey] =
$this->getValueOfYForX($xValue);
        }
    }

    /**
     * Define the regression and calculate the goodness of fit for a set of
X and Y data values.
     *
     * @param int $order Order of Polynomial for this regression
     * @param float[] $yValues The set of Y-values for this regression
     * @param float[] $xValues The set of X-values for this regression
     * @param bool $const
     */
    public function __construct($order, $yValues, $xValues = [], $const =
true)
    {
        parent::__construct($yValues, $xValues);

        if (!$this->error) {
            if ($order < $this->valueCount) {
                $this->bestFitType .= '_' . $order;
                $this->order = $order;
                $this->polynomialRegression($order, $yValues, $xValues);
                if (($this->getGoodnessOfFit() < 0.0) ||
($this->getGoodnessOfFit() > 1.0)) {
                    $this->error = true;
                }
            } else {
                $this->error = true;
            }
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/Trend/PowerBestFit.php000064400000005716151165414030024112
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Shared\Trend;

class PowerBestFit extends BestFit
{
    /**
     * Algorithm type to use for best-fit
     * (Name of this Trend class).
     *
     * @var string
     */
    protected $bestFitType = 'power';

    /**
     * Return the Y-Value for a specified value of X.
     *
     * @param float $xValue X-Value
     *
     * @return float Y-Value
     */
    public function getValueOfYForX($xValue)
    {
        return $this->getIntersect() * pow(($xValue -
$this->xOffset), $this->getSlope());
    }

    /**
     * Return the X-Value for a specified value of Y.
     *
     * @param float $yValue Y-Value
     *
     * @return float X-Value
     */
    public function getValueOfXForY($yValue)
    {
        return pow((($yValue + $this->yOffset) /
$this->getIntersect()), (1 / $this->getSlope()));
    }

    /**
     * Return the Equation of the best-fit line.
     *
     * @param int $dp Number of places of decimal precision to display
     *
     * @return string
     */
    public function getEquation($dp = 0)
    {
        $slope = $this->getSlope($dp);
        $intersect = $this->getIntersect($dp);

        return 'Y = ' . $intersect . ' * X^' . $slope;
    }

    /**
     * Return the Value of X where it intersects Y = 0.
     *
     * @param int $dp Number of places of decimal precision to display
     *
     * @return float
     */
    public function getIntersect($dp = 0)
    {
        if ($dp != 0) {
            return round(exp($this->intersect), $dp);
        }

        return exp($this->intersect);
    }

    /**
     * Execute the regression and calculate the goodness of fit for a set
of X and Y data values.
     *
     * @param float[] $yValues The set of Y-values for this regression
     * @param float[] $xValues The set of X-values for this regression
     * @param bool $const
     */
    private function powerRegression($yValues, $xValues, $const)
    {
        foreach ($xValues as &$value) {
            if ($value < 0.0) {
                $value = 0 - log(abs($value));
            } elseif ($value > 0.0) {
                $value = log($value);
            }
        }
        unset($value);
        foreach ($yValues as &$value) {
            if ($value < 0.0) {
                $value = 0 - log(abs($value));
            } elseif ($value > 0.0) {
                $value = log($value);
            }
        }
        unset($value);

        $this->leastSquareFit($yValues, $xValues, $const);
    }

    /**
     * Define the regression and calculate the goodness of fit for a set of
X and Y data values.
     *
     * @param float[] $yValues The set of Y-values for this regression
     * @param float[] $xValues The set of X-values for this regression
     * @param bool $const
     */
    public function __construct($yValues, $xValues = [], $const = true)
    {
        parent::__construct($yValues, $xValues);

        if (!$this->error) {
            $this->powerRegression($yValues, $xValues, $const);
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/Trend/Trend.php000064400000011230151165414030022575
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Shared\Trend;

class Trend
{
    const TREND_LINEAR = 'Linear';
    const TREND_LOGARITHMIC = 'Logarithmic';
    const TREND_EXPONENTIAL = 'Exponential';
    const TREND_POWER = 'Power';
    const TREND_POLYNOMIAL_2 = 'Polynomial_2';
    const TREND_POLYNOMIAL_3 = 'Polynomial_3';
    const TREND_POLYNOMIAL_4 = 'Polynomial_4';
    const TREND_POLYNOMIAL_5 = 'Polynomial_5';
    const TREND_POLYNOMIAL_6 = 'Polynomial_6';
    const TREND_BEST_FIT = 'Bestfit';
    const TREND_BEST_FIT_NO_POLY = 'Bestfit_no_Polynomials';

    /**
     * Names of the best-fit Trend analysis methods.
     *
     * @var string[]
     */
    private static $trendTypes = [
        self::TREND_LINEAR,
        self::TREND_LOGARITHMIC,
        self::TREND_EXPONENTIAL,
        self::TREND_POWER,
    ];

    /**
     * Names of the best-fit Trend polynomial orders.
     *
     * @var string[]
     */
    private static $trendTypePolynomialOrders = [
        self::TREND_POLYNOMIAL_2,
        self::TREND_POLYNOMIAL_3,
        self::TREND_POLYNOMIAL_4,
        self::TREND_POLYNOMIAL_5,
        self::TREND_POLYNOMIAL_6,
    ];

    /**
     * Cached results for each method when trying to identify which
provides the best fit.
     *
     * @var bestFit[]
     */
    private static $trendCache = [];

    public static function calculate($trendType = self::TREND_BEST_FIT,
$yValues = [], $xValues = [], $const = true)
    {
        //    Calculate number of points in each dataset
        $nY = count($yValues);
        $nX = count($xValues);

        //    Define X Values if necessary
        if ($nX == 0) {
            $xValues = range(1, $nY);
            $nX = $nY;
        } elseif ($nY != $nX) {
            //    Ensure both arrays of points are the same size
            trigger_error('Trend(): Number of elements in coordinate
arrays do not match.', E_USER_ERROR);
        }

        $key = md5($trendType . $const . serialize($yValues) .
serialize($xValues));
        //    Determine which Trend method has been requested
        switch ($trendType) {
            //    Instantiate and return the class for the requested Trend
method
            case self::TREND_LINEAR:
            case self::TREND_LOGARITHMIC:
            case self::TREND_EXPONENTIAL:
            case self::TREND_POWER:
                if (!isset(self::$trendCache[$key])) {
                    $className =
'\PhpOffice\PhpSpreadsheet\Shared\Trend\\' . $trendType .
'BestFit';
                    self::$trendCache[$key] = new $className($yValues,
$xValues, $const);
                }

                return self::$trendCache[$key];
            case self::TREND_POLYNOMIAL_2:
            case self::TREND_POLYNOMIAL_3:
            case self::TREND_POLYNOMIAL_4:
            case self::TREND_POLYNOMIAL_5:
            case self::TREND_POLYNOMIAL_6:
                if (!isset(self::$trendCache[$key])) {
                    $order = substr($trendType, -1);
                    self::$trendCache[$key] = new PolynomialBestFit($order,
$yValues, $xValues, $const);
                }

                return self::$trendCache[$key];
            case self::TREND_BEST_FIT:
            case self::TREND_BEST_FIT_NO_POLY:
                //    If the request is to determine the best fit
regression, then we test each Trend line in turn
                //    Start by generating an instance of each available
Trend method
                foreach (self::$trendTypes as $trendMethod) {
                    $className =
'\PhpOffice\PhpSpreadsheet\Shared\Trend\\' . $trendType .
'BestFit';
                    $bestFit[$trendMethod] = new $className($yValues,
$xValues, $const);
                    $bestFitValue[$trendMethod] =
$bestFit[$trendMethod]->getGoodnessOfFit();
                }
                if ($trendType != self::TREND_BEST_FIT_NO_POLY) {
                    foreach (self::$trendTypePolynomialOrders as
$trendMethod) {
                        $order = substr($trendMethod, -1);
                        $bestFit[$trendMethod] = new
PolynomialBestFit($order, $yValues, $xValues, $const);
                        if ($bestFit[$trendMethod]->getError()) {
                            unset($bestFit[$trendMethod]);
                        } else {
                            $bestFitValue[$trendMethod] =
$bestFit[$trendMethod]->getGoodnessOfFit();
                        }
                    }
                }
                //    Determine which of our Trend lines is the best fit,
and then we return the instance of that Trend class
                arsort($bestFitValue);
                $bestFitType = key($bestFitValue);

                return $bestFit[$bestFitType];
            default:
                return false;
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/Xls.php000064400000026672151165414030021233
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Shared;

use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\Worksheet\Worksheet;

class Xls
{
    /**
     * Get the width of a column in pixels. We use the relationship y =
ceil(7x) where
     * x is the width in intrinsic Excel units (measuring width in number
of normal characters)
     * This holds for Arial 10.
     *
     * @param Worksheet $sheet The sheet
     * @param string $col The column
     *
     * @return int The width in pixels
     */
    public static function sizeCol($sheet, $col = 'A')
    {
        // default font of the workbook
        $font = $sheet->getParent()->getDefaultStyle()->getFont();

        $columnDimensions = $sheet->getColumnDimensions();

        // first find the true column width in pixels (uncollapsed and
unhidden)
        if (isset($columnDimensions[$col]) and
$columnDimensions[$col]->getWidth() != -1) {
            // then we have column dimension with explicit width
            $columnDimension = $columnDimensions[$col];
            $width = $columnDimension->getWidth();
            $pixelWidth = Drawing::cellDimensionToPixels($width, $font);
        } elseif ($sheet->getDefaultColumnDimension()->getWidth() !=
-1) {
            // then we have default column dimension with explicit width
            $defaultColumnDimension =
$sheet->getDefaultColumnDimension();
            $width = $defaultColumnDimension->getWidth();
            $pixelWidth = Drawing::cellDimensionToPixels($width, $font);
        } else {
            // we don't even have any default column dimension. Width
depends on default font
            $pixelWidth = Font::getDefaultColumnWidthByFont($font, true);
        }

        // now find the effective column width in pixels
        if (isset($columnDimensions[$col]) and
!$columnDimensions[$col]->getVisible()) {
            $effectivePixelWidth = 0;
        } else {
            $effectivePixelWidth = $pixelWidth;
        }

        return $effectivePixelWidth;
    }

    /**
     * Convert the height of a cell from user's units to pixels. By
interpolation
     * the relationship is: y = 4/3x. If the height hasn't been set by
the user we
     * use the default value. If the row is hidden we use a value of zero.
     *
     * @param Worksheet $sheet The sheet
     * @param int $row The row index (1-based)
     *
     * @return int The width in pixels
     */
    public static function sizeRow($sheet, $row = 1)
    {
        // default font of the workbook
        $font = $sheet->getParent()->getDefaultStyle()->getFont();

        $rowDimensions = $sheet->getRowDimensions();

        // first find the true row height in pixels (uncollapsed and
unhidden)
        if (isset($rowDimensions[$row]) and
$rowDimensions[$row]->getRowHeight() != -1) {
            // then we have a row dimension
            $rowDimension = $rowDimensions[$row];
            $rowHeight = $rowDimension->getRowHeight();
            $pixelRowHeight = (int) ceil(4 * $rowHeight / 3); // here we
assume Arial 10
        } elseif ($sheet->getDefaultRowDimension()->getRowHeight() !=
-1) {
            // then we have a default row dimension with explicit height
            $defaultRowDimension = $sheet->getDefaultRowDimension();
            $rowHeight = $defaultRowDimension->getRowHeight();
            $pixelRowHeight = Drawing::pointsToPixels($rowHeight);
        } else {
            // we don't even have any default row dimension. Height
depends on default font
            $pointRowHeight = Font::getDefaultRowHeightByFont($font);
            $pixelRowHeight = Font::fontSizeToPixels($pointRowHeight);
        }

        // now find the effective row height in pixels
        if (isset($rowDimensions[$row]) and
!$rowDimensions[$row]->getVisible()) {
            $effectivePixelRowHeight = 0;
        } else {
            $effectivePixelRowHeight = $pixelRowHeight;
        }

        return $effectivePixelRowHeight;
    }

    /**
     * Get the horizontal distance in pixels between two anchors
     * The distanceX is found as sum of all the spanning columns widths
minus correction for the two offsets.
     *
     * @param Worksheet $sheet
     * @param string $startColumn
     * @param int $startOffsetX Offset within start cell measured in 1/1024
of the cell width
     * @param string $endColumn
     * @param int $endOffsetX Offset within end cell measured in 1/1024 of
the cell width
     *
     * @return int Horizontal measured in pixels
     */
    public static function getDistanceX(Worksheet $sheet, $startColumn =
'A', $startOffsetX = 0, $endColumn = 'A', $endOffsetX =
0)
    {
        $distanceX = 0;

        // add the widths of the spanning columns
        $startColumnIndex =
Coordinate::columnIndexFromString($startColumn);
        $endColumnIndex = Coordinate::columnIndexFromString($endColumn);
        for ($i = $startColumnIndex; $i <= $endColumnIndex; ++$i) {
            $distanceX += self::sizeCol($sheet,
Coordinate::stringFromColumnIndex($i));
        }

        // correct for offsetX in startcell
        $distanceX -= (int) floor(self::sizeCol($sheet, $startColumn) *
$startOffsetX / 1024);

        // correct for offsetX in endcell
        $distanceX -= (int) floor(self::sizeCol($sheet, $endColumn) * (1 -
$endOffsetX / 1024));

        return $distanceX;
    }

    /**
     * Get the vertical distance in pixels between two anchors
     * The distanceY is found as sum of all the spanning rows minus two
offsets.
     *
     * @param Worksheet $sheet
     * @param int $startRow (1-based)
     * @param int $startOffsetY Offset within start cell measured in 1/256
of the cell height
     * @param int $endRow (1-based)
     * @param int $endOffsetY Offset within end cell measured in 1/256 of
the cell height
     *
     * @return int Vertical distance measured in pixels
     */
    public static function getDistanceY(Worksheet $sheet, $startRow = 1,
$startOffsetY = 0, $endRow = 1, $endOffsetY = 0)
    {
        $distanceY = 0;

        // add the widths of the spanning rows
        for ($row = $startRow; $row <= $endRow; ++$row) {
            $distanceY += self::sizeRow($sheet, $row);
        }

        // correct for offsetX in startcell
        $distanceY -= (int) floor(self::sizeRow($sheet, $startRow) *
$startOffsetY / 256);

        // correct for offsetX in endcell
        $distanceY -= (int) floor(self::sizeRow($sheet, $endRow) * (1 -
$endOffsetY / 256));

        return $distanceY;
    }

    /**
     * Convert 1-cell anchor coordinates to 2-cell anchor coordinates
     * This function is ported from PEAR Spreadsheet_Writer_Excel with
small modifications.
     *
     * Calculate the vertices that define the position of the image as
required by
     * the OBJ record.
     *
     *         +------------+------------+
     *         |     A      |      B     |
     *   +-----+------------+------------+
     *   |     |(x1,y1)     |            |
     *   |  1  |(A1)._______|______      |
     *   |     |    |              |     |
     *   |     |    |              |     |
     *   +-----+----|    BITMAP    |-----+
     *   |     |    |              |     |
     *   |  2  |    |______________.     |
     *   |     |            |        (B2)|
     *   |     |            |     (x2,y2)|
     *   +---- +------------+------------+
     *
     * Example of a bitmap that covers some of the area from cell A1 to
cell B2.
     *
     * Based on the width and height of the bitmap we need to calculate 8
vars:
     *     $col_start, $row_start, $col_end, $row_end, $x1, $y1, $x2, $y2.
     * The width and height of the cells are also variable and have to be
taken into
     * account.
     * The values of $col_start and $row_start are passed in from the
calling
     * function. The values of $col_end and $row_end are calculated by
subtracting
     * the width and height of the bitmap from the width and height of the
     * underlying cells.
     * The vertices are expressed as a percentage of the underlying cell
width as
     * follows (rhs values are in pixels):
     *
     *       x1 = X / W *1024
     *       y1 = Y / H *256
     *       x2 = (X-1) / W *1024
     *       y2 = (Y-1) / H *256
     *
     *       Where:  X is distance from the left side of the underlying
cell
     *               Y is distance from the top of the underlying cell
     *               W is the width of the cell
     *               H is the height of the cell
     *
     * @param Worksheet $sheet
     * @param string $coordinates E.g. 'A1'
     * @param int $offsetX Horizontal offset in pixels
     * @param int $offsetY Vertical offset in pixels
     * @param int $width Width in pixels
     * @param int $height Height in pixels
     *
     * @return array
     */
    public static function oneAnchor2twoAnchor($sheet, $coordinates,
$offsetX, $offsetY, $width, $height)
    {
        [$column, $row] = Coordinate::coordinateFromString($coordinates);
        $col_start = Coordinate::columnIndexFromString($column);
        $row_start = $row - 1;

        $x1 = $offsetX;
        $y1 = $offsetY;

        // Initialise end cell to the same as the start cell
        $col_end = $col_start; // Col containing lower right corner of
object
        $row_end = $row_start; // Row containing bottom right corner of
object

        // Zero the specified offset if greater than the cell dimensions
        if ($x1 >= self::sizeCol($sheet,
Coordinate::stringFromColumnIndex($col_start))) {
            $x1 = 0;
        }
        if ($y1 >= self::sizeRow($sheet, $row_start + 1)) {
            $y1 = 0;
        }

        $width = $width + $x1 - 1;
        $height = $height + $y1 - 1;

        // Subtract the underlying cell widths to find the end cell of the
image
        while ($width >= self::sizeCol($sheet,
Coordinate::stringFromColumnIndex($col_end))) {
            $width -= self::sizeCol($sheet,
Coordinate::stringFromColumnIndex($col_end));
            ++$col_end;
        }

        // Subtract the underlying cell heights to find the end cell of the
image
        while ($height >= self::sizeRow($sheet, $row_end + 1)) {
            $height -= self::sizeRow($sheet, $row_end + 1);
            ++$row_end;
        }

        // Bitmap isn't allowed to start or finish in a hidden cell,
i.e. a cell
        // with zero height or width.
        if (self::sizeCol($sheet,
Coordinate::stringFromColumnIndex($col_start)) == 0) {
            return;
        }
        if (self::sizeCol($sheet,
Coordinate::stringFromColumnIndex($col_end)) == 0) {
            return;
        }
        if (self::sizeRow($sheet, $row_start + 1) == 0) {
            return;
        }
        if (self::sizeRow($sheet, $row_end + 1) == 0) {
            return;
        }

        // Convert the pixel values to the percentage value expected by
Excel
        $x1 = $x1 / self::sizeCol($sheet,
Coordinate::stringFromColumnIndex($col_start)) * 1024;
        $y1 = $y1 / self::sizeRow($sheet, $row_start + 1) * 256;
        $x2 = ($width + 1) / self::sizeCol($sheet,
Coordinate::stringFromColumnIndex($col_end)) * 1024; // Distance to right
side of object
        $y2 = ($height + 1) / self::sizeRow($sheet, $row_end + 1) * 256; //
Distance to bottom of object

        $startCoordinates = Coordinate::stringFromColumnIndex($col_start) .
($row_start + 1);
        $endCoordinates = Coordinate::stringFromColumnIndex($col_end) .
($row_end + 1);

        return [
            'startCoordinates' => $startCoordinates,
            'startOffsetX' => $x1,
            'startOffsetY' => $y1,
            'endCoordinates' => $endCoordinates,
            'endOffsetX' => $x2,
            'endOffsetY' => $y2,
        ];
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Shared/XMLWriter.php000064400000004162151165414030022310
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Shared;

class XMLWriter extends \XMLWriter
{
    public static $debugEnabled = false;

    /** Temporary storage method */
    const STORAGE_MEMORY = 1;
    const STORAGE_DISK = 2;

    /**
     * Temporary filename.
     *
     * @var string
     */
    private $tempFileName = '';

    /**
     * Create a new XMLWriter instance.
     *
     * @param int $pTemporaryStorage Temporary storage location
     * @param string $pTemporaryStorageFolder Temporary storage folder
     */
    public function __construct($pTemporaryStorage = self::STORAGE_MEMORY,
$pTemporaryStorageFolder = null)
    {
        // Open temporary storage
        if ($pTemporaryStorage == self::STORAGE_MEMORY) {
            $this->openMemory();
        } else {
            // Create temporary filename
            if ($pTemporaryStorageFolder === null) {
                $pTemporaryStorageFolder = File::sysGetTempDir();
            }
            $this->tempFileName = @tempnam($pTemporaryStorageFolder,
'xml');

            // Open storage
            if ($this->openUri($this->tempFileName) === false) {
                // Fallback to memory...
                $this->openMemory();
            }
        }

        // Set default values
        if (self::$debugEnabled) {
            $this->setIndent(true);
        }
    }

    /**
     * Destructor.
     */
    public function __destruct()
    {
        // Unlink temporary files
        if ($this->tempFileName != '') {
            @unlink($this->tempFileName);
        }
    }

    /**
     * Get written data.
     *
     * @return string
     */
    public function getData()
    {
        if ($this->tempFileName == '') {
            return $this->outputMemory(true);
        }
        $this->flush();

        return file_get_contents($this->tempFileName);
    }

    /**
     * Wrapper method for writeRaw.
     *
     * @param string|string[] $text
     *
     * @return bool
     */
    public function writeRawData($text)
    {
        if (is_array($text)) {
            $text = implode("\n", $text);
        }

        return $this->writeRaw(htmlspecialchars($text));
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Spreadsheet.php000064400000112662151165414030021521
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet;

use PhpOffice\PhpSpreadsheet\Calculation\Calculation;
use PhpOffice\PhpSpreadsheet\Style\Style;
use PhpOffice\PhpSpreadsheet\Worksheet\Iterator;
use PhpOffice\PhpSpreadsheet\Worksheet\Worksheet;

class Spreadsheet
{
    // Allowable values for workbook window visilbity
    const VISIBILITY_VISIBLE = 'visible';
    const VISIBILITY_HIDDEN = 'hidden';
    const VISIBILITY_VERY_HIDDEN = 'veryHidden';

    private static $workbookViewVisibilityValues = [
        self::VISIBILITY_VISIBLE,
        self::VISIBILITY_HIDDEN,
        self::VISIBILITY_VERY_HIDDEN,
    ];

    /**
     * Unique ID.
     *
     * @var string
     */
    private $uniqueID;

    /**
     * Document properties.
     *
     * @var Document\Properties
     */
    private $properties;

    /**
     * Document security.
     *
     * @var Document\Security
     */
    private $security;

    /**
     * Collection of Worksheet objects.
     *
     * @var Worksheet[]
     */
    private $workSheetCollection = [];

    /**
     * Calculation Engine.
     *
     * @var Calculation
     */
    private $calculationEngine;

    /**
     * Active sheet index.
     *
     * @var int
     */
    private $activeSheetIndex = 0;

    /**
     * Named ranges.
     *
     * @var NamedRange[]
     */
    private $namedRanges = [];

    /**
     * CellXf supervisor.
     *
     * @var Style
     */
    private $cellXfSupervisor;

    /**
     * CellXf collection.
     *
     * @var Style[]
     */
    private $cellXfCollection = [];

    /**
     * CellStyleXf collection.
     *
     * @var Style[]
     */
    private $cellStyleXfCollection = [];

    /**
     * hasMacros : this workbook have macros ?
     *
     * @var bool
     */
    private $hasMacros = false;

    /**
     * macrosCode : all macros code as binary data (the vbaProject.bin
file, this include form, code,  etc.), null if no macro.
     *
     * @var string
     */
    private $macrosCode;

    /**
     * macrosCertificate : if macros are signed, contains binary data
vbaProjectSignature.bin file, null if not signed.
     *
     * @var string
     */
    private $macrosCertificate;

    /**
     * ribbonXMLData : null if workbook is'nt Excel 2007 or not
contain a customized UI.
     *
     * @var null|string
     */
    private $ribbonXMLData;

    /**
     * ribbonBinObjects : null if workbook is'nt Excel 2007 or not
contain embedded objects (picture(s)) for Ribbon Elements
     * ignored if $ribbonXMLData is null.
     *
     * @var null|array
     */
    private $ribbonBinObjects;

    /**
     * List of unparsed loaded data for export to same format with better
compatibility.
     * It has to be minimized when the library start to support currently
unparsed data.
     *
     * @var array
     */
    private $unparsedLoadedData = [];

    /**
     * Controls visibility of the horizonal scroll bar in the application.
     *
     * @var bool
     */
    private $showHorizontalScroll = true;

    /**
     * Controls visibility of the horizonal scroll bar in the application.
     *
     * @var bool
     */
    private $showVerticalScroll = true;

    /**
     * Controls visibility of the sheet tabs in the application.
     *
     * @var bool
     */
    private $showSheetTabs = true;

    /**
     * Specifies a boolean value that indicates whether the workbook window
     * is minimized.
     *
     * @var bool
     */
    private $minimized = false;

    /**
     * Specifies a boolean value that indicates whether to group dates
     * when presenting the user with filtering optiomd in the user
     * interface.
     *
     * @var bool
     */
    private $autoFilterDateGrouping = true;

    /**
     * Specifies the index to the first sheet in the book view.
     *
     * @var int
     */
    private $firstSheetIndex = 0;

    /**
     * Specifies the visible status of the workbook.
     *
     * @var string
     */
    private $visibility = self::VISIBILITY_VISIBLE;

    /**
     * Specifies the ratio between the workbook tabs bar and the horizontal
     * scroll bar.  TabRatio is assumed to be out of 1000 of the horizontal
     * window width.
     *
     * @var int
     */
    private $tabRatio = 600;

    /**
     * The workbook has macros ?
     *
     * @return bool
     */
    public function hasMacros()
    {
        return $this->hasMacros;
    }

    /**
     * Define if a workbook has macros.
     *
     * @param bool $hasMacros true|false
     */
    public function setHasMacros($hasMacros)
    {
        $this->hasMacros = (bool) $hasMacros;
    }

    /**
     * Set the macros code.
     *
     * @param string $macroCode string|null
     */
    public function setMacrosCode($macroCode)
    {
        $this->macrosCode = $macroCode;
        $this->setHasMacros($macroCode !== null);
    }

    /**
     * Return the macros code.
     *
     * @return null|string
     */
    public function getMacrosCode()
    {
        return $this->macrosCode;
    }

    /**
     * Set the macros certificate.
     *
     * @param null|string $certificate
     */
    public function setMacrosCertificate($certificate)
    {
        $this->macrosCertificate = $certificate;
    }

    /**
     * Is the project signed ?
     *
     * @return bool true|false
     */
    public function hasMacrosCertificate()
    {
        return $this->macrosCertificate !== null;
    }

    /**
     * Return the macros certificate.
     *
     * @return null|string
     */
    public function getMacrosCertificate()
    {
        return $this->macrosCertificate;
    }

    /**
     * Remove all macros, certificate from spreadsheet.
     */
    public function discardMacros()
    {
        $this->hasMacros = false;
        $this->macrosCode = null;
        $this->macrosCertificate = null;
    }

    /**
     * set ribbon XML data.
     *
     * @param null|mixed $target
     * @param null|mixed $xmlData
     */
    public function setRibbonXMLData($target, $xmlData)
    {
        if ($target !== null && $xmlData !== null) {
            $this->ribbonXMLData = ['target' => $target,
'data' => $xmlData];
        } else {
            $this->ribbonXMLData = null;
        }
    }

    /**
     * retrieve ribbon XML Data.
     *
     * return string|null|array
     *
     * @param string $what
     *
     * @return string
     */
    public function getRibbonXMLData($what = 'all') //we need
some constants here...
    {
        $returnData = null;
        $what = strtolower($what);
        switch ($what) {
            case 'all':
                $returnData = $this->ribbonXMLData;

                break;
            case 'target':
            case 'data':
                if (is_array($this->ribbonXMLData) &&
isset($this->ribbonXMLData[$what])) {
                    $returnData = $this->ribbonXMLData[$what];
                }

                break;
        }

        return $returnData;
    }

    /**
     * store binaries ribbon objects (pictures).
     *
     * @param null|mixed $BinObjectsNames
     * @param null|mixed $BinObjectsData
     */
    public function setRibbonBinObjects($BinObjectsNames, $BinObjectsData)
    {
        if ($BinObjectsNames !== null && $BinObjectsData !== null)
{
            $this->ribbonBinObjects = ['names' =>
$BinObjectsNames, 'data' => $BinObjectsData];
        } else {
            $this->ribbonBinObjects = null;
        }
    }

    /**
     * List of unparsed loaded data for export to same format with better
compatibility.
     * It has to be minimized when the library start to support currently
unparsed data.
     *
     * @internal
     *
     * @return array
     */
    public function getUnparsedLoadedData()
    {
        return $this->unparsedLoadedData;
    }

    /**
     * List of unparsed loaded data for export to same format with better
compatibility.
     * It has to be minimized when the library start to support currently
unparsed data.
     *
     * @internal
     *
     * @param array $unparsedLoadedData
     */
    public function setUnparsedLoadedData(array $unparsedLoadedData)
    {
        $this->unparsedLoadedData = $unparsedLoadedData;
    }

    /**
     * return the extension of a filename. Internal use for a array_map
callback (php<5.3 don't like lambda function).
     *
     * @param mixed $path
     *
     * @return string
     */
    private function getExtensionOnly($path)
    {
        return pathinfo($path, PATHINFO_EXTENSION);
    }

    /**
     * retrieve Binaries Ribbon Objects.
     *
     * @param string $what
     *
     * @return null|array
     */
    public function getRibbonBinObjects($what = 'all')
    {
        $ReturnData = null;
        $what = strtolower($what);
        switch ($what) {
            case 'all':
                return $this->ribbonBinObjects;

                break;
            case 'names':
            case 'data':
                if (is_array($this->ribbonBinObjects) &&
isset($this->ribbonBinObjects[$what])) {
                    $ReturnData = $this->ribbonBinObjects[$what];
                }

                break;
            case 'types':
                if (is_array($this->ribbonBinObjects) &&
                    isset($this->ribbonBinObjects['data'])
&& is_array($this->ribbonBinObjects['data'])) {
                    $tmpTypes =
array_keys($this->ribbonBinObjects['data']);
                    $ReturnData = array_unique(array_map([$this,
'getExtensionOnly'], $tmpTypes));
                } else {
                    $ReturnData = []; // the caller want an array... not
null if empty
                }

                break;
        }

        return $ReturnData;
    }

    /**
     * This workbook have a custom UI ?
     *
     * @return bool
     */
    public function hasRibbon()
    {
        return $this->ribbonXMLData !== null;
    }

    /**
     * This workbook have additionnal object for the ribbon ?
     *
     * @return bool
     */
    public function hasRibbonBinObjects()
    {
        return $this->ribbonBinObjects !== null;
    }

    /**
     * Check if a sheet with a specified code name already exists.
     *
     * @param string $pSheetCodeName Name of the worksheet to check
     *
     * @return bool
     */
    public function sheetCodeNameExists($pSheetCodeName)
    {
        return $this->getSheetByCodeName($pSheetCodeName) !== null;
    }

    /**
     * Get sheet by code name. Warning : sheet don't have always a
code name !
     *
     * @param string $pName Sheet name
     *
     * @return Worksheet
     */
    public function getSheetByCodeName($pName)
    {
        $worksheetCount = count($this->workSheetCollection);
        for ($i = 0; $i < $worksheetCount; ++$i) {
            if ($this->workSheetCollection[$i]->getCodeName() ==
$pName) {
                return $this->workSheetCollection[$i];
            }
        }

        return null;
    }

    /**
     * Create a new PhpSpreadsheet with one Worksheet.
     */
    public function __construct()
    {
        $this->uniqueID = uniqid('', true);
        $this->calculationEngine = new Calculation($this);

        // Initialise worksheet collection and add one worksheet
        $this->workSheetCollection = [];
        $this->workSheetCollection[] = new Worksheet($this);
        $this->activeSheetIndex = 0;

        // Create document properties
        $this->properties = new Document\Properties();

        // Create document security
        $this->security = new Document\Security();

        // Set named ranges
        $this->namedRanges = [];

        // Create the cellXf supervisor
        $this->cellXfSupervisor = new Style(true);
        $this->cellXfSupervisor->bindParent($this);

        // Create the default style
        $this->addCellXf(new Style());
        $this->addCellStyleXf(new Style());
    }

    /**
     * Code to execute when this worksheet is unset().
     */
    public function __destruct()
    {
        $this->calculationEngine = null;
        $this->disconnectWorksheets();
    }

    /**
     * Disconnect all worksheets from this PhpSpreadsheet workbook object,
     * typically so that the PhpSpreadsheet object can be unset.
     */
    public function disconnectWorksheets()
    {
        $worksheet = null;
        foreach ($this->workSheetCollection as $k => &$worksheet)
{
            $worksheet->disconnectCells();
            $this->workSheetCollection[$k] = null;
        }
        unset($worksheet);
        $this->workSheetCollection = [];
    }

    /**
     * Return the calculation engine for this worksheet.
     *
     * @return Calculation
     */
    public function getCalculationEngine()
    {
        return $this->calculationEngine;
    }

    /**
     * Get properties.
     *
     * @return Document\Properties
     */
    public function getProperties()
    {
        return $this->properties;
    }

    /**
     * Set properties.
     *
     * @param Document\Properties $pValue
     */
    public function setProperties(Document\Properties $pValue)
    {
        $this->properties = $pValue;
    }

    /**
     * Get security.
     *
     * @return Document\Security
     */
    public function getSecurity()
    {
        return $this->security;
    }

    /**
     * Set security.
     *
     * @param Document\Security $pValue
     */
    public function setSecurity(Document\Security $pValue)
    {
        $this->security = $pValue;
    }

    /**
     * Get active sheet.
     *
     * @throws Exception
     *
     * @return Worksheet
     */
    public function getActiveSheet()
    {
        return $this->getSheet($this->activeSheetIndex);
    }

    /**
     * Create sheet and add it to this workbook.
     *
     * @param null|int $sheetIndex Index where sheet should go (0,1,..., or
null for last)
     *
     * @throws Exception
     *
     * @return Worksheet
     */
    public function createSheet($sheetIndex = null)
    {
        $newSheet = new Worksheet($this);
        $this->addSheet($newSheet, $sheetIndex);

        return $newSheet;
    }

    /**
     * Check if a sheet with a specified name already exists.
     *
     * @param string $pSheetName Name of the worksheet to check
     *
     * @return bool
     */
    public function sheetNameExists($pSheetName)
    {
        return $this->getSheetByName($pSheetName) !== null;
    }

    /**
     * Add sheet.
     *
     * @param Worksheet $pSheet
     * @param null|int $iSheetIndex Index where sheet should go (0,1,...,
or null for last)
     *
     * @throws Exception
     *
     * @return Worksheet
     */
    public function addSheet(Worksheet $pSheet, $iSheetIndex = null)
    {
        if ($this->sheetNameExists($pSheet->getTitle())) {
            throw new Exception(
                "Workbook already contains a worksheet named
'{$pSheet->getTitle()}'. Rename this worksheet first."
            );
        }

        if ($iSheetIndex === null) {
            if ($this->activeSheetIndex < 0) {
                $this->activeSheetIndex = 0;
            }
            $this->workSheetCollection[] = $pSheet;
        } else {
            // Insert the sheet at the requested index
            array_splice(
                $this->workSheetCollection,
                $iSheetIndex,
                0,
                [$pSheet]
            );

            // Adjust active sheet index if necessary
            if ($this->activeSheetIndex >= $iSheetIndex) {
                ++$this->activeSheetIndex;
            }
        }

        if ($pSheet->getParent() === null) {
            $pSheet->rebindParent($this);
        }

        return $pSheet;
    }

    /**
     * Remove sheet by index.
     *
     * @param int $pIndex Active sheet index
     *
     * @throws Exception
     */
    public function removeSheetByIndex($pIndex)
    {
        $numSheets = count($this->workSheetCollection);
        if ($pIndex > $numSheets - 1) {
            throw new Exception(
                "You tried to remove a sheet by the out of bounds
index: {$pIndex}. The actual number of sheets is {$numSheets}."
            );
        }
        array_splice($this->workSheetCollection, $pIndex, 1);

        // Adjust active sheet index if necessary
        if (($this->activeSheetIndex >= $pIndex) &&
            ($pIndex > count($this->workSheetCollection) - 1)) {
            --$this->activeSheetIndex;
        }
    }

    /**
     * Get sheet by index.
     *
     * @param int $pIndex Sheet index
     *
     * @throws Exception
     *
     * @return Worksheet
     */
    public function getSheet($pIndex)
    {
        if (!isset($this->workSheetCollection[$pIndex])) {
            $numSheets = $this->getSheetCount();

            throw new Exception(
                "Your requested sheet index: {$pIndex} is out of
bounds. The actual number of sheets is {$numSheets}."
            );
        }

        return $this->workSheetCollection[$pIndex];
    }

    /**
     * Get all sheets.
     *
     * @return Worksheet[]
     */
    public function getAllSheets()
    {
        return $this->workSheetCollection;
    }

    /**
     * Get sheet by name.
     *
     * @param string $pName Sheet name
     *
     * @return null|Worksheet
     */
    public function getSheetByName($pName)
    {
        $worksheetCount = count($this->workSheetCollection);
        for ($i = 0; $i < $worksheetCount; ++$i) {
            if ($this->workSheetCollection[$i]->getTitle() ===
trim($pName, "'")) {
                return $this->workSheetCollection[$i];
            }
        }

        return null;
    }

    /**
     * Get index for sheet.
     *
     * @param Worksheet $pSheet
     *
     * @throws Exception
     *
     * @return int index
     */
    public function getIndex(Worksheet $pSheet)
    {
        foreach ($this->workSheetCollection as $key => $value) {
            if ($value->getHashCode() == $pSheet->getHashCode()) {
                return $key;
            }
        }

        throw new Exception('Sheet does not exist.');
    }

    /**
     * Set index for sheet by sheet name.
     *
     * @param string $sheetName Sheet name to modify index for
     * @param int $newIndex New index for the sheet
     *
     * @throws Exception
     *
     * @return int New sheet index
     */
    public function setIndexByName($sheetName, $newIndex)
    {
        $oldIndex =
$this->getIndex($this->getSheetByName($sheetName));
        $pSheet = array_splice(
            $this->workSheetCollection,
            $oldIndex,
            1
        );
        array_splice(
            $this->workSheetCollection,
            $newIndex,
            0,
            $pSheet
        );

        return $newIndex;
    }

    /**
     * Get sheet count.
     *
     * @return int
     */
    public function getSheetCount()
    {
        return count($this->workSheetCollection);
    }

    /**
     * Get active sheet index.
     *
     * @return int Active sheet index
     */
    public function getActiveSheetIndex()
    {
        return $this->activeSheetIndex;
    }

    /**
     * Set active sheet index.
     *
     * @param int $pIndex Active sheet index
     *
     * @throws Exception
     *
     * @return Worksheet
     */
    public function setActiveSheetIndex($pIndex)
    {
        $numSheets = count($this->workSheetCollection);

        if ($pIndex > $numSheets - 1) {
            throw new Exception(
                "You tried to set a sheet active by the out of bounds
index: {$pIndex}. The actual number of sheets is {$numSheets}."
            );
        }
        $this->activeSheetIndex = $pIndex;

        return $this->getActiveSheet();
    }

    /**
     * Set active sheet index by name.
     *
     * @param string $pValue Sheet title
     *
     * @throws Exception
     *
     * @return Worksheet
     */
    public function setActiveSheetIndexByName($pValue)
    {
        if (($worksheet = $this->getSheetByName($pValue)) instanceof
Worksheet) {
            $this->setActiveSheetIndex($this->getIndex($worksheet));

            return $worksheet;
        }

        throw new Exception('Workbook does not contain sheet:' .
$pValue);
    }

    /**
     * Get sheet names.
     *
     * @return string[]
     */
    public function getSheetNames()
    {
        $returnValue = [];
        $worksheetCount = $this->getSheetCount();
        for ($i = 0; $i < $worksheetCount; ++$i) {
            $returnValue[] = $this->getSheet($i)->getTitle();
        }

        return $returnValue;
    }

    /**
     * Add external sheet.
     *
     * @param Worksheet $pSheet External sheet to add
     * @param null|int $iSheetIndex Index where sheet should go (0,1,...,
or null for last)
     *
     * @throws Exception
     *
     * @return Worksheet
     */
    public function addExternalSheet(Worksheet $pSheet, $iSheetIndex =
null)
    {
        if ($this->sheetNameExists($pSheet->getTitle())) {
            throw new Exception("Workbook already contains a worksheet
named '{$pSheet->getTitle()}'. Rename the external sheet
first.");
        }

        // count how many cellXfs there are in this workbook currently, we
will need this below
        $countCellXfs = count($this->cellXfCollection);

        // copy all the shared cellXfs from the external workbook and
append them to the current
        foreach ($pSheet->getParent()->getCellXfCollection() as
$cellXf) {
            $this->addCellXf(clone $cellXf);
        }

        // move sheet to this workbook
        $pSheet->rebindParent($this);

        // update the cellXfs
        foreach ($pSheet->getCoordinates(false) as $coordinate) {
            $cell = $pSheet->getCell($coordinate);
            $cell->setXfIndex($cell->getXfIndex() + $countCellXfs);
        }

        return $this->addSheet($pSheet, $iSheetIndex);
    }

    /**
     * Get named ranges.
     *
     * @return NamedRange[]
     */
    public function getNamedRanges()
    {
        return $this->namedRanges;
    }

    /**
     * Add named range.
     *
     * @param NamedRange $namedRange
     *
     * @return bool
     */
    public function addNamedRange(NamedRange $namedRange)
    {
        if ($namedRange->getScope() == null) {
            // global scope
            $this->namedRanges[$namedRange->getName()] = $namedRange;
        } else {
            // local scope
            $this->namedRanges[$namedRange->getScope()->getTitle()
. '!' . $namedRange->getName()] = $namedRange;
        }

        return true;
    }

    /**
     * Get named range.
     *
     * @param string $namedRange
     * @param null|Worksheet $pSheet Scope. Use null for global scope
     *
     * @return null|NamedRange
     */
    public function getNamedRange($namedRange, Worksheet $pSheet = null)
    {
        $returnValue = null;

        if ($namedRange != '' && ($namedRange !== null))
{
            // first look for global defined name
            if (isset($this->namedRanges[$namedRange])) {
                $returnValue = $this->namedRanges[$namedRange];
            }

            // then look for local defined name (has priority over global
defined name if both names exist)
            if (($pSheet !== null) &&
isset($this->namedRanges[$pSheet->getTitle() . '!' .
$namedRange])) {
                $returnValue = $this->namedRanges[$pSheet->getTitle()
. '!' . $namedRange];
            }
        }

        return $returnValue;
    }

    /**
     * Remove named range.
     *
     * @param string $namedRange
     * @param null|Worksheet $pSheet scope: use null for global scope
     *
     * @return $this
     */
    public function removeNamedRange($namedRange, Worksheet $pSheet = null)
    {
        if ($pSheet === null) {
            if (isset($this->namedRanges[$namedRange])) {
                unset($this->namedRanges[$namedRange]);
            }
        } else {
            if (isset($this->namedRanges[$pSheet->getTitle() .
'!' . $namedRange])) {
                unset($this->namedRanges[$pSheet->getTitle() .
'!' . $namedRange]);
            }
        }

        return $this;
    }

    /**
     * Get worksheet iterator.
     *
     * @return Iterator
     */
    public function getWorksheetIterator()
    {
        return new Iterator($this);
    }

    /**
     * Copy workbook (!= clone!).
     *
     * @return Spreadsheet
     */
    public function copy()
    {
        $copied = clone $this;

        $worksheetCount = count($this->workSheetCollection);
        for ($i = 0; $i < $worksheetCount; ++$i) {
            $this->workSheetCollection[$i] =
$this->workSheetCollection[$i]->copy();
            $this->workSheetCollection[$i]->rebindParent($this);
        }

        return $copied;
    }

    /**
     * Implement PHP __clone to create a deep clone, not just a shallow
copy.
     */
    public function __clone()
    {
        foreach ($this as $key => $val) {
            if (is_object($val) || (is_array($val))) {
                $this->{$key} = unserialize(serialize($val));
            }
        }
    }

    /**
     * Get the workbook collection of cellXfs.
     *
     * @return Style[]
     */
    public function getCellXfCollection()
    {
        return $this->cellXfCollection;
    }

    /**
     * Get cellXf by index.
     *
     * @param int $pIndex
     *
     * @return Style
     */
    public function getCellXfByIndex($pIndex)
    {
        return $this->cellXfCollection[$pIndex];
    }

    /**
     * Get cellXf by hash code.
     *
     * @param string $pValue
     *
     * @return false|Style
     */
    public function getCellXfByHashCode($pValue)
    {
        foreach ($this->cellXfCollection as $cellXf) {
            if ($cellXf->getHashCode() == $pValue) {
                return $cellXf;
            }
        }

        return false;
    }

    /**
     * Check if style exists in style collection.
     *
     * @param Style $pCellStyle
     *
     * @return bool
     */
    public function cellXfExists($pCellStyle)
    {
        return in_array($pCellStyle, $this->cellXfCollection, true);
    }

    /**
     * Get default style.
     *
     * @throws Exception
     *
     * @return Style
     */
    public function getDefaultStyle()
    {
        if (isset($this->cellXfCollection[0])) {
            return $this->cellXfCollection[0];
        }

        throw new Exception('No default style found for this
workbook');
    }

    /**
     * Add a cellXf to the workbook.
     *
     * @param Style $style
     */
    public function addCellXf(Style $style)
    {
        $this->cellXfCollection[] = $style;
        $style->setIndex(count($this->cellXfCollection) - 1);
    }

    /**
     * Remove cellXf by index. It is ensured that all cells get their xf
index updated.
     *
     * @param int $pIndex Index to cellXf
     *
     * @throws Exception
     */
    public function removeCellXfByIndex($pIndex)
    {
        if ($pIndex > count($this->cellXfCollection) - 1) {
            throw new Exception('CellXf index is out of
bounds.');
        }

        // first remove the cellXf
        array_splice($this->cellXfCollection, $pIndex, 1);

        // then update cellXf indexes for cells
        foreach ($this->workSheetCollection as $worksheet) {
            foreach ($worksheet->getCoordinates(false) as $coordinate) {
                $cell = $worksheet->getCell($coordinate);
                $xfIndex = $cell->getXfIndex();
                if ($xfIndex > $pIndex) {
                    // decrease xf index by 1
                    $cell->setXfIndex($xfIndex - 1);
                } elseif ($xfIndex == $pIndex) {
                    // set to default xf index 0
                    $cell->setXfIndex(0);
                }
            }
        }
    }

    /**
     * Get the cellXf supervisor.
     *
     * @return Style
     */
    public function getCellXfSupervisor()
    {
        return $this->cellXfSupervisor;
    }

    /**
     * Get the workbook collection of cellStyleXfs.
     *
     * @return Style[]
     */
    public function getCellStyleXfCollection()
    {
        return $this->cellStyleXfCollection;
    }

    /**
     * Get cellStyleXf by index.
     *
     * @param int $pIndex Index to cellXf
     *
     * @return Style
     */
    public function getCellStyleXfByIndex($pIndex)
    {
        return $this->cellStyleXfCollection[$pIndex];
    }

    /**
     * Get cellStyleXf by hash code.
     *
     * @param string $pValue
     *
     * @return false|Style
     */
    public function getCellStyleXfByHashCode($pValue)
    {
        foreach ($this->cellStyleXfCollection as $cellStyleXf) {
            if ($cellStyleXf->getHashCode() == $pValue) {
                return $cellStyleXf;
            }
        }

        return false;
    }

    /**
     * Add a cellStyleXf to the workbook.
     *
     * @param Style $pStyle
     */
    public function addCellStyleXf(Style $pStyle)
    {
        $this->cellStyleXfCollection[] = $pStyle;
        $pStyle->setIndex(count($this->cellStyleXfCollection) - 1);
    }

    /**
     * Remove cellStyleXf by index.
     *
     * @param int $pIndex Index to cellXf
     *
     * @throws Exception
     */
    public function removeCellStyleXfByIndex($pIndex)
    {
        if ($pIndex > count($this->cellStyleXfCollection) - 1) {
            throw new Exception('CellStyleXf index is out of
bounds.');
        }
        array_splice($this->cellStyleXfCollection, $pIndex, 1);
    }

    /**
     * Eliminate all unneeded cellXf and afterwards update the xfIndex for
all cells
     * and columns in the workbook.
     */
    public function garbageCollect()
    {
        // how many references are there to each cellXf ?
        $countReferencesCellXf = [];
        foreach ($this->cellXfCollection as $index => $cellXf) {
            $countReferencesCellXf[$index] = 0;
        }

        foreach ($this->getWorksheetIterator() as $sheet) {
            // from cells
            foreach ($sheet->getCoordinates(false) as $coordinate) {
                $cell = $sheet->getCell($coordinate);
                ++$countReferencesCellXf[$cell->getXfIndex()];
            }

            // from row dimensions
            foreach ($sheet->getRowDimensions() as $rowDimension) {
                if ($rowDimension->getXfIndex() !== null) {
                   
++$countReferencesCellXf[$rowDimension->getXfIndex()];
                }
            }

            // from column dimensions
            foreach ($sheet->getColumnDimensions() as $columnDimension)
{
               
++$countReferencesCellXf[$columnDimension->getXfIndex()];
            }
        }

        // remove cellXfs without references and create mapping so we can
update xfIndex
        // for all cells and columns
        $countNeededCellXfs = 0;
        foreach ($this->cellXfCollection as $index => $cellXf) {
            if ($countReferencesCellXf[$index] > 0 || $index == 0) { //
we must never remove the first cellXf
                ++$countNeededCellXfs;
            } else {
                unset($this->cellXfCollection[$index]);
            }
            $map[$index] = $countNeededCellXfs - 1;
        }
        $this->cellXfCollection =
array_values($this->cellXfCollection);

        // update the index for all cellXfs
        foreach ($this->cellXfCollection as $i => $cellXf) {
            $cellXf->setIndex($i);
        }

        // make sure there is always at least one cellXf (there should be)
        if (empty($this->cellXfCollection)) {
            $this->cellXfCollection[] = new Style();
        }

        // update the xfIndex for all cells, row dimensions, column
dimensions
        foreach ($this->getWorksheetIterator() as $sheet) {
            // for all cells
            foreach ($sheet->getCoordinates(false) as $coordinate) {
                $cell = $sheet->getCell($coordinate);
                $cell->setXfIndex($map[$cell->getXfIndex()]);
            }

            // for all row dimensions
            foreach ($sheet->getRowDimensions() as $rowDimension) {
                if ($rowDimension->getXfIndex() !== null) {
                   
$rowDimension->setXfIndex($map[$rowDimension->getXfIndex()]);
                }
            }

            // for all column dimensions
            foreach ($sheet->getColumnDimensions() as $columnDimension)
{
               
$columnDimension->setXfIndex($map[$columnDimension->getXfIndex()]);
            }

            // also do garbage collection for all the sheets
            $sheet->garbageCollect();
        }
    }

    /**
     * Return the unique ID value assigned to this spreadsheet workbook.
     *
     * @return string
     */
    public function getID()
    {
        return $this->uniqueID;
    }

    /**
     * Get the visibility of the horizonal scroll bar in the application.
     *
     * @return bool True if horizonal scroll bar is visible
     */
    public function getShowHorizontalScroll()
    {
        return $this->showHorizontalScroll;
    }

    /**
     * Set the visibility of the horizonal scroll bar in the application.
     *
     * @param bool $showHorizontalScroll True if horizonal scroll bar is
visible
     */
    public function setShowHorizontalScroll($showHorizontalScroll)
    {
        $this->showHorizontalScroll = (bool) $showHorizontalScroll;
    }

    /**
     * Get the visibility of the vertical scroll bar in the application.
     *
     * @return bool True if vertical scroll bar is visible
     */
    public function getShowVerticalScroll()
    {
        return $this->showVerticalScroll;
    }

    /**
     * Set the visibility of the vertical scroll bar in the application.
     *
     * @param bool $showVerticalScroll True if vertical scroll bar is
visible
     */
    public function setShowVerticalScroll($showVerticalScroll)
    {
        $this->showVerticalScroll = (bool) $showVerticalScroll;
    }

    /**
     * Get the visibility of the sheet tabs in the application.
     *
     * @return bool True if the sheet tabs are visible
     */
    public function getShowSheetTabs()
    {
        return $this->showSheetTabs;
    }

    /**
     * Set the visibility of the sheet tabs  in the application.
     *
     * @param bool $showSheetTabs True if sheet tabs are visible
     */
    public function setShowSheetTabs($showSheetTabs)
    {
        $this->showSheetTabs = (bool) $showSheetTabs;
    }

    /**
     * Return whether the workbook window is minimized.
     *
     * @return bool true if workbook window is minimized
     */
    public function getMinimized()
    {
        return $this->minimized;
    }

    /**
     * Set whether the workbook window is minimized.
     *
     * @param bool $minimized true if workbook window is minimized
     */
    public function setMinimized($minimized)
    {
        $this->minimized = (bool) $minimized;
    }

    /**
     * Return whether to group dates when presenting the user with
     * filtering optiomd in the user interface.
     *
     * @return bool true if workbook window is minimized
     */
    public function getAutoFilterDateGrouping()
    {
        return $this->autoFilterDateGrouping;
    }

    /**
     * Set whether to group dates when presenting the user with
     * filtering optiomd in the user interface.
     *
     * @param bool $autoFilterDateGrouping true if workbook window is
minimized
     */
    public function setAutoFilterDateGrouping($autoFilterDateGrouping)
    {
        $this->autoFilterDateGrouping = (bool) $autoFilterDateGrouping;
    }

    /**
     * Return the first sheet in the book view.
     *
     * @return int First sheet in book view
     */
    public function getFirstSheetIndex()
    {
        return $this->firstSheetIndex;
    }

    /**
     * Set the first sheet in the book view.
     *
     * @param int $firstSheetIndex First sheet in book view
     *
     * @throws Exception  if the given value is invalid
     */
    public function setFirstSheetIndex($firstSheetIndex)
    {
        if ($firstSheetIndex >= 0) {
            $this->firstSheetIndex = (int) $firstSheetIndex;
        } else {
            throw new Exception('First sheet index must be a positive
integer.');
        }
    }

    /**
     * Return the visibility status of the workbook.
     *
     * This may be one of the following three values:
     * - visibile
     *
     * @return string Visible status
     */
    public function getVisibility()
    {
        return $this->visibility;
    }

    /**
     * Set the visibility status of the workbook.
     *
     * Valid values are:
     *  - 'visible' (self::VISIBILITY_VISIBLE):
     *       Workbook window is visible
     *  - 'hidden' (self::VISIBILITY_HIDDEN):
     *       Workbook window is hidden, but can be shown by the user
     *       via the user interface
     *  - 'veryHidden' (self::VISIBILITY_VERY_HIDDEN):
     *       Workbook window is hidden and cannot be shown in the
     *       user interface.
     *
     * @param string $visibility visibility status of the workbook
     *
     * @throws Exception  if the given value is invalid
     */
    public function setVisibility($visibility)
    {
        if ($visibility === null) {
            $visibility = self::VISIBILITY_VISIBLE;
        }

        if (in_array($visibility, self::$workbookViewVisibilityValues)) {
            $this->visibility = $visibility;
        } else {
            throw new Exception('Invalid visibility value.');
        }
    }

    /**
     * Get the ratio between the workbook tabs bar and the horizontal
scroll bar.
     * TabRatio is assumed to be out of 1000 of the horizontal window
width.
     *
     * @return int Ratio between the workbook tabs bar and the horizontal
scroll bar
     */
    public function getTabRatio()
    {
        return $this->tabRatio;
    }

    /**
     * Set the ratio between the workbook tabs bar and the horizontal
scroll bar
     * TabRatio is assumed to be out of 1000 of the horizontal window
width.
     *
     * @param int $tabRatio Ratio between the tabs bar and the horizontal
scroll bar
     *
     * @throws Exception  if the given value is invalid
     */
    public function setTabRatio($tabRatio)
    {
        if ($tabRatio >= 0 || $tabRatio <= 1000) {
            $this->tabRatio = (int) $tabRatio;
        } else {
            throw new Exception('Tab ratio must be between 0 and
1000.');
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Style/Alignment.php000064400000026453151165414030022272
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Style;

use PhpOffice\PhpSpreadsheet\Exception as PhpSpreadsheetException;

class Alignment extends Supervisor
{
    // Horizontal alignment styles
    const HORIZONTAL_GENERAL = 'general';
    const HORIZONTAL_LEFT = 'left';
    const HORIZONTAL_RIGHT = 'right';
    const HORIZONTAL_CENTER = 'center';
    const HORIZONTAL_CENTER_CONTINUOUS = 'centerContinuous';
    const HORIZONTAL_JUSTIFY = 'justify';
    const HORIZONTAL_FILL = 'fill';
    const HORIZONTAL_DISTRIBUTED = 'distributed'; // Excel2007
only

    // Vertical alignment styles
    const VERTICAL_BOTTOM = 'bottom';
    const VERTICAL_TOP = 'top';
    const VERTICAL_CENTER = 'center';
    const VERTICAL_JUSTIFY = 'justify';
    const VERTICAL_DISTRIBUTED = 'distributed'; // Excel2007 only

    // Read order
    const READORDER_CONTEXT = 0;
    const READORDER_LTR = 1;
    const READORDER_RTL = 2;

    /**
     * Horizontal alignment.
     *
     * @var string
     */
    protected $horizontal = self::HORIZONTAL_GENERAL;

    /**
     * Vertical alignment.
     *
     * @var string
     */
    protected $vertical = self::VERTICAL_BOTTOM;

    /**
     * Text rotation.
     *
     * @var int
     */
    protected $textRotation = 0;

    /**
     * Wrap text.
     *
     * @var bool
     */
    protected $wrapText = false;

    /**
     * Shrink to fit.
     *
     * @var bool
     */
    protected $shrinkToFit = false;

    /**
     * Indent - only possible with horizontal alignment left and right.
     *
     * @var int
     */
    protected $indent = 0;

    /**
     * Read order.
     *
     * @var int
     */
    protected $readOrder = 0;

    /**
     * Create a new Alignment.
     *
     * @param bool $isSupervisor Flag indicating if this is a supervisor or
not
     *                                       Leave this value at default
unless you understand exactly what
     *                                          its ramifications are
     * @param bool $isConditional Flag indicating if this is a conditional
style or not
     *                                       Leave this value at default
unless you understand exactly what
     *                                          its ramifications are
     */
    public function __construct($isSupervisor = false, $isConditional =
false)
    {
        // Supervisor?
        parent::__construct($isSupervisor);

        if ($isConditional) {
            $this->horizontal = null;
            $this->vertical = null;
            $this->textRotation = null;
        }
    }

    /**
     * Get the shared style component for the currently active cell in
currently active sheet.
     * Only used for style supervisor.
     *
     * @return Alignment
     */
    public function getSharedComponent()
    {
        return
$this->parent->getSharedComponent()->getAlignment();
    }

    /**
     * Build style array from subcomponents.
     *
     * @param array $array
     *
     * @return array
     */
    public function getStyleArray($array)
    {
        return ['alignment' => $array];
    }

    /**
     * Apply styles from array.
     *
     * <code>
     *
$spreadsheet->getActiveSheet()->getStyle('B2')->getAlignment()->applyFromArray(
     *        [
     *            'horizontal'   =>
\PhpOffice\PhpSpreadsheet\Style\Alignment::HORIZONTAL_CENTER,
     *            'vertical'     =>
\PhpOffice\PhpSpreadsheet\Style\Alignment::VERTICAL_CENTER,
     *            'textRotation' => 0,
     *            'wrapText'     => TRUE
     *        ]
     * );
     * </code>
     *
     * @param array $pStyles Array containing style information
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function applyFromArray(array $pStyles)
    {
        if ($this->isSupervisor) {
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())
                ->applyFromArray($this->getStyleArray($pStyles));
        } else {
            if (isset($pStyles['horizontal'])) {
                $this->setHorizontal($pStyles['horizontal']);
            }
            if (isset($pStyles['vertical'])) {
                $this->setVertical($pStyles['vertical']);
            }
            if (isset($pStyles['textRotation'])) {
               
$this->setTextRotation($pStyles['textRotation']);
            }
            if (isset($pStyles['wrapText'])) {
                $this->setWrapText($pStyles['wrapText']);
            }
            if (isset($pStyles['shrinkToFit'])) {
               
$this->setShrinkToFit($pStyles['shrinkToFit']);
            }
            if (isset($pStyles['indent'])) {
                $this->setIndent($pStyles['indent']);
            }
            if (isset($pStyles['readOrder'])) {
                $this->setReadOrder($pStyles['readOrder']);
            }
        }

        return $this;
    }

    /**
     * Get Horizontal.
     *
     * @return string
     */
    public function getHorizontal()
    {
        if ($this->isSupervisor) {
            return $this->getSharedComponent()->getHorizontal();
        }

        return $this->horizontal;
    }

    /**
     * Set Horizontal.
     *
     * @param string $pValue see self::HORIZONTAL_*
     *
     * @return $this
     */
    public function setHorizontal($pValue)
    {
        if ($pValue == '') {
            $pValue = self::HORIZONTAL_GENERAL;
        }

        if ($this->isSupervisor) {
            $styleArray = $this->getStyleArray(['horizontal'
=> $pValue]);
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($styleArray);
        } else {
            $this->horizontal = $pValue;
        }

        return $this;
    }

    /**
     * Get Vertical.
     *
     * @return string
     */
    public function getVertical()
    {
        if ($this->isSupervisor) {
            return $this->getSharedComponent()->getVertical();
        }

        return $this->vertical;
    }

    /**
     * Set Vertical.
     *
     * @param string $pValue see self::VERTICAL_*
     *
     * @return $this
     */
    public function setVertical($pValue)
    {
        if ($pValue == '') {
            $pValue = self::VERTICAL_BOTTOM;
        }

        if ($this->isSupervisor) {
            $styleArray = $this->getStyleArray(['vertical'
=> $pValue]);
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($styleArray);
        } else {
            $this->vertical = $pValue;
        }

        return $this;
    }

    /**
     * Get TextRotation.
     *
     * @return int
     */
    public function getTextRotation()
    {
        if ($this->isSupervisor) {
            return $this->getSharedComponent()->getTextRotation();
        }

        return $this->textRotation;
    }

    /**
     * Set TextRotation.
     *
     * @param int $pValue
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function setTextRotation($pValue)
    {
        // Excel2007 value 255 => PhpSpreadsheet value -165
        if ($pValue == 255) {
            $pValue = -165;
        }

        // Set rotation
        if (($pValue >= -90 && $pValue <= 90) || $pValue ==
-165) {
            if ($this->isSupervisor) {
                $styleArray =
$this->getStyleArray(['textRotation' => $pValue]);
               
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($styleArray);
            } else {
                $this->textRotation = $pValue;
            }
        } else {
            throw new PhpSpreadsheetException('Text rotation should be
a value between -90 and 90.');
        }

        return $this;
    }

    /**
     * Get Wrap Text.
     *
     * @return bool
     */
    public function getWrapText()
    {
        if ($this->isSupervisor) {
            return $this->getSharedComponent()->getWrapText();
        }

        return $this->wrapText;
    }

    /**
     * Set Wrap Text.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setWrapText($pValue)
    {
        if ($pValue == '') {
            $pValue = false;
        }
        if ($this->isSupervisor) {
            $styleArray = $this->getStyleArray(['wrapText'
=> $pValue]);
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($styleArray);
        } else {
            $this->wrapText = $pValue;
        }

        return $this;
    }

    /**
     * Get Shrink to fit.
     *
     * @return bool
     */
    public function getShrinkToFit()
    {
        if ($this->isSupervisor) {
            return $this->getSharedComponent()->getShrinkToFit();
        }

        return $this->shrinkToFit;
    }

    /**
     * Set Shrink to fit.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setShrinkToFit($pValue)
    {
        if ($pValue == '') {
            $pValue = false;
        }
        if ($this->isSupervisor) {
            $styleArray = $this->getStyleArray(['shrinkToFit'
=> $pValue]);
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($styleArray);
        } else {
            $this->shrinkToFit = $pValue;
        }

        return $this;
    }

    /**
     * Get indent.
     *
     * @return int
     */
    public function getIndent()
    {
        if ($this->isSupervisor) {
            return $this->getSharedComponent()->getIndent();
        }

        return $this->indent;
    }

    /**
     * Set indent.
     *
     * @param int $pValue
     *
     * @return $this
     */
    public function setIndent($pValue)
    {
        if ($pValue > 0) {
            if ($this->getHorizontal() != self::HORIZONTAL_GENERAL
&&
                $this->getHorizontal() != self::HORIZONTAL_LEFT
&&
                $this->getHorizontal() != self::HORIZONTAL_RIGHT) {
                $pValue = 0; // indent not supported
            }
        }
        if ($this->isSupervisor) {
            $styleArray = $this->getStyleArray(['indent' =>
$pValue]);
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($styleArray);
        } else {
            $this->indent = $pValue;
        }

        return $this;
    }

    /**
     * Get read order.
     *
     * @return int
     */
    public function getReadOrder()
    {
        if ($this->isSupervisor) {
            return $this->getSharedComponent()->getReadOrder();
        }

        return $this->readOrder;
    }

    /**
     * Set read order.
     *
     * @param int $pValue
     *
     * @return $this
     */
    public function setReadOrder($pValue)
    {
        if ($pValue < 0 || $pValue > 2) {
            $pValue = 0;
        }
        if ($this->isSupervisor) {
            $styleArray = $this->getStyleArray(['readOrder'
=> $pValue]);
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($styleArray);
        } else {
            $this->readOrder = $pValue;
        }

        return $this;
    }

    /**
     * Get hash code.
     *
     * @return string Hash code
     */
    public function getHashCode()
    {
        if ($this->isSupervisor) {
            return $this->getSharedComponent()->getHashCode();
        }

        return md5(
            $this->horizontal .
            $this->vertical .
            $this->textRotation .
            ($this->wrapText ? 't' : 'f') .
            ($this->shrinkToFit ? 't' : 'f') .
            $this->indent .
            $this->readOrder .
            __CLASS__
        );
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Style/Border.php000064400000014722151165414030021565
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Style;

use PhpOffice\PhpSpreadsheet\Exception as PhpSpreadsheetException;

class Border extends Supervisor
{
    // Border style
    const BORDER_NONE = 'none';
    const BORDER_DASHDOT = 'dashDot';
    const BORDER_DASHDOTDOT = 'dashDotDot';
    const BORDER_DASHED = 'dashed';
    const BORDER_DOTTED = 'dotted';
    const BORDER_DOUBLE = 'double';
    const BORDER_HAIR = 'hair';
    const BORDER_MEDIUM = 'medium';
    const BORDER_MEDIUMDASHDOT = 'mediumDashDot';
    const BORDER_MEDIUMDASHDOTDOT = 'mediumDashDotDot';
    const BORDER_MEDIUMDASHED = 'mediumDashed';
    const BORDER_SLANTDASHDOT = 'slantDashDot';
    const BORDER_THICK = 'thick';
    const BORDER_THIN = 'thin';

    /**
     * Border style.
     *
     * @var string
     */
    protected $borderStyle = self::BORDER_NONE;

    /**
     * Border color.
     *
     * @var Color
     */
    protected $color;

    /**
     * @var int
     */
    public $colorIndex;

    /**
     * Create a new Border.
     *
     * @param bool $isSupervisor Flag indicating if this is a supervisor or
not
     *                                    Leave this value at default
unless you understand exactly what
     *                                        its ramifications are
     * @param bool $isConditional Flag indicating if this is a conditional
style or not
     *                                    Leave this value at default
unless you understand exactly what
     *                                        its ramifications are
     */
    public function __construct($isSupervisor = false, $isConditional =
false)
    {
        // Supervisor?
        parent::__construct($isSupervisor);

        // Initialise values
        $this->color = new Color(Color::COLOR_BLACK, $isSupervisor);

        // bind parent if we are a supervisor
        if ($isSupervisor) {
            $this->color->bindParent($this, 'color');
        }
    }

    /**
     * Get the shared style component for the currently active cell in
currently active sheet.
     * Only used for style supervisor.
     *
     * @throws PhpSpreadsheetException
     *
     * @return Border
     */
    public function getSharedComponent()
    {
        switch ($this->parentPropertyName) {
            case 'allBorders':
            case 'horizontal':
            case 'inside':
            case 'outline':
            case 'vertical':
                throw new PhpSpreadsheetException('Cannot get shared
component for a pseudo-border.');

                break;
            case 'bottom':
                return
$this->parent->getSharedComponent()->getBottom();
            case 'diagonal':
                return
$this->parent->getSharedComponent()->getDiagonal();
            case 'left':
                return
$this->parent->getSharedComponent()->getLeft();
            case 'right':
                return
$this->parent->getSharedComponent()->getRight();
            case 'top':
                return
$this->parent->getSharedComponent()->getTop();
        }
    }

    /**
     * Build style array from subcomponents.
     *
     * @param array $array
     *
     * @return array
     */
    public function getStyleArray($array)
    {
        return
$this->parent->getStyleArray([$this->parentPropertyName =>
$array]);
    }

    /**
     * Apply styles from array.
     *
     * <code>
     *
$spreadsheet->getActiveSheet()->getStyle('B2')->getBorders()->getTop()->applyFromArray(
     *        [
     *            'borderStyle' => Border::BORDER_DASHDOT,
     *            'color' => [
     *                'rgb' => '808080'
     *            ]
     *        ]
     * );
     * </code>
     *
     * @param array $pStyles Array containing style information
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function applyFromArray(array $pStyles)
    {
        if ($this->isSupervisor) {
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($this->getStyleArray($pStyles));
        } else {
            if (isset($pStyles['borderStyle'])) {
               
$this->setBorderStyle($pStyles['borderStyle']);
            }
            if (isset($pStyles['color'])) {
               
$this->getColor()->applyFromArray($pStyles['color']);
            }
        }

        return $this;
    }

    /**
     * Get Border style.
     *
     * @return string
     */
    public function getBorderStyle()
    {
        if ($this->isSupervisor) {
            return $this->getSharedComponent()->getBorderStyle();
        }

        return $this->borderStyle;
    }

    /**
     * Set Border style.
     *
     * @param bool|string $pValue
     *                            When passing a boolean, FALSE equates
Border::BORDER_NONE
     *                                and TRUE to Border::BORDER_MEDIUM
     *
     * @return $this
     */
    public function setBorderStyle($pValue)
    {
        if (empty($pValue)) {
            $pValue = self::BORDER_NONE;
        } elseif (is_bool($pValue) && $pValue) {
            $pValue = self::BORDER_MEDIUM;
        }
        if ($this->isSupervisor) {
            $styleArray = $this->getStyleArray(['borderStyle'
=> $pValue]);
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($styleArray);
        } else {
            $this->borderStyle = $pValue;
        }

        return $this;
    }

    /**
     * Get Border Color.
     *
     * @return Color
     */
    public function getColor()
    {
        return $this->color;
    }

    /**
     * Set Border Color.
     *
     * @param Color $pValue
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function setColor(Color $pValue)
    {
        // make sure parameter is a real color and not a supervisor
        $color = $pValue->getIsSupervisor() ?
$pValue->getSharedComponent() : $pValue;

        if ($this->isSupervisor) {
            $styleArray =
$this->getColor()->getStyleArray(['argb' =>
$color->getARGB()]);
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($styleArray);
        } else {
            $this->color = $color;
        }

        return $this;
    }

    /**
     * Get hash code.
     *
     * @return string Hash code
     */
    public function getHashCode()
    {
        if ($this->isSupervisor) {
            return $this->getSharedComponent()->getHashCode();
        }

        return md5(
            $this->borderStyle .
            $this->color->getHashCode() .
            __CLASS__
        );
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Style/Borders.php000064400000024707151165414030021754
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Style;

use PhpOffice\PhpSpreadsheet\Exception as PhpSpreadsheetException;

class Borders extends Supervisor
{
    // Diagonal directions
    const DIAGONAL_NONE = 0;
    const DIAGONAL_UP = 1;
    const DIAGONAL_DOWN = 2;
    const DIAGONAL_BOTH = 3;

    /**
     * Left.
     *
     * @var Border
     */
    protected $left;

    /**
     * Right.
     *
     * @var Border
     */
    protected $right;

    /**
     * Top.
     *
     * @var Border
     */
    protected $top;

    /**
     * Bottom.
     *
     * @var Border
     */
    protected $bottom;

    /**
     * Diagonal.
     *
     * @var Border
     */
    protected $diagonal;

    /**
     * DiagonalDirection.
     *
     * @var int
     */
    protected $diagonalDirection;

    /**
     * All borders pseudo-border. Only applies to supervisor.
     *
     * @var Border
     */
    protected $allBorders;

    /**
     * Outline pseudo-border. Only applies to supervisor.
     *
     * @var Border
     */
    protected $outline;

    /**
     * Inside pseudo-border. Only applies to supervisor.
     *
     * @var Border
     */
    protected $inside;

    /**
     * Vertical pseudo-border. Only applies to supervisor.
     *
     * @var Border
     */
    protected $vertical;

    /**
     * Horizontal pseudo-border. Only applies to supervisor.
     *
     * @var Border
     */
    protected $horizontal;

    /**
     * Create a new Borders.
     *
     * @param bool $isSupervisor Flag indicating if this is a supervisor or
not
     *                                    Leave this value at default
unless you understand exactly what
     *                                        its ramifications are
     * @param bool $isConditional Flag indicating if this is a conditional
style or not
     *                                    Leave this value at default
unless you understand exactly what
     *                                        its ramifications are
     */
    public function __construct($isSupervisor = false, $isConditional =
false)
    {
        // Supervisor?
        parent::__construct($isSupervisor);

        // Initialise values
        $this->left = new Border($isSupervisor, $isConditional);
        $this->right = new Border($isSupervisor, $isConditional);
        $this->top = new Border($isSupervisor, $isConditional);
        $this->bottom = new Border($isSupervisor, $isConditional);
        $this->diagonal = new Border($isSupervisor, $isConditional);
        $this->diagonalDirection = self::DIAGONAL_NONE;

        // Specially for supervisor
        if ($isSupervisor) {
            // Initialize pseudo-borders
            $this->allBorders = new Border(true);
            $this->outline = new Border(true);
            $this->inside = new Border(true);
            $this->vertical = new Border(true);
            $this->horizontal = new Border(true);

            // bind parent if we are a supervisor
            $this->left->bindParent($this, 'left');
            $this->right->bindParent($this, 'right');
            $this->top->bindParent($this, 'top');
            $this->bottom->bindParent($this, 'bottom');
            $this->diagonal->bindParent($this, 'diagonal');
            $this->allBorders->bindParent($this,
'allBorders');
            $this->outline->bindParent($this, 'outline');
            $this->inside->bindParent($this, 'inside');
            $this->vertical->bindParent($this, 'vertical');
            $this->horizontal->bindParent($this,
'horizontal');
        }
    }

    /**
     * Get the shared style component for the currently active cell in
currently active sheet.
     * Only used for style supervisor.
     *
     * @return Borders
     */
    public function getSharedComponent()
    {
        return $this->parent->getSharedComponent()->getBorders();
    }

    /**
     * Build style array from subcomponents.
     *
     * @param array $array
     *
     * @return array
     */
    public function getStyleArray($array)
    {
        return ['borders' => $array];
    }

    /**
     * Apply styles from array.
     *
     * <code>
     *
$spreadsheet->getActiveSheet()->getStyle('B2')->getBorders()->applyFromArray(
     *         [
     *             'bottom' => [
     *                 'borderStyle' =>
Border::BORDER_DASHDOT,
     *                 'color' => [
     *                     'rgb' => '808080'
     *                 ]
     *             ],
     *             'top' => [
     *                 'borderStyle' =>
Border::BORDER_DASHDOT,
     *                 'color' => [
     *                     'rgb' => '808080'
     *                 ]
     *             ]
     *         ]
     * );
     * </code>
     *
     * <code>
     *
$spreadsheet->getActiveSheet()->getStyle('B2')->getBorders()->applyFromArray(
     *         [
     *             'allBorders' => [
     *                 'borderStyle' =>
Border::BORDER_DASHDOT,
     *                 'color' => [
     *                     'rgb' => '808080'
     *                 ]
     *             ]
     *         ]
     * );
     * </code>
     *
     * @param array $pStyles Array containing style information
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function applyFromArray(array $pStyles)
    {
        if ($this->isSupervisor) {
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($this->getStyleArray($pStyles));
        } else {
            if (isset($pStyles['left'])) {
               
$this->getLeft()->applyFromArray($pStyles['left']);
            }
            if (isset($pStyles['right'])) {
               
$this->getRight()->applyFromArray($pStyles['right']);
            }
            if (isset($pStyles['top'])) {
               
$this->getTop()->applyFromArray($pStyles['top']);
            }
            if (isset($pStyles['bottom'])) {
               
$this->getBottom()->applyFromArray($pStyles['bottom']);
            }
            if (isset($pStyles['diagonal'])) {
               
$this->getDiagonal()->applyFromArray($pStyles['diagonal']);
            }
            if (isset($pStyles['diagonalDirection'])) {
               
$this->setDiagonalDirection($pStyles['diagonalDirection']);
            }
            if (isset($pStyles['allBorders'])) {
               
$this->getLeft()->applyFromArray($pStyles['allBorders']);
               
$this->getRight()->applyFromArray($pStyles['allBorders']);
               
$this->getTop()->applyFromArray($pStyles['allBorders']);
               
$this->getBottom()->applyFromArray($pStyles['allBorders']);
            }
        }

        return $this;
    }

    /**
     * Get Left.
     *
     * @return Border
     */
    public function getLeft()
    {
        return $this->left;
    }

    /**
     * Get Right.
     *
     * @return Border
     */
    public function getRight()
    {
        return $this->right;
    }

    /**
     * Get Top.
     *
     * @return Border
     */
    public function getTop()
    {
        return $this->top;
    }

    /**
     * Get Bottom.
     *
     * @return Border
     */
    public function getBottom()
    {
        return $this->bottom;
    }

    /**
     * Get Diagonal.
     *
     * @return Border
     */
    public function getDiagonal()
    {
        return $this->diagonal;
    }

    /**
     * Get AllBorders (pseudo-border). Only applies to supervisor.
     *
     * @throws PhpSpreadsheetException
     *
     * @return Border
     */
    public function getAllBorders()
    {
        if (!$this->isSupervisor) {
            throw new PhpSpreadsheetException('Can only get
pseudo-border for supervisor.');
        }

        return $this->allBorders;
    }

    /**
     * Get Outline (pseudo-border). Only applies to supervisor.
     *
     * @throws PhpSpreadsheetException
     *
     * @return Border
     */
    public function getOutline()
    {
        if (!$this->isSupervisor) {
            throw new PhpSpreadsheetException('Can only get
pseudo-border for supervisor.');
        }

        return $this->outline;
    }

    /**
     * Get Inside (pseudo-border). Only applies to supervisor.
     *
     * @throws PhpSpreadsheetException
     *
     * @return Border
     */
    public function getInside()
    {
        if (!$this->isSupervisor) {
            throw new PhpSpreadsheetException('Can only get
pseudo-border for supervisor.');
        }

        return $this->inside;
    }

    /**
     * Get Vertical (pseudo-border). Only applies to supervisor.
     *
     * @throws PhpSpreadsheetException
     *
     * @return Border
     */
    public function getVertical()
    {
        if (!$this->isSupervisor) {
            throw new PhpSpreadsheetException('Can only get
pseudo-border for supervisor.');
        }

        return $this->vertical;
    }

    /**
     * Get Horizontal (pseudo-border). Only applies to supervisor.
     *
     * @throws PhpSpreadsheetException
     *
     * @return Border
     */
    public function getHorizontal()
    {
        if (!$this->isSupervisor) {
            throw new PhpSpreadsheetException('Can only get
pseudo-border for supervisor.');
        }

        return $this->horizontal;
    }

    /**
     * Get DiagonalDirection.
     *
     * @return int
     */
    public function getDiagonalDirection()
    {
        if ($this->isSupervisor) {
            return
$this->getSharedComponent()->getDiagonalDirection();
        }

        return $this->diagonalDirection;
    }

    /**
     * Set DiagonalDirection.
     *
     * @param int $pValue see self::DIAGONAL_*
     *
     * @return $this
     */
    public function setDiagonalDirection($pValue)
    {
        if ($pValue == '') {
            $pValue = self::DIAGONAL_NONE;
        }
        if ($this->isSupervisor) {
            $styleArray =
$this->getStyleArray(['diagonalDirection' => $pValue]);
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($styleArray);
        } else {
            $this->diagonalDirection = $pValue;
        }

        return $this;
    }

    /**
     * Get hash code.
     *
     * @return string Hash code
     */
    public function getHashCode()
    {
        if ($this->isSupervisor) {
            return $this->getSharedComponent()->getHashcode();
        }

        return md5(
            $this->getLeft()->getHashCode() .
            $this->getRight()->getHashCode() .
            $this->getTop()->getHashCode() .
            $this->getBottom()->getHashCode() .
            $this->getDiagonal()->getHashCode() .
            $this->getDiagonalDirection() .
            __CLASS__
        );
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Style/Color.php000064400000031702151165414030021423
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Style;

use PhpOffice\PhpSpreadsheet\Exception as PhpSpreadsheetException;

class Color extends Supervisor
{
    const NAMED_COLORS = [
        'Black',
        'White',
        'Red',
        'Green',
        'Blue',
        'Yellow',
        'Magenta',
        'Cyan',
    ];

    // Colors
    const COLOR_BLACK = 'FF000000';
    const COLOR_WHITE = 'FFFFFFFF';
    const COLOR_RED = 'FFFF0000';
    const COLOR_DARKRED = 'FF800000';
    const COLOR_BLUE = 'FF0000FF';
    const COLOR_DARKBLUE = 'FF000080';
    const COLOR_GREEN = 'FF00FF00';
    const COLOR_DARKGREEN = 'FF008000';
    const COLOR_YELLOW = 'FFFFFF00';
    const COLOR_DARKYELLOW = 'FF808000';

    /**
     * Indexed colors array.
     *
     * @var array
     */
    protected static $indexedColors;

    /**
     * ARGB - Alpha RGB.
     *
     * @var string
     */
    protected $argb;

    /**
     * Create a new Color.
     *
     * @param string $pARGB ARGB value for the colour
     * @param bool $isSupervisor Flag indicating if this is a supervisor or
not
     *                                    Leave this value at default
unless you understand exactly what
     *                                        its ramifications are
     * @param bool $isConditional Flag indicating if this is a conditional
style or not
     *                                    Leave this value at default
unless you understand exactly what
     *                                        its ramifications are
     */
    public function __construct($pARGB = self::COLOR_BLACK, $isSupervisor =
false, $isConditional = false)
    {
        //    Supervisor?
        parent::__construct($isSupervisor);

        //    Initialise values
        if (!$isConditional) {
            $this->argb = $pARGB;
        }
    }

    /**
     * Get the shared style component for the currently active cell in
currently active sheet.
     * Only used for style supervisor.
     *
     * @return Color
     */
    public function getSharedComponent()
    {
        switch ($this->parentPropertyName) {
            case 'endColor':
                return
$this->parent->getSharedComponent()->getEndColor();
            case 'color':
                return
$this->parent->getSharedComponent()->getColor();
            case 'startColor':
                return
$this->parent->getSharedComponent()->getStartColor();
        }
    }

    /**
     * Build style array from subcomponents.
     *
     * @param array $array
     *
     * @return array
     */
    public function getStyleArray($array)
    {
        return
$this->parent->getStyleArray([$this->parentPropertyName =>
$array]);
    }

    /**
     * Apply styles from array.
     *
     * <code>
     *
$spreadsheet->getActiveSheet()->getStyle('B2')->getFont()->getColor()->applyFromArray(['rgb'
=> '808080']);
     * </code>
     *
     * @param array $pStyles Array containing style information
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function applyFromArray(array $pStyles)
    {
        if ($this->isSupervisor) {
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($this->getStyleArray($pStyles));
        } else {
            if (isset($pStyles['rgb'])) {
                $this->setRGB($pStyles['rgb']);
            }
            if (isset($pStyles['argb'])) {
                $this->setARGB($pStyles['argb']);
            }
        }

        return $this;
    }

    /**
     * Get ARGB.
     *
     * @return string
     */
    public function getARGB()
    {
        if ($this->isSupervisor) {
            return $this->getSharedComponent()->getARGB();
        }

        return $this->argb;
    }

    /**
     * Set ARGB.
     *
     * @param string $pValue see self::COLOR_*
     *
     * @return $this
     */
    public function setARGB($pValue)
    {
        if ($pValue == '') {
            $pValue = self::COLOR_BLACK;
        }
        if ($this->isSupervisor) {
            $styleArray = $this->getStyleArray(['argb' =>
$pValue]);
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($styleArray);
        } else {
            $this->argb = $pValue;
        }

        return $this;
    }

    /**
     * Get RGB.
     *
     * @return string
     */
    public function getRGB()
    {
        if ($this->isSupervisor) {
            return $this->getSharedComponent()->getRGB();
        }

        return substr($this->argb, 2);
    }

    /**
     * Set RGB.
     *
     * @param string $pValue RGB value
     *
     * @return $this
     */
    public function setRGB($pValue)
    {
        if ($pValue == '') {
            $pValue = '000000';
        }
        if ($this->isSupervisor) {
            $styleArray = $this->getStyleArray(['argb' =>
'FF' . $pValue]);
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($styleArray);
        } else {
            $this->argb = 'FF' . $pValue;
        }

        return $this;
    }

    /**
     * Get a specified colour component of an RGB value.
     *
     * @param string $RGB The colour as an RGB value (e.g. FF00CCCC or
CCDDEE
     * @param int $offset Position within the RGB value to extract
     * @param bool $hex Flag indicating whether the component should be
returned as a hex or a
     *                                    decimal value
     *
     * @return string The extracted colour component
     */
    private static function getColourComponent($RGB, $offset, $hex = true)
    {
        $colour = substr($RGB, $offset, 2);

        return ($hex) ? $colour : hexdec($colour);
    }

    /**
     * Get the red colour component of an RGB value.
     *
     * @param string $RGB The colour as an RGB value (e.g. FF00CCCC or
CCDDEE
     * @param bool $hex Flag indicating whether the component should be
returned as a hex or a
     *                                    decimal value
     *
     * @return string The red colour component
     */
    public static function getRed($RGB, $hex = true)
    {
        return self::getColourComponent($RGB, strlen($RGB) - 6, $hex);
    }

    /**
     * Get the green colour component of an RGB value.
     *
     * @param string $RGB The colour as an RGB value (e.g. FF00CCCC or
CCDDEE
     * @param bool $hex Flag indicating whether the component should be
returned as a hex or a
     *                                    decimal value
     *
     * @return string The green colour component
     */
    public static function getGreen($RGB, $hex = true)
    {
        return self::getColourComponent($RGB, strlen($RGB) - 4, $hex);
    }

    /**
     * Get the blue colour component of an RGB value.
     *
     * @param string $RGB The colour as an RGB value (e.g. FF00CCCC or
CCDDEE
     * @param bool $hex Flag indicating whether the component should be
returned as a hex or a
     *                                    decimal value
     *
     * @return string The blue colour component
     */
    public static function getBlue($RGB, $hex = true)
    {
        return self::getColourComponent($RGB, strlen($RGB) - 2, $hex);
    }

    /**
     * Adjust the brightness of a color.
     *
     * @param string $hex The colour as an RGBA or RGB value (e.g. FF00CCCC
or CCDDEE)
     * @param float $adjustPercentage The percentage by which to adjust the
colour as a float from -1 to 1
     *
     * @return string The adjusted colour as an RGBA or RGB value (e.g.
FF00CCCC or CCDDEE)
     */
    public static function changeBrightness($hex, $adjustPercentage)
    {
        $rgba = (strlen($hex) === 8);

        $red = self::getRed($hex, false);
        $green = self::getGreen($hex, false);
        $blue = self::getBlue($hex, false);
        if ($adjustPercentage > 0) {
            $red += (255 - $red) * $adjustPercentage;
            $green += (255 - $green) * $adjustPercentage;
            $blue += (255 - $blue) * $adjustPercentage;
        } else {
            $red += $red * $adjustPercentage;
            $green += $green * $adjustPercentage;
            $blue += $blue * $adjustPercentage;
        }

        if ($red < 0) {
            $red = 0;
        } elseif ($red > 255) {
            $red = 255;
        }
        if ($green < 0) {
            $green = 0;
        } elseif ($green > 255) {
            $green = 255;
        }
        if ($blue < 0) {
            $blue = 0;
        } elseif ($blue > 255) {
            $blue = 255;
        }

        $rgb = strtoupper(
            str_pad(dechex((int) $red), 2, '0', 0) .
            str_pad(dechex((int) $green), 2, '0', 0) .
            str_pad(dechex((int) $blue), 2, '0', 0)
        );

        return (($rgba) ? 'FF' : '') . $rgb;
    }

    /**
     * Get indexed color.
     *
     * @param int $pIndex Index entry point into the colour array
     * @param bool $background Flag to indicate whether default background
or foreground colour
     *                                            should be returned if the
indexed colour doesn't exist
     *
     * @return self
     */
    public static function indexedColor($pIndex, $background = false)
    {
        // Clean parameter
        $pIndex = (int) $pIndex;

        // Indexed colors
        if (self::$indexedColors === null) {
            self::$indexedColors = [
                1 => 'FF000000', //  System Colour #1 - Black
                2 => 'FFFFFFFF', //  System Colour #2 - White
                3 => 'FFFF0000', //  System Colour #3 - Red
                4 => 'FF00FF00', //  System Colour #4 - Green
                5 => 'FF0000FF', //  System Colour #5 - Blue
                6 => 'FFFFFF00', //  System Colour #6 - Yellow
                7 => 'FFFF00FF', //  System Colour #7- Magenta
                8 => 'FF00FFFF', //  System Colour #8- Cyan
                9 => 'FF800000', //  Standard Colour #9
                10 => 'FF008000', //  Standard Colour #10
                11 => 'FF000080', //  Standard Colour #11
                12 => 'FF808000', //  Standard Colour #12
                13 => 'FF800080', //  Standard Colour #13
                14 => 'FF008080', //  Standard Colour #14
                15 => 'FFC0C0C0', //  Standard Colour #15
                16 => 'FF808080', //  Standard Colour #16
                17 => 'FF9999FF', //  Chart Fill Colour #17
                18 => 'FF993366', //  Chart Fill Colour #18
                19 => 'FFFFFFCC', //  Chart Fill Colour #19
                20 => 'FFCCFFFF', //  Chart Fill Colour #20
                21 => 'FF660066', //  Chart Fill Colour #21
                22 => 'FFFF8080', //  Chart Fill Colour #22
                23 => 'FF0066CC', //  Chart Fill Colour #23
                24 => 'FFCCCCFF', //  Chart Fill Colour #24
                25 => 'FF000080', //  Chart Line Colour #25
                26 => 'FFFF00FF', //  Chart Line Colour #26
                27 => 'FFFFFF00', //  Chart Line Colour #27
                28 => 'FF00FFFF', //  Chart Line Colour #28
                29 => 'FF800080', //  Chart Line Colour #29
                30 => 'FF800000', //  Chart Line Colour #30
                31 => 'FF008080', //  Chart Line Colour #31
                32 => 'FF0000FF', //  Chart Line Colour #32
                33 => 'FF00CCFF', //  Standard Colour #33
                34 => 'FFCCFFFF', //  Standard Colour #34
                35 => 'FFCCFFCC', //  Standard Colour #35
                36 => 'FFFFFF99', //  Standard Colour #36
                37 => 'FF99CCFF', //  Standard Colour #37
                38 => 'FFFF99CC', //  Standard Colour #38
                39 => 'FFCC99FF', //  Standard Colour #39
                40 => 'FFFFCC99', //  Standard Colour #40
                41 => 'FF3366FF', //  Standard Colour #41
                42 => 'FF33CCCC', //  Standard Colour #42
                43 => 'FF99CC00', //  Standard Colour #43
                44 => 'FFFFCC00', //  Standard Colour #44
                45 => 'FFFF9900', //  Standard Colour #45
                46 => 'FFFF6600', //  Standard Colour #46
                47 => 'FF666699', //  Standard Colour #47
                48 => 'FF969696', //  Standard Colour #48
                49 => 'FF003366', //  Standard Colour #49
                50 => 'FF339966', //  Standard Colour #50
                51 => 'FF003300', //  Standard Colour #51
                52 => 'FF333300', //  Standard Colour #52
                53 => 'FF993300', //  Standard Colour #53
                54 => 'FF993366', //  Standard Colour #54
                55 => 'FF333399', //  Standard Colour #55
                56 => 'FF333333', //  Standard Colour #56
            ];
        }

        if (isset(self::$indexedColors[$pIndex])) {
            return new self(self::$indexedColors[$pIndex]);
        }

        if ($background) {
            return new self(self::COLOR_WHITE);
        }

        return new self(self::COLOR_BLACK);
    }

    /**
     * Get hash code.
     *
     * @return string Hash code
     */
    public function getHashCode()
    {
        if ($this->isSupervisor) {
            return $this->getSharedComponent()->getHashCode();
        }

        return md5(
            $this->argb .
            __CLASS__
        );
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Style/Conditional.php000064400000011742151165414030022612
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Style;

use PhpOffice\PhpSpreadsheet\IComparable;

class Conditional implements IComparable
{
    // Condition types
    const CONDITION_NONE = 'none';
    const CONDITION_CELLIS = 'cellIs';
    const CONDITION_CONTAINSTEXT = 'containsText';
    const CONDITION_EXPRESSION = 'expression';
    const CONDITION_CONTAINSBLANKS = 'containsBlanks';
    const CONDITION_NOTCONTAINSBLANKS = 'notContainsBlanks';

    // Operator types
    const OPERATOR_NONE = '';
    const OPERATOR_BEGINSWITH = 'beginsWith';
    const OPERATOR_ENDSWITH = 'endsWith';
    const OPERATOR_EQUAL = 'equal';
    const OPERATOR_GREATERTHAN = 'greaterThan';
    const OPERATOR_GREATERTHANOREQUAL = 'greaterThanOrEqual';
    const OPERATOR_LESSTHAN = 'lessThan';
    const OPERATOR_LESSTHANOREQUAL = 'lessThanOrEqual';
    const OPERATOR_NOTEQUAL = 'notEqual';
    const OPERATOR_CONTAINSTEXT = 'containsText';
    const OPERATOR_NOTCONTAINS = 'notContains';
    const OPERATOR_BETWEEN = 'between';

    /**
     * Condition type.
     *
     * @var string
     */
    private $conditionType = self::CONDITION_NONE;

    /**
     * Operator type.
     *
     * @var string
     */
    private $operatorType = self::OPERATOR_NONE;

    /**
     * Text.
     *
     * @var string
     */
    private $text;

    /**
     * Stop on this condition, if it matches.
     *
     * @var bool
     */
    private $stopIfTrue = false;

    /**
     * Condition.
     *
     * @var string[]
     */
    private $condition = [];

    /**
     * Style.
     *
     * @var Style
     */
    private $style;

    /**
     * Create a new Conditional.
     */
    public function __construct()
    {
        // Initialise values
        $this->style = new Style(false, true);
    }

    /**
     * Get Condition type.
     *
     * @return string
     */
    public function getConditionType()
    {
        return $this->conditionType;
    }

    /**
     * Set Condition type.
     *
     * @param string $pValue Condition type, see self::CONDITION_*
     *
     * @return $this
     */
    public function setConditionType($pValue)
    {
        $this->conditionType = $pValue;

        return $this;
    }

    /**
     * Get Operator type.
     *
     * @return string
     */
    public function getOperatorType()
    {
        return $this->operatorType;
    }

    /**
     * Set Operator type.
     *
     * @param string $pValue Conditional operator type, see
self::OPERATOR_*
     *
     * @return $this
     */
    public function setOperatorType($pValue)
    {
        $this->operatorType = $pValue;

        return $this;
    }

    /**
     * Get text.
     *
     * @return string
     */
    public function getText()
    {
        return $this->text;
    }

    /**
     * Set text.
     *
     * @param string $value
     *
     * @return $this
     */
    public function setText($value)
    {
        $this->text = $value;

        return $this;
    }

    /**
     * Get StopIfTrue.
     *
     * @return bool
     */
    public function getStopIfTrue()
    {
        return $this->stopIfTrue;
    }

    /**
     * Set StopIfTrue.
     *
     * @param bool $value
     *
     * @return $this
     */
    public function setStopIfTrue($value)
    {
        $this->stopIfTrue = $value;

        return $this;
    }

    /**
     * Get Conditions.
     *
     * @return string[]
     */
    public function getConditions()
    {
        return $this->condition;
    }

    /**
     * Set Conditions.
     *
     * @param string[] $pValue Condition
     *
     * @return $this
     */
    public function setConditions($pValue)
    {
        if (!is_array($pValue)) {
            $pValue = [$pValue];
        }
        $this->condition = $pValue;

        return $this;
    }

    /**
     * Add Condition.
     *
     * @param string $pValue Condition
     *
     * @return $this
     */
    public function addCondition($pValue)
    {
        $this->condition[] = $pValue;

        return $this;
    }

    /**
     * Get Style.
     *
     * @return Style
     */
    public function getStyle()
    {
        return $this->style;
    }

    /**
     * Set Style.
     *
     * @param Style $pValue
     *
     * @return $this
     */
    public function setStyle(Style $pValue = null)
    {
        $this->style = $pValue;

        return $this;
    }

    /**
     * Get hash code.
     *
     * @return string Hash code
     */
    public function getHashCode()
    {
        return md5(
            $this->conditionType .
            $this->operatorType .
            implode(';', $this->condition) .
            $this->style->getHashCode() .
            __CLASS__
        );
    }

    /**
     * Implement PHP __clone to create a deep clone, not just a shallow
copy.
     */
    public function __clone()
    {
        $vars = get_object_vars($this);
        foreach ($vars as $key => $value) {
            if (is_object($value)) {
                $this->$key = clone $value;
            } else {
                $this->$key = $value;
            }
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Style/Fill.php000064400000021161151165414030021231
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Style;

use PhpOffice\PhpSpreadsheet\Exception as PhpSpreadsheetException;

class Fill extends Supervisor
{
    // Fill types
    const FILL_NONE = 'none';
    const FILL_SOLID = 'solid';
    const FILL_GRADIENT_LINEAR = 'linear';
    const FILL_GRADIENT_PATH = 'path';
    const FILL_PATTERN_DARKDOWN = 'darkDown';
    const FILL_PATTERN_DARKGRAY = 'darkGray';
    const FILL_PATTERN_DARKGRID = 'darkGrid';
    const FILL_PATTERN_DARKHORIZONTAL = 'darkHorizontal';
    const FILL_PATTERN_DARKTRELLIS = 'darkTrellis';
    const FILL_PATTERN_DARKUP = 'darkUp';
    const FILL_PATTERN_DARKVERTICAL = 'darkVertical';
    const FILL_PATTERN_GRAY0625 = 'gray0625';
    const FILL_PATTERN_GRAY125 = 'gray125';
    const FILL_PATTERN_LIGHTDOWN = 'lightDown';
    const FILL_PATTERN_LIGHTGRAY = 'lightGray';
    const FILL_PATTERN_LIGHTGRID = 'lightGrid';
    const FILL_PATTERN_LIGHTHORIZONTAL = 'lightHorizontal';
    const FILL_PATTERN_LIGHTTRELLIS = 'lightTrellis';
    const FILL_PATTERN_LIGHTUP = 'lightUp';
    const FILL_PATTERN_LIGHTVERTICAL = 'lightVertical';
    const FILL_PATTERN_MEDIUMGRAY = 'mediumGray';

    /**
     * @var int
     */
    public $startcolorIndex;

    /**
     * @var int
     */
    public $endcolorIndex;

    /**
     * Fill type.
     *
     * @var string
     */
    protected $fillType = self::FILL_NONE;

    /**
     * Rotation.
     *
     * @var float
     */
    protected $rotation = 0;

    /**
     * Start color.
     *
     * @var Color
     */
    protected $startColor;

    /**
     * End color.
     *
     * @var Color
     */
    protected $endColor;

    /**
     * Create a new Fill.
     *
     * @param bool $isSupervisor Flag indicating if this is a supervisor or
not
     *                                    Leave this value at default
unless you understand exactly what
     *                                        its ramifications are
     * @param bool $isConditional Flag indicating if this is a conditional
style or not
     *                                    Leave this value at default
unless you understand exactly what
     *                                        its ramifications are
     */
    public function __construct($isSupervisor = false, $isConditional =
false)
    {
        // Supervisor?
        parent::__construct($isSupervisor);

        // Initialise values
        if ($isConditional) {
            $this->fillType = null;
        }
        $this->startColor = new Color(Color::COLOR_WHITE, $isSupervisor,
$isConditional);
        $this->endColor = new Color(Color::COLOR_BLACK, $isSupervisor,
$isConditional);

        // bind parent if we are a supervisor
        if ($isSupervisor) {
            $this->startColor->bindParent($this,
'startColor');
            $this->endColor->bindParent($this, 'endColor');
        }
    }

    /**
     * Get the shared style component for the currently active cell in
currently active sheet.
     * Only used for style supervisor.
     *
     * @return Fill
     */
    public function getSharedComponent()
    {
        return $this->parent->getSharedComponent()->getFill();
    }

    /**
     * Build style array from subcomponents.
     *
     * @param array $array
     *
     * @return array
     */
    public function getStyleArray($array)
    {
        return ['fill' => $array];
    }

    /**
     * Apply styles from array.
     *
     * <code>
     *
$spreadsheet->getActiveSheet()->getStyle('B2')->getFill()->applyFromArray(
     *     [
     *         'fillType' => Fill::FILL_GRADIENT_LINEAR,
     *         'rotation' => 0,
     *         'startColor' => [
     *             'rgb' => '000000'
     *         ],
     *         'endColor' => [
     *             'argb' => 'FFFFFFFF'
     *         ]
     *     ]
     * );
     * </code>
     *
     * @param array $pStyles Array containing style information
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function applyFromArray(array $pStyles)
    {
        if ($this->isSupervisor) {
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($this->getStyleArray($pStyles));
        } else {
            if (isset($pStyles['fillType'])) {
                $this->setFillType($pStyles['fillType']);
            }
            if (isset($pStyles['rotation'])) {
                $this->setRotation($pStyles['rotation']);
            }
            if (isset($pStyles['startColor'])) {
               
$this->getStartColor()->applyFromArray($pStyles['startColor']);
            }
            if (isset($pStyles['endColor'])) {
               
$this->getEndColor()->applyFromArray($pStyles['endColor']);
            }
            if (isset($pStyles['color'])) {
               
$this->getStartColor()->applyFromArray($pStyles['color']);
               
$this->getEndColor()->applyFromArray($pStyles['color']);
            }
        }

        return $this;
    }

    /**
     * Get Fill Type.
     *
     * @return string
     */
    public function getFillType()
    {
        if ($this->isSupervisor) {
            return $this->getSharedComponent()->getFillType();
        }

        return $this->fillType;
    }

    /**
     * Set Fill Type.
     *
     * @param string $pValue Fill type, see self::FILL_*
     *
     * @return $this
     */
    public function setFillType($pValue)
    {
        if ($this->isSupervisor) {
            $styleArray = $this->getStyleArray(['fillType'
=> $pValue]);
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($styleArray);
        } else {
            $this->fillType = $pValue;
        }

        return $this;
    }

    /**
     * Get Rotation.
     *
     * @return float
     */
    public function getRotation()
    {
        if ($this->isSupervisor) {
            return $this->getSharedComponent()->getRotation();
        }

        return $this->rotation;
    }

    /**
     * Set Rotation.
     *
     * @param float $pValue
     *
     * @return $this
     */
    public function setRotation($pValue)
    {
        if ($this->isSupervisor) {
            $styleArray = $this->getStyleArray(['rotation'
=> $pValue]);
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($styleArray);
        } else {
            $this->rotation = $pValue;
        }

        return $this;
    }

    /**
     * Get Start Color.
     *
     * @return Color
     */
    public function getStartColor()
    {
        return $this->startColor;
    }

    /**
     * Set Start Color.
     *
     * @param Color $pValue
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function setStartColor(Color $pValue)
    {
        // make sure parameter is a real color and not a supervisor
        $color = $pValue->getIsSupervisor() ?
$pValue->getSharedComponent() : $pValue;

        if ($this->isSupervisor) {
            $styleArray =
$this->getStartColor()->getStyleArray(['argb' =>
$color->getARGB()]);
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($styleArray);
        } else {
            $this->startColor = $color;
        }

        return $this;
    }

    /**
     * Get End Color.
     *
     * @return Color
     */
    public function getEndColor()
    {
        return $this->endColor;
    }

    /**
     * Set End Color.
     *
     * @param Color $pValue
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function setEndColor(Color $pValue)
    {
        // make sure parameter is a real color and not a supervisor
        $color = $pValue->getIsSupervisor() ?
$pValue->getSharedComponent() : $pValue;

        if ($this->isSupervisor) {
            $styleArray =
$this->getEndColor()->getStyleArray(['argb' =>
$color->getARGB()]);
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($styleArray);
        } else {
            $this->endColor = $color;
        }

        return $this;
    }

    /**
     * Get hash code.
     *
     * @return string Hash code
     */
    public function getHashCode()
    {
        if ($this->isSupervisor) {
            return $this->getSharedComponent()->getHashCode();
        }
        // Note that we don't care about colours for fill type NONE,
but could have duplicate NONEs with
        //  different hashes if we don't explicitly prevent this
        return md5(
            $this->getFillType() .
            $this->getRotation() .
            ($this->getFillType() !== self::FILL_NONE ?
$this->getStartColor()->getHashCode() : '') .
            ($this->getFillType() !== self::FILL_NONE ?
$this->getEndColor()->getHashCode() : '') .
            __CLASS__
        );
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Style/Font.php000064400000031713151165414050021257
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Style;

use PhpOffice\PhpSpreadsheet\Exception as PhpSpreadsheetException;

class Font extends Supervisor
{
    // Underline types
    const UNDERLINE_NONE = 'none';
    const UNDERLINE_DOUBLE = 'double';
    const UNDERLINE_DOUBLEACCOUNTING = 'doubleAccounting';
    const UNDERLINE_SINGLE = 'single';
    const UNDERLINE_SINGLEACCOUNTING = 'singleAccounting';

    /**
     * Font Name.
     *
     * @var string
     */
    protected $name = 'Calibri';

    /**
     * Font Size.
     *
     * @var float
     */
    protected $size = 11;

    /**
     * Bold.
     *
     * @var bool
     */
    protected $bold = false;

    /**
     * Italic.
     *
     * @var bool
     */
    protected $italic = false;

    /**
     * Superscript.
     *
     * @var bool
     */
    protected $superscript = false;

    /**
     * Subscript.
     *
     * @var bool
     */
    protected $subscript = false;

    /**
     * Underline.
     *
     * @var string
     */
    protected $underline = self::UNDERLINE_NONE;

    /**
     * Strikethrough.
     *
     * @var bool
     */
    protected $strikethrough = false;

    /**
     * Foreground color.
     *
     * @var Color
     */
    protected $color;

    /**
     * @var int
     */
    public $colorIndex;

    /**
     * Create a new Font.
     *
     * @param bool $isSupervisor Flag indicating if this is a supervisor or
not
     *                                    Leave this value at default
unless you understand exactly what
     *                                        its ramifications are
     * @param bool $isConditional Flag indicating if this is a conditional
style or not
     *                                    Leave this value at default
unless you understand exactly what
     *                                        its ramifications are
     */
    public function __construct($isSupervisor = false, $isConditional =
false)
    {
        // Supervisor?
        parent::__construct($isSupervisor);

        // Initialise values
        if ($isConditional) {
            $this->name = null;
            $this->size = null;
            $this->bold = null;
            $this->italic = null;
            $this->superscript = null;
            $this->subscript = null;
            $this->underline = null;
            $this->strikethrough = null;
            $this->color = new Color(Color::COLOR_BLACK, $isSupervisor,
$isConditional);
        } else {
            $this->color = new Color(Color::COLOR_BLACK, $isSupervisor);
        }
        // bind parent if we are a supervisor
        if ($isSupervisor) {
            $this->color->bindParent($this, 'color');
        }
    }

    /**
     * Get the shared style component for the currently active cell in
currently active sheet.
     * Only used for style supervisor.
     *
     * @return Font
     */
    public function getSharedComponent()
    {
        return $this->parent->getSharedComponent()->getFont();
    }

    /**
     * Build style array from subcomponents.
     *
     * @param array $array
     *
     * @return array
     */
    public function getStyleArray($array)
    {
        return ['font' => $array];
    }

    /**
     * Apply styles from array.
     *
     * <code>
     *
$spreadsheet->getActiveSheet()->getStyle('B2')->getFont()->applyFromArray(
     *     [
     *         'name' => 'Arial',
     *         'bold' => TRUE,
     *         'italic' => FALSE,
     *         'underline' =>
\PhpOffice\PhpSpreadsheet\Style\Font::UNDERLINE_DOUBLE,
     *         'strikethrough' => FALSE,
     *         'color' => [
     *             'rgb' => '808080'
     *         ]
     *     ]
     * );
     * </code>
     *
     * @param array $pStyles Array containing style information
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function applyFromArray(array $pStyles)
    {
        if ($this->isSupervisor) {
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($this->getStyleArray($pStyles));
        } else {
            if (isset($pStyles['name'])) {
                $this->setName($pStyles['name']);
            }
            if (isset($pStyles['bold'])) {
                $this->setBold($pStyles['bold']);
            }
            if (isset($pStyles['italic'])) {
                $this->setItalic($pStyles['italic']);
            }
            if (isset($pStyles['superscript'])) {
               
$this->setSuperscript($pStyles['superscript']);
            }
            if (isset($pStyles['subscript'])) {
                $this->setSubscript($pStyles['subscript']);
            }
            if (isset($pStyles['underline'])) {
                $this->setUnderline($pStyles['underline']);
            }
            if (isset($pStyles['strikethrough'])) {
               
$this->setStrikethrough($pStyles['strikethrough']);
            }
            if (isset($pStyles['color'])) {
               
$this->getColor()->applyFromArray($pStyles['color']);
            }
            if (isset($pStyles['size'])) {
                $this->setSize($pStyles['size']);
            }
        }

        return $this;
    }

    /**
     * Get Name.
     *
     * @return string
     */
    public function getName()
    {
        if ($this->isSupervisor) {
            return $this->getSharedComponent()->getName();
        }

        return $this->name;
    }

    /**
     * Set Name.
     *
     * @param string $pValue
     *
     * @return $this
     */
    public function setName($pValue)
    {
        if ($pValue == '') {
            $pValue = 'Calibri';
        }
        if ($this->isSupervisor) {
            $styleArray = $this->getStyleArray(['name' =>
$pValue]);
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($styleArray);
        } else {
            $this->name = $pValue;
        }

        return $this;
    }

    /**
     * Get Size.
     *
     * @return float
     */
    public function getSize()
    {
        if ($this->isSupervisor) {
            return $this->getSharedComponent()->getSize();
        }

        return $this->size;
    }

    /**
     * Set Size.
     *
     * @param float $pValue
     *
     * @return $this
     */
    public function setSize($pValue)
    {
        if ($pValue == '') {
            $pValue = 10;
        }
        if ($this->isSupervisor) {
            $styleArray = $this->getStyleArray(['size' =>
$pValue]);
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($styleArray);
        } else {
            $this->size = $pValue;
        }

        return $this;
    }

    /**
     * Get Bold.
     *
     * @return bool
     */
    public function getBold()
    {
        if ($this->isSupervisor) {
            return $this->getSharedComponent()->getBold();
        }

        return $this->bold;
    }

    /**
     * Set Bold.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setBold($pValue)
    {
        if ($pValue == '') {
            $pValue = false;
        }
        if ($this->isSupervisor) {
            $styleArray = $this->getStyleArray(['bold' =>
$pValue]);
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($styleArray);
        } else {
            $this->bold = $pValue;
        }

        return $this;
    }

    /**
     * Get Italic.
     *
     * @return bool
     */
    public function getItalic()
    {
        if ($this->isSupervisor) {
            return $this->getSharedComponent()->getItalic();
        }

        return $this->italic;
    }

    /**
     * Set Italic.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setItalic($pValue)
    {
        if ($pValue == '') {
            $pValue = false;
        }
        if ($this->isSupervisor) {
            $styleArray = $this->getStyleArray(['italic' =>
$pValue]);
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($styleArray);
        } else {
            $this->italic = $pValue;
        }

        return $this;
    }

    /**
     * Get Superscript.
     *
     * @return bool
     */
    public function getSuperscript()
    {
        if ($this->isSupervisor) {
            return $this->getSharedComponent()->getSuperscript();
        }

        return $this->superscript;
    }

    /**
     * Set Superscript.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setSuperscript($pValue)
    {
        if ($pValue == '') {
            $pValue = false;
        }
        if ($this->isSupervisor) {
            $styleArray = $this->getStyleArray(['superscript'
=> $pValue]);
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($styleArray);
        } else {
            $this->superscript = $pValue;
            $this->subscript = !$pValue;
        }

        return $this;
    }

    /**
     * Get Subscript.
     *
     * @return bool
     */
    public function getSubscript()
    {
        if ($this->isSupervisor) {
            return $this->getSharedComponent()->getSubscript();
        }

        return $this->subscript;
    }

    /**
     * Set Subscript.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setSubscript($pValue)
    {
        if ($pValue == '') {
            $pValue = false;
        }
        if ($this->isSupervisor) {
            $styleArray = $this->getStyleArray(['subscript'
=> $pValue]);
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($styleArray);
        } else {
            $this->subscript = $pValue;
            $this->superscript = !$pValue;
        }

        return $this;
    }

    /**
     * Get Underline.
     *
     * @return string
     */
    public function getUnderline()
    {
        if ($this->isSupervisor) {
            return $this->getSharedComponent()->getUnderline();
        }

        return $this->underline;
    }

    /**
     * Set Underline.
     *
     * @param bool|string $pValue \PhpOffice\PhpSpreadsheet\Style\Font
underline type
     *                                    If a boolean is passed, then TRUE
equates to UNDERLINE_SINGLE,
     *                                        false equates to
UNDERLINE_NONE
     *
     * @return $this
     */
    public function setUnderline($pValue)
    {
        if (is_bool($pValue)) {
            $pValue = ($pValue) ? self::UNDERLINE_SINGLE :
self::UNDERLINE_NONE;
        } elseif ($pValue == '') {
            $pValue = self::UNDERLINE_NONE;
        }
        if ($this->isSupervisor) {
            $styleArray = $this->getStyleArray(['underline'
=> $pValue]);
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($styleArray);
        } else {
            $this->underline = $pValue;
        }

        return $this;
    }

    /**
     * Get Strikethrough.
     *
     * @return bool
     */
    public function getStrikethrough()
    {
        if ($this->isSupervisor) {
            return $this->getSharedComponent()->getStrikethrough();
        }

        return $this->strikethrough;
    }

    /**
     * Set Strikethrough.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setStrikethrough($pValue)
    {
        if ($pValue == '') {
            $pValue = false;
        }

        if ($this->isSupervisor) {
            $styleArray =
$this->getStyleArray(['strikethrough' => $pValue]);
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($styleArray);
        } else {
            $this->strikethrough = $pValue;
        }

        return $this;
    }

    /**
     * Get Color.
     *
     * @return Color
     */
    public function getColor()
    {
        return $this->color;
    }

    /**
     * Set Color.
     *
     * @param Color $pValue
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function setColor(Color $pValue)
    {
        // make sure parameter is a real color and not a supervisor
        $color = $pValue->getIsSupervisor() ?
$pValue->getSharedComponent() : $pValue;

        if ($this->isSupervisor) {
            $styleArray =
$this->getColor()->getStyleArray(['argb' =>
$color->getARGB()]);
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($styleArray);
        } else {
            $this->color = $color;
        }

        return $this;
    }

    /**
     * Get hash code.
     *
     * @return string Hash code
     */
    public function getHashCode()
    {
        if ($this->isSupervisor) {
            return $this->getSharedComponent()->getHashCode();
        }

        return md5(
            $this->name .
            $this->size .
            ($this->bold ? 't' : 'f') .
            ($this->italic ? 't' : 'f') .
            ($this->superscript ? 't' : 'f') .
            ($this->subscript ? 't' : 'f') .
            $this->underline .
            ($this->strikethrough ? 't' : 'f') .
            $this->color->getHashCode() .
            __CLASS__
        );
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Style/NumberFormat.php000064400000070413151165414050022752
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Style;

use PhpOffice\PhpSpreadsheet\Calculation\MathTrig;
use PhpOffice\PhpSpreadsheet\Exception as PhpSpreadsheetException;
use PhpOffice\PhpSpreadsheet\Shared\Date;
use PhpOffice\PhpSpreadsheet\Shared\StringHelper;

class NumberFormat extends Supervisor
{
    // Pre-defined formats
    const FORMAT_GENERAL = 'General';

    const FORMAT_TEXT = '@';

    const FORMAT_NUMBER = '0';
    const FORMAT_NUMBER_00 = '0.00';
    const FORMAT_NUMBER_COMMA_SEPARATED1 = '#,##0.00';
    const FORMAT_NUMBER_COMMA_SEPARATED2 = '#,##0.00_-';

    const FORMAT_PERCENTAGE = '0%';
    const FORMAT_PERCENTAGE_00 = '0.00%';

    const FORMAT_DATE_YYYYMMDD2 = 'yyyy-mm-dd';
    const FORMAT_DATE_YYYYMMDD = 'yyyy-mm-dd';
    const FORMAT_DATE_DDMMYYYY = 'dd/mm/yyyy';
    const FORMAT_DATE_DMYSLASH = 'd/m/yy';
    const FORMAT_DATE_DMYMINUS = 'd-m-yy';
    const FORMAT_DATE_DMMINUS = 'd-m';
    const FORMAT_DATE_MYMINUS = 'm-yy';
    const FORMAT_DATE_XLSX14 = 'mm-dd-yy';
    const FORMAT_DATE_XLSX15 = 'd-mmm-yy';
    const FORMAT_DATE_XLSX16 = 'd-mmm';
    const FORMAT_DATE_XLSX17 = 'mmm-yy';
    const FORMAT_DATE_XLSX22 = 'm/d/yy h:mm';
    const FORMAT_DATE_DATETIME = 'd/m/yy h:mm';
    const FORMAT_DATE_TIME1 = 'h:mm AM/PM';
    const FORMAT_DATE_TIME2 = 'h:mm:ss AM/PM';
    const FORMAT_DATE_TIME3 = 'h:mm';
    const FORMAT_DATE_TIME4 = 'h:mm:ss';
    const FORMAT_DATE_TIME5 = 'mm:ss';
    const FORMAT_DATE_TIME6 = 'h:mm:ss';
    const FORMAT_DATE_TIME7 = 'i:s.S';
    const FORMAT_DATE_TIME8 = 'h:mm:ss;@';
    const FORMAT_DATE_YYYYMMDDSLASH = 'yyyy/mm/dd;@';

    const FORMAT_CURRENCY_USD_SIMPLE = '"$"#,##0.00_-';
    const FORMAT_CURRENCY_USD = '$#,##0_-';
    const FORMAT_CURRENCY_EUR_SIMPLE =
'#,##0.00_-"€"';
    const FORMAT_CURRENCY_EUR = '#,##0_-"€"';
    const FORMAT_ACCOUNTING_USD = '_("$"*
#,##0.00_);_("$"* \(#,##0.00\);_("$"*
"-"??_);_(@_)';
    const FORMAT_ACCOUNTING_EUR = '_("€"*
#,##0.00_);_("€"* \(#,##0.00\);_("€"*
"-"??_);_(@_)';

    /**
     * Excel built-in number formats.
     *
     * @var array
     */
    protected static $builtInFormats;

    /**
     * Excel built-in number formats (flipped, for faster lookups).
     *
     * @var array
     */
    protected static $flippedBuiltInFormats;

    /**
     * Format Code.
     *
     * @var string
     */
    protected $formatCode = self::FORMAT_GENERAL;

    /**
     * Built-in format Code.
     *
     * @var string
     */
    protected $builtInFormatCode = 0;

    /**
     * Create a new NumberFormat.
     *
     * @param bool $isSupervisor Flag indicating if this is a supervisor or
not
     *                                    Leave this value at default
unless you understand exactly what
     *                                        its ramifications are
     * @param bool $isConditional Flag indicating if this is a conditional
style or not
     *                                    Leave this value at default
unless you understand exactly what
     *                                        its ramifications are
     */
    public function __construct($isSupervisor = false, $isConditional =
false)
    {
        // Supervisor?
        parent::__construct($isSupervisor);

        if ($isConditional) {
            $this->formatCode = null;
            $this->builtInFormatCode = false;
        }
    }

    /**
     * Get the shared style component for the currently active cell in
currently active sheet.
     * Only used for style supervisor.
     *
     * @return NumberFormat
     */
    public function getSharedComponent()
    {
        return
$this->parent->getSharedComponent()->getNumberFormat();
    }

    /**
     * Build style array from subcomponents.
     *
     * @param array $array
     *
     * @return array
     */
    public function getStyleArray($array)
    {
        return ['numberFormat' => $array];
    }

    /**
     * Apply styles from array.
     *
     * <code>
     *
$spreadsheet->getActiveSheet()->getStyle('B2')->getNumberFormat()->applyFromArray(
     *     [
     *         'formatCode' =>
NumberFormat::FORMAT_CURRENCY_EUR_SIMPLE
     *     ]
     * );
     * </code>
     *
     * @param array $pStyles Array containing style information
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function applyFromArray(array $pStyles)
    {
        if ($this->isSupervisor) {
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($this->getStyleArray($pStyles));
        } else {
            if (isset($pStyles['formatCode'])) {
                $this->setFormatCode($pStyles['formatCode']);
            }
        }

        return $this;
    }

    /**
     * Get Format Code.
     *
     * @return string
     */
    public function getFormatCode()
    {
        if ($this->isSupervisor) {
            return $this->getSharedComponent()->getFormatCode();
        }
        if ($this->builtInFormatCode !== false) {
            return self::builtInFormatCode($this->builtInFormatCode);
        }

        return $this->formatCode;
    }

    /**
     * Set Format Code.
     *
     * @param string $pValue see self::FORMAT_*
     *
     * @return $this
     */
    public function setFormatCode($pValue)
    {
        if ($pValue == '') {
            $pValue = self::FORMAT_GENERAL;
        }
        if ($this->isSupervisor) {
            $styleArray = $this->getStyleArray(['formatCode'
=> $pValue]);
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($styleArray);
        } else {
            $this->formatCode = $pValue;
            $this->builtInFormatCode =
self::builtInFormatCodeIndex($pValue);
        }

        return $this;
    }

    /**
     * Get Built-In Format Code.
     *
     * @return int
     */
    public function getBuiltInFormatCode()
    {
        if ($this->isSupervisor) {
            return
$this->getSharedComponent()->getBuiltInFormatCode();
        }

        return $this->builtInFormatCode;
    }

    /**
     * Set Built-In Format Code.
     *
     * @param int $pValue
     *
     * @return $this
     */
    public function setBuiltInFormatCode($pValue)
    {
        if ($this->isSupervisor) {
            $styleArray = $this->getStyleArray(['formatCode'
=> self::builtInFormatCode($pValue)]);
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($styleArray);
        } else {
            $this->builtInFormatCode = $pValue;
            $this->formatCode = self::builtInFormatCode($pValue);
        }

        return $this;
    }

    /**
     * Fill built-in format codes.
     */
    private static function fillBuiltInFormatCodes()
    {
        //  [MS-OI29500: Microsoft Office Implementation Information for
ISO/IEC-29500 Standard Compliance]
        //  18.8.30. numFmt (Number Format)
        //
        //  The ECMA standard defines built-in format IDs
        //      14: "mm-dd-yy"
        //      22: "m/d/yy h:mm"
        //      37: "#,##0 ;(#,##0)"
        //      38: "#,##0 ;[Red](#,##0)"
        //      39: "#,##0.00;(#,##0.00)"
        //      40: "#,##0.00;[Red](#,##0.00)"
        //      47: "mmss.0"
        //      KOR fmt 55: "yyyy-mm-dd"
        //  Excel defines built-in format IDs
        //      14: "m/d/yyyy"
        //      22: "m/d/yyyy h:mm"
        //      37: "#,##0_);(#,##0)"
        //      38: "#,##0_);[Red](#,##0)"
        //      39: "#,##0.00_);(#,##0.00)"
        //      40: "#,##0.00_);[Red](#,##0.00)"
        //      47: "mm:ss.0"
        //      KOR fmt 55: "yyyy/mm/dd"

        // Built-in format codes
        if (self::$builtInFormats === null) {
            self::$builtInFormats = [];

            // General
            self::$builtInFormats[0] = self::FORMAT_GENERAL;
            self::$builtInFormats[1] = '0';
            self::$builtInFormats[2] = '0.00';
            self::$builtInFormats[3] = '#,##0';
            self::$builtInFormats[4] = '#,##0.00';

            self::$builtInFormats[9] = '0%';
            self::$builtInFormats[10] = '0.00%';
            self::$builtInFormats[11] = '0.00E+00';
            self::$builtInFormats[12] = '# ?/?';
            self::$builtInFormats[13] = '# ??/??';
            self::$builtInFormats[14] = 'm/d/yyyy'; // Despite
ECMA 'mm-dd-yy';
            self::$builtInFormats[15] = 'd-mmm-yy';
            self::$builtInFormats[16] = 'd-mmm';
            self::$builtInFormats[17] = 'mmm-yy';
            self::$builtInFormats[18] = 'h:mm AM/PM';
            self::$builtInFormats[19] = 'h:mm:ss AM/PM';
            self::$builtInFormats[20] = 'h:mm';
            self::$builtInFormats[21] = 'h:mm:ss';
            self::$builtInFormats[22] = 'm/d/yyyy h:mm'; //
Despite ECMA 'm/d/yy h:mm';

            self::$builtInFormats[37] = '#,##0_);(#,##0)'; // 
Despite ECMA '#,##0 ;(#,##0)';
            self::$builtInFormats[38] = '#,##0_);[Red](#,##0)';
//  Despite ECMA '#,##0 ;[Red](#,##0)';
            self::$builtInFormats[39] = '#,##0.00_);(#,##0.00)';
//  Despite ECMA '#,##0.00;(#,##0.00)';
            self::$builtInFormats[40] =
'#,##0.00_);[Red](#,##0.00)'; //  Despite ECMA
'#,##0.00;[Red](#,##0.00)';

            self::$builtInFormats[44] = '_("$"*
#,##0.00_);_("$"* \(#,##0.00\);_("$"*
"-"??_);_(@_)';
            self::$builtInFormats[45] = 'mm:ss';
            self::$builtInFormats[46] = '[h]:mm:ss';
            self::$builtInFormats[47] = 'mm:ss.0'; //  Despite
ECMA 'mmss.0';
            self::$builtInFormats[48] = '##0.0E+0';
            self::$builtInFormats[49] = '@';

            // CHT
            self::$builtInFormats[27] = '[$-404]e/m/d';
            self::$builtInFormats[30] = 'm/d/yy';
            self::$builtInFormats[36] = '[$-404]e/m/d';
            self::$builtInFormats[50] = '[$-404]e/m/d';
            self::$builtInFormats[57] = '[$-404]e/m/d';

            // THA
            self::$builtInFormats[59] = 't0';
            self::$builtInFormats[60] = 't0.00';
            self::$builtInFormats[61] = 't#,##0';
            self::$builtInFormats[62] = 't#,##0.00';
            self::$builtInFormats[67] = 't0%';
            self::$builtInFormats[68] = 't0.00%';
            self::$builtInFormats[69] = 't# ?/?';
            self::$builtInFormats[70] = 't# ??/??';

            // JPN
            self::$builtInFormats[28] =
'[$-411]ggge"年"m"月"d"日"';
            self::$builtInFormats[29] =
'[$-411]ggge"年"m"月"d"日"';
            self::$builtInFormats[31] =
'yyyy"年"m"月"d"日"';
            self::$builtInFormats[32] =
'h"時"mm"分"';
            self::$builtInFormats[33] =
'h"時"mm"分"ss"秒"';
            self::$builtInFormats[34] =
'yyyy"年"m"月"';
            self::$builtInFormats[35] =
'm"月"d"日"';
            self::$builtInFormats[51] =
'[$-411]ggge"年"m"月"d"日"';
            self::$builtInFormats[52] =
'yyyy"年"m"月"';
            self::$builtInFormats[53] =
'm"月"d"日"';
            self::$builtInFormats[54] =
'[$-411]ggge"年"m"月"d"日"';
            self::$builtInFormats[55] =
'yyyy"年"m"月"';
            self::$builtInFormats[56] =
'm"月"d"日"';
            self::$builtInFormats[58] =
'[$-411]ggge"年"m"月"d"日"';

            // Flip array (for faster lookups)
            self::$flippedBuiltInFormats =
array_flip(self::$builtInFormats);
        }
    }

    /**
     * Get built-in format code.
     *
     * @param int $pIndex
     *
     * @return string
     */
    public static function builtInFormatCode($pIndex)
    {
        // Clean parameter
        $pIndex = (int) $pIndex;

        // Ensure built-in format codes are available
        self::fillBuiltInFormatCodes();

        // Lookup format code
        if (isset(self::$builtInFormats[$pIndex])) {
            return self::$builtInFormats[$pIndex];
        }

        return '';
    }

    /**
     * Get built-in format code index.
     *
     * @param string $formatCode
     *
     * @return bool|int
     */
    public static function builtInFormatCodeIndex($formatCode)
    {
        // Ensure built-in format codes are available
        self::fillBuiltInFormatCodes();

        // Lookup format code
        if (array_key_exists($formatCode, self::$flippedBuiltInFormats)) {
            return self::$flippedBuiltInFormats[$formatCode];
        }

        return false;
    }

    /**
     * Get hash code.
     *
     * @return string Hash code
     */
    public function getHashCode()
    {
        if ($this->isSupervisor) {
            return $this->getSharedComponent()->getHashCode();
        }

        return md5(
            $this->formatCode .
            $this->builtInFormatCode .
            __CLASS__
        );
    }

    /**
     * Search/replace values to convert Excel date/time format masks to PHP
format masks.
     *
     * @var array
     */
    private static $dateFormatReplacements = [
            // first remove escapes related to non-format characters
            '\\' => '',
            //    12-hour suffix
            'am/pm' => 'A',
            //    4-digit year
            'e' => 'Y',
            'yyyy' => 'Y',
            //    2-digit year
            'yy' => 'y',
            //    first letter of month - no php equivalent
            'mmmmm' => 'M',
            //    full month name
            'mmmm' => 'F',
            //    short month name
            'mmm' => 'M',
            //    mm is minutes if time, but can also be month w/leading
zero
            //    so we try to identify times be the inclusion of a :
separator in the mask
            //    It isn't perfect, but the best way I know how
            ':mm' => ':i',
            'mm:' => 'i:',
            //    month leading zero
            'mm' => 'm',
            //    month no leading zero
            'm' => 'n',
            //    full day of week name
            'dddd' => 'l',
            //    short day of week name
            'ddd' => 'D',
            //    days leading zero
            'dd' => 'd',
            //    days no leading zero
            'd' => 'j',
            //    seconds
            'ss' => 's',
            //    fractional seconds - no php equivalent
            '.s' => '',
        ];

    /**
     * Search/replace values to convert Excel date/time format masks hours
to PHP format masks (24 hr clock).
     *
     * @var array
     */
    private static $dateFormatReplacements24 = [
        'hh' => 'H',
        'h' => 'G',
    ];

    /**
     * Search/replace values to convert Excel date/time format masks hours
to PHP format masks (12 hr clock).
     *
     * @var array
     */
    private static $dateFormatReplacements12 = [
        'hh' => 'h',
        'h' => 'g',
    ];

    private static function setLowercaseCallback($matches)
    {
        return mb_strtolower($matches[0]);
    }

    private static function escapeQuotesCallback($matches)
    {
        return '\\' . implode('\\',
str_split($matches[1]));
    }

    private static function formatAsDate(&$value, &$format)
    {
        // strip off first part containing e.g. [$-F800] or [$USD-409]
        // general syntax: [$<Currency string>-<language info>]
        // language info is in hexadecimal
        // strip off chinese part like [DBNum1][$-804]
        $format =
preg_replace('/^(\[[0-9A-Za-z]*\])*(\[\$[A-Z]*-[0-9A-F]*\])/i',
'', $format);

        // OpenOffice.org uses upper-case number formats, e.g.
'YYYY', convert to lower-case;
        //    but we don't want to change any quoted strings
        $format =
preg_replace_callback('/(?:^|")([^"]*)(?:$|")/',
['self', 'setLowercaseCallback'], $format);

        // Only process the non-quoted blocks for date format characters
        $blocks = explode('"', $format);
        foreach ($blocks as $key => &$block) {
            if ($key % 2 == 0) {
                $block = strtr($block, self::$dateFormatReplacements);
                if (!strpos($block, 'A')) {
                    // 24-hour time format
                    // when [h]:mm format, the [h] should replace to the
hours of the value * 24
                    if (false !== strpos($block, '[h]')) {
                        $hours = (int) ($value * 24);
                        $block = str_replace('[h]', $hours,
$block);

                        continue;
                    }
                    $block = strtr($block,
self::$dateFormatReplacements24);
                } else {
                    // 12-hour time format
                    $block = strtr($block,
self::$dateFormatReplacements12);
                }
            }
        }
        $format = implode('"', $blocks);

        // escape any quoted characters so that DateTime format() will
render them correctly
        $format = preg_replace_callback('/"(.*)"/U',
['self', 'escapeQuotesCallback'], $format);

        $dateObj = Date::excelToDateTimeObject($value);
        $value = $dateObj->format($format);
    }

    private static function formatAsPercentage(&$value, &$format)
    {
        if ($format === self::FORMAT_PERCENTAGE) {
            $value = round((100 * $value), 0) . '%';
        } else {
            if (preg_match('/\.[#0]+/', $format, $m)) {
                $s = substr($m[0], 0, 1) . (strlen($m[0]) - 1);
                $format = str_replace($m[0], $s, $format);
            }
            if (preg_match('/^[#0]+/', $format, $m)) {
                $format = str_replace($m[0], strlen($m[0]), $format);
            }
            $format = '%' . str_replace('%',
'f%%', $format);

            $value = sprintf($format, 100 * $value);
        }
    }

    private static function formatAsFraction(&$value, &$format)
    {
        $sign = ($value < 0) ? '-' : '';

        $integerPart = floor(abs($value));
        $decimalPart = trim(fmod(abs($value), 1), '0.');
        $decimalLength = strlen($decimalPart);
        $decimalDivisor = pow(10, $decimalLength);

        $GCD = MathTrig::GCD($decimalPart, $decimalDivisor);

        $adjustedDecimalPart = $decimalPart / $GCD;
        $adjustedDecimalDivisor = $decimalDivisor / $GCD;

        if ((strpos($format, '0') !== false) || (strpos($format,
'#') !== false) || (substr($format, 0, 3) == '? ?')) {
            if ($integerPart == 0) {
                $integerPart = '';
            }
            $value = "$sign$integerPart
$adjustedDecimalPart/$adjustedDecimalDivisor";
        } else {
            $adjustedDecimalPart += $integerPart * $adjustedDecimalDivisor;
            $value =
"$sign$adjustedDecimalPart/$adjustedDecimalDivisor";
        }
    }

    private static function mergeComplexNumberFormatMasks($numbers, $masks)
    {
        $decimalCount = strlen($numbers[1]);
        $postDecimalMasks = [];

        do {
            $tempMask = array_pop($masks);
            $postDecimalMasks[] = $tempMask;
            $decimalCount -= strlen($tempMask);
        } while ($decimalCount > 0);

        return [
            implode('.', $masks),
            implode('.', array_reverse($postDecimalMasks)),
        ];
    }

    private static function processComplexNumberFormatMask($number, $mask)
    {
        $result = $number;
        $maskingBlockCount = preg_match_all('/0+/', $mask,
$maskingBlocks, PREG_OFFSET_CAPTURE);

        if ($maskingBlockCount > 1) {
            $maskingBlocks = array_reverse($maskingBlocks[0]);

            foreach ($maskingBlocks as $block) {
                $divisor = 1 . $block[0];
                $size = strlen($block[0]);
                $offset = $block[1];

                $blockValue = sprintf(
                    '%0' . $size . 'd',
                    fmod($number, $divisor)
                );
                $number = floor($number / $divisor);
                $mask = substr_replace($mask, $blockValue, $offset, $size);
            }
            if ($number > 0) {
                $mask = substr_replace($mask, $number, $offset, 0);
            }
            $result = $mask;
        }

        return $result;
    }

    private static function complexNumberFormatMask($number, $mask,
$splitOnPoint = true)
    {
        $sign = ($number < 0.0);
        $number = abs($number);

        if ($splitOnPoint && strpos($mask, '.') !== false
&& strpos($number, '.') !== false) {
            $numbers = explode('.', $number);
            $masks = explode('.', $mask);
            if (count($masks) > 2) {
                $masks = self::mergeComplexNumberFormatMasks($numbers,
$masks);
            }
            $result1 = self::complexNumberFormatMask($numbers[0],
$masks[0], false);
            $result2 =
strrev(self::complexNumberFormatMask(strrev($numbers[1]),
strrev($masks[1]), false));

            return (($sign) ? '-' : '') . $result1 .
'.' . $result2;
        }

        $result = self::processComplexNumberFormatMask($number, $mask);

        return (($sign) ? '-' : '') . $result;
    }

    private static function formatStraightNumericValue($value, $format,
array $matches, $useThousands, $number_regex)
    {
        $left = $matches[1];
        $dec = $matches[2];
        $right = $matches[3];

        // minimun width of formatted number (including dot)
        $minWidth = strlen($left) + strlen($dec) + strlen($right);
        if ($useThousands) {
            $value = number_format(
                $value,
                strlen($right),
                StringHelper::getDecimalSeparator(),
                StringHelper::getThousandsSeparator()
            );
            $value = preg_replace($number_regex, $value, $format);
        } else {
            if (preg_match('/[0#]E[+-]0/i', $format)) {
                //    Scientific format
                $value = sprintf('%5.2E', $value);
            } elseif (preg_match('/0([^\d\.]+)0/', $format) ||
substr_count($format, '.') > 1) {
                if ($value == (int) $value && substr_count($format,
'.') === 1) {
                    $value *= 10 ** strlen(explode('.',
$format)[1]);
                }
                $value = self::complexNumberFormatMask($value, $format);
            } else {
                $sprintf_pattern = "%0$minWidth." .
strlen($right) . 'f';
                $value = sprintf($sprintf_pattern, $value);
                $value = preg_replace($number_regex, $value, $format);
            }
        }

        return $value;
    }

    private static function formatAsNumber($value, $format)
    {
        if ($format === self::FORMAT_CURRENCY_EUR_SIMPLE) {
            return 'EUR ' . sprintf('%1.2f', $value);
        }

        // Some non-number strings are quoted, so we'll get rid of the
quotes, likewise any positional * symbols
        $format = str_replace(['"', '*'],
'', $format);

        // Find out if we need thousands separator
        // This is indicated by a comma enclosed by a digit placeholder:
        //        #,#   or   0,0
        $useThousands = preg_match('/(#,#|0,0)/', $format);
        if ($useThousands) {
            $format = preg_replace('/0,0/', '00',
$format);
            $format = preg_replace('/#,#/', '##',
$format);
        }

        // Scale thousands, millions,...
        // This is indicated by a number of commas after a digit
placeholder:
        //        #,   or    0.0,,
        $scale = 1; // same as no scale
        $matches = [];
        if (preg_match('/(#|0)(,+)/', $format, $matches)) {
            $scale = pow(1000, strlen($matches[2]));

            // strip the commas
            $format = preg_replace('/0,+/', '0',
$format);
            $format = preg_replace('/#,+/', '#',
$format);
        }

        if (preg_match('/#?.*\?\/\?/', $format, $m)) {
            if ($value != (int) $value) {
                self::formatAsFraction($value, $format);
            }
        } else {
            // Handle the number itself

            // scale number
            $value = $value / $scale;
            // Strip #
            $format = preg_replace('/\\#/', '0',
$format);
            // Remove locale code [$-###]
            $format = preg_replace('/\[\$\-.*\]/', '',
$format);

            $n = '/\\[[^\\]]+\\]/';
            $m = preg_replace($n, '', $format);
            $number_regex = '/(0+)(\\.?)(0*)/';
            if (preg_match($number_regex, $m, $matches)) {
                $value = self::formatStraightNumericValue($value, $format,
$matches, $useThousands, $number_regex);
            }
        }

        if (preg_match('/\[\$(.*)\]/u', $format, $m)) {
            //  Currency or Accounting
            $currencyCode = $m[1];
            [$currencyCode] = explode('-', $currencyCode);
            if ($currencyCode == '') {
                $currencyCode = StringHelper::getCurrencyCode();
            }
            $value = preg_replace('/\[\$([^\]]*)\]/u',
$currencyCode, $value);
        }

        return $value;
    }

    /**
     * Convert a value in a pre-defined format to a PHP string.
     *
     * @param mixed $value Value to format
     * @param string $format Format code, see = self::FORMAT_*
     * @param array $callBack Callback function for additional formatting
of string
     *
     * @return string Formatted string
     */
    public static function toFormattedString($value, $format, $callBack =
null)
    {
        // For now we do not treat strings although section 4 of a format
code affects strings
        if (!is_numeric($value)) {
            return $value;
        }

        // For 'General' format code, we just pass the value
although this is not entirely the way Excel does it,
        // it seems to round numbers to a total of 10 digits.
        if (($format === self::FORMAT_GENERAL) || ($format ===
self::FORMAT_TEXT)) {
            return $value;
        }

        // Convert any other escaped characters to quoted strings, e.g. (\T
to "T")
        $format = preg_replace('/(\\\(((.)(?!((AM\/PM)|(A\/P))))|([^
])))(?=(?:[^"]|"[^"]*")*$)/u',
'"${2}"', $format);

        // Get the sections, there can be up to four sections, separated
with a semi-colon (but only if not a quoted literal)
        $sections =
preg_split('/(;)(?=(?:[^"]|"[^"]*")*$)/u',
$format);

        // Extract the relevant section depending on whether number is
positive, negative, or zero?
        // Text not supported yet.
        // Here is how the sections apply to various values in Excel:
        //   1 section:   [POSITIVE/NEGATIVE/ZERO/TEXT]
        //   2 sections:  [POSITIVE/ZERO/TEXT] [NEGATIVE]
        //   3 sections:  [POSITIVE/TEXT] [NEGATIVE] [ZERO]
        //   4 sections:  [POSITIVE] [NEGATIVE] [ZERO] [TEXT]
        switch (count($sections)) {
            case 1:
                $format = $sections[0];

                break;
            case 2:
                $format = ($value >= 0) ? $sections[0] : $sections[1];
                $value = abs($value); // Use the absolute value
                break;
            case 3:
                $format = ($value > 0) ?
                    $sections[0] : (($value < 0) ?
                        $sections[1] : $sections[2]);
                $value = abs($value); // Use the absolute value
                break;
            case 4:
                $format = ($value > 0) ?
                    $sections[0] : (($value < 0) ?
                        $sections[1] : $sections[2]);
                $value = abs($value); // Use the absolute value
                break;
            default:
                // something is wrong, just use first section
                $format = $sections[0];

                break;
        }

        // In Excel formats, "_" is used to add spacing,
        //    The following character indicates the size of the spacing,
which we can't do in HTML, so we just use a standard space
        $format = preg_replace('/_./', ' ', $format);

        // Save format with color information for later use below
        $formatColor = $format;
        // Strip colour information
        $color_regex = '/\[(' . implode('|',
Color::NAMED_COLORS) . ')\]/';
        $format = preg_replace($color_regex, '', $format);
        // Let's begin inspecting the format and converting the value
to a formatted string

        //  Check for date/time characters (not inside quotes)
        if
(preg_match('/(\[\$[A-Z]*-[0-9A-F]*\])*[hmsdy](?=(?:[^"]|"[^"]*")*$)/miu',
$format, $matches)) {
            // datetime format
            self::formatAsDate($value, $format);
        } else {
            if (substr($format, 0, 1) === '"' &&
substr($format, -1, 1) === '"') {
                $value = substr($format, 1, -1);
            } elseif (preg_match('/%$/', $format)) {
                // % number format
                self::formatAsPercentage($value, $format);
            } else {
                $value = self::formatAsNumber($value, $format);
            }
        }

        // Additional formatting provided by callback function
        if ($callBack !== null) {
            [$writerInstance, $function] = $callBack;
            $value = $writerInstance->$function($value, $formatColor);
        }

        return $value;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Style/Protection.php000064400000010775151165414050022504
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Style;

use PhpOffice\PhpSpreadsheet\Exception as PhpSpreadsheetException;

class Protection extends Supervisor
{
    /** Protection styles */
    const PROTECTION_INHERIT = 'inherit';
    const PROTECTION_PROTECTED = 'protected';
    const PROTECTION_UNPROTECTED = 'unprotected';

    /**
     * Locked.
     *
     * @var string
     */
    protected $locked;

    /**
     * Hidden.
     *
     * @var string
     */
    protected $hidden;

    /**
     * Create a new Protection.
     *
     * @param bool $isSupervisor Flag indicating if this is a supervisor or
not
     *                                    Leave this value at default
unless you understand exactly what
     *                                        its ramifications are
     * @param bool $isConditional Flag indicating if this is a conditional
style or not
     *                                    Leave this value at default
unless you understand exactly what
     *                                        its ramifications are
     */
    public function __construct($isSupervisor = false, $isConditional =
false)
    {
        // Supervisor?
        parent::__construct($isSupervisor);

        // Initialise values
        if (!$isConditional) {
            $this->locked = self::PROTECTION_INHERIT;
            $this->hidden = self::PROTECTION_INHERIT;
        }
    }

    /**
     * Get the shared style component for the currently active cell in
currently active sheet.
     * Only used for style supervisor.
     *
     * @return Protection
     */
    public function getSharedComponent()
    {
        return
$this->parent->getSharedComponent()->getProtection();
    }

    /**
     * Build style array from subcomponents.
     *
     * @param array $array
     *
     * @return array
     */
    public function getStyleArray($array)
    {
        return ['protection' => $array];
    }

    /**
     * Apply styles from array.
     *
     * <code>
     *
$spreadsheet->getActiveSheet()->getStyle('B2')->getLocked()->applyFromArray(
     *     [
     *         'locked' => TRUE,
     *         'hidden' => FALSE
     *     ]
     * );
     * </code>
     *
     * @param array $pStyles Array containing style information
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function applyFromArray(array $pStyles)
    {
        if ($this->isSupervisor) {
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($this->getStyleArray($pStyles));
        } else {
            if (isset($pStyles['locked'])) {
                $this->setLocked($pStyles['locked']);
            }
            if (isset($pStyles['hidden'])) {
                $this->setHidden($pStyles['hidden']);
            }
        }

        return $this;
    }

    /**
     * Get locked.
     *
     * @return string
     */
    public function getLocked()
    {
        if ($this->isSupervisor) {
            return $this->getSharedComponent()->getLocked();
        }

        return $this->locked;
    }

    /**
     * Set locked.
     *
     * @param string $pValue see self::PROTECTION_*
     *
     * @return $this
     */
    public function setLocked($pValue)
    {
        if ($this->isSupervisor) {
            $styleArray = $this->getStyleArray(['locked' =>
$pValue]);
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($styleArray);
        } else {
            $this->locked = $pValue;
        }

        return $this;
    }

    /**
     * Get hidden.
     *
     * @return string
     */
    public function getHidden()
    {
        if ($this->isSupervisor) {
            return $this->getSharedComponent()->getHidden();
        }

        return $this->hidden;
    }

    /**
     * Set hidden.
     *
     * @param string $pValue see self::PROTECTION_*
     *
     * @return $this
     */
    public function setHidden($pValue)
    {
        if ($this->isSupervisor) {
            $styleArray = $this->getStyleArray(['hidden' =>
$pValue]);
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($styleArray);
        } else {
            $this->hidden = $pValue;
        }

        return $this;
    }

    /**
     * Get hash code.
     *
     * @return string Hash code
     */
    public function getHashCode()
    {
        if ($this->isSupervisor) {
            return $this->getSharedComponent()->getHashCode();
        }

        return md5(
            $this->locked .
            $this->hidden .
            __CLASS__
        );
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Style/Style.php000064400000051644151165414050021456
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Style;

use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\Spreadsheet;

class Style extends Supervisor
{
    /**
     * Font.
     *
     * @var Font
     */
    protected $font;

    /**
     * Fill.
     *
     * @var Fill
     */
    protected $fill;

    /**
     * Borders.
     *
     * @var Borders
     */
    protected $borders;

    /**
     * Alignment.
     *
     * @var Alignment
     */
    protected $alignment;

    /**
     * Number Format.
     *
     * @var NumberFormat
     */
    protected $numberFormat;

    /**
     * Conditional styles.
     *
     * @var Conditional[]
     */
    protected $conditionalStyles;

    /**
     * Protection.
     *
     * @var Protection
     */
    protected $protection;

    /**
     * Index of style in collection. Only used for real style.
     *
     * @var int
     */
    protected $index;

    /**
     * Use Quote Prefix when displaying in cell editor. Only used for real
style.
     *
     * @var bool
     */
    protected $quotePrefix = false;

    /**
     * Create a new Style.
     *
     * @param bool $isSupervisor Flag indicating if this is a supervisor or
not
     *         Leave this value at default unless you understand exactly
what
     *    its ramifications are
     * @param bool $isConditional Flag indicating if this is a conditional
style or not
     *       Leave this value at default unless you understand exactly what
     *    its ramifications are
     */
    public function __construct($isSupervisor = false, $isConditional =
false)
    {
        parent::__construct($isSupervisor);

        // Initialise values
        $this->conditionalStyles = [];
        $this->font = new Font($isSupervisor, $isConditional);
        $this->fill = new Fill($isSupervisor, $isConditional);
        $this->borders = new Borders($isSupervisor, $isConditional);
        $this->alignment = new Alignment($isSupervisor, $isConditional);
        $this->numberFormat = new NumberFormat($isSupervisor,
$isConditional);
        $this->protection = new Protection($isSupervisor,
$isConditional);

        // bind parent if we are a supervisor
        if ($isSupervisor) {
            $this->font->bindParent($this);
            $this->fill->bindParent($this);
            $this->borders->bindParent($this);
            $this->alignment->bindParent($this);
            $this->numberFormat->bindParent($this);
            $this->protection->bindParent($this);
        }
    }

    /**
     * Get the shared style component for the currently active cell in
currently active sheet.
     * Only used for style supervisor.
     *
     * @return Style
     */
    public function getSharedComponent()
    {
        $activeSheet = $this->getActiveSheet();
        $selectedCell = $this->getActiveCell(); // e.g. 'A1'

        if ($activeSheet->cellExists($selectedCell)) {
            $xfIndex =
$activeSheet->getCell($selectedCell)->getXfIndex();
        } else {
            $xfIndex = 0;
        }

        return $this->parent->getCellXfByIndex($xfIndex);
    }

    /**
     * Get parent. Only used for style supervisor.
     *
     * @return Spreadsheet
     */
    public function getParent()
    {
        return $this->parent;
    }

    /**
     * Build style array from subcomponents.
     *
     * @param array $array
     *
     * @return array
     */
    public function getStyleArray($array)
    {
        return ['quotePrefix' => $array];
    }

    /**
     * Apply styles from array.
     *
     * <code>
     *
$spreadsheet->getActiveSheet()->getStyle('B2')->applyFromArray(
     *     [
     *         'font' => [
     *             'name' => 'Arial',
     *             'bold' => true,
     *             'italic' => false,
     *             'underline' => Font::UNDERLINE_DOUBLE,
     *             'strikethrough' => false,
     *             'color' => [
     *                 'rgb' => '808080'
     *             ]
     *         ],
     *         'borders' => [
     *             'bottom' => [
     *                 'borderStyle' =>
Border::BORDER_DASHDOT,
     *                 'color' => [
     *                     'rgb' => '808080'
     *                 ]
     *             ],
     *             'top' => [
     *                 'borderStyle' =>
Border::BORDER_DASHDOT,
     *                 'color' => [
     *                     'rgb' => '808080'
     *                 ]
     *             ]
     *         ],
     *         'alignment' => [
     *             'horizontal' =>
Alignment::HORIZONTAL_CENTER,
     *             'vertical' => Alignment::VERTICAL_CENTER,
     *             'wrapText' => true,
     *         ],
     *         'quotePrefix'    => true
     *     ]
     * );
     * </code>
     *
     * @param array $pStyles Array containing style information
     * @param bool $pAdvanced advanced mode for setting borders
     *
     * @return $this
     */
    public function applyFromArray(array $pStyles, $pAdvanced = true)
    {
        if ($this->isSupervisor) {
            $pRange = $this->getSelectedCells();

            // Uppercase coordinate
            $pRange = strtoupper($pRange);

            // Is it a cell range or a single cell?
            if (strpos($pRange, ':') === false) {
                $rangeA = $pRange;
                $rangeB = $pRange;
            } else {
                [$rangeA, $rangeB] = explode(':', $pRange);
            }

            // Calculate range outer borders
            $rangeStart = Coordinate::coordinateFromString($rangeA);
            $rangeEnd = Coordinate::coordinateFromString($rangeB);

            // Translate column into index
            $rangeStart[0] =
Coordinate::columnIndexFromString($rangeStart[0]);
            $rangeEnd[0] = Coordinate::columnIndexFromString($rangeEnd[0]);

            // Make sure we can loop upwards on rows and columns
            if ($rangeStart[0] > $rangeEnd[0] && $rangeStart[1]
> $rangeEnd[1]) {
                $tmp = $rangeStart;
                $rangeStart = $rangeEnd;
                $rangeEnd = $tmp;
            }

            // ADVANCED MODE:
            if ($pAdvanced && isset($pStyles['borders']))
{
                // 'allBorders' is a shorthand property for
'outline' and 'inside' and
                //        it applies to components that have not been set
explicitly
                if
(isset($pStyles['borders']['allBorders'])) {
                    foreach (['outline', 'inside'] as
$component) {
                        if
(!isset($pStyles['borders'][$component])) {
                            $pStyles['borders'][$component] =
$pStyles['borders']['allBorders'];
                        }
                    }
                   
unset($pStyles['borders']['allBorders']); // not needed
any more
                }
                // 'outline' is a shorthand property for
'top', 'right', 'bottom', 'left'
                //        it applies to components that have not been set
explicitly
                if
(isset($pStyles['borders']['outline'])) {
                    foreach (['top', 'right',
'bottom', 'left'] as $component) {
                        if
(!isset($pStyles['borders'][$component])) {
                            $pStyles['borders'][$component] =
$pStyles['borders']['outline'];
                        }
                    }
                   
unset($pStyles['borders']['outline']); // not needed
any more
                }
                // 'inside' is a shorthand property for
'vertical' and 'horizontal'
                //        it applies to components that have not been set
explicitly
                if
(isset($pStyles['borders']['inside'])) {
                    foreach (['vertical', 'horizontal']
as $component) {
                        if
(!isset($pStyles['borders'][$component])) {
                            $pStyles['borders'][$component] =
$pStyles['borders']['inside'];
                        }
                    }
                   
unset($pStyles['borders']['inside']); // not needed any
more
                }
                // width and height characteristics of selection, 1, 2, or
3 (for 3 or more)
                $xMax = min($rangeEnd[0] - $rangeStart[0] + 1, 3);
                $yMax = min($rangeEnd[1] - $rangeStart[1] + 1, 3);

                // loop through up to 3 x 3 = 9 regions
                for ($x = 1; $x <= $xMax; ++$x) {
                    // start column index for region
                    $colStart = ($x == 3) ?
                        Coordinate::stringFromColumnIndex($rangeEnd[0])
                            :
Coordinate::stringFromColumnIndex($rangeStart[0] + $x - 1);
                    // end column index for region
                    $colEnd = ($x == 1) ?
                        Coordinate::stringFromColumnIndex($rangeStart[0])
                            :
Coordinate::stringFromColumnIndex($rangeEnd[0] - $xMax + $x);

                    for ($y = 1; $y <= $yMax; ++$y) {
                        // which edges are touching the region
                        $edges = [];
                        if ($x == 1) {
                            // are we at left edge
                            $edges[] = 'left';
                        }
                        if ($x == $xMax) {
                            // are we at right edge
                            $edges[] = 'right';
                        }
                        if ($y == 1) {
                            // are we at top edge?
                            $edges[] = 'top';
                        }
                        if ($y == $yMax) {
                            // are we at bottom edge?
                            $edges[] = 'bottom';
                        }

                        // start row index for region
                        $rowStart = ($y == 3) ?
                            $rangeEnd[1] : $rangeStart[1] + $y - 1;

                        // end row index for region
                        $rowEnd = ($y == 1) ?
                            $rangeStart[1] : $rangeEnd[1] - $yMax + $y;

                        // build range for region
                        $range = $colStart . $rowStart . ':' .
$colEnd . $rowEnd;

                        // retrieve relevant style array for region
                        $regionStyles = $pStyles;
                       
unset($regionStyles['borders']['inside']);

                        // what are the inner edges of the region when
looking at the selection
                        $innerEdges = array_diff(['top',
'right', 'bottom', 'left'], $edges);

                        // inner edges that are not touching the region
should take the 'inside' border properties if they have been set
                        foreach ($innerEdges as $innerEdge) {
                            switch ($innerEdge) {
                                case 'top':
                                case 'bottom':
                                    // should pick up
'horizontal' border property if set
                                    if
(isset($pStyles['borders']['horizontal'])) {
                                       
$regionStyles['borders'][$innerEdge] =
$pStyles['borders']['horizontal'];
                                    } else {
                                       
unset($regionStyles['borders'][$innerEdge]);
                                    }

                                    break;
                                case 'left':
                                case 'right':
                                    // should pick up 'vertical'
border property if set
                                    if
(isset($pStyles['borders']['vertical'])) {
                                       
$regionStyles['borders'][$innerEdge] =
$pStyles['borders']['vertical'];
                                    } else {
                                       
unset($regionStyles['borders'][$innerEdge]);
                                    }

                                    break;
                            }
                        }

                        // apply region style to region by calling
applyFromArray() in simple mode
                       
$this->getActiveSheet()->getStyle($range)->applyFromArray($regionStyles,
false);
                    }
                }

                // restore initial cell selection range
                $this->getActiveSheet()->getStyle($pRange);

                return $this;
            }

            // SIMPLE MODE:
            // Selection type, inspect
            if (preg_match('/^[A-Z]+1:[A-Z]+1048576$/', $pRange))
{
                $selectionType = 'COLUMN';
            } elseif (preg_match('/^A\d+:XFD\d+$/', $pRange)) {
                $selectionType = 'ROW';
            } else {
                $selectionType = 'CELL';
            }

            // First loop through columns, rows, or cells to find out which
styles are affected by this operation
            switch ($selectionType) {
                case 'COLUMN':
                    $oldXfIndexes = [];
                    for ($col = $rangeStart[0]; $col <= $rangeEnd[0];
++$col) {
                       
$oldXfIndexes[$this->getActiveSheet()->getColumnDimensionByColumn($col)->getXfIndex()]
= true;
                    }

                    break;
                case 'ROW':
                    $oldXfIndexes = [];
                    for ($row = $rangeStart[1]; $row <= $rangeEnd[1];
++$row) {
                        if
($this->getActiveSheet()->getRowDimension($row)->getXfIndex() ==
null) {
                            $oldXfIndexes[0] = true; // row without
explicit style should be formatted based on default style
                        } else {
                           
$oldXfIndexes[$this->getActiveSheet()->getRowDimension($row)->getXfIndex()]
= true;
                        }
                    }

                    break;
                case 'CELL':
                    $oldXfIndexes = [];
                    for ($col = $rangeStart[0]; $col <= $rangeEnd[0];
++$col) {
                        for ($row = $rangeStart[1]; $row <=
$rangeEnd[1]; ++$row) {
                           
$oldXfIndexes[$this->getActiveSheet()->getCellByColumnAndRow($col,
$row)->getXfIndex()] = true;
                        }
                    }

                    break;
            }

            // clone each of the affected styles, apply the style array,
and add the new styles to the workbook
            $workbook = $this->getActiveSheet()->getParent();
            foreach ($oldXfIndexes as $oldXfIndex => $dummy) {
                $style = $workbook->getCellXfByIndex($oldXfIndex);
                $newStyle = clone $style;
                $newStyle->applyFromArray($pStyles);

                if ($existingStyle =
$workbook->getCellXfByHashCode($newStyle->getHashCode())) {
                    // there is already such cell Xf in our collection
                    $newXfIndexes[$oldXfIndex] =
$existingStyle->getIndex();
                } else {
                    // we don't have such a cell Xf, need to add
                    $workbook->addCellXf($newStyle);
                    $newXfIndexes[$oldXfIndex] = $newStyle->getIndex();
                }
            }

            // Loop through columns, rows, or cells again and update the XF
index
            switch ($selectionType) {
                case 'COLUMN':
                    for ($col = $rangeStart[0]; $col <= $rangeEnd[0];
++$col) {
                        $columnDimension =
$this->getActiveSheet()->getColumnDimensionByColumn($col);
                        $oldXfIndex = $columnDimension->getXfIndex();
                       
$columnDimension->setXfIndex($newXfIndexes[$oldXfIndex]);
                    }

                    break;
                case 'ROW':
                    for ($row = $rangeStart[1]; $row <= $rangeEnd[1];
++$row) {
                        $rowDimension =
$this->getActiveSheet()->getRowDimension($row);
                        $oldXfIndex = $rowDimension->getXfIndex() ===
null ?
                            0 : $rowDimension->getXfIndex(); // row
without explicit style should be formatted based on default style
                       
$rowDimension->setXfIndex($newXfIndexes[$oldXfIndex]);
                    }

                    break;
                case 'CELL':
                    for ($col = $rangeStart[0]; $col <= $rangeEnd[0];
++$col) {
                        for ($row = $rangeStart[1]; $row <=
$rangeEnd[1]; ++$row) {
                            $cell =
$this->getActiveSheet()->getCellByColumnAndRow($col, $row);
                            $oldXfIndex = $cell->getXfIndex();
                           
$cell->setXfIndex($newXfIndexes[$oldXfIndex]);
                        }
                    }

                    break;
            }
        } else {
            // not a supervisor, just apply the style array directly on
style object
            if (isset($pStyles['fill'])) {
               
$this->getFill()->applyFromArray($pStyles['fill']);
            }
            if (isset($pStyles['font'])) {
               
$this->getFont()->applyFromArray($pStyles['font']);
            }
            if (isset($pStyles['borders'])) {
               
$this->getBorders()->applyFromArray($pStyles['borders']);
            }
            if (isset($pStyles['alignment'])) {
               
$this->getAlignment()->applyFromArray($pStyles['alignment']);
            }
            if (isset($pStyles['numberFormat'])) {
               
$this->getNumberFormat()->applyFromArray($pStyles['numberFormat']);
            }
            if (isset($pStyles['protection'])) {
               
$this->getProtection()->applyFromArray($pStyles['protection']);
            }
            if (isset($pStyles['quotePrefix'])) {
                $this->quotePrefix = $pStyles['quotePrefix'];
            }
        }

        return $this;
    }

    /**
     * Get Fill.
     *
     * @return Fill
     */
    public function getFill()
    {
        return $this->fill;
    }

    /**
     * Get Font.
     *
     * @return Font
     */
    public function getFont()
    {
        return $this->font;
    }

    /**
     * Set font.
     *
     * @param Font $font
     *
     * @return $this
     */
    public function setFont(Font $font)
    {
        $this->font = $font;

        return $this;
    }

    /**
     * Get Borders.
     *
     * @return Borders
     */
    public function getBorders()
    {
        return $this->borders;
    }

    /**
     * Get Alignment.
     *
     * @return Alignment
     */
    public function getAlignment()
    {
        return $this->alignment;
    }

    /**
     * Get Number Format.
     *
     * @return NumberFormat
     */
    public function getNumberFormat()
    {
        return $this->numberFormat;
    }

    /**
     * Get Conditional Styles. Only used on supervisor.
     *
     * @return Conditional[]
     */
    public function getConditionalStyles()
    {
        return
$this->getActiveSheet()->getConditionalStyles($this->getActiveCell());
    }

    /**
     * Set Conditional Styles. Only used on supervisor.
     *
     * @param Conditional[] $pValue Array of conditional styles
     *
     * @return $this
     */
    public function setConditionalStyles(array $pValue)
    {
       
$this->getActiveSheet()->setConditionalStyles($this->getSelectedCells(),
$pValue);

        return $this;
    }

    /**
     * Get Protection.
     *
     * @return Protection
     */
    public function getProtection()
    {
        return $this->protection;
    }

    /**
     * Get quote prefix.
     *
     * @return bool
     */
    public function getQuotePrefix()
    {
        if ($this->isSupervisor) {
            return $this->getSharedComponent()->getQuotePrefix();
        }

        return $this->quotePrefix;
    }

    /**
     * Set quote prefix.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setQuotePrefix($pValue)
    {
        if ($pValue == '') {
            $pValue = false;
        }
        if ($this->isSupervisor) {
            $styleArray = ['quotePrefix' => $pValue];
           
$this->getActiveSheet()->getStyle($this->getSelectedCells())->applyFromArray($styleArray);
        } else {
            $this->quotePrefix = (bool) $pValue;
        }

        return $this;
    }

    /**
     * Get hash code.
     *
     * @return string Hash code
     */
    public function getHashCode()
    {
        $hashConditionals = '';
        foreach ($this->conditionalStyles as $conditional) {
            $hashConditionals .= $conditional->getHashCode();
        }

        return md5(
            $this->fill->getHashCode() .
            $this->font->getHashCode() .
            $this->borders->getHashCode() .
            $this->alignment->getHashCode() .
            $this->numberFormat->getHashCode() .
            $hashConditionals .
            $this->protection->getHashCode() .
            ($this->quotePrefix ? 't' : 'f') .
            __CLASS__
        );
    }

    /**
     * Get own index in style collection.
     *
     * @return int
     */
    public function getIndex()
    {
        return $this->index;
    }

    /**
     * Set own index in style collection.
     *
     * @param int $pValue
     */
    public function setIndex($pValue)
    {
        $this->index = $pValue;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Style/Supervisor.php000064400000005246151165414050022534
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Style;

use PhpOffice\PhpSpreadsheet\IComparable;
use PhpOffice\PhpSpreadsheet\Spreadsheet;
use PhpOffice\PhpSpreadsheet\Worksheet\Worksheet;

abstract class Supervisor implements IComparable
{
    /**
     * Supervisor?
     *
     * @var bool
     */
    protected $isSupervisor;

    /**
     * Parent. Only used for supervisor.
     *
     * @var Spreadsheet|Style
     */
    protected $parent;

    /**
     * Parent property name.
     *
     * @var null|string
     */
    protected $parentPropertyName;

    /**
     * Create a new Supervisor.
     *
     * @param bool $isSupervisor Flag indicating if this is a supervisor or
not
     *                                    Leave this value at default
unless you understand exactly what
     *                                        its ramifications are
     */
    public function __construct($isSupervisor = false)
    {
        // Supervisor?
        $this->isSupervisor = $isSupervisor;
    }

    /**
     * Bind parent. Only used for supervisor.
     *
     * @param Spreadsheet|Style $parent
     * @param null|string $parentPropertyName
     *
     * @return $this
     */
    public function bindParent($parent, $parentPropertyName = null)
    {
        $this->parent = $parent;
        $this->parentPropertyName = $parentPropertyName;

        return $this;
    }

    /**
     * Is this a supervisor or a cell style component?
     *
     * @return bool
     */
    public function getIsSupervisor()
    {
        return $this->isSupervisor;
    }

    /**
     * Get the currently active sheet. Only used for supervisor.
     *
     * @return Worksheet
     */
    public function getActiveSheet()
    {
        return $this->parent->getActiveSheet();
    }

    /**
     * Get the currently active cell coordinate in currently active sheet.
     * Only used for supervisor.
     *
     * @return string E.g. 'A1'
     */
    public function getSelectedCells()
    {
        return $this->getActiveSheet()->getSelectedCells();
    }

    /**
     * Get the currently active cell coordinate in currently active sheet.
     * Only used for supervisor.
     *
     * @return string E.g. 'A1'
     */
    public function getActiveCell()
    {
        return $this->getActiveSheet()->getActiveCell();
    }

    /**
     * Implement PHP __clone to create a deep clone, not just a shallow
copy.
     */
    public function __clone()
    {
        $vars = get_object_vars($this);
        foreach ($vars as $key => $value) {
            if ((is_object($value)) && ($key !=
'parent')) {
                $this->$key = clone $value;
            } else {
                $this->$key = $value;
            }
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Worksheet/AutoFilter/Column/Rule.php000064400000041315151165414050025445
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Worksheet\AutoFilter\Column;

use PhpOffice\PhpSpreadsheet\Exception as PhpSpreadsheetException;
use PhpOffice\PhpSpreadsheet\Worksheet\AutoFilter\Column;

class Rule
{
    const AUTOFILTER_RULETYPE_FILTER = 'filter';
    const AUTOFILTER_RULETYPE_DATEGROUP = 'dateGroupItem';
    const AUTOFILTER_RULETYPE_CUSTOMFILTER = 'customFilter';
    const AUTOFILTER_RULETYPE_DYNAMICFILTER = 'dynamicFilter';
    const AUTOFILTER_RULETYPE_TOPTENFILTER = 'top10Filter';

    private static $ruleTypes = [
        //    Currently we're not handling
        //        colorFilter
        //        extLst
        //        iconFilter
        self::AUTOFILTER_RULETYPE_FILTER,
        self::AUTOFILTER_RULETYPE_DATEGROUP,
        self::AUTOFILTER_RULETYPE_CUSTOMFILTER,
        self::AUTOFILTER_RULETYPE_DYNAMICFILTER,
        self::AUTOFILTER_RULETYPE_TOPTENFILTER,
    ];

    const AUTOFILTER_RULETYPE_DATEGROUP_YEAR = 'year';
    const AUTOFILTER_RULETYPE_DATEGROUP_MONTH = 'month';
    const AUTOFILTER_RULETYPE_DATEGROUP_DAY = 'day';
    const AUTOFILTER_RULETYPE_DATEGROUP_HOUR = 'hour';
    const AUTOFILTER_RULETYPE_DATEGROUP_MINUTE = 'minute';
    const AUTOFILTER_RULETYPE_DATEGROUP_SECOND = 'second';

    private static $dateTimeGroups = [
        self::AUTOFILTER_RULETYPE_DATEGROUP_YEAR,
        self::AUTOFILTER_RULETYPE_DATEGROUP_MONTH,
        self::AUTOFILTER_RULETYPE_DATEGROUP_DAY,
        self::AUTOFILTER_RULETYPE_DATEGROUP_HOUR,
        self::AUTOFILTER_RULETYPE_DATEGROUP_MINUTE,
        self::AUTOFILTER_RULETYPE_DATEGROUP_SECOND,
    ];

    const AUTOFILTER_RULETYPE_DYNAMIC_YESTERDAY = 'yesterday';
    const AUTOFILTER_RULETYPE_DYNAMIC_TODAY = 'today';
    const AUTOFILTER_RULETYPE_DYNAMIC_TOMORROW = 'tomorrow';
    const AUTOFILTER_RULETYPE_DYNAMIC_YEARTODATE = 'yearToDate';
    const AUTOFILTER_RULETYPE_DYNAMIC_THISYEAR = 'thisYear';
    const AUTOFILTER_RULETYPE_DYNAMIC_THISQUARTER =
'thisQuarter';
    const AUTOFILTER_RULETYPE_DYNAMIC_THISMONTH = 'thisMonth';
    const AUTOFILTER_RULETYPE_DYNAMIC_THISWEEK = 'thisWeek';
    const AUTOFILTER_RULETYPE_DYNAMIC_LASTYEAR = 'lastYear';
    const AUTOFILTER_RULETYPE_DYNAMIC_LASTQUARTER =
'lastQuarter';
    const AUTOFILTER_RULETYPE_DYNAMIC_LASTMONTH = 'lastMonth';
    const AUTOFILTER_RULETYPE_DYNAMIC_LASTWEEK = 'lastWeek';
    const AUTOFILTER_RULETYPE_DYNAMIC_NEXTYEAR = 'nextYear';
    const AUTOFILTER_RULETYPE_DYNAMIC_NEXTQUARTER =
'nextQuarter';
    const AUTOFILTER_RULETYPE_DYNAMIC_NEXTMONTH = 'nextMonth';
    const AUTOFILTER_RULETYPE_DYNAMIC_NEXTWEEK = 'nextWeek';
    const AUTOFILTER_RULETYPE_DYNAMIC_MONTH_1 = 'M1';
    const AUTOFILTER_RULETYPE_DYNAMIC_JANUARY =
self::AUTOFILTER_RULETYPE_DYNAMIC_MONTH_1;
    const AUTOFILTER_RULETYPE_DYNAMIC_MONTH_2 = 'M2';
    const AUTOFILTER_RULETYPE_DYNAMIC_FEBRUARY =
self::AUTOFILTER_RULETYPE_DYNAMIC_MONTH_2;
    const AUTOFILTER_RULETYPE_DYNAMIC_MONTH_3 = 'M3';
    const AUTOFILTER_RULETYPE_DYNAMIC_MARCH =
self::AUTOFILTER_RULETYPE_DYNAMIC_MONTH_3;
    const AUTOFILTER_RULETYPE_DYNAMIC_MONTH_4 = 'M4';
    const AUTOFILTER_RULETYPE_DYNAMIC_APRIL =
self::AUTOFILTER_RULETYPE_DYNAMIC_MONTH_4;
    const AUTOFILTER_RULETYPE_DYNAMIC_MONTH_5 = 'M5';
    const AUTOFILTER_RULETYPE_DYNAMIC_MAY =
self::AUTOFILTER_RULETYPE_DYNAMIC_MONTH_5;
    const AUTOFILTER_RULETYPE_DYNAMIC_MONTH_6 = 'M6';
    const AUTOFILTER_RULETYPE_DYNAMIC_JUNE =
self::AUTOFILTER_RULETYPE_DYNAMIC_MONTH_6;
    const AUTOFILTER_RULETYPE_DYNAMIC_MONTH_7 = 'M7';
    const AUTOFILTER_RULETYPE_DYNAMIC_JULY =
self::AUTOFILTER_RULETYPE_DYNAMIC_MONTH_7;
    const AUTOFILTER_RULETYPE_DYNAMIC_MONTH_8 = 'M8';
    const AUTOFILTER_RULETYPE_DYNAMIC_AUGUST =
self::AUTOFILTER_RULETYPE_DYNAMIC_MONTH_8;
    const AUTOFILTER_RULETYPE_DYNAMIC_MONTH_9 = 'M9';
    const AUTOFILTER_RULETYPE_DYNAMIC_SEPTEMBER =
self::AUTOFILTER_RULETYPE_DYNAMIC_MONTH_9;
    const AUTOFILTER_RULETYPE_DYNAMIC_MONTH_10 = 'M10';
    const AUTOFILTER_RULETYPE_DYNAMIC_OCTOBER =
self::AUTOFILTER_RULETYPE_DYNAMIC_MONTH_10;
    const AUTOFILTER_RULETYPE_DYNAMIC_MONTH_11 = 'M11';
    const AUTOFILTER_RULETYPE_DYNAMIC_NOVEMBER =
self::AUTOFILTER_RULETYPE_DYNAMIC_MONTH_11;
    const AUTOFILTER_RULETYPE_DYNAMIC_MONTH_12 = 'M12';
    const AUTOFILTER_RULETYPE_DYNAMIC_DECEMBER =
self::AUTOFILTER_RULETYPE_DYNAMIC_MONTH_12;
    const AUTOFILTER_RULETYPE_DYNAMIC_QUARTER_1 = 'Q1';
    const AUTOFILTER_RULETYPE_DYNAMIC_QUARTER_2 = 'Q2';
    const AUTOFILTER_RULETYPE_DYNAMIC_QUARTER_3 = 'Q3';
    const AUTOFILTER_RULETYPE_DYNAMIC_QUARTER_4 = 'Q4';
    const AUTOFILTER_RULETYPE_DYNAMIC_ABOVEAVERAGE =
'aboveAverage';
    const AUTOFILTER_RULETYPE_DYNAMIC_BELOWAVERAGE =
'belowAverage';

    private static $dynamicTypes = [
        self::AUTOFILTER_RULETYPE_DYNAMIC_YESTERDAY,
        self::AUTOFILTER_RULETYPE_DYNAMIC_TODAY,
        self::AUTOFILTER_RULETYPE_DYNAMIC_TOMORROW,
        self::AUTOFILTER_RULETYPE_DYNAMIC_YEARTODATE,
        self::AUTOFILTER_RULETYPE_DYNAMIC_THISYEAR,
        self::AUTOFILTER_RULETYPE_DYNAMIC_THISQUARTER,
        self::AUTOFILTER_RULETYPE_DYNAMIC_THISMONTH,
        self::AUTOFILTER_RULETYPE_DYNAMIC_THISWEEK,
        self::AUTOFILTER_RULETYPE_DYNAMIC_LASTYEAR,
        self::AUTOFILTER_RULETYPE_DYNAMIC_LASTQUARTER,
        self::AUTOFILTER_RULETYPE_DYNAMIC_LASTMONTH,
        self::AUTOFILTER_RULETYPE_DYNAMIC_LASTWEEK,
        self::AUTOFILTER_RULETYPE_DYNAMIC_NEXTYEAR,
        self::AUTOFILTER_RULETYPE_DYNAMIC_NEXTQUARTER,
        self::AUTOFILTER_RULETYPE_DYNAMIC_NEXTMONTH,
        self::AUTOFILTER_RULETYPE_DYNAMIC_NEXTWEEK,
        self::AUTOFILTER_RULETYPE_DYNAMIC_MONTH_1,
        self::AUTOFILTER_RULETYPE_DYNAMIC_MONTH_2,
        self::AUTOFILTER_RULETYPE_DYNAMIC_MONTH_3,
        self::AUTOFILTER_RULETYPE_DYNAMIC_MONTH_4,
        self::AUTOFILTER_RULETYPE_DYNAMIC_MONTH_5,
        self::AUTOFILTER_RULETYPE_DYNAMIC_MONTH_6,
        self::AUTOFILTER_RULETYPE_DYNAMIC_MONTH_7,
        self::AUTOFILTER_RULETYPE_DYNAMIC_MONTH_8,
        self::AUTOFILTER_RULETYPE_DYNAMIC_MONTH_9,
        self::AUTOFILTER_RULETYPE_DYNAMIC_MONTH_10,
        self::AUTOFILTER_RULETYPE_DYNAMIC_MONTH_11,
        self::AUTOFILTER_RULETYPE_DYNAMIC_MONTH_12,
        self::AUTOFILTER_RULETYPE_DYNAMIC_QUARTER_1,
        self::AUTOFILTER_RULETYPE_DYNAMIC_QUARTER_2,
        self::AUTOFILTER_RULETYPE_DYNAMIC_QUARTER_3,
        self::AUTOFILTER_RULETYPE_DYNAMIC_QUARTER_4,
        self::AUTOFILTER_RULETYPE_DYNAMIC_ABOVEAVERAGE,
        self::AUTOFILTER_RULETYPE_DYNAMIC_BELOWAVERAGE,
    ];

    /*
     *    The only valid filter rule operators for filter and customFilter
types are:
     *        <xsd:enumeration value="equal"/>
     *        <xsd:enumeration value="lessThan"/>
     *        <xsd:enumeration value="lessThanOrEqual"/>
     *        <xsd:enumeration value="notEqual"/>
     *        <xsd:enumeration value="greaterThanOrEqual"/>
     *        <xsd:enumeration value="greaterThan"/>
     */
    const AUTOFILTER_COLUMN_RULE_EQUAL = 'equal';
    const AUTOFILTER_COLUMN_RULE_NOTEQUAL = 'notEqual';
    const AUTOFILTER_COLUMN_RULE_GREATERTHAN = 'greaterThan';
    const AUTOFILTER_COLUMN_RULE_GREATERTHANOREQUAL =
'greaterThanOrEqual';
    const AUTOFILTER_COLUMN_RULE_LESSTHAN = 'lessThan';
    const AUTOFILTER_COLUMN_RULE_LESSTHANOREQUAL =
'lessThanOrEqual';

    private static $operators = [
        self::AUTOFILTER_COLUMN_RULE_EQUAL,
        self::AUTOFILTER_COLUMN_RULE_NOTEQUAL,
        self::AUTOFILTER_COLUMN_RULE_GREATERTHAN,
        self::AUTOFILTER_COLUMN_RULE_GREATERTHANOREQUAL,
        self::AUTOFILTER_COLUMN_RULE_LESSTHAN,
        self::AUTOFILTER_COLUMN_RULE_LESSTHANOREQUAL,
    ];

    const AUTOFILTER_COLUMN_RULE_TOPTEN_BY_VALUE = 'byValue';
    const AUTOFILTER_COLUMN_RULE_TOPTEN_PERCENT = 'byPercent';

    private static $topTenValue = [
        self::AUTOFILTER_COLUMN_RULE_TOPTEN_BY_VALUE,
        self::AUTOFILTER_COLUMN_RULE_TOPTEN_PERCENT,
    ];

    const AUTOFILTER_COLUMN_RULE_TOPTEN_TOP = 'top';
    const AUTOFILTER_COLUMN_RULE_TOPTEN_BOTTOM = 'bottom';

    private static $topTenType = [
        self::AUTOFILTER_COLUMN_RULE_TOPTEN_TOP,
        self::AUTOFILTER_COLUMN_RULE_TOPTEN_BOTTOM,
    ];

    // Rule Operators (Numeric, Boolean etc)
//    const AUTOFILTER_COLUMN_RULE_BETWEEN            =
'between';        //    greaterThanOrEqual 1 &&
lessThanOrEqual 2
    // Rule Operators (Numeric Special) which are translated to standard
numeric operators with calculated values
//    const AUTOFILTER_COLUMN_RULE_TOPTEN                =
'topTen';            //    greaterThan calculated value
//    const AUTOFILTER_COLUMN_RULE_TOPTENPERCENT        =
'topTenPercent';    //    greaterThan calculated value
//    const AUTOFILTER_COLUMN_RULE_ABOVEAVERAGE        =
'aboveAverage';    //    Value is calculated as the average
//    const AUTOFILTER_COLUMN_RULE_BELOWAVERAGE        =
'belowAverage';    //    Value is calculated as the average
    // Rule Operators (String) which are set as wild-carded values
//    const AUTOFILTER_COLUMN_RULE_BEGINSWITH            =
'beginsWith';            // A*
//    const AUTOFILTER_COLUMN_RULE_ENDSWITH            =
'endsWith';            // *Z
//    const AUTOFILTER_COLUMN_RULE_CONTAINS            =
'contains';            // *B*
//    const AUTOFILTER_COLUMN_RULE_DOESNTCONTAIN        =
'notEqual';            //    notEqual *B*
    // Rule Operators (Date Special) which are translated to standard
numeric operators with calculated values
//    const AUTOFILTER_COLUMN_RULE_BEFORE                =
'lessThan';
//    const AUTOFILTER_COLUMN_RULE_AFTER                =
'greaterThan';
//    const AUTOFILTER_COLUMN_RULE_YESTERDAY            =
'yesterday';
//    const AUTOFILTER_COLUMN_RULE_TODAY                =
'today';
//    const AUTOFILTER_COLUMN_RULE_TOMORROW            =
'tomorrow';
//    const AUTOFILTER_COLUMN_RULE_LASTWEEK            =
'lastWeek';
//    const AUTOFILTER_COLUMN_RULE_THISWEEK            =
'thisWeek';
//    const AUTOFILTER_COLUMN_RULE_NEXTWEEK            =
'nextWeek';
//    const AUTOFILTER_COLUMN_RULE_LASTMONTH            =
'lastMonth';
//    const AUTOFILTER_COLUMN_RULE_THISMONTH            =
'thisMonth';
//    const AUTOFILTER_COLUMN_RULE_NEXTMONTH            =
'nextMonth';
//    const AUTOFILTER_COLUMN_RULE_LASTQUARTER        =
'lastQuarter';
//    const AUTOFILTER_COLUMN_RULE_THISQUARTER        =
'thisQuarter';
//    const AUTOFILTER_COLUMN_RULE_NEXTQUARTER        =
'nextQuarter';
//    const AUTOFILTER_COLUMN_RULE_LASTYEAR            =
'lastYear';
//    const AUTOFILTER_COLUMN_RULE_THISYEAR            =
'thisYear';
//    const AUTOFILTER_COLUMN_RULE_NEXTYEAR            =
'nextYear';
//    const AUTOFILTER_COLUMN_RULE_YEARTODATE            =
'yearToDate';            //    <dynamicFilter
val="40909" type="yearToDate"
maxVal="41113"/>
//    const AUTOFILTER_COLUMN_RULE_ALLDATESINMONTH    =
'allDatesInMonth';    //    <dynamicFilter
type="M2"/> for Month/February
//    const AUTOFILTER_COLUMN_RULE_ALLDATESINQUARTER    =
'allDatesInQuarter';    //    <dynamicFilter
type="Q2"/> for Quarter 2

    /**
     * Autofilter Column.
     *
     * @var Column
     */
    private $parent;

    /**
     * Autofilter Rule Type.
     *
     * @var string
     */
    private $ruleType = self::AUTOFILTER_RULETYPE_FILTER;

    /**
     * Autofilter Rule Value.
     *
     * @var string
     */
    private $value = '';

    /**
     * Autofilter Rule Operator.
     *
     * @var string
     */
    private $operator = self::AUTOFILTER_COLUMN_RULE_EQUAL;

    /**
     * DateTimeGrouping Group Value.
     *
     * @var string
     */
    private $grouping = '';

    /**
     * Create a new Rule.
     *
     * @param Column $pParent
     */
    public function __construct(Column $pParent = null)
    {
        $this->parent = $pParent;
    }

    /**
     * Get AutoFilter Rule Type.
     *
     * @return string
     */
    public function getRuleType()
    {
        return $this->ruleType;
    }

    /**
     * Set AutoFilter Rule Type.
     *
     * @param string $pRuleType see self::AUTOFILTER_RULETYPE_*
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function setRuleType($pRuleType)
    {
        if (!in_array($pRuleType, self::$ruleTypes)) {
            throw new PhpSpreadsheetException('Invalid rule type for
column AutoFilter Rule.');
        }

        $this->ruleType = $pRuleType;

        return $this;
    }

    /**
     * Get AutoFilter Rule Value.
     *
     * @return string
     */
    public function getValue()
    {
        return $this->value;
    }

    /**
     * Set AutoFilter Rule Value.
     *
     * @param string|string[] $pValue
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function setValue($pValue)
    {
        if (is_array($pValue)) {
            $grouping = -1;
            foreach ($pValue as $key => $value) {
                //    Validate array entries
                if (!in_array($key, self::$dateTimeGroups)) {
                    //    Remove any invalid entries from the value array
                    unset($pValue[$key]);
                } else {
                    //    Work out what the dateTime grouping will be
                    $grouping = max($grouping, array_search($key,
self::$dateTimeGroups));
                }
            }
            if (count($pValue) == 0) {
                throw new PhpSpreadsheetException('Invalid rule value
for column AutoFilter Rule.');
            }
            //    Set the dateTime grouping that we've anticipated
            $this->setGrouping(self::$dateTimeGroups[$grouping]);
        }
        $this->value = $pValue;

        return $this;
    }

    /**
     * Get AutoFilter Rule Operator.
     *
     * @return string
     */
    public function getOperator()
    {
        return $this->operator;
    }

    /**
     * Set AutoFilter Rule Operator.
     *
     * @param string $pOperator see self::AUTOFILTER_COLUMN_RULE_*
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function setOperator($pOperator)
    {
        if (empty($pOperator)) {
            $pOperator = self::AUTOFILTER_COLUMN_RULE_EQUAL;
        }
        if ((!in_array($pOperator, self::$operators)) &&
            (!in_array($pOperator, self::$topTenValue))) {
            throw new PhpSpreadsheetException('Invalid operator for
column AutoFilter Rule.');
        }
        $this->operator = $pOperator;

        return $this;
    }

    /**
     * Get AutoFilter Rule Grouping.
     *
     * @return string
     */
    public function getGrouping()
    {
        return $this->grouping;
    }

    /**
     * Set AutoFilter Rule Grouping.
     *
     * @param string $pGrouping
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function setGrouping($pGrouping)
    {
        if (($pGrouping !== null) &&
            (!in_array($pGrouping, self::$dateTimeGroups)) &&
            (!in_array($pGrouping, self::$dynamicTypes)) &&
            (!in_array($pGrouping, self::$topTenType))) {
            throw new PhpSpreadsheetException('Invalid rule type for
column AutoFilter Rule.');
        }
        $this->grouping = $pGrouping;

        return $this;
    }

    /**
     * Set AutoFilter Rule.
     *
     * @param string $pOperator see self::AUTOFILTER_COLUMN_RULE_*
     * @param string|string[] $pValue
     * @param string $pGrouping
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function setRule($pOperator, $pValue, $pGrouping = null)
    {
        $this->setOperator($pOperator);
        $this->setValue($pValue);
        //  Only set grouping if it's been passed in as a
user-supplied argument,
        //      otherwise we're calculating it when we setValue() and
don't want to overwrite that
        //      If the user supplies an argumnet for grouping, then on
their own head be it
        if ($pGrouping !== null) {
            $this->setGrouping($pGrouping);
        }

        return $this;
    }

    /**
     * Get this Rule's AutoFilter Column Parent.
     *
     * @return Column
     */
    public function getParent()
    {
        return $this->parent;
    }

    /**
     * Set this Rule's AutoFilter Column Parent.
     *
     * @param Column $pParent
     *
     * @return $this
     */
    public function setParent(Column $pParent = null)
    {
        $this->parent = $pParent;

        return $this;
    }

    /**
     * Implement PHP __clone to create a deep clone, not just a shallow
copy.
     */
    public function __clone()
    {
        $vars = get_object_vars($this);
        foreach ($vars as $key => $value) {
            if (is_object($value)) {
                if ($key == 'parent') {
                    //    Detach from autofilter column parent
                    $this->$key = null;
                } else {
                    $this->$key = clone $value;
                }
            } else {
                $this->$key = $value;
            }
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Worksheet/AutoFilter/Column.php000064400000021210151165414050024526
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Worksheet\AutoFilter;

use PhpOffice\PhpSpreadsheet\Exception as PhpSpreadsheetException;
use PhpOffice\PhpSpreadsheet\Worksheet\AutoFilter;

class Column
{
    const AUTOFILTER_FILTERTYPE_FILTER = 'filters';
    const AUTOFILTER_FILTERTYPE_CUSTOMFILTER = 'customFilters';
    //    Supports no more than 2 rules, with an And/Or join criteria
    //        if more than 1 rule is defined
    const AUTOFILTER_FILTERTYPE_DYNAMICFILTER = 'dynamicFilter';
    //    Even though the filter rule is constant, the filtered data can
vary
    //        e.g. filtered by date = TODAY
    const AUTOFILTER_FILTERTYPE_TOPTENFILTER = 'top10';

    /**
     * Types of autofilter rules.
     *
     * @var string[]
     */
    private static $filterTypes = [
        //    Currently we're not handling
        //        colorFilter
        //        extLst
        //        iconFilter
        self::AUTOFILTER_FILTERTYPE_FILTER,
        self::AUTOFILTER_FILTERTYPE_CUSTOMFILTER,
        self::AUTOFILTER_FILTERTYPE_DYNAMICFILTER,
        self::AUTOFILTER_FILTERTYPE_TOPTENFILTER,
    ];

    // Multiple Rule Connections
    const AUTOFILTER_COLUMN_JOIN_AND = 'and';
    const AUTOFILTER_COLUMN_JOIN_OR = 'or';

    /**
     * Join options for autofilter rules.
     *
     * @var string[]
     */
    private static $ruleJoins = [
        self::AUTOFILTER_COLUMN_JOIN_AND,
        self::AUTOFILTER_COLUMN_JOIN_OR,
    ];

    /**
     * Autofilter.
     *
     * @var AutoFilter
     */
    private $parent;

    /**
     * Autofilter Column Index.
     *
     * @var string
     */
    private $columnIndex = '';

    /**
     * Autofilter Column Filter Type.
     *
     * @var string
     */
    private $filterType = self::AUTOFILTER_FILTERTYPE_FILTER;

    /**
     * Autofilter Multiple Rules And/Or.
     *
     * @var string
     */
    private $join = self::AUTOFILTER_COLUMN_JOIN_OR;

    /**
     * Autofilter Column Rules.
     *
     * @var array of Column\Rule
     */
    private $ruleset = [];

    /**
     * Autofilter Column Dynamic Attributes.
     *
     * @var array of mixed
     */
    private $attributes = [];

    /**
     * Create a new Column.
     *
     * @param string $pColumn Column (e.g. A)
     * @param AutoFilter $pParent Autofilter for this column
     */
    public function __construct($pColumn, AutoFilter $pParent = null)
    {
        $this->columnIndex = $pColumn;
        $this->parent = $pParent;
    }

    /**
     * Get AutoFilter column index as string eg: 'A'.
     *
     * @return string
     */
    public function getColumnIndex()
    {
        return $this->columnIndex;
    }

    /**
     * Set AutoFilter column index as string eg: 'A'.
     *
     * @param string $pColumn Column (e.g. A)
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function setColumnIndex($pColumn)
    {
        // Uppercase coordinate
        $pColumn = strtoupper($pColumn);
        if ($this->parent !== null) {
            $this->parent->testColumnInRange($pColumn);
        }

        $this->columnIndex = $pColumn;

        return $this;
    }

    /**
     * Get this Column's AutoFilter Parent.
     *
     * @return AutoFilter
     */
    public function getParent()
    {
        return $this->parent;
    }

    /**
     * Set this Column's AutoFilter Parent.
     *
     * @param AutoFilter $pParent
     *
     * @return $this
     */
    public function setParent(AutoFilter $pParent = null)
    {
        $this->parent = $pParent;

        return $this;
    }

    /**
     * Get AutoFilter Type.
     *
     * @return string
     */
    public function getFilterType()
    {
        return $this->filterType;
    }

    /**
     * Set AutoFilter Type.
     *
     * @param string $pFilterType
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function setFilterType($pFilterType)
    {
        if (!in_array($pFilterType, self::$filterTypes)) {
            throw new PhpSpreadsheetException('Invalid filter type for
column AutoFilter.');
        }

        $this->filterType = $pFilterType;

        return $this;
    }

    /**
     * Get AutoFilter Multiple Rules And/Or Join.
     *
     * @return string
     */
    public function getJoin()
    {
        return $this->join;
    }

    /**
     * Set AutoFilter Multiple Rules And/Or.
     *
     * @param string $pJoin And/Or
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function setJoin($pJoin)
    {
        // Lowercase And/Or
        $pJoin = strtolower($pJoin);
        if (!in_array($pJoin, self::$ruleJoins)) {
            throw new PhpSpreadsheetException('Invalid rule connection
for column AutoFilter.');
        }

        $this->join = $pJoin;

        return $this;
    }

    /**
     * Set AutoFilter Attributes.
     *
     * @param string[] $attributes
     *
     * @return $this
     */
    public function setAttributes(array $attributes)
    {
        $this->attributes = $attributes;

        return $this;
    }

    /**
     * Set An AutoFilter Attribute.
     *
     * @param string $pName Attribute Name
     * @param string $pValue Attribute Value
     *
     * @return $this
     */
    public function setAttribute($pName, $pValue)
    {
        $this->attributes[$pName] = $pValue;

        return $this;
    }

    /**
     * Get AutoFilter Column Attributes.
     *
     * @return string[]
     */
    public function getAttributes()
    {
        return $this->attributes;
    }

    /**
     * Get specific AutoFilter Column Attribute.
     *
     * @param string $pName Attribute Name
     *
     * @return string
     */
    public function getAttribute($pName)
    {
        if (isset($this->attributes[$pName])) {
            return $this->attributes[$pName];
        }

        return null;
    }

    /**
     * Get all AutoFilter Column Rules.
     *
     * @return Column\Rule[]
     */
    public function getRules()
    {
        return $this->ruleset;
    }

    /**
     * Get a specified AutoFilter Column Rule.
     *
     * @param int $pIndex Rule index in the ruleset array
     *
     * @return Column\Rule
     */
    public function getRule($pIndex)
    {
        if (!isset($this->ruleset[$pIndex])) {
            $this->ruleset[$pIndex] = new Column\Rule($this);
        }

        return $this->ruleset[$pIndex];
    }

    /**
     * Create a new AutoFilter Column Rule in the ruleset.
     *
     * @return Column\Rule
     */
    public function createRule()
    {
        $this->ruleset[] = new Column\Rule($this);

        return end($this->ruleset);
    }

    /**
     * Add a new AutoFilter Column Rule to the ruleset.
     *
     * @param Column\Rule $pRule
     *
     * @return $this
     */
    public function addRule(Column\Rule $pRule)
    {
        $pRule->setParent($this);
        $this->ruleset[] = $pRule;

        return $this;
    }

    /**
     * Delete a specified AutoFilter Column Rule
     * If the number of rules is reduced to 1, then we reset And/Or logic
to Or.
     *
     * @param int $pIndex Rule index in the ruleset array
     *
     * @return $this
     */
    public function deleteRule($pIndex)
    {
        if (isset($this->ruleset[$pIndex])) {
            unset($this->ruleset[$pIndex]);
            //    If we've just deleted down to a single rule, then
reset And/Or joining to Or
            if (count($this->ruleset) <= 1) {
                $this->setJoin(self::AUTOFILTER_COLUMN_JOIN_OR);
            }
        }

        return $this;
    }

    /**
     * Delete all AutoFilter Column Rules.
     *
     * @return $this
     */
    public function clearRules()
    {
        $this->ruleset = [];
        $this->setJoin(self::AUTOFILTER_COLUMN_JOIN_OR);

        return $this;
    }

    /**
     * Implement PHP __clone to create a deep clone, not just a shallow
copy.
     */
    public function __clone()
    {
        $vars = get_object_vars($this);
        foreach ($vars as $key => $value) {
            if ($key === 'parent') {
                // Detach from autofilter parent
                $this->parent = null;
            } elseif ($key === 'ruleset') {
                // The columns array of
\PhpOffice\PhpSpreadsheet\Worksheet\Worksheet\AutoFilter objects
                $this->ruleset = [];
                foreach ($value as $k => $v) {
                    $cloned = clone $v;
                    $cloned->setParent($this); // attach the new cloned
Rule to this new cloned Autofilter Cloned object
                    $this->ruleset[$k] = $cloned;
                }
            } elseif (is_object($value)) {
                $this->$key = clone $value;
            } else {
                $this->$key = $value;
            }
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Worksheet/AutoFilter.php000064400000105114151165414050023277
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Worksheet;

use PhpOffice\PhpSpreadsheet\Calculation\Calculation;
use PhpOffice\PhpSpreadsheet\Calculation\DateTime;
use PhpOffice\PhpSpreadsheet\Calculation\Functions;
use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\Exception as PhpSpreadsheetException;
use PhpOffice\PhpSpreadsheet\Shared\Date;

class AutoFilter
{
    /**
     * Autofilter Worksheet.
     *
     * @var Worksheet
     */
    private $workSheet;

    /**
     * Autofilter Range.
     *
     * @var string
     */
    private $range = '';

    /**
     * Autofilter Column Ruleset.
     *
     * @var AutoFilter\Column[]
     */
    private $columns = [];

    /**
     * Create a new AutoFilter.
     *
     * @param string $pRange Cell range (i.e. A1:E10)
     * @param Worksheet $pSheet
     */
    public function __construct($pRange = '', Worksheet $pSheet =
null)
    {
        $this->range = $pRange;
        $this->workSheet = $pSheet;
    }

    /**
     * Get AutoFilter Parent Worksheet.
     *
     * @return Worksheet
     */
    public function getParent()
    {
        return $this->workSheet;
    }

    /**
     * Set AutoFilter Parent Worksheet.
     *
     * @param Worksheet $pSheet
     *
     * @return $this
     */
    public function setParent(Worksheet $pSheet = null)
    {
        $this->workSheet = $pSheet;

        return $this;
    }

    /**
     * Get AutoFilter Range.
     *
     * @return string
     */
    public function getRange()
    {
        return $this->range;
    }

    /**
     * Set AutoFilter Range.
     *
     * @param string $pRange Cell range (i.e. A1:E10)
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function setRange($pRange)
    {
        // extract coordinate
        [$worksheet, $pRange] = Worksheet::extractSheetTitle($pRange,
true);

        if (strpos($pRange, ':') !== false) {
            $this->range = $pRange;
        } elseif (empty($pRange)) {
            $this->range = '';
        } else {
            throw new PhpSpreadsheetException('Autofilter must be set
on a range of cells.');
        }

        if (empty($pRange)) {
            //    Discard all column rules
            $this->columns = [];
        } else {
            //    Discard any column rules that are no longer valid within
this range
            [$rangeStart, $rangeEnd] =
Coordinate::rangeBoundaries($this->range);
            foreach ($this->columns as $key => $value) {
                $colIndex = Coordinate::columnIndexFromString($key);
                if (($rangeStart[0] > $colIndex) || ($rangeEnd[0] <
$colIndex)) {
                    unset($this->columns[$key]);
                }
            }
        }

        return $this;
    }

    /**
     * Get all AutoFilter Columns.
     *
     * @return AutoFilter\Column[]
     */
    public function getColumns()
    {
        return $this->columns;
    }

    /**
     * Validate that the specified column is in the AutoFilter range.
     *
     * @param string $column Column name (e.g. A)
     *
     * @throws PhpSpreadsheetException
     *
     * @return int The column offset within the autofilter range
     */
    public function testColumnInRange($column)
    {
        if (empty($this->range)) {
            throw new PhpSpreadsheetException('No autofilter range is
defined.');
        }

        $columnIndex = Coordinate::columnIndexFromString($column);
        [$rangeStart, $rangeEnd] =
Coordinate::rangeBoundaries($this->range);
        if (($rangeStart[0] > $columnIndex) || ($rangeEnd[0] <
$columnIndex)) {
            throw new PhpSpreadsheetException('Column is outside of
current autofilter range.');
        }

        return $columnIndex - $rangeStart[0];
    }

    /**
     * Get a specified AutoFilter Column Offset within the defined
AutoFilter range.
     *
     * @param string $pColumn Column name (e.g. A)
     *
     * @throws PhpSpreadsheetException
     *
     * @return int The offset of the specified column within the autofilter
range
     */
    public function getColumnOffset($pColumn)
    {
        return $this->testColumnInRange($pColumn);
    }

    /**
     * Get a specified AutoFilter Column.
     *
     * @param string $pColumn Column name (e.g. A)
     *
     * @throws PhpSpreadsheetException
     *
     * @return AutoFilter\Column
     */
    public function getColumn($pColumn)
    {
        $this->testColumnInRange($pColumn);

        if (!isset($this->columns[$pColumn])) {
            $this->columns[$pColumn] = new AutoFilter\Column($pColumn,
$this);
        }

        return $this->columns[$pColumn];
    }

    /**
     * Get a specified AutoFilter Column by it's offset.
     *
     * @param int $pColumnOffset Column offset within range (starting from
0)
     *
     * @throws PhpSpreadsheetException
     *
     * @return AutoFilter\Column
     */
    public function getColumnByOffset($pColumnOffset)
    {
        [$rangeStart, $rangeEnd] =
Coordinate::rangeBoundaries($this->range);
        $pColumn = Coordinate::stringFromColumnIndex($rangeStart[0] +
$pColumnOffset);

        return $this->getColumn($pColumn);
    }

    /**
     * Set AutoFilter.
     *
     * @param AutoFilter\Column|string $pColumn
     *            A simple string containing a Column ID like 'A'
is permitted
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function setColumn($pColumn)
    {
        if ((is_string($pColumn)) && (!empty($pColumn))) {
            $column = $pColumn;
        } elseif (is_object($pColumn) && ($pColumn instanceof
AutoFilter\Column)) {
            $column = $pColumn->getColumnIndex();
        } else {
            throw new PhpSpreadsheetException('Column is not within
the autofilter range.');
        }
        $this->testColumnInRange($column);

        if (is_string($pColumn)) {
            $this->columns[$pColumn] = new AutoFilter\Column($pColumn,
$this);
        } elseif (is_object($pColumn) && ($pColumn instanceof
AutoFilter\Column)) {
            $pColumn->setParent($this);
            $this->columns[$column] = $pColumn;
        }
        ksort($this->columns);

        return $this;
    }

    /**
     * Clear a specified AutoFilter Column.
     *
     * @param string $pColumn Column name (e.g. A)
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function clearColumn($pColumn)
    {
        $this->testColumnInRange($pColumn);

        if (isset($this->columns[$pColumn])) {
            unset($this->columns[$pColumn]);
        }

        return $this;
    }

    /**
     * Shift an AutoFilter Column Rule to a different column.
     *
     * Note: This method bypasses validation of the destination column to
ensure it is within this AutoFilter range.
     *        Nor does it verify whether any column rule already exists at
$toColumn, but will simply override any existing value.
     *        Use with caution.
     *
     * @param string $fromColumn Column name (e.g. A)
     * @param string $toColumn Column name (e.g. B)
     *
     * @return $this
     */
    public function shiftColumn($fromColumn, $toColumn)
    {
        $fromColumn = strtoupper($fromColumn);
        $toColumn = strtoupper($toColumn);

        if (($fromColumn !== null) &&
(isset($this->columns[$fromColumn])) && ($toColumn !== null)) {
            $this->columns[$fromColumn]->setParent();
            $this->columns[$fromColumn]->setColumnIndex($toColumn);
            $this->columns[$toColumn] = $this->columns[$fromColumn];
            $this->columns[$toColumn]->setParent($this);
            unset($this->columns[$fromColumn]);

            ksort($this->columns);
        }

        return $this;
    }

    /**
     * Test if cell value is in the defined set of values.
     *
     * @param mixed $cellValue
     * @param mixed[] $dataSet
     *
     * @return bool
     */
    private static function filterTestInSimpleDataSet($cellValue, $dataSet)
    {
        $dataSetValues = $dataSet['filterValues'];
        $blanks = $dataSet['blanks'];
        if (($cellValue == '') || ($cellValue === null)) {
            return $blanks;
        }

        return in_array($cellValue, $dataSetValues);
    }

    /**
     * Test if cell value is in the defined set of Excel date values.
     *
     * @param mixed $cellValue
     * @param mixed[] $dataSet
     *
     * @return bool
     */
    private static function filterTestInDateGroupSet($cellValue, $dataSet)
    {
        $dateSet = $dataSet['filterValues'];
        $blanks = $dataSet['blanks'];
        if (($cellValue == '') || ($cellValue === null)) {
            return $blanks;
        }

        if (is_numeric($cellValue)) {
            $dateValue = Date::excelToTimestamp($cellValue);
            if ($cellValue < 1) {
                //    Just the time part
                $dtVal = date('His', $dateValue);
                $dateSet = $dateSet['time'];
            } elseif ($cellValue == floor($cellValue)) {
                //    Just the date part
                $dtVal = date('Ymd', $dateValue);
                $dateSet = $dateSet['date'];
            } else {
                //    date and time parts
                $dtVal = date('YmdHis', $dateValue);
                $dateSet = $dateSet['dateTime'];
            }
            foreach ($dateSet as $dateValue) {
                //    Use of substr to extract value at the appropriate
group level
                if (substr($dtVal, 0, strlen($dateValue)) == $dateValue) {
                    return true;
                }
            }
        }

        return false;
    }

    /**
     * Test if cell value is within a set of values defined by a ruleset.
     *
     * @param mixed $cellValue
     * @param mixed[] $ruleSet
     *
     * @return bool
     */
    private static function filterTestInCustomDataSet($cellValue, $ruleSet)
    {
        $dataSet = $ruleSet['filterRules'];
        $join = $ruleSet['join'];
        $customRuleForBlanks = $ruleSet['customRuleForBlanks'] ??
false;

        if (!$customRuleForBlanks) {
            //    Blank cells are always ignored, so return a FALSE
            if (($cellValue == '') || ($cellValue === null)) {
                return false;
            }
        }
        $returnVal = ($join ==
AutoFilter\Column::AUTOFILTER_COLUMN_JOIN_AND);
        foreach ($dataSet as $rule) {
            $retVal = false;

            if (is_numeric($rule['value'])) {
                //    Numeric values are tested using the appropriate
operator
                switch ($rule['operator']) {
                    case
AutoFilter\Column\Rule::AUTOFILTER_COLUMN_RULE_EQUAL:
                        $retVal = ($cellValue == $rule['value']);

                        break;
                    case
AutoFilter\Column\Rule::AUTOFILTER_COLUMN_RULE_NOTEQUAL:
                        $retVal = ($cellValue != $rule['value']);

                        break;
                    case
AutoFilter\Column\Rule::AUTOFILTER_COLUMN_RULE_GREATERTHAN:
                        $retVal = ($cellValue >
$rule['value']);

                        break;
                    case
AutoFilter\Column\Rule::AUTOFILTER_COLUMN_RULE_GREATERTHANOREQUAL:
                        $retVal = ($cellValue >=
$rule['value']);

                        break;
                    case
AutoFilter\Column\Rule::AUTOFILTER_COLUMN_RULE_LESSTHAN:
                        $retVal = ($cellValue <
$rule['value']);

                        break;
                    case
AutoFilter\Column\Rule::AUTOFILTER_COLUMN_RULE_LESSTHANOREQUAL:
                        $retVal = ($cellValue <=
$rule['value']);

                        break;
                }
            } elseif ($rule['value'] == '') {
                switch ($rule['operator']) {
                    case
AutoFilter\Column\Rule::AUTOFILTER_COLUMN_RULE_EQUAL:
                        $retVal = (($cellValue == '') ||
($cellValue === null));

                        break;
                    case
AutoFilter\Column\Rule::AUTOFILTER_COLUMN_RULE_NOTEQUAL:
                        $retVal = (($cellValue != '') &&
($cellValue !== null));

                        break;
                    default:
                        $retVal = true;

                        break;
                }
            } else {
                //    String values are always tested for equality,
factoring in for wildcards (hence a regexp test)
                $retVal = preg_match('/^' .
$rule['value'] . '$/i', $cellValue);
            }
            //    If there are multiple conditions, then we need to test
both using the appropriate join operator
            switch ($join) {
                case AutoFilter\Column::AUTOFILTER_COLUMN_JOIN_OR:
                    $returnVal = $returnVal || $retVal;
                    //    Break as soon as we have a TRUE match for OR
joins,
                    //        to avoid unnecessary additional code
execution
                    if ($returnVal) {
                        return $returnVal;
                    }

                    break;
                case AutoFilter\Column::AUTOFILTER_COLUMN_JOIN_AND:
                    $returnVal = $returnVal && $retVal;

                    break;
            }
        }

        return $returnVal;
    }

    /**
     * Test if cell date value is matches a set of values defined by a set
of months.
     *
     * @param mixed $cellValue
     * @param mixed[] $monthSet
     *
     * @return bool
     */
    private static function filterTestInPeriodDateSet($cellValue,
$monthSet)
    {
        //    Blank cells are always ignored, so return a FALSE
        if (($cellValue == '') || ($cellValue === null)) {
            return false;
        }

        if (is_numeric($cellValue)) {
            $dateValue = date('m',
Date::excelToTimestamp($cellValue));
            if (in_array($dateValue, $monthSet)) {
                return true;
            }
        }

        return false;
    }

    /**
     * Search/Replace arrays to convert Excel wildcard syntax to a regexp
syntax for preg_matching.
     *
     * @var array
     */
    private static $fromReplace = ['\*', '\?',
'~~', '~.*', '~.?'];

    private static $toReplace = ['.*', '.',
'~', '\*', '\?'];

    /**
     * Convert a dynamic rule daterange to a custom filter range expression
for ease of calculation.
     *
     * @param string $dynamicRuleType
     * @param AutoFilter\Column $filterColumn
     *
     * @return mixed[]
     */
    private function dynamicFilterDateRange($dynamicRuleType,
&$filterColumn)
    {
        $rDateType = Functions::getReturnDateType();
        Functions::setReturnDateType(Functions::RETURNDATE_PHP_NUMERIC);
        $val = $maxVal = null;

        $ruleValues = [];
        $baseDate = DateTime::DATENOW();
        //    Calculate start/end dates for the required date range based
on current date
        switch ($dynamicRuleType) {
            case
AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DYNAMIC_LASTWEEK:
                $baseDate = strtotime('-7 days', $baseDate);

                break;
            case
AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DYNAMIC_NEXTWEEK:
                $baseDate = strtotime('-7 days', $baseDate);

                break;
            case
AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DYNAMIC_LASTMONTH:
                $baseDate = strtotime('-1 month', gmmktime(0, 0,
0, 1, date('m', $baseDate), date('Y', $baseDate)));

                break;
            case
AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DYNAMIC_NEXTMONTH:
                $baseDate = strtotime('+1 month', gmmktime(0, 0,
0, 1, date('m', $baseDate), date('Y', $baseDate)));

                break;
            case
AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DYNAMIC_LASTQUARTER:
                $baseDate = strtotime('-3 month', gmmktime(0, 0,
0, 1, date('m', $baseDate), date('Y', $baseDate)));

                break;
            case
AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DYNAMIC_NEXTQUARTER:
                $baseDate = strtotime('+3 month', gmmktime(0, 0,
0, 1, date('m', $baseDate), date('Y', $baseDate)));

                break;
            case
AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DYNAMIC_LASTYEAR:
                $baseDate = strtotime('-1 year', gmmktime(0, 0,
0, 1, date('m', $baseDate), date('Y', $baseDate)));

                break;
            case
AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DYNAMIC_NEXTYEAR:
                $baseDate = strtotime('+1 year', gmmktime(0, 0,
0, 1, date('m', $baseDate), date('Y', $baseDate)));

                break;
        }

        switch ($dynamicRuleType) {
            case AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DYNAMIC_TODAY:
            case
AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DYNAMIC_YESTERDAY:
            case
AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DYNAMIC_TOMORROW:
                $maxVal = (int) Date::PHPtoExcel(strtotime('+1
day', $baseDate));
                $val = (int) Date::PHPToExcel($baseDate);

                break;
            case
AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DYNAMIC_YEARTODATE:
                $maxVal = (int) Date::PHPtoExcel(strtotime('+1
day', $baseDate));
                $val = (int) Date::PHPToExcel(gmmktime(0, 0, 0, 1, 1,
date('Y', $baseDate)));

                break;
            case
AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DYNAMIC_THISYEAR:
            case
AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DYNAMIC_LASTYEAR:
            case
AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DYNAMIC_NEXTYEAR:
                $maxVal = (int) Date::PHPToExcel(gmmktime(0, 0, 0, 31, 12,
date('Y', $baseDate)));
                ++$maxVal;
                $val = (int) Date::PHPToExcel(gmmktime(0, 0, 0, 1, 1,
date('Y', $baseDate)));

                break;
            case
AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DYNAMIC_THISQUARTER:
            case
AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DYNAMIC_LASTQUARTER:
            case
AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DYNAMIC_NEXTQUARTER:
                $thisMonth = date('m', $baseDate);
                $thisQuarter = floor(--$thisMonth / 3);
                $maxVal = (int) Date::PHPtoExcel(gmmktime(0, 0, 0,
date('t', $baseDate), (1 + $thisQuarter) * 3, date('Y',
$baseDate)));
                ++$maxVal;
                $val = (int) Date::PHPToExcel(gmmktime(0, 0, 0, 1, 1 +
$thisQuarter * 3, date('Y', $baseDate)));

                break;
            case
AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DYNAMIC_THISMONTH:
            case
AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DYNAMIC_LASTMONTH:
            case
AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DYNAMIC_NEXTMONTH:
                $maxVal = (int) Date::PHPtoExcel(gmmktime(0, 0, 0,
date('t', $baseDate), date('m', $baseDate),
date('Y', $baseDate)));
                ++$maxVal;
                $val = (int) Date::PHPToExcel(gmmktime(0, 0, 0, 1,
date('m', $baseDate), date('Y', $baseDate)));

                break;
            case
AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DYNAMIC_THISWEEK:
            case
AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DYNAMIC_LASTWEEK:
            case
AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DYNAMIC_NEXTWEEK:
                $dayOfWeek = date('w', $baseDate);
                $val = (int) Date::PHPToExcel($baseDate) - $dayOfWeek;
                $maxVal = $val + 7;

                break;
        }

        switch ($dynamicRuleType) {
            //    Adjust Today dates for Yesterday and Tomorrow
            case
AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DYNAMIC_YESTERDAY:
                --$maxVal;
                --$val;

                break;
            case
AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DYNAMIC_TOMORROW:
                ++$maxVal;
                ++$val;

                break;
        }

        //    Set the filter column rule attributes ready for writing
        $filterColumn->setAttributes(['val' => $val,
'maxVal' => $maxVal]);

        //    Set the rules for identifying rows for hide/show
        $ruleValues[] = ['operator' =>
AutoFilter\Column\Rule::AUTOFILTER_COLUMN_RULE_GREATERTHANOREQUAL,
'value' => $val];
        $ruleValues[] = ['operator' =>
AutoFilter\Column\Rule::AUTOFILTER_COLUMN_RULE_LESSTHAN, 'value'
=> $maxVal];
        Functions::setReturnDateType($rDateType);

        return ['method' =>
'filterTestInCustomDataSet', 'arguments' =>
['filterRules' => $ruleValues, 'join' =>
AutoFilter\Column::AUTOFILTER_COLUMN_JOIN_AND]];
    }

    private function calculateTopTenValue($columnID, $startRow, $endRow,
$ruleType, $ruleValue)
    {
        $range = $columnID . $startRow . ':' . $columnID .
$endRow;
        $dataValues =
Functions::flattenArray($this->workSheet->rangeToArray($range, null,
true, false));

        $dataValues = array_filter($dataValues);
        if ($ruleType ==
AutoFilter\Column\Rule::AUTOFILTER_COLUMN_RULE_TOPTEN_TOP) {
            rsort($dataValues);
        } else {
            sort($dataValues);
        }

        return array_pop(array_slice($dataValues, 0, $ruleValue));
    }

    /**
     * Apply the AutoFilter rules to the AutoFilter Range.
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function showHideRows()
    {
        [$rangeStart, $rangeEnd] =
Coordinate::rangeBoundaries($this->range);

        //    The heading row should always be visible
       
$this->workSheet->getRowDimension($rangeStart[1])->setVisible(true);

        $columnFilterTests = [];
        foreach ($this->columns as $columnID => $filterColumn) {
            $rules = $filterColumn->getRules();
            switch ($filterColumn->getFilterType()) {
                case AutoFilter\Column::AUTOFILTER_FILTERTYPE_FILTER:
                    $ruleType = null;
                    $ruleValues = [];
                    //    Build a list of the filter value selections
                    foreach ($rules as $rule) {
                        $ruleType = $rule->getRuleType();
                        $ruleValues[] = $rule->getValue();
                    }
                    //    Test if we want to include blanks in our filter
criteria
                    $blanks = false;
                    $ruleDataSet = array_filter($ruleValues);
                    if (count($ruleValues) != count($ruleDataSet)) {
                        $blanks = true;
                    }
                    if ($ruleType ==
AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_FILTER) {
                        //    Filter on absolute values
                        $columnFilterTests[$columnID] = [
                            'method' =>
'filterTestInSimpleDataSet',
                            'arguments' =>
['filterValues' => $ruleDataSet, 'blanks' =>
$blanks],
                        ];
                    } else {
                        //    Filter on date group values
                        $arguments = [
                            'date' => [],
                            'time' => [],
                            'dateTime' => [],
                        ];
                        foreach ($ruleDataSet as $ruleValue) {
                            $date = $time = '';
                            if
((isset($ruleValue[AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DATEGROUP_YEAR]))
&&
                               
($ruleValue[AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DATEGROUP_YEAR] !==
'')) {
                                $date .= sprintf('%04d',
$ruleValue[AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DATEGROUP_YEAR]);
                            }
                            if
((isset($ruleValue[AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DATEGROUP_MONTH]))
&&
                               
($ruleValue[AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DATEGROUP_MONTH] !=
'')) {
                                $date .= sprintf('%02d',
$ruleValue[AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DATEGROUP_MONTH]);
                            }
                            if
((isset($ruleValue[AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DATEGROUP_DAY]))
&&
                               
($ruleValue[AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DATEGROUP_DAY] !==
'')) {
                                $date .= sprintf('%02d',
$ruleValue[AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DATEGROUP_DAY]);
                            }
                            if
((isset($ruleValue[AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DATEGROUP_HOUR]))
&&
                               
($ruleValue[AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DATEGROUP_HOUR] !==
'')) {
                                $time .= sprintf('%02d',
$ruleValue[AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DATEGROUP_HOUR]);
                            }
                            if
((isset($ruleValue[AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DATEGROUP_MINUTE]))
&&
                               
($ruleValue[AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DATEGROUP_MINUTE]
!== '')) {
                                $time .= sprintf('%02d',
$ruleValue[AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DATEGROUP_MINUTE]);
                            }
                            if
((isset($ruleValue[AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DATEGROUP_SECOND]))
&&
                               
($ruleValue[AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DATEGROUP_SECOND]
!== '')) {
                                $time .= sprintf('%02d',
$ruleValue[AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DATEGROUP_SECOND]);
                            }
                            $dateTime = $date . $time;
                            $arguments['date'][] = $date;
                            $arguments['time'][] = $time;
                            $arguments['dateTime'][] = $dateTime;
                        }
                        //    Remove empty elements
                        $arguments['date'] =
array_filter($arguments['date']);
                        $arguments['time'] =
array_filter($arguments['time']);
                        $arguments['dateTime'] =
array_filter($arguments['dateTime']);
                        $columnFilterTests[$columnID] = [
                            'method' =>
'filterTestInDateGroupSet',
                            'arguments' =>
['filterValues' => $arguments, 'blanks' =>
$blanks],
                        ];
                    }

                    break;
                case AutoFilter\Column::AUTOFILTER_FILTERTYPE_CUSTOMFILTER:
                    $customRuleForBlanks = false;
                    $ruleValues = [];
                    //    Build a list of the filter value selections
                    foreach ($rules as $rule) {
                        $ruleValue = $rule->getValue();
                        if (!is_numeric($ruleValue)) {
                            //    Convert to a regexp allowing for regexp
reserved characters, wildcards and escaped wildcards
                            $ruleValue = preg_quote($ruleValue);
                            $ruleValue = str_replace(self::$fromReplace,
self::$toReplace, $ruleValue);
                            if (trim($ruleValue) == '') {
                                $customRuleForBlanks = true;
                                $ruleValue = trim($ruleValue);
                            }
                        }
                        $ruleValues[] = ['operator' =>
$rule->getOperator(), 'value' => $ruleValue];
                    }
                    $join = $filterColumn->getJoin();
                    $columnFilterTests[$columnID] = [
                        'method' =>
'filterTestInCustomDataSet',
                        'arguments' =>
['filterRules' => $ruleValues, 'join' => $join,
'customRuleForBlanks' => $customRuleForBlanks],
                    ];

                    break;
                case
AutoFilter\Column::AUTOFILTER_FILTERTYPE_DYNAMICFILTER:
                    $ruleValues = [];
                    foreach ($rules as $rule) {
                        //    We should only ever have one Dynamic Filter
Rule anyway
                        $dynamicRuleType = $rule->getGrouping();
                        if (($dynamicRuleType ==
AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DYNAMIC_ABOVEAVERAGE) ||
                            ($dynamicRuleType ==
AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DYNAMIC_BELOWAVERAGE)) {
                            //    Number (Average) based
                            //    Calculate the average
                            $averageFormula = '=AVERAGE(' .
$columnID . ($rangeStart[1] + 1) . ':' . $columnID . $rangeEnd[1]
. ')';
                            $average =
Calculation::getInstance()->calculateFormula($averageFormula, null,
$this->workSheet->getCell('A1'));
                            //    Set above/below rule based on greaterThan
or LessTan
                            $operator = ($dynamicRuleType ===
AutoFilter\Column\Rule::AUTOFILTER_RULETYPE_DYNAMIC_ABOVEAVERAGE)
                                ?
AutoFilter\Column\Rule::AUTOFILTER_COLUMN_RULE_GREATERTHAN
                                :
AutoFilter\Column\Rule::AUTOFILTER_COLUMN_RULE_LESSTHAN;
                            $ruleValues[] = [
                                'operator' => $operator,
                                'value' => $average,
                            ];
                            $columnFilterTests[$columnID] = [
                                'method' =>
'filterTestInCustomDataSet',
                                'arguments' =>
['filterRules' => $ruleValues, 'join' =>
AutoFilter\Column::AUTOFILTER_COLUMN_JOIN_OR],
                            ];
                        } else {
                            //    Date based
                            if ($dynamicRuleType[0] == 'M' ||
$dynamicRuleType[0] == 'Q') {
                                $periodType = '';
                                $period = 0;
                                //    Month or Quarter
                                sscanf($dynamicRuleType,
'%[A-Z]%d', $periodType, $period);
                                if ($periodType == 'M') {
                                    $ruleValues = [$period];
                                } else {
                                    --$period;
                                    $periodEnd = (1 + $period) * 3;
                                    $periodStart = 1 + $period * 3;
                                    $ruleValues = range($periodStart,
$periodEnd);
                                }
                                $columnFilterTests[$columnID] = [
                                    'method' =>
'filterTestInPeriodDateSet',
                                    'arguments' =>
$ruleValues,
                                ];
                                $filterColumn->setAttributes([]);
                            } else {
                                //    Date Range
                                $columnFilterTests[$columnID] =
$this->dynamicFilterDateRange($dynamicRuleType, $filterColumn);

                                break;
                            }
                        }
                    }

                    break;
                case AutoFilter\Column::AUTOFILTER_FILTERTYPE_TOPTENFILTER:
                    $ruleValues = [];
                    $dataRowCount = $rangeEnd[1] - $rangeStart[1];
                    foreach ($rules as $rule) {
                        //    We should only ever have one Dynamic Filter
Rule anyway
                        $toptenRuleType = $rule->getGrouping();
                        $ruleValue = $rule->getValue();
                        $ruleOperator = $rule->getOperator();
                    }
                    if ($ruleOperator ===
AutoFilter\Column\Rule::AUTOFILTER_COLUMN_RULE_TOPTEN_PERCENT) {
                        $ruleValue = floor($ruleValue * ($dataRowCount /
100));
                    }
                    if ($ruleValue < 1) {
                        $ruleValue = 1;
                    }
                    if ($ruleValue > 500) {
                        $ruleValue = 500;
                    }

                    $maxVal = $this->calculateTopTenValue($columnID,
$rangeStart[1] + 1, $rangeEnd[1], $toptenRuleType, $ruleValue);

                    $operator = ($toptenRuleType ==
AutoFilter\Column\Rule::AUTOFILTER_COLUMN_RULE_TOPTEN_TOP)
                        ?
AutoFilter\Column\Rule::AUTOFILTER_COLUMN_RULE_GREATERTHANOREQUAL
                        :
AutoFilter\Column\Rule::AUTOFILTER_COLUMN_RULE_LESSTHANOREQUAL;
                    $ruleValues[] = ['operator' => $operator,
'value' => $maxVal];
                    $columnFilterTests[$columnID] = [
                        'method' =>
'filterTestInCustomDataSet',
                        'arguments' =>
['filterRules' => $ruleValues, 'join' =>
AutoFilter\Column::AUTOFILTER_COLUMN_JOIN_OR],
                    ];
                    $filterColumn->setAttributes(['maxVal'
=> $maxVal]);

                    break;
            }
        }

        //    Execute the column tests for each row in the autoFilter range
to determine show/hide,
        for ($row = $rangeStart[1] + 1; $row <= $rangeEnd[1]; ++$row) {
            $result = true;
            foreach ($columnFilterTests as $columnID =>
$columnFilterTest) {
                $cellValue = $this->workSheet->getCell($columnID .
$row)->getCalculatedValue();
                //    Execute the filter test
                $result = $result &&
                    call_user_func_array(
                        [self::class,
$columnFilterTest['method']],
                        [$cellValue,
$columnFilterTest['arguments']]
                    );
                //    If filter test has resulted in FALSE, exit the loop
straightaway rather than running any more tests
                if (!$result) {
                    break;
                }
            }
            //    Set show/hide for the row based on the result of the
autoFilter result
           
$this->workSheet->getRowDimension($row)->setVisible($result);
        }

        return $this;
    }

    /**
     * Implement PHP __clone to create a deep clone, not just a shallow
copy.
     */
    public function __clone()
    {
        $vars = get_object_vars($this);
        foreach ($vars as $key => $value) {
            if (is_object($value)) {
                if ($key === 'workSheet') {
                    //    Detach from worksheet
                    $this->{$key} = null;
                } else {
                    $this->{$key} = clone $value;
                }
            } elseif ((is_array($value)) && ($key ==
'columns')) {
                //    The columns array of
\PhpOffice\PhpSpreadsheet\Worksheet\Worksheet\AutoFilter objects
                $this->{$key} = [];
                foreach ($value as $k => $v) {
                    $this->{$key}[$k] = clone $v;
                    // attach the new cloned Column to this new cloned
Autofilter object
                    $this->{$key}[$k]->setParent($this);
                }
            } else {
                $this->{$key} = $value;
            }
        }
    }

    /**
     * toString method replicates previous behavior by returning the range
if object is
     * referenced as a property of its parent.
     */
    public function __toString()
    {
        return (string) $this->range;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Worksheet/BaseDrawing.php000064400000024253151165414050023413
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Worksheet;

use PhpOffice\PhpSpreadsheet\Cell\Hyperlink;
use PhpOffice\PhpSpreadsheet\Exception as PhpSpreadsheetException;
use PhpOffice\PhpSpreadsheet\IComparable;

class BaseDrawing implements IComparable
{
    /**
     * Image counter.
     *
     * @var int
     */
    private static $imageCounter = 0;

    /**
     * Image index.
     *
     * @var int
     */
    private $imageIndex = 0;

    /**
     * Name.
     *
     * @var string
     */
    protected $name;

    /**
     * Description.
     *
     * @var string
     */
    protected $description;

    /**
     * Worksheet.
     *
     * @var Worksheet
     */
    protected $worksheet;

    /**
     * Coordinates.
     *
     * @var string
     */
    protected $coordinates;

    /**
     * Offset X.
     *
     * @var int
     */
    protected $offsetX;

    /**
     * Offset Y.
     *
     * @var int
     */
    protected $offsetY;

    /**
     * Width.
     *
     * @var int
     */
    protected $width;

    /**
     * Height.
     *
     * @var int
     */
    protected $height;

    /**
     * Proportional resize.
     *
     * @var bool
     */
    protected $resizeProportional;

    /**
     * Rotation.
     *
     * @var int
     */
    protected $rotation;

    /**
     * Shadow.
     *
     * @var Drawing\Shadow
     */
    protected $shadow;

    /**
     * Image hyperlink.
     *
     * @var null|Hyperlink
     */
    private $hyperlink;

    /**
     * Create a new BaseDrawing.
     */
    public function __construct()
    {
        // Initialise values
        $this->name = '';
        $this->description = '';
        $this->worksheet = null;
        $this->coordinates = 'A1';
        $this->offsetX = 0;
        $this->offsetY = 0;
        $this->width = 0;
        $this->height = 0;
        $this->resizeProportional = true;
        $this->rotation = 0;
        $this->shadow = new Drawing\Shadow();

        // Set image index
        ++self::$imageCounter;
        $this->imageIndex = self::$imageCounter;
    }

    /**
     * Get image index.
     *
     * @return int
     */
    public function getImageIndex()
    {
        return $this->imageIndex;
    }

    /**
     * Get Name.
     *
     * @return string
     */
    public function getName()
    {
        return $this->name;
    }

    /**
     * Set Name.
     *
     * @param string $pValue
     *
     * @return $this
     */
    public function setName($pValue)
    {
        $this->name = $pValue;

        return $this;
    }

    /**
     * Get Description.
     *
     * @return string
     */
    public function getDescription()
    {
        return $this->description;
    }

    /**
     * Set Description.
     *
     * @param string $description
     *
     * @return $this
     */
    public function setDescription($description)
    {
        $this->description = $description;

        return $this;
    }

    /**
     * Get Worksheet.
     *
     * @return Worksheet
     */
    public function getWorksheet()
    {
        return $this->worksheet;
    }

    /**
     * Set Worksheet.
     *
     * @param Worksheet $pValue
     * @param bool $pOverrideOld If a Worksheet has already been assigned,
overwrite it and remove image from old Worksheet?
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function setWorksheet(Worksheet $pValue = null, $pOverrideOld =
false)
    {
        if ($this->worksheet === null) {
            // Add drawing to \PhpOffice\PhpSpreadsheet\Worksheet\Worksheet
            $this->worksheet = $pValue;
            $this->worksheet->getCell($this->coordinates);
           
$this->worksheet->getDrawingCollection()->append($this);
        } else {
            if ($pOverrideOld) {
                // Remove drawing from old
\PhpOffice\PhpSpreadsheet\Worksheet\Worksheet
                $iterator =
$this->worksheet->getDrawingCollection()->getIterator();

                while ($iterator->valid()) {
                    if ($iterator->current()->getHashCode() ==
$this->getHashCode()) {
                       
$this->worksheet->getDrawingCollection()->offsetUnset($iterator->key());
                        $this->worksheet = null;

                        break;
                    }
                }

                // Set new \PhpOffice\PhpSpreadsheet\Worksheet\Worksheet
                $this->setWorksheet($pValue);
            } else {
                throw new PhpSpreadsheetException('A Worksheet has
already been assigned. Drawings can only exist on one
\\PhpOffice\\PhpSpreadsheet\\Worksheet.');
            }
        }

        return $this;
    }

    /**
     * Get Coordinates.
     *
     * @return string
     */
    public function getCoordinates()
    {
        return $this->coordinates;
    }

    /**
     * Set Coordinates.
     *
     * @param string $pValue eg: 'A1'
     *
     * @return $this
     */
    public function setCoordinates($pValue)
    {
        $this->coordinates = $pValue;

        return $this;
    }

    /**
     * Get OffsetX.
     *
     * @return int
     */
    public function getOffsetX()
    {
        return $this->offsetX;
    }

    /**
     * Set OffsetX.
     *
     * @param int $pValue
     *
     * @return $this
     */
    public function setOffsetX($pValue)
    {
        $this->offsetX = $pValue;

        return $this;
    }

    /**
     * Get OffsetY.
     *
     * @return int
     */
    public function getOffsetY()
    {
        return $this->offsetY;
    }

    /**
     * Set OffsetY.
     *
     * @param int $pValue
     *
     * @return $this
     */
    public function setOffsetY($pValue)
    {
        $this->offsetY = $pValue;

        return $this;
    }

    /**
     * Get Width.
     *
     * @return int
     */
    public function getWidth()
    {
        return $this->width;
    }

    /**
     * Set Width.
     *
     * @param int $pValue
     *
     * @return $this
     */
    public function setWidth($pValue)
    {
        // Resize proportional?
        if ($this->resizeProportional && $pValue != 0) {
            $ratio = $this->height / ($this->width != 0 ?
$this->width : 1);
            $this->height = round($ratio * $pValue);
        }

        // Set width
        $this->width = $pValue;

        return $this;
    }

    /**
     * Get Height.
     *
     * @return int
     */
    public function getHeight()
    {
        return $this->height;
    }

    /**
     * Set Height.
     *
     * @param int $pValue
     *
     * @return $this
     */
    public function setHeight($pValue)
    {
        // Resize proportional?
        if ($this->resizeProportional && $pValue != 0) {
            $ratio = $this->width / ($this->height != 0 ?
$this->height : 1);
            $this->width = round($ratio * $pValue);
        }

        // Set height
        $this->height = $pValue;

        return $this;
    }

    /**
     * Set width and height with proportional resize.
     *
     * Example:
     * <code>
     * $objDrawing->setResizeProportional(true);
     * $objDrawing->setWidthAndHeight(160,120);
     * </code>
     *
     * @author Vincent@luo MSN:kele_100@hotmail.com
     *
     * @param int $width
     * @param int $height
     *
     * @return $this
     */
    public function setWidthAndHeight($width, $height)
    {
        $xratio = $width / ($this->width != 0 ? $this->width : 1);
        $yratio = $height / ($this->height != 0 ? $this->height : 1);
        if ($this->resizeProportional && !($width == 0 ||
$height == 0)) {
            if (($xratio * $this->height) < $height) {
                $this->height = ceil($xratio * $this->height);
                $this->width = $width;
            } else {
                $this->width = ceil($yratio * $this->width);
                $this->height = $height;
            }
        } else {
            $this->width = $width;
            $this->height = $height;
        }

        return $this;
    }

    /**
     * Get ResizeProportional.
     *
     * @return bool
     */
    public function getResizeProportional()
    {
        return $this->resizeProportional;
    }

    /**
     * Set ResizeProportional.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setResizeProportional($pValue)
    {
        $this->resizeProportional = $pValue;

        return $this;
    }

    /**
     * Get Rotation.
     *
     * @return int
     */
    public function getRotation()
    {
        return $this->rotation;
    }

    /**
     * Set Rotation.
     *
     * @param int $pValue
     *
     * @return $this
     */
    public function setRotation($pValue)
    {
        $this->rotation = $pValue;

        return $this;
    }

    /**
     * Get Shadow.
     *
     * @return Drawing\Shadow
     */
    public function getShadow()
    {
        return $this->shadow;
    }

    /**
     * Set Shadow.
     *
     * @param Drawing\Shadow $pValue
     *
     * @return $this
     */
    public function setShadow(Drawing\Shadow $pValue = null)
    {
        $this->shadow = $pValue;

        return $this;
    }

    /**
     * Get hash code.
     *
     * @return string Hash code
     */
    public function getHashCode()
    {
        return md5(
            $this->name .
            $this->description .
            $this->worksheet->getHashCode() .
            $this->coordinates .
            $this->offsetX .
            $this->offsetY .
            $this->width .
            $this->height .
            $this->rotation .
            $this->shadow->getHashCode() .
            __CLASS__
        );
    }

    /**
     * Implement PHP __clone to create a deep clone, not just a shallow
copy.
     */
    public function __clone()
    {
        $vars = get_object_vars($this);
        foreach ($vars as $key => $value) {
            if ($key == 'worksheet') {
                $this->worksheet = null;
            } elseif (is_object($value)) {
                $this->$key = clone $value;
            } else {
                $this->$key = $value;
            }
        }
    }

    /**
     * @param null|Hyperlink $pHyperlink
     */
    public function setHyperlink(Hyperlink $pHyperlink = null)
    {
        $this->hyperlink = $pHyperlink;
    }

    /**
     * @return null|Hyperlink
     */
    public function getHyperlink()
    {
        return $this->hyperlink;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Worksheet/CellIterator.php000064400000002311151165414050023605
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Worksheet;

use PhpOffice\PhpSpreadsheet\Exception as PhpSpreadsheetException;

abstract class CellIterator implements \Iterator
{
    /**
     * Worksheet to iterate.
     *
     * @var Worksheet
     */
    protected $worksheet;

    /**
     * Iterate only existing cells.
     *
     * @var bool
     */
    protected $onlyExistingCells = false;

    /**
     * Destructor.
     */
    public function __destruct()
    {
        unset($this->worksheet);
    }

    /**
     * Get loop only existing cells.
     *
     * @return bool
     */
    public function getIterateOnlyExistingCells()
    {
        return $this->onlyExistingCells;
    }

    /**
     * Validate start/end values for "IterateOnlyExistingCells"
mode, and adjust if necessary.
     *
     * @throws PhpSpreadsheetException
     */
    abstract protected function adjustForExistingOnlyRange();

    /**
     * Set the iterator to loop only existing cells.
     *
     * @param bool $value
     *
     * @throws PhpSpreadsheetException
     */
    public function setIterateOnlyExistingCells($value)
    {
        $this->onlyExistingCells = (bool) $value;

        $this->adjustForExistingOnlyRange();
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Worksheet/Column.php000064400000002427151165414050022461
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Worksheet;

class Column
{
    /**
     * \PhpOffice\PhpSpreadsheet\Worksheet\Worksheet.
     *
     * @var Worksheet
     */
    private $parent;

    /**
     * Column index.
     *
     * @var string
     */
    private $columnIndex;

    /**
     * Create a new column.
     *
     * @param Worksheet $parent
     * @param string $columnIndex
     */
    public function __construct(Worksheet $parent = null, $columnIndex =
'A')
    {
        // Set parent and column index
        $this->parent = $parent;
        $this->columnIndex = $columnIndex;
    }

    /**
     * Destructor.
     */
    public function __destruct()
    {
        unset($this->parent);
    }

    /**
     * Get column index as string eg: 'A'.
     *
     * @return string
     */
    public function getColumnIndex()
    {
        return $this->columnIndex;
    }

    /**
     * Get cell iterator.
     *
     * @param int $startRow The row number at which to start iterating
     * @param int $endRow Optionally, the row number at which to stop
iterating
     *
     * @return ColumnCellIterator
     */
    public function getCellIterator($startRow = 1, $endRow = null)
    {
        return new ColumnCellIterator($this->parent,
$this->columnIndex, $startRow, $endRow);
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Worksheet/ColumnCellIterator.php000064400000012353151165414050024772
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Worksheet;

use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\Exception as PhpSpreadsheetException;

class ColumnCellIterator extends CellIterator
{
    /**
     * Current iterator position.
     *
     * @var int
     */
    private $currentRow;

    /**
     * Column index.
     *
     * @var string
     */
    private $columnIndex;

    /**
     * Start position.
     *
     * @var int
     */
    private $startRow = 1;

    /**
     * End position.
     *
     * @var int
     */
    private $endRow = 1;

    /**
     * Create a new row iterator.
     *
     * @param Worksheet $subject The worksheet to iterate over
     * @param string $columnIndex The column that we want to iterate
     * @param int $startRow The row number at which to start iterating
     * @param int $endRow Optionally, the row number at which to stop
iterating
     */
    public function __construct(Worksheet $subject = null, $columnIndex =
'A', $startRow = 1, $endRow = null)
    {
        // Set subject
        $this->worksheet = $subject;
        $this->columnIndex =
Coordinate::columnIndexFromString($columnIndex);
        $this->resetEnd($endRow);
        $this->resetStart($startRow);
    }

    /**
     * (Re)Set the start row and the current row pointer.
     *
     * @param int $startRow The row number at which to start iterating
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function resetStart($startRow = 1)
    {
        $this->startRow = $startRow;
        $this->adjustForExistingOnlyRange();
        $this->seek($startRow);

        return $this;
    }

    /**
     * (Re)Set the end row.
     *
     * @param int $endRow The row number at which to stop iterating
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function resetEnd($endRow = null)
    {
        $this->endRow = ($endRow) ? $endRow :
$this->worksheet->getHighestRow();
        $this->adjustForExistingOnlyRange();

        return $this;
    }

    /**
     * Set the row pointer to the selected row.
     *
     * @param int $row The row number to set the current pointer at
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function seek($row = 1)
    {
        if (($row < $this->startRow) || ($row > $this->endRow))
{
            throw new PhpSpreadsheetException("Row $row is out of
range ({$this->startRow} - {$this->endRow})");
        } elseif ($this->onlyExistingCells &&
!($this->worksheet->cellExistsByColumnAndRow($this->columnIndex,
$row))) {
            throw new PhpSpreadsheetException('In
"IterateOnlyExistingCells" mode and Cell does not exist');
        }
        $this->currentRow = $row;

        return $this;
    }

    /**
     * Rewind the iterator to the starting row.
     */
    public function rewind()
    {
        $this->currentRow = $this->startRow;
    }

    /**
     * Return the current cell in this worksheet column.
     *
     * @return null|\PhpOffice\PhpSpreadsheet\Cell\Cell
     */
    public function current()
    {
        return
$this->worksheet->getCellByColumnAndRow($this->columnIndex,
$this->currentRow);
    }

    /**
     * Return the current iterator key.
     *
     * @return int
     */
    public function key()
    {
        return $this->currentRow;
    }

    /**
     * Set the iterator to its next value.
     */
    public function next()
    {
        do {
            ++$this->currentRow;
        } while (($this->onlyExistingCells) &&
           
(!$this->worksheet->cellExistsByColumnAndRow($this->columnIndex,
$this->currentRow)) &&
            ($this->currentRow <= $this->endRow));
    }

    /**
     * Set the iterator to its previous value.
     */
    public function prev()
    {
        do {
            --$this->currentRow;
        } while (($this->onlyExistingCells) &&
           
(!$this->worksheet->cellExistsByColumnAndRow($this->columnIndex,
$this->currentRow)) &&
            ($this->currentRow >= $this->startRow));
    }

    /**
     * Indicate if more rows exist in the worksheet range of rows that
we're iterating.
     *
     * @return bool
     */
    public function valid()
    {
        return $this->currentRow <= $this->endRow &&
$this->currentRow >= $this->startRow;
    }

    /**
     * Validate start/end values for "IterateOnlyExistingCells"
mode, and adjust if necessary.
     *
     * @throws PhpSpreadsheetException
     */
    protected function adjustForExistingOnlyRange()
    {
        if ($this->onlyExistingCells) {
            while
((!$this->worksheet->cellExistsByColumnAndRow($this->columnIndex,
$this->startRow)) &&
                ($this->startRow <= $this->endRow)) {
                ++$this->startRow;
            }
            if ($this->startRow > $this->endRow) {
                throw new PhpSpreadsheetException('No cells exist
within the specified range');
            }
            while
((!$this->worksheet->cellExistsByColumnAndRow($this->columnIndex,
$this->endRow)) &&
                ($this->endRow >= $this->startRow)) {
                --$this->endRow;
            }
            if ($this->endRow < $this->startRow) {
                throw new PhpSpreadsheetException('No cells exist
within the specified range');
            }
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Worksheet/ColumnDimension.php000064400000003546151165414050024332
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Worksheet;

class ColumnDimension extends Dimension
{
    /**
     * Column index.
     *
     * @var string
     */
    private $columnIndex;

    /**
     * Column width.
     *
     * When this is set to a negative value, the column width should be
ignored by IWriter
     *
     * @var float
     */
    private $width = -1;

    /**
     * Auto size?
     *
     * @var bool
     */
    private $autoSize = false;

    /**
     * Create a new ColumnDimension.
     *
     * @param string $pIndex Character column index
     */
    public function __construct($pIndex = 'A')
    {
        // Initialise values
        $this->columnIndex = $pIndex;

        // set dimension as unformatted by default
        parent::__construct(0);
    }

    /**
     * Get column index as string eg: 'A'.
     *
     * @return string
     */
    public function getColumnIndex()
    {
        return $this->columnIndex;
    }

    /**
     * Set column index as string eg: 'A'.
     *
     * @param string $pValue
     *
     * @return $this
     */
    public function setColumnIndex($pValue)
    {
        $this->columnIndex = $pValue;

        return $this;
    }

    /**
     * Get Width.
     *
     * @return float
     */
    public function getWidth()
    {
        return $this->width;
    }

    /**
     * Set Width.
     *
     * @param float $pValue
     *
     * @return $this
     */
    public function setWidth($pValue)
    {
        $this->width = $pValue;

        return $this;
    }

    /**
     * Get Auto Size.
     *
     * @return bool
     */
    public function getAutoSize()
    {
        return $this->autoSize;
    }

    /**
     * Set Auto Size.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setAutoSize($pValue)
    {
        $this->autoSize = $pValue;

        return $this;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Worksheet/ColumnIterator.php000064400000010507151165414050024171
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Worksheet;

use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\Exception;
use PhpOffice\PhpSpreadsheet\Exception as PhpSpreadsheetException;

class ColumnIterator implements \Iterator
{
    /**
     * Worksheet to iterate.
     *
     * @var Worksheet
     */
    private $worksheet;

    /**
     * Current iterator position.
     *
     * @var int
     */
    private $currentColumnIndex = 1;

    /**
     * Start position.
     *
     * @var int
     */
    private $startColumnIndex = 1;

    /**
     * End position.
     *
     * @var int
     */
    private $endColumnIndex = 1;

    /**
     * Create a new column iterator.
     *
     * @param Worksheet $worksheet The worksheet to iterate over
     * @param string $startColumn The column address at which to start
iterating
     * @param string $endColumn Optionally, the column address at which to
stop iterating
     */
    public function __construct(Worksheet $worksheet, $startColumn =
'A', $endColumn = null)
    {
        // Set subject
        $this->worksheet = $worksheet;
        $this->resetEnd($endColumn);
        $this->resetStart($startColumn);
    }

    /**
     * Destructor.
     */
    public function __destruct()
    {
        unset($this->worksheet);
    }

    /**
     * (Re)Set the start column and the current column pointer.
     *
     * @param string $startColumn The column address at which to start
iterating
     *
     * @throws Exception
     *
     * @return $this
     */
    public function resetStart($startColumn = 'A')
    {
        $startColumnIndex =
Coordinate::columnIndexFromString($startColumn);
        if ($startColumnIndex >
Coordinate::columnIndexFromString($this->worksheet->getHighestColumn()))
{
            throw new Exception("Start column ({$startColumn}) is
beyond highest column
({$this->worksheet->getHighestColumn()})");
        }

        $this->startColumnIndex = $startColumnIndex;
        if ($this->endColumnIndex < $this->startColumnIndex) {
            $this->endColumnIndex = $this->startColumnIndex;
        }
        $this->seek($startColumn);

        return $this;
    }

    /**
     * (Re)Set the end column.
     *
     * @param string $endColumn The column address at which to stop
iterating
     *
     * @return $this
     */
    public function resetEnd($endColumn = null)
    {
        $endColumn = $endColumn ? $endColumn :
$this->worksheet->getHighestColumn();
        $this->endColumnIndex =
Coordinate::columnIndexFromString($endColumn);

        return $this;
    }

    /**
     * Set the column pointer to the selected column.
     *
     * @param string $column The column address to set the current pointer
at
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function seek($column = 'A')
    {
        $column = Coordinate::columnIndexFromString($column);
        if (($column < $this->startColumnIndex) || ($column >
$this->endColumnIndex)) {
            throw new PhpSpreadsheetException("Column $column is out
of range ({$this->startColumnIndex} -
{$this->endColumnIndex})");
        }
        $this->currentColumnIndex = $column;

        return $this;
    }

    /**
     * Rewind the iterator to the starting column.
     */
    public function rewind()
    {
        $this->currentColumnIndex = $this->startColumnIndex;
    }

    /**
     * Return the current column in this worksheet.
     *
     * @return Column
     */
    public function current()
    {
        return new Column($this->worksheet,
Coordinate::stringFromColumnIndex($this->currentColumnIndex));
    }

    /**
     * Return the current iterator key.
     *
     * @return string
     */
    public function key()
    {
        return
Coordinate::stringFromColumnIndex($this->currentColumnIndex);
    }

    /**
     * Set the iterator to its next value.
     */
    public function next()
    {
        ++$this->currentColumnIndex;
    }

    /**
     * Set the iterator to its previous value.
     */
    public function prev()
    {
        --$this->currentColumnIndex;
    }

    /**
     * Indicate if more columns exist in the worksheet range of columns
that we're iterating.
     *
     * @return bool
     */
    public function valid()
    {
        return $this->currentColumnIndex <= $this->endColumnIndex
&& $this->currentColumnIndex >= $this->startColumnIndex;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Worksheet/Dimension.php000064400000005525151165414050023153
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Worksheet;

use PhpOffice\PhpSpreadsheet\Exception as PhpSpreadsheetException;

abstract class Dimension
{
    /**
     * Visible?
     *
     * @var bool
     */
    private $visible = true;

    /**
     * Outline level.
     *
     * @var int
     */
    private $outlineLevel = 0;

    /**
     * Collapsed.
     *
     * @var bool
     */
    private $collapsed = false;

    /**
     * Index to cellXf. Null value means row has no explicit cellXf format.
     *
     * @var null|int
     */
    private $xfIndex;

    /**
     * Create a new Dimension.
     *
     * @param int $initialValue Numeric row index
     */
    public function __construct($initialValue = null)
    {
        // set dimension as unformatted by default
        $this->xfIndex = $initialValue;
    }

    /**
     * Get Visible.
     *
     * @return bool
     */
    public function getVisible()
    {
        return $this->visible;
    }

    /**
     * Set Visible.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setVisible($pValue)
    {
        $this->visible = (bool) $pValue;

        return $this;
    }

    /**
     * Get Outline Level.
     *
     * @return int
     */
    public function getOutlineLevel()
    {
        return $this->outlineLevel;
    }

    /**
     * Set Outline Level.
     * Value must be between 0 and 7.
     *
     * @param int $pValue
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function setOutlineLevel($pValue)
    {
        if ($pValue < 0 || $pValue > 7) {
            throw new PhpSpreadsheetException('Outline level must
range between 0 and 7.');
        }

        $this->outlineLevel = $pValue;

        return $this;
    }

    /**
     * Get Collapsed.
     *
     * @return bool
     */
    public function getCollapsed()
    {
        return $this->collapsed;
    }

    /**
     * Set Collapsed.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setCollapsed($pValue)
    {
        $this->collapsed = (bool) $pValue;

        return $this;
    }

    /**
     * Get index to cellXf.
     *
     * @return int
     */
    public function getXfIndex()
    {
        return $this->xfIndex;
    }

    /**
     * Set index to cellXf.
     *
     * @param int $pValue
     *
     * @return $this
     */
    public function setXfIndex($pValue)
    {
        $this->xfIndex = $pValue;

        return $this;
    }

    /**
     * Implement PHP __clone to create a deep clone, not just a shallow
copy.
     */
    public function __clone()
    {
        $vars = get_object_vars($this);
        foreach ($vars as $key => $value) {
            if (is_object($value)) {
                $this->$key = clone $value;
            } else {
                $this->$key = $value;
            }
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Worksheet/Drawing/Shadow.php000064400000011342151165414050024040
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Worksheet\Drawing;

use PhpOffice\PhpSpreadsheet\IComparable;
use PhpOffice\PhpSpreadsheet\Style\Color;

class Shadow implements IComparable
{
    // Shadow alignment
    const SHADOW_BOTTOM = 'b';
    const SHADOW_BOTTOM_LEFT = 'bl';
    const SHADOW_BOTTOM_RIGHT = 'br';
    const SHADOW_CENTER = 'ctr';
    const SHADOW_LEFT = 'l';
    const SHADOW_TOP = 't';
    const SHADOW_TOP_LEFT = 'tl';
    const SHADOW_TOP_RIGHT = 'tr';

    /**
     * Visible.
     *
     * @var bool
     */
    private $visible;

    /**
     * Blur radius.
     *
     * Defaults to 6
     *
     * @var int
     */
    private $blurRadius;

    /**
     * Shadow distance.
     *
     * Defaults to 2
     *
     * @var int
     */
    private $distance;

    /**
     * Shadow direction (in degrees).
     *
     * @var int
     */
    private $direction;

    /**
     * Shadow alignment.
     *
     * @var int
     */
    private $alignment;

    /**
     * Color.
     *
     * @var Color
     */
    private $color;

    /**
     * Alpha.
     *
     * @var int
     */
    private $alpha;

    /**
     * Create a new Shadow.
     */
    public function __construct()
    {
        // Initialise values
        $this->visible = false;
        $this->blurRadius = 6;
        $this->distance = 2;
        $this->direction = 0;
        $this->alignment = self::SHADOW_BOTTOM_RIGHT;
        $this->color = new Color(Color::COLOR_BLACK);
        $this->alpha = 50;
    }

    /**
     * Get Visible.
     *
     * @return bool
     */
    public function getVisible()
    {
        return $this->visible;
    }

    /**
     * Set Visible.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setVisible($pValue)
    {
        $this->visible = $pValue;

        return $this;
    }

    /**
     * Get Blur radius.
     *
     * @return int
     */
    public function getBlurRadius()
    {
        return $this->blurRadius;
    }

    /**
     * Set Blur radius.
     *
     * @param int $pValue
     *
     * @return $this
     */
    public function setBlurRadius($pValue)
    {
        $this->blurRadius = $pValue;

        return $this;
    }

    /**
     * Get Shadow distance.
     *
     * @return int
     */
    public function getDistance()
    {
        return $this->distance;
    }

    /**
     * Set Shadow distance.
     *
     * @param int $pValue
     *
     * @return $this
     */
    public function setDistance($pValue)
    {
        $this->distance = $pValue;

        return $this;
    }

    /**
     * Get Shadow direction (in degrees).
     *
     * @return int
     */
    public function getDirection()
    {
        return $this->direction;
    }

    /**
     * Set Shadow direction (in degrees).
     *
     * @param int $pValue
     *
     * @return $this
     */
    public function setDirection($pValue)
    {
        $this->direction = $pValue;

        return $this;
    }

    /**
     * Get Shadow alignment.
     *
     * @return int
     */
    public function getAlignment()
    {
        return $this->alignment;
    }

    /**
     * Set Shadow alignment.
     *
     * @param int $pValue
     *
     * @return $this
     */
    public function setAlignment($pValue)
    {
        $this->alignment = $pValue;

        return $this;
    }

    /**
     * Get Color.
     *
     * @return Color
     */
    public function getColor()
    {
        return $this->color;
    }

    /**
     * Set Color.
     *
     * @param Color $pValue
     *
     * @return $this
     */
    public function setColor(Color $pValue = null)
    {
        $this->color = $pValue;

        return $this;
    }

    /**
     * Get Alpha.
     *
     * @return int
     */
    public function getAlpha()
    {
        return $this->alpha;
    }

    /**
     * Set Alpha.
     *
     * @param int $pValue
     *
     * @return $this
     */
    public function setAlpha($pValue)
    {
        $this->alpha = $pValue;

        return $this;
    }

    /**
     * Get hash code.
     *
     * @return string Hash code
     */
    public function getHashCode()
    {
        return md5(
            ($this->visible ? 't' : 'f') .
            $this->blurRadius .
            $this->distance .
            $this->direction .
            $this->alignment .
            $this->color->getHashCode() .
            $this->alpha .
            __CLASS__
        );
    }

    /**
     * Implement PHP __clone to create a deep clone, not just a shallow
copy.
     */
    public function __clone()
    {
        $vars = get_object_vars($this);
        foreach ($vars as $key => $value) {
            if (is_object($value)) {
                $this->$key = clone $value;
            } else {
                $this->$key = $value;
            }
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Worksheet/Drawing.php000064400000004430151165414050022613
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Worksheet;

use PhpOffice\PhpSpreadsheet\Exception as PhpSpreadsheetException;

class Drawing extends BaseDrawing
{
    /**
     * Path.
     *
     * @var string
     */
    private $path;

    /**
     * Create a new Drawing.
     */
    public function __construct()
    {
        // Initialise values
        $this->path = '';

        // Initialize parent
        parent::__construct();
    }

    /**
     * Get Filename.
     *
     * @return string
     */
    public function getFilename()
    {
        return basename($this->path);
    }

    /**
     * Get indexed filename (using image index).
     *
     * @return string
     */
    public function getIndexedFilename()
    {
        $fileName = $this->getFilename();
        $fileName = str_replace(' ', '_', $fileName);

        return str_replace('.' . $this->getExtension(),
'', $fileName) . $this->getImageIndex() . '.' .
$this->getExtension();
    }

    /**
     * Get Extension.
     *
     * @return string
     */
    public function getExtension()
    {
        $exploded = explode('.', basename($this->path));

        return $exploded[count($exploded) - 1];
    }

    /**
     * Get Path.
     *
     * @return string
     */
    public function getPath()
    {
        return $this->path;
    }

    /**
     * Set Path.
     *
     * @param string $pValue File path
     * @param bool $pVerifyFile Verify file
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function setPath($pValue, $pVerifyFile = true)
    {
        if ($pVerifyFile) {
            if (file_exists($pValue)) {
                $this->path = $pValue;

                if ($this->width == 0 && $this->height == 0)
{
                    // Get width/height
                    [$this->width, $this->height] =
getimagesize($pValue);
                }
            } else {
                throw new PhpSpreadsheetException("File $pValue not
found!");
            }
        } else {
            $this->path = $pValue;
        }

        return $this;
    }

    /**
     * Get hash code.
     *
     * @return string Hash code
     */
    public function getHashCode()
    {
        return md5(
            $this->path .
            parent::getHashCode() .
            __CLASS__
        );
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Worksheet/HeaderFooter.php000064400000026021151165414050023567
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Worksheet;

/**
 * <code>
 * Header/Footer Formatting Syntax taken from Office Open XML Part 4 -
Markup Language Reference, page 1970:.
 *
 * There are a number of formatting codes that can be written inline with
the actual header / footer text, which
 * affect the formatting in the header or footer.
 *
 * Example: This example shows the text "Center Bold Header" on
the first line (center section), and the date on
 * the second line (center section).
 *         &CCenter
&"-,Bold"Bold&"-,Regular"Header_x000A_&D
 *
 * General Rules:
 * There is no required order in which these codes must appear.
 *
 * The first occurrence of the following codes turns the formatting ON, the
second occurrence turns it OFF again:
 * - strikethrough
 * - superscript
 * - subscript
 * Superscript and subscript cannot both be ON at same time. Whichever
comes first wins and the other is ignored,
 * while the first is ON.
 * &L - code for "left section" (there are three header /
footer locations, "left", "center", and
"right"). When
 * two or more occurrences of this section marker exist, the contents from
all markers are concatenated, in the
 * order of appearance, and placed into the left section.
 * &P - code for "current page #"
 * &N - code for "total pages"
 * &font size - code for "text font size", where font size is
a font size in points.
 * &K - code for "text font color"
 * RGB Color is specified as RRGGBB
 * Theme Color is specifed as TTSNN where TT is the theme color Id, S is
either "+" or "-" of the tint/shade
 * value, NN is the tint/shade value.
 * &S - code for "text strikethrough" on / off
 * &X - code for "text super script" on / off
 * &Y - code for "text subscript" on / off
 * &C - code for "center section". When two or more
occurrences of this section marker exist, the contents
 * from all markers are concatenated, in the order of appearance, and
placed into the center section.
 *
 * &D - code for "date"
 * &T - code for "time"
 * &G - code for "picture as background"
 * &U - code for "text single underline"
 * &E - code for "double underline"
 * &R - code for "right section". When two or more
occurrences of this section marker exist, the contents
 * from all markers are concatenated, in the order of appearance, and
placed into the right section.
 * &Z - code for "this workbook's file path"
 * &F - code for "this workbook's file name"
 * &A - code for "sheet tab name"
 * &+ - code for add to page #.
 * &- - code for subtract from page #.
 * &"font name,font type" - code for "text font
name" and "text font type", where font name and font type
 * are strings specifying the name and type of the font, separated by a
comma. When a hyphen appears in font
 * name, it means "none specified". Both of font name and font
type can be localized values.
 * &"-,Bold" - code for "bold font style"
 * &B - also means "bold font style".
 * &"-,Regular" - code for "regular font style"
 * &"-,Italic" - code for "italic font style"
 * &I - also means "italic font style"
 * &"-,Bold Italic" code for "bold italic font
style"
 * &O - code for "outline style"
 * &H - code for "shadow style"
 * </code>
 */
class HeaderFooter
{
    // Header/footer image location
    const IMAGE_HEADER_LEFT = 'LH';
    const IMAGE_HEADER_CENTER = 'CH';
    const IMAGE_HEADER_RIGHT = 'RH';
    const IMAGE_FOOTER_LEFT = 'LF';
    const IMAGE_FOOTER_CENTER = 'CF';
    const IMAGE_FOOTER_RIGHT = 'RF';

    /**
     * OddHeader.
     *
     * @var string
     */
    private $oddHeader = '';

    /**
     * OddFooter.
     *
     * @var string
     */
    private $oddFooter = '';

    /**
     * EvenHeader.
     *
     * @var string
     */
    private $evenHeader = '';

    /**
     * EvenFooter.
     *
     * @var string
     */
    private $evenFooter = '';

    /**
     * FirstHeader.
     *
     * @var string
     */
    private $firstHeader = '';

    /**
     * FirstFooter.
     *
     * @var string
     */
    private $firstFooter = '';

    /**
     * Different header for Odd/Even, defaults to false.
     *
     * @var bool
     */
    private $differentOddEven = false;

    /**
     * Different header for first page, defaults to false.
     *
     * @var bool
     */
    private $differentFirst = false;

    /**
     * Scale with document, defaults to true.
     *
     * @var bool
     */
    private $scaleWithDocument = true;

    /**
     * Align with margins, defaults to true.
     *
     * @var bool
     */
    private $alignWithMargins = true;

    /**
     * Header/footer images.
     *
     * @var HeaderFooterDrawing[]
     */
    private $headerFooterImages = [];

    /**
     * Create a new HeaderFooter.
     */
    public function __construct()
    {
    }

    /**
     * Get OddHeader.
     *
     * @return string
     */
    public function getOddHeader()
    {
        return $this->oddHeader;
    }

    /**
     * Set OddHeader.
     *
     * @param string $pValue
     *
     * @return $this
     */
    public function setOddHeader($pValue)
    {
        $this->oddHeader = $pValue;

        return $this;
    }

    /**
     * Get OddFooter.
     *
     * @return string
     */
    public function getOddFooter()
    {
        return $this->oddFooter;
    }

    /**
     * Set OddFooter.
     *
     * @param string $pValue
     *
     * @return $this
     */
    public function setOddFooter($pValue)
    {
        $this->oddFooter = $pValue;

        return $this;
    }

    /**
     * Get EvenHeader.
     *
     * @return string
     */
    public function getEvenHeader()
    {
        return $this->evenHeader;
    }

    /**
     * Set EvenHeader.
     *
     * @param string $pValue
     *
     * @return $this
     */
    public function setEvenHeader($pValue)
    {
        $this->evenHeader = $pValue;

        return $this;
    }

    /**
     * Get EvenFooter.
     *
     * @return string
     */
    public function getEvenFooter()
    {
        return $this->evenFooter;
    }

    /**
     * Set EvenFooter.
     *
     * @param string $pValue
     *
     * @return $this
     */
    public function setEvenFooter($pValue)
    {
        $this->evenFooter = $pValue;

        return $this;
    }

    /**
     * Get FirstHeader.
     *
     * @return string
     */
    public function getFirstHeader()
    {
        return $this->firstHeader;
    }

    /**
     * Set FirstHeader.
     *
     * @param string $pValue
     *
     * @return $this
     */
    public function setFirstHeader($pValue)
    {
        $this->firstHeader = $pValue;

        return $this;
    }

    /**
     * Get FirstFooter.
     *
     * @return string
     */
    public function getFirstFooter()
    {
        return $this->firstFooter;
    }

    /**
     * Set FirstFooter.
     *
     * @param string $pValue
     *
     * @return $this
     */
    public function setFirstFooter($pValue)
    {
        $this->firstFooter = $pValue;

        return $this;
    }

    /**
     * Get DifferentOddEven.
     *
     * @return bool
     */
    public function getDifferentOddEven()
    {
        return $this->differentOddEven;
    }

    /**
     * Set DifferentOddEven.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setDifferentOddEven($pValue)
    {
        $this->differentOddEven = $pValue;

        return $this;
    }

    /**
     * Get DifferentFirst.
     *
     * @return bool
     */
    public function getDifferentFirst()
    {
        return $this->differentFirst;
    }

    /**
     * Set DifferentFirst.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setDifferentFirst($pValue)
    {
        $this->differentFirst = $pValue;

        return $this;
    }

    /**
     * Get ScaleWithDocument.
     *
     * @return bool
     */
    public function getScaleWithDocument()
    {
        return $this->scaleWithDocument;
    }

    /**
     * Set ScaleWithDocument.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setScaleWithDocument($pValue)
    {
        $this->scaleWithDocument = $pValue;

        return $this;
    }

    /**
     * Get AlignWithMargins.
     *
     * @return bool
     */
    public function getAlignWithMargins()
    {
        return $this->alignWithMargins;
    }

    /**
     * Set AlignWithMargins.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setAlignWithMargins($pValue)
    {
        $this->alignWithMargins = $pValue;

        return $this;
    }

    /**
     * Add header/footer image.
     *
     * @param HeaderFooterDrawing $image
     * @param string $location
     *
     * @return $this
     */
    public function addImage(HeaderFooterDrawing $image, $location =
self::IMAGE_HEADER_LEFT)
    {
        $this->headerFooterImages[$location] = $image;

        return $this;
    }

    /**
     * Remove header/footer image.
     *
     * @param string $location
     *
     * @return $this
     */
    public function removeImage($location = self::IMAGE_HEADER_LEFT)
    {
        if (isset($this->headerFooterImages[$location])) {
            unset($this->headerFooterImages[$location]);
        }

        return $this;
    }

    /**
     * Set header/footer images.
     *
     * @param HeaderFooterDrawing[] $images
     *
     * @return $this
     */
    public function setImages(array $images)
    {
        $this->headerFooterImages = $images;

        return $this;
    }

    /**
     * Get header/footer images.
     *
     * @return HeaderFooterDrawing[]
     */
    public function getImages()
    {
        // Sort array
        $images = [];
        if (isset($this->headerFooterImages[self::IMAGE_HEADER_LEFT])) {
            $images[self::IMAGE_HEADER_LEFT] =
$this->headerFooterImages[self::IMAGE_HEADER_LEFT];
        }
        if (isset($this->headerFooterImages[self::IMAGE_HEADER_CENTER]))
{
            $images[self::IMAGE_HEADER_CENTER] =
$this->headerFooterImages[self::IMAGE_HEADER_CENTER];
        }
        if (isset($this->headerFooterImages[self::IMAGE_HEADER_RIGHT]))
{
            $images[self::IMAGE_HEADER_RIGHT] =
$this->headerFooterImages[self::IMAGE_HEADER_RIGHT];
        }
        if (isset($this->headerFooterImages[self::IMAGE_FOOTER_LEFT])) {
            $images[self::IMAGE_FOOTER_LEFT] =
$this->headerFooterImages[self::IMAGE_FOOTER_LEFT];
        }
        if (isset($this->headerFooterImages[self::IMAGE_FOOTER_CENTER]))
{
            $images[self::IMAGE_FOOTER_CENTER] =
$this->headerFooterImages[self::IMAGE_FOOTER_CENTER];
        }
        if (isset($this->headerFooterImages[self::IMAGE_FOOTER_RIGHT]))
{
            $images[self::IMAGE_FOOTER_RIGHT] =
$this->headerFooterImages[self::IMAGE_FOOTER_RIGHT];
        }
        $this->headerFooterImages = $images;

        return $this->headerFooterImages;
    }

    /**
     * Implement PHP __clone to create a deep clone, not just a shallow
copy.
     */
    public function __clone()
    {
        $vars = get_object_vars($this);
        foreach ($vars as $key => $value) {
            if (is_object($value)) {
                $this->$key = clone $value;
            } else {
                $this->$key = $value;
            }
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Worksheet/HeaderFooterDrawing.php000064400000000676151165414050025113
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Worksheet;

class HeaderFooterDrawing extends Drawing
{
    /**
     * Get hash code.
     *
     * @return string Hash code
     */
    public function getHashCode()
    {
        return md5(
            $this->getPath() .
            $this->name .
            $this->offsetX .
            $this->offsetY .
            $this->width .
            $this->height .
            __CLASS__
        );
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Worksheet/Iterator.php000064400000002615151165414050023014
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Worksheet;

use PhpOffice\PhpSpreadsheet\Spreadsheet;

class Iterator implements \Iterator
{
    /**
     * Spreadsheet to iterate.
     *
     * @var Spreadsheet
     */
    private $subject;

    /**
     * Current iterator position.
     *
     * @var int
     */
    private $position = 0;

    /**
     * Create a new worksheet iterator.
     *
     * @param Spreadsheet $subject
     */
    public function __construct(Spreadsheet $subject)
    {
        // Set subject
        $this->subject = $subject;
    }

    /**
     * Destructor.
     */
    public function __destruct()
    {
        unset($this->subject);
    }

    /**
     * Rewind iterator.
     */
    public function rewind()
    {
        $this->position = 0;
    }

    /**
     * Current Worksheet.
     *
     * @return Worksheet
     */
    public function current()
    {
        return $this->subject->getSheet($this->position);
    }

    /**
     * Current key.
     *
     * @return int
     */
    public function key()
    {
        return $this->position;
    }

    /**
     * Next value.
     */
    public function next()
    {
        ++$this->position;
    }

    /**
     * Are there more Worksheet instances available?
     *
     * @return bool
     */
    public function valid()
    {
        return $this->position <
$this->subject->getSheetCount() && $this->position >=
0;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Worksheet/MemoryDrawing.php000064400000006374151165414050024015
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Worksheet;

class MemoryDrawing extends BaseDrawing
{
    // Rendering functions
    const RENDERING_DEFAULT = 'imagepng';
    const RENDERING_PNG = 'imagepng';
    const RENDERING_GIF = 'imagegif';
    const RENDERING_JPEG = 'imagejpeg';

    // MIME types
    const MIMETYPE_DEFAULT = 'image/png';
    const MIMETYPE_PNG = 'image/png';
    const MIMETYPE_GIF = 'image/gif';
    const MIMETYPE_JPEG = 'image/jpeg';

    /**
     * Image resource.
     *
     * @var resource
     */
    private $imageResource;

    /**
     * Rendering function.
     *
     * @var string
     */
    private $renderingFunction;

    /**
     * Mime type.
     *
     * @var string
     */
    private $mimeType;

    /**
     * Unique name.
     *
     * @var string
     */
    private $uniqueName;

    /**
     * Create a new MemoryDrawing.
     */
    public function __construct()
    {
        // Initialise values
        $this->imageResource = null;
        $this->renderingFunction = self::RENDERING_DEFAULT;
        $this->mimeType = self::MIMETYPE_DEFAULT;
        $this->uniqueName = md5(rand(0, 9999) . time() . rand(0, 9999));

        // Initialize parent
        parent::__construct();
    }

    /**
     * Get image resource.
     *
     * @return resource
     */
    public function getImageResource()
    {
        return $this->imageResource;
    }

    /**
     * Set image resource.
     *
     * @param resource $value
     *
     * @return $this
     */
    public function setImageResource($value)
    {
        $this->imageResource = $value;

        if ($this->imageResource !== null) {
            // Get width/height
            $this->width = imagesx($this->imageResource);
            $this->height = imagesy($this->imageResource);
        }

        return $this;
    }

    /**
     * Get rendering function.
     *
     * @return string
     */
    public function getRenderingFunction()
    {
        return $this->renderingFunction;
    }

    /**
     * Set rendering function.
     *
     * @param string $value see self::RENDERING_*
     *
     * @return $this
     */
    public function setRenderingFunction($value)
    {
        $this->renderingFunction = $value;

        return $this;
    }

    /**
     * Get mime type.
     *
     * @return string
     */
    public function getMimeType()
    {
        return $this->mimeType;
    }

    /**
     * Set mime type.
     *
     * @param string $value see self::MIMETYPE_*
     *
     * @return $this
     */
    public function setMimeType($value)
    {
        $this->mimeType = $value;

        return $this;
    }

    /**
     * Get indexed filename (using image index).
     *
     * @return string
     */
    public function getIndexedFilename()
    {
        $extension = strtolower($this->getMimeType());
        $extension = explode('/', $extension);
        $extension = $extension[1];

        return $this->uniqueName . $this->getImageIndex() .
'.' . $extension;
    }

    /**
     * Get hash code.
     *
     * @return string Hash code
     */
    public function getHashCode()
    {
        return md5(
            $this->renderingFunction .
            $this->mimeType .
            $this->uniqueName .
            parent::getHashCode() .
            __CLASS__
        );
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Worksheet/PageMargins.php000064400000006006151165414060023417
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Worksheet;

class PageMargins
{
    /**
     * Left.
     *
     * @var float
     */
    private $left = 0.7;

    /**
     * Right.
     *
     * @var float
     */
    private $right = 0.7;

    /**
     * Top.
     *
     * @var float
     */
    private $top = 0.75;

    /**
     * Bottom.
     *
     * @var float
     */
    private $bottom = 0.75;

    /**
     * Header.
     *
     * @var float
     */
    private $header = 0.3;

    /**
     * Footer.
     *
     * @var float
     */
    private $footer = 0.3;

    /**
     * Create a new PageMargins.
     */
    public function __construct()
    {
    }

    /**
     * Get Left.
     *
     * @return float
     */
    public function getLeft()
    {
        return $this->left;
    }

    /**
     * Set Left.
     *
     * @param float $pValue
     *
     * @return $this
     */
    public function setLeft($pValue)
    {
        $this->left = $pValue;

        return $this;
    }

    /**
     * Get Right.
     *
     * @return float
     */
    public function getRight()
    {
        return $this->right;
    }

    /**
     * Set Right.
     *
     * @param float $pValue
     *
     * @return $this
     */
    public function setRight($pValue)
    {
        $this->right = $pValue;

        return $this;
    }

    /**
     * Get Top.
     *
     * @return float
     */
    public function getTop()
    {
        return $this->top;
    }

    /**
     * Set Top.
     *
     * @param float $pValue
     *
     * @return $this
     */
    public function setTop($pValue)
    {
        $this->top = $pValue;

        return $this;
    }

    /**
     * Get Bottom.
     *
     * @return float
     */
    public function getBottom()
    {
        return $this->bottom;
    }

    /**
     * Set Bottom.
     *
     * @param float $pValue
     *
     * @return $this
     */
    public function setBottom($pValue)
    {
        $this->bottom = $pValue;

        return $this;
    }

    /**
     * Get Header.
     *
     * @return float
     */
    public function getHeader()
    {
        return $this->header;
    }

    /**
     * Set Header.
     *
     * @param float $pValue
     *
     * @return $this
     */
    public function setHeader($pValue)
    {
        $this->header = $pValue;

        return $this;
    }

    /**
     * Get Footer.
     *
     * @return float
     */
    public function getFooter()
    {
        return $this->footer;
    }

    /**
     * Set Footer.
     *
     * @param float $pValue
     *
     * @return $this
     */
    public function setFooter($pValue)
    {
        $this->footer = $pValue;

        return $this;
    }

    /**
     * Implement PHP __clone to create a deep clone, not just a shallow
copy.
     */
    public function __clone()
    {
        $vars = get_object_vars($this);
        foreach ($vars as $key => $value) {
            if (is_object($value)) {
                $this->$key = clone $value;
            } else {
                $this->$key = $value;
            }
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Worksheet/PageSetup.php000064400000062644151165414060023131
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Worksheet;

use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\Exception as PhpSpreadsheetException;

/**
 * <code>
 * Paper size taken from Office Open XML Part 4 - Markup Language
Reference, page 1988:.
 *
 * 1 = Letter paper (8.5 in. by 11 in.)
 * 2 = Letter small paper (8.5 in. by 11 in.)
 * 3 = Tabloid paper (11 in. by 17 in.)
 * 4 = Ledger paper (17 in. by 11 in.)
 * 5 = Legal paper (8.5 in. by 14 in.)
 * 6 = Statement paper (5.5 in. by 8.5 in.)
 * 7 = Executive paper (7.25 in. by 10.5 in.)
 * 8 = A3 paper (297 mm by 420 mm)
 * 9 = A4 paper (210 mm by 297 mm)
 * 10 = A4 small paper (210 mm by 297 mm)
 * 11 = A5 paper (148 mm by 210 mm)
 * 12 = B4 paper (250 mm by 353 mm)
 * 13 = B5 paper (176 mm by 250 mm)
 * 14 = Folio paper (8.5 in. by 13 in.)
 * 15 = Quarto paper (215 mm by 275 mm)
 * 16 = Standard paper (10 in. by 14 in.)
 * 17 = Standard paper (11 in. by 17 in.)
 * 18 = Note paper (8.5 in. by 11 in.)
 * 19 = #9 envelope (3.875 in. by 8.875 in.)
 * 20 = #10 envelope (4.125 in. by 9.5 in.)
 * 21 = #11 envelope (4.5 in. by 10.375 in.)
 * 22 = #12 envelope (4.75 in. by 11 in.)
 * 23 = #14 envelope (5 in. by 11.5 in.)
 * 24 = C paper (17 in. by 22 in.)
 * 25 = D paper (22 in. by 34 in.)
 * 26 = E paper (34 in. by 44 in.)
 * 27 = DL envelope (110 mm by 220 mm)
 * 28 = C5 envelope (162 mm by 229 mm)
 * 29 = C3 envelope (324 mm by 458 mm)
 * 30 = C4 envelope (229 mm by 324 mm)
 * 31 = C6 envelope (114 mm by 162 mm)
 * 32 = C65 envelope (114 mm by 229 mm)
 * 33 = B4 envelope (250 mm by 353 mm)
 * 34 = B5 envelope (176 mm by 250 mm)
 * 35 = B6 envelope (176 mm by 125 mm)
 * 36 = Italy envelope (110 mm by 230 mm)
 * 37 = Monarch envelope (3.875 in. by 7.5 in.).
 * 38 = 6 3/4 envelope (3.625 in. by 6.5 in.)
 * 39 = US standard fanfold (14.875 in. by 11 in.)
 * 40 = German standard fanfold (8.5 in. by 12 in.)
 * 41 = German legal fanfold (8.5 in. by 13 in.)
 * 42 = ISO B4 (250 mm by 353 mm)
 * 43 = Japanese double postcard (200 mm by 148 mm)
 * 44 = Standard paper (9 in. by 11 in.)
 * 45 = Standard paper (10 in. by 11 in.)
 * 46 = Standard paper (15 in. by 11 in.)
 * 47 = Invite envelope (220 mm by 220 mm)
 * 50 = Letter extra paper (9.275 in. by 12 in.)
 * 51 = Legal extra paper (9.275 in. by 15 in.)
 * 52 = Tabloid extra paper (11.69 in. by 18 in.)
 * 53 = A4 extra paper (236 mm by 322 mm)
 * 54 = Letter transverse paper (8.275 in. by 11 in.)
 * 55 = A4 transverse paper (210 mm by 297 mm)
 * 56 = Letter extra transverse paper (9.275 in. by 12 in.)
 * 57 = SuperA/SuperA/A4 paper (227 mm by 356 mm)
 * 58 = SuperB/SuperB/A3 paper (305 mm by 487 mm)
 * 59 = Letter plus paper (8.5 in. by 12.69 in.)
 * 60 = A4 plus paper (210 mm by 330 mm)
 * 61 = A5 transverse paper (148 mm by 210 mm)
 * 62 = JIS B5 transverse paper (182 mm by 257 mm)
 * 63 = A3 extra paper (322 mm by 445 mm)
 * 64 = A5 extra paper (174 mm by 235 mm)
 * 65 = ISO B5 extra paper (201 mm by 276 mm)
 * 66 = A2 paper (420 mm by 594 mm)
 * 67 = A3 transverse paper (297 mm by 420 mm)
 * 68 = A3 extra transverse paper (322 mm by 445 mm)
 * </code>
 *
 * @category   PhpSpreadsheet
 *
 * @copyright  Copyright (c) 2006 - 2016 PhpSpreadsheet
(https://github.com/PHPOffice/PhpSpreadsheet)
 */
class PageSetup
{
    // Paper size
    const PAPERSIZE_LETTER = 1;
    const PAPERSIZE_LETTER_SMALL = 2;
    const PAPERSIZE_TABLOID = 3;
    const PAPERSIZE_LEDGER = 4;
    const PAPERSIZE_LEGAL = 5;
    const PAPERSIZE_STATEMENT = 6;
    const PAPERSIZE_EXECUTIVE = 7;
    const PAPERSIZE_A3 = 8;
    const PAPERSIZE_A4 = 9;
    const PAPERSIZE_A4_SMALL = 10;
    const PAPERSIZE_A5 = 11;
    const PAPERSIZE_B4 = 12;
    const PAPERSIZE_B5 = 13;
    const PAPERSIZE_FOLIO = 14;
    const PAPERSIZE_QUARTO = 15;
    const PAPERSIZE_STANDARD_1 = 16;
    const PAPERSIZE_STANDARD_2 = 17;
    const PAPERSIZE_NOTE = 18;
    const PAPERSIZE_NO9_ENVELOPE = 19;
    const PAPERSIZE_NO10_ENVELOPE = 20;
    const PAPERSIZE_NO11_ENVELOPE = 21;
    const PAPERSIZE_NO12_ENVELOPE = 22;
    const PAPERSIZE_NO14_ENVELOPE = 23;
    const PAPERSIZE_C = 24;
    const PAPERSIZE_D = 25;
    const PAPERSIZE_E = 26;
    const PAPERSIZE_DL_ENVELOPE = 27;
    const PAPERSIZE_C5_ENVELOPE = 28;
    const PAPERSIZE_C3_ENVELOPE = 29;
    const PAPERSIZE_C4_ENVELOPE = 30;
    const PAPERSIZE_C6_ENVELOPE = 31;
    const PAPERSIZE_C65_ENVELOPE = 32;
    const PAPERSIZE_B4_ENVELOPE = 33;
    const PAPERSIZE_B5_ENVELOPE = 34;
    const PAPERSIZE_B6_ENVELOPE = 35;
    const PAPERSIZE_ITALY_ENVELOPE = 36;
    const PAPERSIZE_MONARCH_ENVELOPE = 37;
    const PAPERSIZE_6_3_4_ENVELOPE = 38;
    const PAPERSIZE_US_STANDARD_FANFOLD = 39;
    const PAPERSIZE_GERMAN_STANDARD_FANFOLD = 40;
    const PAPERSIZE_GERMAN_LEGAL_FANFOLD = 41;
    const PAPERSIZE_ISO_B4 = 42;
    const PAPERSIZE_JAPANESE_DOUBLE_POSTCARD = 43;
    const PAPERSIZE_STANDARD_PAPER_1 = 44;
    const PAPERSIZE_STANDARD_PAPER_2 = 45;
    const PAPERSIZE_STANDARD_PAPER_3 = 46;
    const PAPERSIZE_INVITE_ENVELOPE = 47;
    const PAPERSIZE_LETTER_EXTRA_PAPER = 48;
    const PAPERSIZE_LEGAL_EXTRA_PAPER = 49;
    const PAPERSIZE_TABLOID_EXTRA_PAPER = 50;
    const PAPERSIZE_A4_EXTRA_PAPER = 51;
    const PAPERSIZE_LETTER_TRANSVERSE_PAPER = 52;
    const PAPERSIZE_A4_TRANSVERSE_PAPER = 53;
    const PAPERSIZE_LETTER_EXTRA_TRANSVERSE_PAPER = 54;
    const PAPERSIZE_SUPERA_SUPERA_A4_PAPER = 55;
    const PAPERSIZE_SUPERB_SUPERB_A3_PAPER = 56;
    const PAPERSIZE_LETTER_PLUS_PAPER = 57;
    const PAPERSIZE_A4_PLUS_PAPER = 58;
    const PAPERSIZE_A5_TRANSVERSE_PAPER = 59;
    const PAPERSIZE_JIS_B5_TRANSVERSE_PAPER = 60;
    const PAPERSIZE_A3_EXTRA_PAPER = 61;
    const PAPERSIZE_A5_EXTRA_PAPER = 62;
    const PAPERSIZE_ISO_B5_EXTRA_PAPER = 63;
    const PAPERSIZE_A2_PAPER = 64;
    const PAPERSIZE_A3_TRANSVERSE_PAPER = 65;
    const PAPERSIZE_A3_EXTRA_TRANSVERSE_PAPER = 66;

    // Page orientation
    const ORIENTATION_DEFAULT = 'default';
    const ORIENTATION_LANDSCAPE = 'landscape';
    const ORIENTATION_PORTRAIT = 'portrait';

    // Print Range Set Method
    const SETPRINTRANGE_OVERWRITE = 'O';
    const SETPRINTRANGE_INSERT = 'I';

    /**
     * Paper size.
     *
     * @var int
     */
    private $paperSize = self::PAPERSIZE_LETTER;

    /**
     * Orientation.
     *
     * @var string
     */
    private $orientation = self::ORIENTATION_DEFAULT;

    /**
     * Scale (Print Scale).
     *
     * Print scaling. Valid values range from 10 to 400
     * This setting is overridden when fitToWidth and/or fitToHeight are in
use
     *
     * @var int?
     */
    private $scale = 100;

    /**
     * Fit To Page
     * Whether scale or fitToWith / fitToHeight applies.
     *
     * @var bool
     */
    private $fitToPage = false;

    /**
     * Fit To Height
     * Number of vertical pages to fit on.
     *
     * @var int?
     */
    private $fitToHeight = 1;

    /**
     * Fit To Width
     * Number of horizontal pages to fit on.
     *
     * @var int?
     */
    private $fitToWidth = 1;

    /**
     * Columns to repeat at left.
     *
     * @var array Containing start column and end column, empty array if
option unset
     */
    private $columnsToRepeatAtLeft = ['', ''];

    /**
     * Rows to repeat at top.
     *
     * @var array Containing start row number and end row number, empty
array if option unset
     */
    private $rowsToRepeatAtTop = [0, 0];

    /**
     * Center page horizontally.
     *
     * @var bool
     */
    private $horizontalCentered = false;

    /**
     * Center page vertically.
     *
     * @var bool
     */
    private $verticalCentered = false;

    /**
     * Print area.
     *
     * @var string
     */
    private $printArea;

    /**
     * First page number.
     *
     * @var int
     */
    private $firstPageNumber;

    /**
     * Create a new PageSetup.
     */
    public function __construct()
    {
    }

    /**
     * Get Paper Size.
     *
     * @return int
     */
    public function getPaperSize()
    {
        return $this->paperSize;
    }

    /**
     * Set Paper Size.
     *
     * @param int $pValue see self::PAPERSIZE_*
     *
     * @return $this
     */
    public function setPaperSize($pValue)
    {
        $this->paperSize = $pValue;

        return $this;
    }

    /**
     * Get Orientation.
     *
     * @return string
     */
    public function getOrientation()
    {
        return $this->orientation;
    }

    /**
     * Set Orientation.
     *
     * @param string $pValue see self::ORIENTATION_*
     *
     * @return $this
     */
    public function setOrientation($pValue)
    {
        $this->orientation = $pValue;

        return $this;
    }

    /**
     * Get Scale.
     *
     * @return int?
     */
    public function getScale()
    {
        return $this->scale;
    }

    /**
     * Set Scale.
     * Print scaling. Valid values range from 10 to 400
     * This setting is overridden when fitToWidth and/or fitToHeight are in
use.
     *
     * @param null|int $pValue
     * @param bool $pUpdate Update fitToPage so scaling applies rather than
fitToHeight / fitToWidth
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function setScale($pValue, $pUpdate = true)
    {
        // Microsoft Office Excel 2007 only allows setting a scale between
10 and 400 via the user interface,
        // but it is apparently still able to handle any scale >= 0,
where 0 results in 100
        if (($pValue >= 0) || $pValue === null) {
            $this->scale = $pValue;
            if ($pUpdate) {
                $this->fitToPage = false;
            }
        } else {
            throw new PhpSpreadsheetException('Scale must not be
negative');
        }

        return $this;
    }

    /**
     * Get Fit To Page.
     *
     * @return bool
     */
    public function getFitToPage()
    {
        return $this->fitToPage;
    }

    /**
     * Set Fit To Page.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setFitToPage($pValue)
    {
        $this->fitToPage = $pValue;

        return $this;
    }

    /**
     * Get Fit To Height.
     *
     * @return int?
     */
    public function getFitToHeight()
    {
        return $this->fitToHeight;
    }

    /**
     * Set Fit To Height.
     *
     * @param null|int $pValue
     * @param bool $pUpdate Update fitToPage so it applies rather than
scaling
     *
     * @return $this
     */
    public function setFitToHeight($pValue, $pUpdate = true)
    {
        $this->fitToHeight = $pValue;
        if ($pUpdate) {
            $this->fitToPage = true;
        }

        return $this;
    }

    /**
     * Get Fit To Width.
     *
     * @return int?
     */
    public function getFitToWidth()
    {
        return $this->fitToWidth;
    }

    /**
     * Set Fit To Width.
     *
     * @param null|int $pValue
     * @param bool $pUpdate Update fitToPage so it applies rather than
scaling
     *
     * @return $this
     */
    public function setFitToWidth($pValue, $pUpdate = true)
    {
        $this->fitToWidth = $pValue;
        if ($pUpdate) {
            $this->fitToPage = true;
        }

        return $this;
    }

    /**
     * Is Columns to repeat at left set?
     *
     * @return bool
     */
    public function isColumnsToRepeatAtLeftSet()
    {
        if (is_array($this->columnsToRepeatAtLeft)) {
            if ($this->columnsToRepeatAtLeft[0] != ''
&& $this->columnsToRepeatAtLeft[1] != '') {
                return true;
            }
        }

        return false;
    }

    /**
     * Get Columns to repeat at left.
     *
     * @return array Containing start column and end column, empty array if
option unset
     */
    public function getColumnsToRepeatAtLeft()
    {
        return $this->columnsToRepeatAtLeft;
    }

    /**
     * Set Columns to repeat at left.
     *
     * @param array $pValue Containing start column and end column, empty
array if option unset
     *
     * @return $this
     */
    public function setColumnsToRepeatAtLeft(array $pValue)
    {
        $this->columnsToRepeatAtLeft = $pValue;

        return $this;
    }

    /**
     * Set Columns to repeat at left by start and end.
     *
     * @param string $pStart eg: 'A'
     * @param string $pEnd eg: 'B'
     *
     * @return $this
     */
    public function setColumnsToRepeatAtLeftByStartAndEnd($pStart, $pEnd)
    {
        $this->columnsToRepeatAtLeft = [$pStart, $pEnd];

        return $this;
    }

    /**
     * Is Rows to repeat at top set?
     *
     * @return bool
     */
    public function isRowsToRepeatAtTopSet()
    {
        if (is_array($this->rowsToRepeatAtTop)) {
            if ($this->rowsToRepeatAtTop[0] != 0 &&
$this->rowsToRepeatAtTop[1] != 0) {
                return true;
            }
        }

        return false;
    }

    /**
     * Get Rows to repeat at top.
     *
     * @return array Containing start column and end column, empty array if
option unset
     */
    public function getRowsToRepeatAtTop()
    {
        return $this->rowsToRepeatAtTop;
    }

    /**
     * Set Rows to repeat at top.
     *
     * @param array $pValue Containing start column and end column, empty
array if option unset
     *
     * @return $this
     */
    public function setRowsToRepeatAtTop(array $pValue)
    {
        $this->rowsToRepeatAtTop = $pValue;

        return $this;
    }

    /**
     * Set Rows to repeat at top by start and end.
     *
     * @param int $pStart eg: 1
     * @param int $pEnd eg: 1
     *
     * @return $this
     */
    public function setRowsToRepeatAtTopByStartAndEnd($pStart, $pEnd)
    {
        $this->rowsToRepeatAtTop = [$pStart, $pEnd];

        return $this;
    }

    /**
     * Get center page horizontally.
     *
     * @return bool
     */
    public function getHorizontalCentered()
    {
        return $this->horizontalCentered;
    }

    /**
     * Set center page horizontally.
     *
     * @param bool $value
     *
     * @return $this
     */
    public function setHorizontalCentered($value)
    {
        $this->horizontalCentered = $value;

        return $this;
    }

    /**
     * Get center page vertically.
     *
     * @return bool
     */
    public function getVerticalCentered()
    {
        return $this->verticalCentered;
    }

    /**
     * Set center page vertically.
     *
     * @param bool $value
     *
     * @return $this
     */
    public function setVerticalCentered($value)
    {
        $this->verticalCentered = $value;

        return $this;
    }

    /**
     * Get print area.
     *
     * @param int $index Identifier for a specific print area range if
several ranges have been set
     *                            Default behaviour, or a index value of 0,
will return all ranges as a comma-separated string
     *                            Otherwise, the specific range identified
by the value of $index will be returned
     *                            Print areas are numbered from 1
     *
     * @throws PhpSpreadsheetException
     *
     * @return string
     */
    public function getPrintArea($index = 0)
    {
        if ($index == 0) {
            return $this->printArea;
        }
        $printAreas = explode(',', $this->printArea);
        if (isset($printAreas[$index - 1])) {
            return $printAreas[$index - 1];
        }

        throw new PhpSpreadsheetException('Requested Print Area does
not exist');
    }

    /**
     * Is print area set?
     *
     * @param int $index Identifier for a specific print area range if
several ranges have been set
     *                            Default behaviour, or an index value of
0, will identify whether any print range is set
     *                            Otherwise, existence of the range
identified by the value of $index will be returned
     *                            Print areas are numbered from 1
     *
     * @return bool
     */
    public function isPrintAreaSet($index = 0)
    {
        if ($index == 0) {
            return $this->printArea !== null;
        }
        $printAreas = explode(',', $this->printArea);

        return isset($printAreas[$index - 1]);
    }

    /**
     * Clear a print area.
     *
     * @param int $index Identifier for a specific print area range if
several ranges have been set
     *                            Default behaviour, or an index value of
0, will clear all print ranges that are set
     *                            Otherwise, the range identified by the
value of $index will be removed from the series
     *                            Print areas are numbered from 1
     *
     * @return $this
     */
    public function clearPrintArea($index = 0)
    {
        if ($index == 0) {
            $this->printArea = null;
        } else {
            $printAreas = explode(',', $this->printArea);
            if (isset($printAreas[$index - 1])) {
                unset($printAreas[$index - 1]);
                $this->printArea = implode(',', $printAreas);
            }
        }

        return $this;
    }

    /**
     * Set print area. e.g. 'A1:D10' or
'A1:D10,G5:M20'.
     *
     * @param string $value
     * @param int $index Identifier for a specific print area range
allowing several ranges to be set
     *                            When the method is "O"verwrite,
then a positive integer index will overwrite that indexed
     *                                entry in the print areas list; a
negative index value will identify which entry to
     *                                overwrite working bacward through the
print area to the list, with the last entry as -1.
     *                                Specifying an index value of 0, will
overwrite <b>all</b> existing print ranges.
     *                            When the method is "I"nsert,
then a positive index will insert after that indexed entry in
     *                                the print areas list, while a
negative index will insert before the indexed entry.
     *                                Specifying an index value of 0, will
always append the new print range at the end of the
     *                                list.
     *                            Print areas are numbered from 1
     * @param string $method Determines the method used when setting
multiple print areas
     *                            Default behaviour, or the "O"
method, overwrites existing print area
     *                            The "I" method, inserts the new
print area before any specified index, or at the end of the list
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function setPrintArea($value, $index = 0, $method =
self::SETPRINTRANGE_OVERWRITE)
    {
        if (strpos($value, '!') !== false) {
            throw new PhpSpreadsheetException('Cell coordinate must
not specify a worksheet.');
        } elseif (strpos($value, ':') === false) {
            throw new PhpSpreadsheetException('Cell coordinate must be
a range of cells.');
        } elseif (strpos($value, '$') !== false) {
            throw new PhpSpreadsheetException('Cell coordinate must
not be absolute.');
        }
        $value = strtoupper($value);

        if ($method == self::SETPRINTRANGE_OVERWRITE) {
            if ($index == 0) {
                $this->printArea = $value;
            } else {
                $printAreas = explode(',', $this->printArea);
                if ($index < 0) {
                    $index = count($printAreas) - abs($index) + 1;
                }
                if (($index <= 0) || ($index > count($printAreas))) {
                    throw new PhpSpreadsheetException('Invalid index
for setting print range.');
                }
                $printAreas[$index - 1] = $value;
                $this->printArea = implode(',', $printAreas);
            }
        } elseif ($method == self::SETPRINTRANGE_INSERT) {
            if ($index == 0) {
                $this->printArea .= ($this->printArea ==
'') ? $value : ',' . $value;
            } else {
                $printAreas = explode(',', $this->printArea);
                if ($index < 0) {
                    $index = abs($index) - 1;
                }
                if ($index > count($printAreas)) {
                    throw new PhpSpreadsheetException('Invalid index
for setting print range.');
                }
                $printAreas = array_merge(array_slice($printAreas, 0,
$index), [$value], array_slice($printAreas, $index));
                $this->printArea = implode(',', $printAreas);
            }
        } else {
            throw new PhpSpreadsheetException('Invalid method for
setting print range.');
        }

        return $this;
    }

    /**
     * Add a new print area (e.g. 'A1:D10' or
'A1:D10,G5:M20') to the list of print areas.
     *
     * @param string $value
     * @param int $index Identifier for a specific print area range
allowing several ranges to be set
     *                            A positive index will insert after that
indexed entry in the print areas list, while a
     *                                negative index will insert before the
indexed entry.
     *                                Specifying an index value of 0, will
always append the new print range at the end of the
     *                                list.
     *                            Print areas are numbered from 1
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function addPrintArea($value, $index = -1)
    {
        return $this->setPrintArea($value, $index,
self::SETPRINTRANGE_INSERT);
    }

    /**
     * Set print area.
     *
     * @param int $column1 Column 1
     * @param int $row1 Row 1
     * @param int $column2 Column 2
     * @param int $row2 Row 2
     * @param int $index Identifier for a specific print area range
allowing several ranges to be set
     *                                When the method is
"O"verwrite, then a positive integer index will overwrite that
indexed
     *                                    entry in the print areas list; a
negative index value will identify which entry to
     *                                    overwrite working backward
through the print area to the list, with the last entry as -1.
     *                                    Specifying an index value of 0,
will overwrite <b>all</b> existing print ranges.
     *                                When the method is
"I"nsert, then a positive index will insert after that indexed
entry in
     *                                    the print areas list, while a
negative index will insert before the indexed entry.
     *                                    Specifying an index value of 0,
will always append the new print range at the end of the
     *                                    list.
     *                                Print areas are numbered from 1
     * @param string $method Determines the method used when setting
multiple print areas
     *                                Default behaviour, or the
"O" method, overwrites existing print area
     *                                The "I" method, inserts the
new print area before any specified index, or at the end of the list
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function setPrintAreaByColumnAndRow($column1, $row1, $column2,
$row2, $index = 0, $method = self::SETPRINTRANGE_OVERWRITE)
    {
        return $this->setPrintArea(
            Coordinate::stringFromColumnIndex($column1) . $row1 .
':' . Coordinate::stringFromColumnIndex($column2) . $row2,
            $index,
            $method
        );
    }

    /**
     * Add a new print area to the list of print areas.
     *
     * @param int $column1 Start Column for the print area
     * @param int $row1 Start Row for the print area
     * @param int $column2 End Column for the print area
     * @param int $row2 End Row for the print area
     * @param int $index Identifier for a specific print area range
allowing several ranges to be set
     *                                A positive index will insert after
that indexed entry in the print areas list, while a
     *                                    negative index will insert before
the indexed entry.
     *                                    Specifying an index value of 0,
will always append the new print range at the end of the
     *                                    list.
     *                                Print areas are numbered from 1
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function addPrintAreaByColumnAndRow($column1, $row1, $column2,
$row2, $index = -1)
    {
        return $this->setPrintArea(
            Coordinate::stringFromColumnIndex($column1) . $row1 .
':' . Coordinate::stringFromColumnIndex($column2) . $row2,
            $index,
            self::SETPRINTRANGE_INSERT
        );
    }

    /**
     * Get first page number.
     *
     * @return int
     */
    public function getFirstPageNumber()
    {
        return $this->firstPageNumber;
    }

    /**
     * Set first page number.
     *
     * @param int $value
     *
     * @return $this
     */
    public function setFirstPageNumber($value)
    {
        $this->firstPageNumber = $value;

        return $this;
    }

    /**
     * Reset first page number.
     *
     * @return $this
     */
    public function resetFirstPageNumber()
    {
        return $this->setFirstPageNumber(null);
    }

    /**
     * Implement PHP __clone to create a deep clone, not just a shallow
copy.
     */
    public function __clone()
    {
        $vars = get_object_vars($this);
        foreach ($vars as $key => $value) {
            if (is_object($value)) {
                $this->$key = clone $value;
            } else {
                $this->$key = $value;
            }
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Worksheet/Protection.php000064400000022400151165414060023344
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Worksheet;

use PhpOffice\PhpSpreadsheet\Shared\PasswordHasher;

class Protection
{
    /**
     * Sheet.
     *
     * @var bool
     */
    private $sheet = false;

    /**
     * Objects.
     *
     * @var bool
     */
    private $objects = false;

    /**
     * Scenarios.
     *
     * @var bool
     */
    private $scenarios = false;

    /**
     * Format cells.
     *
     * @var bool
     */
    private $formatCells = false;

    /**
     * Format columns.
     *
     * @var bool
     */
    private $formatColumns = false;

    /**
     * Format rows.
     *
     * @var bool
     */
    private $formatRows = false;

    /**
     * Insert columns.
     *
     * @var bool
     */
    private $insertColumns = false;

    /**
     * Insert rows.
     *
     * @var bool
     */
    private $insertRows = false;

    /**
     * Insert hyperlinks.
     *
     * @var bool
     */
    private $insertHyperlinks = false;

    /**
     * Delete columns.
     *
     * @var bool
     */
    private $deleteColumns = false;

    /**
     * Delete rows.
     *
     * @var bool
     */
    private $deleteRows = false;

    /**
     * Select locked cells.
     *
     * @var bool
     */
    private $selectLockedCells = false;

    /**
     * Sort.
     *
     * @var bool
     */
    private $sort = false;

    /**
     * AutoFilter.
     *
     * @var bool
     */
    private $autoFilter = false;

    /**
     * Pivot tables.
     *
     * @var bool
     */
    private $pivotTables = false;

    /**
     * Select unlocked cells.
     *
     * @var bool
     */
    private $selectUnlockedCells = false;

    /**
     * Password.
     *
     * @var string
     */
    private $password = '';

    /**
     * Create a new Protection.
     */
    public function __construct()
    {
    }

    /**
     * Is some sort of protection enabled?
     *
     * @return bool
     */
    public function isProtectionEnabled()
    {
        return $this->sheet ||
            $this->objects ||
            $this->scenarios ||
            $this->formatCells ||
            $this->formatColumns ||
            $this->formatRows ||
            $this->insertColumns ||
            $this->insertRows ||
            $this->insertHyperlinks ||
            $this->deleteColumns ||
            $this->deleteRows ||
            $this->selectLockedCells ||
            $this->sort ||
            $this->autoFilter ||
            $this->pivotTables ||
            $this->selectUnlockedCells;
    }

    /**
     * Get Sheet.
     *
     * @return bool
     */
    public function getSheet()
    {
        return $this->sheet;
    }

    /**
     * Set Sheet.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setSheet($pValue)
    {
        $this->sheet = $pValue;

        return $this;
    }

    /**
     * Get Objects.
     *
     * @return bool
     */
    public function getObjects()
    {
        return $this->objects;
    }

    /**
     * Set Objects.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setObjects($pValue)
    {
        $this->objects = $pValue;

        return $this;
    }

    /**
     * Get Scenarios.
     *
     * @return bool
     */
    public function getScenarios()
    {
        return $this->scenarios;
    }

    /**
     * Set Scenarios.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setScenarios($pValue)
    {
        $this->scenarios = $pValue;

        return $this;
    }

    /**
     * Get FormatCells.
     *
     * @return bool
     */
    public function getFormatCells()
    {
        return $this->formatCells;
    }

    /**
     * Set FormatCells.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setFormatCells($pValue)
    {
        $this->formatCells = $pValue;

        return $this;
    }

    /**
     * Get FormatColumns.
     *
     * @return bool
     */
    public function getFormatColumns()
    {
        return $this->formatColumns;
    }

    /**
     * Set FormatColumns.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setFormatColumns($pValue)
    {
        $this->formatColumns = $pValue;

        return $this;
    }

    /**
     * Get FormatRows.
     *
     * @return bool
     */
    public function getFormatRows()
    {
        return $this->formatRows;
    }

    /**
     * Set FormatRows.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setFormatRows($pValue)
    {
        $this->formatRows = $pValue;

        return $this;
    }

    /**
     * Get InsertColumns.
     *
     * @return bool
     */
    public function getInsertColumns()
    {
        return $this->insertColumns;
    }

    /**
     * Set InsertColumns.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setInsertColumns($pValue)
    {
        $this->insertColumns = $pValue;

        return $this;
    }

    /**
     * Get InsertRows.
     *
     * @return bool
     */
    public function getInsertRows()
    {
        return $this->insertRows;
    }

    /**
     * Set InsertRows.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setInsertRows($pValue)
    {
        $this->insertRows = $pValue;

        return $this;
    }

    /**
     * Get InsertHyperlinks.
     *
     * @return bool
     */
    public function getInsertHyperlinks()
    {
        return $this->insertHyperlinks;
    }

    /**
     * Set InsertHyperlinks.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setInsertHyperlinks($pValue)
    {
        $this->insertHyperlinks = $pValue;

        return $this;
    }

    /**
     * Get DeleteColumns.
     *
     * @return bool
     */
    public function getDeleteColumns()
    {
        return $this->deleteColumns;
    }

    /**
     * Set DeleteColumns.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setDeleteColumns($pValue)
    {
        $this->deleteColumns = $pValue;

        return $this;
    }

    /**
     * Get DeleteRows.
     *
     * @return bool
     */
    public function getDeleteRows()
    {
        return $this->deleteRows;
    }

    /**
     * Set DeleteRows.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setDeleteRows($pValue)
    {
        $this->deleteRows = $pValue;

        return $this;
    }

    /**
     * Get SelectLockedCells.
     *
     * @return bool
     */
    public function getSelectLockedCells()
    {
        return $this->selectLockedCells;
    }

    /**
     * Set SelectLockedCells.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setSelectLockedCells($pValue)
    {
        $this->selectLockedCells = $pValue;

        return $this;
    }

    /**
     * Get Sort.
     *
     * @return bool
     */
    public function getSort()
    {
        return $this->sort;
    }

    /**
     * Set Sort.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setSort($pValue)
    {
        $this->sort = $pValue;

        return $this;
    }

    /**
     * Get AutoFilter.
     *
     * @return bool
     */
    public function getAutoFilter()
    {
        return $this->autoFilter;
    }

    /**
     * Set AutoFilter.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setAutoFilter($pValue)
    {
        $this->autoFilter = $pValue;

        return $this;
    }

    /**
     * Get PivotTables.
     *
     * @return bool
     */
    public function getPivotTables()
    {
        return $this->pivotTables;
    }

    /**
     * Set PivotTables.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setPivotTables($pValue)
    {
        $this->pivotTables = $pValue;

        return $this;
    }

    /**
     * Get SelectUnlockedCells.
     *
     * @return bool
     */
    public function getSelectUnlockedCells()
    {
        return $this->selectUnlockedCells;
    }

    /**
     * Set SelectUnlockedCells.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setSelectUnlockedCells($pValue)
    {
        $this->selectUnlockedCells = $pValue;

        return $this;
    }

    /**
     * Get Password (hashed).
     *
     * @return string
     */
    public function getPassword()
    {
        return $this->password;
    }

    /**
     * Set Password.
     *
     * @param string $pValue
     * @param bool $pAlreadyHashed If the password has already been hashed,
set this to true
     *
     * @return $this
     */
    public function setPassword($pValue, $pAlreadyHashed = false)
    {
        if (!$pAlreadyHashed) {
            $pValue = PasswordHasher::hashPassword($pValue);
        }
        $this->password = $pValue;

        return $this;
    }

    /**
     * Implement PHP __clone to create a deep clone, not just a shallow
copy.
     */
    public function __clone()
    {
        $vars = get_object_vars($this);
        foreach ($vars as $key => $value) {
            if (is_object($value)) {
                $this->$key = clone $value;
            } else {
                $this->$key = $value;
            }
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Worksheet/Row.php000064400000002651151165414060021773
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Worksheet;

class Row
{
    /**
     * \PhpOffice\PhpSpreadsheet\Worksheet\Worksheet.
     *
     * @var Worksheet
     */
    private $worksheet;

    /**
     * Row index.
     *
     * @var int
     */
    private $rowIndex = 0;

    /**
     * Create a new row.
     *
     * @param Worksheet $worksheet
     * @param int $rowIndex
     */
    public function __construct(Worksheet $worksheet = null, $rowIndex = 1)
    {
        // Set parent and row index
        $this->worksheet = $worksheet;
        $this->rowIndex = $rowIndex;
    }

    /**
     * Destructor.
     */
    public function __destruct()
    {
        unset($this->worksheet);
    }

    /**
     * Get row index.
     *
     * @return int
     */
    public function getRowIndex()
    {
        return $this->rowIndex;
    }

    /**
     * Get cell iterator.
     *
     * @param string $startColumn The column address at which to start
iterating
     * @param string $endColumn Optionally, the column address at which to
stop iterating
     *
     * @return RowCellIterator
     */
    public function getCellIterator($startColumn = 'A',
$endColumn = null)
    {
        return new RowCellIterator($this->worksheet, $this->rowIndex,
$startColumn, $endColumn);
    }

    /**
     * Returns bound worksheet.
     *
     * @return Worksheet
     */
    public function getWorksheet()
    {
        return $this->worksheet;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Worksheet/RowCellIterator.php000064400000013756151165414060024315
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Worksheet;

use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\Exception as PhpSpreadsheetException;

class RowCellIterator extends CellIterator
{
    /**
     * Current iterator position.
     *
     * @var int
     */
    private $currentColumnIndex;

    /**
     * Row index.
     *
     * @var int
     */
    private $rowIndex = 1;

    /**
     * Start position.
     *
     * @var int
     */
    private $startColumnIndex = 1;

    /**
     * End position.
     *
     * @var int
     */
    private $endColumnIndex = 1;

    /**
     * Create a new column iterator.
     *
     * @param Worksheet $worksheet The worksheet to iterate over
     * @param int $rowIndex The row that we want to iterate
     * @param string $startColumn The column address at which to start
iterating
     * @param string $endColumn Optionally, the column address at which to
stop iterating
     */
    public function __construct(Worksheet $worksheet = null, $rowIndex = 1,
$startColumn = 'A', $endColumn = null)
    {
        // Set subject and row index
        $this->worksheet = $worksheet;
        $this->rowIndex = $rowIndex;
        $this->resetEnd($endColumn);
        $this->resetStart($startColumn);
    }

    /**
     * (Re)Set the start column and the current column pointer.
     *
     * @param string $startColumn The column address at which to start
iterating
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function resetStart($startColumn = 'A')
    {
        $this->startColumnIndex =
Coordinate::columnIndexFromString($startColumn);
        $this->adjustForExistingOnlyRange();
       
$this->seek(Coordinate::stringFromColumnIndex($this->startColumnIndex));

        return $this;
    }

    /**
     * (Re)Set the end column.
     *
     * @param string $endColumn The column address at which to stop
iterating
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function resetEnd($endColumn = null)
    {
        $endColumn = $endColumn ? $endColumn :
$this->worksheet->getHighestColumn();
        $this->endColumnIndex =
Coordinate::columnIndexFromString($endColumn);
        $this->adjustForExistingOnlyRange();

        return $this;
    }

    /**
     * Set the column pointer to the selected column.
     *
     * @param string $column The column address to set the current pointer
at
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function seek($column = 'A')
    {
        $column = Coordinate::columnIndexFromString($column);
        if (($column < $this->startColumnIndex) || ($column >
$this->endColumnIndex)) {
            throw new PhpSpreadsheetException("Column $column is out
of range ({$this->startColumnIndex} -
{$this->endColumnIndex})");
        } elseif ($this->onlyExistingCells &&
!($this->worksheet->cellExistsByColumnAndRow($column,
$this->rowIndex))) {
            throw new PhpSpreadsheetException('In
"IterateOnlyExistingCells" mode and Cell does not exist');
        }
        $this->currentColumnIndex = $column;

        return $this;
    }

    /**
     * Rewind the iterator to the starting column.
     */
    public function rewind()
    {
        $this->currentColumnIndex = $this->startColumnIndex;
    }

    /**
     * Return the current cell in this worksheet row.
     *
     * @return \PhpOffice\PhpSpreadsheet\Cell\Cell
     */
    public function current()
    {
        return
$this->worksheet->getCellByColumnAndRow($this->currentColumnIndex,
$this->rowIndex);
    }

    /**
     * Return the current iterator key.
     *
     * @return string
     */
    public function key()
    {
        return
Coordinate::stringFromColumnIndex($this->currentColumnIndex);
    }

    /**
     * Set the iterator to its next value.
     */
    public function next()
    {
        do {
            ++$this->currentColumnIndex;
        } while (($this->onlyExistingCells) &&
(!$this->worksheet->cellExistsByColumnAndRow($this->currentColumnIndex,
$this->rowIndex)) && ($this->currentColumnIndex <=
$this->endColumnIndex));
    }

    /**
     * Set the iterator to its previous value.
     *
     * @throws PhpSpreadsheetException
     */
    public function prev()
    {
        do {
            --$this->currentColumnIndex;
        } while (($this->onlyExistingCells) &&
(!$this->worksheet->cellExistsByColumnAndRow($this->currentColumnIndex,
$this->rowIndex)) && ($this->currentColumnIndex >=
$this->startColumnIndex));
    }

    /**
     * Indicate if more columns exist in the worksheet range of columns
that we're iterating.
     *
     * @return bool
     */
    public function valid()
    {
        return $this->currentColumnIndex <= $this->endColumnIndex
&& $this->currentColumnIndex >= $this->startColumnIndex;
    }

    /**
     * Return the current iterator position.
     *
     * @return int
     */
    public function getCurrentColumnIndex()
    {
        return $this->currentColumnIndex;
    }

    /**
     * Validate start/end values for "IterateOnlyExistingCells"
mode, and adjust if necessary.
     *
     * @throws PhpSpreadsheetException
     */
    protected function adjustForExistingOnlyRange()
    {
        if ($this->onlyExistingCells) {
            while
((!$this->worksheet->cellExistsByColumnAndRow($this->startColumnIndex,
$this->rowIndex)) && ($this->startColumnIndex <=
$this->endColumnIndex)) {
                ++$this->startColumnIndex;
            }
            if ($this->startColumnIndex > $this->endColumnIndex) {
                throw new PhpSpreadsheetException('No cells exist
within the specified range');
            }
            while
((!$this->worksheet->cellExistsByColumnAndRow($this->endColumnIndex,
$this->rowIndex)) && ($this->endColumnIndex >=
$this->startColumnIndex)) {
                --$this->endColumnIndex;
            }
            if ($this->endColumnIndex < $this->startColumnIndex) {
                throw new PhpSpreadsheetException('No cells exist
within the specified range');
            }
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Worksheet/RowDimension.php000064400000003477151165414060023650
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Worksheet;

class RowDimension extends Dimension
{
    /**
     * Row index.
     *
     * @var int
     */
    private $rowIndex;

    /**
     * Row height (in pt).
     *
     * When this is set to a negative value, the row height should be
ignored by IWriter
     *
     * @var float
     */
    private $height = -1;

    /**
     * ZeroHeight for Row?
     *
     * @var bool
     */
    private $zeroHeight = false;

    /**
     * Create a new RowDimension.
     *
     * @param int $pIndex Numeric row index
     */
    public function __construct($pIndex = 0)
    {
        // Initialise values
        $this->rowIndex = $pIndex;

        // set dimension as unformatted by default
        parent::__construct(null);
    }

    /**
     * Get Row Index.
     *
     * @return int
     */
    public function getRowIndex()
    {
        return $this->rowIndex;
    }

    /**
     * Set Row Index.
     *
     * @param int $pValue
     *
     * @return $this
     */
    public function setRowIndex($pValue)
    {
        $this->rowIndex = $pValue;

        return $this;
    }

    /**
     * Get Row Height.
     *
     * @return float
     */
    public function getRowHeight()
    {
        return $this->height;
    }

    /**
     * Set Row Height.
     *
     * @param float $pValue
     *
     * @return $this
     */
    public function setRowHeight($pValue)
    {
        $this->height = $pValue;

        return $this;
    }

    /**
     * Get ZeroHeight.
     *
     * @return bool
     */
    public function getZeroHeight()
    {
        return $this->zeroHeight;
    }

    /**
     * Set ZeroHeight.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setZeroHeight($pValue)
    {
        $this->zeroHeight = $pValue;

        return $this;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Worksheet/RowIterator.php000064400000007100151165414060023477
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Worksheet;

use PhpOffice\PhpSpreadsheet\Exception as PhpSpreadsheetException;

class RowIterator implements \Iterator
{
    /**
     * Worksheet to iterate.
     *
     * @var Worksheet
     */
    private $subject;

    /**
     * Current iterator position.
     *
     * @var int
     */
    private $position = 1;

    /**
     * Start position.
     *
     * @var int
     */
    private $startRow = 1;

    /**
     * End position.
     *
     * @var int
     */
    private $endRow = 1;

    /**
     * Create a new row iterator.
     *
     * @param Worksheet $subject The worksheet to iterate over
     * @param int $startRow The row number at which to start iterating
     * @param int $endRow Optionally, the row number at which to stop
iterating
     */
    public function __construct(Worksheet $subject, $startRow = 1, $endRow
= null)
    {
        // Set subject
        $this->subject = $subject;
        $this->resetEnd($endRow);
        $this->resetStart($startRow);
    }

    /**
     * Destructor.
     */
    public function __destruct()
    {
        unset($this->subject);
    }

    /**
     * (Re)Set the start row and the current row pointer.
     *
     * @param int $startRow The row number at which to start iterating
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function resetStart($startRow = 1)
    {
        if ($startRow > $this->subject->getHighestRow()) {
            throw new PhpSpreadsheetException("Start row ({$startRow})
is beyond highest row ({$this->subject->getHighestRow()})");
        }

        $this->startRow = $startRow;
        if ($this->endRow < $this->startRow) {
            $this->endRow = $this->startRow;
        }
        $this->seek($startRow);

        return $this;
    }

    /**
     * (Re)Set the end row.
     *
     * @param int $endRow The row number at which to stop iterating
     *
     * @return $this
     */
    public function resetEnd($endRow = null)
    {
        $this->endRow = ($endRow) ? $endRow :
$this->subject->getHighestRow();

        return $this;
    }

    /**
     * Set the row pointer to the selected row.
     *
     * @param int $row The row number to set the current pointer at
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function seek($row = 1)
    {
        if (($row < $this->startRow) || ($row > $this->endRow))
{
            throw new PhpSpreadsheetException("Row $row is out of
range ({$this->startRow} - {$this->endRow})");
        }
        $this->position = $row;

        return $this;
    }

    /**
     * Rewind the iterator to the starting row.
     */
    public function rewind()
    {
        $this->position = $this->startRow;
    }

    /**
     * Return the current row in this worksheet.
     *
     * @return Row
     */
    public function current()
    {
        return new Row($this->subject, $this->position);
    }

    /**
     * Return the current iterator key.
     *
     * @return int
     */
    public function key()
    {
        return $this->position;
    }

    /**
     * Set the iterator to its next value.
     */
    public function next()
    {
        ++$this->position;
    }

    /**
     * Set the iterator to its previous value.
     */
    public function prev()
    {
        --$this->position;
    }

    /**
     * Indicate if more rows exist in the worksheet range of rows that
we're iterating.
     *
     * @return bool
     */
    public function valid()
    {
        return $this->position <= $this->endRow &&
$this->position >= $this->startRow;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Worksheet/SheetView.php000064400000010522151165414060023123
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Worksheet;

use PhpOffice\PhpSpreadsheet\Exception as PhpSpreadsheetException;

class SheetView
{
    // Sheet View types
    const SHEETVIEW_NORMAL = 'normal';
    const SHEETVIEW_PAGE_LAYOUT = 'pageLayout';
    const SHEETVIEW_PAGE_BREAK_PREVIEW = 'pageBreakPreview';

    private static $sheetViewTypes = [
        self::SHEETVIEW_NORMAL,
        self::SHEETVIEW_PAGE_LAYOUT,
        self::SHEETVIEW_PAGE_BREAK_PREVIEW,
    ];

    /**
     * ZoomScale.
     *
     * Valid values range from 10 to 400.
     *
     * @var int
     */
    private $zoomScale = 100;

    /**
     * ZoomScaleNormal.
     *
     * Valid values range from 10 to 400.
     *
     * @var int
     */
    private $zoomScaleNormal = 100;

    /**
     * ShowZeros.
     *
     * If true, "null" values from a calculation will be shown as
"0". This is the default Excel behaviour and can be changed
     * with the advanced worksheet option "Show a zero in cells that
have zero value"
     *
     * @var bool
     */
    private $showZeros = true;

    /**
     * View.
     *
     * Valid values range from 10 to 400.
     *
     * @var string
     */
    private $sheetviewType = self::SHEETVIEW_NORMAL;

    /**
     * Create a new SheetView.
     */
    public function __construct()
    {
    }

    /**
     * Get ZoomScale.
     *
     * @return int
     */
    public function getZoomScale()
    {
        return $this->zoomScale;
    }

    /**
     * Set ZoomScale.
     * Valid values range from 10 to 400.
     *
     * @param int $pValue
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function setZoomScale($pValue)
    {
        // Microsoft Office Excel 2007 only allows setting a scale between
10 and 400 via the user interface,
        // but it is apparently still able to handle any scale >= 1
        if (($pValue >= 1) || $pValue === null) {
            $this->zoomScale = $pValue;
        } else {
            throw new PhpSpreadsheetException('Scale must be greater
than or equal to 1.');
        }

        return $this;
    }

    /**
     * Get ZoomScaleNormal.
     *
     * @return int
     */
    public function getZoomScaleNormal()
    {
        return $this->zoomScaleNormal;
    }

    /**
     * Set ZoomScale.
     * Valid values range from 10 to 400.
     *
     * @param int $pValue
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function setZoomScaleNormal($pValue)
    {
        if (($pValue >= 1) || $pValue === null) {
            $this->zoomScaleNormal = $pValue;
        } else {
            throw new PhpSpreadsheetException('Scale must be greater
than or equal to 1.');
        }

        return $this;
    }

    /**
     * Set ShowZeroes setting.
     *
     * @param bool $pValue
     */
    public function setShowZeros($pValue)
    {
        $this->showZeros = $pValue;
    }

    /**
     * @return bool
     */
    public function getShowZeros()
    {
        return $this->showZeros;
    }

    /**
     * Get View.
     *
     * @return string
     */
    public function getView()
    {
        return $this->sheetviewType;
    }

    /**
     * Set View.
     *
     * Valid values are
     *        'normal'            self::SHEETVIEW_NORMAL
     *        'pageLayout'        self::SHEETVIEW_PAGE_LAYOUT
     *        'pageBreakPreview' 
self::SHEETVIEW_PAGE_BREAK_PREVIEW
     *
     * @param string $pValue
     *
     * @throws PhpSpreadsheetException
     *
     * @return $this
     */
    public function setView($pValue)
    {
        // MS Excel 2007 allows setting the view to 'normal',
'pageLayout' or 'pageBreakPreview' via the user
interface
        if ($pValue === null) {
            $pValue = self::SHEETVIEW_NORMAL;
        }
        if (in_array($pValue, self::$sheetViewTypes)) {
            $this->sheetviewType = $pValue;
        } else {
            throw new PhpSpreadsheetException('Invalid sheetview
layout type.');
        }

        return $this;
    }

    /**
     * Implement PHP __clone to create a deep clone, not just a shallow
copy.
     */
    public function __clone()
    {
        $vars = get_object_vars($this);
        foreach ($vars as $key => $value) {
            if (is_object($value)) {
                $this->$key = clone $value;
            } else {
                $this->$key = $value;
            }
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Worksheet/Worksheet.php000064400000253626151165414060023211
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Worksheet;

use ArrayObject;
use PhpOffice\PhpSpreadsheet\Calculation\Calculation;
use PhpOffice\PhpSpreadsheet\Cell\Cell;
use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\Cell\DataType;
use PhpOffice\PhpSpreadsheet\Cell\DataValidation;
use PhpOffice\PhpSpreadsheet\Cell\Hyperlink;
use PhpOffice\PhpSpreadsheet\Chart\Chart;
use PhpOffice\PhpSpreadsheet\Collection\Cells;
use PhpOffice\PhpSpreadsheet\Collection\CellsFactory;
use PhpOffice\PhpSpreadsheet\Comment;
use PhpOffice\PhpSpreadsheet\Exception;
use PhpOffice\PhpSpreadsheet\IComparable;
use PhpOffice\PhpSpreadsheet\NamedRange;
use PhpOffice\PhpSpreadsheet\ReferenceHelper;
use PhpOffice\PhpSpreadsheet\RichText\RichText;
use PhpOffice\PhpSpreadsheet\Shared;
use PhpOffice\PhpSpreadsheet\Spreadsheet;
use PhpOffice\PhpSpreadsheet\Style\Color;
use PhpOffice\PhpSpreadsheet\Style\Conditional;
use PhpOffice\PhpSpreadsheet\Style\NumberFormat;
use PhpOffice\PhpSpreadsheet\Style\Style;

class Worksheet implements IComparable
{
    // Break types
    const BREAK_NONE = 0;
    const BREAK_ROW = 1;
    const BREAK_COLUMN = 2;

    // Sheet state
    const SHEETSTATE_VISIBLE = 'visible';
    const SHEETSTATE_HIDDEN = 'hidden';
    const SHEETSTATE_VERYHIDDEN = 'veryHidden';

    /**
     * Maximum 31 characters allowed for sheet title.
     *
     * @var int
     */
    const SHEET_TITLE_MAXIMUM_LENGTH = 31;

    /**
     * Invalid characters in sheet title.
     *
     * @var array
     */
    private static $invalidCharacters = ['*', ':',
'/', '\\', '?', '[',
']'];

    /**
     * Parent spreadsheet.
     *
     * @var Spreadsheet
     */
    private $parent;

    /**
     * Collection of cells.
     *
     * @var Cells
     */
    private $cellCollection;

    /**
     * Collection of row dimensions.
     *
     * @var RowDimension[]
     */
    private $rowDimensions = [];

    /**
     * Default row dimension.
     *
     * @var RowDimension
     */
    private $defaultRowDimension;

    /**
     * Collection of column dimensions.
     *
     * @var ColumnDimension[]
     */
    private $columnDimensions = [];

    /**
     * Default column dimension.
     *
     * @var ColumnDimension
     */
    private $defaultColumnDimension;

    /**
     * Collection of drawings.
     *
     * @var BaseDrawing[]
     */
    private $drawingCollection;

    /**
     * Collection of Chart objects.
     *
     * @var Chart[]
     */
    private $chartCollection = [];

    /**
     * Worksheet title.
     *
     * @var string
     */
    private $title;

    /**
     * Sheet state.
     *
     * @var string
     */
    private $sheetState;

    /**
     * Page setup.
     *
     * @var PageSetup
     */
    private $pageSetup;

    /**
     * Page margins.
     *
     * @var PageMargins
     */
    private $pageMargins;

    /**
     * Page header/footer.
     *
     * @var HeaderFooter
     */
    private $headerFooter;

    /**
     * Sheet view.
     *
     * @var SheetView
     */
    private $sheetView;

    /**
     * Protection.
     *
     * @var Protection
     */
    private $protection;

    /**
     * Collection of styles.
     *
     * @var Style[]
     */
    private $styles = [];

    /**
     * Conditional styles. Indexed by cell coordinate, e.g. 'A1'.
     *
     * @var array
     */
    private $conditionalStylesCollection = [];

    /**
     * Is the current cell collection sorted already?
     *
     * @var bool
     */
    private $cellCollectionIsSorted = false;

    /**
     * Collection of breaks.
     *
     * @var array
     */
    private $breaks = [];

    /**
     * Collection of merged cell ranges.
     *
     * @var array
     */
    private $mergeCells = [];

    /**
     * Collection of protected cell ranges.
     *
     * @var array
     */
    private $protectedCells = [];

    /**
     * Autofilter Range and selection.
     *
     * @var AutoFilter
     */
    private $autoFilter;

    /**
     * Freeze pane.
     *
     * @var null|string
     */
    private $freezePane;

    /**
     * Default position of the right bottom pane.
     *
     * @var null|string
     */
    private $topLeftCell;

    /**
     * Show gridlines?
     *
     * @var bool
     */
    private $showGridlines = true;

    /**
     * Print gridlines?
     *
     * @var bool
     */
    private $printGridlines = false;

    /**
     * Show row and column headers?
     *
     * @var bool
     */
    private $showRowColHeaders = true;

    /**
     * Show summary below? (Row/Column outline).
     *
     * @var bool
     */
    private $showSummaryBelow = true;

    /**
     * Show summary right? (Row/Column outline).
     *
     * @var bool
     */
    private $showSummaryRight = true;

    /**
     * Collection of comments.
     *
     * @var Comment[]
     */
    private $comments = [];

    /**
     * Active cell. (Only one!).
     *
     * @var string
     */
    private $activeCell = 'A1';

    /**
     * Selected cells.
     *
     * @var string
     */
    private $selectedCells = 'A1';

    /**
     * Cached highest column.
     *
     * @var string
     */
    private $cachedHighestColumn = 'A';

    /**
     * Cached highest row.
     *
     * @var int
     */
    private $cachedHighestRow = 1;

    /**
     * Right-to-left?
     *
     * @var bool
     */
    private $rightToLeft = false;

    /**
     * Hyperlinks. Indexed by cell coordinate, e.g. 'A1'.
     *
     * @var array
     */
    private $hyperlinkCollection = [];

    /**
     * Data validation objects. Indexed by cell coordinate, e.g.
'A1'.
     *
     * @var array
     */
    private $dataValidationCollection = [];

    /**
     * Tab color.
     *
     * @var Color
     */
    private $tabColor;

    /**
     * Dirty flag.
     *
     * @var bool
     */
    private $dirty = true;

    /**
     * Hash.
     *
     * @var string
     */
    private $hash;

    /**
     * CodeName.
     *
     * @var string
     */
    private $codeName;

    /**
     * Create a new worksheet.
     *
     * @param Spreadsheet $parent
     * @param string $pTitle
     */
    public function __construct(Spreadsheet $parent = null, $pTitle =
'Worksheet')
    {
        // Set parent and title
        $this->parent = $parent;
        $this->setTitle($pTitle, false);
        // setTitle can change $pTitle
        $this->setCodeName($this->getTitle());
        $this->setSheetState(self::SHEETSTATE_VISIBLE);

        $this->cellCollection = CellsFactory::getInstance($this);
        // Set page setup
        $this->pageSetup = new PageSetup();
        // Set page margins
        $this->pageMargins = new PageMargins();
        // Set page header/footer
        $this->headerFooter = new HeaderFooter();
        // Set sheet view
        $this->sheetView = new SheetView();
        // Drawing collection
        $this->drawingCollection = new \ArrayObject();
        // Chart collection
        $this->chartCollection = new \ArrayObject();
        // Protection
        $this->protection = new Protection();
        // Default row dimension
        $this->defaultRowDimension = new RowDimension(null);
        // Default column dimension
        $this->defaultColumnDimension = new ColumnDimension(null);
        $this->autoFilter = new AutoFilter(null, $this);
    }

    /**
     * Disconnect all cells from this Worksheet object,
     * typically so that the worksheet object can be unset.
     */
    public function disconnectCells()
    {
        if ($this->cellCollection !== null) {
            $this->cellCollection->unsetWorksheetCells();
            $this->cellCollection = null;
        }
        //    detach ourself from the workbook, so that it can then delete
this worksheet successfully
        $this->parent = null;
    }

    /**
     * Code to execute when this worksheet is unset().
     */
    public function __destruct()
    {
       
Calculation::getInstance($this->parent)->clearCalculationCacheForWorksheet($this->title);

        $this->disconnectCells();
    }

    /**
     * Return the cell collection.
     *
     * @return Cells
     */
    public function getCellCollection()
    {
        return $this->cellCollection;
    }

    /**
     * Get array of invalid characters for sheet title.
     *
     * @return array
     */
    public static function getInvalidCharacters()
    {
        return self::$invalidCharacters;
    }

    /**
     * Check sheet code name for valid Excel syntax.
     *
     * @param string $pValue The string to check
     *
     * @throws Exception
     *
     * @return string The valid string
     */
    private static function checkSheetCodeName($pValue)
    {
        $CharCount = Shared\StringHelper::countCharacters($pValue);
        if ($CharCount == 0) {
            throw new Exception('Sheet code name cannot be
empty.');
        }
        // Some of the printable ASCII characters are invalid:  * : / \ ? [
] and  first and last characters cannot be a "'"
        if ((str_replace(self::$invalidCharacters, '', $pValue)
!== $pValue) ||
            (Shared\StringHelper::substring($pValue, -1, 1) ==
'\'') ||
            (Shared\StringHelper::substring($pValue, 0, 1) ==
'\'')) {
            throw new Exception('Invalid character found in sheet code
name');
        }

        // Enforce maximum characters allowed for sheet title
        if ($CharCount > self::SHEET_TITLE_MAXIMUM_LENGTH) {
            throw new Exception('Maximum ' .
self::SHEET_TITLE_MAXIMUM_LENGTH . ' characters allowed in sheet code
name.');
        }

        return $pValue;
    }

    /**
     * Check sheet title for valid Excel syntax.
     *
     * @param string $pValue The string to check
     *
     * @throws Exception
     *
     * @return string The valid string
     */
    private static function checkSheetTitle($pValue)
    {
        // Some of the printable ASCII characters are invalid:  * : / \ ? [
]
        if (str_replace(self::$invalidCharacters, '', $pValue)
!== $pValue) {
            throw new Exception('Invalid character found in sheet
title');
        }

        // Enforce maximum characters allowed for sheet title
        if (Shared\StringHelper::countCharacters($pValue) >
self::SHEET_TITLE_MAXIMUM_LENGTH) {
            throw new Exception('Maximum ' .
self::SHEET_TITLE_MAXIMUM_LENGTH . ' characters allowed in sheet
title.');
        }

        return $pValue;
    }

    /**
     * Get a sorted list of all cell coordinates currently held in the
collection by row and column.
     *
     * @param bool $sorted Also sort the cell collection?
     *
     * @return string[]
     */
    public function getCoordinates($sorted = true)
    {
        if ($this->cellCollection == null) {
            return [];
        }

        if ($sorted) {
            return $this->cellCollection->getSortedCoordinates();
        }

        return $this->cellCollection->getCoordinates();
    }

    /**
     * Get collection of row dimensions.
     *
     * @return RowDimension[]
     */
    public function getRowDimensions()
    {
        return $this->rowDimensions;
    }

    /**
     * Get default row dimension.
     *
     * @return RowDimension
     */
    public function getDefaultRowDimension()
    {
        return $this->defaultRowDimension;
    }

    /**
     * Get collection of column dimensions.
     *
     * @return ColumnDimension[]
     */
    public function getColumnDimensions()
    {
        return $this->columnDimensions;
    }

    /**
     * Get default column dimension.
     *
     * @return ColumnDimension
     */
    public function getDefaultColumnDimension()
    {
        return $this->defaultColumnDimension;
    }

    /**
     * Get collection of drawings.
     *
     * @return BaseDrawing[]
     */
    public function getDrawingCollection()
    {
        return $this->drawingCollection;
    }

    /**
     * Get collection of charts.
     *
     * @return Chart[]
     */
    public function getChartCollection()
    {
        return $this->chartCollection;
    }

    /**
     * Add chart.
     *
     * @param Chart $pChart
     * @param null|int $iChartIndex Index where chart should go (0,1,...,
or null for last)
     *
     * @return Chart
     */
    public function addChart(Chart $pChart, $iChartIndex = null)
    {
        $pChart->setWorksheet($this);
        if ($iChartIndex === null) {
            $this->chartCollection[] = $pChart;
        } else {
            // Insert the chart at the requested index
            array_splice($this->chartCollection, $iChartIndex, 0,
[$pChart]);
        }

        return $pChart;
    }

    /**
     * Return the count of charts on this worksheet.
     *
     * @return int The number of charts
     */
    public function getChartCount()
    {
        return count($this->chartCollection);
    }

    /**
     * Get a chart by its index position.
     *
     * @param string $index Chart index position
     *
     * @return Chart|false
     */
    public function getChartByIndex($index)
    {
        $chartCount = count($this->chartCollection);
        if ($chartCount == 0) {
            return false;
        }
        if ($index === null) {
            $index = --$chartCount;
        }
        if (!isset($this->chartCollection[$index])) {
            return false;
        }

        return $this->chartCollection[$index];
    }

    /**
     * Return an array of the names of charts on this worksheet.
     *
     * @return string[] The names of charts
     */
    public function getChartNames()
    {
        $chartNames = [];
        foreach ($this->chartCollection as $chart) {
            $chartNames[] = $chart->getName();
        }

        return $chartNames;
    }

    /**
     * Get a chart by name.
     *
     * @param string $chartName Chart name
     *
     * @return Chart|false
     */
    public function getChartByName($chartName)
    {
        $chartCount = count($this->chartCollection);
        if ($chartCount == 0) {
            return false;
        }
        foreach ($this->chartCollection as $index => $chart) {
            if ($chart->getName() == $chartName) {
                return $this->chartCollection[$index];
            }
        }

        return false;
    }

    /**
     * Refresh column dimensions.
     *
     * @return $this
     */
    public function refreshColumnDimensions()
    {
        $currentColumnDimensions = $this->getColumnDimensions();
        $newColumnDimensions = [];

        foreach ($currentColumnDimensions as $objColumnDimension) {
            $newColumnDimensions[$objColumnDimension->getColumnIndex()]
= $objColumnDimension;
        }

        $this->columnDimensions = $newColumnDimensions;

        return $this;
    }

    /**
     * Refresh row dimensions.
     *
     * @return $this
     */
    public function refreshRowDimensions()
    {
        $currentRowDimensions = $this->getRowDimensions();
        $newRowDimensions = [];

        foreach ($currentRowDimensions as $objRowDimension) {
            $newRowDimensions[$objRowDimension->getRowIndex()] =
$objRowDimension;
        }

        $this->rowDimensions = $newRowDimensions;

        return $this;
    }

    /**
     * Calculate worksheet dimension.
     *
     * @return string String containing the dimension of this worksheet
     */
    public function calculateWorksheetDimension()
    {
        // Return
        return 'A1:' . $this->getHighestColumn() .
$this->getHighestRow();
    }

    /**
     * Calculate worksheet data dimension.
     *
     * @return string String containing the dimension of this worksheet
that actually contain data
     */
    public function calculateWorksheetDataDimension()
    {
        // Return
        return 'A1:' . $this->getHighestDataColumn() .
$this->getHighestDataRow();
    }

    /**
     * Calculate widths for auto-size columns.
     *
     * @return $this
     */
    public function calculateColumnWidths()
    {
        // initialize $autoSizes array
        $autoSizes = [];
        foreach ($this->getColumnDimensions() as $colDimension) {
            if ($colDimension->getAutoSize()) {
                $autoSizes[$colDimension->getColumnIndex()] = -1;
            }
        }

        // There is only something to do if there are some auto-size
columns
        if (!empty($autoSizes)) {
            // build list of cells references that participate in a merge
            $isMergeCell = [];
            foreach ($this->getMergeCells() as $cells) {
                foreach
(Coordinate::extractAllCellReferencesInRange($cells) as $cellReference) {
                    $isMergeCell[$cellReference] = true;
                }
            }

            // loop through all cells in the worksheet
            foreach ($this->getCoordinates(false) as $coordinate) {
                $cell = $this->getCell($coordinate, false);
                if ($cell !== null &&
isset($autoSizes[$this->cellCollection->getCurrentColumn()])) {
                    //Determine if cell is in merge range
                    $isMerged =
isset($isMergeCell[$this->cellCollection->getCurrentCoordinate()]);

                    //By default merged cells should be ignored
                    $isMergedButProceed = false;

                    //The only exception is if it's a merge range
value cell of a 'vertical' randge (1 column wide)
                    if ($isMerged &&
$cell->isMergeRangeValueCell()) {
                        $range = $cell->getMergeRange();
                        $rangeBoundaries =
Coordinate::rangeDimension($range);
                        if ($rangeBoundaries[0] == 1) {
                            $isMergedButProceed = true;
                        }
                    }

                    // Determine width if cell does not participate in a
merge or does and is a value cell of 1-column wide range
                    if (!$isMerged || $isMergedButProceed) {
                        // Calculated value
                        // To formatted string
                        $cellValue = NumberFormat::toFormattedString(
                            $cell->getCalculatedValue(),
                           
$this->getParent()->getCellXfByIndex($cell->getXfIndex())->getNumberFormat()->getFormatCode()
                        );

                       
$autoSizes[$this->cellCollection->getCurrentColumn()] = max(
                            (float)
$autoSizes[$this->cellCollection->getCurrentColumn()],
                            (float) Shared\Font::calculateColumnWidth(
                               
$this->getParent()->getCellXfByIndex($cell->getXfIndex())->getFont(),
                                $cellValue,
                               
$this->getParent()->getCellXfByIndex($cell->getXfIndex())->getAlignment()->getTextRotation(),
                               
$this->getParent()->getDefaultStyle()->getFont()
                            )
                        );
                    }
                }
            }

            // adjust column widths
            foreach ($autoSizes as $columnIndex => $width) {
                if ($width == -1) {
                    $width =
$this->getDefaultColumnDimension()->getWidth();
                }
               
$this->getColumnDimension($columnIndex)->setWidth($width);
            }
        }

        return $this;
    }

    /**
     * Get parent.
     *
     * @return Spreadsheet
     */
    public function getParent()
    {
        return $this->parent;
    }

    /**
     * Re-bind parent.
     *
     * @param Spreadsheet $parent
     *
     * @return $this
     */
    public function rebindParent(Spreadsheet $parent)
    {
        if ($this->parent !== null) {
            $namedRanges = $this->parent->getNamedRanges();
            foreach ($namedRanges as $namedRange) {
                $parent->addNamedRange($namedRange);
            }

            $this->parent->removeSheetByIndex(
                $this->parent->getIndex($this)
            );
        }
        $this->parent = $parent;

        return $this;
    }

    /**
     * Get title.
     *
     * @return string
     */
    public function getTitle()
    {
        return $this->title;
    }

    /**
     * Set title.
     *
     * @param string $pValue String containing the dimension of this
worksheet
     * @param bool $updateFormulaCellReferences Flag indicating whether
cell references in formulae should
     *            be updated to reflect the new sheet name.
     *          This should be left as the default true, unless you are
     *          certain that no formula cells on any worksheet contain
     *          references to this worksheet
     * @param bool $validate False to skip validation of new title.
WARNING: This should only be set
     *                       at parse time (by Readers), where titles can
be assumed to be valid.
     *
     * @return $this
     */
    public function setTitle($pValue, $updateFormulaCellReferences = true,
$validate = true)
    {
        // Is this a 'rename' or not?
        if ($this->getTitle() == $pValue) {
            return $this;
        }

        // Old title
        $oldTitle = $this->getTitle();

        if ($validate) {
            // Syntax check
            self::checkSheetTitle($pValue);

            if ($this->parent) {
                // Is there already such sheet name?
                if ($this->parent->sheetNameExists($pValue)) {
                    // Use name, but append with lowest possible integer

                    if (Shared\StringHelper::countCharacters($pValue) >
29) {
                        $pValue = Shared\StringHelper::substring($pValue,
0, 29);
                    }
                    $i = 1;
                    while ($this->parent->sheetNameExists($pValue .
' ' . $i)) {
                        ++$i;
                        if ($i == 10) {
                            if
(Shared\StringHelper::countCharacters($pValue) > 28) {
                                $pValue =
Shared\StringHelper::substring($pValue, 0, 28);
                            }
                        } elseif ($i == 100) {
                            if
(Shared\StringHelper::countCharacters($pValue) > 27) {
                                $pValue =
Shared\StringHelper::substring($pValue, 0, 27);
                            }
                        }
                    }

                    $pValue .= " $i";
                }
            }
        }

        // Set title
        $this->title = $pValue;
        $this->dirty = true;

        if ($this->parent &&
$this->parent->getCalculationEngine()) {
            // New title
            $newTitle = $this->getTitle();
            $this->parent->getCalculationEngine()
                ->renameCalculationCacheForWorksheet($oldTitle,
$newTitle);
            if ($updateFormulaCellReferences) {
               
ReferenceHelper::getInstance()->updateNamedFormulas($this->parent,
$oldTitle, $newTitle);
            }
        }

        return $this;
    }

    /**
     * Get sheet state.
     *
     * @return string Sheet state (visible, hidden, veryHidden)
     */
    public function getSheetState()
    {
        return $this->sheetState;
    }

    /**
     * Set sheet state.
     *
     * @param string $value Sheet state (visible, hidden, veryHidden)
     *
     * @return $this
     */
    public function setSheetState($value)
    {
        $this->sheetState = $value;

        return $this;
    }

    /**
     * Get page setup.
     *
     * @return PageSetup
     */
    public function getPageSetup()
    {
        return $this->pageSetup;
    }

    /**
     * Set page setup.
     *
     * @param PageSetup $pValue
     *
     * @return $this
     */
    public function setPageSetup(PageSetup $pValue)
    {
        $this->pageSetup = $pValue;

        return $this;
    }

    /**
     * Get page margins.
     *
     * @return PageMargins
     */
    public function getPageMargins()
    {
        return $this->pageMargins;
    }

    /**
     * Set page margins.
     *
     * @param PageMargins $pValue
     *
     * @return $this
     */
    public function setPageMargins(PageMargins $pValue)
    {
        $this->pageMargins = $pValue;

        return $this;
    }

    /**
     * Get page header/footer.
     *
     * @return HeaderFooter
     */
    public function getHeaderFooter()
    {
        return $this->headerFooter;
    }

    /**
     * Set page header/footer.
     *
     * @param HeaderFooter $pValue
     *
     * @return $this
     */
    public function setHeaderFooter(HeaderFooter $pValue)
    {
        $this->headerFooter = $pValue;

        return $this;
    }

    /**
     * Get sheet view.
     *
     * @return SheetView
     */
    public function getSheetView()
    {
        return $this->sheetView;
    }

    /**
     * Set sheet view.
     *
     * @param SheetView $pValue
     *
     * @return $this
     */
    public function setSheetView(SheetView $pValue)
    {
        $this->sheetView = $pValue;

        return $this;
    }

    /**
     * Get Protection.
     *
     * @return Protection
     */
    public function getProtection()
    {
        return $this->protection;
    }

    /**
     * Set Protection.
     *
     * @param Protection $pValue
     *
     * @return $this
     */
    public function setProtection(Protection $pValue)
    {
        $this->protection = $pValue;
        $this->dirty = true;

        return $this;
    }

    /**
     * Get highest worksheet column.
     *
     * @param string $row Return the data highest column for the specified
row,
     *                                     or the highest column of any row
if no row number is passed
     *
     * @return string Highest column name
     */
    public function getHighestColumn($row = null)
    {
        if ($row == null) {
            return $this->cachedHighestColumn;
        }

        return $this->getHighestDataColumn($row);
    }

    /**
     * Get highest worksheet column that contains data.
     *
     * @param string $row Return the highest data column for the specified
row,
     *                                     or the highest data column of
any row if no row number is passed
     *
     * @return string Highest column name that contains data
     */
    public function getHighestDataColumn($row = null)
    {
        return $this->cellCollection->getHighestColumn($row);
    }

    /**
     * Get highest worksheet row.
     *
     * @param string $column Return the highest data row for the specified
column,
     *                                     or the highest row of any column
if no column letter is passed
     *
     * @return int Highest row number
     */
    public function getHighestRow($column = null)
    {
        if ($column == null) {
            return $this->cachedHighestRow;
        }

        return $this->getHighestDataRow($column);
    }

    /**
     * Get highest worksheet row that contains data.
     *
     * @param string $column Return the highest data row for the specified
column,
     *                                     or the highest data row of any
column if no column letter is passed
     *
     * @return int Highest row number that contains data
     */
    public function getHighestDataRow($column = null)
    {
        return $this->cellCollection->getHighestRow($column);
    }

    /**
     * Get highest worksheet column and highest row that have cell records.
     *
     * @return array Highest column name and highest row number
     */
    public function getHighestRowAndColumn()
    {
        return $this->cellCollection->getHighestRowAndColumn();
    }

    /**
     * Set a cell value.
     *
     * @param string $pCoordinate Coordinate of the cell, eg:
'A1'
     * @param mixed $pValue Value of the cell
     *
     * @return $this
     */
    public function setCellValue($pCoordinate, $pValue)
    {
        $this->getCell($pCoordinate)->setValue($pValue);

        return $this;
    }

    /**
     * Set a cell value by using numeric cell coordinates.
     *
     * @param int $columnIndex Numeric column coordinate of the cell
     * @param int $row Numeric row coordinate of the cell
     * @param mixed $value Value of the cell
     *
     * @return $this
     */
    public function setCellValueByColumnAndRow($columnIndex, $row, $value)
    {
        $this->getCellByColumnAndRow($columnIndex,
$row)->setValue($value);

        return $this;
    }

    /**
     * Set a cell value.
     *
     * @param string $pCoordinate Coordinate of the cell, eg:
'A1'
     * @param mixed $pValue Value of the cell
     * @param string $pDataType Explicit data type, see DataType::TYPE_*
     *
     * @return $this
     */
    public function setCellValueExplicit($pCoordinate, $pValue, $pDataType)
    {
        // Set value
        $this->getCell($pCoordinate)->setValueExplicit($pValue,
$pDataType);

        return $this;
    }

    /**
     * Set a cell value by using numeric cell coordinates.
     *
     * @param int $columnIndex Numeric column coordinate of the cell
     * @param int $row Numeric row coordinate of the cell
     * @param mixed $value Value of the cell
     * @param string $dataType Explicit data type, see DataType::TYPE_*
     *
     * @return $this
     */
    public function setCellValueExplicitByColumnAndRow($columnIndex, $row,
$value, $dataType)
    {
        $this->getCellByColumnAndRow($columnIndex,
$row)->setValueExplicit($value, $dataType);

        return $this;
    }

    /**
     * Get cell at a specific coordinate.
     *
     * @param string $pCoordinate Coordinate of the cell, eg:
'A1'
     * @param bool $createIfNotExists Flag indicating whether a new cell
should be created if it doesn't
     *                                       already exist, or a null
should be returned instead
     *
     * @throws Exception
     *
     * @return null|Cell Cell that was found/created or null
     */
    public function getCell($pCoordinate, $createIfNotExists = true)
    {
        // Uppercase coordinate
        $pCoordinateUpper = strtoupper($pCoordinate);

        // Check cell collection
        if ($this->cellCollection->has($pCoordinateUpper)) {
            return $this->cellCollection->get($pCoordinateUpper);
        }

        // Worksheet reference?
        if (strpos($pCoordinate, '!') !== false) {
            $worksheetReference = self::extractSheetTitle($pCoordinate,
true);

            return
$this->parent->getSheetByName($worksheetReference[0])->getCell(strtoupper($worksheetReference[1]),
$createIfNotExists);
        }

        // Named range?
        if ((!preg_match('/^' .
Calculation::CALCULATION_REGEXP_CELLREF . '$/i', $pCoordinate,
$matches)) &&
            (preg_match('/^' .
Calculation::CALCULATION_REGEXP_NAMEDRANGE . '$/i', $pCoordinate,
$matches))) {
            $namedRange = NamedRange::resolveRange($pCoordinate, $this);
            if ($namedRange !== null) {
                $pCoordinate = $namedRange->getRange();

                return
$namedRange->getWorksheet()->getCell($pCoordinate,
$createIfNotExists);
            }
        }

        if (Coordinate::coordinateIsRange($pCoordinate)) {
            throw new Exception('Cell coordinate can not be a range of
cells.');
        } elseif (strpos($pCoordinate, '$') !== false) {
            throw new Exception('Cell coordinate must not be
absolute.');
        }

        // Create new cell object, if required
        return $createIfNotExists ?
$this->createNewCell($pCoordinateUpper) : null;
    }

    /**
     * Get cell at a specific coordinate by using numeric cell coordinates.
     *
     * @param int $columnIndex Numeric column coordinate of the cell
     * @param int $row Numeric row coordinate of the cell
     * @param bool $createIfNotExists Flag indicating whether a new cell
should be created if it doesn't
     *                                       already exist, or a null
should be returned instead
     *
     * @return null|Cell Cell that was found/created or null
     */
    public function getCellByColumnAndRow($columnIndex, $row,
$createIfNotExists = true)
    {
        $columnLetter = Coordinate::stringFromColumnIndex($columnIndex);
        $coordinate = $columnLetter . $row;

        if ($this->cellCollection->has($coordinate)) {
            return $this->cellCollection->get($coordinate);
        }

        // Create new cell object, if required
        return $createIfNotExists ? $this->createNewCell($coordinate) :
null;
    }

    /**
     * Create a new cell at the specified coordinate.
     *
     * @param string $pCoordinate Coordinate of the cell
     *
     * @return Cell Cell that was created
     */
    private function createNewCell($pCoordinate)
    {
        $cell = new Cell(null, DataType::TYPE_NULL, $this);
        $this->cellCollection->add($pCoordinate, $cell);
        $this->cellCollectionIsSorted = false;

        // Coordinates
        $aCoordinates = Coordinate::coordinateFromString($pCoordinate);
        if
(Coordinate::columnIndexFromString($this->cachedHighestColumn) <
Coordinate::columnIndexFromString($aCoordinates[0])) {
            $this->cachedHighestColumn = $aCoordinates[0];
        }
        if ($aCoordinates[1] > $this->cachedHighestRow) {
            $this->cachedHighestRow = $aCoordinates[1];
        }

        // Cell needs appropriate xfIndex from dimensions records
        //    but don't create dimension records if they don't
already exist
        $rowDimension = $this->getRowDimension($aCoordinates[1], false);
        $columnDimension = $this->getColumnDimension($aCoordinates[0],
false);

        if ($rowDimension !== null &&
$rowDimension->getXfIndex() > 0) {
            // then there is a row dimension with explicit style, assign it
to the cell
            $cell->setXfIndex($rowDimension->getXfIndex());
        } elseif ($columnDimension !== null &&
$columnDimension->getXfIndex() > 0) {
            // then there is a column dimension, assign it to the cell
            $cell->setXfIndex($columnDimension->getXfIndex());
        }

        return $cell;
    }

    /**
     * Does the cell at a specific coordinate exist?
     *
     * @param string $pCoordinate Coordinate of the cell eg: 'A1'
     *
     * @throws Exception
     *
     * @return bool
     */
    public function cellExists($pCoordinate)
    {
        // Worksheet reference?
        if (strpos($pCoordinate, '!') !== false) {
            $worksheetReference = self::extractSheetTitle($pCoordinate,
true);

            return
$this->parent->getSheetByName($worksheetReference[0])->cellExists(strtoupper($worksheetReference[1]));
        }

        // Named range?
        if ((!preg_match('/^' .
Calculation::CALCULATION_REGEXP_CELLREF . '$/i', $pCoordinate,
$matches)) &&
            (preg_match('/^' .
Calculation::CALCULATION_REGEXP_NAMEDRANGE . '$/i', $pCoordinate,
$matches))) {
            $namedRange = NamedRange::resolveRange($pCoordinate, $this);
            if ($namedRange !== null) {
                $pCoordinate = $namedRange->getRange();
                if ($this->getHashCode() !=
$namedRange->getWorksheet()->getHashCode()) {
                    if (!$namedRange->getLocalOnly()) {
                        return
$namedRange->getWorksheet()->cellExists($pCoordinate);
                    }

                    throw new Exception('Named range ' .
$namedRange->getName() . ' is not accessible from within sheet
' . $this->getTitle());
                }
            } else {
                return false;
            }
        }

        // Uppercase coordinate
        $pCoordinate = strtoupper($pCoordinate);

        if (Coordinate::coordinateIsRange($pCoordinate)) {
            throw new Exception('Cell coordinate can not be a range of
cells.');
        } elseif (strpos($pCoordinate, '$') !== false) {
            throw new Exception('Cell coordinate must not be
absolute.');
        }

        // Cell exists?
        return $this->cellCollection->has($pCoordinate);
    }

    /**
     * Cell at a specific coordinate by using numeric cell coordinates
exists?
     *
     * @param int $columnIndex Numeric column coordinate of the cell
     * @param int $row Numeric row coordinate of the cell
     *
     * @return bool
     */
    public function cellExistsByColumnAndRow($columnIndex, $row)
    {
        return
$this->cellExists(Coordinate::stringFromColumnIndex($columnIndex) .
$row);
    }

    /**
     * Get row dimension at a specific row.
     *
     * @param int $pRow Numeric index of the row
     * @param bool $create
     *
     * @return RowDimension
     */
    public function getRowDimension($pRow, $create = true)
    {
        // Found
        $found = null;

        // Get row dimension
        if (!isset($this->rowDimensions[$pRow])) {
            if (!$create) {
                return null;
            }
            $this->rowDimensions[$pRow] = new RowDimension($pRow);

            $this->cachedHighestRow = max($this->cachedHighestRow,
$pRow);
        }

        return $this->rowDimensions[$pRow];
    }

    /**
     * Get column dimension at a specific column.
     *
     * @param string $pColumn String index of the column eg: 'A'
     * @param bool $create
     *
     * @return ColumnDimension
     */
    public function getColumnDimension($pColumn, $create = true)
    {
        // Uppercase coordinate
        $pColumn = strtoupper($pColumn);

        // Fetch dimensions
        if (!isset($this->columnDimensions[$pColumn])) {
            if (!$create) {
                return null;
            }
            $this->columnDimensions[$pColumn] = new
ColumnDimension($pColumn);

            if
(Coordinate::columnIndexFromString($this->cachedHighestColumn) <
Coordinate::columnIndexFromString($pColumn)) {
                $this->cachedHighestColumn = $pColumn;
            }
        }

        return $this->columnDimensions[$pColumn];
    }

    /**
     * Get column dimension at a specific column by using numeric cell
coordinates.
     *
     * @param int $columnIndex Numeric column coordinate of the cell
     *
     * @return ColumnDimension
     */
    public function getColumnDimensionByColumn($columnIndex)
    {
        return
$this->getColumnDimension(Coordinate::stringFromColumnIndex($columnIndex));
    }

    /**
     * Get styles.
     *
     * @return Style[]
     */
    public function getStyles()
    {
        return $this->styles;
    }

    /**
     * Get style for cell.
     *
     * @param string $pCellCoordinate Cell coordinate (or range) to get
style for, eg: 'A1'
     *
     * @throws Exception
     *
     * @return Style
     */
    public function getStyle($pCellCoordinate)
    {
        // set this sheet as active
       
$this->parent->setActiveSheetIndex($this->parent->getIndex($this));

        // set cell coordinate as active
        $this->setSelectedCells($pCellCoordinate);

        return $this->parent->getCellXfSupervisor();
    }

    /**
     * Get conditional styles for a cell.
     *
     * @param string $pCoordinate eg: 'A1'
     *
     * @return Conditional[]
     */
    public function getConditionalStyles($pCoordinate)
    {
        $pCoordinate = strtoupper($pCoordinate);
        if (!isset($this->conditionalStylesCollection[$pCoordinate])) {
            $this->conditionalStylesCollection[$pCoordinate] = [];
        }

        return $this->conditionalStylesCollection[$pCoordinate];
    }

    /**
     * Do conditional styles exist for this cell?
     *
     * @param string $pCoordinate eg: 'A1'
     *
     * @return bool
     */
    public function conditionalStylesExists($pCoordinate)
    {
        return
isset($this->conditionalStylesCollection[strtoupper($pCoordinate)]);
    }

    /**
     * Removes conditional styles for a cell.
     *
     * @param string $pCoordinate eg: 'A1'
     *
     * @return $this
     */
    public function removeConditionalStyles($pCoordinate)
    {
       
unset($this->conditionalStylesCollection[strtoupper($pCoordinate)]);

        return $this;
    }

    /**
     * Get collection of conditional styles.
     *
     * @return array
     */
    public function getConditionalStylesCollection()
    {
        return $this->conditionalStylesCollection;
    }

    /**
     * Set conditional styles.
     *
     * @param string $pCoordinate eg: 'A1'
     * @param $pValue Conditional[]
     *
     * @return $this
     */
    public function setConditionalStyles($pCoordinate, $pValue)
    {
        $this->conditionalStylesCollection[strtoupper($pCoordinate)] =
$pValue;

        return $this;
    }

    /**
     * Get style for cell by using numeric cell coordinates.
     *
     * @param int $columnIndex1 Numeric column coordinate of the cell
     * @param int $row1 Numeric row coordinate of the cell
     * @param null|int $columnIndex2 Numeric column coordinate of the range
cell
     * @param null|int $row2 Numeric row coordinate of the range cell
     *
     * @return Style
     */
    public function getStyleByColumnAndRow($columnIndex1, $row1,
$columnIndex2 = null, $row2 = null)
    {
        if ($columnIndex2 !== null && $row2 !== null) {
            $cellRange = Coordinate::stringFromColumnIndex($columnIndex1) .
$row1 . ':' . Coordinate::stringFromColumnIndex($columnIndex2) .
$row2;

            return $this->getStyle($cellRange);
        }

        return
$this->getStyle(Coordinate::stringFromColumnIndex($columnIndex1) .
$row1);
    }

    /**
     * Duplicate cell style to a range of cells.
     *
     * Please note that this will overwrite existing cell styles for cells
in range!
     *
     * @param Style $pCellStyle Cell style to duplicate
     * @param string $pRange Range of cells (i.e. "A1:B10"), or
just one cell (i.e. "A1")
     *
     * @throws Exception
     *
     * @return $this
     */
    public function duplicateStyle(Style $pCellStyle, $pRange)
    {
        // Add the style to the workbook if necessary
        $workbook = $this->parent;
        if ($existingStyle =
$this->parent->getCellXfByHashCode($pCellStyle->getHashCode())) {
            // there is already such cell Xf in our collection
            $xfIndex = $existingStyle->getIndex();
        } else {
            // we don't have such a cell Xf, need to add
            $workbook->addCellXf($pCellStyle);
            $xfIndex = $pCellStyle->getIndex();
        }

        // Calculate range outer borders
        [$rangeStart, $rangeEnd] = Coordinate::rangeBoundaries($pRange .
':' . $pRange);

        // Make sure we can loop upwards on rows and columns
        if ($rangeStart[0] > $rangeEnd[0] && $rangeStart[1] >
$rangeEnd[1]) {
            $tmp = $rangeStart;
            $rangeStart = $rangeEnd;
            $rangeEnd = $tmp;
        }

        // Loop through cells and apply styles
        for ($col = $rangeStart[0]; $col <= $rangeEnd[0]; ++$col) {
            for ($row = $rangeStart[1]; $row <= $rangeEnd[1]; ++$row) {
                $this->getCell(Coordinate::stringFromColumnIndex($col) .
$row)->setXfIndex($xfIndex);
            }
        }

        return $this;
    }

    /**
     * Duplicate conditional style to a range of cells.
     *
     * Please note that this will overwrite existing cell styles for cells
in range!
     *
     * @param Conditional[] $pCellStyle Cell style to duplicate
     * @param string $pRange Range of cells (i.e. "A1:B10"), or
just one cell (i.e. "A1")
     *
     * @throws Exception
     *
     * @return $this
     */
    public function duplicateConditionalStyle(array $pCellStyle, $pRange =
'')
    {
        foreach ($pCellStyle as $cellStyle) {
            if (!($cellStyle instanceof Conditional)) {
                throw new Exception('Style is not a conditional
style');
            }
        }

        // Calculate range outer borders
        [$rangeStart, $rangeEnd] = Coordinate::rangeBoundaries($pRange .
':' . $pRange);

        // Make sure we can loop upwards on rows and columns
        if ($rangeStart[0] > $rangeEnd[0] && $rangeStart[1] >
$rangeEnd[1]) {
            $tmp = $rangeStart;
            $rangeStart = $rangeEnd;
            $rangeEnd = $tmp;
        }

        // Loop through cells and apply styles
        for ($col = $rangeStart[0]; $col <= $rangeEnd[0]; ++$col) {
            for ($row = $rangeStart[1]; $row <= $rangeEnd[1]; ++$row) {
               
$this->setConditionalStyles(Coordinate::stringFromColumnIndex($col) .
$row, $pCellStyle);
            }
        }

        return $this;
    }

    /**
     * Set break on a cell.
     *
     * @param string $pCoordinate Cell coordinate (e.g. A1)
     * @param int $pBreak Break type (type of Worksheet::BREAK_*)
     *
     * @throws Exception
     *
     * @return $this
     */
    public function setBreak($pCoordinate, $pBreak)
    {
        // Uppercase coordinate
        $pCoordinate = strtoupper($pCoordinate);

        if ($pCoordinate != '') {
            if ($pBreak == self::BREAK_NONE) {
                if (isset($this->breaks[$pCoordinate])) {
                    unset($this->breaks[$pCoordinate]);
                }
            } else {
                $this->breaks[$pCoordinate] = $pBreak;
            }
        } else {
            throw new Exception('No cell coordinate specified.');
        }

        return $this;
    }

    /**
     * Set break on a cell by using numeric cell coordinates.
     *
     * @param int $columnIndex Numeric column coordinate of the cell
     * @param int $row Numeric row coordinate of the cell
     * @param int $break Break type (type of Worksheet::BREAK_*)
     *
     * @return $this
     */
    public function setBreakByColumnAndRow($columnIndex, $row, $break)
    {
        return
$this->setBreak(Coordinate::stringFromColumnIndex($columnIndex) . $row,
$break);
    }

    /**
     * Get breaks.
     *
     * @return array[]
     */
    public function getBreaks()
    {
        return $this->breaks;
    }

    /**
     * Set merge on a cell range.
     *
     * @param string $pRange Cell range (e.g. A1:E1)
     *
     * @throws Exception
     *
     * @return $this
     */
    public function mergeCells($pRange)
    {
        // Uppercase coordinate
        $pRange = strtoupper($pRange);

        if (strpos($pRange, ':') !== false) {
            $this->mergeCells[$pRange] = $pRange;

            // make sure cells are created

            // get the cells in the range
            $aReferences =
Coordinate::extractAllCellReferencesInRange($pRange);

            // create upper left cell if it does not already exist
            $upperLeft = $aReferences[0];
            if (!$this->cellExists($upperLeft)) {
                $this->getCell($upperLeft)->setValueExplicit(null,
DataType::TYPE_NULL);
            }

            // Blank out the rest of the cells in the range (if they exist)
            $count = count($aReferences);
            for ($i = 1; $i < $count; ++$i) {
                if ($this->cellExists($aReferences[$i])) {
                   
$this->getCell($aReferences[$i])->setValueExplicit(null,
DataType::TYPE_NULL);
                }
            }
        } else {
            throw new Exception('Merge must be set on a range of
cells.');
        }

        return $this;
    }

    /**
     * Set merge on a cell range by using numeric cell coordinates.
     *
     * @param int $columnIndex1 Numeric column coordinate of the first cell
     * @param int $row1 Numeric row coordinate of the first cell
     * @param int $columnIndex2 Numeric column coordinate of the last cell
     * @param int $row2 Numeric row coordinate of the last cell
     *
     * @throws Exception
     *
     * @return $this
     */
    public function mergeCellsByColumnAndRow($columnIndex1, $row1,
$columnIndex2, $row2)
    {
        $cellRange = Coordinate::stringFromColumnIndex($columnIndex1) .
$row1 . ':' . Coordinate::stringFromColumnIndex($columnIndex2) .
$row2;

        return $this->mergeCells($cellRange);
    }

    /**
     * Remove merge on a cell range.
     *
     * @param string $pRange Cell range (e.g. A1:E1)
     *
     * @throws Exception
     *
     * @return $this
     */
    public function unmergeCells($pRange)
    {
        // Uppercase coordinate
        $pRange = strtoupper($pRange);

        if (strpos($pRange, ':') !== false) {
            if (isset($this->mergeCells[$pRange])) {
                unset($this->mergeCells[$pRange]);
            } else {
                throw new Exception('Cell range ' . $pRange .
' not known as merged.');
            }
        } else {
            throw new Exception('Merge can only be removed from a
range of cells.');
        }

        return $this;
    }

    /**
     * Remove merge on a cell range by using numeric cell coordinates.
     *
     * @param int $columnIndex1 Numeric column coordinate of the first cell
     * @param int $row1 Numeric row coordinate of the first cell
     * @param int $columnIndex2 Numeric column coordinate of the last cell
     * @param int $row2 Numeric row coordinate of the last cell
     *
     * @throws Exception
     *
     * @return $this
     */
    public function unmergeCellsByColumnAndRow($columnIndex1, $row1,
$columnIndex2, $row2)
    {
        $cellRange = Coordinate::stringFromColumnIndex($columnIndex1) .
$row1 . ':' . Coordinate::stringFromColumnIndex($columnIndex2) .
$row2;

        return $this->unmergeCells($cellRange);
    }

    /**
     * Get merge cells array.
     *
     * @return array[]
     */
    public function getMergeCells()
    {
        return $this->mergeCells;
    }

    /**
     * Set merge cells array for the entire sheet. Use instead mergeCells()
to merge
     * a single cell range.
     *
     * @param array $pValue
     *
     * @return $this
     */
    public function setMergeCells(array $pValue)
    {
        $this->mergeCells = $pValue;

        return $this;
    }

    /**
     * Set protection on a cell range.
     *
     * @param string $pRange Cell (e.g. A1) or cell range (e.g. A1:E1)
     * @param string $pPassword Password to unlock the protection
     * @param bool $pAlreadyHashed If the password has already been hashed,
set this to true
     *
     * @return $this
     */
    public function protectCells($pRange, $pPassword, $pAlreadyHashed =
false)
    {
        // Uppercase coordinate
        $pRange = strtoupper($pRange);

        if (!$pAlreadyHashed) {
            $pPassword = Shared\PasswordHasher::hashPassword($pPassword);
        }
        $this->protectedCells[$pRange] = $pPassword;

        return $this;
    }

    /**
     * Set protection on a cell range by using numeric cell coordinates.
     *
     * @param int $columnIndex1 Numeric column coordinate of the first cell
     * @param int $row1 Numeric row coordinate of the first cell
     * @param int $columnIndex2 Numeric column coordinate of the last cell
     * @param int $row2 Numeric row coordinate of the last cell
     * @param string $password Password to unlock the protection
     * @param bool $alreadyHashed If the password has already been hashed,
set this to true
     *
     * @return $this
     */
    public function protectCellsByColumnAndRow($columnIndex1, $row1,
$columnIndex2, $row2, $password, $alreadyHashed = false)
    {
        $cellRange = Coordinate::stringFromColumnIndex($columnIndex1) .
$row1 . ':' . Coordinate::stringFromColumnIndex($columnIndex2) .
$row2;

        return $this->protectCells($cellRange, $password,
$alreadyHashed);
    }

    /**
     * Remove protection on a cell range.
     *
     * @param string $pRange Cell (e.g. A1) or cell range (e.g. A1:E1)
     *
     * @throws Exception
     *
     * @return $this
     */
    public function unprotectCells($pRange)
    {
        // Uppercase coordinate
        $pRange = strtoupper($pRange);

        if (isset($this->protectedCells[$pRange])) {
            unset($this->protectedCells[$pRange]);
        } else {
            throw new Exception('Cell range ' . $pRange . '
not known as protected.');
        }

        return $this;
    }

    /**
     * Remove protection on a cell range by using numeric cell coordinates.
     *
     * @param int $columnIndex1 Numeric column coordinate of the first cell
     * @param int $row1 Numeric row coordinate of the first cell
     * @param int $columnIndex2 Numeric column coordinate of the last cell
     * @param int $row2 Numeric row coordinate of the last cell
     *
     * @throws Exception
     *
     * @return $this
     */
    public function unprotectCellsByColumnAndRow($columnIndex1, $row1,
$columnIndex2, $row2)
    {
        $cellRange = Coordinate::stringFromColumnIndex($columnIndex1) .
$row1 . ':' . Coordinate::stringFromColumnIndex($columnIndex2) .
$row2;

        return $this->unprotectCells($cellRange);
    }

    /**
     * Get protected cells.
     *
     * @return array[]
     */
    public function getProtectedCells()
    {
        return $this->protectedCells;
    }

    /**
     * Get Autofilter.
     *
     * @return AutoFilter
     */
    public function getAutoFilter()
    {
        return $this->autoFilter;
    }

    /**
     * Set AutoFilter.
     *
     * @param AutoFilter|string $pValue
     *            A simple string containing a Cell range like
'A1:E10' is permitted for backward compatibility
     *
     * @throws Exception
     *
     * @return $this
     */
    public function setAutoFilter($pValue)
    {
        if (is_string($pValue)) {
            $this->autoFilter->setRange($pValue);
        } elseif (is_object($pValue) && ($pValue instanceof
AutoFilter)) {
            $this->autoFilter = $pValue;
        }

        return $this;
    }

    /**
     * Set Autofilter Range by using numeric cell coordinates.
     *
     * @param int $columnIndex1 Numeric column coordinate of the first cell
     * @param int $row1 Numeric row coordinate of the first cell
     * @param int $columnIndex2 Numeric column coordinate of the second
cell
     * @param int $row2 Numeric row coordinate of the second cell
     *
     * @throws Exception
     *
     * @return $this
     */
    public function setAutoFilterByColumnAndRow($columnIndex1, $row1,
$columnIndex2, $row2)
    {
        return $this->setAutoFilter(
            Coordinate::stringFromColumnIndex($columnIndex1) . $row1
            . ':' .
            Coordinate::stringFromColumnIndex($columnIndex2) . $row2
        );
    }

    /**
     * Remove autofilter.
     *
     * @return $this
     */
    public function removeAutoFilter()
    {
        $this->autoFilter->setRange(null);

        return $this;
    }

    /**
     * Get Freeze Pane.
     *
     * @return string
     */
    public function getFreezePane()
    {
        return $this->freezePane;
    }

    /**
     * Freeze Pane.
     *
     * Examples:
     *
     *     - A2 will freeze the rows above cell A2 (i.e row 1)
     *     - B1 will freeze the columns to the left of cell B1 (i.e column
A)
     *     - B2 will freeze the rows above and to the left of cell B2 (i.e
row 1 and column A)
     *
     * @param null|string $cell Position of the split
     * @param null|string $topLeftCell default position of the right bottom
pane
     *
     * @throws Exception
     *
     * @return $this
     */
    public function freezePane($cell, $topLeftCell = null)
    {
        if (is_string($cell) &&
Coordinate::coordinateIsRange($cell)) {
            throw new Exception('Freeze pane can not be set on a range
of cells.');
        }

        if ($cell !== null && $topLeftCell === null) {
            $coordinate = Coordinate::coordinateFromString($cell);
            $topLeftCell = $coordinate[0] . $coordinate[1];
        }

        $this->freezePane = $cell;
        $this->topLeftCell = $topLeftCell;

        return $this;
    }

    /**
     * Freeze Pane by using numeric cell coordinates.
     *
     * @param int $columnIndex Numeric column coordinate of the cell
     * @param int $row Numeric row coordinate of the cell
     *
     * @return $this
     */
    public function freezePaneByColumnAndRow($columnIndex, $row)
    {
        return
$this->freezePane(Coordinate::stringFromColumnIndex($columnIndex) .
$row);
    }

    /**
     * Unfreeze Pane.
     *
     * @return $this
     */
    public function unfreezePane()
    {
        return $this->freezePane(null);
    }

    /**
     * Get the default position of the right bottom pane.
     *
     * @return int
     */
    public function getTopLeftCell()
    {
        return $this->topLeftCell;
    }

    /**
     * Insert a new row, updating all possible related data.
     *
     * @param int $pBefore Insert before this one
     * @param int $pNumRows Number of rows to insert
     *
     * @throws Exception
     *
     * @return $this
     */
    public function insertNewRowBefore($pBefore, $pNumRows = 1)
    {
        if ($pBefore >= 1) {
            $objReferenceHelper = ReferenceHelper::getInstance();
            $objReferenceHelper->insertNewBefore('A' .
$pBefore, 0, $pNumRows, $this);
        } else {
            throw new Exception('Rows can only be inserted before at
least row 1.');
        }

        return $this;
    }

    /**
     * Insert a new column, updating all possible related data.
     *
     * @param string $pBefore Insert before this one, eg: 'A'
     * @param int $pNumCols Number of columns to insert
     *
     * @throws Exception
     *
     * @return $this
     */
    public function insertNewColumnBefore($pBefore, $pNumCols = 1)
    {
        if (!is_numeric($pBefore)) {
            $objReferenceHelper = ReferenceHelper::getInstance();
            $objReferenceHelper->insertNewBefore($pBefore .
'1', $pNumCols, 0, $this);
        } else {
            throw new Exception('Column references should not be
numeric.');
        }

        return $this;
    }

    /**
     * Insert a new column, updating all possible related data.
     *
     * @param int $beforeColumnIndex Insert before this one (numeric column
coordinate of the cell)
     * @param int $pNumCols Number of columns to insert
     *
     * @throws Exception
     *
     * @return $this
     */
    public function insertNewColumnBeforeByIndex($beforeColumnIndex,
$pNumCols = 1)
    {
        if ($beforeColumnIndex >= 1) {
            return
$this->insertNewColumnBefore(Coordinate::stringFromColumnIndex($beforeColumnIndex),
$pNumCols);
        }

        throw new Exception('Columns can only be inserted before at
least column A (1).');
    }

    /**
     * Delete a row, updating all possible related data.
     *
     * @param int $pRow Remove starting with this one
     * @param int $pNumRows Number of rows to remove
     *
     * @throws Exception
     *
     * @return $this
     */
    public function removeRow($pRow, $pNumRows = 1)
    {
        if ($pRow >= 1) {
            for ($r = 0; $r < $pNumRows; ++$r) {
                $this->getCellCollection()->removeRow($pRow + $r);
            }

            $highestRow = $this->getHighestDataRow();
            $objReferenceHelper = ReferenceHelper::getInstance();
            $objReferenceHelper->insertNewBefore('A' . ($pRow
+ $pNumRows), 0, -$pNumRows, $this);
            for ($r = 0; $r < $pNumRows; ++$r) {
                $this->getCellCollection()->removeRow($highestRow);
                --$highestRow;
            }
        } else {
            throw new Exception('Rows to be deleted should at least
start from row 1.');
        }

        return $this;
    }

    /**
     * Remove a column, updating all possible related data.
     *
     * @param string $pColumn Remove starting with this one, eg:
'A'
     * @param int $pNumCols Number of columns to remove
     *
     * @throws Exception
     *
     * @return $this
     */
    public function removeColumn($pColumn, $pNumCols = 1)
    {
        if (is_numeric($pColumn)) {
            throw new Exception('Column references should not be
numeric.');
        }

        $highestColumn = $this->getHighestDataColumn();
        $highestColumnIndex =
Coordinate::columnIndexFromString($highestColumn);
        $pColumnIndex = Coordinate::columnIndexFromString($pColumn);

        if ($pColumnIndex > $highestColumnIndex) {
            return $this;
        }

        $pColumn = Coordinate::stringFromColumnIndex($pColumnIndex +
$pNumCols);
        $objReferenceHelper = ReferenceHelper::getInstance();
        $objReferenceHelper->insertNewBefore($pColumn . '1',
-$pNumCols, 0, $this);

        $maxPossibleColumnsToBeRemoved = $highestColumnIndex -
$pColumnIndex + 1;

        for ($c = 0, $n = min($maxPossibleColumnsToBeRemoved, $pNumCols);
$c < $n; ++$c) {
            $this->getCellCollection()->removeColumn($highestColumn);
            $highestColumn =
Coordinate::stringFromColumnIndex(Coordinate::columnIndexFromString($highestColumn)
- 1);
        }

        $this->garbageCollect();

        return $this;
    }

    /**
     * Remove a column, updating all possible related data.
     *
     * @param int $columnIndex Remove starting with this one (numeric
column coordinate of the cell)
     * @param int $numColumns Number of columns to remove
     *
     * @throws Exception
     *
     * @return $this
     */
    public function removeColumnByIndex($columnIndex, $numColumns = 1)
    {
        if ($columnIndex >= 1) {
            return
$this->removeColumn(Coordinate::stringFromColumnIndex($columnIndex),
$numColumns);
        }

        throw new Exception('Columns to be deleted should at least
start from column A (1)');
    }

    /**
     * Show gridlines?
     *
     * @return bool
     */
    public function getShowGridlines()
    {
        return $this->showGridlines;
    }

    /**
     * Set show gridlines.
     *
     * @param bool $pValue Show gridlines (true/false)
     *
     * @return $this
     */
    public function setShowGridlines($pValue)
    {
        $this->showGridlines = $pValue;

        return $this;
    }

    /**
     * Print gridlines?
     *
     * @return bool
     */
    public function getPrintGridlines()
    {
        return $this->printGridlines;
    }

    /**
     * Set print gridlines.
     *
     * @param bool $pValue Print gridlines (true/false)
     *
     * @return $this
     */
    public function setPrintGridlines($pValue)
    {
        $this->printGridlines = $pValue;

        return $this;
    }

    /**
     * Show row and column headers?
     *
     * @return bool
     */
    public function getShowRowColHeaders()
    {
        return $this->showRowColHeaders;
    }

    /**
     * Set show row and column headers.
     *
     * @param bool $pValue Show row and column headers (true/false)
     *
     * @return $this
     */
    public function setShowRowColHeaders($pValue)
    {
        $this->showRowColHeaders = $pValue;

        return $this;
    }

    /**
     * Show summary below? (Row/Column outlining).
     *
     * @return bool
     */
    public function getShowSummaryBelow()
    {
        return $this->showSummaryBelow;
    }

    /**
     * Set show summary below.
     *
     * @param bool $pValue Show summary below (true/false)
     *
     * @return $this
     */
    public function setShowSummaryBelow($pValue)
    {
        $this->showSummaryBelow = $pValue;

        return $this;
    }

    /**
     * Show summary right? (Row/Column outlining).
     *
     * @return bool
     */
    public function getShowSummaryRight()
    {
        return $this->showSummaryRight;
    }

    /**
     * Set show summary right.
     *
     * @param bool $pValue Show summary right (true/false)
     *
     * @return $this
     */
    public function setShowSummaryRight($pValue)
    {
        $this->showSummaryRight = $pValue;

        return $this;
    }

    /**
     * Get comments.
     *
     * @return Comment[]
     */
    public function getComments()
    {
        return $this->comments;
    }

    /**
     * Set comments array for the entire sheet.
     *
     * @param Comment[] $pValue
     *
     * @return $this
     */
    public function setComments(array $pValue)
    {
        $this->comments = $pValue;

        return $this;
    }

    /**
     * Get comment for cell.
     *
     * @param string $pCellCoordinate Cell coordinate to get comment for,
eg: 'A1'
     *
     * @throws Exception
     *
     * @return Comment
     */
    public function getComment($pCellCoordinate)
    {
        // Uppercase coordinate
        $pCellCoordinate = strtoupper($pCellCoordinate);

        if (Coordinate::coordinateIsRange($pCellCoordinate)) {
            throw new Exception('Cell coordinate string can not be a
range of cells.');
        } elseif (strpos($pCellCoordinate, '$') !== false) {
            throw new Exception('Cell coordinate string must not be
absolute.');
        } elseif ($pCellCoordinate == '') {
            throw new Exception('Cell coordinate can not be
zero-length string.');
        }

        // Check if we already have a comment for this cell.
        if (isset($this->comments[$pCellCoordinate])) {
            return $this->comments[$pCellCoordinate];
        }

        // If not, create a new comment.
        $newComment = new Comment();
        $this->comments[$pCellCoordinate] = $newComment;

        return $newComment;
    }

    /**
     * Get comment for cell by using numeric cell coordinates.
     *
     * @param int $columnIndex Numeric column coordinate of the cell
     * @param int $row Numeric row coordinate of the cell
     *
     * @return Comment
     */
    public function getCommentByColumnAndRow($columnIndex, $row)
    {
        return
$this->getComment(Coordinate::stringFromColumnIndex($columnIndex) .
$row);
    }

    /**
     * Get active cell.
     *
     * @return string Example: 'A1'
     */
    public function getActiveCell()
    {
        return $this->activeCell;
    }

    /**
     * Get selected cells.
     *
     * @return string
     */
    public function getSelectedCells()
    {
        return $this->selectedCells;
    }

    /**
     * Selected cell.
     *
     * @param string $pCoordinate Cell (i.e. A1)
     *
     * @return $this
     */
    public function setSelectedCell($pCoordinate)
    {
        return $this->setSelectedCells($pCoordinate);
    }

    /**
     * Select a range of cells.
     *
     * @param string $pCoordinate Cell range, examples: 'A1',
'B2:G5', 'A:C', '3:6'
     *
     * @return $this
     */
    public function setSelectedCells($pCoordinate)
    {
        // Uppercase coordinate
        $pCoordinate = strtoupper($pCoordinate);

        // Convert 'A' to 'A:A'
        $pCoordinate = preg_replace('/^([A-Z]+)$/',
'${1}:${1}', $pCoordinate);

        // Convert '1' to '1:1'
        $pCoordinate = preg_replace('/^(\d+)$/',
'${1}:${1}', $pCoordinate);

        // Convert 'A:C' to 'A1:C1048576'
        $pCoordinate = preg_replace('/^([A-Z]+):([A-Z]+)$/',
'${1}1:${2}1048576', $pCoordinate);

        // Convert '1:3' to 'A1:XFD3'
        $pCoordinate = preg_replace('/^(\d+):(\d+)$/',
'A${1}:XFD${2}', $pCoordinate);

        if (Coordinate::coordinateIsRange($pCoordinate)) {
            [$first] = Coordinate::splitRange($pCoordinate);
            $this->activeCell = $first[0];
        } else {
            $this->activeCell = $pCoordinate;
        }
        $this->selectedCells = $pCoordinate;

        return $this;
    }

    /**
     * Selected cell by using numeric cell coordinates.
     *
     * @param int $columnIndex Numeric column coordinate of the cell
     * @param int $row Numeric row coordinate of the cell
     *
     * @throws Exception
     *
     * @return $this
     */
    public function setSelectedCellByColumnAndRow($columnIndex, $row)
    {
        return
$this->setSelectedCells(Coordinate::stringFromColumnIndex($columnIndex)
. $row);
    }

    /**
     * Get right-to-left.
     *
     * @return bool
     */
    public function getRightToLeft()
    {
        return $this->rightToLeft;
    }

    /**
     * Set right-to-left.
     *
     * @param bool $value Right-to-left true/false
     *
     * @return $this
     */
    public function setRightToLeft($value)
    {
        $this->rightToLeft = $value;

        return $this;
    }

    /**
     * Fill worksheet from values in array.
     *
     * @param array $source Source array
     * @param mixed $nullValue Value in source array that stands for blank
cell
     * @param string $startCell Insert array starting from this cell
address as the top left coordinate
     * @param bool $strictNullComparison Apply strict comparison when
testing for null values in the array
     *
     * @throws Exception
     *
     * @return $this
     */
    public function fromArray(array $source, $nullValue = null, $startCell
= 'A1', $strictNullComparison = false)
    {
        //    Convert a 1-D array to 2-D (for ease of looping)
        if (!is_array(end($source))) {
            $source = [$source];
        }

        // start coordinate
        [$startColumn, $startRow] =
Coordinate::coordinateFromString($startCell);

        // Loop through $source
        foreach ($source as $rowData) {
            $currentColumn = $startColumn;
            foreach ($rowData as $cellValue) {
                if ($strictNullComparison) {
                    if ($cellValue !== $nullValue) {
                        // Set cell value
                        $this->getCell($currentColumn .
$startRow)->setValue($cellValue);
                    }
                } else {
                    if ($cellValue != $nullValue) {
                        // Set cell value
                        $this->getCell($currentColumn .
$startRow)->setValue($cellValue);
                    }
                }
                ++$currentColumn;
            }
            ++$startRow;
        }

        return $this;
    }

    /**
     * Create array from a range of cells.
     *
     * @param string $pRange Range of cells (i.e. "A1:B10"), or
just one cell (i.e. "A1")
     * @param mixed $nullValue Value returned in the array entry if a cell
doesn't exist
     * @param bool $calculateFormulas Should formulas be calculated?
     * @param bool $formatData Should formatting be applied to cell values?
     * @param bool $returnCellRef False - Return a simple array of rows and
columns indexed by number counting from zero
     *                               True - Return rows and columns indexed
by their actual row and column IDs
     *
     * @return array
     */
    public function rangeToArray($pRange, $nullValue = null,
$calculateFormulas = true, $formatData = true, $returnCellRef = false)
    {
        // Returnvalue
        $returnValue = [];
        //    Identify the range that we need to extract from the worksheet
        [$rangeStart, $rangeEnd] = Coordinate::rangeBoundaries($pRange);
        $minCol = Coordinate::stringFromColumnIndex($rangeStart[0]);
        $minRow = $rangeStart[1];
        $maxCol = Coordinate::stringFromColumnIndex($rangeEnd[0]);
        $maxRow = $rangeEnd[1];

        ++$maxCol;
        // Loop through rows
        $r = -1;
        for ($row = $minRow; $row <= $maxRow; ++$row) {
            $rRef = $returnCellRef ? $row : ++$r;
            $c = -1;
            // Loop through columns in the current row
            for ($col = $minCol; $col != $maxCol; ++$col) {
                $cRef = $returnCellRef ? $col : ++$c;
                //    Using getCell() will create a new cell if it
doesn't already exist. We don't want that to happen
                //        so we test and retrieve directly against
cellCollection
                if ($this->cellCollection->has($col . $row)) {
                    // Cell exists
                    $cell = $this->cellCollection->get($col . $row);
                    if ($cell->getValue() !== null) {
                        if ($cell->getValue() instanceof RichText) {
                            $returnValue[$rRef][$cRef] =
$cell->getValue()->getPlainText();
                        } else {
                            if ($calculateFormulas) {
                                $returnValue[$rRef][$cRef] =
$cell->getCalculatedValue();
                            } else {
                                $returnValue[$rRef][$cRef] =
$cell->getValue();
                            }
                        }

                        if ($formatData) {
                            $style =
$this->parent->getCellXfByIndex($cell->getXfIndex());
                            $returnValue[$rRef][$cRef] =
NumberFormat::toFormattedString(
                                $returnValue[$rRef][$cRef],
                                ($style &&
$style->getNumberFormat()) ?
$style->getNumberFormat()->getFormatCode() :
NumberFormat::FORMAT_GENERAL
                            );
                        }
                    } else {
                        // Cell holds a NULL
                        $returnValue[$rRef][$cRef] = $nullValue;
                    }
                } else {
                    // Cell doesn't exist
                    $returnValue[$rRef][$cRef] = $nullValue;
                }
            }
        }

        // Return
        return $returnValue;
    }

    /**
     * Create array from a range of cells.
     *
     * @param string $pNamedRange Name of the Named Range
     * @param mixed $nullValue Value returned in the array entry if a cell
doesn't exist
     * @param bool $calculateFormulas Should formulas be calculated?
     * @param bool $formatData Should formatting be applied to cell values?
     * @param bool $returnCellRef False - Return a simple array of rows and
columns indexed by number counting from zero
     *                                True - Return rows and columns
indexed by their actual row and column IDs
     *
     * @throws Exception
     *
     * @return array
     */
    public function namedRangeToArray($pNamedRange, $nullValue = null,
$calculateFormulas = true, $formatData = true, $returnCellRef = false)
    {
        $namedRange = NamedRange::resolveRange($pNamedRange, $this);
        if ($namedRange !== null) {
            $pWorkSheet = $namedRange->getWorksheet();
            $pCellRange = $namedRange->getRange();

            return $pWorkSheet->rangeToArray($pCellRange, $nullValue,
$calculateFormulas, $formatData, $returnCellRef);
        }

        throw new Exception('Named Range ' . $pNamedRange .
' does not exist.');
    }

    /**
     * Create array from worksheet.
     *
     * @param mixed $nullValue Value returned in the array entry if a cell
doesn't exist
     * @param bool $calculateFormulas Should formulas be calculated?
     * @param bool $formatData Should formatting be applied to cell values?
     * @param bool $returnCellRef False - Return a simple array of rows and
columns indexed by number counting from zero
     *                               True - Return rows and columns indexed
by their actual row and column IDs
     *
     * @return array
     */
    public function toArray($nullValue = null, $calculateFormulas = true,
$formatData = true, $returnCellRef = false)
    {
        // Garbage collect...
        $this->garbageCollect();

        //    Identify the range that we need to extract from the worksheet
        $maxCol = $this->getHighestColumn();
        $maxRow = $this->getHighestRow();

        // Return
        return $this->rangeToArray('A1:' . $maxCol . $maxRow,
$nullValue, $calculateFormulas, $formatData, $returnCellRef);
    }

    /**
     * Get row iterator.
     *
     * @param int $startRow The row number at which to start iterating
     * @param int $endRow The row number at which to stop iterating
     *
     * @return RowIterator
     */
    public function getRowIterator($startRow = 1, $endRow = null)
    {
        return new RowIterator($this, $startRow, $endRow);
    }

    /**
     * Get column iterator.
     *
     * @param string $startColumn The column address at which to start
iterating
     * @param string $endColumn The column address at which to stop
iterating
     *
     * @return ColumnIterator
     */
    public function getColumnIterator($startColumn = 'A',
$endColumn = null)
    {
        return new ColumnIterator($this, $startColumn, $endColumn);
    }

    /**
     * Run PhpSpreadsheet garbage collector.
     *
     * @return $this
     */
    public function garbageCollect()
    {
        // Flush cache
        $this->cellCollection->get('A1');

        // Lookup highest column and highest row if cells are cleaned
        $colRow = $this->cellCollection->getHighestRowAndColumn();
        $highestRow = $colRow['row'];
        $highestColumn =
Coordinate::columnIndexFromString($colRow['column']);

        // Loop through column dimensions
        foreach ($this->columnDimensions as $dimension) {
            $highestColumn = max($highestColumn,
Coordinate::columnIndexFromString($dimension->getColumnIndex()));
        }

        // Loop through row dimensions
        foreach ($this->rowDimensions as $dimension) {
            $highestRow = max($highestRow, $dimension->getRowIndex());
        }

        // Cache values
        if ($highestColumn < 1) {
            $this->cachedHighestColumn = 'A';
        } else {
            $this->cachedHighestColumn =
Coordinate::stringFromColumnIndex($highestColumn);
        }
        $this->cachedHighestRow = $highestRow;

        // Return
        return $this;
    }

    /**
     * Get hash code.
     *
     * @return string Hash code
     */
    public function getHashCode()
    {
        if ($this->dirty) {
            $this->hash = md5($this->title . $this->autoFilter .
($this->protection->isProtectionEnabled() ? 't' :
'f') . __CLASS__);
            $this->dirty = false;
        }

        return $this->hash;
    }

    /**
     * Extract worksheet title from range.
     *
     * Example: extractSheetTitle("testSheet!A1") ==>
'A1'
     * Example: extractSheetTitle("'testSheet 1'!A1",
true) ==> ['testSheet 1', 'A1'];
     *
     * @param string $pRange Range to extract title from
     * @param bool $returnRange Return range? (see example)
     *
     * @return mixed
     */
    public static function extractSheetTitle($pRange, $returnRange = false)
    {
        // Sheet title included?
        if (($sep = strrpos($pRange, '!')) === false) {
            return $returnRange ? ['', $pRange] : '';
        }

        if ($returnRange) {
            return [substr($pRange, 0, $sep), substr($pRange, $sep + 1)];
        }

        return substr($pRange, $sep + 1);
    }

    /**
     * Get hyperlink.
     *
     * @param string $pCellCoordinate Cell coordinate to get hyperlink for,
eg: 'A1'
     *
     * @return Hyperlink
     */
    public function getHyperlink($pCellCoordinate)
    {
        // return hyperlink if we already have one
        if (isset($this->hyperlinkCollection[$pCellCoordinate])) {
            return $this->hyperlinkCollection[$pCellCoordinate];
        }

        // else create hyperlink
        $this->hyperlinkCollection[$pCellCoordinate] = new Hyperlink();

        return $this->hyperlinkCollection[$pCellCoordinate];
    }

    /**
     * Set hyperlink.
     *
     * @param string $pCellCoordinate Cell coordinate to insert hyperlink,
eg: 'A1'
     * @param null|Hyperlink $pHyperlink
     *
     * @return $this
     */
    public function setHyperlink($pCellCoordinate, Hyperlink $pHyperlink =
null)
    {
        if ($pHyperlink === null) {
            unset($this->hyperlinkCollection[$pCellCoordinate]);
        } else {
            $this->hyperlinkCollection[$pCellCoordinate] = $pHyperlink;
        }

        return $this;
    }

    /**
     * Hyperlink at a specific coordinate exists?
     *
     * @param string $pCoordinate eg: 'A1'
     *
     * @return bool
     */
    public function hyperlinkExists($pCoordinate)
    {
        return isset($this->hyperlinkCollection[$pCoordinate]);
    }

    /**
     * Get collection of hyperlinks.
     *
     * @return Hyperlink[]
     */
    public function getHyperlinkCollection()
    {
        return $this->hyperlinkCollection;
    }

    /**
     * Get data validation.
     *
     * @param string $pCellCoordinate Cell coordinate to get data
validation for, eg: 'A1'
     *
     * @return DataValidation
     */
    public function getDataValidation($pCellCoordinate)
    {
        // return data validation if we already have one
        if (isset($this->dataValidationCollection[$pCellCoordinate])) {
            return $this->dataValidationCollection[$pCellCoordinate];
        }

        // else create data validation
        $this->dataValidationCollection[$pCellCoordinate] = new
DataValidation();

        return $this->dataValidationCollection[$pCellCoordinate];
    }

    /**
     * Set data validation.
     *
     * @param string $pCellCoordinate Cell coordinate to insert data
validation, eg: 'A1'
     * @param null|DataValidation $pDataValidation
     *
     * @return $this
     */
    public function setDataValidation($pCellCoordinate, DataValidation
$pDataValidation = null)
    {
        if ($pDataValidation === null) {
            unset($this->dataValidationCollection[$pCellCoordinate]);
        } else {
            $this->dataValidationCollection[$pCellCoordinate] =
$pDataValidation;
        }

        return $this;
    }

    /**
     * Data validation at a specific coordinate exists?
     *
     * @param string $pCoordinate eg: 'A1'
     *
     * @return bool
     */
    public function dataValidationExists($pCoordinate)
    {
        return isset($this->dataValidationCollection[$pCoordinate]);
    }

    /**
     * Get collection of data validations.
     *
     * @return DataValidation[]
     */
    public function getDataValidationCollection()
    {
        return $this->dataValidationCollection;
    }

    /**
     * Accepts a range, returning it as a range that falls within the
current highest row and column of the worksheet.
     *
     * @param string $range
     *
     * @return string Adjusted range value
     */
    public function shrinkRangeToFit($range)
    {
        $maxCol = $this->getHighestColumn();
        $maxRow = $this->getHighestRow();
        $maxCol = Coordinate::columnIndexFromString($maxCol);

        $rangeBlocks = explode(' ', $range);
        foreach ($rangeBlocks as &$rangeSet) {
            $rangeBoundaries = Coordinate::getRangeBoundaries($rangeSet);

            if (Coordinate::columnIndexFromString($rangeBoundaries[0][0])
> $maxCol) {
                $rangeBoundaries[0][0] =
Coordinate::stringFromColumnIndex($maxCol);
            }
            if ($rangeBoundaries[0][1] > $maxRow) {
                $rangeBoundaries[0][1] = $maxRow;
            }
            if (Coordinate::columnIndexFromString($rangeBoundaries[1][0])
> $maxCol) {
                $rangeBoundaries[1][0] =
Coordinate::stringFromColumnIndex($maxCol);
            }
            if ($rangeBoundaries[1][1] > $maxRow) {
                $rangeBoundaries[1][1] = $maxRow;
            }
            $rangeSet = $rangeBoundaries[0][0] . $rangeBoundaries[0][1] .
':' . $rangeBoundaries[1][0] . $rangeBoundaries[1][1];
        }
        unset($rangeSet);

        return implode(' ', $rangeBlocks);
    }

    /**
     * Get tab color.
     *
     * @return Color
     */
    public function getTabColor()
    {
        if ($this->tabColor === null) {
            $this->tabColor = new Color();
        }

        return $this->tabColor;
    }

    /**
     * Reset tab color.
     *
     * @return $this
     */
    public function resetTabColor()
    {
        $this->tabColor = null;
        unset($this->tabColor);

        return $this;
    }

    /**
     * Tab color set?
     *
     * @return bool
     */
    public function isTabColorSet()
    {
        return $this->tabColor !== null;
    }

    /**
     * Copy worksheet (!= clone!).
     *
     * @return static
     */
    public function copy()
    {
        return clone $this;
    }

    /**
     * Implement PHP __clone to create a deep clone, not just a shallow
copy.
     */
    public function __clone()
    {
        foreach ($this as $key => $val) {
            if ($key == 'parent') {
                continue;
            }

            if (is_object($val) || (is_array($val))) {
                if ($key == 'cellCollection') {
                    $newCollection =
$this->cellCollection->cloneCellCollection($this);
                    $this->cellCollection = $newCollection;
                } elseif ($key == 'drawingCollection') {
                    $currentCollection = $this->drawingCollection;
                    $this->drawingCollection = new ArrayObject();
                    foreach ($currentCollection as $item) {
                        if (is_object($item)) {
                            $newDrawing = clone $item;
                            $newDrawing->setWorksheet($this);
                        }
                    }
                } elseif (($key == 'autoFilter') &&
($this->autoFilter instanceof AutoFilter)) {
                    $newAutoFilter = clone $this->autoFilter;
                    $this->autoFilter = $newAutoFilter;
                    $this->autoFilter->setParent($this);
                } else {
                    $this->{$key} = unserialize(serialize($val));
                }
            }
        }
    }

    /**
     * Define the code name of the sheet.
     *
     * @param string $pValue Same rule as Title minus space not allowed
(but, like Excel, change
     *                       silently space to underscore)
     * @param bool $validate False to skip validation of new title.
WARNING: This should only be set
     *                       at parse time (by Readers), where titles can
be assumed to be valid.
     *
     * @throws Exception
     *
     * @return $this
     */
    public function setCodeName($pValue, $validate = true)
    {
        // Is this a 'rename' or not?
        if ($this->getCodeName() == $pValue) {
            return $this;
        }

        if ($validate) {
            $pValue = str_replace(' ', '_', $pValue);
//Excel does this automatically without flinching, we are doing the same

            // Syntax check
            // throw an exception if not valid
            self::checkSheetCodeName($pValue);

            // We use the same code that setTitle to find a valid codeName
else not using a space (Excel don't like) but a '_'

            if ($this->getParent()) {
                // Is there already such sheet name?
                if ($this->getParent()->sheetCodeNameExists($pValue))
{
                    // Use name, but append with lowest possible integer

                    if (Shared\StringHelper::countCharacters($pValue) >
29) {
                        $pValue = Shared\StringHelper::substring($pValue,
0, 29);
                    }
                    $i = 1;
                    while
($this->getParent()->sheetCodeNameExists($pValue . '_' .
$i)) {
                        ++$i;
                        if ($i == 10) {
                            if
(Shared\StringHelper::countCharacters($pValue) > 28) {
                                $pValue =
Shared\StringHelper::substring($pValue, 0, 28);
                            }
                        } elseif ($i == 100) {
                            if
(Shared\StringHelper::countCharacters($pValue) > 27) {
                                $pValue =
Shared\StringHelper::substring($pValue, 0, 27);
                            }
                        }
                    }

                    $pValue .= '_' . $i; // ok, we have a valid
name
                }
            }
        }

        $this->codeName = $pValue;

        return $this;
    }

    /**
     * Return the code name of the sheet.
     *
     * @return null|string
     */
    public function getCodeName()
    {
        return $this->codeName;
    }

    /**
     * Sheet has a code name ?
     *
     * @return bool
     */
    public function hasCodeName()
    {
        return $this->codeName !== null;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/BaseWriter.php000064400000003675151165414060022603
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer;

abstract class BaseWriter implements IWriter
{
    /**
     * Write charts that are defined in the workbook?
     * Identifies whether the Writer should write definitions for any
charts that exist in the PhpSpreadsheet object;.
     *
     * @var bool
     */
    protected $includeCharts = false;

    /**
     * Pre-calculate formulas
     * Forces PhpSpreadsheet to recalculate all formulae in a workbook when
saving, so that the pre-calculated values are
     * immediately available to MS Excel or other office spreadsheet viewer
when opening the file.
     *
     * @var bool
     */
    protected $preCalculateFormulas = true;

    /**
     * Use disk caching where possible?
     *
     * @var bool
     */
    private $useDiskCaching = false;

    /**
     * Disk caching directory.
     *
     * @var string
     */
    private $diskCachingDirectory = './';

    public function getIncludeCharts()
    {
        return $this->includeCharts;
    }

    public function setIncludeCharts($pValue)
    {
        $this->includeCharts = (bool) $pValue;

        return $this;
    }

    public function getPreCalculateFormulas()
    {
        return $this->preCalculateFormulas;
    }

    public function setPreCalculateFormulas($pValue)
    {
        $this->preCalculateFormulas = (bool) $pValue;

        return $this;
    }

    public function getUseDiskCaching()
    {
        return $this->useDiskCaching;
    }

    public function setUseDiskCaching($pValue, $pDirectory = null)
    {
        $this->useDiskCaching = $pValue;

        if ($pDirectory !== null) {
            if (is_dir($pDirectory)) {
                $this->diskCachingDirectory = $pDirectory;
            } else {
                throw new Exception("Directory does not exist:
$pDirectory");
            }
        }

        return $this;
    }

    public function getDiskCachingDirectory()
    {
        return $this->diskCachingDirectory;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Csv.php000064400000017172151165414060021264
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer;

use PhpOffice\PhpSpreadsheet\Calculation\Calculation;
use PhpOffice\PhpSpreadsheet\Spreadsheet;

class Csv extends BaseWriter
{
    /**
     * PhpSpreadsheet object.
     *
     * @var Spreadsheet
     */
    private $spreadsheet;

    /**
     * Delimiter.
     *
     * @var string
     */
    private $delimiter = ',';

    /**
     * Enclosure.
     *
     * @var string
     */
    private $enclosure = '"';

    /**
     * Line ending.
     *
     * @var string
     */
    private $lineEnding = PHP_EOL;

    /**
     * Sheet index to write.
     *
     * @var int
     */
    private $sheetIndex = 0;

    /**
     * Whether to write a BOM (for UTF8).
     *
     * @var bool
     */
    private $useBOM = false;

    /**
     * Whether to write a Separator line as the first line of the file
     *     sep=x.
     *
     * @var bool
     */
    private $includeSeparatorLine = false;

    /**
     * Whether to write a fully Excel compatible CSV file.
     *
     * @var bool
     */
    private $excelCompatibility = false;

    /**
     * Create a new CSV.
     *
     * @param Spreadsheet $spreadsheet Spreadsheet object
     */
    public function __construct(Spreadsheet $spreadsheet)
    {
        $this->spreadsheet = $spreadsheet;
    }

    /**
     * Save PhpSpreadsheet to file.
     *
     * @param string $pFilename
     *
     * @throws Exception
     */
    public function save($pFilename)
    {
        // Fetch sheet
        $sheet = $this->spreadsheet->getSheet($this->sheetIndex);

        $saveDebugLog =
Calculation::getInstance($this->spreadsheet)->getDebugLog()->getWriteDebugLog();
       
Calculation::getInstance($this->spreadsheet)->getDebugLog()->setWriteDebugLog(false);
        $saveArrayReturnType = Calculation::getArrayReturnType();
       
Calculation::setArrayReturnType(Calculation::RETURN_ARRAY_AS_VALUE);

        // Open file
        $fileHandle = fopen($pFilename, 'wb+');
        if ($fileHandle === false) {
            throw new Exception("Could not open file $pFilename for
writing.");
        }

        if ($this->excelCompatibility) {
            $this->setUseBOM(true); //  Enforce UTF-8 BOM Header
            $this->setIncludeSeparatorLine(true); //  Set separator line
            $this->setEnclosure('"'); //  Set enclosure
to "
            $this->setDelimiter(';'); //  Set delimiter to a
semi-colon
            $this->setLineEnding("\r\n");
        }
        if ($this->useBOM) {
            // Write the UTF-8 BOM code if required
            fwrite($fileHandle, "\xEF\xBB\xBF");
        }
        if ($this->includeSeparatorLine) {
            // Write the separator line if required
            fwrite($fileHandle, 'sep=' . $this->getDelimiter()
. $this->lineEnding);
        }

        //    Identify the range that we need to extract from the worksheet
        $maxCol = $sheet->getHighestDataColumn();
        $maxRow = $sheet->getHighestDataRow();

        // Write rows to file
        for ($row = 1; $row <= $maxRow; ++$row) {
            // Convert the row to an array...
            $cellsArray = $sheet->rangeToArray('A' . $row .
':' . $maxCol . $row, '',
$this->preCalculateFormulas);
            // ... and write to the file
            $this->writeLine($fileHandle, $cellsArray[0]);
        }

        // Close file
        fclose($fileHandle);

        Calculation::setArrayReturnType($saveArrayReturnType);
       
Calculation::getInstance($this->spreadsheet)->getDebugLog()->setWriteDebugLog($saveDebugLog);
    }

    /**
     * Get delimiter.
     *
     * @return string
     */
    public function getDelimiter()
    {
        return $this->delimiter;
    }

    /**
     * Set delimiter.
     *
     * @param string $pValue Delimiter, defaults to ','
     *
     * @return $this
     */
    public function setDelimiter($pValue)
    {
        $this->delimiter = $pValue;

        return $this;
    }

    /**
     * Get enclosure.
     *
     * @return string
     */
    public function getEnclosure()
    {
        return $this->enclosure;
    }

    /**
     * Set enclosure.
     *
     * @param string $pValue Enclosure, defaults to "
     *
     * @return $this
     */
    public function setEnclosure($pValue)
    {
        if ($pValue == '') {
            $pValue = null;
        }
        $this->enclosure = $pValue;

        return $this;
    }

    /**
     * Get line ending.
     *
     * @return string
     */
    public function getLineEnding()
    {
        return $this->lineEnding;
    }

    /**
     * Set line ending.
     *
     * @param string $pValue Line ending, defaults to OS line ending
(PHP_EOL)
     *
     * @return $this
     */
    public function setLineEnding($pValue)
    {
        $this->lineEnding = $pValue;

        return $this;
    }

    /**
     * Get whether BOM should be used.
     *
     * @return bool
     */
    public function getUseBOM()
    {
        return $this->useBOM;
    }

    /**
     * Set whether BOM should be used.
     *
     * @param bool $pValue Use UTF-8 byte-order mark? Defaults to false
     *
     * @return $this
     */
    public function setUseBOM($pValue)
    {
        $this->useBOM = $pValue;

        return $this;
    }

    /**
     * Get whether a separator line should be included.
     *
     * @return bool
     */
    public function getIncludeSeparatorLine()
    {
        return $this->includeSeparatorLine;
    }

    /**
     * Set whether a separator line should be included as the first line of
the file.
     *
     * @param bool $pValue Use separator line? Defaults to false
     *
     * @return $this
     */
    public function setIncludeSeparatorLine($pValue)
    {
        $this->includeSeparatorLine = $pValue;

        return $this;
    }

    /**
     * Get whether the file should be saved with full Excel Compatibility.
     *
     * @return bool
     */
    public function getExcelCompatibility()
    {
        return $this->excelCompatibility;
    }

    /**
     * Set whether the file should be saved with full Excel Compatibility.
     *
     * @param bool $pValue Set the file to be written as a fully Excel
compatible csv file
     *                                Note that this overrides other
settings such as useBOM, enclosure and delimiter
     *
     * @return $this
     */
    public function setExcelCompatibility($pValue)
    {
        $this->excelCompatibility = $pValue;

        return $this;
    }

    /**
     * Get sheet index.
     *
     * @return int
     */
    public function getSheetIndex()
    {
        return $this->sheetIndex;
    }

    /**
     * Set sheet index.
     *
     * @param int $pValue Sheet index
     *
     * @return $this
     */
    public function setSheetIndex($pValue)
    {
        $this->sheetIndex = $pValue;

        return $this;
    }

    /**
     * Write line to CSV file.
     *
     * @param resource $pFileHandle PHP filehandle
     * @param array $pValues Array containing values in a row
     */
    private function writeLine($pFileHandle, array $pValues)
    {
        // No leading delimiter
        $writeDelimiter = false;

        // Build the line
        $line = '';

        foreach ($pValues as $element) {
            // Escape enclosures
            $element = str_replace($this->enclosure, $this->enclosure
. $this->enclosure, $element);

            // Add delimiter
            if ($writeDelimiter) {
                $line .= $this->delimiter;
            } else {
                $writeDelimiter = true;
            }

            // Add enclosed string
            $line .= $this->enclosure . $element . $this->enclosure;
        }

        // Add line ending
        $line .= $this->lineEnding;

        // Write to file
        fwrite($pFileHandle, $line);
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Exception.php000064400000000253151165414060022457
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer;

use PhpOffice\PhpSpreadsheet\Exception as PhpSpreadsheetException;

class Exception extends PhpSpreadsheetException
{
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Html.php000064400000160353151165414060021435
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer;

use PhpOffice\PhpSpreadsheet\Calculation\Calculation;
use PhpOffice\PhpSpreadsheet\Cell\Cell;
use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\Chart\Chart;
use PhpOffice\PhpSpreadsheet\RichText\RichText;
use PhpOffice\PhpSpreadsheet\RichText\Run;
use PhpOffice\PhpSpreadsheet\Shared\Drawing as SharedDrawing;
use PhpOffice\PhpSpreadsheet\Shared\File;
use PhpOffice\PhpSpreadsheet\Shared\Font as SharedFont;
use PhpOffice\PhpSpreadsheet\Shared\StringHelper;
use PhpOffice\PhpSpreadsheet\Spreadsheet;
use PhpOffice\PhpSpreadsheet\Style\Alignment;
use PhpOffice\PhpSpreadsheet\Style\Border;
use PhpOffice\PhpSpreadsheet\Style\Borders;
use PhpOffice\PhpSpreadsheet\Style\Fill;
use PhpOffice\PhpSpreadsheet\Style\Font;
use PhpOffice\PhpSpreadsheet\Style\NumberFormat;
use PhpOffice\PhpSpreadsheet\Style\Style;
use PhpOffice\PhpSpreadsheet\Worksheet\Drawing;
use PhpOffice\PhpSpreadsheet\Worksheet\MemoryDrawing;
use PhpOffice\PhpSpreadsheet\Worksheet\Worksheet;
use PhpOffice\PhpSpreadsheet\Writer\Exception as WriterException;

class Html extends BaseWriter
{
    /**
     * Spreadsheet object.
     *
     * @var Spreadsheet
     */
    protected $spreadsheet;

    /**
     * Sheet index to write.
     *
     * @var int
     */
    private $sheetIndex = 0;

    /**
     * Images root.
     *
     * @var string
     */
    private $imagesRoot = '';

    /**
     * embed images, or link to images.
     *
     * @var bool
     */
    private $embedImages = false;

    /**
     * Use inline CSS?
     *
     * @var bool
     */
    private $useInlineCss = false;

    /**
     * Use embedded CSS?
     *
     * @var bool
     */
    private $useEmbeddedCSS = true;

    /**
     * Array of CSS styles.
     *
     * @var array
     */
    private $cssStyles;

    /**
     * Array of column widths in points.
     *
     * @var array
     */
    private $columnWidths;

    /**
     * Default font.
     *
     * @var Font
     */
    private $defaultFont;

    /**
     * Flag whether spans have been calculated.
     *
     * @var bool
     */
    private $spansAreCalculated = false;

    /**
     * Excel cells that should not be written as HTML cells.
     *
     * @var array
     */
    private $isSpannedCell = [];

    /**
     * Excel cells that are upper-left corner in a cell merge.
     *
     * @var array
     */
    private $isBaseCell = [];

    /**
     * Excel rows that should not be written as HTML rows.
     *
     * @var array
     */
    private $isSpannedRow = [];

    /**
     * Is the current writer creating PDF?
     *
     * @var bool
     */
    protected $isPdf = false;

    /**
     * Generate the Navigation block.
     *
     * @var bool
     */
    private $generateSheetNavigationBlock = true;

    /**
     * Create a new HTML.
     *
     * @param Spreadsheet $spreadsheet
     */
    public function __construct(Spreadsheet $spreadsheet)
    {
        $this->spreadsheet = $spreadsheet;
        $this->defaultFont =
$this->spreadsheet->getDefaultStyle()->getFont();
    }

    /**
     * Save Spreadsheet to file.
     *
     * @param string $pFilename
     *
     * @throws WriterException
     */
    public function save($pFilename)
    {
        // garbage collect
        $this->spreadsheet->garbageCollect();

        $saveDebugLog =
Calculation::getInstance($this->spreadsheet)->getDebugLog()->getWriteDebugLog();
       
Calculation::getInstance($this->spreadsheet)->getDebugLog()->setWriteDebugLog(false);
        $saveArrayReturnType = Calculation::getArrayReturnType();
       
Calculation::setArrayReturnType(Calculation::RETURN_ARRAY_AS_VALUE);

        // Build CSS
        $this->buildCSS(!$this->useInlineCss);

        // Open file
        $fileHandle = fopen($pFilename, 'wb+');
        if ($fileHandle === false) {
            throw new WriterException("Could not open file $pFilename
for writing.");
        }

        // Write headers
        fwrite($fileHandle,
$this->generateHTMLHeader(!$this->useInlineCss));

        // Write navigation (tabs)
        if ((!$this->isPdf) &&
($this->generateSheetNavigationBlock)) {
            fwrite($fileHandle, $this->generateNavigation());
        }

        // Write data
        fwrite($fileHandle, $this->generateSheetData());

        // Write footer
        fwrite($fileHandle, $this->generateHTMLFooter());

        // Close file
        fclose($fileHandle);

        Calculation::setArrayReturnType($saveArrayReturnType);
       
Calculation::getInstance($this->spreadsheet)->getDebugLog()->setWriteDebugLog($saveDebugLog);
    }

    /**
     * Map VAlign.
     *
     * @param string $vAlign Vertical alignment
     *
     * @return string
     */
    private function mapVAlign($vAlign)
    {
        switch ($vAlign) {
            case Alignment::VERTICAL_BOTTOM:
                return 'bottom';
            case Alignment::VERTICAL_TOP:
                return 'top';
            case Alignment::VERTICAL_CENTER:
            case Alignment::VERTICAL_JUSTIFY:
                return 'middle';
            default:
                return 'baseline';
        }
    }

    /**
     * Map HAlign.
     *
     * @param string $hAlign Horizontal alignment
     *
     * @return false|string
     */
    private function mapHAlign($hAlign)
    {
        switch ($hAlign) {
            case Alignment::HORIZONTAL_GENERAL:
                return false;
            case Alignment::HORIZONTAL_LEFT:
                return 'left';
            case Alignment::HORIZONTAL_RIGHT:
                return 'right';
            case Alignment::HORIZONTAL_CENTER:
            case Alignment::HORIZONTAL_CENTER_CONTINUOUS:
                return 'center';
            case Alignment::HORIZONTAL_JUSTIFY:
                return 'justify';
            default:
                return false;
        }
    }

    /**
     * Map border style.
     *
     * @param int $borderStyle Sheet index
     *
     * @return string
     */
    private function mapBorderStyle($borderStyle)
    {
        switch ($borderStyle) {
            case Border::BORDER_NONE:
                return 'none';
            case Border::BORDER_DASHDOT:
                return '1px dashed';
            case Border::BORDER_DASHDOTDOT:
                return '1px dotted';
            case Border::BORDER_DASHED:
                return '1px dashed';
            case Border::BORDER_DOTTED:
                return '1px dotted';
            case Border::BORDER_DOUBLE:
                return '3px double';
            case Border::BORDER_HAIR:
                return '1px solid';
            case Border::BORDER_MEDIUM:
                return '2px solid';
            case Border::BORDER_MEDIUMDASHDOT:
                return '2px dashed';
            case Border::BORDER_MEDIUMDASHDOTDOT:
                return '2px dotted';
            case Border::BORDER_MEDIUMDASHED:
                return '2px dashed';
            case Border::BORDER_SLANTDASHDOT:
                return '2px dashed';
            case Border::BORDER_THICK:
                return '3px solid';
            case Border::BORDER_THIN:
                return '1px solid';
            default:
                // map others to thin
                return '1px solid';
        }
    }

    /**
     * Get sheet index.
     *
     * @return int
     */
    public function getSheetIndex()
    {
        return $this->sheetIndex;
    }

    /**
     * Set sheet index.
     *
     * @param int $pValue Sheet index
     *
     * @return $this
     */
    public function setSheetIndex($pValue)
    {
        $this->sheetIndex = $pValue;

        return $this;
    }

    /**
     * Get sheet index.
     *
     * @return bool
     */
    public function getGenerateSheetNavigationBlock()
    {
        return $this->generateSheetNavigationBlock;
    }

    /**
     * Set sheet index.
     *
     * @param bool $pValue Flag indicating whether the sheet navigation
block should be generated or not
     *
     * @return $this
     */
    public function setGenerateSheetNavigationBlock($pValue)
    {
        $this->generateSheetNavigationBlock = (bool) $pValue;

        return $this;
    }

    /**
     * Write all sheets (resets sheetIndex to NULL).
     *
     * @return $this
     */
    public function writeAllSheets()
    {
        $this->sheetIndex = null;

        return $this;
    }

    /**
     * Generate HTML header.
     *
     * @param bool $pIncludeStyles Include styles?
     *
     * @throws WriterException
     *
     * @return string
     */
    public function generateHTMLHeader($pIncludeStyles = false)
    {
        // Construct HTML
        $properties = $this->spreadsheet->getProperties();
        $html = '<!DOCTYPE html PUBLIC "-//W3C//DTD HTML
4.01//EN" "http://www.w3.org/TR/html4/strict.dtd">'
. PHP_EOL;
        $html .= '<html>' . PHP_EOL;
        $html .= '  <head>' . PHP_EOL;
        $html .= '      <meta http-equiv="Content-Type"
content="text/html; charset=utf-8">' . PHP_EOL;
        $html .= '      <meta name="generator"
content="PhpSpreadsheet,
https://github.com/PHPOffice/PhpSpreadsheet">' . PHP_EOL;
        if ($properties->getTitle() > '') {
            $html .= '      <title>' .
htmlspecialchars($properties->getTitle()) . '</title>' .
PHP_EOL;
        }
        if ($properties->getCreator() > '') {
            $html .= '      <meta name="author"
content="' . htmlspecialchars($properties->getCreator()) .
'" />' . PHP_EOL;
        }
        if ($properties->getTitle() > '') {
            $html .= '      <meta name="title"
content="' . htmlspecialchars($properties->getTitle()) .
'" />' . PHP_EOL;
        }
        if ($properties->getDescription() > '') {
            $html .= '      <meta name="description"
content="' . htmlspecialchars($properties->getDescription()) .
'" />' . PHP_EOL;
        }
        if ($properties->getSubject() > '') {
            $html .= '      <meta name="subject"
content="' . htmlspecialchars($properties->getSubject()) .
'" />' . PHP_EOL;
        }
        if ($properties->getKeywords() > '') {
            $html .= '      <meta name="keywords"
content="' . htmlspecialchars($properties->getKeywords()) .
'" />' . PHP_EOL;
        }
        if ($properties->getCategory() > '') {
            $html .= '      <meta name="category"
content="' . htmlspecialchars($properties->getCategory()) .
'" />' . PHP_EOL;
        }
        if ($properties->getCompany() > '') {
            $html .= '      <meta name="company"
content="' . htmlspecialchars($properties->getCompany()) .
'" />' . PHP_EOL;
        }
        if ($properties->getManager() > '') {
            $html .= '      <meta name="manager"
content="' . htmlspecialchars($properties->getManager()) .
'" />' . PHP_EOL;
        }

        if ($pIncludeStyles) {
            $html .= $this->generateStyles(true);
        }

        $html .= '  </head>' . PHP_EOL;
        $html .= '' . PHP_EOL;
        $html .= '  <body>' . PHP_EOL;

        return $html;
    }

    /**
     * Generate sheet data.
     *
     * @throws WriterException
     *
     * @return string
     */
    public function generateSheetData()
    {
        // Ensure that Spans have been calculated?
        if ($this->sheetIndex !== null || !$this->spansAreCalculated)
{
            $this->calculateSpans();
        }

        // Fetch sheets
        $sheets = [];
        if ($this->sheetIndex === null) {
            $sheets = $this->spreadsheet->getAllSheets();
        } else {
            $sheets[] =
$this->spreadsheet->getSheet($this->sheetIndex);
        }

        // Construct HTML
        $html = '';

        // Loop all sheets
        $sheetId = 0;
        foreach ($sheets as $sheet) {
            // Write table header
            $html .= $this->generateTableHeader($sheet);

            // Get worksheet dimension
            $dimension = explode(':',
$sheet->calculateWorksheetDimension());
            $dimension[0] =
Coordinate::coordinateFromString($dimension[0]);
            $dimension[0][0] =
Coordinate::columnIndexFromString($dimension[0][0]);
            $dimension[1] =
Coordinate::coordinateFromString($dimension[1]);
            $dimension[1][0] =
Coordinate::columnIndexFromString($dimension[1][0]);

            // row min,max
            $rowMin = $dimension[0][1];
            $rowMax = $dimension[1][1];

            // calculate start of <tbody>, <thead>
            $tbodyStart = $rowMin;
            $theadStart = $theadEnd = 0; // default: no <thead>    no
</thead>
            if ($sheet->getPageSetup()->isRowsToRepeatAtTopSet()) {
                $rowsToRepeatAtTop =
$sheet->getPageSetup()->getRowsToRepeatAtTop();

                // we can only support repeating rows that start at top row
                if ($rowsToRepeatAtTop[0] == 1) {
                    $theadStart = $rowsToRepeatAtTop[0];
                    $theadEnd = $rowsToRepeatAtTop[1];
                    $tbodyStart = $rowsToRepeatAtTop[1] + 1;
                }
            }

            // Loop through cells
            $row = $rowMin - 1;
            while ($row++ < $rowMax) {
                // <thead> ?
                if ($row == $theadStart) {
                    $html .= '        <thead>' . PHP_EOL;
                    $cellType = 'th';
                }

                // <tbody> ?
                if ($row == $tbodyStart) {
                    $html .= '        <tbody>' . PHP_EOL;
                    $cellType = 'td';
                }

                // Write row if there are HTML table cells in it
                if
(!isset($this->isSpannedRow[$sheet->getParent()->getIndex($sheet)][$row]))
{
                    // Start a new rowData
                    $rowData = [];
                    // Loop through columns
                    $column = $dimension[0][0];
                    while ($column <= $dimension[1][0]) {
                        // Cell exists?
                        if ($sheet->cellExistsByColumnAndRow($column,
$row)) {
                            $rowData[$column] =
Coordinate::stringFromColumnIndex($column) . $row;
                        } else {
                            $rowData[$column] = '';
                        }
                        ++$column;
                    }
                    $html .= $this->generateRow($sheet, $rowData, $row -
1, $cellType);
                }

                // </thead> ?
                if ($row == $theadEnd) {
                    $html .= '        </thead>' . PHP_EOL;
                }
            }
            $html .= $this->extendRowsForChartsAndImages($sheet, $row);

            // Close table body.
            $html .= '        </tbody>' . PHP_EOL;

            // Write table footer
            $html .= $this->generateTableFooter();

            // Writing PDF?
            if ($this->isPdf) {
                if ($this->sheetIndex === null && $sheetId + 1
< $this->spreadsheet->getSheetCount()) {
                    $html .= '<div
style="page-break-before:always" />';
                }
            }

            // Next sheet
            ++$sheetId;
        }

        return $html;
    }

    /**
     * Generate sheet tabs.
     *
     * @throws WriterException
     *
     * @return string
     */
    public function generateNavigation()
    {
        // Fetch sheets
        $sheets = [];
        if ($this->sheetIndex === null) {
            $sheets = $this->spreadsheet->getAllSheets();
        } else {
            $sheets[] =
$this->spreadsheet->getSheet($this->sheetIndex);
        }

        // Construct HTML
        $html = '';

        // Only if there are more than 1 sheets
        if (count($sheets) > 1) {
            // Loop all sheets
            $sheetId = 0;

            $html .= '<ul class="navigation">' .
PHP_EOL;

            foreach ($sheets as $sheet) {
                $html .= '  <li class="sheet' . $sheetId
. '"><a href="#sheet' . $sheetId .
'">' . $sheet->getTitle() .
'</a></li>' . PHP_EOL;
                ++$sheetId;
            }

            $html .= '</ul>' . PHP_EOL;
        }

        return $html;
    }

    private function extendRowsForChartsAndImages(Worksheet $pSheet, $row)
    {
        $rowMax = $row;
        $colMax = 'A';
        if ($this->includeCharts) {
            foreach ($pSheet->getChartCollection() as $chart) {
                if ($chart instanceof Chart) {
                    $chartCoordinates = $chart->getTopLeftPosition();
                    $chartTL =
Coordinate::coordinateFromString($chartCoordinates['cell']);
                    $chartCol =
Coordinate::columnIndexFromString($chartTL[0]);
                    if ($chartTL[1] > $rowMax) {
                        $rowMax = $chartTL[1];
                        if ($chartCol >
Coordinate::columnIndexFromString($colMax)) {
                            $colMax = $chartTL[0];
                        }
                    }
                }
            }
        }

        foreach ($pSheet->getDrawingCollection() as $drawing) {
            if ($drawing instanceof Drawing) {
                $imageTL =
Coordinate::coordinateFromString($drawing->getCoordinates());
                $imageCol = Coordinate::columnIndexFromString($imageTL[0]);
                if ($imageTL[1] > $rowMax) {
                    $rowMax = $imageTL[1];
                    if ($imageCol >
Coordinate::columnIndexFromString($colMax)) {
                        $colMax = $imageTL[0];
                    }
                }
            }
        }

        // Don't extend rows if not needed
        if ($row === $rowMax) {
            return '';
        }

        $html = '';
        ++$colMax;

        while ($row <= $rowMax) {
            $html .= '<tr>';
            for ($col = 'A'; $col != $colMax; ++$col) {
                $html .= '<td>';
                $html .= $this->writeImageInCell($pSheet, $col . $row);
                if ($this->includeCharts) {
                    $html .= $this->writeChartInCell($pSheet, $col .
$row);
                }
                $html .= '</td>';
            }
            ++$row;
            $html .= '</tr>';
        }

        return $html;
    }

    /**
     * Generate image tag in cell.
     *
     * @param Worksheet $pSheet
\PhpOffice\PhpSpreadsheet\Worksheet\Worksheet
     * @param string $coordinates Cell coordinates
     *
     * @return string
     */
    private function writeImageInCell(Worksheet $pSheet, $coordinates)
    {
        // Construct HTML
        $html = '';

        // Write images
        foreach ($pSheet->getDrawingCollection() as $drawing) {
            if ($drawing instanceof Drawing) {
                if ($drawing->getCoordinates() == $coordinates) {
                    $filename = $drawing->getPath();

                    // Strip off eventual '.'
                    if (substr($filename, 0, 1) == '.') {
                        $filename = substr($filename, 1);
                    }

                    // Prepend images root
                    $filename = $this->getImagesRoot() . $filename;

                    // Strip off eventual '.'
                    if (substr($filename, 0, 1) == '.' &&
substr($filename, 0, 2) != './') {
                        $filename = substr($filename, 1);
                    }

                    // Convert UTF8 data to PCDATA
                    $filename = htmlspecialchars($filename);

                    $html .= PHP_EOL;
                    if ((!$this->embedImages) || ($this->isPdf)) {
                        $imageData = $filename;
                    } else {
                        $imageDetails = getimagesize($filename);
                        if ($fp = fopen($filename, 'rb', 0)) {
                            $picture = '';
                            while (!feof($fp)) {
                                $picture .= fread($fp, 1024);
                            }
                            fclose($fp);
                            // base64 encode the binary data, then break it
                            // into chunks according to RFC 2045 semantics
                            $base64 = chunk_split(base64_encode($picture));
                            $imageData = 'data:' .
$imageDetails['mime'] . ';base64,' . $base64;
                        } else {
                            $imageData = $filename;
                        }
                    }

                    $html .= '<div style="position:
relative;">';
                    $html .= '<img style="position: absolute;
z-index: 1; left: ' .
                        $drawing->getOffsetX() . 'px; top: ' .
$drawing->getOffsetY() . 'px; width: ' .
                        $drawing->getWidth() . 'px; height: '
. $drawing->getHeight() . 'px;" src="' .
                        $imageData . '" border="0"
/>';
                    $html .= '</div>';
                }
            } elseif ($drawing instanceof MemoryDrawing) {
                if ($drawing->getCoordinates() != $coordinates) {
                    continue;
                }
                ob_start(); //  Let's start output buffering.
                imagepng($drawing->getImageResource()); //  This will
normally output the image, but because of ob_start(), it won't.
                $contents = ob_get_contents(); //  Instead, output above is
saved to $contents
                ob_end_clean(); //  End the output buffer.

                $dataUri = 'data:image/jpeg;base64,' .
base64_encode($contents);

                //  Because of the nature of tables, width is more
important than height.
                //  max-width: 100% ensures that image doesnt overflow
containing cell
                //  width: X sets width of supplied image.
                //  As a result, images bigger than cell will be contained
and images smaller will not get stretched
                $html .= '<img src="' . $dataUri .
'" style="max-width:100%;width:' .
$drawing->getWidth() . 'px;" />';
            }
        }

        return $html;
    }

    /**
     * Generate chart tag in cell.
     *
     * @param Worksheet $pSheet
\PhpOffice\PhpSpreadsheet\Worksheet\Worksheet
     * @param string $coordinates Cell coordinates
     *
     * @return string
     */
    private function writeChartInCell(Worksheet $pSheet, $coordinates)
    {
        // Construct HTML
        $html = '';

        // Write charts
        foreach ($pSheet->getChartCollection() as $chart) {
            if ($chart instanceof Chart) {
                $chartCoordinates = $chart->getTopLeftPosition();
                if ($chartCoordinates['cell'] == $coordinates) {
                    $chartFileName = File::sysGetTempDir() . '/'
. uniqid('', true) . '.png';
                    if (!$chart->render($chartFileName)) {
                        return;
                    }

                    $html .= PHP_EOL;
                    $imageDetails = getimagesize($chartFileName);
                    if ($fp = fopen($chartFileName, 'rb', 0)) {
                        $picture = fread($fp, filesize($chartFileName));
                        fclose($fp);
                        // base64 encode the binary data, then break it
                        // into chunks according to RFC 2045 semantics
                        $base64 = chunk_split(base64_encode($picture));
                        $imageData = 'data:' .
$imageDetails['mime'] . ';base64,' . $base64;

                        $html .= '<div style="position:
relative;">';
                        $html .= '<img style="position:
absolute; z-index: 1; left: ' . $chartCoordinates['xOffset']
. 'px; top: ' . $chartCoordinates['yOffset'] .
'px; width: ' . $imageDetails[0] . 'px; height: ' .
$imageDetails[1] . 'px;" src="' . $imageData .
'" border="0" />' . PHP_EOL;
                        $html .= '</div>';

                        unlink($chartFileName);
                    }
                }
            }
        }

        // Return
        return $html;
    }

    /**
     * Generate CSS styles.
     *
     * @param bool $generateSurroundingHTML Generate surrounding HTML tags?
(&lt;style&gt; and &lt;/style&gt;)
     *
     * @throws WriterException
     *
     * @return string
     */
    public function generateStyles($generateSurroundingHTML = true)
    {
        // Build CSS
        $css = $this->buildCSS($generateSurroundingHTML);

        // Construct HTML
        $html = '';

        // Start styles
        if ($generateSurroundingHTML) {
            $html .= '    <style
type="text/css">' . PHP_EOL;
            $html .= '      html { ' .
$this->assembleCSS($css['html']) . ' }' . PHP_EOL;
        }

        // Write all other styles
        foreach ($css as $styleName => $styleDefinition) {
            if ($styleName != 'html') {
                $html .= '      ' . $styleName . ' { '
. $this->assembleCSS($styleDefinition) . ' }' . PHP_EOL;
            }
        }

        // End styles
        if ($generateSurroundingHTML) {
            $html .= '    </style>' . PHP_EOL;
        }

        // Return
        return $html;
    }

    /**
     * Build CSS styles.
     *
     * @param bool $generateSurroundingHTML Generate surrounding HTML
style? (html { })
     *
     * @throws WriterException
     *
     * @return array
     */
    public function buildCSS($generateSurroundingHTML = true)
    {
        // Cached?
        if ($this->cssStyles !== null) {
            return $this->cssStyles;
        }

        // Ensure that spans have been calculated
        if (!$this->spansAreCalculated) {
            $this->calculateSpans();
        }

        // Construct CSS
        $css = [];

        // Start styles
        if ($generateSurroundingHTML) {
            // html { }
            $css['html']['font-family'] =
'Calibri, Arial, Helvetica, sans-serif';
            $css['html']['font-size'] =
'11pt';
            $css['html']['background-color'] =
'white';
        }

        // CSS for comments as found in LibreOffice
        $css['a.comment-indicator:hover + div.comment'] = [
            'background' => '#ffd',
            'position' => 'absolute',
            'display' => 'block',
            'border' => '1px solid black',
            'padding' => '0.5em',
        ];

        $css['a.comment-indicator'] = [
            'background' => 'red',
            'display' => 'inline-block',
            'border' => '1px solid black',
            'width' => '0.5em',
            'height' => '0.5em',
        ];

        $css['div.comment']['display'] =
'none';

        // table { }
        $css['table']['border-collapse'] =
'collapse';
        if (!$this->isPdf) {
            $css['table']['page-break-after'] =
'always';
        }

        // .gridlines td { }
        $css['.gridlines td']['border'] = '1px
dotted black';
        $css['.gridlines th']['border'] = '1px
dotted black';

        // .b {}
        $css['.b']['text-align'] = 'center';
// BOOL

        // .e {}
        $css['.e']['text-align'] = 'center';
// ERROR

        // .f {}
        $css['.f']['text-align'] = 'right';
// FORMULA

        // .inlineStr {}
        $css['.inlineStr']['text-align'] =
'left'; // INLINE

        // .n {}
        $css['.n']['text-align'] = 'right';
// NUMERIC

        // .s {}
        $css['.s']['text-align'] = 'left'; //
STRING

        // Calculate cell style hashes
        foreach ($this->spreadsheet->getCellXfCollection() as $index
=> $style) {
            $css['td.style' . $index] =
$this->createCSSStyle($style);
            $css['th.style' . $index] =
$this->createCSSStyle($style);
        }

        // Fetch sheets
        $sheets = [];
        if ($this->sheetIndex === null) {
            $sheets = $this->spreadsheet->getAllSheets();
        } else {
            $sheets[] =
$this->spreadsheet->getSheet($this->sheetIndex);
        }

        // Build styles per sheet
        foreach ($sheets as $sheet) {
            // Calculate hash code
            $sheetIndex = $sheet->getParent()->getIndex($sheet);

            // Build styles
            // Calculate column widths
            $sheet->calculateColumnWidths();

            // col elements, initialize
            $highestColumnIndex =
Coordinate::columnIndexFromString($sheet->getHighestColumn()) - 1;
            $column = -1;
            while ($column++ < $highestColumnIndex) {
                $this->columnWidths[$sheetIndex][$column] = 42; //
approximation
                $css['table.sheet' . $sheetIndex . '
col.col' . $column]['width'] = '42pt';
            }

            // col elements, loop through columnDimensions and set width
            foreach ($sheet->getColumnDimensions() as $columnDimension)
{
                if (($width =
SharedDrawing::cellDimensionToPixels($columnDimension->getWidth(),
$this->defaultFont)) >= 0) {
                    $width = SharedDrawing::pixelsToPoints($width);
                    $column =
Coordinate::columnIndexFromString($columnDimension->getColumnIndex()) -
1;
                    $this->columnWidths[$sheetIndex][$column] = $width;
                    $css['table.sheet' . $sheetIndex . '
col.col' . $column]['width'] = $width . 'pt';

                    if ($columnDimension->getVisible() === false) {
                        $css['table.sheet' . $sheetIndex . '
.column' . $column]['visibility'] = 'collapse';
                        $css['table.sheet' . $sheetIndex . '
.column' . $column]['display'] = 'none'; // target
IE6+7
                    }
                }
            }

            // Default row height
            $rowDimension = $sheet->getDefaultRowDimension();

            // table.sheetN tr { }
            $css['table.sheet' . $sheetIndex . ' tr'] =
[];

            if ($rowDimension->getRowHeight() == -1) {
                $pt_height =
SharedFont::getDefaultRowHeightByFont($this->spreadsheet->getDefaultStyle()->getFont());
            } else {
                $pt_height = $rowDimension->getRowHeight();
            }
            $css['table.sheet' . $sheetIndex . '
tr']['height'] = $pt_height . 'pt';
            if ($rowDimension->getVisible() === false) {
                $css['table.sheet' . $sheetIndex . '
tr']['display'] = 'none';
                $css['table.sheet' . $sheetIndex . '
tr']['visibility'] = 'hidden';
            }

            // Calculate row heights
            foreach ($sheet->getRowDimensions() as $rowDimension) {
                $row = $rowDimension->getRowIndex() - 1;

                // table.sheetN tr.rowYYYYYY { }
                $css['table.sheet' . $sheetIndex . '
tr.row' . $row] = [];

                if ($rowDimension->getRowHeight() == -1) {
                    $pt_height =
SharedFont::getDefaultRowHeightByFont($this->spreadsheet->getDefaultStyle()->getFont());
                } else {
                    $pt_height = $rowDimension->getRowHeight();
                }
                $css['table.sheet' . $sheetIndex . '
tr.row' . $row]['height'] = $pt_height . 'pt';
                if ($rowDimension->getVisible() === false) {
                    $css['table.sheet' . $sheetIndex . '
tr.row' . $row]['display'] = 'none';
                    $css['table.sheet' . $sheetIndex . '
tr.row' . $row]['visibility'] = 'hidden';
                }
            }
        }

        // Cache
        if ($this->cssStyles === null) {
            $this->cssStyles = $css;
        }

        // Return
        return $css;
    }

    /**
     * Create CSS style.
     *
     * @param Style $pStyle
     *
     * @return array
     */
    private function createCSSStyle(Style $pStyle)
    {
        // Create CSS
        return array_merge(
            $this->createCSSStyleAlignment($pStyle->getAlignment()),
            $this->createCSSStyleBorders($pStyle->getBorders()),
            $this->createCSSStyleFont($pStyle->getFont()),
            $this->createCSSStyleFill($pStyle->getFill())
        );
    }

    /**
     * Create CSS style (\PhpOffice\PhpSpreadsheet\Style\Alignment).
     *
     * @param Alignment $pStyle \PhpOffice\PhpSpreadsheet\Style\Alignment
     *
     * @return array
     */
    private function createCSSStyleAlignment(Alignment $pStyle)
    {
        // Construct CSS
        $css = [];

        // Create CSS
        $css['vertical-align'] =
$this->mapVAlign($pStyle->getVertical());
        if ($textAlign = $this->mapHAlign($pStyle->getHorizontal()))
{
            $css['text-align'] = $textAlign;
            if (in_array($textAlign, ['left',
'right'])) {
                $css['padding-' . $textAlign] = (string) ((int)
$pStyle->getIndent() * 9) . 'px';
            }
        }

        return $css;
    }

    /**
     * Create CSS style (\PhpOffice\PhpSpreadsheet\Style\Font).
     *
     * @param Font $pStyle
     *
     * @return array
     */
    private function createCSSStyleFont(Font $pStyle)
    {
        // Construct CSS
        $css = [];

        // Create CSS
        if ($pStyle->getBold()) {
            $css['font-weight'] = 'bold';
        }
        if ($pStyle->getUnderline() != Font::UNDERLINE_NONE &&
$pStyle->getStrikethrough()) {
            $css['text-decoration'] = 'underline
line-through';
        } elseif ($pStyle->getUnderline() != Font::UNDERLINE_NONE) {
            $css['text-decoration'] = 'underline';
        } elseif ($pStyle->getStrikethrough()) {
            $css['text-decoration'] = 'line-through';
        }
        if ($pStyle->getItalic()) {
            $css['font-style'] = 'italic';
        }

        $css['color'] = '#' .
$pStyle->getColor()->getRGB();
        $css['font-family'] = '\'' .
$pStyle->getName() . '\'';
        $css['font-size'] = $pStyle->getSize() .
'pt';

        return $css;
    }

    /**
     * Create CSS style (Borders).
     *
     * @param Borders $pStyle Borders
     *
     * @return array
     */
    private function createCSSStyleBorders(Borders $pStyle)
    {
        // Construct CSS
        $css = [];

        // Create CSS
        $css['border-bottom'] =
$this->createCSSStyleBorder($pStyle->getBottom());
        $css['border-top'] =
$this->createCSSStyleBorder($pStyle->getTop());
        $css['border-left'] =
$this->createCSSStyleBorder($pStyle->getLeft());
        $css['border-right'] =
$this->createCSSStyleBorder($pStyle->getRight());

        return $css;
    }

    /**
     * Create CSS style (Border).
     *
     * @param Border $pStyle Border
     *
     * @return string
     */
    private function createCSSStyleBorder(Border $pStyle)
    {
        //    Create CSS - add !important to non-none border styles for
merged cells
        $borderStyle =
$this->mapBorderStyle($pStyle->getBorderStyle());

        return $borderStyle . ' #' .
$pStyle->getColor()->getRGB() . (($borderStyle == 'none') ?
'' : ' !important');
    }

    /**
     * Create CSS style (Fill).
     *
     * @param Fill $pStyle Fill
     *
     * @return array
     */
    private function createCSSStyleFill(Fill $pStyle)
    {
        // Construct HTML
        $css = [];

        // Create CSS
        $value = $pStyle->getFillType() == Fill::FILL_NONE ?
            'white' : '#' .
$pStyle->getStartColor()->getRGB();
        $css['background-color'] = $value;

        return $css;
    }

    /**
     * Generate HTML footer.
     */
    public function generateHTMLFooter()
    {
        // Construct HTML
        $html = '';
        $html .= '  </body>' . PHP_EOL;
        $html .= '</html>' . PHP_EOL;

        return $html;
    }

    /**
     * Generate table header.
     *
     * @param Worksheet $pSheet The worksheet for the table we are writing
     *
     * @return string
     */
    private function generateTableHeader($pSheet)
    {
        $sheetIndex = $pSheet->getParent()->getIndex($pSheet);

        // Construct HTML
        $html = '';
        if ($this->useEmbeddedCSS) {
            $html .= $this->setMargins($pSheet);
        }

        if (!$this->useInlineCss) {
            $gridlines = $pSheet->getShowGridlines() ? '
gridlines' : '';
            $html .= '    <table border="0"
cellpadding="0" cellspacing="0" id="sheet' .
$sheetIndex . '" class="sheet' . $sheetIndex .
$gridlines . '">' . PHP_EOL;
        } else {
            $style = isset($this->cssStyles['table']) ?
               
$this->assembleCSS($this->cssStyles['table']) :
'';

            if ($this->isPdf && $pSheet->getShowGridlines())
{
                $html .= '    <table border="1"
cellpadding="1" id="sheet' . $sheetIndex . '"
cellspacing="1" style="' . $style .
'">' . PHP_EOL;
            } else {
                $html .= '    <table border="0"
cellpadding="1" id="sheet' . $sheetIndex . '"
cellspacing="0" style="' . $style .
'">' . PHP_EOL;
            }
        }

        // Write <col> elements
        $highestColumnIndex =
Coordinate::columnIndexFromString($pSheet->getHighestColumn()) - 1;
        $i = -1;
        while ($i++ < $highestColumnIndex) {
            if (!$this->isPdf) {
                if (!$this->useInlineCss) {
                    $html .= '        <col class="col' .
$i . '">' . PHP_EOL;
                } else {
                    $style =
isset($this->cssStyles['table.sheet' . $sheetIndex . '
col.col' . $i]) ?
                       
$this->assembleCSS($this->cssStyles['table.sheet' .
$sheetIndex . ' col.col' . $i]) : '';
                    $html .= '        <col style="' .
$style . '">' . PHP_EOL;
                }
            }
        }

        return $html;
    }

    /**
     * Generate table footer.
     */
    private function generateTableFooter()
    {
        return '    </table>' . PHP_EOL;
    }

    /**
     * Generate row.
     *
     * @param Worksheet $pSheet
\PhpOffice\PhpSpreadsheet\Worksheet\Worksheet
     * @param array $pValues Array containing cells in a row
     * @param int $pRow Row number (0-based)
     * @param string $cellType eg: 'td'
     *
     * @throws WriterException
     *
     * @return string
     */
    private function generateRow(Worksheet $pSheet, array $pValues, $pRow,
$cellType)
    {
        // Construct HTML
        $html = '';

        // Sheet index
        $sheetIndex = $pSheet->getParent()->getIndex($pSheet);

        // Dompdf and breaks
        if ($this->isPdf && count($pSheet->getBreaks()) >
0) {
            $breaks = $pSheet->getBreaks();

            // check if a break is needed before this row
            if (isset($breaks['A' . $pRow])) {
                // close table: </table>
                $html .= $this->generateTableFooter();

                // insert page break
                $html .= '<div
style="page-break-before:always" />';

                // open table again: <table> + <col> etc.
                $html .= $this->generateTableHeader($pSheet);
            }
        }

        // Write row start
        if (!$this->useInlineCss) {
            $html .= '          <tr class="row' . $pRow .
'">' . PHP_EOL;
        } else {
            $style = isset($this->cssStyles['table.sheet' .
$sheetIndex . ' tr.row' . $pRow])
                ?
$this->assembleCSS($this->cssStyles['table.sheet' .
$sheetIndex . ' tr.row' . $pRow]) : '';

            $html .= '          <tr style="' . $style .
'">' . PHP_EOL;
        }

        // Write cells
        $colNum = 0;
        foreach ($pValues as $cellAddress) {
            $cell = ($cellAddress > '') ?
$pSheet->getCell($cellAddress) : '';
            $coordinate = Coordinate::stringFromColumnIndex($colNum + 1) .
($pRow + 1);
            if (!$this->useInlineCss) {
                $cssClass = 'column' . $colNum;
            } else {
                $cssClass = [];
                if ($cellType == 'th') {
                    if (isset($this->cssStyles['table.sheet' .
$sheetIndex . ' th.column' . $colNum])) {
                        $this->cssStyles['table.sheet' .
$sheetIndex . ' th.column' . $colNum];
                    }
                } else {
                    if (isset($this->cssStyles['table.sheet' .
$sheetIndex . ' td.column' . $colNum])) {
                        $this->cssStyles['table.sheet' .
$sheetIndex . ' td.column' . $colNum];
                    }
                }
            }
            $colSpan = 1;
            $rowSpan = 1;

            // initialize
            $cellData = '&nbsp;';

            // Cell
            if ($cell instanceof Cell) {
                $cellData = '';
                if ($cell->getParent() === null) {
                    $cell->attach($pSheet);
                }
                // Value
                if ($cell->getValue() instanceof RichText) {
                    // Loop through rich text elements
                    $elements =
$cell->getValue()->getRichTextElements();
                    foreach ($elements as $element) {
                        // Rich text start?
                        if ($element instanceof Run) {
                            $cellData .= '<span style="'
.
$this->assembleCSS($this->createCSSStyleFont($element->getFont()))
. '">';

                            if
($element->getFont()->getSuperscript()) {
                                $cellData .= '<sup>';
                            } elseif
($element->getFont()->getSubscript()) {
                                $cellData .= '<sub>';
                            }
                        }

                        // Convert UTF8 data to PCDATA
                        $cellText = $element->getText();
                        $cellData .= htmlspecialchars($cellText);

                        if ($element instanceof Run) {
                            if
($element->getFont()->getSuperscript()) {
                                $cellData .= '</sup>';
                            } elseif
($element->getFont()->getSubscript()) {
                                $cellData .= '</sub>';
                            }

                            $cellData .= '</span>';
                        }
                    }
                } else {
                    if ($this->preCalculateFormulas) {
                        $cellData = NumberFormat::toFormattedString(
                            $cell->getCalculatedValue(),
                           
$pSheet->getParent()->getCellXfByIndex($cell->getXfIndex())->getNumberFormat()->getFormatCode(),
                            [$this, 'formatColor']
                        );
                    } else {
                        $cellData = NumberFormat::toFormattedString(
                            $cell->getValue(),
                           
$pSheet->getParent()->getCellXfByIndex($cell->getXfIndex())->getNumberFormat()->getFormatCode(),
                            [$this, 'formatColor']
                        );
                    }
                    $cellData = htmlspecialchars($cellData);
                    if
($pSheet->getParent()->getCellXfByIndex($cell->getXfIndex())->getFont()->getSuperscript())
{
                        $cellData = '<sup>' . $cellData .
'</sup>';
                    } elseif
($pSheet->getParent()->getCellXfByIndex($cell->getXfIndex())->getFont()->getSubscript())
{
                        $cellData = '<sub>' . $cellData .
'</sub>';
                    }
                }

                // Converts the cell content so that spaces occuring at
beginning of each new line are replaced by &nbsp;
                // Example: "  Hello\n to the world" is converted
to "&nbsp;&nbsp;Hello\n&nbsp;to the world"
                $cellData = preg_replace('/(?m)(?:^|\\G) /',
'&nbsp;', $cellData);

                // convert newline "\n" to '<br>'
                $cellData = nl2br($cellData);

                // Extend CSS class?
                if (!$this->useInlineCss) {
                    $cssClass .= ' style' .
$cell->getXfIndex();
                    $cssClass .= ' ' . $cell->getDataType();
                } else {
                    if ($cellType == 'th') {
                        if (isset($this->cssStyles['th.style'
. $cell->getXfIndex()])) {
                            $cssClass = array_merge($cssClass,
$this->cssStyles['th.style' . $cell->getXfIndex()]);
                        }
                    } else {
                        if (isset($this->cssStyles['td.style'
. $cell->getXfIndex()])) {
                            $cssClass = array_merge($cssClass,
$this->cssStyles['td.style' . $cell->getXfIndex()]);
                        }
                    }

                    // General horizontal alignment: Actual horizontal
alignment depends on dataType
                    $sharedStyle =
$pSheet->getParent()->getCellXfByIndex($cell->getXfIndex());
                    if ($sharedStyle->getAlignment()->getHorizontal()
== Alignment::HORIZONTAL_GENERAL
                        && isset($this->cssStyles['.'
. $cell->getDataType()]['text-align'])
                    ) {
                        $cssClass['text-align'] =
$this->cssStyles['.' .
$cell->getDataType()]['text-align'];
                    }
                }
            }

            // Hyperlink?
            if ($pSheet->hyperlinkExists($coordinate) &&
!$pSheet->getHyperlink($coordinate)->isInternal()) {
                $cellData = '<a href="' .
htmlspecialchars($pSheet->getHyperlink($coordinate)->getUrl()) .
'" title="' .
htmlspecialchars($pSheet->getHyperlink($coordinate)->getTooltip()) .
'">' . $cellData . '</a>';
            }

            // Should the cell be written or is it swallowed by a rowspan
or colspan?
            $writeCell =
!(isset($this->isSpannedCell[$pSheet->getParent()->getIndex($pSheet)][$pRow
+ 1][$colNum])
                &&
$this->isSpannedCell[$pSheet->getParent()->getIndex($pSheet)][$pRow
+ 1][$colNum]);

            // Colspan and Rowspan
            $colspan = 1;
            $rowspan = 1;
            if
(isset($this->isBaseCell[$pSheet->getParent()->getIndex($pSheet)][$pRow
+ 1][$colNum])) {
                $spans =
$this->isBaseCell[$pSheet->getParent()->getIndex($pSheet)][$pRow +
1][$colNum];
                $rowSpan = $spans['rowspan'];
                $colSpan = $spans['colspan'];

                //    Also apply style from last cell in merge to fix
borders -
                //        relies on !important for non-none border
declarations in createCSSStyleBorder
                $endCellCoord = Coordinate::stringFromColumnIndex($colNum +
$colSpan) . ($pRow + $rowSpan);
                if (!$this->useInlineCss) {
                    $cssClass .= ' style' .
$pSheet->getCell($endCellCoord)->getXfIndex();
                }
            }

            // Write
            if ($writeCell) {
                // Column start
                $html .= '            <' . $cellType;
                if (!$this->useInlineCss) {
                    $html .= ' class="' . $cssClass .
'"';
                } else {
                    //** Necessary redundant code for the sake of
\PhpOffice\PhpSpreadsheet\Writer\Pdf **
                    // We must explicitly write the width of the <td>
element because TCPDF
                    // does not recognize e.g. <col
style="width:42pt">
                    $width = 0;
                    $i = $colNum - 1;
                    $e = $colNum + $colSpan - 1;
                    while ($i++ < $e) {
                        if (isset($this->columnWidths[$sheetIndex][$i]))
{
                            $width +=
$this->columnWidths[$sheetIndex][$i];
                        }
                    }
                    $cssClass['width'] = $width . 'pt';

                    // We must also explicitly write the height of the
<td> element because TCPDF
                    // does not recognize e.g. <tr
style="height:50pt">
                    if (isset($this->cssStyles['table.sheet' .
$sheetIndex . ' tr.row' . $pRow]['height'])) {
                        $height =
$this->cssStyles['table.sheet' . $sheetIndex . '
tr.row' . $pRow]['height'];
                        $cssClass['height'] = $height;
                    }
                    //** end of redundant code **

                    $html .= ' style="' .
$this->assembleCSS($cssClass) . '"';
                }
                if ($colSpan > 1) {
                    $html .= ' colspan="' . $colSpan .
'"';
                }
                if ($rowSpan > 1) {
                    $html .= ' rowspan="' . $rowSpan .
'"';
                }
                $html .= '>';

                $html .= $this->writeComment($pSheet, $coordinate);

                // Image?
                $html .= $this->writeImageInCell($pSheet, $coordinate);

                // Chart?
                if ($this->includeCharts) {
                    $html .= $this->writeChartInCell($pSheet,
$coordinate);
                }

                // Cell data
                $html .= $cellData;

                // Column end
                $html .= '</' . $cellType . '>' .
PHP_EOL;
            }

            // Next column
            ++$colNum;
        }

        // Write row end
        $html .= '          </tr>' . PHP_EOL;

        // Return
        return $html;
    }

    /**
     * Takes array where of CSS properties / values and converts to CSS
string.
     *
     * @param array $pValue
     *
     * @return string
     */
    private function assembleCSS(array $pValue = [])
    {
        $pairs = [];
        foreach ($pValue as $property => $value) {
            $pairs[] = $property . ':' . $value;
        }
        $string = implode('; ', $pairs);

        return $string;
    }

    /**
     * Get images root.
     *
     * @return string
     */
    public function getImagesRoot()
    {
        return $this->imagesRoot;
    }

    /**
     * Set images root.
     *
     * @param string $pValue
     *
     * @return $this
     */
    public function setImagesRoot($pValue)
    {
        $this->imagesRoot = $pValue;

        return $this;
    }

    /**
     * Get embed images.
     *
     * @return bool
     */
    public function getEmbedImages()
    {
        return $this->embedImages;
    }

    /**
     * Set embed images.
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setEmbedImages($pValue)
    {
        $this->embedImages = $pValue;

        return $this;
    }

    /**
     * Get use inline CSS?
     *
     * @return bool
     */
    public function getUseInlineCss()
    {
        return $this->useInlineCss;
    }

    /**
     * Set use inline CSS?
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setUseInlineCss($pValue)
    {
        $this->useInlineCss = $pValue;

        return $this;
    }

    /**
     * Get use embedded CSS?
     *
     * @return bool
     */
    public function getUseEmbeddedCSS()
    {
        return $this->useEmbeddedCSS;
    }

    /**
     * Set use embedded CSS?
     *
     * @param bool $pValue
     *
     * @return $this
     */
    public function setUseEmbeddedCSS($pValue)
    {
        $this->useEmbeddedCSS = $pValue;

        return $this;
    }

    /**
     * Add color to formatted string as inline style.
     *
     * @param string $pValue Plain formatted value without color
     * @param string $pFormat Format code
     *
     * @return string
     */
    public function formatColor($pValue, $pFormat)
    {
        // Color information, e.g. [Red] is always at the beginning
        $color = null; // initialize
        $matches = [];

        $color_regex = '/^\\[[a-zA-Z]+\\]/';
        if (preg_match($color_regex, $pFormat, $matches)) {
            $color = str_replace(['[', ']'],
'', $matches[0]);
            $color = strtolower($color);
        }

        // convert to PCDATA
        $value = htmlspecialchars($pValue);

        // color span tag
        if ($color !== null) {
            $value = '<span style="color:' . $color .
'">' . $value . '</span>';
        }

        return $value;
    }

    /**
     * Calculate information about HTML colspan and rowspan which is not
always the same as Excel's.
     */
    private function calculateSpans()
    {
        // Identify all cells that should be omitted in HTML due to cell
merge.
        // In HTML only the upper-left cell should be written and it should
have
        //   appropriate rowspan / colspan attribute
        $sheetIndexes = $this->sheetIndex !== null ?
            [$this->sheetIndex] : range(0,
$this->spreadsheet->getSheetCount() - 1);

        foreach ($sheetIndexes as $sheetIndex) {
            $sheet = $this->spreadsheet->getSheet($sheetIndex);

            $candidateSpannedRow = [];

            // loop through all Excel merged cells
            foreach ($sheet->getMergeCells() as $cells) {
                [$cells] = Coordinate::splitRange($cells);
                $first = $cells[0];
                $last = $cells[1];

                [$fc, $fr] = Coordinate::coordinateFromString($first);
                $fc = Coordinate::columnIndexFromString($fc) - 1;

                [$lc, $lr] = Coordinate::coordinateFromString($last);
                $lc = Coordinate::columnIndexFromString($lc) - 1;

                // loop through the individual cells in the individual
merge
                $r = $fr - 1;
                while ($r++ < $lr) {
                    // also, flag this row as a HTML row that is candidate
to be omitted
                    $candidateSpannedRow[$r] = $r;

                    $c = $fc - 1;
                    while ($c++ < $lc) {
                        if (!($c == $fc && $r == $fr)) {
                            // not the upper-left cell (should not be
written in HTML)
                            $this->isSpannedCell[$sheetIndex][$r][$c] =
[
                                'baseCell' => [$fr, $fc],
                            ];
                        } else {
                            // upper-left is the base cell that should hold
the colspan/rowspan attribute
                            $this->isBaseCell[$sheetIndex][$r][$c] = [
                                'xlrowspan' => $lr - $fr + 1,
// Excel rowspan
                                'rowspan' => $lr - $fr + 1, //
HTML rowspan, value may change
                                'xlcolspan' => $lc - $fc + 1,
// Excel colspan
                                'colspan' => $lc - $fc + 1, //
HTML colspan, value may change
                            ];
                        }
                    }
                }
            }

            // Identify which rows should be omitted in HTML. These are the
rows where all the cells
            //   participate in a merge and the where base cells are
somewhere above.
            $countColumns =
Coordinate::columnIndexFromString($sheet->getHighestColumn());
            foreach ($candidateSpannedRow as $rowIndex) {
                if (isset($this->isSpannedCell[$sheetIndex][$rowIndex]))
{
                    if
(count($this->isSpannedCell[$sheetIndex][$rowIndex]) == $countColumns) {
                        $this->isSpannedRow[$sheetIndex][$rowIndex] =
$rowIndex;
                    }
                }
            }

            // For each of the omitted rows we found above, the affected
rowspans should be subtracted by 1
            if (isset($this->isSpannedRow[$sheetIndex])) {
                foreach ($this->isSpannedRow[$sheetIndex] as $rowIndex)
{
                    $adjustedBaseCells = [];
                    $c = -1;
                    $e = $countColumns - 1;
                    while ($c++ < $e) {
                        $baseCell =
$this->isSpannedCell[$sheetIndex][$rowIndex][$c]['baseCell'];

                        if (!in_array($baseCell, $adjustedBaseCells)) {
                            // subtract rowspan by 1
                           
--$this->isBaseCell[$sheetIndex][$baseCell[0]][$baseCell[1]]['rowspan'];
                            $adjustedBaseCells[] = $baseCell;
                        }
                    }
                }
            }

            // TODO: Same for columns
        }

        // We have calculated the spans
        $this->spansAreCalculated = true;
    }

    private function setMargins(Worksheet $pSheet)
    {
        $htmlPage = '@page { ';
        $htmlBody = 'body { ';

        $left =
StringHelper::formatNumber($pSheet->getPageMargins()->getLeft()) .
'in; ';
        $htmlPage .= 'margin-left: ' . $left;
        $htmlBody .= 'margin-left: ' . $left;
        $right =
StringHelper::formatNumber($pSheet->getPageMargins()->getRight()) .
'in; ';
        $htmlPage .= 'margin-right: ' . $right;
        $htmlBody .= 'margin-right: ' . $right;
        $top =
StringHelper::formatNumber($pSheet->getPageMargins()->getTop()) .
'in; ';
        $htmlPage .= 'margin-top: ' . $top;
        $htmlBody .= 'margin-top: ' . $top;
        $bottom =
StringHelper::formatNumber($pSheet->getPageMargins()->getBottom()) .
'in; ';
        $htmlPage .= 'margin-bottom: ' . $bottom;
        $htmlBody .= 'margin-bottom: ' . $bottom;

        $htmlPage .= "}\n";
        $htmlBody .= "}\n";

        return "<style>\n" . $htmlPage . $htmlBody .
"</style>\n";
    }

    /**
     * Write a comment in the same format as LibreOffice.
     *
     * @see
https://github.com/LibreOffice/core/blob/9fc9bf3240f8c62ad7859947ab8a033ac1fe93fa/sc/source/filter/html/htmlexp.cxx#L1073-L1092
     *
     * @param Worksheet $pSheet
     * @param string $coordinate
     *
     * @return string
     */
    private function writeComment(Worksheet $pSheet, $coordinate)
    {
        $result = '';
        if (!$this->isPdf &&
isset($pSheet->getComments()[$coordinate])) {
            $result .= '<a
class="comment-indicator"></a>';
            $result .= '<div class="comment">' .
nl2br($pSheet->getComment($coordinate)->getText()->getPlainText())
. '</div>';
            $result .= PHP_EOL;
        }

        return $result;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/IWriter.php000064400000005247151165414060022116
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer;

use PhpOffice\PhpSpreadsheet\Spreadsheet;

interface IWriter
{
    /**
     * IWriter constructor.
     *
     * @param Spreadsheet $spreadsheet
     */
    public function __construct(Spreadsheet $spreadsheet);

    /**
     * Write charts in workbook?
     *        If this is true, then the Writer will write definitions for
any charts that exist in the PhpSpreadsheet object.
     *        If false (the default) it will ignore any charts defined in
the PhpSpreadsheet object.
     *
     * @return bool
     */
    public function getIncludeCharts();

    /**
     * Set write charts in workbook
     *        Set to true, to advise the Writer to include any charts that
exist in the PhpSpreadsheet object.
     *        Set to false (the default) to ignore charts.
     *
     * @param bool $pValue
     *
     * @return IWriter
     */
    public function setIncludeCharts($pValue);

    /**
     * Get Pre-Calculate Formulas flag
     *     If this is true (the default), then the writer will recalculate
all formulae in a workbook when saving,
     *        so that the pre-calculated values are immediately available
to MS Excel or other office spreadsheet
     *        viewer when opening the file
     *     If false, then formulae are not calculated on save. This is
faster for saving in PhpSpreadsheet, but slower
     *        when opening the resulting file in MS Excel, because Excel
has to recalculate the formulae itself.
     *
     * @return bool
     */
    public function getPreCalculateFormulas();

    /**
     * Set Pre-Calculate Formulas
     *        Set to true (the default) to advise the Writer to calculate
all formulae on save
     *        Set to false to prevent precalculation of formulae on save.
     *
     * @param bool $pValue Pre-Calculate Formulas?
     *
     * @return IWriter
     */
    public function setPreCalculateFormulas($pValue);

    /**
     * Save PhpSpreadsheet to file.
     *
     * @param string $pFilename Name of the file to save
     *
     * @throws \PhpOffice\PhpSpreadsheet\Writer\Exception
     */
    public function save($pFilename);

    /**
     * Get use disk caching where possible?
     *
     * @return bool
     */
    public function getUseDiskCaching();

    /**
     * Set use disk caching where possible?
     *
     * @param bool $pValue
     * @param string $pDirectory Disk caching directory
     *
     * @throws Exception when directory does not exist
     *
     * @return IWriter
     */
    public function setUseDiskCaching($pValue, $pDirectory = null);

    /**
     * Get disk caching directory.
     *
     * @return string
     */
    public function getDiskCachingDirectory();
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Ods/Cell/Comment.php000064400000002230151165414060023524
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer\Ods\Cell;

use PhpOffice\PhpSpreadsheet\Cell\Cell;
use PhpOffice\PhpSpreadsheet\Shared\XMLWriter;

/**
 * @category   PhpSpreadsheet
 *
 * @copyright  Copyright (c) 2006 - 2015 PhpSpreadsheet
(https://github.com/PHPOffice/PhpSpreadsheet)
 * @author     Alexander Pervakov <frost-nzcr4@jagmort.com>
 */
class Comment
{
    public static function write(XMLWriter $objWriter, Cell $cell)
    {
        $comments = $cell->getWorksheet()->getComments();
        if (!isset($comments[$cell->getCoordinate()])) {
            return;
        }
        $comment = $comments[$cell->getCoordinate()];

        $objWriter->startElement('office:annotation');
        $objWriter->writeAttribute('svg:width',
$comment->getWidth());
        $objWriter->writeAttribute('svg:height',
$comment->getHeight());
        $objWriter->writeAttribute('svg:x',
$comment->getMarginLeft());
        $objWriter->writeAttribute('svg:y',
$comment->getMarginTop());
        $objWriter->writeElement('dc:creator',
$comment->getAuthor());
        $objWriter->writeElement('text:p',
$comment->getText()->getPlainText());
        $objWriter->endElement();
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Ods/Content.php000064400000040007151165414060022661
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer\Ods;

use PhpOffice\PhpSpreadsheet\Cell\Cell;
use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\Cell\DataType;
use PhpOffice\PhpSpreadsheet\Shared\XMLWriter;
use PhpOffice\PhpSpreadsheet\Spreadsheet;
use PhpOffice\PhpSpreadsheet\Style\Fill;
use PhpOffice\PhpSpreadsheet\Style\Font;
use PhpOffice\PhpSpreadsheet\Worksheet\Row;
use PhpOffice\PhpSpreadsheet\Worksheet\Worksheet;
use PhpOffice\PhpSpreadsheet\Writer\Exception;
use PhpOffice\PhpSpreadsheet\Writer\Ods;
use PhpOffice\PhpSpreadsheet\Writer\Ods\Cell\Comment;

/**
 * @category   PhpSpreadsheet
 *
 * @method Ods getParentWriter
 *
 * @copyright  Copyright (c) 2006 - 2015 PhpSpreadsheet
(https://github.com/PHPOffice/PhpSpreadsheet)
 * @author     Alexander Pervakov <frost-nzcr4@jagmort.com>
 */
class Content extends WriterPart
{
    const NUMBER_COLS_REPEATED_MAX = 1024;
    const NUMBER_ROWS_REPEATED_MAX = 1048576;
    const CELL_STYLE_PREFIX = 'ce';

    /**
     * Write content.xml to XML format.
     *
     * @throws \PhpOffice\PhpSpreadsheet\Writer\Exception
     *
     * @return string XML Output
     */
    public function write()
    {
        $objWriter = null;
        if ($this->getParentWriter()->getUseDiskCaching()) {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_DISK,
$this->getParentWriter()->getDiskCachingDirectory());
        } else {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_MEMORY);
        }

        // XML header
        $objWriter->startDocument('1.0', 'UTF-8');

        // Content
        $objWriter->startElement('office:document-content');
        $objWriter->writeAttribute('xmlns:office',
'urn:oasis:names:tc:opendocument:xmlns:office:1.0');
        $objWriter->writeAttribute('xmlns:style',
'urn:oasis:names:tc:opendocument:xmlns:style:1.0');
        $objWriter->writeAttribute('xmlns:text',
'urn:oasis:names:tc:opendocument:xmlns:text:1.0');
        $objWriter->writeAttribute('xmlns:table',
'urn:oasis:names:tc:opendocument:xmlns:table:1.0');
        $objWriter->writeAttribute('xmlns:draw',
'urn:oasis:names:tc:opendocument:xmlns:drawing:1.0');
        $objWriter->writeAttribute('xmlns:fo',
'urn:oasis:names:tc:opendocument:xmlns:xsl-fo-compatible:1.0');
        $objWriter->writeAttribute('xmlns:xlink',
'http://www.w3.org/1999/xlink');
        $objWriter->writeAttribute('xmlns:dc',
'http://purl.org/dc/elements/1.1/');
        $objWriter->writeAttribute('xmlns:meta',
'urn:oasis:names:tc:opendocument:xmlns:meta:1.0');
        $objWriter->writeAttribute('xmlns:number',
'urn:oasis:names:tc:opendocument:xmlns:datastyle:1.0');
        $objWriter->writeAttribute('xmlns:presentation',
'urn:oasis:names:tc:opendocument:xmlns:presentation:1.0');
        $objWriter->writeAttribute('xmlns:svg',
'urn:oasis:names:tc:opendocument:xmlns:svg-compatible:1.0');
        $objWriter->writeAttribute('xmlns:chart',
'urn:oasis:names:tc:opendocument:xmlns:chart:1.0');
        $objWriter->writeAttribute('xmlns:dr3d',
'urn:oasis:names:tc:opendocument:xmlns:dr3d:1.0');
        $objWriter->writeAttribute('xmlns:math',
'http://www.w3.org/1998/Math/MathML');
        $objWriter->writeAttribute('xmlns:form',
'urn:oasis:names:tc:opendocument:xmlns:form:1.0');
        $objWriter->writeAttribute('xmlns:script',
'urn:oasis:names:tc:opendocument:xmlns:script:1.0');
        $objWriter->writeAttribute('xmlns:ooo',
'http://openoffice.org/2004/office');
        $objWriter->writeAttribute('xmlns:ooow',
'http://openoffice.org/2004/writer');
        $objWriter->writeAttribute('xmlns:oooc',
'http://openoffice.org/2004/calc');
        $objWriter->writeAttribute('xmlns:dom',
'http://www.w3.org/2001/xml-events');
        $objWriter->writeAttribute('xmlns:xforms',
'http://www.w3.org/2002/xforms');
        $objWriter->writeAttribute('xmlns:xsd',
'http://www.w3.org/2001/XMLSchema');
        $objWriter->writeAttribute('xmlns:xsi',
'http://www.w3.org/2001/XMLSchema-instance');
        $objWriter->writeAttribute('xmlns:rpt',
'http://openoffice.org/2005/report');
        $objWriter->writeAttribute('xmlns:of',
'urn:oasis:names:tc:opendocument:xmlns:of:1.2');
        $objWriter->writeAttribute('xmlns:xhtml',
'http://www.w3.org/1999/xhtml');
        $objWriter->writeAttribute('xmlns:grddl',
'http://www.w3.org/2003/g/data-view#');
        $objWriter->writeAttribute('xmlns:tableooo',
'http://openoffice.org/2009/table');
        $objWriter->writeAttribute('xmlns:field',
'urn:openoffice:names:experimental:ooo-ms-interop:xmlns:field:1.0');
        $objWriter->writeAttribute('xmlns:formx',
'urn:openoffice:names:experimental:ooxml-odf-interop:xmlns:form:1.0');
        $objWriter->writeAttribute('xmlns:css3t',
'http://www.w3.org/TR/css3-text/');
        $objWriter->writeAttribute('office:version',
'1.2');

        $objWriter->writeElement('office:scripts');
        $objWriter->writeElement('office:font-face-decls');

        // Styles XF
        $objWriter->startElement('office:automatic-styles');
        $this->writeXfStyles($objWriter,
$this->getParentWriter()->getSpreadsheet());
        $objWriter->endElement();

        $objWriter->startElement('office:body');
        $objWriter->startElement('office:spreadsheet');
       
$objWriter->writeElement('table:calculation-settings');

        $this->writeSheets($objWriter);

        $objWriter->writeElement('table:named-expressions');
        $objWriter->endElement();
        $objWriter->endElement();
        $objWriter->endElement();

        return $objWriter->getData();
    }

    /**
     * Write sheets.
     *
     * @param XMLWriter $objWriter
     */
    private function writeSheets(XMLWriter $objWriter)
    {
        $spreadsheet = $this->getParentWriter()->getSpreadsheet(); //
@var $spreadsheet Spreadsheet

        $sheetCount = $spreadsheet->getSheetCount();
        for ($i = 0; $i < $sheetCount; ++$i) {
            $objWriter->startElement('table:table');
            $objWriter->writeAttribute('table:name',
$spreadsheet->getSheet($i)->getTitle());
            $objWriter->writeElement('office:forms');
            $objWriter->startElement('table:table-column');
           
$objWriter->writeAttribute('table:number-columns-repeated',
self::NUMBER_COLS_REPEATED_MAX);
            $objWriter->endElement();
            $this->writeRows($objWriter, $spreadsheet->getSheet($i));
            $objWriter->endElement();
        }
    }

    /**
     * Write rows of the specified sheet.
     *
     * @param XMLWriter $objWriter
     * @param Worksheet $sheet
     */
    private function writeRows(XMLWriter $objWriter, Worksheet $sheet)
    {
        $numberRowsRepeated = self::NUMBER_ROWS_REPEATED_MAX;
        $span_row = 0;
        $rows = $sheet->getRowIterator();
        while ($rows->valid()) {
            --$numberRowsRepeated;
            $row = $rows->current();
            if ($row->getCellIterator()->valid()) {
                if ($span_row) {
                   
$objWriter->startElement('table:table-row');
                    if ($span_row > 1) {
                       
$objWriter->writeAttribute('table:number-rows-repeated',
$span_row);
                    }
                   
$objWriter->startElement('table:table-cell');
                   
$objWriter->writeAttribute('table:number-columns-repeated',
self::NUMBER_COLS_REPEATED_MAX);
                    $objWriter->endElement();
                    $objWriter->endElement();
                    $span_row = 0;
                }
                $objWriter->startElement('table:table-row');
                $this->writeCells($objWriter, $row);
                $objWriter->endElement();
            } else {
                ++$span_row;
            }
            $rows->next();
        }
    }

    /**
     * Write cells of the specified row.
     *
     * @param XMLWriter $objWriter
     * @param Row $row
     *
     * @throws Exception
     */
    private function writeCells(XMLWriter $objWriter, Row $row)
    {
        $numberColsRepeated = self::NUMBER_COLS_REPEATED_MAX;
        $prevColumn = -1;
        $cells = $row->getCellIterator();
        while ($cells->valid()) {
            /** @var \PhpOffice\PhpSpreadsheet\Cell\Cell $cell */
            $cell = $cells->current();
            $column =
Coordinate::columnIndexFromString($cell->getColumn()) - 1;

            $this->writeCellSpan($objWriter, $column, $prevColumn);
            $objWriter->startElement('table:table-cell');
            $this->writeCellMerge($objWriter, $cell);

            // Style XF
            $style = $cell->getXfIndex();
            if ($style !== null) {
                $objWriter->writeAttribute('table:style-name',
self::CELL_STYLE_PREFIX . $style);
            }

            switch ($cell->getDataType()) {
                case DataType::TYPE_BOOL:
                   
$objWriter->writeAttribute('office:value-type',
'boolean');
                    $objWriter->writeAttribute('office:value',
$cell->getValue());
                    $objWriter->writeElement('text:p',
$cell->getValue());

                    break;
                case DataType::TYPE_ERROR:
                    throw new Exception('Writing of error not
implemented yet.');

                    break;
                case DataType::TYPE_FORMULA:
                    $formulaValue = $cell->getValue();
                    if
($this->getParentWriter()->getPreCalculateFormulas()) {
                        try {
                            $formulaValue = $cell->getCalculatedValue();
                        } catch (Exception $e) {
                            // don't do anything
                        }
                    }
                   
$objWriter->writeAttribute('table:formula', 'of:' .
$cell->getValue());
                    if (is_numeric($formulaValue)) {
                       
$objWriter->writeAttribute('office:value-type',
'float');
                    } else {
                       
$objWriter->writeAttribute('office:value-type',
'string');
                    }
                    $objWriter->writeAttribute('office:value',
$formulaValue);
                    $objWriter->writeElement('text:p',
$formulaValue);

                    break;
                case DataType::TYPE_INLINE:
                    throw new Exception('Writing of inline not
implemented yet.');

                    break;
                case DataType::TYPE_NUMERIC:
                   
$objWriter->writeAttribute('office:value-type',
'float');
                    $objWriter->writeAttribute('office:value',
$cell->getValue());
                    $objWriter->writeElement('text:p',
$cell->getValue());

                    break;
                case DataType::TYPE_STRING:
                   
$objWriter->writeAttribute('office:value-type',
'string');
                    $objWriter->writeElement('text:p',
$cell->getValue());

                    break;
            }
            Comment::write($objWriter, $cell);
            $objWriter->endElement();
            $prevColumn = $column;
            $cells->next();
        }
        $numberColsRepeated = $numberColsRepeated - $prevColumn - 1;
        if ($numberColsRepeated > 0) {
            if ($numberColsRepeated > 1) {
                $objWriter->startElement('table:table-cell');
               
$objWriter->writeAttribute('table:number-columns-repeated',
$numberColsRepeated);
                $objWriter->endElement();
            } else {
                $objWriter->writeElement('table:table-cell');
            }
        }
    }

    /**
     * Write span.
     *
     * @param XMLWriter $objWriter
     * @param int $curColumn
     * @param int $prevColumn
     */
    private function writeCellSpan(XMLWriter $objWriter, $curColumn,
$prevColumn)
    {
        $diff = $curColumn - $prevColumn - 1;
        if (1 === $diff) {
            $objWriter->writeElement('table:table-cell');
        } elseif ($diff > 1) {
            $objWriter->startElement('table:table-cell');
           
$objWriter->writeAttribute('table:number-columns-repeated',
$diff);
            $objWriter->endElement();
        }
    }

    /**
     * Write XF cell styles.
     *
     * @param XMLWriter $writer
     * @param Spreadsheet $spreadsheet
     */
    private function writeXfStyles(XMLWriter $writer, Spreadsheet
$spreadsheet)
    {
        foreach ($spreadsheet->getCellXfCollection() as $style) {
            $writer->startElement('style:style');
            $writer->writeAttribute('style:name',
self::CELL_STYLE_PREFIX . $style->getIndex());
            $writer->writeAttribute('style:family',
'table-cell');
            $writer->writeAttribute('style:parent-style-name',
'Default');

            // style:text-properties

            // Font
            $writer->startElement('style:text-properties');

            $font = $style->getFont();

            if ($font->getBold()) {
                $writer->writeAttribute('fo:font-weight',
'bold');
               
$writer->writeAttribute('style:font-weight-complex',
'bold');
               
$writer->writeAttribute('style:font-weight-asian',
'bold');
            }

            if ($font->getItalic()) {
                $writer->writeAttribute('fo:font-style',
'italic');
            }

            if ($color = $font->getColor()) {
                $writer->writeAttribute('fo:color',
sprintf('#%s', $color->getRGB()));
            }

            if ($family = $font->getName()) {
                $writer->writeAttribute('fo:font-family',
$family);
            }

            if ($size = $font->getSize()) {
                $writer->writeAttribute('fo:font-size',
sprintf('%.1Fpt', $size));
            }

            if ($font->getUnderline() &&
$font->getUnderline() != Font::UNDERLINE_NONE) {
               
$writer->writeAttribute('style:text-underline-style',
'solid');
               
$writer->writeAttribute('style:text-underline-width',
'auto');
               
$writer->writeAttribute('style:text-underline-color',
'font-color');

                switch ($font->getUnderline()) {
                    case Font::UNDERLINE_DOUBLE:
                       
$writer->writeAttribute('style:text-underline-type',
'double');

                        break;
                    case Font::UNDERLINE_SINGLE:
                       
$writer->writeAttribute('style:text-underline-type',
'single');

                        break;
                }
            }

            $writer->endElement(); // Close style:text-properties

            // style:table-cell-properties

           
$writer->startElement('style:table-cell-properties');
            $writer->writeAttribute('style:rotation-align',
'none');

            // Fill
            if ($fill = $style->getFill()) {
                switch ($fill->getFillType()) {
                    case Fill::FILL_SOLID:
                       
$writer->writeAttribute('fo:background-color', sprintf(
                            '#%s',
                           
strtolower($fill->getStartColor()->getRGB())
                        ));

                        break;
                    case Fill::FILL_GRADIENT_LINEAR:
                    case Fill::FILL_GRADIENT_PATH:
                        /// TODO :: To be implemented
                        break;
                    case Fill::FILL_NONE:
                    default:
                }
            }

            $writer->endElement(); // Close style:table-cell-properties

            // End

            $writer->endElement(); // Close style:style
        }
    }

    /**
     * Write attributes for merged cell.
     *
     * @param XMLWriter $objWriter
     * @param Cell $cell
     *
     * @throws \PhpOffice\PhpSpreadsheet\Exception
     */
    private function writeCellMerge(XMLWriter $objWriter, Cell $cell)
    {
        if (!$cell->isMergeRangeValueCell()) {
            return;
        }

        $mergeRange = Coordinate::splitRange($cell->getMergeRange());
        [$startCell, $endCell] = $mergeRange[0];
        $start = Coordinate::coordinateFromString($startCell);
        $end = Coordinate::coordinateFromString($endCell);
        $columnSpan = Coordinate::columnIndexFromString($end[0]) -
Coordinate::columnIndexFromString($start[0]) + 1;
        $rowSpan = $end[1] - $start[1] + 1;

       
$objWriter->writeAttribute('table:number-columns-spanned',
$columnSpan);
       
$objWriter->writeAttribute('table:number-rows-spanned',
$rowSpan);
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Ods/Meta.php000064400000006247151165414060022145
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer\Ods;

use PhpOffice\PhpSpreadsheet\Shared\XMLWriter;
use PhpOffice\PhpSpreadsheet\Spreadsheet;

class Meta extends WriterPart
{
    /**
     * Write meta.xml to XML format.
     *
     * @param Spreadsheet $spreadsheet
     *
     * @throws \PhpOffice\PhpSpreadsheet\Writer\Exception
     *
     * @return string XML Output
     */
    public function write(Spreadsheet $spreadsheet = null)
    {
        if (!$spreadsheet) {
            $spreadsheet =
$this->getParentWriter()->getSpreadsheet();
        }

        $objWriter = null;
        if ($this->getParentWriter()->getUseDiskCaching()) {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_DISK,
$this->getParentWriter()->getDiskCachingDirectory());
        } else {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_MEMORY);
        }

        // XML header
        $objWriter->startDocument('1.0', 'UTF-8');

        // Meta
        $objWriter->startElement('office:document-meta');

        $objWriter->writeAttribute('xmlns:office',
'urn:oasis:names:tc:opendocument:xmlns:office:1.0');
        $objWriter->writeAttribute('xmlns:xlink',
'http://www.w3.org/1999/xlink');
        $objWriter->writeAttribute('xmlns:dc',
'http://purl.org/dc/elements/1.1/');
        $objWriter->writeAttribute('xmlns:meta',
'urn:oasis:names:tc:opendocument:xmlns:meta:1.0');
        $objWriter->writeAttribute('xmlns:ooo',
'http://openoffice.org/2004/office');
        $objWriter->writeAttribute('xmlns:grddl',
'http://www.w3.org/2003/g/data-view#');
        $objWriter->writeAttribute('office:version',
'1.2');

        $objWriter->startElement('office:meta');

        $objWriter->writeElement('meta:initial-creator',
$spreadsheet->getProperties()->getCreator());
        $objWriter->writeElement('dc:creator',
$spreadsheet->getProperties()->getCreator());
        $objWriter->writeElement('meta:creation-date',
date(DATE_W3C, $spreadsheet->getProperties()->getCreated()));
        $objWriter->writeElement('dc:date', date(DATE_W3C,
$spreadsheet->getProperties()->getCreated()));
        $objWriter->writeElement('dc:title',
$spreadsheet->getProperties()->getTitle());
        $objWriter->writeElement('dc:description',
$spreadsheet->getProperties()->getDescription());
        $objWriter->writeElement('dc:subject',
$spreadsheet->getProperties()->getSubject());
        $keywords = explode(' ',
$spreadsheet->getProperties()->getKeywords());
        foreach ($keywords as $keyword) {
            $objWriter->writeElement('meta:keyword',
$keyword);
        }

        //<meta:document-statistic meta:table-count="XXX"
meta:cell-count="XXX" meta:object-count="XXX"/>
        $objWriter->startElement('meta:user-defined');
        $objWriter->writeAttribute('meta:name',
'Company');
       
$objWriter->writeRaw($spreadsheet->getProperties()->getCompany());
        $objWriter->endElement();

        $objWriter->startElement('meta:user-defined');
        $objWriter->writeAttribute('meta:name',
'category');
       
$objWriter->writeRaw($spreadsheet->getProperties()->getCategory());
        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        return $objWriter->getData();
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Ods/MetaInf.php000064400000005006151165414060022572
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer\Ods;

use PhpOffice\PhpSpreadsheet\Shared\XMLWriter;

class MetaInf extends WriterPart
{
    /**
     * Write META-INF/manifest.xml to XML format.
     *
     * @throws \PhpOffice\PhpSpreadsheet\Writer\Exception
     *
     * @return string XML Output
     */
    public function writeManifest()
    {
        $objWriter = null;
        if ($this->getParentWriter()->getUseDiskCaching()) {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_DISK,
$this->getParentWriter()->getDiskCachingDirectory());
        } else {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_MEMORY);
        }

        // XML header
        $objWriter->startDocument('1.0', 'UTF-8');

        // Manifest
        $objWriter->startElement('manifest:manifest');
        $objWriter->writeAttribute('xmlns:manifest',
'urn:oasis:names:tc:opendocument:xmlns:manifest:1.0');
        $objWriter->writeAttribute('manifest:version',
'1.2');

        $objWriter->startElement('manifest:file-entry');
        $objWriter->writeAttribute('manifest:full-path',
'/');
        $objWriter->writeAttribute('manifest:version',
'1.2');
        $objWriter->writeAttribute('manifest:media-type',
'application/vnd.oasis.opendocument.spreadsheet');
        $objWriter->endElement();
        $objWriter->startElement('manifest:file-entry');
        $objWriter->writeAttribute('manifest:full-path',
'meta.xml');
        $objWriter->writeAttribute('manifest:media-type',
'text/xml');
        $objWriter->endElement();
        $objWriter->startElement('manifest:file-entry');
        $objWriter->writeAttribute('manifest:full-path',
'settings.xml');
        $objWriter->writeAttribute('manifest:media-type',
'text/xml');
        $objWriter->endElement();
        $objWriter->startElement('manifest:file-entry');
        $objWriter->writeAttribute('manifest:full-path',
'content.xml');
        $objWriter->writeAttribute('manifest:media-type',
'text/xml');
        $objWriter->endElement();
        $objWriter->startElement('manifest:file-entry');
        $objWriter->writeAttribute('manifest:full-path',
'Thumbnails/thumbnail.png');
        $objWriter->writeAttribute('manifest:media-type',
'image/png');
        $objWriter->endElement();
        $objWriter->startElement('manifest:file-entry');
        $objWriter->writeAttribute('manifest:full-path',
'styles.xml');
        $objWriter->writeAttribute('manifest:media-type',
'text/xml');
        $objWriter->endElement();
        $objWriter->endElement();

        return $objWriter->getData();
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Ods/Mimetype.php000064400000000642151165414060023041
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer\Ods;

use PhpOffice\PhpSpreadsheet\Spreadsheet;

class Mimetype extends WriterPart
{
    /**
     * Write mimetype to plain text format.
     *
     * @param Spreadsheet $spreadsheet
     *
     * @return string XML Output
     */
    public function write(Spreadsheet $spreadsheet = null)
    {
        return 'application/vnd.oasis.opendocument.spreadsheet';
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Ods/Settings.php000064400000003745151165414060023057
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer\Ods;

use PhpOffice\PhpSpreadsheet\Shared\XMLWriter;
use PhpOffice\PhpSpreadsheet\Spreadsheet;

class Settings extends WriterPart
{
    /**
     * Write settings.xml to XML format.
     *
     * @param Spreadsheet $spreadsheet
     *
     * @throws \PhpOffice\PhpSpreadsheet\Writer\Exception
     *
     * @return string XML Output
     */
    public function write(Spreadsheet $spreadsheet = null)
    {
        $objWriter = null;
        if ($this->getParentWriter()->getUseDiskCaching()) {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_DISK,
$this->getParentWriter()->getDiskCachingDirectory());
        } else {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_MEMORY);
        }

        // XML header
        $objWriter->startDocument('1.0', 'UTF-8');

        // Settings
        $objWriter->startElement('office:document-settings');
        $objWriter->writeAttribute('xmlns:office',
'urn:oasis:names:tc:opendocument:xmlns:office:1.0');
        $objWriter->writeAttribute('xmlns:xlink',
'http://www.w3.org/1999/xlink');
        $objWriter->writeAttribute('xmlns:config',
'urn:oasis:names:tc:opendocument:xmlns:config:1.0');
        $objWriter->writeAttribute('xmlns:ooo',
'http://openoffice.org/2004/office');
        $objWriter->writeAttribute('office:version',
'1.2');

        $objWriter->startElement('office:settings');
        $objWriter->startElement('config:config-item-set');
        $objWriter->writeAttribute('config:name',
'ooo:view-settings');
       
$objWriter->startElement('config:config-item-map-indexed');
        $objWriter->writeAttribute('config:name',
'Views');
        $objWriter->endElement();
        $objWriter->endElement();
        $objWriter->startElement('config:config-item-set');
        $objWriter->writeAttribute('config:name',
'ooo:configuration-settings');
        $objWriter->endElement();
        $objWriter->endElement();
        $objWriter->endElement();

        return $objWriter->getData();
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Ods/Styles.php000064400000007433151165414060022540
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer\Ods;

use PhpOffice\PhpSpreadsheet\Shared\XMLWriter;
use PhpOffice\PhpSpreadsheet\Spreadsheet;

class Styles extends WriterPart
{
    /**
     * Write styles.xml to XML format.
     *
     * @param Spreadsheet $spreadsheet
     *
     * @throws \PhpOffice\PhpSpreadsheet\Writer\Exception
     *
     * @return string XML Output
     */
    public function write(Spreadsheet $spreadsheet = null)
    {
        $objWriter = null;
        if ($this->getParentWriter()->getUseDiskCaching()) {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_DISK,
$this->getParentWriter()->getDiskCachingDirectory());
        } else {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_MEMORY);
        }

        // XML header
        $objWriter->startDocument('1.0', 'UTF-8');

        // Content
        $objWriter->startElement('office:document-styles');
        $objWriter->writeAttribute('xmlns:office',
'urn:oasis:names:tc:opendocument:xmlns:office:1.0');
        $objWriter->writeAttribute('xmlns:style',
'urn:oasis:names:tc:opendocument:xmlns:style:1.0');
        $objWriter->writeAttribute('xmlns:text',
'urn:oasis:names:tc:opendocument:xmlns:text:1.0');
        $objWriter->writeAttribute('xmlns:table',
'urn:oasis:names:tc:opendocument:xmlns:table:1.0');
        $objWriter->writeAttribute('xmlns:draw',
'urn:oasis:names:tc:opendocument:xmlns:drawing:1.0');
        $objWriter->writeAttribute('xmlns:fo',
'urn:oasis:names:tc:opendocument:xmlns:xsl-fo-compatible:1.0');
        $objWriter->writeAttribute('xmlns:xlink',
'http://www.w3.org/1999/xlink');
        $objWriter->writeAttribute('xmlns:dc',
'http://purl.org/dc/elements/1.1/');
        $objWriter->writeAttribute('xmlns:meta',
'urn:oasis:names:tc:opendocument:xmlns:meta:1.0');
        $objWriter->writeAttribute('xmlns:number',
'urn:oasis:names:tc:opendocument:xmlns:datastyle:1.0');
        $objWriter->writeAttribute('xmlns:presentation',
'urn:oasis:names:tc:opendocument:xmlns:presentation:1.0');
        $objWriter->writeAttribute('xmlns:svg',
'urn:oasis:names:tc:opendocument:xmlns:svg-compatible:1.0');
        $objWriter->writeAttribute('xmlns:chart',
'urn:oasis:names:tc:opendocument:xmlns:chart:1.0');
        $objWriter->writeAttribute('xmlns:dr3d',
'urn:oasis:names:tc:opendocument:xmlns:dr3d:1.0');
        $objWriter->writeAttribute('xmlns:math',
'http://www.w3.org/1998/Math/MathML');
        $objWriter->writeAttribute('xmlns:form',
'urn:oasis:names:tc:opendocument:xmlns:form:1.0');
        $objWriter->writeAttribute('xmlns:script',
'urn:oasis:names:tc:opendocument:xmlns:script:1.0');
        $objWriter->writeAttribute('xmlns:ooo',
'http://openoffice.org/2004/office');
        $objWriter->writeAttribute('xmlns:ooow',
'http://openoffice.org/2004/writer');
        $objWriter->writeAttribute('xmlns:oooc',
'http://openoffice.org/2004/calc');
        $objWriter->writeAttribute('xmlns:dom',
'http://www.w3.org/2001/xml-events');
        $objWriter->writeAttribute('xmlns:rpt',
'http://openoffice.org/2005/report');
        $objWriter->writeAttribute('xmlns:of',
'urn:oasis:names:tc:opendocument:xmlns:of:1.2');
        $objWriter->writeAttribute('xmlns:xhtml',
'http://www.w3.org/1999/xhtml');
        $objWriter->writeAttribute('xmlns:grddl',
'http://www.w3.org/2003/g/data-view#');
        $objWriter->writeAttribute('xmlns:tableooo',
'http://openoffice.org/2009/table');
        $objWriter->writeAttribute('xmlns:css3t',
'http://www.w3.org/TR/css3-text/');
        $objWriter->writeAttribute('office:version',
'1.2');

        $objWriter->writeElement('office:font-face-decls');
        $objWriter->writeElement('office:styles');
        $objWriter->writeElement('office:automatic-styles');
        $objWriter->writeElement('office:master-styles');
        $objWriter->endElement();

        return $objWriter->getData();
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Ods/Thumbnails.php000064400000000610151165414060023351
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer\Ods;

use PhpOffice\PhpSpreadsheet\Spreadsheet;

class Thumbnails extends WriterPart
{
    /**
     * Write Thumbnails/thumbnail.png to PNG format.
     *
     * @param Spreadsheet $spreadsheet
     *
     * @return string XML Output
     */
    public function writeThumbnail(Spreadsheet $spreadsheet = null)
    {
        return '';
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Ods/WriterPart.php000064400000001043151165414060023347
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer\Ods;

use PhpOffice\PhpSpreadsheet\Writer\Ods;

abstract class WriterPart
{
    /**
     * Parent Ods object.
     *
     * @var Ods
     */
    private $parentWriter;

    /**
     * Get Ods writer.
     *
     * @return Ods
     */
    public function getParentWriter()
    {
        return $this->parentWriter;
    }

    /**
     * Set parent Ods writer.
     *
     * @param Ods $writer
     */
    public function __construct(Ods $writer)
    {
        $this->parentWriter = $writer;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Ods.php000064400000012006151165414060021245
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer;

use PhpOffice\PhpSpreadsheet\Shared\File;
use PhpOffice\PhpSpreadsheet\Spreadsheet;
use PhpOffice\PhpSpreadsheet\Writer\Exception as WriterException;
use PhpOffice\PhpSpreadsheet\Writer\Ods\Content;
use PhpOffice\PhpSpreadsheet\Writer\Ods\Meta;
use PhpOffice\PhpSpreadsheet\Writer\Ods\MetaInf;
use PhpOffice\PhpSpreadsheet\Writer\Ods\Mimetype;
use PhpOffice\PhpSpreadsheet\Writer\Ods\Settings;
use PhpOffice\PhpSpreadsheet\Writer\Ods\Styles;
use PhpOffice\PhpSpreadsheet\Writer\Ods\Thumbnails;
use ZipArchive;

class Ods extends BaseWriter
{
    /**
     * Private writer parts.
     *
     * @var Ods\WriterPart[]
     */
    private $writerParts = [];

    /**
     * Private PhpSpreadsheet.
     *
     * @var Spreadsheet
     */
    private $spreadSheet;

    /**
     * Create a new Ods.
     *
     * @param Spreadsheet $spreadsheet
     */
    public function __construct(Spreadsheet $spreadsheet)
    {
        $this->setSpreadsheet($spreadsheet);

        $writerPartsArray = [
            'content' => Content::class,
            'meta' => Meta::class,
            'meta_inf' => MetaInf::class,
            'mimetype' => Mimetype::class,
            'settings' => Settings::class,
            'styles' => Styles::class,
            'thumbnails' => Thumbnails::class,
        ];

        foreach ($writerPartsArray as $writer => $class) {
            $this->writerParts[$writer] = new $class($this);
        }
    }

    /**
     * Get writer part.
     *
     * @param string $pPartName Writer part name
     *
     * @return null|Ods\WriterPart
     */
    public function getWriterPart($pPartName)
    {
        if ($pPartName != '' &&
isset($this->writerParts[strtolower($pPartName)])) {
            return $this->writerParts[strtolower($pPartName)];
        }

        return null;
    }

    /**
     * Save PhpSpreadsheet to file.
     *
     * @param string $pFilename
     *
     * @throws WriterException
     */
    public function save($pFilename)
    {
        if (!$this->spreadSheet) {
            throw new WriterException('PhpSpreadsheet object
unassigned.');
        }

        // garbage collect
        $this->spreadSheet->garbageCollect();

        // If $pFilename is php://output or php://stdout, make it a
temporary file...
        $originalFilename = $pFilename;
        if (strtolower($pFilename) == 'php://output' ||
strtolower($pFilename) == 'php://stdout') {
            $pFilename = @tempnam(File::sysGetTempDir(),
'phpxltmp');
            if ($pFilename == '') {
                $pFilename = $originalFilename;
            }
        }

        $zip = $this->createZip($pFilename);

        $zip->addFromString('META-INF/manifest.xml',
$this->getWriterPart('meta_inf')->writeManifest());
        $zip->addFromString('Thumbnails/thumbnail.png',
$this->getWriterPart('thumbnails')->writeThumbnail());
        $zip->addFromString('content.xml',
$this->getWriterPart('content')->write());
        $zip->addFromString('meta.xml',
$this->getWriterPart('meta')->write());
        $zip->addFromString('mimetype',
$this->getWriterPart('mimetype')->write());
        $zip->addFromString('settings.xml',
$this->getWriterPart('settings')->write());
        $zip->addFromString('styles.xml',
$this->getWriterPart('styles')->write());

        // Close file
        if ($zip->close() === false) {
            throw new WriterException("Could not close zip file
$pFilename.");
        }

        // If a temporary file was used, copy it to the correct file stream
        if ($originalFilename != $pFilename) {
            if (copy($pFilename, $originalFilename) === false) {
                throw new WriterException("Could not copy temporary
zip file $pFilename to $originalFilename.");
            }
            @unlink($pFilename);
        }
    }

    /**
     * Create zip object.
     *
     * @param string $pFilename
     *
     * @throws WriterException
     *
     * @return ZipArchive
     */
    private function createZip($pFilename)
    {
        // Create new ZIP file and open it for writing
        $zip = new ZipArchive();

        if (file_exists($pFilename)) {
            unlink($pFilename);
        }
        // Try opening the ZIP file
        if ($zip->open($pFilename, ZipArchive::OVERWRITE) !== true) {
            if ($zip->open($pFilename, ZipArchive::CREATE) !== true) {
                throw new WriterException("Could not open $pFilename
for writing.");
            }
        }

        return $zip;
    }

    /**
     * Get Spreadsheet object.
     *
     * @throws WriterException
     *
     * @return Spreadsheet
     */
    public function getSpreadsheet()
    {
        if ($this->spreadSheet !== null) {
            return $this->spreadSheet;
        }

        throw new WriterException('No PhpSpreadsheet assigned.');
    }

    /**
     * Set Spreadsheet object.
     *
     * @param Spreadsheet $spreadsheet PhpSpreadsheet object
     *
     * @return $this
     */
    public function setSpreadsheet(Spreadsheet $spreadsheet)
    {
        $this->spreadSheet = $spreadsheet;

        return $this;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Pdf/Dompdf.php000064400000005012151165414060022441
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer\Pdf;

use PhpOffice\PhpSpreadsheet\Worksheet\PageSetup;
use PhpOffice\PhpSpreadsheet\Writer\Pdf;

class Dompdf extends Pdf
{
    /**
     * Gets the implementation of external PDF library that should be used.
     *
     * @return \Dompdf\Dompdf implementation
     */
    protected function createExternalWriterInstance()
    {
        return new \Dompdf\Dompdf();
    }

    /**
     * Save Spreadsheet to file.
     *
     * @param string $pFilename Name of the file to save as
     *
     * @throws \PhpOffice\PhpSpreadsheet\Writer\Exception
     */
    public function save($pFilename)
    {
        $fileHandle = parent::prepareForSave($pFilename);

        //  Default PDF paper size
        $paperSize = 'LETTER'; //    Letter    (8.5 in. by 11
in.)

        //  Check for paper size and page orientation
        if ($this->getSheetIndex() === null) {
            $orientation =
($this->spreadsheet->getSheet(0)->getPageSetup()->getOrientation()
                == PageSetup::ORIENTATION_LANDSCAPE) ? 'L' :
'P';
            $printPaperSize =
$this->spreadsheet->getSheet(0)->getPageSetup()->getPaperSize();
        } else {
            $orientation =
($this->spreadsheet->getSheet($this->getSheetIndex())->getPageSetup()->getOrientation()
                == PageSetup::ORIENTATION_LANDSCAPE) ? 'L' :
'P';
            $printPaperSize =
$this->spreadsheet->getSheet($this->getSheetIndex())->getPageSetup()->getPaperSize();
        }

        $orientation = ($orientation == 'L') ?
'landscape' : 'portrait';

        //  Override Page Orientation
        if ($this->getOrientation() !== null) {
            $orientation = ($this->getOrientation() ==
PageSetup::ORIENTATION_DEFAULT)
                ? PageSetup::ORIENTATION_PORTRAIT
                : $this->getOrientation();
        }
        //  Override Paper Size
        if ($this->getPaperSize() !== null) {
            $printPaperSize = $this->getPaperSize();
        }

        if (isset(self::$paperSizes[$printPaperSize])) {
            $paperSize = self::$paperSizes[$printPaperSize];
        }

        //  Create PDF
        $pdf = $this->createExternalWriterInstance();
        $pdf->setPaper(strtolower($paperSize), $orientation);

        $pdf->loadHtml(
            $this->generateHTMLHeader(false) .
            $this->generateSheetData() .
            $this->generateHTMLFooter()
        );
        $pdf->render();

        //  Write to file
        fwrite($fileHandle, $pdf->output());

        parent::restoreStateAfterSave($fileHandle);
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Pdf/Mpdf.php000064400000010074151165414060022122
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer\Pdf;

use PhpOffice\PhpSpreadsheet\Exception as PhpSpreadsheetException;
use PhpOffice\PhpSpreadsheet\Worksheet\PageSetup;
use PhpOffice\PhpSpreadsheet\Writer\Pdf;

class Mpdf extends Pdf
{
    /**
     * Gets the implementation of external PDF library that should be used.
     *
     * @param array $config Configuration array
     *
     * @return \Mpdf\Mpdf implementation
     */
    protected function createExternalWriterInstance($config)
    {
        return new \Mpdf\Mpdf($config);
    }

    /**
     * Save Spreadsheet to file.
     *
     * @param string $pFilename Name of the file to save as
     *
     * @throws \PhpOffice\PhpSpreadsheet\Writer\Exception
     * @throws PhpSpreadsheetException
     */
    public function save($pFilename)
    {
        $fileHandle = parent::prepareForSave($pFilename);

        //  Default PDF paper size
        $paperSize = 'LETTER'; //    Letter    (8.5 in. by 11
in.)

        //  Check for paper size and page orientation
        if (null === $this->getSheetIndex()) {
            $orientation =
($this->spreadsheet->getSheet(0)->getPageSetup()->getOrientation()
                == PageSetup::ORIENTATION_LANDSCAPE) ? 'L' :
'P';
            $printPaperSize =
$this->spreadsheet->getSheet(0)->getPageSetup()->getPaperSize();
        } else {
            $orientation =
($this->spreadsheet->getSheet($this->getSheetIndex())->getPageSetup()->getOrientation()
                == PageSetup::ORIENTATION_LANDSCAPE) ? 'L' :
'P';
            $printPaperSize =
$this->spreadsheet->getSheet($this->getSheetIndex())->getPageSetup()->getPaperSize();
        }
        $this->setOrientation($orientation);

        //  Override Page Orientation
        if (null !== $this->getOrientation()) {
            $orientation = ($this->getOrientation() ==
PageSetup::ORIENTATION_DEFAULT)
                ? PageSetup::ORIENTATION_PORTRAIT
                : $this->getOrientation();
        }
        $orientation = strtoupper($orientation);

        //  Override Paper Size
        if (null !== $this->getPaperSize()) {
            $printPaperSize = $this->getPaperSize();
        }

        if (isset(self::$paperSizes[$printPaperSize])) {
            $paperSize = self::$paperSizes[$printPaperSize];
        }

        //  Create PDF
        $config = ['tempDir' => $this->tempDir];
        $pdf = $this->createExternalWriterInstance($config);
        $ortmp = $orientation;
        $pdf->_setPageSize(strtoupper($paperSize), $ortmp);
        $pdf->DefOrientation = $orientation;
        $pdf->AddPageByArray([
            'orientation' => $orientation,
            'margin-left' =>
$this->inchesToMm($this->spreadsheet->getActiveSheet()->getPageMargins()->getLeft()),
            'margin-right' =>
$this->inchesToMm($this->spreadsheet->getActiveSheet()->getPageMargins()->getRight()),
            'margin-top' =>
$this->inchesToMm($this->spreadsheet->getActiveSheet()->getPageMargins()->getTop()),
            'margin-bottom' =>
$this->inchesToMm($this->spreadsheet->getActiveSheet()->getPageMargins()->getBottom()),
        ]);

        //  Document info
       
$pdf->SetTitle($this->spreadsheet->getProperties()->getTitle());
       
$pdf->SetAuthor($this->spreadsheet->getProperties()->getCreator());
       
$pdf->SetSubject($this->spreadsheet->getProperties()->getSubject());
       
$pdf->SetKeywords($this->spreadsheet->getProperties()->getKeywords());
       
$pdf->SetCreator($this->spreadsheet->getProperties()->getCreator());

        $pdf->WriteHTML($this->generateHTMLHeader(false));
        $html = $this->generateSheetData();
        foreach (\array_chunk(\explode(PHP_EOL, $html), 1000) as $lines) {
            $pdf->WriteHTML(\implode(PHP_EOL, $lines));
        }
        $pdf->WriteHTML($this->generateHTMLFooter());

        //  Write to file
        fwrite($fileHandle, $pdf->Output('', 'S'));

        parent::restoreStateAfterSave($fileHandle);
    }

    /**
     * Convert inches to mm.
     *
     * @param float $inches
     *
     * @return float
     */
    private function inchesToMm($inches)
    {
        return $inches * 25.4;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Pdf/Tcpdf.php000064400000007117151165414060022300
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer\Pdf;

use PhpOffice\PhpSpreadsheet\Worksheet\PageSetup;
use PhpOffice\PhpSpreadsheet\Writer\Pdf;

class Tcpdf extends Pdf
{
    /**
     * Gets the implementation of external PDF library that should be used.
     *
     * @param string $orientation Page orientation
     * @param string $unit Unit measure
     * @param string $paperSize Paper size
     *
     * @return \TCPDF implementation
     */
    protected function createExternalWriterInstance($orientation, $unit,
$paperSize)
    {
        return new \TCPDF($orientation, $unit, $paperSize);
    }

    /**
     * Save Spreadsheet to file.
     *
     * @param string $pFilename Name of the file to save as
     *
     * @throws \PhpOffice\PhpSpreadsheet\Writer\Exception
     */
    public function save($pFilename)
    {
        $fileHandle = parent::prepareForSave($pFilename);

        //  Default PDF paper size
        $paperSize = 'LETTER'; //    Letter    (8.5 in. by 11
in.)

        //  Check for paper size and page orientation
        if ($this->getSheetIndex() === null) {
            $orientation =
($this->spreadsheet->getSheet(0)->getPageSetup()->getOrientation()
                == PageSetup::ORIENTATION_LANDSCAPE) ? 'L' :
'P';
            $printPaperSize =
$this->spreadsheet->getSheet(0)->getPageSetup()->getPaperSize();
            $printMargins =
$this->spreadsheet->getSheet(0)->getPageMargins();
        } else {
            $orientation =
($this->spreadsheet->getSheet($this->getSheetIndex())->getPageSetup()->getOrientation()
                == PageSetup::ORIENTATION_LANDSCAPE) ? 'L' :
'P';
            $printPaperSize =
$this->spreadsheet->getSheet($this->getSheetIndex())->getPageSetup()->getPaperSize();
            $printMargins =
$this->spreadsheet->getSheet($this->getSheetIndex())->getPageMargins();
        }

        //  Override Page Orientation
        if ($this->getOrientation() !== null) {
            $orientation = ($this->getOrientation() ==
PageSetup::ORIENTATION_LANDSCAPE)
                ? 'L'
                : 'P';
        }
        //  Override Paper Size
        if ($this->getPaperSize() !== null) {
            $printPaperSize = $this->getPaperSize();
        }

        if (isset(self::$paperSizes[$printPaperSize])) {
            $paperSize = self::$paperSizes[$printPaperSize];
        }

        //  Create PDF
        $pdf = $this->createExternalWriterInstance($orientation,
'pt', $paperSize);
        $pdf->setFontSubsetting(false);
        //    Set margins, converting inches to points (using 72 dpi)
        $pdf->SetMargins($printMargins->getLeft() * 72,
$printMargins->getTop() * 72, $printMargins->getRight() * 72);
        $pdf->SetAutoPageBreak(true, $printMargins->getBottom() *
72);

        $pdf->setPrintHeader(false);
        $pdf->setPrintFooter(false);

        $pdf->AddPage();

        //  Set the appropriate font
        $pdf->SetFont($this->getFont());
        $pdf->writeHTML(
            $this->generateHTMLHeader(false) .
            $this->generateSheetData() .
            $this->generateHTMLFooter()
        );

        //  Document info
       
$pdf->SetTitle($this->spreadsheet->getProperties()->getTitle());
       
$pdf->SetAuthor($this->spreadsheet->getProperties()->getCreator());
       
$pdf->SetSubject($this->spreadsheet->getProperties()->getSubject());
       
$pdf->SetKeywords($this->spreadsheet->getProperties()->getKeywords());
       
$pdf->SetCreator($this->spreadsheet->getProperties()->getCreator());

        //  Write to file
        fwrite($fileHandle, $pdf->output($pFilename, 'S'));

        parent::restoreStateAfterSave($fileHandle);
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Pdf.php000064400000023502151165414060021234
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer;

use PhpOffice\PhpSpreadsheet\Calculation\Calculation;
use PhpOffice\PhpSpreadsheet\Shared\File;
use PhpOffice\PhpSpreadsheet\Spreadsheet;
use PhpOffice\PhpSpreadsheet\Worksheet\PageSetup;
use PhpOffice\PhpSpreadsheet\Writer\Exception as WriterException;

abstract class Pdf extends Html
{
    /**
     * Temporary storage directory.
     *
     * @var string
     */
    protected $tempDir = '';

    /**
     * Font.
     *
     * @var string
     */
    protected $font = 'freesans';

    /**
     * Orientation (Over-ride).
     *
     * @var string
     */
    protected $orientation;

    /**
     * Paper size (Over-ride).
     *
     * @var int
     */
    protected $paperSize;

    /**
     * Temporary storage for Save Array Return type.
     *
     * @var string
     */
    private $saveArrayReturnType;

    /**
     * Paper Sizes xRef List.
     *
     * @var array
     */
    protected static $paperSizes = [
        PageSetup::PAPERSIZE_LETTER => 'LETTER', //    (8.5
in. by 11 in.)
        PageSetup::PAPERSIZE_LETTER_SMALL => 'LETTER', //   
(8.5 in. by 11 in.)
        PageSetup::PAPERSIZE_TABLOID => [792.00, 1224.00], //    (11 in.
by 17 in.)
        PageSetup::PAPERSIZE_LEDGER => [1224.00, 792.00], //    (17 in.
by 11 in.)
        PageSetup::PAPERSIZE_LEGAL => 'LEGAL', //    (8.5 in.
by 14 in.)
        PageSetup::PAPERSIZE_STATEMENT => [396.00, 612.00], //    (5.5
in. by 8.5 in.)
        PageSetup::PAPERSIZE_EXECUTIVE => 'EXECUTIVE', //   
(7.25 in. by 10.5 in.)
        PageSetup::PAPERSIZE_A3 => 'A3', //    (297 mm by 420
mm)
        PageSetup::PAPERSIZE_A4 => 'A4', //    (210 mm by 297
mm)
        PageSetup::PAPERSIZE_A4_SMALL => 'A4', //    (210 mm
by 297 mm)
        PageSetup::PAPERSIZE_A5 => 'A5', //    (148 mm by 210
mm)
        PageSetup::PAPERSIZE_B4 => 'B4', //    (250 mm by 353
mm)
        PageSetup::PAPERSIZE_B5 => 'B5', //    (176 mm by 250
mm)
        PageSetup::PAPERSIZE_FOLIO => 'FOLIO', //    (8.5 in.
by 13 in.)
        PageSetup::PAPERSIZE_QUARTO => [609.45, 779.53], //    (215 mm
by 275 mm)
        PageSetup::PAPERSIZE_STANDARD_1 => [720.00, 1008.00], //    (10
in. by 14 in.)
        PageSetup::PAPERSIZE_STANDARD_2 => [792.00, 1224.00], //    (11
in. by 17 in.)
        PageSetup::PAPERSIZE_NOTE => 'LETTER', //    (8.5 in.
by 11 in.)
        PageSetup::PAPERSIZE_NO9_ENVELOPE => [279.00, 639.00], //   
(3.875 in. by 8.875 in.)
        PageSetup::PAPERSIZE_NO10_ENVELOPE => [297.00, 684.00], //   
(4.125 in. by 9.5 in.)
        PageSetup::PAPERSIZE_NO11_ENVELOPE => [324.00, 747.00], //   
(4.5 in. by 10.375 in.)
        PageSetup::PAPERSIZE_NO12_ENVELOPE => [342.00, 792.00], //   
(4.75 in. by 11 in.)
        PageSetup::PAPERSIZE_NO14_ENVELOPE => [360.00, 828.00], //    (5
in. by 11.5 in.)
        PageSetup::PAPERSIZE_C => [1224.00, 1584.00], //    (17 in. by
22 in.)
        PageSetup::PAPERSIZE_D => [1584.00, 2448.00], //    (22 in. by
34 in.)
        PageSetup::PAPERSIZE_E => [2448.00, 3168.00], //    (34 in. by
44 in.)
        PageSetup::PAPERSIZE_DL_ENVELOPE => [311.81, 623.62], //    (110
mm by 220 mm)
        PageSetup::PAPERSIZE_C5_ENVELOPE => 'C5', //    (162
mm by 229 mm)
        PageSetup::PAPERSIZE_C3_ENVELOPE => 'C3', //    (324
mm by 458 mm)
        PageSetup::PAPERSIZE_C4_ENVELOPE => 'C4', //    (229
mm by 324 mm)
        PageSetup::PAPERSIZE_C6_ENVELOPE => 'C6', //    (114
mm by 162 mm)
        PageSetup::PAPERSIZE_C65_ENVELOPE => [323.15, 649.13], //   
(114 mm by 229 mm)
        PageSetup::PAPERSIZE_B4_ENVELOPE => 'B4', //    (250
mm by 353 mm)
        PageSetup::PAPERSIZE_B5_ENVELOPE => 'B5', //    (176
mm by 250 mm)
        PageSetup::PAPERSIZE_B6_ENVELOPE => [498.90, 354.33], //    (176
mm by 125 mm)
        PageSetup::PAPERSIZE_ITALY_ENVELOPE => [311.81, 651.97], //   
(110 mm by 230 mm)
        PageSetup::PAPERSIZE_MONARCH_ENVELOPE => [279.00, 540.00], //   
(3.875 in. by 7.5 in.)
        PageSetup::PAPERSIZE_6_3_4_ENVELOPE => [261.00, 468.00], //   
(3.625 in. by 6.5 in.)
        PageSetup::PAPERSIZE_US_STANDARD_FANFOLD => [1071.00, 792.00],
//    (14.875 in. by 11 in.)
        PageSetup::PAPERSIZE_GERMAN_STANDARD_FANFOLD => [612.00,
864.00], //    (8.5 in. by 12 in.)
        PageSetup::PAPERSIZE_GERMAN_LEGAL_FANFOLD => 'FOLIO',
//    (8.5 in. by 13 in.)
        PageSetup::PAPERSIZE_ISO_B4 => 'B4', //    (250 mm by
353 mm)
        PageSetup::PAPERSIZE_JAPANESE_DOUBLE_POSTCARD => [566.93,
419.53], //    (200 mm by 148 mm)
        PageSetup::PAPERSIZE_STANDARD_PAPER_1 => [648.00, 792.00], //   
(9 in. by 11 in.)
        PageSetup::PAPERSIZE_STANDARD_PAPER_2 => [720.00, 792.00], //   
(10 in. by 11 in.)
        PageSetup::PAPERSIZE_STANDARD_PAPER_3 => [1080.00, 792.00], //  
 (15 in. by 11 in.)
        PageSetup::PAPERSIZE_INVITE_ENVELOPE => [623.62, 623.62], //   
(220 mm by 220 mm)
        PageSetup::PAPERSIZE_LETTER_EXTRA_PAPER => [667.80, 864.00], // 
  (9.275 in. by 12 in.)
        PageSetup::PAPERSIZE_LEGAL_EXTRA_PAPER => [667.80, 1080.00], // 
  (9.275 in. by 15 in.)
        PageSetup::PAPERSIZE_TABLOID_EXTRA_PAPER => [841.68, 1296.00],
//    (11.69 in. by 18 in.)
        PageSetup::PAPERSIZE_A4_EXTRA_PAPER => [668.98, 912.76], //   
(236 mm by 322 mm)
        PageSetup::PAPERSIZE_LETTER_TRANSVERSE_PAPER => [595.80,
792.00], //    (8.275 in. by 11 in.)
        PageSetup::PAPERSIZE_A4_TRANSVERSE_PAPER => 'A4', //  
 (210 mm by 297 mm)
        PageSetup::PAPERSIZE_LETTER_EXTRA_TRANSVERSE_PAPER => [667.80,
864.00], //    (9.275 in. by 12 in.)
        PageSetup::PAPERSIZE_SUPERA_SUPERA_A4_PAPER => [643.46,
1009.13], //    (227 mm by 356 mm)
        PageSetup::PAPERSIZE_SUPERB_SUPERB_A3_PAPER => [864.57,
1380.47], //    (305 mm by 487 mm)
        PageSetup::PAPERSIZE_LETTER_PLUS_PAPER => [612.00, 913.68], //  
 (8.5 in. by 12.69 in.)
        PageSetup::PAPERSIZE_A4_PLUS_PAPER => [595.28, 935.43], //   
(210 mm by 330 mm)
        PageSetup::PAPERSIZE_A5_TRANSVERSE_PAPER => 'A5', //  
 (148 mm by 210 mm)
        PageSetup::PAPERSIZE_JIS_B5_TRANSVERSE_PAPER => [515.91,
728.50], //    (182 mm by 257 mm)
        PageSetup::PAPERSIZE_A3_EXTRA_PAPER => [912.76, 1261.42], //   
(322 mm by 445 mm)
        PageSetup::PAPERSIZE_A5_EXTRA_PAPER => [493.23, 666.14], //   
(174 mm by 235 mm)
        PageSetup::PAPERSIZE_ISO_B5_EXTRA_PAPER => [569.76, 782.36], // 
  (201 mm by 276 mm)
        PageSetup::PAPERSIZE_A2_PAPER => 'A2', //    (420 mm
by 594 mm)
        PageSetup::PAPERSIZE_A3_TRANSVERSE_PAPER => 'A3', //  
 (297 mm by 420 mm)
        PageSetup::PAPERSIZE_A3_EXTRA_TRANSVERSE_PAPER => [912.76,
1261.42], //    (322 mm by 445 mm)
    ];

    /**
     * Create a new PDF Writer instance.
     *
     * @param Spreadsheet $spreadsheet Spreadsheet object
     */
    public function __construct(Spreadsheet $spreadsheet)
    {
        parent::__construct($spreadsheet);
        $this->setUseInlineCss(true);
        $this->tempDir = File::sysGetTempDir();
    }

    /**
     * Get Font.
     *
     * @return string
     */
    public function getFont()
    {
        return $this->font;
    }

    /**
     * Set font. Examples:
     *      'arialunicid0-chinese-simplified'
     *      'arialunicid0-chinese-traditional'
     *      'arialunicid0-korean'
     *      'arialunicid0-japanese'.
     *
     * @param string $fontName
     *
     * @return $this
     */
    public function setFont($fontName)
    {
        $this->font = $fontName;

        return $this;
    }

    /**
     * Get Paper Size.
     *
     * @return int
     */
    public function getPaperSize()
    {
        return $this->paperSize;
    }

    /**
     * Set Paper Size.
     *
     * @param string $pValue Paper size see PageSetup::PAPERSIZE_*
     *
     * @return self
     */
    public function setPaperSize($pValue)
    {
        $this->paperSize = $pValue;

        return $this;
    }

    /**
     * Get Orientation.
     *
     * @return string
     */
    public function getOrientation()
    {
        return $this->orientation;
    }

    /**
     * Set Orientation.
     *
     * @param string $pValue Page orientation see PageSetup::ORIENTATION_*
     *
     * @return self
     */
    public function setOrientation($pValue)
    {
        $this->orientation = $pValue;

        return $this;
    }

    /**
     * Get temporary storage directory.
     *
     * @return string
     */
    public function getTempDir()
    {
        return $this->tempDir;
    }

    /**
     * Set temporary storage directory.
     *
     * @param string $pValue Temporary storage directory
     *
     * @throws WriterException when directory does not exist
     *
     * @return self
     */
    public function setTempDir($pValue)
    {
        if (is_dir($pValue)) {
            $this->tempDir = $pValue;
        } else {
            throw new WriterException("Directory does not exist:
$pValue");
        }

        return $this;
    }

    /**
     * Save Spreadsheet to PDF file, pre-save.
     *
     * @param string $pFilename Name of the file to save as
     *
     * @throws WriterException
     *
     * @return resource
     */
    protected function prepareForSave($pFilename)
    {
        //  garbage collect
        $this->spreadsheet->garbageCollect();

        $this->saveArrayReturnType = Calculation::getArrayReturnType();
       
Calculation::setArrayReturnType(Calculation::RETURN_ARRAY_AS_VALUE);

        //  Open file
        $fileHandle = fopen($pFilename, 'w');
        if ($fileHandle === false) {
            throw new WriterException("Could not open file $pFilename
for writing.");
        }

        //  Set PDF
        $this->isPdf = true;
        //  Build CSS
        $this->buildCSS(true);

        return $fileHandle;
    }

    /**
     * Save PhpSpreadsheet to PDF file, post-save.
     *
     * @param resource $fileHandle
     */
    protected function restoreStateAfterSave($fileHandle)
    {
        //  Close file
        fclose($fileHandle);

        Calculation::setArrayReturnType($this->saveArrayReturnType);
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xls/BIFFwriter.php000064400000015624151165414060023242
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer\Xls;

use PhpOffice\PhpSpreadsheet\Writer\Exception as WriterException;

// Original file header of PEAR::Spreadsheet_Excel_Writer_BIFFwriter (used
as the base for this class):
//
-----------------------------------------------------------------------------------------
// *  Module written/ported by Xavier Noguer <xnoguer@rezebra.com>
// *
// *  The majority of this is _NOT_ my code.  I simply ported it from the
// *  PERL Spreadsheet::WriteExcel module.
// *
// *  The author of the Spreadsheet::WriteExcel module is John McNamara
// *  <jmcnamara@cpan.org>
// *
// *  I _DO_ maintain this code, and John McNamara has nothing to do with
the
// *  porting of this code to PHP.  Any questions directly related to this
// *  class library should be directed to me.
// *
// *  License Information:
// *
// *    Spreadsheet_Excel_Writer:  A library for generating Excel
Spreadsheets
// *    Copyright (c) 2002-2003 Xavier Noguer xnoguer@rezebra.com
// *
// *    This library is free software; you can redistribute it and/or
// *    modify it under the terms of the GNU Lesser General Public
// *    License as published by the Free Software Foundation; either
// *    version 2.1 of the License, or (at your option) any later version.
// *
// *    This library is distributed in the hope that it will be useful,
// *    but WITHOUT ANY WARRANTY; without even the implied warranty of
// *    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
// *    Lesser General Public License for more details.
// *
// *    You should have received a copy of the GNU Lesser General Public
// *    License along with this library; if not, write to the Free Software
// *    Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 
02111-1307  USA
// */
class BIFFwriter
{
    /**
     * The byte order of this architecture. 0 => little endian, 1 =>
big endian.
     *
     * @var int
     */
    private static $byteOrder;

    /**
     * The string containing the data of the BIFF stream.
     *
     * @var string
     */
    public $_data;

    /**
     * The size of the data in bytes. Should be the same as
strlen($this->_data).
     *
     * @var int
     */
    public $_datasize;

    /**
     * The maximum length for a BIFF record (excluding record header and
length field). See addContinue().
     *
     * @var int
     *
     * @see addContinue()
     */
    private $limit = 8224;

    /**
     * Constructor.
     */
    public function __construct()
    {
        $this->_data = '';
        $this->_datasize = 0;
    }

    /**
     * Determine the byte order and store it as class data to avoid
     * recalculating it for each call to new().
     *
     * @return int
     */
    public static function getByteOrder()
    {
        if (!isset(self::$byteOrder)) {
            // Check if "pack" gives the required IEEE 64bit
float
            $teststr = pack('d', 1.2345);
            $number = pack('C8', 0x8D, 0x97, 0x6E, 0x12, 0x83,
0xC0, 0xF3, 0x3F);
            if ($number == $teststr) {
                $byte_order = 0; // Little Endian
            } elseif ($number == strrev($teststr)) {
                $byte_order = 1; // Big Endian
            } else {
                // Give up. I'll fix this in a later version.
                throw new WriterException('Required floating point
format not supported on this platform.');
            }
            self::$byteOrder = $byte_order;
        }

        return self::$byteOrder;
    }

    /**
     * General storage function.
     *
     * @param string $data binary data to append
     */
    protected function append($data)
    {
        if (strlen($data) - 4 > $this->limit) {
            $data = $this->addContinue($data);
        }
        $this->_data .= $data;
        $this->_datasize += strlen($data);
    }

    /**
     * General storage function like append, but returns string instead of
modifying $this->_data.
     *
     * @param string $data binary data to write
     *
     * @return string
     */
    public function writeData($data)
    {
        if (strlen($data) - 4 > $this->limit) {
            $data = $this->addContinue($data);
        }
        $this->_datasize += strlen($data);

        return $data;
    }

    /**
     * Writes Excel BOF record to indicate the beginning of a stream or
     * sub-stream in the BIFF file.
     *
     * @param int $type type of BIFF file to write: 0x0005 Workbook,
     *                       0x0010 Worksheet
     */
    protected function storeBof($type)
    {
        $record = 0x0809; // Record identifier    (BIFF5-BIFF8)
        $length = 0x0010;

        // by inspection of real files, MS Office Excel 2007 writes the
following
        $unknown = pack('VV', 0x000100D1, 0x00000406);

        $build = 0x0DBB; //    Excel 97
        $year = 0x07CC; //    Excel 97

        $version = 0x0600; //    BIFF8

        $header = pack('vv', $record, $length);
        $data = pack('vvvv', $version, $type, $build, $year);
        $this->append($header . $data . $unknown);
    }

    /**
     * Writes Excel EOF record to indicate the end of a BIFF stream.
     */
    protected function storeEof()
    {
        $record = 0x000A; // Record identifier
        $length = 0x0000; // Number of bytes to follow

        $header = pack('vv', $record, $length);
        $this->append($header);
    }

    /**
     * Writes Excel EOF record to indicate the end of a BIFF stream.
     */
    public function writeEof()
    {
        $record = 0x000A; // Record identifier
        $length = 0x0000; // Number of bytes to follow
        $header = pack('vv', $record, $length);

        return $this->writeData($header);
    }

    /**
     * Excel limits the size of BIFF records. In Excel 5 the limit is 2084
bytes. In
     * Excel 97 the limit is 8228 bytes. Records that are longer than these
limits
     * must be split up into CONTINUE blocks.
     *
     * This function takes a long BIFF record and inserts CONTINUE records
as
     * necessary.
     *
     * @param string $data The original binary data to be written
     *
     * @return string A very convenient string of continue blocks
     */
    private function addContinue($data)
    {
        $limit = $this->limit;
        $record = 0x003C; // Record identifier

        // The first 2080/8224 bytes remain intact. However, we have to
change
        // the length field of the record.
        $tmp = substr($data, 0, 2) . pack('v', $limit) .
substr($data, 4, $limit);

        $header = pack('vv', $record, $limit); // Headers for
continue records

        // Retrieve chunks of 2080/8224 bytes +4 for the header.
        $data_length = strlen($data);
        for ($i = $limit + 4; $i < ($data_length - $limit); $i +=
$limit) {
            $tmp .= $header;
            $tmp .= substr($data, $i, $limit);
        }

        // Retrieve the last chunk of data
        $header = pack('vv', $record, strlen($data) - $i);
        $tmp .= $header;
        $tmp .= substr($data, $i);

        return $tmp;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xls/Escher.php000064400000041024151165414060022501
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer\Xls;

use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\Shared\Escher\DgContainer;
use PhpOffice\PhpSpreadsheet\Shared\Escher\DgContainer\SpgrContainer;
use
PhpOffice\PhpSpreadsheet\Shared\Escher\DgContainer\SpgrContainer\SpContainer;
use PhpOffice\PhpSpreadsheet\Shared\Escher\DggContainer;
use PhpOffice\PhpSpreadsheet\Shared\Escher\DggContainer\BstoreContainer;
use
PhpOffice\PhpSpreadsheet\Shared\Escher\DggContainer\BstoreContainer\BSE;
use
PhpOffice\PhpSpreadsheet\Shared\Escher\DggContainer\BstoreContainer\BSE\Blip;

class Escher
{
    /**
     * The object we are writing.
     */
    private $object;

    /**
     * The written binary data.
     */
    private $data;

    /**
     * Shape offsets. Positions in binary stream where a new shape record
begins.
     *
     * @var array
     */
    private $spOffsets;

    /**
     * Shape types.
     *
     * @var array
     */
    private $spTypes;

    /**
     * Constructor.
     *
     * @param mixed $object
     */
    public function __construct($object)
    {
        $this->object = $object;
    }

    /**
     * Process the object to be written.
     *
     * @return string
     */
    public function close()
    {
        // initialize
        $this->data = '';

        switch (get_class($this->object)) {
            case \PhpOffice\PhpSpreadsheet\Shared\Escher::class:
                if ($dggContainer = $this->object->getDggContainer())
{
                    $writer = new self($dggContainer);
                    $this->data = $writer->close();
                } elseif ($dgContainer =
$this->object->getDgContainer()) {
                    $writer = new self($dgContainer);
                    $this->data = $writer->close();
                    $this->spOffsets = $writer->getSpOffsets();
                    $this->spTypes = $writer->getSpTypes();
                }

                break;
            case DggContainer::class:
                // this is a container record

                // initialize
                $innerData = '';

                // write the dgg
                $recVer = 0x0;
                $recInstance = 0x0000;
                $recType = 0xF006;

                $recVerInstance = $recVer;
                $recVerInstance |= $recInstance << 4;

                // dgg data
                $dggData =
                    pack(
                        'VVVV',
                        $this->object->getSpIdMax(), // maximum shape
identifier increased by one
                        $this->object->getCDgSaved() + 1, // number
of file identifier clusters increased by one
                        $this->object->getCSpSaved(),
                        $this->object->getCDgSaved() // count total
number of drawings saved
                    );

                // add file identifier clusters (one per drawing)
                $IDCLs = $this->object->getIDCLs();

                foreach ($IDCLs as $dgId => $maxReducedSpId) {
                    $dggData .= pack('VV', $dgId, $maxReducedSpId
+ 1);
                }

                $header = pack('vvV', $recVerInstance, $recType,
strlen($dggData));
                $innerData .= $header . $dggData;

                // write the bstoreContainer
                if ($bstoreContainer =
$this->object->getBstoreContainer()) {
                    $writer = new self($bstoreContainer);
                    $innerData .= $writer->close();
                }

                // write the record
                $recVer = 0xF;
                $recInstance = 0x0000;
                $recType = 0xF000;
                $length = strlen($innerData);

                $recVerInstance = $recVer;
                $recVerInstance |= $recInstance << 4;

                $header = pack('vvV', $recVerInstance, $recType,
$length);

                $this->data = $header . $innerData;

                break;
            case BstoreContainer::class:
                // this is a container record

                // initialize
                $innerData = '';

                // treat the inner data
                if ($BSECollection =
$this->object->getBSECollection()) {
                    foreach ($BSECollection as $BSE) {
                        $writer = new self($BSE);
                        $innerData .= $writer->close();
                    }
                }

                // write the record
                $recVer = 0xF;
                $recInstance =
count($this->object->getBSECollection());
                $recType = 0xF001;
                $length = strlen($innerData);

                $recVerInstance = $recVer;
                $recVerInstance |= $recInstance << 4;

                $header = pack('vvV', $recVerInstance, $recType,
$length);

                $this->data = $header . $innerData;

                break;
            case BSE::class:
                // this is a semi-container record

                // initialize
                $innerData = '';

                // here we treat the inner data
                if ($blip = $this->object->getBlip()) {
                    $writer = new self($blip);
                    $innerData .= $writer->close();
                }

                // initialize
                $data = '';

                $btWin32 = $this->object->getBlipType();
                $btMacOS = $this->object->getBlipType();
                $data .= pack('CC', $btWin32, $btMacOS);

                $rgbUid = pack('VVVV', 0, 0, 0, 0); // todo
                $data .= $rgbUid;

                $tag = 0;
                $size = strlen($innerData);
                $cRef = 1;
                $foDelay = 0; //todo
                $unused1 = 0x0;
                $cbName = 0x0;
                $unused2 = 0x0;
                $unused3 = 0x0;
                $data .= pack('vVVVCCCC', $tag, $size, $cRef,
$foDelay, $unused1, $cbName, $unused2, $unused3);

                $data .= $innerData;

                // write the record
                $recVer = 0x2;
                $recInstance = $this->object->getBlipType();
                $recType = 0xF007;
                $length = strlen($data);

                $recVerInstance = $recVer;
                $recVerInstance |= $recInstance << 4;

                $header = pack('vvV', $recVerInstance, $recType,
$length);

                $this->data = $header;

                $this->data .= $data;

                break;
            case Blip::class:
                // this is an atom record

                // write the record
                switch ($this->object->getParent()->getBlipType())
{
                    case BSE::BLIPTYPE_JPEG:
                        // initialize
                        $innerData = '';

                        $rgbUid1 = pack('VVVV', 0, 0, 0, 0); //
todo
                        $innerData .= $rgbUid1;

                        $tag = 0xFF; // todo
                        $innerData .= pack('C', $tag);

                        $innerData .= $this->object->getData();

                        $recVer = 0x0;
                        $recInstance = 0x46A;
                        $recType = 0xF01D;
                        $length = strlen($innerData);

                        $recVerInstance = $recVer;
                        $recVerInstance |= $recInstance << 4;

                        $header = pack('vvV', $recVerInstance,
$recType, $length);

                        $this->data = $header;

                        $this->data .= $innerData;

                        break;
                    case BSE::BLIPTYPE_PNG:
                        // initialize
                        $innerData = '';

                        $rgbUid1 = pack('VVVV', 0, 0, 0, 0); //
todo
                        $innerData .= $rgbUid1;

                        $tag = 0xFF; // todo
                        $innerData .= pack('C', $tag);

                        $innerData .= $this->object->getData();

                        $recVer = 0x0;
                        $recInstance = 0x6E0;
                        $recType = 0xF01E;
                        $length = strlen($innerData);

                        $recVerInstance = $recVer;
                        $recVerInstance |= $recInstance << 4;

                        $header = pack('vvV', $recVerInstance,
$recType, $length);

                        $this->data = $header;

                        $this->data .= $innerData;

                        break;
                }

                break;
            case DgContainer::class:
                // this is a container record

                // initialize
                $innerData = '';

                // write the dg
                $recVer = 0x0;
                $recInstance = $this->object->getDgId();
                $recType = 0xF008;
                $length = 8;

                $recVerInstance = $recVer;
                $recVerInstance |= $recInstance << 4;

                $header = pack('vvV', $recVerInstance, $recType,
$length);

                // number of shapes in this drawing (including group shape)
                $countShapes =
count($this->object->getSpgrContainer()->getChildren());
                $innerData .= $header . pack('VV', $countShapes,
$this->object->getLastSpId());

                // write the spgrContainer
                if ($spgrContainer =
$this->object->getSpgrContainer()) {
                    $writer = new self($spgrContainer);
                    $innerData .= $writer->close();

                    // get the shape offsets relative to the spgrContainer
record
                    $spOffsets = $writer->getSpOffsets();
                    $spTypes = $writer->getSpTypes();

                    // save the shape offsets relative to dgContainer
                    foreach ($spOffsets as &$spOffset) {
                        $spOffset += 24; // add length of dgContainer
header data (8 bytes) plus dg data (16 bytes)
                    }

                    $this->spOffsets = $spOffsets;
                    $this->spTypes = $spTypes;
                }

                // write the record
                $recVer = 0xF;
                $recInstance = 0x0000;
                $recType = 0xF002;
                $length = strlen($innerData);

                $recVerInstance = $recVer;
                $recVerInstance |= $recInstance << 4;

                $header = pack('vvV', $recVerInstance, $recType,
$length);

                $this->data = $header . $innerData;

                break;
            case SpgrContainer::class:
                // this is a container record

                // initialize
                $innerData = '';

                // initialize spape offsets
                $totalSize = 8;
                $spOffsets = [];
                $spTypes = [];

                // treat the inner data
                foreach ($this->object->getChildren() as
$spContainer) {
                    $writer = new self($spContainer);
                    $spData = $writer->close();
                    $innerData .= $spData;

                    // save the shape offsets (where new shape records
begin)
                    $totalSize += strlen($spData);
                    $spOffsets[] = $totalSize;

                    $spTypes = array_merge($spTypes,
$writer->getSpTypes());
                }

                // write the record
                $recVer = 0xF;
                $recInstance = 0x0000;
                $recType = 0xF003;
                $length = strlen($innerData);

                $recVerInstance = $recVer;
                $recVerInstance |= $recInstance << 4;

                $header = pack('vvV', $recVerInstance, $recType,
$length);

                $this->data = $header . $innerData;
                $this->spOffsets = $spOffsets;
                $this->spTypes = $spTypes;

                break;
            case SpContainer::class:
                // initialize
                $data = '';

                // build the data

                // write group shape record, if necessary?
                if ($this->object->getSpgr()) {
                    $recVer = 0x1;
                    $recInstance = 0x0000;
                    $recType = 0xF009;
                    $length = 0x00000010;

                    $recVerInstance = $recVer;
                    $recVerInstance |= $recInstance << 4;

                    $header = pack('vvV', $recVerInstance,
$recType, $length);

                    $data .= $header . pack('VVVV', 0, 0, 0, 0);
                }
                $this->spTypes[] = ($this->object->getSpType());

                // write the shape record
                $recVer = 0x2;
                $recInstance = $this->object->getSpType(); // shape
type
                $recType = 0xF00A;
                $length = 0x00000008;

                $recVerInstance = $recVer;
                $recVerInstance |= $recInstance << 4;

                $header = pack('vvV', $recVerInstance, $recType,
$length);

                $data .= $header . pack('VV',
$this->object->getSpId(), $this->object->getSpgr() ? 0x0005 :
0x0A00);

                // the options
                if ($this->object->getOPTCollection()) {
                    $optData = '';

                    $recVer = 0x3;
                    $recInstance =
count($this->object->getOPTCollection());
                    $recType = 0xF00B;
                    foreach ($this->object->getOPTCollection() as
$property => $value) {
                        $optData .= pack('vV', $property,
$value);
                    }
                    $length = strlen($optData);

                    $recVerInstance = $recVer;
                    $recVerInstance |= $recInstance << 4;

                    $header = pack('vvV', $recVerInstance,
$recType, $length);
                    $data .= $header . $optData;
                }

                // the client anchor
                if ($this->object->getStartCoordinates()) {
                    $clientAnchorData = '';

                    $recVer = 0x0;
                    $recInstance = 0x0;
                    $recType = 0xF010;

                    // start coordinates
                    [$column, $row] =
Coordinate::coordinateFromString($this->object->getStartCoordinates());
                    $c1 = Coordinate::columnIndexFromString($column) - 1;
                    $r1 = $row - 1;

                    // start offsetX
                    $startOffsetX = $this->object->getStartOffsetX();

                    // start offsetY
                    $startOffsetY = $this->object->getStartOffsetY();

                    // end coordinates
                    [$column, $row] =
Coordinate::coordinateFromString($this->object->getEndCoordinates());
                    $c2 = Coordinate::columnIndexFromString($column) - 1;
                    $r2 = $row - 1;

                    // end offsetX
                    $endOffsetX = $this->object->getEndOffsetX();

                    // end offsetY
                    $endOffsetY = $this->object->getEndOffsetY();

                    $clientAnchorData = pack('vvvvvvvvv',
$this->object->getSpFlag(), $c1, $startOffsetX, $r1, $startOffsetY,
$c2, $endOffsetX, $r2, $endOffsetY);

                    $length = strlen($clientAnchorData);

                    $recVerInstance = $recVer;
                    $recVerInstance |= $recInstance << 4;

                    $header = pack('vvV', $recVerInstance,
$recType, $length);
                    $data .= $header . $clientAnchorData;
                }

                // the client data, just empty for now
                if (!$this->object->getSpgr()) {
                    $clientDataData = '';

                    $recVer = 0x0;
                    $recInstance = 0x0;
                    $recType = 0xF011;

                    $length = strlen($clientDataData);

                    $recVerInstance = $recVer;
                    $recVerInstance |= $recInstance << 4;

                    $header = pack('vvV', $recVerInstance,
$recType, $length);
                    $data .= $header . $clientDataData;
                }

                // write the record
                $recVer = 0xF;
                $recInstance = 0x0000;
                $recType = 0xF004;
                $length = strlen($data);

                $recVerInstance = $recVer;
                $recVerInstance |= $recInstance << 4;

                $header = pack('vvV', $recVerInstance, $recType,
$length);

                $this->data = $header . $data;

                break;
        }

        return $this->data;
    }

    /**
     * Gets the shape offsets.
     *
     * @return array
     */
    public function getSpOffsets()
    {
        return $this->spOffsets;
    }

    /**
     * Gets the shape types.
     *
     * @return array
     */
    public function getSpTypes()
    {
        return $this->spTypes;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xls/Font.php000064400000006724151165414060022206
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer\Xls;

use PhpOffice\PhpSpreadsheet\Shared\StringHelper;

class Font
{
    /**
     * Color index.
     *
     * @var int
     */
    private $colorIndex;

    /**
     * Font.
     *
     * @var \PhpOffice\PhpSpreadsheet\Style\Font
     */
    private $font;

    /**
     * Constructor.
     *
     * @param \PhpOffice\PhpSpreadsheet\Style\Font $font
     */
    public function __construct(\PhpOffice\PhpSpreadsheet\Style\Font $font)
    {
        $this->colorIndex = 0x7FFF;
        $this->font = $font;
    }

    /**
     * Set the color index.
     *
     * @param int $colorIndex
     */
    public function setColorIndex($colorIndex)
    {
        $this->colorIndex = $colorIndex;
    }

    /**
     * Get font record data.
     *
     * @return string
     */
    public function writeFont()
    {
        $font_outline = 0;
        $font_shadow = 0;

        $icv = $this->colorIndex; // Index to color palette
        if ($this->font->getSuperscript()) {
            $sss = 1;
        } elseif ($this->font->getSubscript()) {
            $sss = 2;
        } else {
            $sss = 0;
        }
        $bFamily = 0; // Font family
        $bCharSet =
\PhpOffice\PhpSpreadsheet\Shared\Font::getCharsetFromFontName($this->font->getName());
// Character set

        $record = 0x31; // Record identifier
        $reserved = 0x00; // Reserved
        $grbit = 0x00; // Font attributes
        if ($this->font->getItalic()) {
            $grbit |= 0x02;
        }
        if ($this->font->getStrikethrough()) {
            $grbit |= 0x08;
        }
        if ($font_outline) {
            $grbit |= 0x10;
        }
        if ($font_shadow) {
            $grbit |= 0x20;
        }

        $data = pack(
            'vvvvvCCCC',
            // Fontsize (in twips)
            $this->font->getSize() * 20,
            $grbit,
            // Colour
            $icv,
            // Font weight
            self::mapBold($this->font->getBold()),
            // Superscript/Subscript
            $sss,
            self::mapUnderline($this->font->getUnderline()),
            $bFamily,
            $bCharSet,
            $reserved
        );
        $data .=
StringHelper::UTF8toBIFF8UnicodeShort($this->font->getName());

        $length = strlen($data);
        $header = pack('vv', $record, $length);

        return $header . $data;
    }

    /**
     * Map to BIFF5-BIFF8 codes for bold.
     *
     * @param bool $bold
     *
     * @return int
     */
    private static function mapBold($bold)
    {
        if ($bold) {
            return 0x2BC; //  700 = Bold font weight
        }

        return 0x190; //  400 = Normal font weight
    }

    /**
     * Map of BIFF2-BIFF8 codes for underline styles.
     *
     * @var array of int
     */
    private static $mapUnderline = [
        \PhpOffice\PhpSpreadsheet\Style\Font::UNDERLINE_NONE => 0x00,
        \PhpOffice\PhpSpreadsheet\Style\Font::UNDERLINE_SINGLE => 0x01,
        \PhpOffice\PhpSpreadsheet\Style\Font::UNDERLINE_DOUBLE => 0x02,
        \PhpOffice\PhpSpreadsheet\Style\Font::UNDERLINE_SINGLEACCOUNTING
=> 0x21,
        \PhpOffice\PhpSpreadsheet\Style\Font::UNDERLINE_DOUBLEACCOUNTING
=> 0x22,
    ];

    /**
     * Map underline.
     *
     * @param string $underline
     *
     * @return int
     */
    private static function mapUnderline($underline)
    {
        if (isset(self::$mapUnderline[$underline])) {
            return self::$mapUnderline[$underline];
        }

        return 0x00;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xls/Parser.php000064400000146516151165414060022540
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer\Xls;

use PhpOffice\PhpSpreadsheet\Shared\StringHelper;
use PhpOffice\PhpSpreadsheet\Worksheet\Worksheet as
PhpspreadsheetWorksheet;
use PhpOffice\PhpSpreadsheet\Writer\Exception as WriterException;

// Original file header of PEAR::Spreadsheet_Excel_Writer_Parser (used as
the base for this class):
//
-----------------------------------------------------------------------------------------
// *  Class for parsing Excel formulas
// *
// *  License Information:
// *
// *    Spreadsheet_Excel_Writer:  A library for generating Excel
Spreadsheets
// *    Copyright (c) 2002-2003 Xavier Noguer xnoguer@rezebra.com
// *
// *    This library is free software; you can redistribute it and/or
// *    modify it under the terms of the GNU Lesser General Public
// *    License as published by the Free Software Foundation; either
// *    version 2.1 of the License, or (at your option) any later version.
// *
// *    This library is distributed in the hope that it will be useful,
// *    but WITHOUT ANY WARRANTY; without even the implied warranty of
// *    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
// *    Lesser General Public License for more details.
// *
// *    You should have received a copy of the GNU Lesser General Public
// *    License along with this library; if not, write to the Free Software
// *    Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 
02111-1307  USA
// */
class Parser
{
    /**    Constants                */
    // Sheet title in unquoted form
    // Invalid sheet title characters cannot occur in the sheet title:
    //         *:/\?[]
    // Moreover, there are valid sheet title characters that cannot occur
in unquoted form (there may be more?)
    // +-% '^&<>=,;#()"{}
    const REGEX_SHEET_TITLE_UNQUOTED = '[^\*\:\/\\\\\?\[\]\+\-\%
\\\'\^\&\<\>\=\,\;\#\(\)\"\{\}]+';

    // Sheet title in quoted form (without surrounding quotes)
    // Invalid sheet title characters cannot occur in the sheet title:
    // *:/\?[]                    (usual invalid sheet title characters)
    // Single quote is represented as a pair ''
    const REGEX_SHEET_TITLE_QUOTED =
'(([^\*\:\/\\\\\?\[\]\\\'])+|(\\\'\\\')+)+';

    /**
     * The index of the character we are currently looking at.
     *
     * @var int
     */
    public $currentCharacter;

    /**
     * The token we are working on.
     *
     * @var string
     */
    public $currentToken;

    /**
     * The formula to parse.
     *
     * @var string
     */
    private $formula;

    /**
     * The character ahead of the current char.
     *
     * @var string
     */
    public $lookAhead;

    /**
     * The parse tree to be generated.
     *
     * @var string
     */
    private $parseTree;

    /**
     * Array of external sheets.
     *
     * @var array
     */
    private $externalSheets;

    /**
     * Array of sheet references in the form of REF structures.
     *
     * @var array
     */
    public $references;

    /**
     * The Excel ptg indices.
     *
     * @var array
     */
    private $ptg = [
        'ptgExp' => 0x01,
        'ptgTbl' => 0x02,
        'ptgAdd' => 0x03,
        'ptgSub' => 0x04,
        'ptgMul' => 0x05,
        'ptgDiv' => 0x06,
        'ptgPower' => 0x07,
        'ptgConcat' => 0x08,
        'ptgLT' => 0x09,
        'ptgLE' => 0x0A,
        'ptgEQ' => 0x0B,
        'ptgGE' => 0x0C,
        'ptgGT' => 0x0D,
        'ptgNE' => 0x0E,
        'ptgIsect' => 0x0F,
        'ptgUnion' => 0x10,
        'ptgRange' => 0x11,
        'ptgUplus' => 0x12,
        'ptgUminus' => 0x13,
        'ptgPercent' => 0x14,
        'ptgParen' => 0x15,
        'ptgMissArg' => 0x16,
        'ptgStr' => 0x17,
        'ptgAttr' => 0x19,
        'ptgSheet' => 0x1A,
        'ptgEndSheet' => 0x1B,
        'ptgErr' => 0x1C,
        'ptgBool' => 0x1D,
        'ptgInt' => 0x1E,
        'ptgNum' => 0x1F,
        'ptgArray' => 0x20,
        'ptgFunc' => 0x21,
        'ptgFuncVar' => 0x22,
        'ptgName' => 0x23,
        'ptgRef' => 0x24,
        'ptgArea' => 0x25,
        'ptgMemArea' => 0x26,
        'ptgMemErr' => 0x27,
        'ptgMemNoMem' => 0x28,
        'ptgMemFunc' => 0x29,
        'ptgRefErr' => 0x2A,
        'ptgAreaErr' => 0x2B,
        'ptgRefN' => 0x2C,
        'ptgAreaN' => 0x2D,
        'ptgMemAreaN' => 0x2E,
        'ptgMemNoMemN' => 0x2F,
        'ptgNameX' => 0x39,
        'ptgRef3d' => 0x3A,
        'ptgArea3d' => 0x3B,
        'ptgRefErr3d' => 0x3C,
        'ptgAreaErr3d' => 0x3D,
        'ptgArrayV' => 0x40,
        'ptgFuncV' => 0x41,
        'ptgFuncVarV' => 0x42,
        'ptgNameV' => 0x43,
        'ptgRefV' => 0x44,
        'ptgAreaV' => 0x45,
        'ptgMemAreaV' => 0x46,
        'ptgMemErrV' => 0x47,
        'ptgMemNoMemV' => 0x48,
        'ptgMemFuncV' => 0x49,
        'ptgRefErrV' => 0x4A,
        'ptgAreaErrV' => 0x4B,
        'ptgRefNV' => 0x4C,
        'ptgAreaNV' => 0x4D,
        'ptgMemAreaNV' => 0x4E,
        'ptgMemNoMemNV' => 0x4F,
        'ptgFuncCEV' => 0x58,
        'ptgNameXV' => 0x59,
        'ptgRef3dV' => 0x5A,
        'ptgArea3dV' => 0x5B,
        'ptgRefErr3dV' => 0x5C,
        'ptgAreaErr3dV' => 0x5D,
        'ptgArrayA' => 0x60,
        'ptgFuncA' => 0x61,
        'ptgFuncVarA' => 0x62,
        'ptgNameA' => 0x63,
        'ptgRefA' => 0x64,
        'ptgAreaA' => 0x65,
        'ptgMemAreaA' => 0x66,
        'ptgMemErrA' => 0x67,
        'ptgMemNoMemA' => 0x68,
        'ptgMemFuncA' => 0x69,
        'ptgRefErrA' => 0x6A,
        'ptgAreaErrA' => 0x6B,
        'ptgRefNA' => 0x6C,
        'ptgAreaNA' => 0x6D,
        'ptgMemAreaNA' => 0x6E,
        'ptgMemNoMemNA' => 0x6F,
        'ptgFuncCEA' => 0x78,
        'ptgNameXA' => 0x79,
        'ptgRef3dA' => 0x7A,
        'ptgArea3dA' => 0x7B,
        'ptgRefErr3dA' => 0x7C,
        'ptgAreaErr3dA' => 0x7D,
    ];

    /**
     * Thanks to Michael Meeks and Gnumeric for the initial arg values.
     *
     * The following hash was generated by "function_locale.pl"
in the distro.
     * Refer to function_locale.pl for non-English function names.
     *
     * The array elements are as follow:
     * ptg:   The Excel function ptg code.
     * args:  The number of arguments that the function takes:
     *           >=0 is a fixed number of arguments.
     *           -1  is a variable  number of arguments.
     * class: The reference, value or array class of the function args.
     * vol:   The function is volatile.
     *
     * @var array
     */
    private $functions = [
        // function                  ptg  args  class  vol
        'COUNT' => [0, -1, 0, 0],
        'IF' => [1, -1, 1, 0],
        'ISNA' => [2, 1, 1, 0],
        'ISERROR' => [3, 1, 1, 0],
        'SUM' => [4, -1, 0, 0],
        'AVERAGE' => [5, -1, 0, 0],
        'MIN' => [6, -1, 0, 0],
        'MAX' => [7, -1, 0, 0],
        'ROW' => [8, -1, 0, 0],
        'COLUMN' => [9, -1, 0, 0],
        'NA' => [10, 0, 0, 0],
        'NPV' => [11, -1, 1, 0],
        'STDEV' => [12, -1, 0, 0],
        'DOLLAR' => [13, -1, 1, 0],
        'FIXED' => [14, -1, 1, 0],
        'SIN' => [15, 1, 1, 0],
        'COS' => [16, 1, 1, 0],
        'TAN' => [17, 1, 1, 0],
        'ATAN' => [18, 1, 1, 0],
        'PI' => [19, 0, 1, 0],
        'SQRT' => [20, 1, 1, 0],
        'EXP' => [21, 1, 1, 0],
        'LN' => [22, 1, 1, 0],
        'LOG10' => [23, 1, 1, 0],
        'ABS' => [24, 1, 1, 0],
        'INT' => [25, 1, 1, 0],
        'SIGN' => [26, 1, 1, 0],
        'ROUND' => [27, 2, 1, 0],
        'LOOKUP' => [28, -1, 0, 0],
        'INDEX' => [29, -1, 0, 1],
        'REPT' => [30, 2, 1, 0],
        'MID' => [31, 3, 1, 0],
        'LEN' => [32, 1, 1, 0],
        'VALUE' => [33, 1, 1, 0],
        'TRUE' => [34, 0, 1, 0],
        'FALSE' => [35, 0, 1, 0],
        'AND' => [36, -1, 0, 0],
        'OR' => [37, -1, 0, 0],
        'NOT' => [38, 1, 1, 0],
        'MOD' => [39, 2, 1, 0],
        'DCOUNT' => [40, 3, 0, 0],
        'DSUM' => [41, 3, 0, 0],
        'DAVERAGE' => [42, 3, 0, 0],
        'DMIN' => [43, 3, 0, 0],
        'DMAX' => [44, 3, 0, 0],
        'DSTDEV' => [45, 3, 0, 0],
        'VAR' => [46, -1, 0, 0],
        'DVAR' => [47, 3, 0, 0],
        'TEXT' => [48, 2, 1, 0],
        'LINEST' => [49, -1, 0, 0],
        'TREND' => [50, -1, 0, 0],
        'LOGEST' => [51, -1, 0, 0],
        'GROWTH' => [52, -1, 0, 0],
        'PV' => [56, -1, 1, 0],
        'FV' => [57, -1, 1, 0],
        'NPER' => [58, -1, 1, 0],
        'PMT' => [59, -1, 1, 0],
        'RATE' => [60, -1, 1, 0],
        'MIRR' => [61, 3, 0, 0],
        'IRR' => [62, -1, 0, 0],
        'RAND' => [63, 0, 1, 1],
        'MATCH' => [64, -1, 0, 0],
        'DATE' => [65, 3, 1, 0],
        'TIME' => [66, 3, 1, 0],
        'DAY' => [67, 1, 1, 0],
        'MONTH' => [68, 1, 1, 0],
        'YEAR' => [69, 1, 1, 0],
        'WEEKDAY' => [70, -1, 1, 0],
        'HOUR' => [71, 1, 1, 0],
        'MINUTE' => [72, 1, 1, 0],
        'SECOND' => [73, 1, 1, 0],
        'NOW' => [74, 0, 1, 1],
        'AREAS' => [75, 1, 0, 1],
        'ROWS' => [76, 1, 0, 1],
        'COLUMNS' => [77, 1, 0, 1],
        'OFFSET' => [78, -1, 0, 1],
        'SEARCH' => [82, -1, 1, 0],
        'TRANSPOSE' => [83, 1, 1, 0],
        'TYPE' => [86, 1, 1, 0],
        'ATAN2' => [97, 2, 1, 0],
        'ASIN' => [98, 1, 1, 0],
        'ACOS' => [99, 1, 1, 0],
        'CHOOSE' => [100, -1, 1, 0],
        'HLOOKUP' => [101, -1, 0, 0],
        'VLOOKUP' => [102, -1, 0, 0],
        'ISREF' => [105, 1, 0, 0],
        'LOG' => [109, -1, 1, 0],
        'CHAR' => [111, 1, 1, 0],
        'LOWER' => [112, 1, 1, 0],
        'UPPER' => [113, 1, 1, 0],
        'PROPER' => [114, 1, 1, 0],
        'LEFT' => [115, -1, 1, 0],
        'RIGHT' => [116, -1, 1, 0],
        'EXACT' => [117, 2, 1, 0],
        'TRIM' => [118, 1, 1, 0],
        'REPLACE' => [119, 4, 1, 0],
        'SUBSTITUTE' => [120, -1, 1, 0],
        'CODE' => [121, 1, 1, 0],
        'FIND' => [124, -1, 1, 0],
        'CELL' => [125, -1, 0, 1],
        'ISERR' => [126, 1, 1, 0],
        'ISTEXT' => [127, 1, 1, 0],
        'ISNUMBER' => [128, 1, 1, 0],
        'ISBLANK' => [129, 1, 1, 0],
        'T' => [130, 1, 0, 0],
        'N' => [131, 1, 0, 0],
        'DATEVALUE' => [140, 1, 1, 0],
        'TIMEVALUE' => [141, 1, 1, 0],
        'SLN' => [142, 3, 1, 0],
        'SYD' => [143, 4, 1, 0],
        'DDB' => [144, -1, 1, 0],
        'INDIRECT' => [148, -1, 1, 1],
        'CALL' => [150, -1, 1, 0],
        'CLEAN' => [162, 1, 1, 0],
        'MDETERM' => [163, 1, 2, 0],
        'MINVERSE' => [164, 1, 2, 0],
        'MMULT' => [165, 2, 2, 0],
        'IPMT' => [167, -1, 1, 0],
        'PPMT' => [168, -1, 1, 0],
        'COUNTA' => [169, -1, 0, 0],
        'PRODUCT' => [183, -1, 0, 0],
        'FACT' => [184, 1, 1, 0],
        'DPRODUCT' => [189, 3, 0, 0],
        'ISNONTEXT' => [190, 1, 1, 0],
        'STDEVP' => [193, -1, 0, 0],
        'VARP' => [194, -1, 0, 0],
        'DSTDEVP' => [195, 3, 0, 0],
        'DVARP' => [196, 3, 0, 0],
        'TRUNC' => [197, -1, 1, 0],
        'ISLOGICAL' => [198, 1, 1, 0],
        'DCOUNTA' => [199, 3, 0, 0],
        'USDOLLAR' => [204, -1, 1, 0],
        'FINDB' => [205, -1, 1, 0],
        'SEARCHB' => [206, -1, 1, 0],
        'REPLACEB' => [207, 4, 1, 0],
        'LEFTB' => [208, -1, 1, 0],
        'RIGHTB' => [209, -1, 1, 0],
        'MIDB' => [210, 3, 1, 0],
        'LENB' => [211, 1, 1, 0],
        'ROUNDUP' => [212, 2, 1, 0],
        'ROUNDDOWN' => [213, 2, 1, 0],
        'ASC' => [214, 1, 1, 0],
        'DBCS' => [215, 1, 1, 0],
        'RANK' => [216, -1, 0, 0],
        'ADDRESS' => [219, -1, 1, 0],
        'DAYS360' => [220, -1, 1, 0],
        'TODAY' => [221, 0, 1, 1],
        'VDB' => [222, -1, 1, 0],
        'MEDIAN' => [227, -1, 0, 0],
        'SUMPRODUCT' => [228, -1, 2, 0],
        'SINH' => [229, 1, 1, 0],
        'COSH' => [230, 1, 1, 0],
        'TANH' => [231, 1, 1, 0],
        'ASINH' => [232, 1, 1, 0],
        'ACOSH' => [233, 1, 1, 0],
        'ATANH' => [234, 1, 1, 0],
        'DGET' => [235, 3, 0, 0],
        'INFO' => [244, 1, 1, 1],
        'DB' => [247, -1, 1, 0],
        'FREQUENCY' => [252, 2, 0, 0],
        'ERROR.TYPE' => [261, 1, 1, 0],
        'REGISTER.ID' => [267, -1, 1, 0],
        'AVEDEV' => [269, -1, 0, 0],
        'BETADIST' => [270, -1, 1, 0],
        'GAMMALN' => [271, 1, 1, 0],
        'BETAINV' => [272, -1, 1, 0],
        'BINOMDIST' => [273, 4, 1, 0],
        'CHIDIST' => [274, 2, 1, 0],
        'CHIINV' => [275, 2, 1, 0],
        'COMBIN' => [276, 2, 1, 0],
        'CONFIDENCE' => [277, 3, 1, 0],
        'CRITBINOM' => [278, 3, 1, 0],
        'EVEN' => [279, 1, 1, 0],
        'EXPONDIST' => [280, 3, 1, 0],
        'FDIST' => [281, 3, 1, 0],
        'FINV' => [282, 3, 1, 0],
        'FISHER' => [283, 1, 1, 0],
        'FISHERINV' => [284, 1, 1, 0],
        'FLOOR' => [285, 2, 1, 0],
        'GAMMADIST' => [286, 4, 1, 0],
        'GAMMAINV' => [287, 3, 1, 0],
        'CEILING' => [288, 2, 1, 0],
        'HYPGEOMDIST' => [289, 4, 1, 0],
        'LOGNORMDIST' => [290, 3, 1, 0],
        'LOGINV' => [291, 3, 1, 0],
        'NEGBINOMDIST' => [292, 3, 1, 0],
        'NORMDIST' => [293, 4, 1, 0],
        'NORMSDIST' => [294, 1, 1, 0],
        'NORMINV' => [295, 3, 1, 0],
        'NORMSINV' => [296, 1, 1, 0],
        'STANDARDIZE' => [297, 3, 1, 0],
        'ODD' => [298, 1, 1, 0],
        'PERMUT' => [299, 2, 1, 0],
        'POISSON' => [300, 3, 1, 0],
        'TDIST' => [301, 3, 1, 0],
        'WEIBULL' => [302, 4, 1, 0],
        'SUMXMY2' => [303, 2, 2, 0],
        'SUMX2MY2' => [304, 2, 2, 0],
        'SUMX2PY2' => [305, 2, 2, 0],
        'CHITEST' => [306, 2, 2, 0],
        'CORREL' => [307, 2, 2, 0],
        'COVAR' => [308, 2, 2, 0],
        'FORECAST' => [309, 3, 2, 0],
        'FTEST' => [310, 2, 2, 0],
        'INTERCEPT' => [311, 2, 2, 0],
        'PEARSON' => [312, 2, 2, 0],
        'RSQ' => [313, 2, 2, 0],
        'STEYX' => [314, 2, 2, 0],
        'SLOPE' => [315, 2, 2, 0],
        'TTEST' => [316, 4, 2, 0],
        'PROB' => [317, -1, 2, 0],
        'DEVSQ' => [318, -1, 0, 0],
        'GEOMEAN' => [319, -1, 0, 0],
        'HARMEAN' => [320, -1, 0, 0],
        'SUMSQ' => [321, -1, 0, 0],
        'KURT' => [322, -1, 0, 0],
        'SKEW' => [323, -1, 0, 0],
        'ZTEST' => [324, -1, 0, 0],
        'LARGE' => [325, 2, 0, 0],
        'SMALL' => [326, 2, 0, 0],
        'QUARTILE' => [327, 2, 0, 0],
        'PERCENTILE' => [328, 2, 0, 0],
        'PERCENTRANK' => [329, -1, 0, 0],
        'MODE' => [330, -1, 2, 0],
        'TRIMMEAN' => [331, 2, 0, 0],
        'TINV' => [332, 2, 1, 0],
        'CONCATENATE' => [336, -1, 1, 0],
        'POWER' => [337, 2, 1, 0],
        'RADIANS' => [342, 1, 1, 0],
        'DEGREES' => [343, 1, 1, 0],
        'SUBTOTAL' => [344, -1, 0, 0],
        'SUMIF' => [345, -1, 0, 0],
        'COUNTIF' => [346, 2, 0, 0],
        'COUNTBLANK' => [347, 1, 0, 0],
        'ISPMT' => [350, 4, 1, 0],
        'DATEDIF' => [351, 3, 1, 0],
        'DATESTRING' => [352, 1, 1, 0],
        'NUMBERSTRING' => [353, 2, 1, 0],
        'ROMAN' => [354, -1, 1, 0],
        'GETPIVOTDATA' => [358, -1, 0, 0],
        'HYPERLINK' => [359, -1, 1, 0],
        'PHONETIC' => [360, 1, 0, 0],
        'AVERAGEA' => [361, -1, 0, 0],
        'MAXA' => [362, -1, 0, 0],
        'MINA' => [363, -1, 0, 0],
        'STDEVPA' => [364, -1, 0, 0],
        'VARPA' => [365, -1, 0, 0],
        'STDEVA' => [366, -1, 0, 0],
        'VARA' => [367, -1, 0, 0],
        'BAHTTEXT' => [368, 1, 0, 0],
    ];

    /**
     * The class constructor.
     */
    public function __construct()
    {
        $this->currentCharacter = 0;
        $this->currentToken = ''; // The token we are working
on.
        $this->formula = ''; // The formula to parse.
        $this->lookAhead = ''; // The character ahead of the
current char.
        $this->parseTree = ''; // The parse tree to be
generated.
        $this->externalSheets = [];
        $this->references = [];
    }

    /**
     * Convert a token to the proper ptg value.
     *
     * @param mixed $token the token to convert
     *
     * @return mixed the converted token on success
     */
    private function convert($token)
    {
        if
(preg_match('/"([^"]|""){0,255}"/',
$token)) {
            return $this->convertString($token);
        } elseif (is_numeric($token)) {
            return $this->convertNumber($token);
        // match references like A1 or $A$1
        } elseif
(preg_match('/^\$?([A-Ia-i]?[A-Za-z])\$?(\d+)$/', $token)) {
            return $this->convertRef2d($token);
        // match external references like Sheet1!A1 or Sheet1:Sheet2!A1 or
Sheet1!$A$1 or Sheet1:Sheet2!$A$1
        } elseif (preg_match('/^' .
self::REGEX_SHEET_TITLE_UNQUOTED . '(\\:' .
self::REGEX_SHEET_TITLE_UNQUOTED .
')?\\!\$?[A-Ia-i]?[A-Za-z]\$?(\\d+)$/u', $token)) {
            return $this->convertRef3d($token);
        // match external references like 'Sheet1'!A1 or
'Sheet1:Sheet2'!A1 or 'Sheet1'!$A$1 or
'Sheet1:Sheet2'!$A$1
        } elseif (preg_match("/^'" .
self::REGEX_SHEET_TITLE_QUOTED . '(\\:' .
self::REGEX_SHEET_TITLE_QUOTED .
")?'\\!\\$?[A-Ia-i]?[A-Za-z]\\$?(\\d+)$/u", $token)) {
            return $this->convertRef3d($token);
        // match ranges like A1:B2 or $A$1:$B$2
        } elseif
(preg_match('/^(\$)?[A-Ia-i]?[A-Za-z](\$)?(\d+)\:(\$)?[A-Ia-i]?[A-Za-z](\$)?(\d+)$/',
$token)) {
            return $this->convertRange2d($token);
        // match external ranges like Sheet1!A1:B2 or Sheet1:Sheet2!A1:B2
or Sheet1!$A$1:$B$2 or Sheet1:Sheet2!$A$1:$B$2
        } elseif (preg_match('/^' .
self::REGEX_SHEET_TITLE_UNQUOTED . '(\\:' .
self::REGEX_SHEET_TITLE_UNQUOTED .
')?\\!\$?([A-Ia-i]?[A-Za-z])?\$?(\\d+)\\:\$?([A-Ia-i]?[A-Za-z])?\$?(\\d+)$/u',
$token)) {
            return $this->convertRange3d($token);
        // match external ranges like 'Sheet1'!A1:B2 or
'Sheet1:Sheet2'!A1:B2 or 'Sheet1'!$A$1:$B$2 or
'Sheet1:Sheet2'!$A$1:$B$2
        } elseif (preg_match("/^'" .
self::REGEX_SHEET_TITLE_QUOTED . '(\\:' .
self::REGEX_SHEET_TITLE_QUOTED .
")?'\\!\\$?([A-Ia-i]?[A-Za-z])?\\$?(\\d+)\\:\\$?([A-Ia-i]?[A-Za-z])?\\$?(\\d+)$/u",
$token)) {
            return $this->convertRange3d($token);
        // operators (including parentheses)
        } elseif (isset($this->ptg[$token])) {
            return pack('C', $this->ptg[$token]);
        // match error codes
        } elseif (preg_match('/^#[A-Z0\\/]{3,5}[!?]{1}$/',
$token) or $token == '#N/A') {
            return $this->convertError($token);
        // commented so argument number can be processed correctly. See
toReversePolish().
        /*elseif (preg_match("/[A-Z0-9\xc0-\xdc\.]+/", $token))
        {
            return($this->convertFunction($token,
$this->_func_args));
        }*/
        // if it's an argument, ignore the token (the argument
remains)
        } elseif ($token == 'arg') {
            return '';
        }

        // TODO: use real error codes
        throw new WriterException("Unknown token $token");
    }

    /**
     * Convert a number token to ptgInt or ptgNum.
     *
     * @param mixed $num an integer or double for conversion to its ptg
value
     *
     * @return string
     */
    private function convertNumber($num)
    {
        // Integer in the range 0..2**16-1
        if ((preg_match('/^\\d+$/', $num)) and ($num <=
65535)) {
            return pack('Cv', $this->ptg['ptgInt'],
$num);
        }

        // A float
        if (BIFFwriter::getByteOrder()) { // if it's Big Endian
            $num = strrev($num);
        }

        return pack('Cd', $this->ptg['ptgNum'],
$num);
    }

    /**
     * Convert a string token to ptgStr.
     *
     * @param string $string a string for conversion to its ptg value
     *
     * @return mixed the converted token on success
     */
    private function convertString($string)
    {
        // chop away beggining and ending quotes
        $string = substr($string, 1, -1);
        if (strlen($string) > 255) {
            throw new WriterException('String is too long');
        }

        return pack('C', $this->ptg['ptgStr']) .
StringHelper::UTF8toBIFF8UnicodeShort($string);
    }

    /**
     * Convert a function to a ptgFunc or ptgFuncVarV depending on the
number of
     * args that it takes.
     *
     * @param string $token the name of the function for convertion to ptg
value
     * @param int $num_args the number of arguments the function receives
     *
     * @return string The packed ptg for the function
     */
    private function convertFunction($token, $num_args)
    {
        $args = $this->functions[$token][1];

        // Fixed number of args eg. TIME($i, $j, $k).
        if ($args >= 0) {
            return pack('Cv',
$this->ptg['ptgFuncV'], $this->functions[$token][0]);
        }
        // Variable number of args eg. SUM($i, $j, $k, ..).
        if ($args == -1) {
            return pack('CCv',
$this->ptg['ptgFuncVarV'], $num_args,
$this->functions[$token][0]);
        }
    }

    /**
     * Convert an Excel range such as A1:D4 to a ptgRefV.
     *
     * @param string $range An Excel range in the A1:A2
     * @param int $class
     *
     * @return string
     */
    private function convertRange2d($range, $class = 0)
    {
        // TODO: possible class value 0,1,2 check Formula.pm
        // Split the range into 2 cell refs
        if
(preg_match('/^(\$)?([A-Ia-i]?[A-Za-z])(\$)?(\d+)\:(\$)?([A-Ia-i]?[A-Za-z])(\$)?(\d+)$/',
$range)) {
            [$cell1, $cell2] = explode(':', $range);
        } else {
            // TODO: use real error codes
            throw new WriterException('Unknown range separator');
        }

        // Convert the cell references
        [$row1, $col1] = $this->cellToPackedRowcol($cell1);
        [$row2, $col2] = $this->cellToPackedRowcol($cell2);

        // The ptg value depends on the class of the ptg.
        if ($class == 0) {
            $ptgArea = pack('C',
$this->ptg['ptgArea']);
        } elseif ($class == 1) {
            $ptgArea = pack('C',
$this->ptg['ptgAreaV']);
        } elseif ($class == 2) {
            $ptgArea = pack('C',
$this->ptg['ptgAreaA']);
        } else {
            // TODO: use real error codes
            throw new WriterException("Unknown class $class");
        }

        return $ptgArea . $row1 . $row2 . $col1 . $col2;
    }

    /**
     * Convert an Excel 3d range such as "Sheet1!A1:D4" or
"Sheet1:Sheet2!A1:D4" to
     * a ptgArea3d.
     *
     * @param string $token an Excel range in the Sheet1!A1:A2 format
     *
     * @return mixed the packed ptgArea3d token on success
     */
    private function convertRange3d($token)
    {
        // Split the ref at the ! symbol
        [$ext_ref, $range] =
PhpspreadsheetWorksheet::extractSheetTitle($token, true);

        // Convert the external reference part (different for BIFF8)
        $ext_ref = $this->getRefIndex($ext_ref);

        // Split the range into 2 cell refs
        [$cell1, $cell2] = explode(':', $range);

        // Convert the cell references
        if (preg_match('/^(\$)?[A-Ia-i]?[A-Za-z](\$)?(\\d+)$/',
$cell1)) {
            [$row1, $col1] = $this->cellToPackedRowcol($cell1);
            [$row2, $col2] = $this->cellToPackedRowcol($cell2);
        } else { // It's a rows range (like 26:27)
            [$row1, $col1, $row2, $col2] =
$this->rangeToPackedRange($cell1 . ':' . $cell2);
        }

        // The ptg value depends on the class of the ptg.
        $ptgArea = pack('C',
$this->ptg['ptgArea3d']);

        return $ptgArea . $ext_ref . $row1 . $row2 . $col1 . $col2;
    }

    /**
     * Convert an Excel reference such as A1, $B2, C$3 or $D$4 to a
ptgRefV.
     *
     * @param string $cell An Excel cell reference
     *
     * @return string The cell in packed() format with the corresponding
ptg
     */
    private function convertRef2d($cell)
    {
        // Convert the cell reference
        $cell_array = $this->cellToPackedRowcol($cell);
        [$row, $col] = $cell_array;

        // The ptg value depends on the class of the ptg.
        $ptgRef = pack('C', $this->ptg['ptgRefA']);

        return $ptgRef . $row . $col;
    }

    /**
     * Convert an Excel 3d reference such as "Sheet1!A1" or
"Sheet1:Sheet2!A1" to a
     * ptgRef3d.
     *
     * @param string $cell An Excel cell reference
     *
     * @return mixed the packed ptgRef3d token on success
     */
    private function convertRef3d($cell)
    {
        // Split the ref at the ! symbol
        [$ext_ref, $cell] =
PhpspreadsheetWorksheet::extractSheetTitle($cell, true);

        // Convert the external reference part (different for BIFF8)
        $ext_ref = $this->getRefIndex($ext_ref);

        // Convert the cell reference part
        [$row, $col] = $this->cellToPackedRowcol($cell);

        // The ptg value depends on the class of the ptg.
        $ptgRef = pack('C',
$this->ptg['ptgRef3dA']);

        return $ptgRef . $ext_ref . $row . $col;
    }

    /**
     * Convert an error code to a ptgErr.
     *
     * @param string $errorCode The error code for conversion to its ptg
value
     *
     * @return string The error code ptgErr
     */
    private function convertError($errorCode)
    {
        switch ($errorCode) {
            case '#NULL!':
                return pack('C', 0x00);
            case '#DIV/0!':
                return pack('C', 0x07);
            case '#VALUE!':
                return pack('C', 0x0F);
            case '#REF!':
                return pack('C', 0x17);
            case '#NAME?':
                return pack('C', 0x1D);
            case '#NUM!':
                return pack('C', 0x24);
            case '#N/A':
                return pack('C', 0x2A);
        }

        return pack('C', 0xFF);
    }

    /**
     * Look up the REF index that corresponds to an external sheet name
     * (or range). If it doesn't exist yet add it to the
workbook's references
     * array. It assumes all sheet names given must exist.
     *
     * @param string $ext_ref The name of the external reference
     *
     * @return mixed The reference index in packed() format on success
     */
    private function getRefIndex($ext_ref)
    {
        $ext_ref = preg_replace("/^'/", '',
$ext_ref); // Remove leading  ' if any.
        $ext_ref = preg_replace("/'$/", '',
$ext_ref); // Remove trailing ' if any.
        $ext_ref = str_replace('\'\'',
'\'', $ext_ref); // Replace escaped '' with '

        // Check if there is a sheet range eg., Sheet1:Sheet2.
        if (preg_match('/:/', $ext_ref)) {
            [$sheet_name1, $sheet_name2] = explode(':',
$ext_ref);

            $sheet1 = $this->getSheetIndex($sheet_name1);
            if ($sheet1 == -1) {
                throw new WriterException("Unknown sheet name
$sheet_name1 in formula");
            }
            $sheet2 = $this->getSheetIndex($sheet_name2);
            if ($sheet2 == -1) {
                throw new WriterException("Unknown sheet name
$sheet_name2 in formula");
            }

            // Reverse max and min sheet numbers if necessary
            if ($sheet1 > $sheet2) {
                [$sheet1, $sheet2] = [$sheet2, $sheet1];
            }
        } else { // Single sheet name only.
            $sheet1 = $this->getSheetIndex($ext_ref);
            if ($sheet1 == -1) {
                throw new WriterException("Unknown sheet name $ext_ref
in formula");
            }
            $sheet2 = $sheet1;
        }

        // assume all references belong to this document
        $supbook_index = 0x00;
        $ref = pack('vvv', $supbook_index, $sheet1, $sheet2);
        $totalreferences = count($this->references);
        $index = -1;
        for ($i = 0; $i < $totalreferences; ++$i) {
            if ($ref == $this->references[$i]) {
                $index = $i;

                break;
            }
        }
        // if REF was not found add it to references array
        if ($index == -1) {
            $this->references[$totalreferences] = $ref;
            $index = $totalreferences;
        }

        return pack('v', $index);
    }

    /**
     * Look up the index that corresponds to an external sheet name. The
hash of
     * sheet names is updated by the addworksheet() method of the
     * \PhpOffice\PhpSpreadsheet\Writer\Xls\Workbook class.
     *
     * @param string $sheet_name Sheet name
     *
     * @return int The sheet index, -1 if the sheet was not found
     */
    private function getSheetIndex($sheet_name)
    {
        if (!isset($this->externalSheets[$sheet_name])) {
            return -1;
        }

        return $this->externalSheets[$sheet_name];
    }

    /**
     * This method is used to update the array of sheet names. It is
     * called by the addWorksheet() method of the
     * \PhpOffice\PhpSpreadsheet\Writer\Xls\Workbook class.
     *
     * @see \PhpOffice\PhpSpreadsheet\Writer\Xls\Workbook::addWorksheet()
     *
     * @param string $name The name of the worksheet being added
     * @param int $index The index of the worksheet being added
     */
    public function setExtSheet($name, $index)
    {
        $this->externalSheets[$name] = $index;
    }

    /**
     * pack() row and column into the required 3 or 4 byte format.
     *
     * @param string $cell The Excel cell reference to be packed
     *
     * @return array Array containing the row and column in packed() format
     */
    private function cellToPackedRowcol($cell)
    {
        $cell = strtoupper($cell);
        [$row, $col, $row_rel, $col_rel] = $this->cellToRowcol($cell);
        if ($col >= 256) {
            throw new WriterException("Column in: $cell greater than
255");
        }
        if ($row >= 65536) {
            throw new WriterException("Row in: $cell greater than
65536 ");
        }

        // Set the high bits to indicate if row or col are relative.
        $col |= $col_rel << 14;
        $col |= $row_rel << 15;
        $col = pack('v', $col);

        $row = pack('v', $row);

        return [$row, $col];
    }

    /**
     * pack() row range into the required 3 or 4 byte format.
     * Just using maximum col/rows, which is probably not the correct
solution.
     *
     * @param string $range The Excel range to be packed
     *
     * @return array Array containing (row1,col1,row2,col2) in packed()
format
     */
    private function rangeToPackedRange($range)
    {
        preg_match('/(\$)?(\d+)\:(\$)?(\d+)/', $range, $match);
        // return absolute rows if there is a $ in the ref
        $row1_rel = empty($match[1]) ? 1 : 0;
        $row1 = $match[2];
        $row2_rel = empty($match[3]) ? 1 : 0;
        $row2 = $match[4];
        // Convert 1-index to zero-index
        --$row1;
        --$row2;
        // Trick poor inocent Excel
        $col1 = 0;
        $col2 = 65535; // FIXME: maximum possible value for Excel 5 (change
this!!!)

        // FIXME: this changes for BIFF8
        if (($row1 >= 65536) or ($row2 >= 65536)) {
            throw new WriterException("Row in: $range greater than
65536 ");
        }

        // Set the high bits to indicate if rows are relative.
        $col1 |= $row1_rel << 15;
        $col2 |= $row2_rel << 15;
        $col1 = pack('v', $col1);
        $col2 = pack('v', $col2);

        $row1 = pack('v', $row1);
        $row2 = pack('v', $row2);

        return [$row1, $col1, $row2, $col2];
    }

    /**
     * Convert an Excel cell reference such as A1 or $B2 or C$3 or $D$4 to
a zero
     * indexed row and column number. Also returns two (0,1) values to
indicate
     * whether the row or column are relative references.
     *
     * @param string $cell the Excel cell reference in A1 format
     *
     * @return array
     */
    private function cellToRowcol($cell)
    {
        preg_match('/(\$)?([A-I]?[A-Z])(\$)?(\d+)/', $cell,
$match);
        // return absolute column if there is a $ in the ref
        $col_rel = empty($match[1]) ? 1 : 0;
        $col_ref = $match[2];
        $row_rel = empty($match[3]) ? 1 : 0;
        $row = $match[4];

        // Convert base26 column string to a number.
        $expn = strlen($col_ref) - 1;
        $col = 0;
        $col_ref_length = strlen($col_ref);
        for ($i = 0; $i < $col_ref_length; ++$i) {
            $col += (ord($col_ref[$i]) - 64) * pow(26, $expn);
            --$expn;
        }

        // Convert 1-index to zero-index
        --$row;
        --$col;

        return [$row, $col, $row_rel, $col_rel];
    }

    /**
     * Advance to the next valid token.
     */
    private function advance()
    {
        $i = $this->currentCharacter;
        $formula_length = strlen($this->formula);
        // eat up white spaces
        if ($i < $formula_length) {
            while ($this->formula[$i] == ' ') {
                ++$i;
            }

            if ($i < ($formula_length - 1)) {
                $this->lookAhead = $this->formula[$i + 1];
            }
            $token = '';
        }

        while ($i < $formula_length) {
            $token .= $this->formula[$i];

            if ($i < ($formula_length - 1)) {
                $this->lookAhead = $this->formula[$i + 1];
            } else {
                $this->lookAhead = '';
            }

            if ($this->match($token) != '') {
                $this->currentCharacter = $i + 1;
                $this->currentToken = $token;

                return 1;
            }

            if ($i < ($formula_length - 2)) {
                $this->lookAhead = $this->formula[$i + 2];
            } else { // if we run out of characters lookAhead becomes empty
                $this->lookAhead = '';
            }
            ++$i;
        }
        //die("Lexical error ".$this->currentCharacter);
    }

    /**
     * Checks if it's a valid token.
     *
     * @param mixed $token the token to check
     *
     * @return mixed The checked token or false on failure
     */
    private function match($token)
    {
        switch ($token) {
            case '+':
            case '-':
            case '*':
            case '/':
            case '(':
            case ')':
            case ',':
            case ';':
            case '>=':
            case '<=':
            case '=':
            case '<>':
            case '^':
            case '&':
            case '%':
                return $token;

                break;
            case '>':
                if ($this->lookAhead === '=') { // it's a
GE token
                    break;
                }

                return $token;

                break;
            case '<':
                // it's a LE or a NE token
                if (($this->lookAhead === '=') or
($this->lookAhead === '>')) {
                    break;
                }

                return $token;

                break;
            default:
                // if it's a reference A1 or $A$1 or $A1 or A$1
                if (preg_match('/^\$?[A-Ia-i]?[A-Za-z]\$?\d+$/',
$token) and !preg_match('/\d/', $this->lookAhead) and
($this->lookAhead !== ':') and ($this->lookAhead !==
'.') and ($this->lookAhead !== '!')) {
                    return $token;
                } elseif (preg_match('/^' .
self::REGEX_SHEET_TITLE_UNQUOTED . '(\\:' .
self::REGEX_SHEET_TITLE_UNQUOTED .
')?\\!\$?[A-Ia-i]?[A-Za-z]\$?\\d+$/u', $token) and
!preg_match('/\d/', $this->lookAhead) and ($this->lookAhead
!== ':') and ($this->lookAhead !== '.')) {
                    // If it's an external reference (Sheet1!A1 or
Sheet1:Sheet2!A1 or Sheet1!$A$1 or Sheet1:Sheet2!$A$1)
                    return $token;
                } elseif (preg_match("/^'" .
self::REGEX_SHEET_TITLE_QUOTED . '(\\:' .
self::REGEX_SHEET_TITLE_QUOTED .
")?'\\!\\$?[A-Ia-i]?[A-Za-z]\\$?\\d+$/u", $token) and
!preg_match('/\d/', $this->lookAhead) and ($this->lookAhead
!== ':') and ($this->lookAhead !== '.')) {
                    // If it's an external reference
('Sheet1'!A1 or 'Sheet1:Sheet2'!A1 or
'Sheet1'!$A$1 or 'Sheet1:Sheet2'!$A$1)
                    return $token;
                } elseif
(preg_match('/^(\$)?[A-Ia-i]?[A-Za-z](\$)?\d+:(\$)?[A-Ia-i]?[A-Za-z](\$)?\d+$/',
$token) && !preg_match('/\d/', $this->lookAhead)) {
                    // if it's a range A1:A2 or $A$1:$A$2
                    return $token;
                } elseif (preg_match('/^' .
self::REGEX_SHEET_TITLE_UNQUOTED . '(\\:' .
self::REGEX_SHEET_TITLE_UNQUOTED .
')?\\!\$?([A-Ia-i]?[A-Za-z])?\$?\\d+:\$?([A-Ia-i]?[A-Za-z])?\$?\\d+$/u',
$token) and !preg_match('/\d/', $this->lookAhead)) {
                    // If it's an external range like Sheet1!A1:B2 or
Sheet1:Sheet2!A1:B2 or Sheet1!$A$1:$B$2 or Sheet1:Sheet2!$A$1:$B$2
                    return $token;
                } elseif (preg_match("/^'" .
self::REGEX_SHEET_TITLE_QUOTED . '(\\:' .
self::REGEX_SHEET_TITLE_QUOTED .
")?'\\!\\$?([A-Ia-i]?[A-Za-z])?\\$?\\d+:\\$?([A-Ia-i]?[A-Za-z])?\\$?\\d+$/u",
$token) and !preg_match('/\d/', $this->lookAhead)) {
                    // If it's an external range like
'Sheet1'!A1:B2 or 'Sheet1:Sheet2'!A1:B2 or
'Sheet1'!$A$1:$B$2 or 'Sheet1:Sheet2'!$A$1:$B$2
                    return $token;
                } elseif (is_numeric($token) and (!is_numeric($token .
$this->lookAhead) or ($this->lookAhead == '')) and
($this->lookAhead !== '!') and ($this->lookAhead !==
':')) {
                    // If it's a number (check that it's not a
sheet name or range)
                    return $token;
                } elseif
(preg_match('/"([^"]|""){0,255}"/',
$token) and $this->lookAhead !== '"' and
(substr_count($token, '"') % 2 == 0)) {
                    // If it's a string (of maximum 255 characters)
                    return $token;
                } elseif
(preg_match('/^#[A-Z0\\/]{3,5}[!?]{1}$/', $token) or $token ===
'#N/A') {
                    // If it's an error code
                    return $token;
                } elseif
(preg_match("/^[A-Z0-9\xc0-\xdc\\.]+$/i", $token) and
($this->lookAhead === '(')) {
                    // if it's a function call
                    return $token;
                } elseif (substr($token, -1) === ')') {
                    //    It's an argument of some description (e.g. a
named range),
                    //        precise nature yet to be determined
                    return $token;
                }

                return '';
        }
    }

    /**
     * The parsing method. It parses a formula.
     *
     * @param string $formula the formula to parse, without the initial
equal
     *                        sign (=)
     *
     * @return mixed true on success
     */
    public function parse($formula)
    {
        $this->currentCharacter = 0;
        $this->formula = (string) $formula;
        $this->lookAhead = $formula[1] ?? '';
        $this->advance();
        $this->parseTree = $this->condition();

        return true;
    }

    /**
     * It parses a condition. It assumes the following rule:
     * Cond -> Expr [(">" | "<") Expr].
     *
     * @return mixed The parsed ptg'd tree on success
     */
    private function condition()
    {
        $result = $this->expression();
        if ($this->currentToken == '<') {
            $this->advance();
            $result2 = $this->expression();
            $result = $this->createTree('ptgLT', $result,
$result2);
        } elseif ($this->currentToken == '>') {
            $this->advance();
            $result2 = $this->expression();
            $result = $this->createTree('ptgGT', $result,
$result2);
        } elseif ($this->currentToken == '<=') {
            $this->advance();
            $result2 = $this->expression();
            $result = $this->createTree('ptgLE', $result,
$result2);
        } elseif ($this->currentToken == '>=') {
            $this->advance();
            $result2 = $this->expression();
            $result = $this->createTree('ptgGE', $result,
$result2);
        } elseif ($this->currentToken == '=') {
            $this->advance();
            $result2 = $this->expression();
            $result = $this->createTree('ptgEQ', $result,
$result2);
        } elseif ($this->currentToken == '<>') {
            $this->advance();
            $result2 = $this->expression();
            $result = $this->createTree('ptgNE', $result,
$result2);
        } elseif ($this->currentToken == '&') {
            $this->advance();
            $result2 = $this->expression();
            $result = $this->createTree('ptgConcat', $result,
$result2);
        }

        return $result;
    }

    /**
     * It parses a expression. It assumes the following rule:
     * Expr -> Term [("+" | "-") Term]
     *      -> "string"
     *      -> "-" Term : Negative value
     *      -> "+" Term : Positive value
     *      -> Error code.
     *
     * @return mixed The parsed ptg'd tree on success
     */
    private function expression()
    {
        // If it's a string return a string node
        if
(preg_match('/"([^"]|""){0,255}"/',
$this->currentToken)) {
            $tmp = str_replace('""',
'"', $this->currentToken);
            if (($tmp == '"') || ($tmp == '')) {
                //    Trap for "" that has been used for an empty
string
                $tmp = '""';
            }
            $result = $this->createTree($tmp, '',
'');
            $this->advance();

            return $result;
        // If it's an error code
        } elseif (preg_match('/^#[A-Z0\\/]{3,5}[!?]{1}$/',
$this->currentToken) or $this->currentToken == '#N/A') {
            $result = $this->createTree($this->currentToken,
'ptgErr', '');
            $this->advance();

            return $result;
        // If it's a negative value
        } elseif ($this->currentToken == '-') {
            // catch "-" Term
            $this->advance();
            $result2 = $this->expression();

            return $this->createTree('ptgUminus', $result2,
'');
        // If it's a positive value
        } elseif ($this->currentToken == '+') {
            // catch "+" Term
            $this->advance();
            $result2 = $this->expression();

            return $this->createTree('ptgUplus', $result2,
'');
        }
        $result = $this->term();
        while (($this->currentToken == '+') or
               ($this->currentToken == '-') or
               ($this->currentToken == '^')) {
            if ($this->currentToken == '+') {
                $this->advance();
                $result2 = $this->term();
                $result = $this->createTree('ptgAdd', $result,
$result2);
            } elseif ($this->currentToken == '-') {
                $this->advance();
                $result2 = $this->term();
                $result = $this->createTree('ptgSub', $result,
$result2);
            } else {
                $this->advance();
                $result2 = $this->term();
                $result = $this->createTree('ptgPower',
$result, $result2);
            }
        }

        return $result;
    }

    /**
     * This function just introduces a ptgParen element in the tree, so
that Excel
     * doesn't get confused when working with a parenthesized formula
afterwards.
     *
     * @see fact()
     *
     * @return array The parsed ptg'd tree
     */
    private function parenthesizedExpression()
    {
        return $this->createTree('ptgParen',
$this->expression(), '');
    }

    /**
     * It parses a term. It assumes the following rule:
     * Term -> Fact [("*" | "/") Fact].
     *
     * @return mixed The parsed ptg'd tree on success
     */
    private function term()
    {
        $result = $this->fact();
        while (($this->currentToken == '*') or
               ($this->currentToken == '/')) {
            if ($this->currentToken == '*') {
                $this->advance();
                $result2 = $this->fact();
                $result = $this->createTree('ptgMul', $result,
$result2);
            } else {
                $this->advance();
                $result2 = $this->fact();
                $result = $this->createTree('ptgDiv', $result,
$result2);
            }
        }

        return $result;
    }

    /**
     * It parses a factor. It assumes the following rule:
     * Fact -> ( Expr )
     *       | CellRef
     *       | CellRange
     *       | Number
     *       | Function.
     *
     * @return mixed The parsed ptg'd tree on success
     */
    private function fact()
    {
        if ($this->currentToken === '(') {
            $this->advance(); // eat the "("
            $result = $this->parenthesizedExpression();
            if ($this->currentToken !== ')') {
                throw new WriterException("')' token
expected.");
            }
            $this->advance(); // eat the ")"
            return $result;
        }
        // if it's a reference
        if (preg_match('/^\$?[A-Ia-i]?[A-Za-z]\$?\d+$/',
$this->currentToken)) {
            $result = $this->createTree($this->currentToken,
'', '');
            $this->advance();

            return $result;
        } elseif (preg_match('/^' .
self::REGEX_SHEET_TITLE_UNQUOTED . '(\\:' .
self::REGEX_SHEET_TITLE_UNQUOTED .
')?\\!\$?[A-Ia-i]?[A-Za-z]\$?\\d+$/u', $this->currentToken)) {
            // If it's an external reference (Sheet1!A1 or
Sheet1:Sheet2!A1 or Sheet1!$A$1 or Sheet1:Sheet2!$A$1)
            $result = $this->createTree($this->currentToken,
'', '');
            $this->advance();

            return $result;
        } elseif (preg_match("/^'" .
self::REGEX_SHEET_TITLE_QUOTED . '(\\:' .
self::REGEX_SHEET_TITLE_QUOTED .
")?'\\!\\$?[A-Ia-i]?[A-Za-z]\\$?\\d+$/u",
$this->currentToken)) {
            // If it's an external reference ('Sheet1'!A1 or
'Sheet1:Sheet2'!A1 or 'Sheet1'!$A$1 or
'Sheet1:Sheet2'!$A$1)
            $result = $this->createTree($this->currentToken,
'', '');
            $this->advance();

            return $result;
        } elseif
(preg_match('/^(\$)?[A-Ia-i]?[A-Za-z](\$)?\d+:(\$)?[A-Ia-i]?[A-Za-z](\$)?\d+$/',
$this->currentToken) or
               
preg_match('/^(\$)?[A-Ia-i]?[A-Za-z](\$)?\d+\.\.(\$)?[A-Ia-i]?[A-Za-z](\$)?\d+$/',
$this->currentToken)) {
            // if it's a range A1:B2 or $A$1:$B$2
            // must be an error?
            $result = $this->createTree($this->currentToken,
'', '');
            $this->advance();

            return $result;
        } elseif (preg_match('/^' .
self::REGEX_SHEET_TITLE_UNQUOTED . '(\\:' .
self::REGEX_SHEET_TITLE_UNQUOTED .
')?\\!\$?([A-Ia-i]?[A-Za-z])?\$?\\d+:\$?([A-Ia-i]?[A-Za-z])?\$?\\d+$/u',
$this->currentToken)) {
            // If it's an external range (Sheet1!A1:B2 or
Sheet1:Sheet2!A1:B2 or Sheet1!$A$1:$B$2 or Sheet1:Sheet2!$A$1:$B$2)
            // must be an error?
            $result = $this->createTree($this->currentToken,
'', '');
            $this->advance();

            return $result;
        } elseif (preg_match("/^'" .
self::REGEX_SHEET_TITLE_QUOTED . '(\\:' .
self::REGEX_SHEET_TITLE_QUOTED .
")?'\\!\\$?([A-Ia-i]?[A-Za-z])?\\$?\\d+:\\$?([A-Ia-i]?[A-Za-z])?\\$?\\d+$/u",
$this->currentToken)) {
            // If it's an external range ('Sheet1'!A1:B2 or
'Sheet1'!A1:B2 or 'Sheet1'!$A$1:$B$2 or
'Sheet1'!$A$1:$B$2)
            // must be an error?
            $result = $this->createTree($this->currentToken,
'', '');
            $this->advance();

            return $result;
        } elseif (is_numeric($this->currentToken)) {
            // If it's a number or a percent
            if ($this->lookAhead === '%') {
                $result = $this->createTree('ptgPercent',
$this->currentToken, '');
                $this->advance(); // Skip the percentage operator once
we've pre-built that tree
            } else {
                $result = $this->createTree($this->currentToken,
'', '');
            }
            $this->advance();

            return $result;
        } elseif (preg_match("/^[A-Z0-9\xc0-\xdc\\.]+$/i",
$this->currentToken)) {
            // if it's a function call
            return $this->func();
        }

        throw new WriterException('Syntax error: ' .
$this->currentToken . ', lookahead: ' . $this->lookAhead .
', current char: ' . $this->currentCharacter);
    }

    /**
     * It parses a function call. It assumes the following rule:
     * Func -> ( Expr [,Expr]* ).
     *
     * @return mixed The parsed ptg'd tree on success
     */
    private function func()
    {
        $num_args = 0; // number of arguments received
        $function = strtoupper($this->currentToken);
        $result = ''; // initialize result
        $this->advance();
        $this->advance(); // eat the "("
        while ($this->currentToken !== ')') {
            if ($num_args > 0) {
                if ($this->currentToken === ',' ||
$this->currentToken === ';') {
                    $this->advance(); // eat the "," or
";"
                } else {
                    throw new WriterException("Syntax error: comma
expected in function $function, arg #{$num_args}");
                }
                $result2 = $this->condition();
                $result = $this->createTree('arg', $result,
$result2);
            } else { // first argument
                $result2 = $this->condition();
                $result = $this->createTree('arg',
'', $result2);
            }
            ++$num_args;
        }
        if (!isset($this->functions[$function])) {
            throw new WriterException("Function $function()
doesn't exist");
        }
        $args = $this->functions[$function][1];
        // If fixed number of args eg. TIME($i, $j, $k). Check that the
number of args is valid.
        if (($args >= 0) and ($args != $num_args)) {
            throw new WriterException("Incorrect number of arguments
in function $function() ");
        }

        $result = $this->createTree($function, $result, $num_args);
        $this->advance(); // eat the ")"
        return $result;
    }

    /**
     * Creates a tree. In fact an array which may have one or two arrays
(sub-trees)
     * as elements.
     *
     * @param mixed $value the value of this node
     * @param mixed $left the left array (sub-tree) or a final node
     * @param mixed $right the right array (sub-tree) or a final node
     *
     * @return array A tree
     */
    private function createTree($value, $left, $right)
    {
        return ['value' => $value, 'left' =>
$left, 'right' => $right];
    }

    /**
     * Builds a string containing the tree in reverse polish notation (What
you
     * would use in a HP calculator stack).
     * The following tree:.
     *
     *    +
     *   / \
     *  2   3
     *
     * produces: "23+"
     *
     * The following tree:
     *
     *    +
     *   / \
     *  3   *
     *     / \
     *    6   A1
     *
     * produces: "36A1*+"
     *
     * In fact all operands, functions, references, etc... are written as
ptg's
     *
     * @param array $tree the optional tree to convert
     *
     * @return string The tree in reverse polish notation
     */
    public function toReversePolish($tree = [])
    {
        $polish = ''; // the string we are going to return
        if (empty($tree)) { // If it's the first call use parseTree
            $tree = $this->parseTree;
        }

        if (is_array($tree['left'])) {
            $converted_tree =
$this->toReversePolish($tree['left']);
            $polish .= $converted_tree;
        } elseif ($tree['left'] != '') { // It's a
final node
            $converted_tree = $this->convert($tree['left']);
            $polish .= $converted_tree;
        }
        if (is_array($tree['right'])) {
            $converted_tree =
$this->toReversePolish($tree['right']);
            $polish .= $converted_tree;
        } elseif ($tree['right'] != '') { // It's
a final node
            $converted_tree = $this->convert($tree['right']);
            $polish .= $converted_tree;
        }
        // if it's a function convert it here (so we can set it's
arguments)
        if (preg_match("/^[A-Z0-9\xc0-\xdc\\.]+$/",
$tree['value']) and
            !preg_match('/^([A-Ia-i]?[A-Za-z])(\d+)$/',
$tree['value']) and
           
!preg_match('/^[A-Ia-i]?[A-Za-z](\\d+)\\.\\.[A-Ia-i]?[A-Za-z](\\d+)$/',
$tree['value']) and
            !is_numeric($tree['value']) and
            !isset($this->ptg[$tree['value']])) {
            // left subtree for a function is always an array.
            if ($tree['left'] != '') {
                $left_tree =
$this->toReversePolish($tree['left']);
            } else {
                $left_tree = '';
            }
            // add it's left subtree and return.
            return $left_tree .
$this->convertFunction($tree['value'],
$tree['right']);
        }
        $converted_tree = $this->convert($tree['value']);

        return $polish . $converted_tree;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xls/Workbook.php000064400000116417151165414060023076
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer\Xls;

use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\Exception as PhpSpreadsheetException;
use PhpOffice\PhpSpreadsheet\Shared\Date;
use PhpOffice\PhpSpreadsheet\Shared\StringHelper;
use PhpOffice\PhpSpreadsheet\Spreadsheet;
use PhpOffice\PhpSpreadsheet\Style\Style;

// Original file header of PEAR::Spreadsheet_Excel_Writer_Workbook (used as
the base for this class):
//
-----------------------------------------------------------------------------------------
// /*
// *  Module written/ported by Xavier Noguer <xnoguer@rezebra.com>
// *
// *  The majority of this is _NOT_ my code.  I simply ported it from the
// *  PERL Spreadsheet::WriteExcel module.
// *
// *  The author of the Spreadsheet::WriteExcel module is John McNamara
// *  <jmcnamara@cpan.org>
// *
// *  I _DO_ maintain this code, and John McNamara has nothing to do with
the
// *  porting of this code to PHP.  Any questions directly related to this
// *  class library should be directed to me.
// *
// *  License Information:
// *
// *    Spreadsheet_Excel_Writer:  A library for generating Excel
Spreadsheets
// *    Copyright (c) 2002-2003 Xavier Noguer xnoguer@rezebra.com
// *
// *    This library is free software; you can redistribute it and/or
// *    modify it under the terms of the GNU Lesser General Public
// *    License as published by the Free Software Foundation; either
// *    version 2.1 of the License, or (at your option) any later version.
// *
// *    This library is distributed in the hope that it will be useful,
// *    but WITHOUT ANY WARRANTY; without even the implied warranty of
// *    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
// *    Lesser General Public License for more details.
// *
// *    You should have received a copy of the GNU Lesser General Public
// *    License along with this library; if not, write to the Free Software
// *    Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 
02111-1307  USA
// */
class Workbook extends BIFFwriter
{
    /**
     * Formula parser.
     *
     * @var \PhpOffice\PhpSpreadsheet\Writer\Xls\Parser
     */
    private $parser;

    /**
     * The BIFF file size for the workbook.
     *
     * @var int
     *
     * @see calcSheetOffsets()
     */
    private $biffSize;

    /**
     * XF Writers.
     *
     * @var \PhpOffice\PhpSpreadsheet\Writer\Xls\Xf[]
     */
    private $xfWriters = [];

    /**
     * Array containing the colour palette.
     *
     * @var array
     */
    private $palette;

    /**
     * The codepage indicates the text encoding used for strings.
     *
     * @var int
     */
    private $codepage;

    /**
     * The country code used for localization.
     *
     * @var int
     */
    private $countryCode;

    /**
     * Workbook.
     *
     * @var Spreadsheet
     */
    private $spreadsheet;

    /**
     * Fonts writers.
     *
     * @var Font[]
     */
    private $fontWriters = [];

    /**
     * Added fonts. Maps from font's hash => index in workbook.
     *
     * @var array
     */
    private $addedFonts = [];

    /**
     * Shared number formats.
     *
     * @var array
     */
    private $numberFormats = [];

    /**
     * Added number formats. Maps from numberFormat's hash => index
in workbook.
     *
     * @var array
     */
    private $addedNumberFormats = [];

    /**
     * Sizes of the binary worksheet streams.
     *
     * @var array
     */
    private $worksheetSizes = [];

    /**
     * Offsets of the binary worksheet streams relative to the start of the
global workbook stream.
     *
     * @var array
     */
    private $worksheetOffsets = [];

    /**
     * Total number of shared strings in workbook.
     *
     * @var int
     */
    private $stringTotal;

    /**
     * Number of unique shared strings in workbook.
     *
     * @var int
     */
    private $stringUnique;

    /**
     * Array of unique shared strings in workbook.
     *
     * @var array
     */
    private $stringTable;

    /**
     * Color cache.
     */
    private $colors;

    /**
     * Escher object corresponding to MSODRAWINGGROUP.
     *
     * @var \PhpOffice\PhpSpreadsheet\Shared\Escher
     */
    private $escher;

    /**
     * Class constructor.
     *
     * @param Spreadsheet $spreadsheet The Workbook
     * @param int $str_total Total number of strings
     * @param int $str_unique Total number of unique strings
     * @param array $str_table String Table
     * @param array $colors Colour Table
     * @param Parser $parser The formula parser created for the Workbook
     */
    public function __construct(Spreadsheet $spreadsheet, &$str_total,
&$str_unique, &$str_table, &$colors, Parser $parser)
    {
        // It needs to call its parent's constructor explicitly
        parent::__construct();

        $this->parser = $parser;
        $this->biffSize = 0;
        $this->palette = [];
        $this->countryCode = -1;

        $this->stringTotal = &$str_total;
        $this->stringUnique = &$str_unique;
        $this->stringTable = &$str_table;
        $this->colors = &$colors;
        $this->setPaletteXl97();

        $this->spreadsheet = $spreadsheet;

        $this->codepage = 0x04B0;

        // Add empty sheets and Build color cache
        $countSheets = $spreadsheet->getSheetCount();
        for ($i = 0; $i < $countSheets; ++$i) {
            $phpSheet = $spreadsheet->getSheet($i);

            $this->parser->setExtSheet($phpSheet->getTitle(), $i);
// Register worksheet name with parser

            $supbook_index = 0x00;
            $ref = pack('vvv', $supbook_index, $i, $i);
            $this->parser->references[] = $ref; // Register reference
with parser

            // Sheet tab colors?
            if ($phpSheet->isTabColorSet()) {
               
$this->addColor($phpSheet->getTabColor()->getRGB());
            }
        }
    }

    /**
     * Add a new XF writer.
     *
     * @param Style $style
     * @param bool $isStyleXf Is it a style XF?
     *
     * @return int Index to XF record
     */
    public function addXfWriter(Style $style, $isStyleXf = false)
    {
        $xfWriter = new Xf($style);
        $xfWriter->setIsStyleXf($isStyleXf);

        // Add the font if not already added
        $fontIndex = $this->addFont($style->getFont());

        // Assign the font index to the xf record
        $xfWriter->setFontIndex($fontIndex);

        // Background colors, best to treat these after the font so black
will come after white in custom palette
       
$xfWriter->setFgColor($this->addColor($style->getFill()->getStartColor()->getRGB()));
       
$xfWriter->setBgColor($this->addColor($style->getFill()->getEndColor()->getRGB()));
       
$xfWriter->setBottomColor($this->addColor($style->getBorders()->getBottom()->getColor()->getRGB()));
       
$xfWriter->setTopColor($this->addColor($style->getBorders()->getTop()->getColor()->getRGB()));
       
$xfWriter->setRightColor($this->addColor($style->getBorders()->getRight()->getColor()->getRGB()));
       
$xfWriter->setLeftColor($this->addColor($style->getBorders()->getLeft()->getColor()->getRGB()));
       
$xfWriter->setDiagColor($this->addColor($style->getBorders()->getDiagonal()->getColor()->getRGB()));

        // Add the number format if it is not a built-in one and not
already added
        if ($style->getNumberFormat()->getBuiltInFormatCode() ===
false) {
            $numberFormatHashCode =
$style->getNumberFormat()->getHashCode();

            if (isset($this->addedNumberFormats[$numberFormatHashCode]))
{
                $numberFormatIndex =
$this->addedNumberFormats[$numberFormatHashCode];
            } else {
                $numberFormatIndex = 164 + count($this->numberFormats);
                $this->numberFormats[$numberFormatIndex] =
$style->getNumberFormat();
                $this->addedNumberFormats[$numberFormatHashCode] =
$numberFormatIndex;
            }
        } else {
            $numberFormatIndex = (int)
$style->getNumberFormat()->getBuiltInFormatCode();
        }

        // Assign the number format index to xf record
        $xfWriter->setNumberFormatIndex($numberFormatIndex);

        $this->xfWriters[] = $xfWriter;

        return count($this->xfWriters) - 1;
    }

    /**
     * Add a font to added fonts.
     *
     * @param \PhpOffice\PhpSpreadsheet\Style\Font $font
     *
     * @return int Index to FONT record
     */
    public function addFont(\PhpOffice\PhpSpreadsheet\Style\Font $font)
    {
        $fontHashCode = $font->getHashCode();
        if (isset($this->addedFonts[$fontHashCode])) {
            $fontIndex = $this->addedFonts[$fontHashCode];
        } else {
            $countFonts = count($this->fontWriters);
            $fontIndex = ($countFonts < 4) ? $countFonts : $countFonts +
1;

            $fontWriter = new Font($font);
           
$fontWriter->setColorIndex($this->addColor($font->getColor()->getRGB()));
            $this->fontWriters[] = $fontWriter;

            $this->addedFonts[$fontHashCode] = $fontIndex;
        }

        return $fontIndex;
    }

    /**
     * Alter color palette adding a custom color.
     *
     * @param string $rgb E.g. 'FF00AA'
     *
     * @return int Color index
     */
    private function addColor($rgb)
    {
        if (!isset($this->colors[$rgb])) {
            $color =
                [
                    hexdec(substr($rgb, 0, 2)),
                    hexdec(substr($rgb, 2, 2)),
                    hexdec(substr($rgb, 4)),
                    0,
                ];
            $colorIndex = array_search($color, $this->palette);
            if ($colorIndex) {
                $this->colors[$rgb] = $colorIndex;
            } else {
                if (count($this->colors) === 0) {
                    $lastColor = 7;
                } else {
                    $lastColor = end($this->colors);
                }
                if ($lastColor < 57) {
                    // then we add a custom color altering the palette
                    $colorIndex = $lastColor + 1;
                    $this->palette[$colorIndex] = $color;
                    $this->colors[$rgb] = $colorIndex;
                } else {
                    // no room for more custom colors, just map to black
                    $colorIndex = 0;
                }
            }
        } else {
            // fetch already added custom color
            $colorIndex = $this->colors[$rgb];
        }

        return $colorIndex;
    }

    /**
     * Sets the colour palette to the Excel 97+ default.
     */
    private function setPaletteXl97()
    {
        $this->palette = [
            0x08 => [0x00, 0x00, 0x00, 0x00],
            0x09 => [0xff, 0xff, 0xff, 0x00],
            0x0A => [0xff, 0x00, 0x00, 0x00],
            0x0B => [0x00, 0xff, 0x00, 0x00],
            0x0C => [0x00, 0x00, 0xff, 0x00],
            0x0D => [0xff, 0xff, 0x00, 0x00],
            0x0E => [0xff, 0x00, 0xff, 0x00],
            0x0F => [0x00, 0xff, 0xff, 0x00],
            0x10 => [0x80, 0x00, 0x00, 0x00],
            0x11 => [0x00, 0x80, 0x00, 0x00],
            0x12 => [0x00, 0x00, 0x80, 0x00],
            0x13 => [0x80, 0x80, 0x00, 0x00],
            0x14 => [0x80, 0x00, 0x80, 0x00],
            0x15 => [0x00, 0x80, 0x80, 0x00],
            0x16 => [0xc0, 0xc0, 0xc0, 0x00],
            0x17 => [0x80, 0x80, 0x80, 0x00],
            0x18 => [0x99, 0x99, 0xff, 0x00],
            0x19 => [0x99, 0x33, 0x66, 0x00],
            0x1A => [0xff, 0xff, 0xcc, 0x00],
            0x1B => [0xcc, 0xff, 0xff, 0x00],
            0x1C => [0x66, 0x00, 0x66, 0x00],
            0x1D => [0xff, 0x80, 0x80, 0x00],
            0x1E => [0x00, 0x66, 0xcc, 0x00],
            0x1F => [0xcc, 0xcc, 0xff, 0x00],
            0x20 => [0x00, 0x00, 0x80, 0x00],
            0x21 => [0xff, 0x00, 0xff, 0x00],
            0x22 => [0xff, 0xff, 0x00, 0x00],
            0x23 => [0x00, 0xff, 0xff, 0x00],
            0x24 => [0x80, 0x00, 0x80, 0x00],
            0x25 => [0x80, 0x00, 0x00, 0x00],
            0x26 => [0x00, 0x80, 0x80, 0x00],
            0x27 => [0x00, 0x00, 0xff, 0x00],
            0x28 => [0x00, 0xcc, 0xff, 0x00],
            0x29 => [0xcc, 0xff, 0xff, 0x00],
            0x2A => [0xcc, 0xff, 0xcc, 0x00],
            0x2B => [0xff, 0xff, 0x99, 0x00],
            0x2C => [0x99, 0xcc, 0xff, 0x00],
            0x2D => [0xff, 0x99, 0xcc, 0x00],
            0x2E => [0xcc, 0x99, 0xff, 0x00],
            0x2F => [0xff, 0xcc, 0x99, 0x00],
            0x30 => [0x33, 0x66, 0xff, 0x00],
            0x31 => [0x33, 0xcc, 0xcc, 0x00],
            0x32 => [0x99, 0xcc, 0x00, 0x00],
            0x33 => [0xff, 0xcc, 0x00, 0x00],
            0x34 => [0xff, 0x99, 0x00, 0x00],
            0x35 => [0xff, 0x66, 0x00, 0x00],
            0x36 => [0x66, 0x66, 0x99, 0x00],
            0x37 => [0x96, 0x96, 0x96, 0x00],
            0x38 => [0x00, 0x33, 0x66, 0x00],
            0x39 => [0x33, 0x99, 0x66, 0x00],
            0x3A => [0x00, 0x33, 0x00, 0x00],
            0x3B => [0x33, 0x33, 0x00, 0x00],
            0x3C => [0x99, 0x33, 0x00, 0x00],
            0x3D => [0x99, 0x33, 0x66, 0x00],
            0x3E => [0x33, 0x33, 0x99, 0x00],
            0x3F => [0x33, 0x33, 0x33, 0x00],
        ];
    }

    /**
     * Assemble worksheets into a workbook and send the BIFF data to an OLE
     * storage.
     *
     * @param array $pWorksheetSizes The sizes in bytes of the binary
worksheet streams
     *
     * @return string Binary data for workbook stream
     */
    public function writeWorkbook(array $pWorksheetSizes)
    {
        $this->worksheetSizes = $pWorksheetSizes;

        // Calculate the number of selected worksheet tabs and call the
finalization
        // methods for each worksheet
        $total_worksheets = $this->spreadsheet->getSheetCount();

        // Add part 1 of the Workbook globals, what goes before the SHEET
records
        $this->storeBof(0x0005);
        $this->writeCodepage();
        $this->writeWindow1();

        $this->writeDateMode();
        $this->writeAllFonts();
        $this->writeAllNumberFormats();
        $this->writeAllXfs();
        $this->writeAllStyles();
        $this->writePalette();

        // Prepare part 3 of the workbook global stream, what goes after
the SHEET records
        $part3 = '';
        if ($this->countryCode !== -1) {
            $part3 .= $this->writeCountry();
        }
        $part3 .= $this->writeRecalcId();

        $part3 .= $this->writeSupbookInternal();
        /* TODO: store external SUPBOOK records and XCT and CRN records
        in case of external references for BIFF8 */
        $part3 .= $this->writeExternalsheetBiff8();
        $part3 .= $this->writeAllDefinedNamesBiff8();
        $part3 .= $this->writeMsoDrawingGroup();
        $part3 .= $this->writeSharedStringsTable();

        $part3 .= $this->writeEof();

        // Add part 2 of the Workbook globals, the SHEET records
        $this->calcSheetOffsets();
        for ($i = 0; $i < $total_worksheets; ++$i) {
           
$this->writeBoundSheet($this->spreadsheet->getSheet($i),
$this->worksheetOffsets[$i]);
        }

        // Add part 3 of the Workbook globals
        $this->_data .= $part3;

        return $this->_data;
    }

    /**
     * Calculate offsets for Worksheet BOF records.
     */
    private function calcSheetOffsets()
    {
        $boundsheet_length = 10; // fixed length for a BOUNDSHEET record

        // size of Workbook globals part 1 + 3
        $offset = $this->_datasize;

        // add size of Workbook globals part 2, the length of the SHEET
records
        $total_worksheets =
count($this->spreadsheet->getAllSheets());
        foreach ($this->spreadsheet->getWorksheetIterator() as
$sheet) {
            $offset += $boundsheet_length +
strlen(StringHelper::UTF8toBIFF8UnicodeShort($sheet->getTitle()));
        }

        // add the sizes of each of the Sheet substreams, respectively
        for ($i = 0; $i < $total_worksheets; ++$i) {
            $this->worksheetOffsets[$i] = $offset;
            $offset += $this->worksheetSizes[$i];
        }
        $this->biffSize = $offset;
    }

    /**
     * Store the Excel FONT records.
     */
    private function writeAllFonts()
    {
        foreach ($this->fontWriters as $fontWriter) {
            $this->append($fontWriter->writeFont());
        }
    }

    /**
     * Store user defined numerical formats i.e. FORMAT records.
     */
    private function writeAllNumberFormats()
    {
        foreach ($this->numberFormats as $numberFormatIndex =>
$numberFormat) {
            $this->writeNumberFormat($numberFormat->getFormatCode(),
$numberFormatIndex);
        }
    }

    /**
     * Write all XF records.
     */
    private function writeAllXfs()
    {
        foreach ($this->xfWriters as $xfWriter) {
            $this->append($xfWriter->writeXf());
        }
    }

    /**
     * Write all STYLE records.
     */
    private function writeAllStyles()
    {
        $this->writeStyle();
    }

    /**
     * Writes all the DEFINEDNAME records (BIFF8).
     * So far this is only used for repeating rows/columns (print titles)
and print areas.
     */
    private function writeAllDefinedNamesBiff8()
    {
        $chunk = '';

        // Named ranges
        if (count($this->spreadsheet->getNamedRanges()) > 0) {
            // Loop named ranges
            $namedRanges = $this->spreadsheet->getNamedRanges();
            foreach ($namedRanges as $namedRange) {
                // Create absolute coordinate
                $range =
Coordinate::splitRange($namedRange->getRange());
                $iMax = count($range);
                for ($i = 0; $i < $iMax; ++$i) {
                    $range[$i][0] = '\'' .
str_replace("'", "''",
$namedRange->getWorksheet()->getTitle()) . '\'!' .
Coordinate::absoluteCoordinate($range[$i][0]);
                    if (isset($range[$i][1])) {
                        $range[$i][1] =
Coordinate::absoluteCoordinate($range[$i][1]);
                    }
                }
                $range = Coordinate::buildRange($range); // e.g.
Sheet1!$A$1:$B$2

                // parse formula
                try {
                    $error = $this->parser->parse($range);
                    $formulaData = $this->parser->toReversePolish();

                    // make sure tRef3d is of type tRef3dR (0x3A)
                    if (isset($formulaData[0]) and ($formulaData[0] ==
"\x7A" or $formulaData[0] == "\x5A")) {
                        $formulaData = "\x3A" .
substr($formulaData, 1);
                    }

                    if ($namedRange->getLocalOnly()) {
                        // local scope
                        $scope =
$this->spreadsheet->getIndex($namedRange->getScope()) + 1;
                    } else {
                        // global scope
                        $scope = 0;
                    }
                    $chunk .=
$this->writeData($this->writeDefinedNameBiff8($namedRange->getName(),
$formulaData, $scope, false));
                } catch (PhpSpreadsheetException $e) {
                    // do nothing
                }
            }
        }

        // total number of sheets
        $total_worksheets = $this->spreadsheet->getSheetCount();

        // write the print titles (repeating rows, columns), if any
        for ($i = 0; $i < $total_worksheets; ++$i) {
            $sheetSetup =
$this->spreadsheet->getSheet($i)->getPageSetup();
            // simultaneous repeatColumns repeatRows
            if ($sheetSetup->isColumnsToRepeatAtLeftSet() &&
$sheetSetup->isRowsToRepeatAtTopSet()) {
                $repeat = $sheetSetup->getColumnsToRepeatAtLeft();
                $colmin = Coordinate::columnIndexFromString($repeat[0]) -
1;
                $colmax = Coordinate::columnIndexFromString($repeat[1]) -
1;

                $repeat = $sheetSetup->getRowsToRepeatAtTop();
                $rowmin = $repeat[0] - 1;
                $rowmax = $repeat[1] - 1;

                // construct formula data manually
                $formulaData = pack('Cv', 0x29, 0x17); //
tMemFunc
                $formulaData .= pack('Cvvvvv', 0x3B, $i, 0,
65535, $colmin, $colmax); // tArea3d
                $formulaData .= pack('Cvvvvv', 0x3B, $i, $rowmin,
$rowmax, 0, 255); // tArea3d
                $formulaData .= pack('C', 0x10); // tList

                // store the DEFINEDNAME record
                $chunk .=
$this->writeData($this->writeDefinedNameBiff8(pack('C',
0x07), $formulaData, $i + 1, true));

            // (exclusive) either repeatColumns or repeatRows
            } elseif ($sheetSetup->isColumnsToRepeatAtLeftSet() ||
$sheetSetup->isRowsToRepeatAtTopSet()) {
                // Columns to repeat
                if ($sheetSetup->isColumnsToRepeatAtLeftSet()) {
                    $repeat = $sheetSetup->getColumnsToRepeatAtLeft();
                    $colmin = Coordinate::columnIndexFromString($repeat[0])
- 1;
                    $colmax = Coordinate::columnIndexFromString($repeat[1])
- 1;
                } else {
                    $colmin = 0;
                    $colmax = 255;
                }
                // Rows to repeat
                if ($sheetSetup->isRowsToRepeatAtTopSet()) {
                    $repeat = $sheetSetup->getRowsToRepeatAtTop();
                    $rowmin = $repeat[0] - 1;
                    $rowmax = $repeat[1] - 1;
                } else {
                    $rowmin = 0;
                    $rowmax = 65535;
                }

                // construct formula data manually because parser does not
recognize absolute 3d cell references
                $formulaData = pack('Cvvvvv', 0x3B, $i, $rowmin,
$rowmax, $colmin, $colmax);

                // store the DEFINEDNAME record
                $chunk .=
$this->writeData($this->writeDefinedNameBiff8(pack('C',
0x07), $formulaData, $i + 1, true));
            }
        }

        // write the print areas, if any
        for ($i = 0; $i < $total_worksheets; ++$i) {
            $sheetSetup =
$this->spreadsheet->getSheet($i)->getPageSetup();
            if ($sheetSetup->isPrintAreaSet()) {
                // Print area, e.g. A3:J6,H1:X20
                $printArea =
Coordinate::splitRange($sheetSetup->getPrintArea());
                $countPrintArea = count($printArea);

                $formulaData = '';
                for ($j = 0; $j < $countPrintArea; ++$j) {
                    $printAreaRect = $printArea[$j]; // e.g. A3:J6
                    $printAreaRect[0] =
Coordinate::coordinateFromString($printAreaRect[0]);
                    $printAreaRect[1] =
Coordinate::coordinateFromString($printAreaRect[1]);

                    $print_rowmin = $printAreaRect[0][1] - 1;
                    $print_rowmax = $printAreaRect[1][1] - 1;
                    $print_colmin =
Coordinate::columnIndexFromString($printAreaRect[0][0]) - 1;
                    $print_colmax =
Coordinate::columnIndexFromString($printAreaRect[1][0]) - 1;

                    // construct formula data manually because parser does
not recognize absolute 3d cell references
                    $formulaData .= pack('Cvvvvv', 0x3B, $i,
$print_rowmin, $print_rowmax, $print_colmin, $print_colmax);

                    if ($j > 0) {
                        $formulaData .= pack('C', 0x10); // list
operator token ','
                    }
                }

                // store the DEFINEDNAME record
                $chunk .=
$this->writeData($this->writeDefinedNameBiff8(pack('C',
0x06), $formulaData, $i + 1, true));
            }
        }

        // write autofilters, if any
        for ($i = 0; $i < $total_worksheets; ++$i) {
            $sheetAutoFilter =
$this->spreadsheet->getSheet($i)->getAutoFilter();
            $autoFilterRange = $sheetAutoFilter->getRange();
            if (!empty($autoFilterRange)) {
                $rangeBounds =
Coordinate::rangeBoundaries($autoFilterRange);

                //Autofilter built in name
                $name = pack('C', 0x0D);

                $chunk .=
$this->writeData($this->writeShortNameBiff8($name, $i + 1,
$rangeBounds, true));
            }
        }

        return $chunk;
    }

    /**
     * Write a DEFINEDNAME record for BIFF8 using explicit binary formula
data.
     *
     * @param string $name The name in UTF-8
     * @param string $formulaData The binary formula data
     * @param int $sheetIndex 1-based sheet index the defined name applies
to. 0 = global
     * @param bool $isBuiltIn Built-in name?
     *
     * @return string Complete binary record data
     */
    private function writeDefinedNameBiff8($name, $formulaData, $sheetIndex
= 0, $isBuiltIn = false)
    {
        $record = 0x0018;

        // option flags
        $options = $isBuiltIn ? 0x20 : 0x00;

        // length of the name, character count
        $nlen = StringHelper::countCharacters($name);

        // name with stripped length field
        $name = substr(StringHelper::UTF8toBIFF8UnicodeLong($name), 2);

        // size of the formula (in bytes)
        $sz = strlen($formulaData);

        // combine the parts
        $data = pack('vCCvvvCCCC', $options, 0, $nlen, $sz, 0,
$sheetIndex, 0, 0, 0, 0)
            . $name . $formulaData;
        $length = strlen($data);

        $header = pack('vv', $record, $length);

        return $header . $data;
    }

    /**
     * Write a short NAME record.
     *
     * @param string $name
     * @param string $sheetIndex 1-based sheet index the defined name
applies to. 0 = global
     * @param integer[][] $rangeBounds range boundaries
     * @param bool $isHidden
     *
     * @return string Complete binary record data
     * */
    private function writeShortNameBiff8($name, $sheetIndex, $rangeBounds,
$isHidden = false)
    {
        $record = 0x0018;

        // option flags
        $options = ($isHidden ? 0x21 : 0x00);

        $extra = pack(
            'Cvvvvv',
            0x3B,
            $sheetIndex - 1,
            $rangeBounds[0][1] - 1,
            $rangeBounds[1][1] - 1,
            $rangeBounds[0][0] - 1,
            $rangeBounds[1][0] - 1
        );

        // size of the formula (in bytes)
        $sz = strlen($extra);

        // combine the parts
        $data = pack('vCCvvvCCCCC', $options, 0, 1, $sz, 0,
$sheetIndex, 0, 0, 0, 0, 0)
            . $name . $extra;
        $length = strlen($data);

        $header = pack('vv', $record, $length);

        return $header . $data;
    }

    /**
     * Stores the CODEPAGE biff record.
     */
    private function writeCodepage()
    {
        $record = 0x0042; // Record identifier
        $length = 0x0002; // Number of bytes to follow
        $cv = $this->codepage; // The code page

        $header = pack('vv', $record, $length);
        $data = pack('v', $cv);

        $this->append($header . $data);
    }

    /**
     * Write Excel BIFF WINDOW1 record.
     */
    private function writeWindow1()
    {
        $record = 0x003D; // Record identifier
        $length = 0x0012; // Number of bytes to follow

        $xWn = 0x0000; // Horizontal position of window
        $yWn = 0x0000; // Vertical position of window
        $dxWn = 0x25BC; // Width of window
        $dyWn = 0x1572; // Height of window

        $grbit = 0x0038; // Option flags

        // not supported by PhpSpreadsheet, so there is only one selected
sheet, the active
        $ctabsel = 1; // Number of workbook tabs selected

        $wTabRatio = 0x0258; // Tab to scrollbar ratio

        // not supported by PhpSpreadsheet, set to 0
        $itabFirst = 0; // 1st displayed worksheet
        $itabCur = $this->spreadsheet->getActiveSheetIndex(); //
Active worksheet

        $header = pack('vv', $record, $length);
        $data = pack('vvvvvvvvv', $xWn, $yWn, $dxWn, $dyWn,
$grbit, $itabCur, $itabFirst, $ctabsel, $wTabRatio);
        $this->append($header . $data);
    }

    /**
     * Writes Excel BIFF BOUNDSHEET record.
     *
     * @param Worksheet $sheet Worksheet name
     * @param int $offset Location of worksheet BOF
     */
    private function writeBoundSheet($sheet, $offset)
    {
        $sheetname = $sheet->getTitle();
        $record = 0x0085; // Record identifier

        // sheet state
        switch ($sheet->getSheetState()) {
            case
\PhpOffice\PhpSpreadsheet\Worksheet\Worksheet::SHEETSTATE_VISIBLE:
                $ss = 0x00;

                break;
            case
\PhpOffice\PhpSpreadsheet\Worksheet\Worksheet::SHEETSTATE_HIDDEN:
                $ss = 0x01;

                break;
            case
\PhpOffice\PhpSpreadsheet\Worksheet\Worksheet::SHEETSTATE_VERYHIDDEN:
                $ss = 0x02;

                break;
            default:
                $ss = 0x00;

                break;
        }

        // sheet type
        $st = 0x00;

        $grbit = 0x0000; // Visibility and sheet type

        $data = pack('VCC', $offset, $ss, $st);
        $data .= StringHelper::UTF8toBIFF8UnicodeShort($sheetname);

        $length = strlen($data);
        $header = pack('vv', $record, $length);
        $this->append($header . $data);
    }

    /**
     * Write Internal SUPBOOK record.
     */
    private function writeSupbookInternal()
    {
        $record = 0x01AE; // Record identifier
        $length = 0x0004; // Bytes to follow

        $header = pack('vv', $record, $length);
        $data = pack('vv',
$this->spreadsheet->getSheetCount(), 0x0401);

        return $this->writeData($header . $data);
    }

    /**
     * Writes the Excel BIFF EXTERNSHEET record. These references are used
by
     * formulas.
     */
    private function writeExternalsheetBiff8()
    {
        $totalReferences = count($this->parser->references);
        $record = 0x0017; // Record identifier
        $length = 2 + 6 * $totalReferences; // Number of bytes to follow

        $supbook_index = 0; // FIXME: only using internal SUPBOOK record
        $header = pack('vv', $record, $length);
        $data = pack('v', $totalReferences);
        for ($i = 0; $i < $totalReferences; ++$i) {
            $data .= $this->parser->references[$i];
        }

        return $this->writeData($header . $data);
    }

    /**
     * Write Excel BIFF STYLE records.
     */
    private function writeStyle()
    {
        $record = 0x0293; // Record identifier
        $length = 0x0004; // Bytes to follow

        $ixfe = 0x8000; // Index to cell style XF
        $BuiltIn = 0x00; // Built-in style
        $iLevel = 0xff; // Outline style level

        $header = pack('vv', $record, $length);
        $data = pack('vCC', $ixfe, $BuiltIn, $iLevel);
        $this->append($header . $data);
    }

    /**
     * Writes Excel FORMAT record for non "built-in" numerical
formats.
     *
     * @param string $format Custom format string
     * @param int $ifmt Format index code
     */
    private function writeNumberFormat($format, $ifmt)
    {
        $record = 0x041E; // Record identifier

        $numberFormatString =
StringHelper::UTF8toBIFF8UnicodeLong($format);
        $length = 2 + strlen($numberFormatString); // Number of bytes to
follow

        $header = pack('vv', $record, $length);
        $data = pack('v', $ifmt) . $numberFormatString;
        $this->append($header . $data);
    }

    /**
     * Write DATEMODE record to indicate the date system in use (1904 or
1900).
     */
    private function writeDateMode()
    {
        $record = 0x0022; // Record identifier
        $length = 0x0002; // Bytes to follow

        $f1904 = (Date::getExcelCalendar() === Date::CALENDAR_MAC_1904)
            ? 1
            : 0; // Flag for 1904 date system

        $header = pack('vv', $record, $length);
        $data = pack('v', $f1904);
        $this->append($header . $data);
    }

    /**
     * Stores the COUNTRY record for localization.
     *
     * @return string
     */
    private function writeCountry()
    {
        $record = 0x008C; // Record identifier
        $length = 4; // Number of bytes to follow

        $header = pack('vv', $record, $length);
        // using the same country code always for simplicity
        $data = pack('vv', $this->countryCode,
$this->countryCode);

        return $this->writeData($header . $data);
    }

    /**
     * Write the RECALCID record.
     *
     * @return string
     */
    private function writeRecalcId()
    {
        $record = 0x01C1; // Record identifier
        $length = 8; // Number of bytes to follow

        $header = pack('vv', $record, $length);

        // by inspection of real Excel files, MS Office Excel 2007 writes
this
        $data = pack('VV', 0x000001C1, 0x00001E667);

        return $this->writeData($header . $data);
    }

    /**
     * Stores the PALETTE biff record.
     */
    private function writePalette()
    {
        $aref = $this->palette;

        $record = 0x0092; // Record identifier
        $length = 2 + 4 * count($aref); // Number of bytes to follow
        $ccv = count($aref); // Number of RGB values to follow
        $data = ''; // The RGB data

        // Pack the RGB data
        foreach ($aref as $color) {
            foreach ($color as $byte) {
                $data .= pack('C', $byte);
            }
        }

        $header = pack('vvv', $record, $length, $ccv);
        $this->append($header . $data);
    }

    /**
     * Handling of the SST continue blocks is complicated by the need to
include an
     * additional continuation byte depending on whether the string is
split between
     * blocks or whether it starts at the beginning of the block. (There
are also
     * additional complications that will arise later when/if Rich Strings
are
     * supported).
     *
     * The Excel documentation says that the SST record should be followed
by an
     * EXTSST record. The EXTSST record is a hash table that is used to
optimise
     * access to SST. However, despite the documentation it doesn't
seem to be
     * required so we will ignore it.
     *
     * @return string Binary data
     */
    private function writeSharedStringsTable()
    {
        // maximum size of record data (excluding record header)
        $continue_limit = 8224;

        // initialize array of record data blocks
        $recordDatas = [];

        // start SST record data block with total number of strings, total
number of unique strings
        $recordData = pack('VV', $this->stringTotal,
$this->stringUnique);

        // loop through all (unique) strings in shared strings table
        foreach (array_keys($this->stringTable) as $string) {
            // here $string is a BIFF8 encoded string

            // length = character count
            $headerinfo = unpack('vlength/Cencoding', $string);

            // currently, this is always 1 = uncompressed
            $encoding = $headerinfo['encoding'];

            // initialize finished writing current $string
            $finished = false;

            while ($finished === false) {
                // normally, there will be only one cycle, but if string
cannot immediately be written as is
                // there will be need for more than one cylcle, if string
longer than one record data block, there
                // may be need for even more cycles

                if (strlen($recordData) + strlen($string) <=
$continue_limit) {
                    // then we can write the string (or remainder of
string) without any problems
                    $recordData .= $string;

                    if (strlen($recordData) + strlen($string) ==
$continue_limit) {
                        // we close the record data block, and initialize a
new one
                        $recordDatas[] = $recordData;
                        $recordData = '';
                    }

                    // we are finished writing this string
                    $finished = true;
                } else {
                    // special treatment writing the string (or remainder
of the string)
                    // If the string is very long it may need to be written
in more than one CONTINUE record.

                    // check how many bytes more there is room for in the
current record
                    $space_remaining = $continue_limit -
strlen($recordData);

                    // minimum space needed
                    // uncompressed: 2 byte string length length field + 1
byte option flags + 2 byte character
                    // compressed:   2 byte string length length field + 1
byte option flags + 1 byte character
                    $min_space_needed = ($encoding == 1) ? 5 : 4;

                    // We have two cases
                    // 1. space remaining is less than minimum space needed
                    //        here we must waste the space remaining and
move to next record data block
                    // 2. space remaining is greater than or equal to
minimum space needed
                    //        here we write as much as we can in the
current block, then move to next record data block

                    // 1. space remaining is less than minimum space needed
                    if ($space_remaining < $min_space_needed) {
                        // we close the block, store the block data
                        $recordDatas[] = $recordData;

                        // and start new record data block where we start
writing the string
                        $recordData = '';

                    // 2. space remaining is greater than or equal to
minimum space needed
                    } else {
                        // initialize effective remaining space, for
Unicode strings this may need to be reduced by 1, see below
                        $effective_space_remaining = $space_remaining;

                        // for uncompressed strings, sometimes effective
space remaining is reduced by 1
                        if ($encoding == 1 && (strlen($string) -
$space_remaining) % 2 == 1) {
                            --$effective_space_remaining;
                        }

                        // one block fininshed, store the block data
                        $recordData .= substr($string, 0,
$effective_space_remaining);

                        $string = substr($string,
$effective_space_remaining); // for next cycle in while loop
                        $recordDatas[] = $recordData;

                        // start new record data block with the repeated
option flags
                        $recordData = pack('C', $encoding);
                    }
                }
            }
        }

        // Store the last record data block unless it is empty
        // if there was no need for any continue records, this will be the
for SST record data block itself
        if (strlen($recordData) > 0) {
            $recordDatas[] = $recordData;
        }

        // combine into one chunk with all the blocks SST, CONTINUE,...
        $chunk = '';
        foreach ($recordDatas as $i => $recordData) {
            // first block should have the SST record header, remaing
should have CONTINUE header
            $record = ($i == 0) ? 0x00FC : 0x003C;

            $header = pack('vv', $record, strlen($recordData));
            $data = $header . $recordData;

            $chunk .= $this->writeData($data);
        }

        return $chunk;
    }

    /**
     * Writes the MSODRAWINGGROUP record if needed. Possibly split using
CONTINUE records.
     */
    private function writeMsoDrawingGroup()
    {
        // write the Escher stream if necessary
        if (isset($this->escher)) {
            $writer = new Escher($this->escher);
            $data = $writer->close();

            $record = 0x00EB;
            $length = strlen($data);
            $header = pack('vv', $record, $length);

            return $this->writeData($header . $data);
        }

        return '';
    }

    /**
     * Get Escher object.
     *
     * @return \PhpOffice\PhpSpreadsheet\Shared\Escher
     */
    public function getEscher()
    {
        return $this->escher;
    }

    /**
     * Set Escher object.
     *
     * @param \PhpOffice\PhpSpreadsheet\Shared\Escher $pValue
     */
    public function setEscher(\PhpOffice\PhpSpreadsheet\Shared\Escher
$pValue = null)
    {
        $this->escher = $pValue;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xls/Worksheet.php000064400000445727151165414060023265
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer\Xls;

use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\Cell\DataType;
use PhpOffice\PhpSpreadsheet\Cell\DataValidation;
use PhpOffice\PhpSpreadsheet\Exception as PhpSpreadsheetException;
use PhpOffice\PhpSpreadsheet\RichText\RichText;
use PhpOffice\PhpSpreadsheet\RichText\Run;
use PhpOffice\PhpSpreadsheet\Shared\StringHelper;
use PhpOffice\PhpSpreadsheet\Shared\Xls;
use PhpOffice\PhpSpreadsheet\Style\Alignment;
use PhpOffice\PhpSpreadsheet\Style\Border;
use PhpOffice\PhpSpreadsheet\Style\Color;
use PhpOffice\PhpSpreadsheet\Style\Conditional;
use PhpOffice\PhpSpreadsheet\Style\Fill;
use PhpOffice\PhpSpreadsheet\Style\Protection;
use PhpOffice\PhpSpreadsheet\Worksheet\PageSetup;
use PhpOffice\PhpSpreadsheet\Worksheet\SheetView;
use PhpOffice\PhpSpreadsheet\Writer\Exception as WriterException;

// Original file header of PEAR::Spreadsheet_Excel_Writer_Worksheet (used
as the base for this class):
//
-----------------------------------------------------------------------------------------
// /*
// *  Module written/ported by Xavier Noguer <xnoguer@rezebra.com>
// *
// *  The majority of this is _NOT_ my code.  I simply ported it from the
// *  PERL Spreadsheet::WriteExcel module.
// *
// *  The author of the Spreadsheet::WriteExcel module is John McNamara
// *  <jmcnamara@cpan.org>
// *
// *  I _DO_ maintain this code, and John McNamara has nothing to do with
the
// *  porting of this code to PHP.  Any questions directly related to this
// *  class library should be directed to me.
// *
// *  License Information:
// *
// *    Spreadsheet_Excel_Writer:  A library for generating Excel
Spreadsheets
// *    Copyright (c) 2002-2003 Xavier Noguer xnoguer@rezebra.com
// *
// *    This library is free software; you can redistribute it and/or
// *    modify it under the terms of the GNU Lesser General Public
// *    License as published by the Free Software Foundation; either
// *    version 2.1 of the License, or (at your option) any later version.
// *
// *    This library is distributed in the hope that it will be useful,
// *    but WITHOUT ANY WARRANTY; without even the implied warranty of
// *    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
// *    Lesser General Public License for more details.
// *
// *    You should have received a copy of the GNU Lesser General Public
// *    License along with this library; if not, write to the Free Software
// *    Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 
02111-1307  USA
// */
class Worksheet extends BIFFwriter
{
    /**
     * Formula parser.
     *
     * @var \PhpOffice\PhpSpreadsheet\Writer\Xls\Parser
     */
    private $parser;

    /**
     * Maximum number of characters for a string (LABEL record in BIFF5).
     *
     * @var int
     */
    private $xlsStringMaxLength;

    /**
     * Array containing format information for columns.
     *
     * @var array
     */
    private $columnInfo;

    /**
     * Array containing the selected area for the worksheet.
     *
     * @var array
     */
    private $selection;

    /**
     * The active pane for the worksheet.
     *
     * @var int
     */
    private $activePane;

    /**
     * Whether to use outline.
     *
     * @var int
     */
    private $outlineOn;

    /**
     * Auto outline styles.
     *
     * @var bool
     */
    private $outlineStyle;

    /**
     * Whether to have outline summary below.
     *
     * @var bool
     */
    private $outlineBelow;

    /**
     * Whether to have outline summary at the right.
     *
     * @var bool
     */
    private $outlineRight;

    /**
     * Reference to the total number of strings in the workbook.
     *
     * @var int
     */
    private $stringTotal;

    /**
     * Reference to the number of unique strings in the workbook.
     *
     * @var int
     */
    private $stringUnique;

    /**
     * Reference to the array containing all the unique strings in the
workbook.
     *
     * @var array
     */
    private $stringTable;

    /**
     * Color cache.
     */
    private $colors;

    /**
     * Index of first used row (at least 0).
     *
     * @var int
     */
    private $firstRowIndex;

    /**
     * Index of last used row. (no used rows means -1).
     *
     * @var int
     */
    private $lastRowIndex;

    /**
     * Index of first used column (at least 0).
     *
     * @var int
     */
    private $firstColumnIndex;

    /**
     * Index of last used column (no used columns means -1).
     *
     * @var int
     */
    private $lastColumnIndex;

    /**
     * Sheet object.
     *
     * @var \PhpOffice\PhpSpreadsheet\Worksheet\Worksheet
     */
    public $phpSheet;

    /**
     * Count cell style Xfs.
     *
     * @var int
     */
    private $countCellStyleXfs;

    /**
     * Escher object corresponding to MSODRAWING.
     *
     * @var \PhpOffice\PhpSpreadsheet\Shared\Escher
     */
    private $escher;

    /**
     * Array of font hashes associated to FONT records index.
     *
     * @var array
     */
    public $fontHashIndex;

    /**
     * @var bool
     */
    private $preCalculateFormulas;

    /**
     * @var int
     */
    private $printHeaders;

    /**
     * Constructor.
     *
     * @param int $str_total Total number of strings
     * @param int $str_unique Total number of unique strings
     * @param array &$str_table String Table
     * @param array &$colors Colour Table
     * @param Parser $parser The formula parser created for the Workbook
     * @param bool $preCalculateFormulas Flag indicating whether formulas
should be calculated or just written
     * @param \PhpOffice\PhpSpreadsheet\Worksheet\Worksheet $phpSheet The
worksheet to write
     */
    public function __construct(&$str_total, &$str_unique,
&$str_table, &$colors, Parser $parser, $preCalculateFormulas,
\PhpOffice\PhpSpreadsheet\Worksheet\Worksheet $phpSheet)
    {
        // It needs to call its parent's constructor explicitly
        parent::__construct();

        $this->preCalculateFormulas = $preCalculateFormulas;
        $this->stringTotal = &$str_total;
        $this->stringUnique = &$str_unique;
        $this->stringTable = &$str_table;
        $this->colors = &$colors;
        $this->parser = $parser;

        $this->phpSheet = $phpSheet;

        $this->xlsStringMaxLength = 255;
        $this->columnInfo = [];
        $this->selection = [0, 0, 0, 0];
        $this->activePane = 3;

        $this->printHeaders = 0;

        $this->outlineStyle = 0;
        $this->outlineBelow = 1;
        $this->outlineRight = 1;
        $this->outlineOn = 1;

        $this->fontHashIndex = [];

        // calculate values for DIMENSIONS record
        $minR = 1;
        $minC = 'A';

        $maxR = $this->phpSheet->getHighestRow();
        $maxC = $this->phpSheet->getHighestColumn();

        // Determine lowest and highest column and row
        $this->lastRowIndex = ($maxR > 65535) ? 65535 : $maxR;

        $this->firstColumnIndex =
Coordinate::columnIndexFromString($minC);
        $this->lastColumnIndex =
Coordinate::columnIndexFromString($maxC);

//        if ($this->firstColumnIndex > 255)
$this->firstColumnIndex = 255;
        if ($this->lastColumnIndex > 255) {
            $this->lastColumnIndex = 255;
        }

        $this->countCellStyleXfs =
count($phpSheet->getParent()->getCellStyleXfCollection());
    }

    /**
     * Add data to the beginning of the workbook (note the reverse order)
     * and to the end of the workbook.
     *
     * @see \PhpOffice\PhpSpreadsheet\Writer\Xls\Workbook::storeWorkbook()
     */
    public function close()
    {
        $phpSheet = $this->phpSheet;

        // Storing selected cells and active sheet because it changes while
parsing cells with formulas.
        $selectedCells = $this->phpSheet->getSelectedCells();
        $activeSheetIndex =
$this->phpSheet->getParent()->getActiveSheetIndex();

        // Write BOF record
        $this->storeBof(0x0010);

        // Write PRINTHEADERS
        $this->writePrintHeaders();

        // Write PRINTGRIDLINES
        $this->writePrintGridlines();

        // Write GRIDSET
        $this->writeGridset();

        // Calculate column widths
        $phpSheet->calculateColumnWidths();

        // Column dimensions
        if (($defaultWidth =
$phpSheet->getDefaultColumnDimension()->getWidth()) < 0) {
            $defaultWidth =
\PhpOffice\PhpSpreadsheet\Shared\Font::getDefaultColumnWidthByFont($phpSheet->getParent()->getDefaultStyle()->getFont());
        }

        $columnDimensions = $phpSheet->getColumnDimensions();
        $maxCol = $this->lastColumnIndex - 1;
        for ($i = 0; $i <= $maxCol; ++$i) {
            $hidden = 0;
            $level = 0;
            $xfIndex = 15; // there are 15 cell style Xfs

            $width = $defaultWidth;

            $columnLetter = Coordinate::stringFromColumnIndex($i + 1);
            if (isset($columnDimensions[$columnLetter])) {
                $columnDimension = $columnDimensions[$columnLetter];
                if ($columnDimension->getWidth() >= 0) {
                    $width = $columnDimension->getWidth();
                }
                $hidden = $columnDimension->getVisible() ? 0 : 1;
                $level = $columnDimension->getOutlineLevel();
                $xfIndex = $columnDimension->getXfIndex() + 15; // there
are 15 cell style Xfs
            }

            // Components of columnInfo:
            // $firstcol first column on the range
            // $lastcol  last column on the range
            // $width    width to set
            // $xfIndex  The optional cell style Xf index to apply to the
columns
            // $hidden   The optional hidden atribute
            // $level    The optional outline level
            $this->columnInfo[] = [$i, $i, $width, $xfIndex, $hidden,
$level];
        }

        // Write GUTS
        $this->writeGuts();

        // Write DEFAULTROWHEIGHT
        $this->writeDefaultRowHeight();
        // Write WSBOOL
        $this->writeWsbool();
        // Write horizontal and vertical page breaks
        $this->writeBreaks();
        // Write page header
        $this->writeHeader();
        // Write page footer
        $this->writeFooter();
        // Write page horizontal centering
        $this->writeHcenter();
        // Write page vertical centering
        $this->writeVcenter();
        // Write left margin
        $this->writeMarginLeft();
        // Write right margin
        $this->writeMarginRight();
        // Write top margin
        $this->writeMarginTop();
        // Write bottom margin
        $this->writeMarginBottom();
        // Write page setup
        $this->writeSetup();
        // Write sheet protection
        $this->writeProtect();
        // Write SCENPROTECT
        $this->writeScenProtect();
        // Write OBJECTPROTECT
        $this->writeObjectProtect();
        // Write sheet password
        $this->writePassword();
        // Write DEFCOLWIDTH record
        $this->writeDefcol();

        // Write the COLINFO records if they exist
        if (!empty($this->columnInfo)) {
            $colcount = count($this->columnInfo);
            for ($i = 0; $i < $colcount; ++$i) {
                $this->writeColinfo($this->columnInfo[$i]);
            }
        }
        $autoFilterRange = $phpSheet->getAutoFilter()->getRange();
        if (!empty($autoFilterRange)) {
            // Write AUTOFILTERINFO
            $this->writeAutoFilterInfo();
        }

        // Write sheet dimensions
        $this->writeDimensions();

        // Row dimensions
        foreach ($phpSheet->getRowDimensions() as $rowDimension) {
            $xfIndex = $rowDimension->getXfIndex() + 15; // there are 15
cellXfs
            $this->writeRow($rowDimension->getRowIndex() - 1,
$rowDimension->getRowHeight(), $xfIndex, ($rowDimension->getVisible()
? '0' : '1'), $rowDimension->getOutlineLevel());
        }

        // Write Cells
        foreach ($phpSheet->getCoordinates() as $coordinate) {
            $cell = $phpSheet->getCell($coordinate);
            $row = $cell->getRow() - 1;
            $column =
Coordinate::columnIndexFromString($cell->getColumn()) - 1;

            // Don't break Excel break the code!
            if ($row > 65535 || $column > 255) {
                throw new WriterException('Rows or columns overflow!
Excel5 has limit to 65535 rows and 255 columns. Use XLSX instead.');
            }

            // Write cell value
            $xfIndex = $cell->getXfIndex() + 15; // there are 15 cell
style Xfs

            $cVal = $cell->getValue();
            if ($cVal instanceof RichText) {
                $arrcRun = [];
                $str_len =
StringHelper::countCharacters($cVal->getPlainText(), 'UTF-8');
                $str_pos = 0;
                $elements = $cVal->getRichTextElements();
                foreach ($elements as $element) {
                    // FONT Index
                    if ($element instanceof Run) {
                        $str_fontidx =
$this->fontHashIndex[$element->getFont()->getHashCode()];
                    } else {
                        $str_fontidx = 0;
                    }
                    $arrcRun[] = ['strlen' => $str_pos,
'fontidx' => $str_fontidx];
                    // Position FROM
                    $str_pos +=
StringHelper::countCharacters($element->getText(), 'UTF-8');
                }
                $this->writeRichTextString($row, $column,
$cVal->getPlainText(), $xfIndex, $arrcRun);
            } else {
                switch ($cell->getDatatype()) {
                    case DataType::TYPE_STRING:
                    case DataType::TYPE_NULL:
                        if ($cVal === '' || $cVal === null) {
                            $this->writeBlank($row, $column, $xfIndex);
                        } else {
                            $this->writeString($row, $column, $cVal,
$xfIndex);
                        }

                        break;
                    case DataType::TYPE_NUMERIC:
                        $this->writeNumber($row, $column, $cVal,
$xfIndex);

                        break;
                    case DataType::TYPE_FORMULA:
                        $calculatedValue = $this->preCalculateFormulas ?
                            $cell->getCalculatedValue() : null;
                        if (self::WRITE_FORMULA_EXCEPTION ==
$this->writeFormula($row, $column, $cVal, $xfIndex, $calculatedValue)) {
                            if ($calculatedValue === null) {
                                $calculatedValue =
$cell->getCalculatedValue();
                            }
                            $calctype = gettype($calculatedValue);
                            switch ($calctype) {
                                case 'integer':
                                case 'double':
                                    $this->writeNumber($row, $column,
$calculatedValue, $xfIndex);

                                    break;
                                case 'string':
                                    $this->writeString($row, $column,
$calculatedValue, $xfIndex);

                                    break;
                                case 'boolean':
                                    $this->writeBoolErr($row, $column,
$calculatedValue, 0, $xfIndex);

                                    break;
                                default:
                                    $this->writeString($row, $column,
$cVal, $xfIndex);
                            }
                        }

                        break;
                    case DataType::TYPE_BOOL:
                        $this->writeBoolErr($row, $column, $cVal, 0,
$xfIndex);

                        break;
                    case DataType::TYPE_ERROR:
                        $this->writeBoolErr($row, $column,
self::mapErrorCode($cVal), 1, $xfIndex);

                        break;
                }
            }
        }

        // Append
        $this->writeMsoDrawing();

        // Restoring active sheet.
       
$this->phpSheet->getParent()->setActiveSheetIndex($activeSheetIndex);

        // Write WINDOW2 record
        $this->writeWindow2();

        // Write PLV record
        $this->writePageLayoutView();

        // Write ZOOM record
        $this->writeZoom();
        if ($phpSheet->getFreezePane()) {
            $this->writePanes();
        }

        // Restoring selected cells.
        $this->phpSheet->setSelectedCells($selectedCells);

        // Write SELECTION record
        $this->writeSelection();

        // Write MergedCellsTable Record
        $this->writeMergedCells();

        // Hyperlinks
        foreach ($phpSheet->getHyperLinkCollection() as $coordinate
=> $hyperlink) {
            [$column, $row] =
Coordinate::coordinateFromString($coordinate);

            $url = $hyperlink->getUrl();

            if (strpos($url, 'sheet://') !== false) {
                // internal to current workbook
                $url = str_replace('sheet://',
'internal:', $url);
            } elseif
(preg_match('/^(http:|https:|ftp:|mailto:)/', $url)) {
                // URL
            } else {
                // external (local file)
                $url = 'external:' . $url;
            }

            $this->writeUrl($row - 1,
Coordinate::columnIndexFromString($column) - 1, $url);
        }

        $this->writeDataValidity();
        $this->writeSheetLayout();

        // Write SHEETPROTECTION record
        $this->writeSheetProtection();
        $this->writeRangeProtection();

        $arrConditionalStyles =
$phpSheet->getConditionalStylesCollection();
        if (!empty($arrConditionalStyles)) {
            $arrConditional = [];
            // @todo CFRule & CFHeader
            // Write CFHEADER record
            $this->writeCFHeader();
            // Write ConditionalFormattingTable records
            foreach ($arrConditionalStyles as $cellCoordinate =>
$conditionalStyles) {
                foreach ($conditionalStyles as $conditional) {
                    if ($conditional->getConditionType() ==
Conditional::CONDITION_EXPRESSION
                        || $conditional->getConditionType() ==
Conditional::CONDITION_CELLIS) {
                        if
(!isset($arrConditional[$conditional->getHashCode()])) {
                            // This hash code has been handled
                            $arrConditional[$conditional->getHashCode()]
= true;

                            // Write CFRULE record
                            $this->writeCFRule($conditional);
                        }
                    }
                }
            }
        }

        $this->storeEof();
    }

    /**
     * Write a cell range address in BIFF8
     * always fixed range
     * See section 2.5.14 in OpenOffice.org's Documentation of the
Microsoft Excel File Format.
     *
     * @param string $range E.g. 'A1' or 'A1:B6'
     *
     * @return string Binary data
     */
    private function writeBIFF8CellRangeAddressFixed($range)
    {
        $explodes = explode(':', $range);

        // extract first cell, e.g. 'A1'
        $firstCell = $explodes[0];

        // extract last cell, e.g. 'B6'
        if (count($explodes) == 1) {
            $lastCell = $firstCell;
        } else {
            $lastCell = $explodes[1];
        }

        $firstCellCoordinates =
Coordinate::coordinateFromString($firstCell); // e.g. [0, 1]
        $lastCellCoordinates = Coordinate::coordinateFromString($lastCell);
// e.g. [1, 6]

        return pack('vvvv', $firstCellCoordinates[1] - 1,
$lastCellCoordinates[1] - 1,
Coordinate::columnIndexFromString($firstCellCoordinates[0]) - 1,
Coordinate::columnIndexFromString($lastCellCoordinates[0]) - 1);
    }

    /**
     * Retrieves data from memory in one chunk, or from disk in $buffer
     * sized chunks.
     *
     * @return string The data
     */
    public function getData()
    {
        $buffer = 4096;

        // Return data stored in memory
        if (isset($this->_data)) {
            $tmp = $this->_data;
            unset($this->_data);

            return $tmp;
        }
        // No data to return
        return false;
    }

    /**
     * Set the option to print the row and column headers on the printed
page.
     *
     * @param int $print Whether to print the headers or not. Defaults to 1
(print).
     */
    public function printRowColHeaders($print = 1)
    {
        $this->printHeaders = $print;
    }

    /**
     * This method sets the properties for outlining and grouping. The
defaults
     * correspond to Excel's defaults.
     *
     * @param bool $visible
     * @param bool $symbols_below
     * @param bool $symbols_right
     * @param bool $auto_style
     */
    public function setOutline($visible = true, $symbols_below = true,
$symbols_right = true, $auto_style = false)
    {
        $this->outlineOn = $visible;
        $this->outlineBelow = $symbols_below;
        $this->outlineRight = $symbols_right;
        $this->outlineStyle = $auto_style;

        // Ensure this is a boolean vale for Window2
        if ($this->outlineOn) {
            $this->outlineOn = 1;
        }
    }

    /**
     * Write a double to the specified row and column (zero indexed).
     * An integer can be written as a double. Excel will display an
     * integer. $format is optional.
     *
     * Returns  0 : normal termination
     *         -2 : row or column out of range
     *
     * @param int $row Zero indexed row
     * @param int $col Zero indexed column
     * @param float $num The number to write
     * @param mixed $xfIndex The optional XF format
     *
     * @return int
     */
    private function writeNumber($row, $col, $num, $xfIndex)
    {
        $record = 0x0203; // Record identifier
        $length = 0x000E; // Number of bytes to follow

        $header = pack('vv', $record, $length);
        $data = pack('vvv', $row, $col, $xfIndex);
        $xl_double = pack('d', $num);
        if (self::getByteOrder()) { // if it's Big Endian
            $xl_double = strrev($xl_double);
        }

        $this->append($header . $data . $xl_double);

        return 0;
    }

    /**
     * Write a LABELSST record or a LABEL record. Which one depends on BIFF
version.
     *
     * @param int $row Row index (0-based)
     * @param int $col Column index (0-based)
     * @param string $str The string
     * @param int $xfIndex Index to XF record
     */
    private function writeString($row, $col, $str, $xfIndex)
    {
        $this->writeLabelSst($row, $col, $str, $xfIndex);
    }

    /**
     * Write a LABELSST record or a LABEL record. Which one depends on BIFF
version
     * It differs from writeString by the writing of rich text strings.
     *
     * @param int $row Row index (0-based)
     * @param int $col Column index (0-based)
     * @param string $str The string
     * @param int $xfIndex The XF format index for the cell
     * @param array $arrcRun Index to Font record and characters beginning
     */
    private function writeRichTextString($row, $col, $str, $xfIndex,
$arrcRun)
    {
        $record = 0x00FD; // Record identifier
        $length = 0x000A; // Bytes to follow
        $str = StringHelper::UTF8toBIFF8UnicodeShort($str, $arrcRun);

        // check if string is already present
        if (!isset($this->stringTable[$str])) {
            $this->stringTable[$str] = $this->stringUnique++;
        }
        ++$this->stringTotal;

        $header = pack('vv', $record, $length);
        $data = pack('vvvV', $row, $col, $xfIndex,
$this->stringTable[$str]);
        $this->append($header . $data);
    }

    /**
     * Write a string to the specified row and column (zero indexed).
     * This is the BIFF8 version (no 255 chars limit).
     * $format is optional.
     *
     * @param int $row Zero indexed row
     * @param int $col Zero indexed column
     * @param string $str The string to write
     * @param mixed $xfIndex The XF format index for the cell
     */
    private function writeLabelSst($row, $col, $str, $xfIndex)
    {
        $record = 0x00FD; // Record identifier
        $length = 0x000A; // Bytes to follow

        $str = StringHelper::UTF8toBIFF8UnicodeLong($str);

        // check if string is already present
        if (!isset($this->stringTable[$str])) {
            $this->stringTable[$str] = $this->stringUnique++;
        }
        ++$this->stringTotal;

        $header = pack('vv', $record, $length);
        $data = pack('vvvV', $row, $col, $xfIndex,
$this->stringTable[$str]);
        $this->append($header . $data);
    }

    /**
     * Write a blank cell to the specified row and column (zero indexed).
     * A blank cell is used to specify formatting without adding a string
     * or a number.
     *
     * A blank cell without a format serves no purpose. Therefore, we
don't write
     * a BLANK record unless a format is specified.
     *
     * Returns  0 : normal termination (including no format)
     *         -1 : insufficient number of arguments
     *         -2 : row or column out of range
     *
     * @param int $row Zero indexed row
     * @param int $col Zero indexed column
     * @param mixed $xfIndex The XF format index
     *
     * @return int
     */
    public function writeBlank($row, $col, $xfIndex)
    {
        $record = 0x0201; // Record identifier
        $length = 0x0006; // Number of bytes to follow

        $header = pack('vv', $record, $length);
        $data = pack('vvv', $row, $col, $xfIndex);
        $this->append($header . $data);

        return 0;
    }

    /**
     * Write a boolean or an error type to the specified row and column
(zero indexed).
     *
     * @param int $row Row index (0-based)
     * @param int $col Column index (0-based)
     * @param int $value
     * @param bool $isError Error or Boolean?
     * @param int $xfIndex
     *
     * @return int
     */
    private function writeBoolErr($row, $col, $value, $isError, $xfIndex)
    {
        $record = 0x0205;
        $length = 8;

        $header = pack('vv', $record, $length);
        $data = pack('vvvCC', $row, $col, $xfIndex, $value,
$isError);
        $this->append($header . $data);

        return 0;
    }

    const WRITE_FORMULA_NORMAL = 0;
    const WRITE_FORMULA_ERRORS = -1;
    const WRITE_FORMULA_RANGE = -2;
    const WRITE_FORMULA_EXCEPTION = -3;

    /**
     * Write a formula to the specified row and column (zero indexed).
     * The textual representation of the formula is passed to the parser in
     * Parser.php which returns a packed binary string.
     *
     * Returns  0 : WRITE_FORMULA_NORMAL  normal termination
     *         -1 : WRITE_FORMULA_ERRORS formula errors (bad formula)
     *         -2 : WRITE_FORMULA_RANGE  row or column out of range
     *         -3 : WRITE_FORMULA_EXCEPTION parse raised exception,
probably due to definedname
     *
     * @param int $row Zero indexed row
     * @param int $col Zero indexed column
     * @param string $formula The formula text string
     * @param mixed $xfIndex The XF format index
     * @param mixed $calculatedValue Calculated value
     *
     * @return int
     */
    private function writeFormula($row, $col, $formula, $xfIndex,
$calculatedValue)
    {
        $record = 0x0006; // Record identifier

        // Initialize possible additional value for STRING record that
should be written after the FORMULA record?
        $stringValue = null;

        // calculated value
        if (isset($calculatedValue)) {
            // Since we can't yet get the data type of the calculated
value,
            // we use best effort to determine data type
            if (is_bool($calculatedValue)) {
                // Boolean value
                $num = pack('CCCvCv', 0x01, 0x00, (int)
$calculatedValue, 0x00, 0x00, 0xFFFF);
            } elseif (is_int($calculatedValue) ||
is_float($calculatedValue)) {
                // Numeric value
                $num = pack('d', $calculatedValue);
            } elseif (is_string($calculatedValue)) {
                $errorCodes = DataType::getErrorCodes();
                if (isset($errorCodes[$calculatedValue])) {
                    // Error value
                    $num = pack('CCCvCv', 0x02, 0x00,
self::mapErrorCode($calculatedValue), 0x00, 0x00, 0xFFFF);
                } elseif ($calculatedValue === '') {
                    // Empty string (and BIFF8)
                    $num = pack('CCCvCv', 0x03, 0x00, 0x00, 0x00,
0x00, 0xFFFF);
                } else {
                    // Non-empty string value (or empty string BIFF5)
                    $stringValue = $calculatedValue;
                    $num = pack('CCCvCv', 0x00, 0x00, 0x00, 0x00,
0x00, 0xFFFF);
                }
            } else {
                // We are really not supposed to reach here
                $num = pack('d', 0x00);
            }
        } else {
            $num = pack('d', 0x00);
        }

        $grbit = 0x03; // Option flags
        $unknown = 0x0000; // Must be zero

        // Strip the '=' or '@' sign at the beginning
of the formula string
        if ($formula[0] == '=') {
            $formula = substr($formula, 1);
        } else {
            // Error handling
            $this->writeString($row, $col, 'Unrecognised character
for formula', 0);

            return self::WRITE_FORMULA_ERRORS;
        }

        // Parse the formula using the parser in Parser.php
        try {
            $error = $this->parser->parse($formula);
            $formula = $this->parser->toReversePolish();

            $formlen = strlen($formula); // Length of the binary string
            $length = 0x16 + $formlen; // Length of the record data

            $header = pack('vv', $record, $length);

            $data = pack('vvv', $row, $col, $xfIndex)
                        . $num
                        . pack('vVv', $grbit, $unknown,
$formlen);
            $this->append($header . $data . $formula);

            // Append also a STRING record if necessary
            if ($stringValue !== null) {
                $this->writeStringRecord($stringValue);
            }

            return self::WRITE_FORMULA_NORMAL;
        } catch (PhpSpreadsheetException $e) {
            return self::WRITE_FORMULA_EXCEPTION;
        }
    }

    /**
     * Write a STRING record. This.
     *
     * @param string $stringValue
     */
    private function writeStringRecord($stringValue)
    {
        $record = 0x0207; // Record identifier
        $data = StringHelper::UTF8toBIFF8UnicodeLong($stringValue);

        $length = strlen($data);
        $header = pack('vv', $record, $length);

        $this->append($header . $data);
    }

    /**
     * Write a hyperlink.
     * This is comprised of two elements: the visible label and
     * the invisible link. The visible label is the same as the link unless
an
     * alternative string is specified. The label is written using the
     * writeString() method. Therefore the 255 characters string limit
applies.
     * $string and $format are optional.
     *
     * The hyperlink can be to a http, ftp, mail, internal sheet (not yet),
or external
     * directory url.
     *
     * Returns  0 : normal termination
     *         -2 : row or column out of range
     *         -3 : long string truncated to 255 chars
     *
     * @param int $row Row
     * @param int $col Column
     * @param string $url URL string
     *
     * @return int
     */
    private function writeUrl($row, $col, $url)
    {
        // Add start row and col to arg list
        return $this->writeUrlRange($row, $col, $row, $col, $url);
    }

    /**
     * This is the more general form of writeUrl(). It allows a hyperlink
to be
     * written to a range of cells. This function also decides the type of
hyperlink
     * to be written. These are either, Web (http, ftp, mailto), Internal
     * (Sheet1!A1) or external ('c:\temp\foo.xls#Sheet1!A1').
     *
     * @see writeUrl()
     *
     * @param int $row1 Start row
     * @param int $col1 Start column
     * @param int $row2 End row
     * @param int $col2 End column
     * @param string $url URL string
     *
     * @return int
     */
    public function writeUrlRange($row1, $col1, $row2, $col2, $url)
    {
        // Check for internal/external sheet links or default to web link
        if (preg_match('[^internal:]', $url)) {
            return $this->writeUrlInternal($row1, $col1, $row2, $col2,
$url);
        }
        if (preg_match('[^external:]', $url)) {
            return $this->writeUrlExternal($row1, $col1, $row2, $col2,
$url);
        }

        return $this->writeUrlWeb($row1, $col1, $row2, $col2, $url);
    }

    /**
     * Used to write http, ftp and mailto hyperlinks.
     * The link type ($options) is 0x03 is the same as absolute dir ref
without
     * sheet. However it is differentiated by the $unknown2 data stream.
     *
     * @see writeUrl()
     *
     * @param int $row1 Start row
     * @param int $col1 Start column
     * @param int $row2 End row
     * @param int $col2 End column
     * @param string $url URL string
     *
     * @return int
     */
    public function writeUrlWeb($row1, $col1, $row2, $col2, $url)
    {
        $record = 0x01B8; // Record identifier
        $length = 0x00000; // Bytes to follow

        // Pack the undocumented parts of the hyperlink stream
        $unknown1 = pack('H*',
'D0C9EA79F9BACE118C8200AA004BA90B02000000');
        $unknown2 = pack('H*',
'E0C9EA79F9BACE118C8200AA004BA90B');

        // Pack the option flags
        $options = pack('V', 0x03);

        // Convert URL to a null terminated wchar string
        $url = implode("\0", preg_split("''",
$url, -1, PREG_SPLIT_NO_EMPTY));
        $url = $url . "\0\0\0";

        // Pack the length of the URL
        $url_len = pack('V', strlen($url));

        // Calculate the data length
        $length = 0x34 + strlen($url);

        // Pack the header data
        $header = pack('vv', $record, $length);
        $data = pack('vvvv', $row1, $row2, $col1, $col2);

        // Write the packed data
        $this->append($header . $data . $unknown1 . $options . $unknown2
. $url_len . $url);

        return 0;
    }

    /**
     * Used to write internal reference hyperlinks such as
"Sheet1!A1".
     *
     * @see writeUrl()
     *
     * @param int $row1 Start row
     * @param int $col1 Start column
     * @param int $row2 End row
     * @param int $col2 End column
     * @param string $url URL string
     *
     * @return int
     */
    public function writeUrlInternal($row1, $col1, $row2, $col2, $url)
    {
        $record = 0x01B8; // Record identifier
        $length = 0x00000; // Bytes to follow

        // Strip URL type
        $url = preg_replace('/^internal:/', '', $url);

        // Pack the undocumented parts of the hyperlink stream
        $unknown1 = pack('H*',
'D0C9EA79F9BACE118C8200AA004BA90B02000000');

        // Pack the option flags
        $options = pack('V', 0x08);

        // Convert the URL type and to a null terminated wchar string
        $url .= "\0";

        // character count
        $url_len = StringHelper::countCharacters($url);
        $url_len = pack('V', $url_len);

        $url = StringHelper::convertEncoding($url, 'UTF-16LE',
'UTF-8');

        // Calculate the data length
        $length = 0x24 + strlen($url);

        // Pack the header data
        $header = pack('vv', $record, $length);
        $data = pack('vvvv', $row1, $row2, $col1, $col2);

        // Write the packed data
        $this->append($header . $data . $unknown1 . $options . $url_len
. $url);

        return 0;
    }

    /**
     * Write links to external directory names such as
'c:\foo.xls',
     * c:\foo.xls#Sheet1!A1', '../../foo.xls'. and
'../../foo.xls#Sheet1!A1'.
     *
     * Note: Excel writes some relative links with the $dir_long string. We
ignore
     * these cases for the sake of simpler code.
     *
     * @see writeUrl()
     *
     * @param int $row1 Start row
     * @param int $col1 Start column
     * @param int $row2 End row
     * @param int $col2 End column
     * @param string $url URL string
     *
     * @return int
     */
    public function writeUrlExternal($row1, $col1, $row2, $col2, $url)
    {
        // Network drives are different. We will handle them separately
        // MS/Novell network drives and shares start with \\
        if (preg_match('[^external:\\\\]', $url)) {
            return; //($this->writeUrlExternal_net($row1, $col1, $row2,
$col2, $url, $str, $format));
        }

        $record = 0x01B8; // Record identifier
        $length = 0x00000; // Bytes to follow

        // Strip URL type and change Unix dir separator to Dos style (if
needed)
        //
        $url = preg_replace('/^external:/', '', $url);
        $url = preg_replace('/\//', '\\', $url);

        // Determine if the link is relative or absolute:
        //   relative if link contains no dir separator,
"somefile.xls"
        //   relative if link starts with up-dir,
"..\..\somefile.xls"
        //   otherwise, absolute

        $absolute = 0x00; // relative path
        if (preg_match('/^[A-Z]:/', $url)) {
            $absolute = 0x02; // absolute path on Windows, e.g. C:\...
        }
        $link_type = 0x01 | $absolute;

        // Determine if the link contains a sheet reference and change some
of the
        // parameters accordingly.
        // Split the dir name and sheet name (if it exists)
        $dir_long = $url;
        if (preg_match('/\\#/', $url)) {
            $link_type |= 0x08;
        }

        // Pack the link type
        $link_type = pack('V', $link_type);

        // Calculate the up-level dir count e.g.. (..\..\..\ == 3)
        $up_count = preg_match_all('/\\.\\.\\\\/', $dir_long,
$useless);
        $up_count = pack('v', $up_count);

        // Store the short dos dir name (null terminated)
        $dir_short = preg_replace('/\\.\\.\\\\/', '',
$dir_long) . "\0";

        // Store the long dir name as a wchar string (non-null terminated)
        $dir_long = $dir_long . "\0";

        // Pack the lengths of the dir strings
        $dir_short_len = pack('V', strlen($dir_short));
        $dir_long_len = pack('V', strlen($dir_long));
        $stream_len = pack('V', 0); //strlen($dir_long) + 0x06);

        // Pack the undocumented parts of the hyperlink stream
        $unknown1 = pack('H*',
'D0C9EA79F9BACE118C8200AA004BA90B02000000');
        $unknown2 = pack('H*',
'0303000000000000C000000000000046');
        $unknown3 = pack('H*',
'FFFFADDE000000000000000000000000000000000000000');
        $unknown4 = pack('v', 0x03);

        // Pack the main data stream
        $data = pack('vvvv', $row1, $row2, $col1, $col2) .
                            $unknown1 .
                            $link_type .
                            $unknown2 .
                            $up_count .
                            $dir_short_len .
                            $dir_short .
                            $unknown3 .
                            $stream_len; /*.
                          $dir_long_len .
                          $unknown4     .
                          $dir_long     .
                          $sheet_len    .
                          $sheet        ;*/

        // Pack the header data
        $length = strlen($data);
        $header = pack('vv', $record, $length);

        // Write the packed data
        $this->append($header . $data);

        return 0;
    }

    /**
     * This method is used to set the height and format for a row.
     *
     * @param int $row The row to set
     * @param int $height Height we are giving to the row.
     *                        Use null to set XF without setting height
     * @param int $xfIndex The optional cell style Xf index to apply to the
columns
     * @param bool $hidden The optional hidden attribute
     * @param int $level The optional outline level for row, in range [0,7]
     */
    private function writeRow($row, $height, $xfIndex, $hidden = false,
$level = 0)
    {
        $record = 0x0208; // Record identifier
        $length = 0x0010; // Number of bytes to follow

        $colMic = 0x0000; // First defined column
        $colMac = 0x0000; // Last defined column
        $irwMac = 0x0000; // Used by Excel to optimise loading
        $reserved = 0x0000; // Reserved
        $grbit = 0x0000; // Option flags
        $ixfe = $xfIndex;

        if ($height < 0) {
            $height = null;
        }

        // Use writeRow($row, null, $XF) to set XF format without setting
height
        if ($height != null) {
            $miyRw = $height * 20; // row height
        } else {
            $miyRw = 0xff; // default row height is 256
        }

        // Set the options flags. fUnsynced is used to show that the font
and row
        // heights are not compatible. This is usually the case for
WriteExcel.
        // The collapsed flag 0x10 doesn't seem to be used to indicate
that a row
        // is collapsed. Instead it is used to indicate that the previous
row is
        // collapsed. The zero height flag, 0x20, is used to collapse a
row.

        $grbit |= $level;
        if ($hidden) {
            $grbit |= 0x0030;
        }
        if ($height !== null) {
            $grbit |= 0x0040; // fUnsynced
        }
        if ($xfIndex !== 0xF) {
            $grbit |= 0x0080;
        }
        $grbit |= 0x0100;

        $header = pack('vv', $record, $length);
        $data = pack('vvvvvvvv', $row, $colMic, $colMac, $miyRw,
$irwMac, $reserved, $grbit, $ixfe);
        $this->append($header . $data);
    }

    /**
     * Writes Excel DIMENSIONS to define the area in which there is data.
     */
    private function writeDimensions()
    {
        $record = 0x0200; // Record identifier

        $length = 0x000E;
        $data = pack('VVvvv', $this->firstRowIndex,
$this->lastRowIndex + 1, $this->firstColumnIndex,
$this->lastColumnIndex + 1, 0x0000); // reserved

        $header = pack('vv', $record, $length);
        $this->append($header . $data);
    }

    /**
     * Write BIFF record Window2.
     */
    private function writeWindow2()
    {
        $record = 0x023E; // Record identifier
        $length = 0x0012;

        $grbit = 0x00B6; // Option flags
        $rwTop = 0x0000; // Top row visible in window
        $colLeft = 0x0000; // Leftmost column visible in window

        // The options flags that comprise $grbit
        $fDspFmla = 0; // 0 - bit
        $fDspGrid = $this->phpSheet->getShowGridlines() ? 1 : 0; // 1
        $fDspRwCol = $this->phpSheet->getShowRowColHeaders() ? 1 : 0;
// 2
        $fFrozen = $this->phpSheet->getFreezePane() ? 1 : 0; // 3
        $fDspZeros = 1; // 4
        $fDefaultHdr = 1; // 5
        $fArabic = $this->phpSheet->getRightToLeft() ? 1 : 0; // 6
        $fDspGuts = $this->outlineOn; // 7
        $fFrozenNoSplit = 0; // 0 - bit
        // no support in PhpSpreadsheet for selected sheet, therefore sheet
is only selected if it is the active sheet
        $fSelected = ($this->phpSheet ===
$this->phpSheet->getParent()->getActiveSheet()) ? 1 : 0;
        $fPageBreakPreview =
$this->phpSheet->getSheetView()->getView() ===
SheetView::SHEETVIEW_PAGE_BREAK_PREVIEW;

        $grbit = $fDspFmla;
        $grbit |= $fDspGrid << 1;
        $grbit |= $fDspRwCol << 2;
        $grbit |= $fFrozen << 3;
        $grbit |= $fDspZeros << 4;
        $grbit |= $fDefaultHdr << 5;
        $grbit |= $fArabic << 6;
        $grbit |= $fDspGuts << 7;
        $grbit |= $fFrozenNoSplit << 8;
        $grbit |= $fSelected << 9; // Selected sheets.
        $grbit |= $fSelected << 10; // Active sheet.
        $grbit |= $fPageBreakPreview << 11;

        $header = pack('vv', $record, $length);
        $data = pack('vvv', $grbit, $rwTop, $colLeft);

        // FIXME !!!
        $rgbHdr = 0x0040; // Row/column heading and gridline color index
        $zoom_factor_page_break = ($fPageBreakPreview ?
$this->phpSheet->getSheetView()->getZoomScale() : 0x0000);
        $zoom_factor_normal =
$this->phpSheet->getSheetView()->getZoomScaleNormal();

        $data .= pack('vvvvV', $rgbHdr, 0x0000,
$zoom_factor_page_break, $zoom_factor_normal, 0x00000000);

        $this->append($header . $data);
    }

    /**
     * Write BIFF record DEFAULTROWHEIGHT.
     */
    private function writeDefaultRowHeight()
    {
        $defaultRowHeight =
$this->phpSheet->getDefaultRowDimension()->getRowHeight();

        if ($defaultRowHeight < 0) {
            return;
        }

        // convert to twips
        $defaultRowHeight = (int) 20 * $defaultRowHeight;

        $record = 0x0225; // Record identifier
        $length = 0x0004; // Number of bytes to follow

        $header = pack('vv', $record, $length);
        $data = pack('vv', 1, $defaultRowHeight);
        $this->append($header . $data);
    }

    /**
     * Write BIFF record DEFCOLWIDTH if COLINFO records are in use.
     */
    private function writeDefcol()
    {
        $defaultColWidth = 8;

        $record = 0x0055; // Record identifier
        $length = 0x0002; // Number of bytes to follow

        $header = pack('vv', $record, $length);
        $data = pack('v', $defaultColWidth);
        $this->append($header . $data);
    }

    /**
     * Write BIFF record COLINFO to define column widths.
     *
     * Note: The SDK says the record length is 0x0B but Excel writes a 0x0C
     * length record.
     *
     * @param array $col_array This is the only parameter received and is
composed of the following:
     *                0 => First formatted column,
     *                1 => Last formatted column,
     *                2 => Col width (8.43 is Excel default),
     *                3 => The optional XF format of the column,
     *                4 => Option flags.
     *                5 => Optional outline level
     */
    private function writeColinfo($col_array)
    {
        if (isset($col_array[0])) {
            $colFirst = $col_array[0];
        }
        if (isset($col_array[1])) {
            $colLast = $col_array[1];
        }
        if (isset($col_array[2])) {
            $coldx = $col_array[2];
        } else {
            $coldx = 8.43;
        }
        if (isset($col_array[3])) {
            $xfIndex = $col_array[3];
        } else {
            $xfIndex = 15;
        }
        if (isset($col_array[4])) {
            $grbit = $col_array[4];
        } else {
            $grbit = 0;
        }
        if (isset($col_array[5])) {
            $level = $col_array[5];
        } else {
            $level = 0;
        }
        $record = 0x007D; // Record identifier
        $length = 0x000C; // Number of bytes to follow

        $coldx *= 256; // Convert to units of 1/256 of a char

        $ixfe = $xfIndex;
        $reserved = 0x0000; // Reserved

        $level = max(0, min($level, 7));
        $grbit |= $level << 8;

        $header = pack('vv', $record, $length);
        $data = pack('vvvvvv', $colFirst, $colLast, $coldx,
$ixfe, $grbit, $reserved);
        $this->append($header . $data);
    }

    /**
     * Write BIFF record SELECTION.
     */
    private function writeSelection()
    {
        // look up the selected cell range
        $selectedCells =
Coordinate::splitRange($this->phpSheet->getSelectedCells());
        $selectedCells = $selectedCells[0];
        if (count($selectedCells) == 2) {
            [$first, $last] = $selectedCells;
        } else {
            $first = $selectedCells[0];
            $last = $selectedCells[0];
        }

        [$colFirst, $rwFirst] = Coordinate::coordinateFromString($first);
        $colFirst = Coordinate::columnIndexFromString($colFirst) - 1; //
base 0 column index
        --$rwFirst; // base 0 row index

        [$colLast, $rwLast] = Coordinate::coordinateFromString($last);
        $colLast = Coordinate::columnIndexFromString($colLast) - 1; // base
0 column index
        --$rwLast; // base 0 row index

        // make sure we are not out of bounds
        $colFirst = min($colFirst, 255);
        $colLast = min($colLast, 255);

        $rwFirst = min($rwFirst, 65535);
        $rwLast = min($rwLast, 65535);

        $record = 0x001D; // Record identifier
        $length = 0x000F; // Number of bytes to follow

        $pnn = $this->activePane; // Pane position
        $rwAct = $rwFirst; // Active row
        $colAct = $colFirst; // Active column
        $irefAct = 0; // Active cell ref
        $cref = 1; // Number of refs

        if (!isset($rwLast)) {
            $rwLast = $rwFirst; // Last  row in reference
        }
        if (!isset($colLast)) {
            $colLast = $colFirst; // Last  col in reference
        }

        // Swap last row/col for first row/col as necessary
        if ($rwFirst > $rwLast) {
            [$rwFirst, $rwLast] = [$rwLast, $rwFirst];
        }

        if ($colFirst > $colLast) {
            [$colFirst, $colLast] = [$colLast, $colFirst];
        }

        $header = pack('vv', $record, $length);
        $data = pack('CvvvvvvCC', $pnn, $rwAct, $colAct,
$irefAct, $cref, $rwFirst, $rwLast, $colFirst, $colLast);
        $this->append($header . $data);
    }

    /**
     * Store the MERGEDCELLS records for all ranges of merged cells.
     */
    private function writeMergedCells()
    {
        $mergeCells = $this->phpSheet->getMergeCells();
        $countMergeCells = count($mergeCells);

        if ($countMergeCells == 0) {
            return;
        }

        // maximum allowed number of merged cells per record
        $maxCountMergeCellsPerRecord = 1027;

        // record identifier
        $record = 0x00E5;

        // counter for total number of merged cells treated so far by the
writer
        $i = 0;

        // counter for number of merged cells written in record currently
being written
        $j = 0;

        // initialize record data
        $recordData = '';

        // loop through the merged cells
        foreach ($mergeCells as $mergeCell) {
            ++$i;
            ++$j;

            // extract the row and column indexes
            $range = Coordinate::splitRange($mergeCell);
            [$first, $last] = $range[0];
            [$firstColumn, $firstRow] =
Coordinate::coordinateFromString($first);
            [$lastColumn, $lastRow] =
Coordinate::coordinateFromString($last);

            $recordData .= pack('vvvv', $firstRow - 1, $lastRow -
1, Coordinate::columnIndexFromString($firstColumn) - 1,
Coordinate::columnIndexFromString($lastColumn) - 1);

            // flush record if we have reached limit for number of merged
cells, or reached final merged cell
            if ($j == $maxCountMergeCellsPerRecord or $i ==
$countMergeCells) {
                $recordData = pack('v', $j) . $recordData;
                $length = strlen($recordData);
                $header = pack('vv', $record, $length);
                $this->append($header . $recordData);

                // initialize for next record, if any
                $recordData = '';
                $j = 0;
            }
        }
    }

    /**
     * Write SHEETLAYOUT record.
     */
    private function writeSheetLayout()
    {
        if (!$this->phpSheet->isTabColorSet()) {
            return;
        }

        $recordData = pack(
            'vvVVVvv',
            0x0862,
            0x0000, // unused
            0x00000000, // unused
            0x00000000, // unused
            0x00000014, // size of record data
           
$this->colors[$this->phpSheet->getTabColor()->getRGB()], //
color index
            0x0000        // unused
        );

        $length = strlen($recordData);

        $record = 0x0862; // Record identifier
        $header = pack('vv', $record, $length);
        $this->append($header . $recordData);
    }

    /**
     * Write SHEETPROTECTION.
     */
    private function writeSheetProtection()
    {
        // record identifier
        $record = 0x0867;

        // prepare options
        $options = (int)
!$this->phpSheet->getProtection()->getObjects()
                    | (int)
!$this->phpSheet->getProtection()->getScenarios() << 1
                    | (int)
!$this->phpSheet->getProtection()->getFormatCells() << 2
                    | (int)
!$this->phpSheet->getProtection()->getFormatColumns() << 3
                    | (int)
!$this->phpSheet->getProtection()->getFormatRows() << 4
                    | (int)
!$this->phpSheet->getProtection()->getInsertColumns() << 5
                    | (int)
!$this->phpSheet->getProtection()->getInsertRows() << 6
                    | (int)
!$this->phpSheet->getProtection()->getInsertHyperlinks() <<
7
                    | (int)
!$this->phpSheet->getProtection()->getDeleteColumns() << 8
                    | (int)
!$this->phpSheet->getProtection()->getDeleteRows() << 9
                    | (int)
!$this->phpSheet->getProtection()->getSelectLockedCells() <<
10
                    | (int)
!$this->phpSheet->getProtection()->getSort() << 11
                    | (int)
!$this->phpSheet->getProtection()->getAutoFilter() << 12
                    | (int)
!$this->phpSheet->getProtection()->getPivotTables() << 13
                    | (int)
!$this->phpSheet->getProtection()->getSelectUnlockedCells()
<< 14;

        // record data
        $recordData = pack(
            'vVVCVVvv',
            0x0867, // repeated record identifier
            0x0000, // not used
            0x0000, // not used
            0x00, // not used
            0x01000200, // unknown data
            0xFFFFFFFF, // unknown data
            $options, // options
            0x0000 // not used
        );

        $length = strlen($recordData);
        $header = pack('vv', $record, $length);

        $this->append($header . $recordData);
    }

    /**
     * Write BIFF record RANGEPROTECTION.
     *
     * Openoffice.org's Documentaion of the Microsoft Excel File
Format uses term RANGEPROTECTION for these records
     * Microsoft Office Excel 97-2007 Binary File Format Specification uses
term FEAT for these records
     */
    private function writeRangeProtection()
    {
        foreach ($this->phpSheet->getProtectedCells() as $range =>
$password) {
            // number of ranges, e.g. 'A1:B3 C20:D25'
            $cellRanges = explode(' ', $range);
            $cref = count($cellRanges);

            $recordData = pack(
                'vvVVvCVvVv',
                0x0868,
                0x00,
                0x0000,
                0x0000,
                0x02,
                0x0,
                0x0000,
                $cref,
                0x0000,
                0x00
            );

            foreach ($cellRanges as $cellRange) {
                $recordData .=
$this->writeBIFF8CellRangeAddressFixed($cellRange);
            }

            // the rgbFeat structure
            $recordData .= pack(
                'VV',
                0x0000,
                hexdec($password)
            );

            $recordData .=
StringHelper::UTF8toBIFF8UnicodeLong('p' . md5($recordData));

            $length = strlen($recordData);

            $record = 0x0868; // Record identifier
            $header = pack('vv', $record, $length);
            $this->append($header . $recordData);
        }
    }

    /**
     * Writes the Excel BIFF PANE record.
     * The panes can either be frozen or thawed (unfrozen).
     * Frozen panes are specified in terms of an integer number of rows and
columns.
     * Thawed panes are specified in terms of Excel's units for rows
and columns.
     */
    private function writePanes()
    {
        $panes = [];
        if ($this->phpSheet->getFreezePane()) {
            [$column, $row] =
Coordinate::coordinateFromString($this->phpSheet->getFreezePane());
            $panes[0] = Coordinate::columnIndexFromString($column) - 1;
            $panes[1] = $row - 1;

            [$leftMostColumn, $topRow] =
Coordinate::coordinateFromString($this->phpSheet->getTopLeftCell());
            //Coordinates are zero-based in xls files
            $panes[2] = $topRow - 1;
            $panes[3] = Coordinate::columnIndexFromString($leftMostColumn)
- 1;
        } else {
            // thaw panes
            return;
        }

        $x = $panes[0] ?? null;
        $y = $panes[1] ?? null;
        $rwTop = $panes[2] ?? null;
        $colLeft = $panes[3] ?? null;
        if (count($panes) > 4) { // if Active pane was received
            $pnnAct = $panes[4];
        } else {
            $pnnAct = null;
        }
        $record = 0x0041; // Record identifier
        $length = 0x000A; // Number of bytes to follow

        // Code specific to frozen or thawed panes.
        if ($this->phpSheet->getFreezePane()) {
            // Set default values for $rwTop and $colLeft
            if (!isset($rwTop)) {
                $rwTop = $y;
            }
            if (!isset($colLeft)) {
                $colLeft = $x;
            }
        } else {
            // Set default values for $rwTop and $colLeft
            if (!isset($rwTop)) {
                $rwTop = 0;
            }
            if (!isset($colLeft)) {
                $colLeft = 0;
            }

            // Convert Excel's row and column units to the internal
units.
            // The default row height is 12.75
            // The default column width is 8.43
            // The following slope and intersection values were
interpolated.
            //
            $y = 20 * $y + 255;
            $x = 113.879 * $x + 390;
        }

        // Determine which pane should be active. There is also the
undocumented
        // option to override this should it be necessary: may be removed
later.
        //
        if (!isset($pnnAct)) {
            if ($x != 0 && $y != 0) {
                $pnnAct = 0; // Bottom right
            }
            if ($x != 0 && $y == 0) {
                $pnnAct = 1; // Top right
            }
            if ($x == 0 && $y != 0) {
                $pnnAct = 2; // Bottom left
            }
            if ($x == 0 && $y == 0) {
                $pnnAct = 3; // Top left
            }
        }

        $this->activePane = $pnnAct; // Used in writeSelection

        $header = pack('vv', $record, $length);
        $data = pack('vvvvv', $x, $y, $rwTop, $colLeft, $pnnAct);
        $this->append($header . $data);
    }

    /**
     * Store the page setup SETUP BIFF record.
     */
    private function writeSetup()
    {
        $record = 0x00A1; // Record identifier
        $length = 0x0022; // Number of bytes to follow

        $iPaperSize =
$this->phpSheet->getPageSetup()->getPaperSize(); // Paper size

        $iScale = $this->phpSheet->getPageSetup()->getScale() ?
            $this->phpSheet->getPageSetup()->getScale() : 100; //
Print scaling factor

        $iPageStart = 0x01; // Starting page number
        $iFitWidth = (int)
$this->phpSheet->getPageSetup()->getFitToWidth(); // Fit to number
of pages wide
        $iFitHeight = (int)
$this->phpSheet->getPageSetup()->getFitToHeight(); // Fit to
number of pages high
        $grbit = 0x00; // Option flags
        $iRes = 0x0258; // Print resolution
        $iVRes = 0x0258; // Vertical print resolution

        $numHdr = $this->phpSheet->getPageMargins()->getHeader();
// Header Margin

        $numFtr = $this->phpSheet->getPageMargins()->getFooter();
// Footer Margin
        $iCopies = 0x01; // Number of copies

        $fLeftToRight = 0x0; // Print over then down

        // Page orientation
        $fLandscape =
($this->phpSheet->getPageSetup()->getOrientation() ==
PageSetup::ORIENTATION_LANDSCAPE) ?
            0x0 : 0x1;

        $fNoPls = 0x0; // Setup not read from printer
        $fNoColor = 0x0; // Print black and white
        $fDraft = 0x0; // Print draft quality
        $fNotes = 0x0; // Print notes
        $fNoOrient = 0x0; // Orientation not set
        $fUsePage = 0x0; // Use custom starting page

        $grbit = $fLeftToRight;
        $grbit |= $fLandscape << 1;
        $grbit |= $fNoPls << 2;
        $grbit |= $fNoColor << 3;
        $grbit |= $fDraft << 4;
        $grbit |= $fNotes << 5;
        $grbit |= $fNoOrient << 6;
        $grbit |= $fUsePage << 7;

        $numHdr = pack('d', $numHdr);
        $numFtr = pack('d', $numFtr);
        if (self::getByteOrder()) { // if it's Big Endian
            $numHdr = strrev($numHdr);
            $numFtr = strrev($numFtr);
        }

        $header = pack('vv', $record, $length);
        $data1 = pack('vvvvvvvv', $iPaperSize, $iScale,
$iPageStart, $iFitWidth, $iFitHeight, $grbit, $iRes, $iVRes);
        $data2 = $numHdr . $numFtr;
        $data3 = pack('v', $iCopies);
        $this->append($header . $data1 . $data2 . $data3);
    }

    /**
     * Store the header caption BIFF record.
     */
    private function writeHeader()
    {
        $record = 0x0014; // Record identifier

        /* removing for now
        // need to fix character count (multibyte!)
        if
(strlen($this->phpSheet->getHeaderFooter()->getOddHeader()) <=
255) {
            $str      =
$this->phpSheet->getHeaderFooter()->getOddHeader();       //
header string
        } else {
            $str = '';
        }
        */

        $recordData =
StringHelper::UTF8toBIFF8UnicodeLong($this->phpSheet->getHeaderFooter()->getOddHeader());
        $length = strlen($recordData);

        $header = pack('vv', $record, $length);

        $this->append($header . $recordData);
    }

    /**
     * Store the footer caption BIFF record.
     */
    private function writeFooter()
    {
        $record = 0x0015; // Record identifier

        /* removing for now
        // need to fix character count (multibyte!)
        if
(strlen($this->phpSheet->getHeaderFooter()->getOddFooter()) <=
255) {
            $str =
$this->phpSheet->getHeaderFooter()->getOddFooter();
        } else {
            $str = '';
        }
        */

        $recordData =
StringHelper::UTF8toBIFF8UnicodeLong($this->phpSheet->getHeaderFooter()->getOddFooter());
        $length = strlen($recordData);

        $header = pack('vv', $record, $length);

        $this->append($header . $recordData);
    }

    /**
     * Store the horizontal centering HCENTER BIFF record.
     */
    private function writeHcenter()
    {
        $record = 0x0083; // Record identifier
        $length = 0x0002; // Bytes to follow

        $fHCenter =
$this->phpSheet->getPageSetup()->getHorizontalCentered() ? 1 : 0;
// Horizontal centering

        $header = pack('vv', $record, $length);
        $data = pack('v', $fHCenter);

        $this->append($header . $data);
    }

    /**
     * Store the vertical centering VCENTER BIFF record.
     */
    private function writeVcenter()
    {
        $record = 0x0084; // Record identifier
        $length = 0x0002; // Bytes to follow

        $fVCenter =
$this->phpSheet->getPageSetup()->getVerticalCentered() ? 1 : 0; //
Horizontal centering

        $header = pack('vv', $record, $length);
        $data = pack('v', $fVCenter);
        $this->append($header . $data);
    }

    /**
     * Store the LEFTMARGIN BIFF record.
     */
    private function writeMarginLeft()
    {
        $record = 0x0026; // Record identifier
        $length = 0x0008; // Bytes to follow

        $margin = $this->phpSheet->getPageMargins()->getLeft(); //
Margin in inches

        $header = pack('vv', $record, $length);
        $data = pack('d', $margin);
        if (self::getByteOrder()) { // if it's Big Endian
            $data = strrev($data);
        }

        $this->append($header . $data);
    }

    /**
     * Store the RIGHTMARGIN BIFF record.
     */
    private function writeMarginRight()
    {
        $record = 0x0027; // Record identifier
        $length = 0x0008; // Bytes to follow

        $margin = $this->phpSheet->getPageMargins()->getRight();
// Margin in inches

        $header = pack('vv', $record, $length);
        $data = pack('d', $margin);
        if (self::getByteOrder()) { // if it's Big Endian
            $data = strrev($data);
        }

        $this->append($header . $data);
    }

    /**
     * Store the TOPMARGIN BIFF record.
     */
    private function writeMarginTop()
    {
        $record = 0x0028; // Record identifier
        $length = 0x0008; // Bytes to follow

        $margin = $this->phpSheet->getPageMargins()->getTop(); //
Margin in inches

        $header = pack('vv', $record, $length);
        $data = pack('d', $margin);
        if (self::getByteOrder()) { // if it's Big Endian
            $data = strrev($data);
        }

        $this->append($header . $data);
    }

    /**
     * Store the BOTTOMMARGIN BIFF record.
     */
    private function writeMarginBottom()
    {
        $record = 0x0029; // Record identifier
        $length = 0x0008; // Bytes to follow

        $margin = $this->phpSheet->getPageMargins()->getBottom();
// Margin in inches

        $header = pack('vv', $record, $length);
        $data = pack('d', $margin);
        if (self::getByteOrder()) { // if it's Big Endian
            $data = strrev($data);
        }

        $this->append($header . $data);
    }

    /**
     * Write the PRINTHEADERS BIFF record.
     */
    private function writePrintHeaders()
    {
        $record = 0x002a; // Record identifier
        $length = 0x0002; // Bytes to follow

        $fPrintRwCol = $this->printHeaders; // Boolean flag

        $header = pack('vv', $record, $length);
        $data = pack('v', $fPrintRwCol);
        $this->append($header . $data);
    }

    /**
     * Write the PRINTGRIDLINES BIFF record. Must be used in conjunction
with the
     * GRIDSET record.
     */
    private function writePrintGridlines()
    {
        $record = 0x002b; // Record identifier
        $length = 0x0002; // Bytes to follow

        $fPrintGrid = $this->phpSheet->getPrintGridlines() ? 1 : 0;
// Boolean flag

        $header = pack('vv', $record, $length);
        $data = pack('v', $fPrintGrid);
        $this->append($header . $data);
    }

    /**
     * Write the GRIDSET BIFF record. Must be used in conjunction with the
     * PRINTGRIDLINES record.
     */
    private function writeGridset()
    {
        $record = 0x0082; // Record identifier
        $length = 0x0002; // Bytes to follow

        $fGridSet = !$this->phpSheet->getPrintGridlines(); // Boolean
flag

        $header = pack('vv', $record, $length);
        $data = pack('v', $fGridSet);
        $this->append($header . $data);
    }

    /**
     * Write the AUTOFILTERINFO BIFF record. This is used to configure the
number of autofilter select used in the sheet.
     */
    private function writeAutoFilterInfo()
    {
        $record = 0x009D; // Record identifier
        $length = 0x0002; // Bytes to follow

        $rangeBounds =
Coordinate::rangeBoundaries($this->phpSheet->getAutoFilter()->getRange());
        $iNumFilters = 1 + $rangeBounds[1][0] - $rangeBounds[0][0];

        $header = pack('vv', $record, $length);
        $data = pack('v', $iNumFilters);
        $this->append($header . $data);
    }

    /**
     * Write the GUTS BIFF record. This is used to configure the gutter
margins
     * where Excel outline symbols are displayed. The visibility of the
gutters is
     * controlled by a flag in WSBOOL.
     *
     * @see writeWsbool()
     */
    private function writeGuts()
    {
        $record = 0x0080; // Record identifier
        $length = 0x0008; // Bytes to follow

        $dxRwGut = 0x0000; // Size of row gutter
        $dxColGut = 0x0000; // Size of col gutter

        // determine maximum row outline level
        $maxRowOutlineLevel = 0;
        foreach ($this->phpSheet->getRowDimensions() as
$rowDimension) {
            $maxRowOutlineLevel = max($maxRowOutlineLevel,
$rowDimension->getOutlineLevel());
        }

        $col_level = 0;

        // Calculate the maximum column outline level. The equivalent
calculation
        // for the row outline level is carried out in writeRow().
        $colcount = count($this->columnInfo);
        for ($i = 0; $i < $colcount; ++$i) {
            $col_level = max($this->columnInfo[$i][5], $col_level);
        }

        // Set the limits for the outline levels (0 <= x <= 7).
        $col_level = max(0, min($col_level, 7));

        // The displayed level is one greater than the max outline levels
        if ($maxRowOutlineLevel) {
            ++$maxRowOutlineLevel;
        }
        if ($col_level) {
            ++$col_level;
        }

        $header = pack('vv', $record, $length);
        $data = pack('vvvv', $dxRwGut, $dxColGut,
$maxRowOutlineLevel, $col_level);

        $this->append($header . $data);
    }

    /**
     * Write the WSBOOL BIFF record, mainly for fit-to-page. Used in
conjunction
     * with the SETUP record.
     */
    private function writeWsbool()
    {
        $record = 0x0081; // Record identifier
        $length = 0x0002; // Bytes to follow
        $grbit = 0x0000;

        // The only option that is of interest is the flag for fit to page.
So we
        // set all the options in one go.
        //
        // Set the option flags
        $grbit |= 0x0001; // Auto page breaks visible
        if ($this->outlineStyle) {
            $grbit |= 0x0020; // Auto outline styles
        }
        if ($this->phpSheet->getShowSummaryBelow()) {
            $grbit |= 0x0040; // Outline summary below
        }
        if ($this->phpSheet->getShowSummaryRight()) {
            $grbit |= 0x0080; // Outline summary right
        }
        if ($this->phpSheet->getPageSetup()->getFitToPage()) {
            $grbit |= 0x0100; // Page setup fit to page
        }
        if ($this->outlineOn) {
            $grbit |= 0x0400; // Outline symbols displayed
        }

        $header = pack('vv', $record, $length);
        $data = pack('v', $grbit);
        $this->append($header . $data);
    }

    /**
     * Write the HORIZONTALPAGEBREAKS and VERTICALPAGEBREAKS BIFF records.
     */
    private function writeBreaks()
    {
        // initialize
        $vbreaks = [];
        $hbreaks = [];

        foreach ($this->phpSheet->getBreaks() as $cell =>
$breakType) {
            // Fetch coordinates
            $coordinates = Coordinate::coordinateFromString($cell);

            // Decide what to do by the type of break
            switch ($breakType) {
                case
\PhpOffice\PhpSpreadsheet\Worksheet\Worksheet::BREAK_COLUMN:
                    // Add to list of vertical breaks
                    $vbreaks[] =
Coordinate::columnIndexFromString($coordinates[0]) - 1;

                    break;
                case
\PhpOffice\PhpSpreadsheet\Worksheet\Worksheet::BREAK_ROW:
                    // Add to list of horizontal breaks
                    $hbreaks[] = $coordinates[1];

                    break;
                case
\PhpOffice\PhpSpreadsheet\Worksheet\Worksheet::BREAK_NONE:
                default:
                    // Nothing to do
                    break;
            }
        }

        //horizontal page breaks
        if (!empty($hbreaks)) {
            // Sort and filter array of page breaks
            sort($hbreaks, SORT_NUMERIC);
            if ($hbreaks[0] == 0) { // don't use first break if
it's 0
                array_shift($hbreaks);
            }

            $record = 0x001b; // Record identifier
            $cbrk = count($hbreaks); // Number of page breaks
            $length = 2 + 6 * $cbrk; // Bytes to follow

            $header = pack('vv', $record, $length);
            $data = pack('v', $cbrk);

            // Append each page break
            foreach ($hbreaks as $hbreak) {
                $data .= pack('vvv', $hbreak, 0x0000, 0x00ff);
            }

            $this->append($header . $data);
        }

        // vertical page breaks
        if (!empty($vbreaks)) {
            // 1000 vertical pagebreaks appears to be an internal Excel 5
limit.
            // It is slightly higher in Excel 97/200, approx. 1026
            $vbreaks = array_slice($vbreaks, 0, 1000);

            // Sort and filter array of page breaks
            sort($vbreaks, SORT_NUMERIC);
            if ($vbreaks[0] == 0) { // don't use first break if
it's 0
                array_shift($vbreaks);
            }

            $record = 0x001a; // Record identifier
            $cbrk = count($vbreaks); // Number of page breaks
            $length = 2 + 6 * $cbrk; // Bytes to follow

            $header = pack('vv', $record, $length);
            $data = pack('v', $cbrk);

            // Append each page break
            foreach ($vbreaks as $vbreak) {
                $data .= pack('vvv', $vbreak, 0x0000, 0xffff);
            }

            $this->append($header . $data);
        }
    }

    /**
     * Set the Biff PROTECT record to indicate that the worksheet is
protected.
     */
    private function writeProtect()
    {
        // Exit unless sheet protection has been specified
        if (!$this->phpSheet->getProtection()->getSheet()) {
            return;
        }

        $record = 0x0012; // Record identifier
        $length = 0x0002; // Bytes to follow

        $fLock = 1; // Worksheet is protected

        $header = pack('vv', $record, $length);
        $data = pack('v', $fLock);

        $this->append($header . $data);
    }

    /**
     * Write SCENPROTECT.
     */
    private function writeScenProtect()
    {
        // Exit if sheet protection is not active
        if (!$this->phpSheet->getProtection()->getSheet()) {
            return;
        }

        // Exit if scenarios are not protected
        if (!$this->phpSheet->getProtection()->getScenarios()) {
            return;
        }

        $record = 0x00DD; // Record identifier
        $length = 0x0002; // Bytes to follow

        $header = pack('vv', $record, $length);
        $data = pack('v', 1);

        $this->append($header . $data);
    }

    /**
     * Write OBJECTPROTECT.
     */
    private function writeObjectProtect()
    {
        // Exit if sheet protection is not active
        if (!$this->phpSheet->getProtection()->getSheet()) {
            return;
        }

        // Exit if objects are not protected
        if (!$this->phpSheet->getProtection()->getObjects()) {
            return;
        }

        $record = 0x0063; // Record identifier
        $length = 0x0002; // Bytes to follow

        $header = pack('vv', $record, $length);
        $data = pack('v', 1);

        $this->append($header . $data);
    }

    /**
     * Write the worksheet PASSWORD record.
     */
    private function writePassword()
    {
        // Exit unless sheet protection and password have been specified
        if (!$this->phpSheet->getProtection()->getSheet() ||
!$this->phpSheet->getProtection()->getPassword()) {
            return;
        }

        $record = 0x0013; // Record identifier
        $length = 0x0002; // Bytes to follow

        $wPassword =
hexdec($this->phpSheet->getProtection()->getPassword()); //
Encoded password

        $header = pack('vv', $record, $length);
        $data = pack('v', $wPassword);

        $this->append($header . $data);
    }

    /**
     * Insert a 24bit bitmap image in a worksheet.
     *
     * @param int $row The row we are going to insert the bitmap into
     * @param int $col The column we are going to insert the bitmap into
     * @param mixed $bitmap The bitmap filename or GD-image resource
     * @param int $x the horizontal position (offset) of the image inside
the cell
     * @param int $y the vertical position (offset) of the image inside the
cell
     * @param float $scale_x The horizontal scale
     * @param float $scale_y The vertical scale
     */
    public function insertBitmap($row, $col, $bitmap, $x = 0, $y = 0,
$scale_x = 1, $scale_y = 1)
    {
        $bitmap_array = (is_resource($bitmap) ?
$this->processBitmapGd($bitmap) : $this->processBitmap($bitmap));
        [$width, $height, $size, $data] = $bitmap_array;

        // Scale the frame of the image.
        $width *= $scale_x;
        $height *= $scale_y;

        // Calculate the vertices of the image and write the OBJ record
        $this->positionImage($col, $row, $x, $y, $width, $height);

        // Write the IMDATA record to store the bitmap data
        $record = 0x007f;
        $length = 8 + $size;
        $cf = 0x09;
        $env = 0x01;
        $lcb = $size;

        $header = pack('vvvvV', $record, $length, $cf, $env,
$lcb);
        $this->append($header . $data);
    }

    /**
     * Calculate the vertices that define the position of the image as
required by
     * the OBJ record.
     *
     *         +------------+------------+
     *         |     A      |      B     |
     *   +-----+------------+------------+
     *   |     |(x1,y1)     |            |
     *   |  1  |(A1)._______|______      |
     *   |     |    |              |     |
     *   |     |    |              |     |
     *   +-----+----|    BITMAP    |-----+
     *   |     |    |              |     |
     *   |  2  |    |______________.     |
     *   |     |            |        (B2)|
     *   |     |            |     (x2,y2)|
     *   +---- +------------+------------+
     *
     * Example of a bitmap that covers some of the area from cell A1 to
cell B2.
     *
     * Based on the width and height of the bitmap we need to calculate 8
vars:
     *     $col_start, $row_start, $col_end, $row_end, $x1, $y1, $x2, $y2.
     * The width and height of the cells are also variable and have to be
taken into
     * account.
     * The values of $col_start and $row_start are passed in from the
calling
     * function. The values of $col_end and $row_end are calculated by
subtracting
     * the width and height of the bitmap from the width and height of the
     * underlying cells.
     * The vertices are expressed as a percentage of the underlying cell
width as
     * follows (rhs values are in pixels):
     *
     *       x1 = X / W *1024
     *       y1 = Y / H *256
     *       x2 = (X-1) / W *1024
     *       y2 = (Y-1) / H *256
     *
     *       Where:  X is distance from the left side of the underlying
cell
     *               Y is distance from the top of the underlying cell
     *               W is the width of the cell
     *               H is the height of the cell
     * The SDK incorrectly states that the height should be expressed as a
     *        percentage of 1024.
     *
     * @param int $col_start Col containing upper left corner of object
     * @param int $row_start Row containing top left corner of object
     * @param int $x1 Distance to left side of object
     * @param int $y1 Distance to top of object
     * @param int $width Width of image frame
     * @param int $height Height of image frame
     */
    public function positionImage($col_start, $row_start, $x1, $y1, $width,
$height)
    {
        // Initialise end cell to the same as the start cell
        $col_end = $col_start; // Col containing lower right corner of
object
        $row_end = $row_start; // Row containing bottom right corner of
object

        // Zero the specified offset if greater than the cell dimensions
        if ($x1 >= Xls::sizeCol($this->phpSheet,
Coordinate::stringFromColumnIndex($col_start + 1))) {
            $x1 = 0;
        }
        if ($y1 >= Xls::sizeRow($this->phpSheet, $row_start + 1)) {
            $y1 = 0;
        }

        $width = $width + $x1 - 1;
        $height = $height + $y1 - 1;

        // Subtract the underlying cell widths to find the end cell of the
image
        while ($width >= Xls::sizeCol($this->phpSheet,
Coordinate::stringFromColumnIndex($col_end + 1))) {
            $width -= Xls::sizeCol($this->phpSheet,
Coordinate::stringFromColumnIndex($col_end + 1));
            ++$col_end;
        }

        // Subtract the underlying cell heights to find the end cell of the
image
        while ($height >= Xls::sizeRow($this->phpSheet, $row_end +
1)) {
            $height -= Xls::sizeRow($this->phpSheet, $row_end + 1);
            ++$row_end;
        }

        // Bitmap isn't allowed to start or finish in a hidden cell,
i.e. a cell
        // with zero eight or width.
        //
        if (Xls::sizeCol($this->phpSheet,
Coordinate::stringFromColumnIndex($col_start + 1)) == 0) {
            return;
        }
        if (Xls::sizeCol($this->phpSheet,
Coordinate::stringFromColumnIndex($col_end + 1)) == 0) {
            return;
        }
        if (Xls::sizeRow($this->phpSheet, $row_start + 1) == 0) {
            return;
        }
        if (Xls::sizeRow($this->phpSheet, $row_end + 1) == 0) {
            return;
        }

        // Convert the pixel values to the percentage value expected by
Excel
        $x1 = $x1 / Xls::sizeCol($this->phpSheet,
Coordinate::stringFromColumnIndex($col_start + 1)) * 1024;
        $y1 = $y1 / Xls::sizeRow($this->phpSheet, $row_start + 1) * 256;
        $x2 = $width / Xls::sizeCol($this->phpSheet,
Coordinate::stringFromColumnIndex($col_end + 1)) * 1024; // Distance to
right side of object
        $y2 = $height / Xls::sizeRow($this->phpSheet, $row_end + 1) *
256; // Distance to bottom of object

        $this->writeObjPicture($col_start, $x1, $row_start, $y1,
$col_end, $x2, $row_end, $y2);
    }

    /**
     * Store the OBJ record that precedes an IMDATA record. This could be
generalise
     * to support other Excel objects.
     *
     * @param int $colL Column containing upper left corner of object
     * @param int $dxL Distance from left side of cell
     * @param int $rwT Row containing top left corner of object
     * @param int $dyT Distance from top of cell
     * @param int $colR Column containing lower right corner of object
     * @param int $dxR Distance from right of cell
     * @param int $rwB Row containing bottom right corner of object
     * @param int $dyB Distance from bottom of cell
     */
    private function writeObjPicture($colL, $dxL, $rwT, $dyT, $colR, $dxR,
$rwB, $dyB)
    {
        $record = 0x005d; // Record identifier
        $length = 0x003c; // Bytes to follow

        $cObj = 0x0001; // Count of objects in file (set to 1)
        $OT = 0x0008; // Object type. 8 = Picture
        $id = 0x0001; // Object ID
        $grbit = 0x0614; // Option flags

        $cbMacro = 0x0000; // Length of FMLA structure
        $Reserved1 = 0x0000; // Reserved
        $Reserved2 = 0x0000; // Reserved

        $icvBack = 0x09; // Background colour
        $icvFore = 0x09; // Foreground colour
        $fls = 0x00; // Fill pattern
        $fAuto = 0x00; // Automatic fill
        $icv = 0x08; // Line colour
        $lns = 0xff; // Line style
        $lnw = 0x01; // Line weight
        $fAutoB = 0x00; // Automatic border
        $frs = 0x0000; // Frame style
        $cf = 0x0009; // Image format, 9 = bitmap
        $Reserved3 = 0x0000; // Reserved
        $cbPictFmla = 0x0000; // Length of FMLA structure
        $Reserved4 = 0x0000; // Reserved
        $grbit2 = 0x0001; // Option flags
        $Reserved5 = 0x0000; // Reserved

        $header = pack('vv', $record, $length);
        $data = pack('V', $cObj);
        $data .= pack('v', $OT);
        $data .= pack('v', $id);
        $data .= pack('v', $grbit);
        $data .= pack('v', $colL);
        $data .= pack('v', $dxL);
        $data .= pack('v', $rwT);
        $data .= pack('v', $dyT);
        $data .= pack('v', $colR);
        $data .= pack('v', $dxR);
        $data .= pack('v', $rwB);
        $data .= pack('v', $dyB);
        $data .= pack('v', $cbMacro);
        $data .= pack('V', $Reserved1);
        $data .= pack('v', $Reserved2);
        $data .= pack('C', $icvBack);
        $data .= pack('C', $icvFore);
        $data .= pack('C', $fls);
        $data .= pack('C', $fAuto);
        $data .= pack('C', $icv);
        $data .= pack('C', $lns);
        $data .= pack('C', $lnw);
        $data .= pack('C', $fAutoB);
        $data .= pack('v', $frs);
        $data .= pack('V', $cf);
        $data .= pack('v', $Reserved3);
        $data .= pack('v', $cbPictFmla);
        $data .= pack('v', $Reserved4);
        $data .= pack('v', $grbit2);
        $data .= pack('V', $Reserved5);

        $this->append($header . $data);
    }

    /**
     * Convert a GD-image into the internal format.
     *
     * @param resource $image The image to process
     *
     * @return array Array with data and properties of the bitmap
     */
    public function processBitmapGd($image)
    {
        $width = imagesx($image);
        $height = imagesy($image);

        $data = pack('Vvvvv', 0x000c, $width, $height, 0x01,
0x18);
        for ($j = $height; --$j;) {
            for ($i = 0; $i < $width; ++$i) {
                $color = imagecolorsforindex($image, imagecolorat($image,
$i, $j));
                foreach (['red', 'green',
'blue'] as $key) {
                    $color[$key] = $color[$key] + round((255 -
$color[$key]) * $color['alpha'] / 127);
                }
                $data .= chr($color['blue']) .
chr($color['green']) . chr($color['red']);
            }
            if (3 * $width % 4) {
                $data .= str_repeat("\x00", 4 - 3 * $width % 4);
            }
        }

        return [$width, $height, strlen($data), $data];
    }

    /**
     * Convert a 24 bit bitmap into the modified internal format used by
Windows.
     * This is described in BITMAPCOREHEADER and BITMAPCOREINFO structures
in the
     * MSDN library.
     *
     * @param string $bitmap The bitmap to process
     *
     * @return array Array with data and properties of the bitmap
     */
    public function processBitmap($bitmap)
    {
        // Open file.
        $bmp_fd = @fopen($bitmap, 'rb');
        if (!$bmp_fd) {
            throw new WriterException("Couldn't import
$bitmap");
        }

        // Slurp the file into a string.
        $data = fread($bmp_fd, filesize($bitmap));

        // Check that the file is big enough to be a bitmap.
        if (strlen($data) <= 0x36) {
            throw new WriterException("$bitmap doesn't contain
enough data.\n");
        }

        // The first 2 bytes are used to identify the bitmap.
        $identity = unpack('A2ident', $data);
        if ($identity['ident'] != 'BM') {
            throw new WriterException("$bitmap doesn't appear to
be a valid bitmap image.\n");
        }

        // Remove bitmap data: ID.
        $data = substr($data, 2);

        // Read and remove the bitmap size. This is more reliable than
reading
        // the data size at offset 0x22.
        //
        $size_array = unpack('Vsa', substr($data, 0, 4));
        $size = $size_array['sa'];
        $data = substr($data, 4);
        $size -= 0x36; // Subtract size of bitmap header.
        $size += 0x0C; // Add size of BIFF header.

        // Remove bitmap data: reserved, offset, header length.
        $data = substr($data, 12);

        // Read and remove the bitmap width and height. Verify the sizes.
        $width_and_height = unpack('V2', substr($data, 0, 8));
        $width = $width_and_height[1];
        $height = $width_and_height[2];
        $data = substr($data, 8);
        if ($width > 0xFFFF) {
            throw new WriterException("$bitmap: largest image width
supported is 65k.\n");
        }
        if ($height > 0xFFFF) {
            throw new WriterException("$bitmap: largest image height
supported is 65k.\n");
        }

        // Read and remove the bitmap planes and bpp data. Verify them.
        $planes_and_bitcount = unpack('v2', substr($data, 0, 4));
        $data = substr($data, 4);
        if ($planes_and_bitcount[2] != 24) { // Bitcount
            throw new WriterException("$bitmap isn't a 24bit true
color bitmap.\n");
        }
        if ($planes_and_bitcount[1] != 1) {
            throw new WriterException("$bitmap: only 1 plane supported
in bitmap image.\n");
        }

        // Read and remove the bitmap compression. Verify compression.
        $compression = unpack('Vcomp', substr($data, 0, 4));
        $data = substr($data, 4);

        if ($compression['comp'] != 0) {
            throw new WriterException("$bitmap: compression not
supported in bitmap image.\n");
        }

        // Remove bitmap data: data size, hres, vres, colours, imp.
colours.
        $data = substr($data, 20);

        // Add the BITMAPCOREHEADER data
        $header = pack('Vvvvv', 0x000c, $width, $height, 0x01,
0x18);
        $data = $header . $data;

        return [$width, $height, $size, $data];
    }

    /**
     * Store the window zoom factor. This should be a reduced fraction but
for
     * simplicity we will store all fractions with a numerator of 100.
     */
    private function writeZoom()
    {
        // If scale is 100 we don't need to write a record
        if ($this->phpSheet->getSheetView()->getZoomScale() ==
100) {
            return;
        }

        $record = 0x00A0; // Record identifier
        $length = 0x0004; // Bytes to follow

        $header = pack('vv', $record, $length);
        $data = pack('vv',
$this->phpSheet->getSheetView()->getZoomScale(), 100);
        $this->append($header . $data);
    }

    /**
     * Get Escher object.
     *
     * @return \PhpOffice\PhpSpreadsheet\Shared\Escher
     */
    public function getEscher()
    {
        return $this->escher;
    }

    /**
     * Set Escher object.
     *
     * @param \PhpOffice\PhpSpreadsheet\Shared\Escher $pValue
     */
    public function setEscher(\PhpOffice\PhpSpreadsheet\Shared\Escher
$pValue = null)
    {
        $this->escher = $pValue;
    }

    /**
     * Write MSODRAWING record.
     */
    private function writeMsoDrawing()
    {
        // write the Escher stream if necessary
        if (isset($this->escher)) {
            $writer = new Escher($this->escher);
            $data = $writer->close();
            $spOffsets = $writer->getSpOffsets();
            $spTypes = $writer->getSpTypes();
            // write the neccesary MSODRAWING, OBJ records

            // split the Escher stream
            $spOffsets[0] = 0;
            $nm = count($spOffsets) - 1; // number of shapes excluding
first shape
            for ($i = 1; $i <= $nm; ++$i) {
                // MSODRAWING record
                $record = 0x00EC; // Record identifier

                // chunk of Escher stream for one shape
                $dataChunk = substr($data, $spOffsets[$i - 1],
$spOffsets[$i] - $spOffsets[$i - 1]);

                $length = strlen($dataChunk);
                $header = pack('vv', $record, $length);

                $this->append($header . $dataChunk);

                // OBJ record
                $record = 0x005D; // record identifier
                $objData = '';

                // ftCmo
                if ($spTypes[$i] == 0x00C9) {
                    // Add ftCmo (common object data) subobject
                    $objData .=
                        pack(
                            'vvvvvVVV',
                            0x0015, // 0x0015 = ftCmo
                            0x0012, // length of ftCmo data
                            0x0014, // object type, 0x0014 = filter
                            $i, // object id number, Excel seems to use
1-based index, local for the sheet
                            0x2101, // option flags, 0x2001 is what
OpenOffice.org uses
                            0, // reserved
                            0, // reserved
                            0  // reserved
                        );

                    // Add ftSbs Scroll bar subobject
                    $objData .= pack('vv', 0x00C, 0x0014);
                    $objData .= pack('H*',
'0000000000000000640001000A00000010000100');
                    // Add ftLbsData (List box data) subobject
                    $objData .= pack('vv', 0x0013, 0x1FEE);
                    $objData .= pack('H*',
'00000000010001030000020008005700');
                } else {
                    // Add ftCmo (common object data) subobject
                    $objData .=
                        pack(
                            'vvvvvVVV',
                            0x0015, // 0x0015 = ftCmo
                            0x0012, // length of ftCmo data
                            0x0008, // object type, 0x0008 = picture
                            $i, // object id number, Excel seems to use
1-based index, local for the sheet
                            0x6011, // option flags, 0x6011 is what
OpenOffice.org uses
                            0, // reserved
                            0, // reserved
                            0  // reserved
                        );
                }

                // ftEnd
                $objData .=
                    pack(
                        'vv',
                        0x0000, // 0x0000 = ftEnd
                        0x0000  // length of ftEnd data
                    );

                $length = strlen($objData);
                $header = pack('vv', $record, $length);
                $this->append($header . $objData);
            }
        }
    }

    /**
     * Store the DATAVALIDATIONS and DATAVALIDATION records.
     */
    private function writeDataValidity()
    {
        // Datavalidation collection
        $dataValidationCollection =
$this->phpSheet->getDataValidationCollection();

        // Write data validations?
        if (!empty($dataValidationCollection)) {
            // DATAVALIDATIONS record
            $record = 0x01B2; // Record identifier
            $length = 0x0012; // Bytes to follow

            $grbit = 0x0000; // Prompt box at cell, no cached validity data
at DV records
            $horPos = 0x00000000; // Horizontal position of prompt box, if
fixed position
            $verPos = 0x00000000; // Vertical position of prompt box, if
fixed position
            $objId = 0xFFFFFFFF; // Object identifier of drop down arrow
object, or -1 if not visible

            $header = pack('vv', $record, $length);
            $data = pack('vVVVV', $grbit, $horPos, $verPos,
$objId, count($dataValidationCollection));
            $this->append($header . $data);

            // DATAVALIDATION records
            $record = 0x01BE; // Record identifier

            foreach ($dataValidationCollection as $cellCoordinate =>
$dataValidation) {
                // initialize record data
                $data = '';

                // options
                $options = 0x00000000;

                // data type
                $type = 0x00;
                switch ($dataValidation->getType()) {
                    case DataValidation::TYPE_NONE:
                        $type = 0x00;

                        break;
                    case DataValidation::TYPE_WHOLE:
                        $type = 0x01;

                        break;
                    case DataValidation::TYPE_DECIMAL:
                        $type = 0x02;

                        break;
                    case DataValidation::TYPE_LIST:
                        $type = 0x03;

                        break;
                    case DataValidation::TYPE_DATE:
                        $type = 0x04;

                        break;
                    case DataValidation::TYPE_TIME:
                        $type = 0x05;

                        break;
                    case DataValidation::TYPE_TEXTLENGTH:
                        $type = 0x06;

                        break;
                    case DataValidation::TYPE_CUSTOM:
                        $type = 0x07;

                        break;
                }

                $options |= $type << 0;

                // error style
                $errorStyle = 0x00;
                switch ($dataValidation->getErrorStyle()) {
                    case DataValidation::STYLE_STOP:
                        $errorStyle = 0x00;

                        break;
                    case DataValidation::STYLE_WARNING:
                        $errorStyle = 0x01;

                        break;
                    case DataValidation::STYLE_INFORMATION:
                        $errorStyle = 0x02;

                        break;
                }

                $options |= $errorStyle << 4;

                // explicit formula?
                if ($type == 0x03 &&
preg_match('/^\".*\"$/',
$dataValidation->getFormula1())) {
                    $options |= 0x01 << 7;
                }

                // empty cells allowed
                $options |= $dataValidation->getAllowBlank() << 8;

                // show drop down
                $options |= (!$dataValidation->getShowDropDown())
<< 9;

                // show input message
                $options |= $dataValidation->getShowInputMessage()
<< 18;

                // show error message
                $options |= $dataValidation->getShowErrorMessage()
<< 19;

                // condition operator
                $operator = 0x00;
                switch ($dataValidation->getOperator()) {
                    case DataValidation::OPERATOR_BETWEEN:
                        $operator = 0x00;

                        break;
                    case DataValidation::OPERATOR_NOTBETWEEN:
                        $operator = 0x01;

                        break;
                    case DataValidation::OPERATOR_EQUAL:
                        $operator = 0x02;

                        break;
                    case DataValidation::OPERATOR_NOTEQUAL:
                        $operator = 0x03;

                        break;
                    case DataValidation::OPERATOR_GREATERTHAN:
                        $operator = 0x04;

                        break;
                    case DataValidation::OPERATOR_LESSTHAN:
                        $operator = 0x05;

                        break;
                    case DataValidation::OPERATOR_GREATERTHANOREQUAL:
                        $operator = 0x06;

                        break;
                    case DataValidation::OPERATOR_LESSTHANOREQUAL:
                        $operator = 0x07;

                        break;
                }

                $options |= $operator << 20;

                $data = pack('V', $options);

                // prompt title
                $promptTitle = $dataValidation->getPromptTitle() !==
'' ?
                    $dataValidation->getPromptTitle() : chr(0);
                $data .=
StringHelper::UTF8toBIFF8UnicodeLong($promptTitle);

                // error title
                $errorTitle = $dataValidation->getErrorTitle() !==
'' ?
                    $dataValidation->getErrorTitle() : chr(0);
                $data .= StringHelper::UTF8toBIFF8UnicodeLong($errorTitle);

                // prompt text
                $prompt = $dataValidation->getPrompt() !== ''
?
                    $dataValidation->getPrompt() : chr(0);
                $data .= StringHelper::UTF8toBIFF8UnicodeLong($prompt);

                // error text
                $error = $dataValidation->getError() !== '' ?
                    $dataValidation->getError() : chr(0);
                $data .= StringHelper::UTF8toBIFF8UnicodeLong($error);

                // formula 1
                try {
                    $formula1 = $dataValidation->getFormula1();
                    if ($type == 0x03) { // list type
                        $formula1 = str_replace(',', chr(0),
$formula1);
                    }
                    $this->parser->parse($formula1);
                    $formula1 = $this->parser->toReversePolish();
                    $sz1 = strlen($formula1);
                } catch (PhpSpreadsheetException $e) {
                    $sz1 = 0;
                    $formula1 = '';
                }
                $data .= pack('vv', $sz1, 0x0000);
                $data .= $formula1;

                // formula 2
                try {
                    $formula2 = $dataValidation->getFormula2();
                    if ($formula2 === '') {
                        throw new WriterException('No formula2');
                    }
                    $this->parser->parse($formula2);
                    $formula2 = $this->parser->toReversePolish();
                    $sz2 = strlen($formula2);
                } catch (PhpSpreadsheetException $e) {
                    $sz2 = 0;
                    $formula2 = '';
                }
                $data .= pack('vv', $sz2, 0x0000);
                $data .= $formula2;

                // cell range address list
                $data .= pack('v', 0x0001);
                $data .=
$this->writeBIFF8CellRangeAddressFixed($cellCoordinate);

                $length = strlen($data);
                $header = pack('vv', $record, $length);

                $this->append($header . $data);
            }
        }
    }

    /**
     * Map Error code.
     *
     * @param string $errorCode
     *
     * @return int
     */
    private static function mapErrorCode($errorCode)
    {
        switch ($errorCode) {
            case '#NULL!':
                return 0x00;
            case '#DIV/0!':
                return 0x07;
            case '#VALUE!':
                return 0x0F;
            case '#REF!':
                return 0x17;
            case '#NAME?':
                return 0x1D;
            case '#NUM!':
                return 0x24;
            case '#N/A':
                return 0x2A;
        }

        return 0;
    }

    /**
     * Write PLV Record.
     */
    private function writePageLayoutView()
    {
        $record = 0x088B; // Record identifier
        $length = 0x0010; // Bytes to follow

        $rt = 0x088B; // 2
        $grbitFrt = 0x0000; // 2
        $reserved = 0x0000000000000000; // 8
        $wScalvePLV =
$this->phpSheet->getSheetView()->getZoomScale(); // 2

        // The options flags that comprise $grbit
        if ($this->phpSheet->getSheetView()->getView() ==
SheetView::SHEETVIEW_PAGE_LAYOUT) {
            $fPageLayoutView = 1;
        } else {
            $fPageLayoutView = 0;
        }
        $fRulerVisible = 0;
        $fWhitespaceHidden = 0;

        $grbit = $fPageLayoutView; // 2
        $grbit |= $fRulerVisible << 1;
        $grbit |= $fWhitespaceHidden << 3;

        $header = pack('vv', $record, $length);
        $data = pack('vvVVvv', $rt, $grbitFrt, 0x00000000,
0x00000000, $wScalvePLV, $grbit);
        $this->append($header . $data);
    }

    /**
     * Write CFRule Record.
     *
     * @param Conditional $conditional
     */
    private function writeCFRule(Conditional $conditional)
    {
        $record = 0x01B1; // Record identifier

        // $type : Type of the CF
        // $operatorType : Comparison operator
        if ($conditional->getConditionType() ==
Conditional::CONDITION_EXPRESSION) {
            $type = 0x02;
            $operatorType = 0x00;
        } elseif ($conditional->getConditionType() ==
Conditional::CONDITION_CELLIS) {
            $type = 0x01;

            switch ($conditional->getOperatorType()) {
                case Conditional::OPERATOR_NONE:
                    $operatorType = 0x00;

                    break;
                case Conditional::OPERATOR_EQUAL:
                    $operatorType = 0x03;

                    break;
                case Conditional::OPERATOR_GREATERTHAN:
                    $operatorType = 0x05;

                    break;
                case Conditional::OPERATOR_GREATERTHANOREQUAL:
                    $operatorType = 0x07;

                    break;
                case Conditional::OPERATOR_LESSTHAN:
                    $operatorType = 0x06;

                    break;
                case Conditional::OPERATOR_LESSTHANOREQUAL:
                    $operatorType = 0x08;

                    break;
                case Conditional::OPERATOR_NOTEQUAL:
                    $operatorType = 0x04;

                    break;
                case Conditional::OPERATOR_BETWEEN:
                    $operatorType = 0x01;

                    break;
                    // not OPERATOR_NOTBETWEEN 0x02
            }
        }

        // $szValue1 : size of the formula data for first value or formula
        // $szValue2 : size of the formula data for second value or formula
        $arrConditions = $conditional->getConditions();
        $numConditions = count($arrConditions);
        if ($numConditions == 1) {
            $szValue1 = ($arrConditions[0] <= 65535 ? 3 : 0x0000);
            $szValue2 = 0x0000;
            $operand1 = pack('Cv', 0x1E, $arrConditions[0]);
            $operand2 = null;
        } elseif ($numConditions == 2 &&
($conditional->getOperatorType() == Conditional::OPERATOR_BETWEEN)) {
            $szValue1 = ($arrConditions[0] <= 65535 ? 3 : 0x0000);
            $szValue2 = ($arrConditions[1] <= 65535 ? 3 : 0x0000);
            $operand1 = pack('Cv', 0x1E, $arrConditions[0]);
            $operand2 = pack('Cv', 0x1E, $arrConditions[1]);
        } else {
            $szValue1 = 0x0000;
            $szValue2 = 0x0000;
            $operand1 = null;
            $operand2 = null;
        }

        // $flags : Option flags
        // Alignment
        $bAlignHz =
($conditional->getStyle()->getAlignment()->getHorizontal() == null
? 1 : 0);
        $bAlignVt =
($conditional->getStyle()->getAlignment()->getVertical() == null ?
1 : 0);
        $bAlignWrapTx =
($conditional->getStyle()->getAlignment()->getWrapText() == false
? 1 : 0);
        $bTxRotation =
($conditional->getStyle()->getAlignment()->getTextRotation() ==
null ? 1 : 0);
        $bIndent =
($conditional->getStyle()->getAlignment()->getIndent() == 0 ? 1 :
0);
        $bShrinkToFit =
($conditional->getStyle()->getAlignment()->getShrinkToFit() ==
false ? 1 : 0);
        if ($bAlignHz == 0 || $bAlignVt == 0 || $bAlignWrapTx == 0 ||
$bTxRotation == 0 || $bIndent == 0 || $bShrinkToFit == 0) {
            $bFormatAlign = 1;
        } else {
            $bFormatAlign = 0;
        }
        // Protection
        $bProtLocked =
($conditional->getStyle()->getProtection()->getLocked() == null ?
1 : 0);
        $bProtHidden =
($conditional->getStyle()->getProtection()->getHidden() == null ?
1 : 0);
        if ($bProtLocked == 0 || $bProtHidden == 0) {
            $bFormatProt = 1;
        } else {
            $bFormatProt = 0;
        }
        // Border
        $bBorderLeft =
($conditional->getStyle()->getBorders()->getLeft()->getColor()->getARGB()
== Color::COLOR_BLACK
                        &&
$conditional->getStyle()->getBorders()->getLeft()->getBorderStyle()
== Border::BORDER_NONE ? 1 : 0);
        $bBorderRight =
($conditional->getStyle()->getBorders()->getRight()->getColor()->getARGB()
== Color::COLOR_BLACK
                        &&
$conditional->getStyle()->getBorders()->getRight()->getBorderStyle()
== Border::BORDER_NONE ? 1 : 0);
        $bBorderTop =
($conditional->getStyle()->getBorders()->getTop()->getColor()->getARGB()
== Color::COLOR_BLACK
                        &&
$conditional->getStyle()->getBorders()->getTop()->getBorderStyle()
== Border::BORDER_NONE ? 1 : 0);
        $bBorderBottom =
($conditional->getStyle()->getBorders()->getBottom()->getColor()->getARGB()
== Color::COLOR_BLACK
                        &&
$conditional->getStyle()->getBorders()->getBottom()->getBorderStyle()
== Border::BORDER_NONE ? 1 : 0);
        if ($bBorderLeft == 0 || $bBorderRight == 0 || $bBorderTop == 0 ||
$bBorderBottom == 0) {
            $bFormatBorder = 1;
        } else {
            $bFormatBorder = 0;
        }
        // Pattern
        $bFillStyle =
($conditional->getStyle()->getFill()->getFillType() == null ? 0 :
1);
        $bFillColor =
($conditional->getStyle()->getFill()->getStartColor()->getARGB()
== null ? 0 : 1);
        $bFillColorBg =
($conditional->getStyle()->getFill()->getEndColor()->getARGB()
== null ? 0 : 1);
        if ($bFillStyle == 0 || $bFillColor == 0 || $bFillColorBg == 0) {
            $bFormatFill = 1;
        } else {
            $bFormatFill = 0;
        }
        // Font
        if ($conditional->getStyle()->getFont()->getName() != null
            || $conditional->getStyle()->getFont()->getSize() !=
null
            || $conditional->getStyle()->getFont()->getBold() !=
null
            || $conditional->getStyle()->getFont()->getItalic() !=
null
            ||
$conditional->getStyle()->getFont()->getSuperscript() != null
            || $conditional->getStyle()->getFont()->getSubscript()
!= null
            || $conditional->getStyle()->getFont()->getUnderline()
!= null
            ||
$conditional->getStyle()->getFont()->getStrikethrough() != null
            ||
$conditional->getStyle()->getFont()->getColor()->getARGB() !=
null) {
            $bFormatFont = 1;
        } else {
            $bFormatFont = 0;
        }
        // Alignment
        $flags = 0;
        $flags |= (1 == $bAlignHz ? 0x00000001 : 0);
        $flags |= (1 == $bAlignVt ? 0x00000002 : 0);
        $flags |= (1 == $bAlignWrapTx ? 0x00000004 : 0);
        $flags |= (1 == $bTxRotation ? 0x00000008 : 0);
        // Justify last line flag
        $flags |= (1 == 1 ? 0x00000010 : 0);
        $flags |= (1 == $bIndent ? 0x00000020 : 0);
        $flags |= (1 == $bShrinkToFit ? 0x00000040 : 0);
        // Default
        $flags |= (1 == 1 ? 0x00000080 : 0);
        // Protection
        $flags |= (1 == $bProtLocked ? 0x00000100 : 0);
        $flags |= (1 == $bProtHidden ? 0x00000200 : 0);
        // Border
        $flags |= (1 == $bBorderLeft ? 0x00000400 : 0);
        $flags |= (1 == $bBorderRight ? 0x00000800 : 0);
        $flags |= (1 == $bBorderTop ? 0x00001000 : 0);
        $flags |= (1 == $bBorderBottom ? 0x00002000 : 0);
        $flags |= (1 == 1 ? 0x00004000 : 0); // Top left to Bottom right
border
        $flags |= (1 == 1 ? 0x00008000 : 0); // Bottom left to Top right
border
        // Pattern
        $flags |= (1 == $bFillStyle ? 0x00010000 : 0);
        $flags |= (1 == $bFillColor ? 0x00020000 : 0);
        $flags |= (1 == $bFillColorBg ? 0x00040000 : 0);
        $flags |= (1 == 1 ? 0x00380000 : 0);
        // Font
        $flags |= (1 == $bFormatFont ? 0x04000000 : 0);
        // Alignment:
        $flags |= (1 == $bFormatAlign ? 0x08000000 : 0);
        // Border
        $flags |= (1 == $bFormatBorder ? 0x10000000 : 0);
        // Pattern
        $flags |= (1 == $bFormatFill ? 0x20000000 : 0);
        // Protection
        $flags |= (1 == $bFormatProt ? 0x40000000 : 0);
        // Text direction
        $flags |= (1 == 0 ? 0x80000000 : 0);

        // Data Blocks
        if ($bFormatFont == 1) {
            // Font Name
            if ($conditional->getStyle()->getFont()->getName() ==
null) {
                $dataBlockFont = pack('VVVVVVVV', 0x00000000,
0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000,
0x00000000);
                $dataBlockFont .= pack('VVVVVVVV', 0x00000000,
0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000,
0x00000000);
            } else {
                $dataBlockFont =
StringHelper::UTF8toBIFF8UnicodeLong($conditional->getStyle()->getFont()->getName());
            }
            // Font Size
            if ($conditional->getStyle()->getFont()->getSize() ==
null) {
                $dataBlockFont .= pack('V', 20 * 11);
            } else {
                $dataBlockFont .= pack('V', 20 *
$conditional->getStyle()->getFont()->getSize());
            }
            // Font Options
            $dataBlockFont .= pack('V', 0);
            // Font weight
            if ($conditional->getStyle()->getFont()->getBold() ==
true) {
                $dataBlockFont .= pack('v', 0x02BC);
            } else {
                $dataBlockFont .= pack('v', 0x0190);
            }
            // Escapement type
            if
($conditional->getStyle()->getFont()->getSubscript() == true) {
                $dataBlockFont .= pack('v', 0x02);
                $fontEscapement = 0;
            } elseif
($conditional->getStyle()->getFont()->getSuperscript() == true) {
                $dataBlockFont .= pack('v', 0x01);
                $fontEscapement = 0;
            } else {
                $dataBlockFont .= pack('v', 0x00);
                $fontEscapement = 1;
            }
            // Underline type
            switch
($conditional->getStyle()->getFont()->getUnderline()) {
                case \PhpOffice\PhpSpreadsheet\Style\Font::UNDERLINE_NONE:
                    $dataBlockFont .= pack('C', 0x00);
                    $fontUnderline = 0;

                    break;
                case
\PhpOffice\PhpSpreadsheet\Style\Font::UNDERLINE_DOUBLE:
                    $dataBlockFont .= pack('C', 0x02);
                    $fontUnderline = 0;

                    break;
                case
\PhpOffice\PhpSpreadsheet\Style\Font::UNDERLINE_DOUBLEACCOUNTING:
                    $dataBlockFont .= pack('C', 0x22);
                    $fontUnderline = 0;

                    break;
                case
\PhpOffice\PhpSpreadsheet\Style\Font::UNDERLINE_SINGLE:
                    $dataBlockFont .= pack('C', 0x01);
                    $fontUnderline = 0;

                    break;
                case
\PhpOffice\PhpSpreadsheet\Style\Font::UNDERLINE_SINGLEACCOUNTING:
                    $dataBlockFont .= pack('C', 0x21);
                    $fontUnderline = 0;

                    break;
                default:
                    $dataBlockFont .= pack('C', 0x00);
                    $fontUnderline = 1;

                    break;
            }
            // Not used (3)
            $dataBlockFont .= pack('vC', 0x0000, 0x00);
            // Font color index
            switch
($conditional->getStyle()->getFont()->getColor()->getRGB()) {
                case '000000':
                    $colorIdx = 0x08;

                    break;
                case 'FFFFFF':
                    $colorIdx = 0x09;

                    break;
                case 'FF0000':
                    $colorIdx = 0x0A;

                    break;
                case '00FF00':
                    $colorIdx = 0x0B;

                    break;
                case '0000FF':
                    $colorIdx = 0x0C;

                    break;
                case 'FFFF00':
                    $colorIdx = 0x0D;

                    break;
                case 'FF00FF':
                    $colorIdx = 0x0E;

                    break;
                case '00FFFF':
                    $colorIdx = 0x0F;

                    break;
                case '800000':
                    $colorIdx = 0x10;

                    break;
                case '008000':
                    $colorIdx = 0x11;

                    break;
                case '000080':
                    $colorIdx = 0x12;

                    break;
                case '808000':
                    $colorIdx = 0x13;

                    break;
                case '800080':
                    $colorIdx = 0x14;

                    break;
                case '008080':
                    $colorIdx = 0x15;

                    break;
                case 'C0C0C0':
                    $colorIdx = 0x16;

                    break;
                case '808080':
                    $colorIdx = 0x17;

                    break;
                case '9999FF':
                    $colorIdx = 0x18;

                    break;
                case '993366':
                    $colorIdx = 0x19;

                    break;
                case 'FFFFCC':
                    $colorIdx = 0x1A;

                    break;
                case 'CCFFFF':
                    $colorIdx = 0x1B;

                    break;
                case '660066':
                    $colorIdx = 0x1C;

                    break;
                case 'FF8080':
                    $colorIdx = 0x1D;

                    break;
                case '0066CC':
                    $colorIdx = 0x1E;

                    break;
                case 'CCCCFF':
                    $colorIdx = 0x1F;

                    break;
                case '000080':
                    $colorIdx = 0x20;

                    break;
                case 'FF00FF':
                    $colorIdx = 0x21;

                    break;
                case 'FFFF00':
                    $colorIdx = 0x22;

                    break;
                case '00FFFF':
                    $colorIdx = 0x23;

                    break;
                case '800080':
                    $colorIdx = 0x24;

                    break;
                case '800000':
                    $colorIdx = 0x25;

                    break;
                case '008080':
                    $colorIdx = 0x26;

                    break;
                case '0000FF':
                    $colorIdx = 0x27;

                    break;
                case '00CCFF':
                    $colorIdx = 0x28;

                    break;
                case 'CCFFFF':
                    $colorIdx = 0x29;

                    break;
                case 'CCFFCC':
                    $colorIdx = 0x2A;

                    break;
                case 'FFFF99':
                    $colorIdx = 0x2B;

                    break;
                case '99CCFF':
                    $colorIdx = 0x2C;

                    break;
                case 'FF99CC':
                    $colorIdx = 0x2D;

                    break;
                case 'CC99FF':
                    $colorIdx = 0x2E;

                    break;
                case 'FFCC99':
                    $colorIdx = 0x2F;

                    break;
                case '3366FF':
                    $colorIdx = 0x30;

                    break;
                case '33CCCC':
                    $colorIdx = 0x31;

                    break;
                case '99CC00':
                    $colorIdx = 0x32;

                    break;
                case 'FFCC00':
                    $colorIdx = 0x33;

                    break;
                case 'FF9900':
                    $colorIdx = 0x34;

                    break;
                case 'FF6600':
                    $colorIdx = 0x35;

                    break;
                case '666699':
                    $colorIdx = 0x36;

                    break;
                case '969696':
                    $colorIdx = 0x37;

                    break;
                case '003366':
                    $colorIdx = 0x38;

                    break;
                case '339966':
                    $colorIdx = 0x39;

                    break;
                case '003300':
                    $colorIdx = 0x3A;

                    break;
                case '333300':
                    $colorIdx = 0x3B;

                    break;
                case '993300':
                    $colorIdx = 0x3C;

                    break;
                case '993366':
                    $colorIdx = 0x3D;

                    break;
                case '333399':
                    $colorIdx = 0x3E;

                    break;
                case '333333':
                    $colorIdx = 0x3F;

                    break;
                default:
                    $colorIdx = 0x00;

                    break;
            }
            $dataBlockFont .= pack('V', $colorIdx);
            // Not used (4)
            $dataBlockFont .= pack('V', 0x00000000);
            // Options flags for modified font attributes
            $optionsFlags = 0;
            $optionsFlagsBold =
($conditional->getStyle()->getFont()->getBold() == null ? 1 : 0);
            $optionsFlags |= (1 == $optionsFlagsBold ? 0x00000002 : 0);
            $optionsFlags |= (1 == 1 ? 0x00000008 : 0);
            $optionsFlags |= (1 == 1 ? 0x00000010 : 0);
            $optionsFlags |= (1 == 0 ? 0x00000020 : 0);
            $optionsFlags |= (1 == 1 ? 0x00000080 : 0);
            $dataBlockFont .= pack('V', $optionsFlags);
            // Escapement type
            $dataBlockFont .= pack('V', $fontEscapement);
            // Underline type
            $dataBlockFont .= pack('V', $fontUnderline);
            // Always
            $dataBlockFont .= pack('V', 0x00000000);
            // Always
            $dataBlockFont .= pack('V', 0x00000000);
            // Not used (8)
            $dataBlockFont .= pack('VV', 0x00000000, 0x00000000);
            // Always
            $dataBlockFont .= pack('v', 0x0001);
        }
        if ($bFormatAlign == 1) {
            $blockAlign = 0;
            // Alignment and text break
            switch
($conditional->getStyle()->getAlignment()->getHorizontal()) {
                case Alignment::HORIZONTAL_GENERAL:
                    $blockAlign = 0;

                    break;
                case Alignment::HORIZONTAL_LEFT:
                    $blockAlign = 1;

                    break;
                case Alignment::HORIZONTAL_RIGHT:
                    $blockAlign = 3;

                    break;
                case Alignment::HORIZONTAL_CENTER:
                    $blockAlign = 2;

                    break;
                case Alignment::HORIZONTAL_CENTER_CONTINUOUS:
                    $blockAlign = 6;

                    break;
                case Alignment::HORIZONTAL_JUSTIFY:
                    $blockAlign = 5;

                    break;
            }
            if
($conditional->getStyle()->getAlignment()->getWrapText() == true)
{
                $blockAlign |= 1 << 3;
            } else {
                $blockAlign |= 0 << 3;
            }
            switch
($conditional->getStyle()->getAlignment()->getVertical()) {
                case Alignment::VERTICAL_BOTTOM:
                    $blockAlign = 2 << 4;

                    break;
                case Alignment::VERTICAL_TOP:
                    $blockAlign = 0 << 4;

                    break;
                case Alignment::VERTICAL_CENTER:
                    $blockAlign = 1 << 4;

                    break;
                case Alignment::VERTICAL_JUSTIFY:
                    $blockAlign = 3 << 4;

                    break;
            }
            $blockAlign |= 0 << 7;

            // Text rotation angle
            $blockRotation =
$conditional->getStyle()->getAlignment()->getTextRotation();

            // Indentation
            $blockIndent =
$conditional->getStyle()->getAlignment()->getIndent();
            if
($conditional->getStyle()->getAlignment()->getShrinkToFit() ==
true) {
                $blockIndent |= 1 << 4;
            } else {
                $blockIndent |= 0 << 4;
            }
            $blockIndent |= 0 << 6;

            // Relative indentation
            $blockIndentRelative = 255;

            $dataBlockAlign = pack('CCvvv', $blockAlign,
$blockRotation, $blockIndent, $blockIndentRelative, 0x0000);
        }
        if ($bFormatBorder == 1) {
            $blockLineStyle = 0;
            switch
($conditional->getStyle()->getBorders()->getLeft()->getBorderStyle())
{
                case Border::BORDER_NONE:
                    $blockLineStyle |= 0x00;

                    break;
                case Border::BORDER_THIN:
                    $blockLineStyle |= 0x01;

                    break;
                case Border::BORDER_MEDIUM:
                    $blockLineStyle |= 0x02;

                    break;
                case Border::BORDER_DASHED:
                    $blockLineStyle |= 0x03;

                    break;
                case Border::BORDER_DOTTED:
                    $blockLineStyle |= 0x04;

                    break;
                case Border::BORDER_THICK:
                    $blockLineStyle |= 0x05;

                    break;
                case Border::BORDER_DOUBLE:
                    $blockLineStyle |= 0x06;

                    break;
                case Border::BORDER_HAIR:
                    $blockLineStyle |= 0x07;

                    break;
                case Border::BORDER_MEDIUMDASHED:
                    $blockLineStyle |= 0x08;

                    break;
                case Border::BORDER_DASHDOT:
                    $blockLineStyle |= 0x09;

                    break;
                case Border::BORDER_MEDIUMDASHDOT:
                    $blockLineStyle |= 0x0A;

                    break;
                case Border::BORDER_DASHDOTDOT:
                    $blockLineStyle |= 0x0B;

                    break;
                case Border::BORDER_MEDIUMDASHDOTDOT:
                    $blockLineStyle |= 0x0C;

                    break;
                case Border::BORDER_SLANTDASHDOT:
                    $blockLineStyle |= 0x0D;

                    break;
            }
            switch
($conditional->getStyle()->getBorders()->getRight()->getBorderStyle())
{
                case Border::BORDER_NONE:
                    $blockLineStyle |= 0x00 << 4;

                    break;
                case Border::BORDER_THIN:
                    $blockLineStyle |= 0x01 << 4;

                    break;
                case Border::BORDER_MEDIUM:
                    $blockLineStyle |= 0x02 << 4;

                    break;
                case Border::BORDER_DASHED:
                    $blockLineStyle |= 0x03 << 4;

                    break;
                case Border::BORDER_DOTTED:
                    $blockLineStyle |= 0x04 << 4;

                    break;
                case Border::BORDER_THICK:
                    $blockLineStyle |= 0x05 << 4;

                    break;
                case Border::BORDER_DOUBLE:
                    $blockLineStyle |= 0x06 << 4;

                    break;
                case Border::BORDER_HAIR:
                    $blockLineStyle |= 0x07 << 4;

                    break;
                case Border::BORDER_MEDIUMDASHED:
                    $blockLineStyle |= 0x08 << 4;

                    break;
                case Border::BORDER_DASHDOT:
                    $blockLineStyle |= 0x09 << 4;

                    break;
                case Border::BORDER_MEDIUMDASHDOT:
                    $blockLineStyle |= 0x0A << 4;

                    break;
                case Border::BORDER_DASHDOTDOT:
                    $blockLineStyle |= 0x0B << 4;

                    break;
                case Border::BORDER_MEDIUMDASHDOTDOT:
                    $blockLineStyle |= 0x0C << 4;

                    break;
                case Border::BORDER_SLANTDASHDOT:
                    $blockLineStyle |= 0x0D << 4;

                    break;
            }
            switch
($conditional->getStyle()->getBorders()->getTop()->getBorderStyle())
{
                case Border::BORDER_NONE:
                    $blockLineStyle |= 0x00 << 8;

                    break;
                case Border::BORDER_THIN:
                    $blockLineStyle |= 0x01 << 8;

                    break;
                case Border::BORDER_MEDIUM:
                    $blockLineStyle |= 0x02 << 8;

                    break;
                case Border::BORDER_DASHED:
                    $blockLineStyle |= 0x03 << 8;

                    break;
                case Border::BORDER_DOTTED:
                    $blockLineStyle |= 0x04 << 8;

                    break;
                case Border::BORDER_THICK:
                    $blockLineStyle |= 0x05 << 8;

                    break;
                case Border::BORDER_DOUBLE:
                    $blockLineStyle |= 0x06 << 8;

                    break;
                case Border::BORDER_HAIR:
                    $blockLineStyle |= 0x07 << 8;

                    break;
                case Border::BORDER_MEDIUMDASHED:
                    $blockLineStyle |= 0x08 << 8;

                    break;
                case Border::BORDER_DASHDOT:
                    $blockLineStyle |= 0x09 << 8;

                    break;
                case Border::BORDER_MEDIUMDASHDOT:
                    $blockLineStyle |= 0x0A << 8;

                    break;
                case Border::BORDER_DASHDOTDOT:
                    $blockLineStyle |= 0x0B << 8;

                    break;
                case Border::BORDER_MEDIUMDASHDOTDOT:
                    $blockLineStyle |= 0x0C << 8;

                    break;
                case Border::BORDER_SLANTDASHDOT:
                    $blockLineStyle |= 0x0D << 8;

                    break;
            }
            switch
($conditional->getStyle()->getBorders()->getBottom()->getBorderStyle())
{
                case Border::BORDER_NONE:
                    $blockLineStyle |= 0x00 << 12;

                    break;
                case Border::BORDER_THIN:
                    $blockLineStyle |= 0x01 << 12;

                    break;
                case Border::BORDER_MEDIUM:
                    $blockLineStyle |= 0x02 << 12;

                    break;
                case Border::BORDER_DASHED:
                    $blockLineStyle |= 0x03 << 12;

                    break;
                case Border::BORDER_DOTTED:
                    $blockLineStyle |= 0x04 << 12;

                    break;
                case Border::BORDER_THICK:
                    $blockLineStyle |= 0x05 << 12;

                    break;
                case Border::BORDER_DOUBLE:
                    $blockLineStyle |= 0x06 << 12;

                    break;
                case Border::BORDER_HAIR:
                    $blockLineStyle |= 0x07 << 12;

                    break;
                case Border::BORDER_MEDIUMDASHED:
                    $blockLineStyle |= 0x08 << 12;

                    break;
                case Border::BORDER_DASHDOT:
                    $blockLineStyle |= 0x09 << 12;

                    break;
                case Border::BORDER_MEDIUMDASHDOT:
                    $blockLineStyle |= 0x0A << 12;

                    break;
                case Border::BORDER_DASHDOTDOT:
                    $blockLineStyle |= 0x0B << 12;

                    break;
                case Border::BORDER_MEDIUMDASHDOTDOT:
                    $blockLineStyle |= 0x0C << 12;

                    break;
                case Border::BORDER_SLANTDASHDOT:
                    $blockLineStyle |= 0x0D << 12;

                    break;
            }
            //@todo writeCFRule() => $blockLineStyle => Index Color
for left line
            //@todo writeCFRule() => $blockLineStyle => Index Color
for right line
            //@todo writeCFRule() => $blockLineStyle => Top-left to
bottom-right on/off
            //@todo writeCFRule() => $blockLineStyle => Bottom-left
to top-right on/off
            $blockColor = 0;
            //@todo writeCFRule() => $blockColor => Index Color for
top line
            //@todo writeCFRule() => $blockColor => Index Color for
bottom line
            //@todo writeCFRule() => $blockColor => Index Color for
diagonal line
            switch
($conditional->getStyle()->getBorders()->getDiagonal()->getBorderStyle())
{
                case Border::BORDER_NONE:
                    $blockColor |= 0x00 << 21;

                    break;
                case Border::BORDER_THIN:
                    $blockColor |= 0x01 << 21;

                    break;
                case Border::BORDER_MEDIUM:
                    $blockColor |= 0x02 << 21;

                    break;
                case Border::BORDER_DASHED:
                    $blockColor |= 0x03 << 21;

                    break;
                case Border::BORDER_DOTTED:
                    $blockColor |= 0x04 << 21;

                    break;
                case Border::BORDER_THICK:
                    $blockColor |= 0x05 << 21;

                    break;
                case Border::BORDER_DOUBLE:
                    $blockColor |= 0x06 << 21;

                    break;
                case Border::BORDER_HAIR:
                    $blockColor |= 0x07 << 21;

                    break;
                case Border::BORDER_MEDIUMDASHED:
                    $blockColor |= 0x08 << 21;

                    break;
                case Border::BORDER_DASHDOT:
                    $blockColor |= 0x09 << 21;

                    break;
                case Border::BORDER_MEDIUMDASHDOT:
                    $blockColor |= 0x0A << 21;

                    break;
                case Border::BORDER_DASHDOTDOT:
                    $blockColor |= 0x0B << 21;

                    break;
                case Border::BORDER_MEDIUMDASHDOTDOT:
                    $blockColor |= 0x0C << 21;

                    break;
                case Border::BORDER_SLANTDASHDOT:
                    $blockColor |= 0x0D << 21;

                    break;
            }
            $dataBlockBorder = pack('vv', $blockLineStyle,
$blockColor);
        }
        if ($bFormatFill == 1) {
            // Fill Patern Style
            $blockFillPatternStyle = 0;
            switch
($conditional->getStyle()->getFill()->getFillType()) {
                case Fill::FILL_NONE:
                    $blockFillPatternStyle = 0x00;

                    break;
                case Fill::FILL_SOLID:
                    $blockFillPatternStyle = 0x01;

                    break;
                case Fill::FILL_PATTERN_MEDIUMGRAY:
                    $blockFillPatternStyle = 0x02;

                    break;
                case Fill::FILL_PATTERN_DARKGRAY:
                    $blockFillPatternStyle = 0x03;

                    break;
                case Fill::FILL_PATTERN_LIGHTGRAY:
                    $blockFillPatternStyle = 0x04;

                    break;
                case Fill::FILL_PATTERN_DARKHORIZONTAL:
                    $blockFillPatternStyle = 0x05;

                    break;
                case Fill::FILL_PATTERN_DARKVERTICAL:
                    $blockFillPatternStyle = 0x06;

                    break;
                case Fill::FILL_PATTERN_DARKDOWN:
                    $blockFillPatternStyle = 0x07;

                    break;
                case Fill::FILL_PATTERN_DARKUP:
                    $blockFillPatternStyle = 0x08;

                    break;
                case Fill::FILL_PATTERN_DARKGRID:
                    $blockFillPatternStyle = 0x09;

                    break;
                case Fill::FILL_PATTERN_DARKTRELLIS:
                    $blockFillPatternStyle = 0x0A;

                    break;
                case Fill::FILL_PATTERN_LIGHTHORIZONTAL:
                    $blockFillPatternStyle = 0x0B;

                    break;
                case Fill::FILL_PATTERN_LIGHTVERTICAL:
                    $blockFillPatternStyle = 0x0C;

                    break;
                case Fill::FILL_PATTERN_LIGHTDOWN:
                    $blockFillPatternStyle = 0x0D;

                    break;
                case Fill::FILL_PATTERN_LIGHTUP:
                    $blockFillPatternStyle = 0x0E;

                    break;
                case Fill::FILL_PATTERN_LIGHTGRID:
                    $blockFillPatternStyle = 0x0F;

                    break;
                case Fill::FILL_PATTERN_LIGHTTRELLIS:
                    $blockFillPatternStyle = 0x10;

                    break;
                case Fill::FILL_PATTERN_GRAY125:
                    $blockFillPatternStyle = 0x11;

                    break;
                case Fill::FILL_PATTERN_GRAY0625:
                    $blockFillPatternStyle = 0x12;

                    break;
                case Fill::FILL_GRADIENT_LINEAR:
                    $blockFillPatternStyle = 0x00;

                    break; // does not exist in BIFF8
                case Fill::FILL_GRADIENT_PATH:
                    $blockFillPatternStyle = 0x00;

                    break; // does not exist in BIFF8
                default:
                    $blockFillPatternStyle = 0x00;

                    break;
            }
            // Color
            switch
($conditional->getStyle()->getFill()->getStartColor()->getRGB())
{
                case '000000':
                    $colorIdxBg = 0x08;

                    break;
                case 'FFFFFF':
                    $colorIdxBg = 0x09;

                    break;
                case 'FF0000':
                    $colorIdxBg = 0x0A;

                    break;
                case '00FF00':
                    $colorIdxBg = 0x0B;

                    break;
                case '0000FF':
                    $colorIdxBg = 0x0C;

                    break;
                case 'FFFF00':
                    $colorIdxBg = 0x0D;

                    break;
                case 'FF00FF':
                    $colorIdxBg = 0x0E;

                    break;
                case '00FFFF':
                    $colorIdxBg = 0x0F;

                    break;
                case '800000':
                    $colorIdxBg = 0x10;

                    break;
                case '008000':
                    $colorIdxBg = 0x11;

                    break;
                case '000080':
                    $colorIdxBg = 0x12;

                    break;
                case '808000':
                    $colorIdxBg = 0x13;

                    break;
                case '800080':
                    $colorIdxBg = 0x14;

                    break;
                case '008080':
                    $colorIdxBg = 0x15;

                    break;
                case 'C0C0C0':
                    $colorIdxBg = 0x16;

                    break;
                case '808080':
                    $colorIdxBg = 0x17;

                    break;
                case '9999FF':
                    $colorIdxBg = 0x18;

                    break;
                case '993366':
                    $colorIdxBg = 0x19;

                    break;
                case 'FFFFCC':
                    $colorIdxBg = 0x1A;

                    break;
                case 'CCFFFF':
                    $colorIdxBg = 0x1B;

                    break;
                case '660066':
                    $colorIdxBg = 0x1C;

                    break;
                case 'FF8080':
                    $colorIdxBg = 0x1D;

                    break;
                case '0066CC':
                    $colorIdxBg = 0x1E;

                    break;
                case 'CCCCFF':
                    $colorIdxBg = 0x1F;

                    break;
                case '000080':
                    $colorIdxBg = 0x20;

                    break;
                case 'FF00FF':
                    $colorIdxBg = 0x21;

                    break;
                case 'FFFF00':
                    $colorIdxBg = 0x22;

                    break;
                case '00FFFF':
                    $colorIdxBg = 0x23;

                    break;
                case '800080':
                    $colorIdxBg = 0x24;

                    break;
                case '800000':
                    $colorIdxBg = 0x25;

                    break;
                case '008080':
                    $colorIdxBg = 0x26;

                    break;
                case '0000FF':
                    $colorIdxBg = 0x27;

                    break;
                case '00CCFF':
                    $colorIdxBg = 0x28;

                    break;
                case 'CCFFFF':
                    $colorIdxBg = 0x29;

                    break;
                case 'CCFFCC':
                    $colorIdxBg = 0x2A;

                    break;
                case 'FFFF99':
                    $colorIdxBg = 0x2B;

                    break;
                case '99CCFF':
                    $colorIdxBg = 0x2C;

                    break;
                case 'FF99CC':
                    $colorIdxBg = 0x2D;

                    break;
                case 'CC99FF':
                    $colorIdxBg = 0x2E;

                    break;
                case 'FFCC99':
                    $colorIdxBg = 0x2F;

                    break;
                case '3366FF':
                    $colorIdxBg = 0x30;

                    break;
                case '33CCCC':
                    $colorIdxBg = 0x31;

                    break;
                case '99CC00':
                    $colorIdxBg = 0x32;

                    break;
                case 'FFCC00':
                    $colorIdxBg = 0x33;

                    break;
                case 'FF9900':
                    $colorIdxBg = 0x34;

                    break;
                case 'FF6600':
                    $colorIdxBg = 0x35;

                    break;
                case '666699':
                    $colorIdxBg = 0x36;

                    break;
                case '969696':
                    $colorIdxBg = 0x37;

                    break;
                case '003366':
                    $colorIdxBg = 0x38;

                    break;
                case '339966':
                    $colorIdxBg = 0x39;

                    break;
                case '003300':
                    $colorIdxBg = 0x3A;

                    break;
                case '333300':
                    $colorIdxBg = 0x3B;

                    break;
                case '993300':
                    $colorIdxBg = 0x3C;

                    break;
                case '993366':
                    $colorIdxBg = 0x3D;

                    break;
                case '333399':
                    $colorIdxBg = 0x3E;

                    break;
                case '333333':
                    $colorIdxBg = 0x3F;

                    break;
                default:
                          $colorIdxBg = 0x41;

                    break;
            }
            // Fg Color
            switch
($conditional->getStyle()->getFill()->getEndColor()->getRGB())
{
                case '000000':
                    $colorIdxFg = 0x08;

                    break;
                case 'FFFFFF':
                    $colorIdxFg = 0x09;

                    break;
                case 'FF0000':
                    $colorIdxFg = 0x0A;

                    break;
                case '00FF00':
                    $colorIdxFg = 0x0B;

                    break;
                case '0000FF':
                    $colorIdxFg = 0x0C;

                    break;
                case 'FFFF00':
                    $colorIdxFg = 0x0D;

                    break;
                case 'FF00FF':
                    $colorIdxFg = 0x0E;

                    break;
                case '00FFFF':
                    $colorIdxFg = 0x0F;

                    break;
                case '800000':
                    $colorIdxFg = 0x10;

                    break;
                case '008000':
                    $colorIdxFg = 0x11;

                    break;
                case '000080':
                    $colorIdxFg = 0x12;

                    break;
                case '808000':
                    $colorIdxFg = 0x13;

                    break;
                case '800080':
                    $colorIdxFg = 0x14;

                    break;
                case '008080':
                    $colorIdxFg = 0x15;

                    break;
                case 'C0C0C0':
                    $colorIdxFg = 0x16;

                    break;
                case '808080':
                    $colorIdxFg = 0x17;

                    break;
                case '9999FF':
                    $colorIdxFg = 0x18;

                    break;
                case '993366':
                    $colorIdxFg = 0x19;

                    break;
                case 'FFFFCC':
                    $colorIdxFg = 0x1A;

                    break;
                case 'CCFFFF':
                    $colorIdxFg = 0x1B;

                    break;
                case '660066':
                    $colorIdxFg = 0x1C;

                    break;
                case 'FF8080':
                    $colorIdxFg = 0x1D;

                    break;
                case '0066CC':
                    $colorIdxFg = 0x1E;

                    break;
                case 'CCCCFF':
                    $colorIdxFg = 0x1F;

                    break;
                case '000080':
                    $colorIdxFg = 0x20;

                    break;
                case 'FF00FF':
                    $colorIdxFg = 0x21;

                    break;
                case 'FFFF00':
                    $colorIdxFg = 0x22;

                    break;
                case '00FFFF':
                    $colorIdxFg = 0x23;

                    break;
                case '800080':
                    $colorIdxFg = 0x24;

                    break;
                case '800000':
                    $colorIdxFg = 0x25;

                    break;
                case '008080':
                    $colorIdxFg = 0x26;

                    break;
                case '0000FF':
                    $colorIdxFg = 0x27;

                    break;
                case '00CCFF':
                    $colorIdxFg = 0x28;

                    break;
                case 'CCFFFF':
                    $colorIdxFg = 0x29;

                    break;
                case 'CCFFCC':
                    $colorIdxFg = 0x2A;

                    break;
                case 'FFFF99':
                    $colorIdxFg = 0x2B;

                    break;
                case '99CCFF':
                    $colorIdxFg = 0x2C;

                    break;
                case 'FF99CC':
                    $colorIdxFg = 0x2D;

                    break;
                case 'CC99FF':
                    $colorIdxFg = 0x2E;

                    break;
                case 'FFCC99':
                    $colorIdxFg = 0x2F;

                    break;
                case '3366FF':
                    $colorIdxFg = 0x30;

                    break;
                case '33CCCC':
                    $colorIdxFg = 0x31;

                    break;
                case '99CC00':
                    $colorIdxFg = 0x32;

                    break;
                case 'FFCC00':
                    $colorIdxFg = 0x33;

                    break;
                case 'FF9900':
                    $colorIdxFg = 0x34;

                    break;
                case 'FF6600':
                    $colorIdxFg = 0x35;

                    break;
                case '666699':
                    $colorIdxFg = 0x36;

                    break;
                case '969696':
                    $colorIdxFg = 0x37;

                    break;
                case '003366':
                    $colorIdxFg = 0x38;

                    break;
                case '339966':
                    $colorIdxFg = 0x39;

                    break;
                case '003300':
                    $colorIdxFg = 0x3A;

                    break;
                case '333300':
                    $colorIdxFg = 0x3B;

                    break;
                case '993300':
                    $colorIdxFg = 0x3C;

                    break;
                case '993366':
                    $colorIdxFg = 0x3D;

                    break;
                case '333399':
                    $colorIdxFg = 0x3E;

                    break;
                case '333333':
                    $colorIdxFg = 0x3F;

                    break;
                default:
                          $colorIdxFg = 0x40;

                    break;
            }
            $dataBlockFill = pack('v', $blockFillPatternStyle);
            $dataBlockFill .= pack('v', $colorIdxFg |
($colorIdxBg << 7));
        }
        if ($bFormatProt == 1) {
            $dataBlockProtection = 0;
            if
($conditional->getStyle()->getProtection()->getLocked() ==
Protection::PROTECTION_PROTECTED) {
                $dataBlockProtection = 1;
            }
            if
($conditional->getStyle()->getProtection()->getHidden() ==
Protection::PROTECTION_PROTECTED) {
                $dataBlockProtection = 1 << 1;
            }
        }

        $data = pack('CCvvVv', $type, $operatorType, $szValue1,
$szValue2, $flags, 0x0000);
        if ($bFormatFont == 1) { // Block Formatting : OK
            $data .= $dataBlockFont;
        }
        if ($bFormatAlign == 1) {
            $data .= $dataBlockAlign;
        }
        if ($bFormatBorder == 1) {
            $data .= $dataBlockBorder;
        }
        if ($bFormatFill == 1) { // Block Formatting : OK
            $data .= $dataBlockFill;
        }
        if ($bFormatProt == 1) {
            $data .= $dataBlockProtection;
        }
        if ($operand1 !== null) {
            $data .= $operand1;
        }
        if ($operand2 !== null) {
            $data .= $operand2;
        }
        $header = pack('vv', $record, strlen($data));
        $this->append($header . $data);
    }

    /**
     * Write CFHeader record.
     */
    private function writeCFHeader()
    {
        $record = 0x01B0; // Record identifier
        $length = 0x0016; // Bytes to follow

        $numColumnMin = null;
        $numColumnMax = null;
        $numRowMin = null;
        $numRowMax = null;
        $arrConditional = [];
        foreach ($this->phpSheet->getConditionalStylesCollection() as
$cellCoordinate => $conditionalStyles) {
            foreach ($conditionalStyles as $conditional) {
                if ($conditional->getConditionType() ==
Conditional::CONDITION_EXPRESSION
                        || $conditional->getConditionType() ==
Conditional::CONDITION_CELLIS) {
                    if (!in_array($conditional->getHashCode(),
$arrConditional)) {
                        $arrConditional[] = $conditional->getHashCode();
                    }
                    // Cells
                    $arrCoord =
Coordinate::coordinateFromString($cellCoordinate);
                    if (!is_numeric($arrCoord[0])) {
                        $arrCoord[0] =
Coordinate::columnIndexFromString($arrCoord[0]);
                    }
                    if ($numColumnMin === null || ($numColumnMin >
$arrCoord[0])) {
                        $numColumnMin = $arrCoord[0];
                    }
                    if ($numColumnMax === null || ($numColumnMax <
$arrCoord[0])) {
                        $numColumnMax = $arrCoord[0];
                    }
                    if ($numRowMin === null || ($numRowMin >
$arrCoord[1])) {
                        $numRowMin = $arrCoord[1];
                    }
                    if ($numRowMax === null || ($numRowMax <
$arrCoord[1])) {
                        $numRowMax = $arrCoord[1];
                    }
                }
            }
        }
        $needRedraw = 1;
        $cellRange = pack('vvvv', $numRowMin - 1, $numRowMax - 1,
$numColumnMin - 1, $numColumnMax - 1);

        $header = pack('vv', $record, $length);
        $data = pack('vv', count($arrConditional), $needRedraw);
        $data .= $cellRange;
        $data .= pack('v', 0x0001);
        $data .= $cellRange;
        $this->append($header . $data);
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xls/Xf.php000064400000037771151165414060021663
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer\Xls;

use PhpOffice\PhpSpreadsheet\Style\Alignment;
use PhpOffice\PhpSpreadsheet\Style\Border;
use PhpOffice\PhpSpreadsheet\Style\Borders;
use PhpOffice\PhpSpreadsheet\Style\Fill;
use PhpOffice\PhpSpreadsheet\Style\Protection;
use PhpOffice\PhpSpreadsheet\Style\Style;

// Original file header of PEAR::Spreadsheet_Excel_Writer_Format (used as
the base for this class):
//
-----------------------------------------------------------------------------------------
// /*
// *  Module written/ported by Xavier Noguer <xnoguer@rezebra.com>
// *
// *  The majority of this is _NOT_ my code.  I simply ported it from the
// *  PERL Spreadsheet::WriteExcel module.
// *
// *  The author of the Spreadsheet::WriteExcel module is John McNamara
// *  <jmcnamara@cpan.org>
// *
// *  I _DO_ maintain this code, and John McNamara has nothing to do with
the
// *  porting of this code to PHP.  Any questions directly related to this
// *  class library should be directed to me.
// *
// *  License Information:
// *
// *    Spreadsheet_Excel_Writer:  A library for generating Excel
Spreadsheets
// *    Copyright (c) 2002-2003 Xavier Noguer xnoguer@rezebra.com
// *
// *    This library is free software; you can redistribute it and/or
// *    modify it under the terms of the GNU Lesser General Public
// *    License as published by the Free Software Foundation; either
// *    version 2.1 of the License, or (at your option) any later version.
// *
// *    This library is distributed in the hope that it will be useful,
// *    but WITHOUT ANY WARRANTY; without even the implied warranty of
// *    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
// *    Lesser General Public License for more details.
// *
// *    You should have received a copy of the GNU Lesser General Public
// *    License along with this library; if not, write to the Free Software
// *    Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 
02111-1307  USA
// */
class Xf
{
    /**
     * Style XF or a cell XF ?
     *
     * @var bool
     */
    private $isStyleXf;

    /**
     * Index to the FONT record. Index 4 does not exist.
     *
     * @var int
     */
    private $fontIndex;

    /**
     * An index (2 bytes) to a FORMAT record (number format).
     *
     * @var int
     */
    private $numberFormatIndex;

    /**
     * 1 bit, apparently not used.
     *
     * @var int
     */
    private $textJustLast;

    /**
     * The cell's foreground color.
     *
     * @var int
     */
    private $foregroundColor;

    /**
     * The cell's background color.
     *
     * @var int
     */
    private $backgroundColor;

    /**
     * Color of the bottom border of the cell.
     *
     * @var int
     */
    private $bottomBorderColor;

    /**
     * Color of the top border of the cell.
     *
     * @var int
     */
    private $topBorderColor;

    /**
     * Color of the left border of the cell.
     *
     * @var int
     */
    private $leftBorderColor;

    /**
     * Color of the right border of the cell.
     *
     * @var int
     */
    private $rightBorderColor;

    /**
     * Constructor.
     *
     * @param Style $style The XF format
     */
    public function __construct(Style $style)
    {
        $this->isStyleXf = false;
        $this->fontIndex = 0;

        $this->numberFormatIndex = 0;

        $this->textJustLast = 0;

        $this->foregroundColor = 0x40;
        $this->backgroundColor = 0x41;

        $this->_diag = 0;

        $this->bottomBorderColor = 0x40;
        $this->topBorderColor = 0x40;
        $this->leftBorderColor = 0x40;
        $this->rightBorderColor = 0x40;
        $this->_diag_color = 0x40;
        $this->_style = $style;
    }

    /**
     * Generate an Excel BIFF XF record (style or cell).
     *
     * @return string The XF record
     */
    public function writeXf()
    {
        // Set the type of the XF record and some of the attributes.
        if ($this->isStyleXf) {
            $style = 0xFFF5;
        } else {
            $style =
self::mapLocked($this->_style->getProtection()->getLocked());
            $style |=
self::mapHidden($this->_style->getProtection()->getHidden())
<< 1;
        }

        // Flags to indicate if attributes have been set.
        $atr_num = ($this->numberFormatIndex != 0) ? 1 : 0;
        $atr_fnt = ($this->fontIndex != 0) ? 1 : 0;
        $atr_alc = ((int)
$this->_style->getAlignment()->getWrapText()) ? 1 : 0;
        $atr_bdr =
(self::mapBorderStyle($this->_style->getBorders()->getBottom()->getBorderStyle())
||
                       
self::mapBorderStyle($this->_style->getBorders()->getTop()->getBorderStyle())
||
                       
self::mapBorderStyle($this->_style->getBorders()->getLeft()->getBorderStyle())
||
                       
self::mapBorderStyle($this->_style->getBorders()->getRight()->getBorderStyle()))
? 1 : 0;
        $atr_pat = (($this->foregroundColor != 0x40) ||
                        ($this->backgroundColor != 0x41) ||
                       
self::mapFillType($this->_style->getFill()->getFillType())) ? 1 :
0;
        $atr_prot =
self::mapLocked($this->_style->getProtection()->getLocked())
                        |
self::mapHidden($this->_style->getProtection()->getHidden());

        // Zero the default border colour if the border has not been set.
        if
(self::mapBorderStyle($this->_style->getBorders()->getBottom()->getBorderStyle())
== 0) {
            $this->bottomBorderColor = 0;
        }
        if
(self::mapBorderStyle($this->_style->getBorders()->getTop()->getBorderStyle())
== 0) {
            $this->topBorderColor = 0;
        }
        if
(self::mapBorderStyle($this->_style->getBorders()->getRight()->getBorderStyle())
== 0) {
            $this->rightBorderColor = 0;
        }
        if
(self::mapBorderStyle($this->_style->getBorders()->getLeft()->getBorderStyle())
== 0) {
            $this->leftBorderColor = 0;
        }
        if
(self::mapBorderStyle($this->_style->getBorders()->getDiagonal()->getBorderStyle())
== 0) {
            $this->_diag_color = 0;
        }

        $record = 0x00E0; // Record identifier
        $length = 0x0014; // Number of bytes to follow

        $ifnt = $this->fontIndex; // Index to FONT record
        $ifmt = $this->numberFormatIndex; // Index to FORMAT record

        $align =
$this->mapHAlign($this->_style->getAlignment()->getHorizontal());
// Alignment
        $align |= (int)
$this->_style->getAlignment()->getWrapText() << 3;
        $align |=
self::mapVAlign($this->_style->getAlignment()->getVertical())
<< 4;
        $align |= $this->textJustLast << 7;

        $used_attrib = $atr_num << 2;
        $used_attrib |= $atr_fnt << 3;
        $used_attrib |= $atr_alc << 4;
        $used_attrib |= $atr_bdr << 5;
        $used_attrib |= $atr_pat << 6;
        $used_attrib |= $atr_prot << 7;

        $icv = $this->foregroundColor; // fg and bg pattern colors
        $icv |= $this->backgroundColor << 7;

        $border1 =
self::mapBorderStyle($this->_style->getBorders()->getLeft()->getBorderStyle());
// Border line style and color
        $border1 |=
self::mapBorderStyle($this->_style->getBorders()->getRight()->getBorderStyle())
<< 4;
        $border1 |=
self::mapBorderStyle($this->_style->getBorders()->getTop()->getBorderStyle())
<< 8;
        $border1 |=
self::mapBorderStyle($this->_style->getBorders()->getBottom()->getBorderStyle())
<< 12;
        $border1 |= $this->leftBorderColor << 16;
        $border1 |= $this->rightBorderColor << 23;

        $diagonalDirection =
$this->_style->getBorders()->getDiagonalDirection();
        $diag_tl_to_rb = $diagonalDirection == Borders::DIAGONAL_BOTH
                            || $diagonalDirection ==
Borders::DIAGONAL_DOWN;
        $diag_tr_to_lb = $diagonalDirection == Borders::DIAGONAL_BOTH
                            || $diagonalDirection == Borders::DIAGONAL_UP;
        $border1 |= $diag_tl_to_rb << 30;
        $border1 |= $diag_tr_to_lb << 31;

        $border2 = $this->topBorderColor; // Border color
        $border2 |= $this->bottomBorderColor << 7;
        $border2 |= $this->_diag_color << 14;
        $border2 |=
self::mapBorderStyle($this->_style->getBorders()->getDiagonal()->getBorderStyle())
<< 21;
        $border2 |=
self::mapFillType($this->_style->getFill()->getFillType())
<< 26;

        $header = pack('vv', $record, $length);

        //BIFF8 options: identation, shrinkToFit and  text direction
        $biff8_options =
$this->_style->getAlignment()->getIndent();
        $biff8_options |= (int)
$this->_style->getAlignment()->getShrinkToFit() << 4;

        $data = pack('vvvC', $ifnt, $ifmt, $style, $align);
        $data .= pack('CCC',
self::mapTextRotation($this->_style->getAlignment()->getTextRotation()),
$biff8_options, $used_attrib);
        $data .= pack('VVv', $border1, $border2, $icv);

        return $header . $data;
    }

    /**
     * Is this a style XF ?
     *
     * @param bool $value
     */
    public function setIsStyleXf($value)
    {
        $this->isStyleXf = $value;
    }

    /**
     * Sets the cell's bottom border color.
     *
     * @param int $colorIndex Color index
     */
    public function setBottomColor($colorIndex)
    {
        $this->bottomBorderColor = $colorIndex;
    }

    /**
     * Sets the cell's top border color.
     *
     * @param int $colorIndex Color index
     */
    public function setTopColor($colorIndex)
    {
        $this->topBorderColor = $colorIndex;
    }

    /**
     * Sets the cell's left border color.
     *
     * @param int $colorIndex Color index
     */
    public function setLeftColor($colorIndex)
    {
        $this->leftBorderColor = $colorIndex;
    }

    /**
     * Sets the cell's right border color.
     *
     * @param int $colorIndex Color index
     */
    public function setRightColor($colorIndex)
    {
        $this->rightBorderColor = $colorIndex;
    }

    /**
     * Sets the cell's diagonal border color.
     *
     * @param int $colorIndex Color index
     */
    public function setDiagColor($colorIndex)
    {
        $this->_diag_color = $colorIndex;
    }

    /**
     * Sets the cell's foreground color.
     *
     * @param int $colorIndex Color index
     */
    public function setFgColor($colorIndex)
    {
        $this->foregroundColor = $colorIndex;
    }

    /**
     * Sets the cell's background color.
     *
     * @param int $colorIndex Color index
     */
    public function setBgColor($colorIndex)
    {
        $this->backgroundColor = $colorIndex;
    }

    /**
     * Sets the index to the number format record
     * It can be date, time, currency, etc...
     *
     * @param int $numberFormatIndex Index to format record
     */
    public function setNumberFormatIndex($numberFormatIndex)
    {
        $this->numberFormatIndex = $numberFormatIndex;
    }

    /**
     * Set the font index.
     *
     * @param int $value Font index, note that value 4 does not exist
     */
    public function setFontIndex($value)
    {
        $this->fontIndex = $value;
    }

    /**
     * Map of BIFF2-BIFF8 codes for border styles.
     *
     * @var array of int
     */
    private static $mapBorderStyles = [
        Border::BORDER_NONE => 0x00,
        Border::BORDER_THIN => 0x01,
        Border::BORDER_MEDIUM => 0x02,
        Border::BORDER_DASHED => 0x03,
        Border::BORDER_DOTTED => 0x04,
        Border::BORDER_THICK => 0x05,
        Border::BORDER_DOUBLE => 0x06,
        Border::BORDER_HAIR => 0x07,
        Border::BORDER_MEDIUMDASHED => 0x08,
        Border::BORDER_DASHDOT => 0x09,
        Border::BORDER_MEDIUMDASHDOT => 0x0A,
        Border::BORDER_DASHDOTDOT => 0x0B,
        Border::BORDER_MEDIUMDASHDOTDOT => 0x0C,
        Border::BORDER_SLANTDASHDOT => 0x0D,
    ];

    /**
     * Map border style.
     *
     * @param string $borderStyle
     *
     * @return int
     */
    private static function mapBorderStyle($borderStyle)
    {
        if (isset(self::$mapBorderStyles[$borderStyle])) {
            return self::$mapBorderStyles[$borderStyle];
        }

        return 0x00;
    }

    /**
     * Map of BIFF2-BIFF8 codes for fill types.
     *
     * @var array of int
     */
    private static $mapFillTypes = [
        Fill::FILL_NONE => 0x00,
        Fill::FILL_SOLID => 0x01,
        Fill::FILL_PATTERN_MEDIUMGRAY => 0x02,
        Fill::FILL_PATTERN_DARKGRAY => 0x03,
        Fill::FILL_PATTERN_LIGHTGRAY => 0x04,
        Fill::FILL_PATTERN_DARKHORIZONTAL => 0x05,
        Fill::FILL_PATTERN_DARKVERTICAL => 0x06,
        Fill::FILL_PATTERN_DARKDOWN => 0x07,
        Fill::FILL_PATTERN_DARKUP => 0x08,
        Fill::FILL_PATTERN_DARKGRID => 0x09,
        Fill::FILL_PATTERN_DARKTRELLIS => 0x0A,
        Fill::FILL_PATTERN_LIGHTHORIZONTAL => 0x0B,
        Fill::FILL_PATTERN_LIGHTVERTICAL => 0x0C,
        Fill::FILL_PATTERN_LIGHTDOWN => 0x0D,
        Fill::FILL_PATTERN_LIGHTUP => 0x0E,
        Fill::FILL_PATTERN_LIGHTGRID => 0x0F,
        Fill::FILL_PATTERN_LIGHTTRELLIS => 0x10,
        Fill::FILL_PATTERN_GRAY125 => 0x11,
        Fill::FILL_PATTERN_GRAY0625 => 0x12,
        Fill::FILL_GRADIENT_LINEAR => 0x00, // does not exist in BIFF8
        Fill::FILL_GRADIENT_PATH => 0x00, // does not exist in BIFF8
    ];

    /**
     * Map fill type.
     *
     * @param string $fillType
     *
     * @return int
     */
    private static function mapFillType($fillType)
    {
        if (isset(self::$mapFillTypes[$fillType])) {
            return self::$mapFillTypes[$fillType];
        }

        return 0x00;
    }

    /**
     * Map of BIFF2-BIFF8 codes for horizontal alignment.
     *
     * @var array of int
     */
    private static $mapHAlignments = [
        Alignment::HORIZONTAL_GENERAL => 0,
        Alignment::HORIZONTAL_LEFT => 1,
        Alignment::HORIZONTAL_CENTER => 2,
        Alignment::HORIZONTAL_RIGHT => 3,
        Alignment::HORIZONTAL_FILL => 4,
        Alignment::HORIZONTAL_JUSTIFY => 5,
        Alignment::HORIZONTAL_CENTER_CONTINUOUS => 6,
    ];

    /**
     * Map to BIFF2-BIFF8 codes for horizontal alignment.
     *
     * @param string $hAlign
     *
     * @return int
     */
    private function mapHAlign($hAlign)
    {
        if (isset(self::$mapHAlignments[$hAlign])) {
            return self::$mapHAlignments[$hAlign];
        }

        return 0;
    }

    /**
     * Map of BIFF2-BIFF8 codes for vertical alignment.
     *
     * @var array of int
     */
    private static $mapVAlignments = [
        Alignment::VERTICAL_TOP => 0,
        Alignment::VERTICAL_CENTER => 1,
        Alignment::VERTICAL_BOTTOM => 2,
        Alignment::VERTICAL_JUSTIFY => 3,
    ];

    /**
     * Map to BIFF2-BIFF8 codes for vertical alignment.
     *
     * @param string $vAlign
     *
     * @return int
     */
    private static function mapVAlign($vAlign)
    {
        if (isset(self::$mapVAlignments[$vAlign])) {
            return self::$mapVAlignments[$vAlign];
        }

        return 2;
    }

    /**
     * Map to BIFF8 codes for text rotation angle.
     *
     * @param int $textRotation
     *
     * @return int
     */
    private static function mapTextRotation($textRotation)
    {
        if ($textRotation >= 0) {
            return $textRotation;
        } elseif ($textRotation == -165) {
            return 255;
        } elseif ($textRotation < 0) {
            return 90 - $textRotation;
        }
    }

    /**
     * Map locked.
     *
     * @param string $locked
     *
     * @return int
     */
    private static function mapLocked($locked)
    {
        switch ($locked) {
            case Protection::PROTECTION_INHERIT:
                return 1;
            case Protection::PROTECTION_PROTECTED:
                return 1;
            case Protection::PROTECTION_UNPROTECTED:
                return 0;
            default:
                return 1;
        }
    }

    /**
     * Map hidden.
     *
     * @param string $hidden
     *
     * @return int
     */
    private static function mapHidden($hidden)
    {
        switch ($hidden) {
            case Protection::PROTECTION_INHERIT:
                return 0;
            case Protection::PROTECTION_PROTECTED:
                return 1;
            case Protection::PROTECTION_UNPROTECTED:
                return 0;
            default:
                return 0;
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xls.php000064400000112620151165414060021271
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer;

use PhpOffice\PhpSpreadsheet\Calculation\Calculation;
use PhpOffice\PhpSpreadsheet\Calculation\Functions;
use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\RichText\RichText;
use PhpOffice\PhpSpreadsheet\RichText\Run;
use PhpOffice\PhpSpreadsheet\Shared\Drawing as SharedDrawing;
use PhpOffice\PhpSpreadsheet\Shared\Escher;
use PhpOffice\PhpSpreadsheet\Shared\Escher\DgContainer;
use PhpOffice\PhpSpreadsheet\Shared\Escher\DgContainer\SpgrContainer;
use
PhpOffice\PhpSpreadsheet\Shared\Escher\DgContainer\SpgrContainer\SpContainer;
use PhpOffice\PhpSpreadsheet\Shared\Escher\DggContainer;
use PhpOffice\PhpSpreadsheet\Shared\Escher\DggContainer\BstoreContainer;
use
PhpOffice\PhpSpreadsheet\Shared\Escher\DggContainer\BstoreContainer\BSE;
use
PhpOffice\PhpSpreadsheet\Shared\Escher\DggContainer\BstoreContainer\BSE\Blip;
use PhpOffice\PhpSpreadsheet\Shared\OLE;
use PhpOffice\PhpSpreadsheet\Shared\OLE\PPS\File;
use PhpOffice\PhpSpreadsheet\Shared\OLE\PPS\Root;
use PhpOffice\PhpSpreadsheet\Spreadsheet;
use PhpOffice\PhpSpreadsheet\Worksheet\BaseDrawing;
use PhpOffice\PhpSpreadsheet\Worksheet\Drawing;
use PhpOffice\PhpSpreadsheet\Worksheet\MemoryDrawing;
use RuntimeException;

class Xls extends BaseWriter
{
    /**
     * PhpSpreadsheet object.
     *
     * @var Spreadsheet
     */
    private $spreadsheet;

    /**
     * Total number of shared strings in workbook.
     *
     * @var int
     */
    private $strTotal = 0;

    /**
     * Number of unique shared strings in workbook.
     *
     * @var int
     */
    private $strUnique = 0;

    /**
     * Array of unique shared strings in workbook.
     *
     * @var array
     */
    private $strTable = [];

    /**
     * Color cache. Mapping between RGB value and color index.
     *
     * @var array
     */
    private $colors;

    /**
     * Formula parser.
     *
     * @var \PhpOffice\PhpSpreadsheet\Writer\Xls\Parser
     */
    private $parser;

    /**
     * Identifier clusters for drawings. Used in MSODRAWINGGROUP record.
     *
     * @var array
     */
    private $IDCLs;

    /**
     * Basic OLE object summary information.
     *
     * @var array
     */
    private $summaryInformation;

    /**
     * Extended OLE object document summary information.
     *
     * @var array
     */
    private $documentSummaryInformation;

    /**
     * @var \PhpOffice\PhpSpreadsheet\Writer\Xls\Workbook
     */
    private $writerWorkbook;

    /**
     * @var \PhpOffice\PhpSpreadsheet\Writer\Xls\Worksheet[]
     */
    private $writerWorksheets;

    /**
     * Create a new Xls Writer.
     *
     * @param Spreadsheet $spreadsheet PhpSpreadsheet object
     */
    public function __construct(Spreadsheet $spreadsheet)
    {
        $this->spreadsheet = $spreadsheet;

        $this->parser = new Xls\Parser();
    }

    /**
     * Save Spreadsheet to file.
     *
     * @param string $pFilename
     *
     * @throws \PhpOffice\PhpSpreadsheet\Writer\Exception
     */
    public function save($pFilename)
    {
        // garbage collect
        $this->spreadsheet->garbageCollect();

        $saveDebugLog =
Calculation::getInstance($this->spreadsheet)->getDebugLog()->getWriteDebugLog();
       
Calculation::getInstance($this->spreadsheet)->getDebugLog()->setWriteDebugLog(false);
        $saveDateReturnType = Functions::getReturnDateType();
        Functions::setReturnDateType(Functions::RETURNDATE_EXCEL);

        // initialize colors array
        $this->colors = [];

        // Initialise workbook writer
        $this->writerWorkbook = new Xls\Workbook($this->spreadsheet,
$this->strTotal, $this->strUnique, $this->strTable,
$this->colors, $this->parser);

        // Initialise worksheet writers
        $countSheets = $this->spreadsheet->getSheetCount();
        for ($i = 0; $i < $countSheets; ++$i) {
            $this->writerWorksheets[$i] = new
Xls\Worksheet($this->strTotal, $this->strUnique, $this->strTable,
$this->colors, $this->parser, $this->preCalculateFormulas,
$this->spreadsheet->getSheet($i));
        }

        // build Escher objects. Escher objects for workbooks needs to be
build before Escher object for workbook.
        $this->buildWorksheetEschers();
        $this->buildWorkbookEscher();

        // add 15 identical cell style Xfs
        // for now, we use the first cellXf instead of cellStyleXf
        $cellXfCollection =
$this->spreadsheet->getCellXfCollection();
        for ($i = 0; $i < 15; ++$i) {
            $this->writerWorkbook->addXfWriter($cellXfCollection[0],
true);
        }

        // add all the cell Xfs
        foreach ($this->spreadsheet->getCellXfCollection() as $style)
{
            $this->writerWorkbook->addXfWriter($style, false);
        }

        // add fonts from rich text eleemnts
        for ($i = 0; $i < $countSheets; ++$i) {
            foreach
($this->writerWorksheets[$i]->phpSheet->getCoordinates() as
$coordinate) {
                $cell =
$this->writerWorksheets[$i]->phpSheet->getCell($coordinate);
                $cVal = $cell->getValue();
                if ($cVal instanceof RichText) {
                    $elements = $cVal->getRichTextElements();
                    foreach ($elements as $element) {
                        if ($element instanceof Run) {
                            $font = $element->getFont();
                           
$this->writerWorksheets[$i]->fontHashIndex[$font->getHashCode()] =
$this->writerWorkbook->addFont($font);
                        }
                    }
                }
            }
        }

        // initialize OLE file
        $workbookStreamName = 'Workbook';
        $OLE = new File(OLE::ascToUcs($workbookStreamName));

        // Write the worksheet streams before the global workbook stream,
        // because the byte sizes of these are needed in the global
workbook stream
        $worksheetSizes = [];
        for ($i = 0; $i < $countSheets; ++$i) {
            $this->writerWorksheets[$i]->close();
            $worksheetSizes[] =
$this->writerWorksheets[$i]->_datasize;
        }

        // add binary data for global workbook stream
       
$OLE->append($this->writerWorkbook->writeWorkbook($worksheetSizes));

        // add binary data for sheet streams
        for ($i = 0; $i < $countSheets; ++$i) {
            $OLE->append($this->writerWorksheets[$i]->getData());
        }

        $this->documentSummaryInformation =
$this->writeDocumentSummaryInformation();
        // initialize OLE Document Summary Information
        if (isset($this->documentSummaryInformation) &&
!empty($this->documentSummaryInformation)) {
            $OLE_DocumentSummaryInformation = new File(OLE::ascToUcs(chr(5)
. 'DocumentSummaryInformation'));
           
$OLE_DocumentSummaryInformation->append($this->documentSummaryInformation);
        }

        $this->summaryInformation = $this->writeSummaryInformation();
        // initialize OLE Summary Information
        if (isset($this->summaryInformation) &&
!empty($this->summaryInformation)) {
            $OLE_SummaryInformation = new File(OLE::ascToUcs(chr(5) .
'SummaryInformation'));
           
$OLE_SummaryInformation->append($this->summaryInformation);
        }

        // define OLE Parts
        $arrRootData = [$OLE];
        // initialize OLE Properties file
        if (isset($OLE_SummaryInformation)) {
            $arrRootData[] = $OLE_SummaryInformation;
        }
        // initialize OLE Extended Properties file
        if (isset($OLE_DocumentSummaryInformation)) {
            $arrRootData[] = $OLE_DocumentSummaryInformation;
        }

        $root = new Root(time(), time(), $arrRootData);
        // save the OLE file
        $root->save($pFilename);

        Functions::setReturnDateType($saveDateReturnType);
       
Calculation::getInstance($this->spreadsheet)->getDebugLog()->setWriteDebugLog($saveDebugLog);
    }

    /**
     * Build the Worksheet Escher objects.
     */
    private function buildWorksheetEschers()
    {
        // 1-based index to BstoreContainer
        $blipIndex = 0;
        $lastReducedSpId = 0;
        $lastSpId = 0;

        foreach ($this->spreadsheet->getAllsheets() as $sheet) {
            // sheet index
            $sheetIndex = $sheet->getParent()->getIndex($sheet);

            $escher = null;

            // check if there are any shapes for this sheet
            $filterRange = $sheet->getAutoFilter()->getRange();
            if (count($sheet->getDrawingCollection()) == 0 &&
empty($filterRange)) {
                continue;
            }

            // create intermediate Escher object
            $escher = new Escher();

            // dgContainer
            $dgContainer = new DgContainer();

            // set the drawing index (we use sheet index + 1)
            $dgId = $sheet->getParent()->getIndex($sheet) + 1;
            $dgContainer->setDgId($dgId);
            $escher->setDgContainer($dgContainer);

            // spgrContainer
            $spgrContainer = new SpgrContainer();
            $dgContainer->setSpgrContainer($spgrContainer);

            // add one shape which is the group shape
            $spContainer = new SpContainer();
            $spContainer->setSpgr(true);
            $spContainer->setSpType(0);
           
$spContainer->setSpId(($sheet->getParent()->getIndex($sheet) + 1)
<< 10);
            $spgrContainer->addChild($spContainer);

            // add the shapes

            $countShapes[$sheetIndex] = 0; // count number of shapes (minus
group shape), in sheet

            foreach ($sheet->getDrawingCollection() as $drawing) {
                ++$blipIndex;

                ++$countShapes[$sheetIndex];

                // add the shape
                $spContainer = new SpContainer();

                // set the shape type
                $spContainer->setSpType(0x004B);
                // set the shape flag
                $spContainer->setSpFlag(0x02);

                // set the shape index (we combine 1-based sheet index and
$countShapes to create unique shape index)
                $reducedSpId = $countShapes[$sheetIndex];
                $spId = $reducedSpId |
($sheet->getParent()->getIndex($sheet) + 1) << 10;
                $spContainer->setSpId($spId);

                // keep track of last reducedSpId
                $lastReducedSpId = $reducedSpId;

                // keep track of last spId
                $lastSpId = $spId;

                // set the BLIP index
                $spContainer->setOPT(0x4104, $blipIndex);

                // set coordinates and offsets, client anchor
                $coordinates = $drawing->getCoordinates();
                $offsetX = $drawing->getOffsetX();
                $offsetY = $drawing->getOffsetY();
                $width = $drawing->getWidth();
                $height = $drawing->getHeight();

                $twoAnchor =
\PhpOffice\PhpSpreadsheet\Shared\Xls::oneAnchor2twoAnchor($sheet,
$coordinates, $offsetX, $offsetY, $width, $height);

               
$spContainer->setStartCoordinates($twoAnchor['startCoordinates']);
               
$spContainer->setStartOffsetX($twoAnchor['startOffsetX']);
               
$spContainer->setStartOffsetY($twoAnchor['startOffsetY']);
               
$spContainer->setEndCoordinates($twoAnchor['endCoordinates']);
               
$spContainer->setEndOffsetX($twoAnchor['endOffsetX']);
               
$spContainer->setEndOffsetY($twoAnchor['endOffsetY']);

                $spgrContainer->addChild($spContainer);
            }

            // AutoFilters
            if (!empty($filterRange)) {
                $rangeBounds = Coordinate::rangeBoundaries($filterRange);
                $iNumColStart = $rangeBounds[0][0];
                $iNumColEnd = $rangeBounds[1][0];

                $iInc = $iNumColStart;
                while ($iInc <= $iNumColEnd) {
                    ++$countShapes[$sheetIndex];

                    // create an Drawing Object for the dropdown
                    $oDrawing = new BaseDrawing();
                    // get the coordinates of drawing
                    $cDrawing = Coordinate::stringFromColumnIndex($iInc) .
$rangeBounds[0][1];
                    $oDrawing->setCoordinates($cDrawing);
                    $oDrawing->setWorksheet($sheet);

                    // add the shape
                    $spContainer = new SpContainer();
                    // set the shape type
                    $spContainer->setSpType(0x00C9);
                    // set the shape flag
                    $spContainer->setSpFlag(0x01);

                    // set the shape index (we combine 1-based sheet index
and $countShapes to create unique shape index)
                    $reducedSpId = $countShapes[$sheetIndex];
                    $spId = $reducedSpId |
($sheet->getParent()->getIndex($sheet) + 1) << 10;
                    $spContainer->setSpId($spId);

                    // keep track of last reducedSpId
                    $lastReducedSpId = $reducedSpId;

                    // keep track of last spId
                    $lastSpId = $spId;

                    $spContainer->setOPT(0x007F, 0x01040104); //
Protection -> fLockAgainstGrouping
                    $spContainer->setOPT(0x00BF, 0x00080008); // Text
-> fFitTextToShape
                    $spContainer->setOPT(0x01BF, 0x00010000); // Fill
Style -> fNoFillHitTest
                    $spContainer->setOPT(0x01FF, 0x00080000); // Line
Style -> fNoLineDrawDash
                    $spContainer->setOPT(0x03BF, 0x000A0000); // Group
Shape -> fPrint

                    // set coordinates and offsets, client anchor
                    $endCoordinates =
Coordinate::stringFromColumnIndex($iInc);
                    $endCoordinates .= $rangeBounds[0][1] + 1;

                    $spContainer->setStartCoordinates($cDrawing);
                    $spContainer->setStartOffsetX(0);
                    $spContainer->setStartOffsetY(0);
                    $spContainer->setEndCoordinates($endCoordinates);
                    $spContainer->setEndOffsetX(0);
                    $spContainer->setEndOffsetY(0);

                    $spgrContainer->addChild($spContainer);
                    ++$iInc;
                }
            }

            // identifier clusters, used for workbook Escher object
            $this->IDCLs[$dgId] = $lastReducedSpId;

            // set last shape index
            $dgContainer->setLastSpId($lastSpId);

            // set the Escher object
            $this->writerWorksheets[$sheetIndex]->setEscher($escher);
        }
    }

    /**
     * Build the Escher object corresponding to the MSODRAWINGGROUP record.
     */
    private function buildWorkbookEscher()
    {
        $escher = null;

        // any drawings in this workbook?
        $found = false;
        foreach ($this->spreadsheet->getAllSheets() as $sheet) {
            if (count($sheet->getDrawingCollection()) > 0) {
                $found = true;

                break;
            }
        }

        // nothing to do if there are no drawings
        if (!$found) {
            return;
        }

        // if we reach here, then there are drawings in the workbook
        $escher = new Escher();

        // dggContainer
        $dggContainer = new DggContainer();
        $escher->setDggContainer($dggContainer);

        // set IDCLs (identifier clusters)
        $dggContainer->setIDCLs($this->IDCLs);

        // this loop is for determining maximum shape identifier of all
drawing
        $spIdMax = 0;
        $totalCountShapes = 0;
        $countDrawings = 0;

        foreach ($this->spreadsheet->getAllsheets() as $sheet) {
            $sheetCountShapes = 0; // count number of shapes (minus group
shape), in sheet

            if (count($sheet->getDrawingCollection()) > 0) {
                ++$countDrawings;

                foreach ($sheet->getDrawingCollection() as $drawing) {
                    ++$sheetCountShapes;
                    ++$totalCountShapes;

                    $spId = $sheetCountShapes |
($this->spreadsheet->getIndex($sheet) + 1) << 10;
                    $spIdMax = max($spId, $spIdMax);
                }
            }
        }

        $dggContainer->setSpIdMax($spIdMax + 1);
        $dggContainer->setCDgSaved($countDrawings);
        $dggContainer->setCSpSaved($totalCountShapes + $countDrawings);
// total number of shapes incl. one group shapes per drawing

        // bstoreContainer
        $bstoreContainer = new BstoreContainer();
        $dggContainer->setBstoreContainer($bstoreContainer);

        // the BSE's (all the images)
        foreach ($this->spreadsheet->getAllsheets() as $sheet) {
            foreach ($sheet->getDrawingCollection() as $drawing) {
                if (!extension_loaded('gd')) {
                    throw new RuntimeException('Saving images in xls
requires gd extension');
                }
                if ($drawing instanceof Drawing) {
                    $filename = $drawing->getPath();

                    [$imagesx, $imagesy, $imageFormat] =
getimagesize($filename);

                    switch ($imageFormat) {
                        case 1: // GIF, not supported by BIFF8, we convert
to PNG
                            $blipType = BSE::BLIPTYPE_PNG;
                            ob_start();
                            imagepng(imagecreatefromgif($filename));
                            $blipData = ob_get_contents();
                            ob_end_clean();

                            break;
                        case 2: // JPEG
                            $blipType = BSE::BLIPTYPE_JPEG;
                            $blipData = file_get_contents($filename);

                            break;
                        case 3: // PNG
                            $blipType = BSE::BLIPTYPE_PNG;
                            $blipData = file_get_contents($filename);

                            break;
                        case 6: // Windows DIB (BMP), we convert to PNG
                            $blipType = BSE::BLIPTYPE_PNG;
                            ob_start();
                           
imagepng(SharedDrawing::imagecreatefrombmp($filename));
                            $blipData = ob_get_contents();
                            ob_end_clean();

                            break;
                        default:
                            continue 2;
                    }

                    $blip = new Blip();
                    $blip->setData($blipData);

                    $BSE = new BSE();
                    $BSE->setBlipType($blipType);
                    $BSE->setBlip($blip);

                    $bstoreContainer->addBSE($BSE);
                } elseif ($drawing instanceof MemoryDrawing) {
                    switch ($drawing->getRenderingFunction()) {
                        case MemoryDrawing::RENDERING_JPEG:
                            $blipType = BSE::BLIPTYPE_JPEG;
                            $renderingFunction = 'imagejpeg';

                            break;
                        case MemoryDrawing::RENDERING_GIF:
                        case MemoryDrawing::RENDERING_PNG:
                        case MemoryDrawing::RENDERING_DEFAULT:
                            $blipType = BSE::BLIPTYPE_PNG;
                            $renderingFunction = 'imagepng';

                            break;
                    }

                    ob_start();
                    call_user_func($renderingFunction,
$drawing->getImageResource());
                    $blipData = ob_get_contents();
                    ob_end_clean();

                    $blip = new Blip();
                    $blip->setData($blipData);

                    $BSE = new BSE();
                    $BSE->setBlipType($blipType);
                    $BSE->setBlip($blip);

                    $bstoreContainer->addBSE($BSE);
                }
            }
        }

        // Set the Escher object
        $this->writerWorkbook->setEscher($escher);
    }

    /**
     * Build the OLE Part for DocumentSummary Information.
     *
     * @return string
     */
    private function writeDocumentSummaryInformation()
    {
        // offset: 0; size: 2; must be 0xFE 0xFF (UTF-16 LE byte order
mark)
        $data = pack('v', 0xFFFE);
        // offset: 2; size: 2;
        $data .= pack('v', 0x0000);
        // offset: 4; size: 2; OS version
        $data .= pack('v', 0x0106);
        // offset: 6; size: 2; OS indicator
        $data .= pack('v', 0x0002);
        // offset: 8; size: 16
        $data .= pack('VVVV', 0x00, 0x00, 0x00, 0x00);
        // offset: 24; size: 4; section count
        $data .= pack('V', 0x0001);

        // offset: 28; size: 16; first section's class id: 02 d5 cd d5
9c 2e 1b 10 93 97 08 00 2b 2c f9 ae
        $data .= pack('vvvvvvvv', 0xD502, 0xD5CD, 0x2E9C, 0x101B,
0x9793, 0x0008, 0x2C2B, 0xAEF9);
        // offset: 44; size: 4; offset of the start
        $data .= pack('V', 0x30);

        // SECTION
        $dataSection = [];
        $dataSection_NumProps = 0;
        $dataSection_Summary = '';
        $dataSection_Content = '';

        // GKPIDDSI_CODEPAGE: CodePage
        $dataSection[] = [
            'summary' => ['pack' =>
'V', 'data' => 0x01],
            'offset' => ['pack' =>
'V'],
            'type' => ['pack' => 'V',
'data' => 0x02], // 2 byte signed integer
            'data' => ['data' => 1252],
        ];
        ++$dataSection_NumProps;

        // GKPIDDSI_CATEGORY : Category
        if ($this->spreadsheet->getProperties()->getCategory()) {
            $dataProp =
$this->spreadsheet->getProperties()->getCategory();
            $dataSection[] = [
                'summary' => ['pack' =>
'V', 'data' => 0x02],
                'offset' => ['pack' =>
'V'],
                'type' => ['pack' =>
'V', 'data' => 0x1E],
                'data' => ['data' => $dataProp,
'length' => strlen($dataProp)],
            ];
            ++$dataSection_NumProps;
        }
        // GKPIDDSI_VERSION :Version of the application that wrote the
property storage
        $dataSection[] = [
            'summary' => ['pack' =>
'V', 'data' => 0x17],
            'offset' => ['pack' =>
'V'],
            'type' => ['pack' => 'V',
'data' => 0x03],
            'data' => ['pack' => 'V',
'data' => 0x000C0000],
        ];
        ++$dataSection_NumProps;
        // GKPIDDSI_SCALE : FALSE
        $dataSection[] = [
            'summary' => ['pack' =>
'V', 'data' => 0x0B],
            'offset' => ['pack' =>
'V'],
            'type' => ['pack' => 'V',
'data' => 0x0B],
            'data' => ['data' => false],
        ];
        ++$dataSection_NumProps;
        // GKPIDDSI_LINKSDIRTY : True if any of the values for the linked
properties have changed outside of the application
        $dataSection[] = [
            'summary' => ['pack' =>
'V', 'data' => 0x10],
            'offset' => ['pack' =>
'V'],
            'type' => ['pack' => 'V',
'data' => 0x0B],
            'data' => ['data' => false],
        ];
        ++$dataSection_NumProps;
        // GKPIDDSI_SHAREDOC : FALSE
        $dataSection[] = [
            'summary' => ['pack' =>
'V', 'data' => 0x13],
            'offset' => ['pack' =>
'V'],
            'type' => ['pack' => 'V',
'data' => 0x0B],
            'data' => ['data' => false],
        ];
        ++$dataSection_NumProps;
        // GKPIDDSI_HYPERLINKSCHANGED : True if any of the values for the
_PID_LINKS (hyperlink text) have changed outside of the application
        $dataSection[] = [
            'summary' => ['pack' =>
'V', 'data' => 0x16],
            'offset' => ['pack' =>
'V'],
            'type' => ['pack' => 'V',
'data' => 0x0B],
            'data' => ['data' => false],
        ];
        ++$dataSection_NumProps;

        // GKPIDDSI_DOCSPARTS
        // MS-OSHARED p75 (2.3.3.2.2.1)
        // Structure is VtVecUnalignedLpstrValue (2.3.3.1.9)
        // cElements
        $dataProp = pack('v', 0x0001);
        $dataProp .= pack('v', 0x0000);
        // array of UnalignedLpstr
        // cch
        $dataProp .= pack('v', 0x000A);
        $dataProp .= pack('v', 0x0000);
        // value
        $dataProp .= 'Worksheet' . chr(0);

        $dataSection[] = [
            'summary' => ['pack' =>
'V', 'data' => 0x0D],
            'offset' => ['pack' =>
'V'],
            'type' => ['pack' => 'V',
'data' => 0x101E],
            'data' => ['data' => $dataProp,
'length' => strlen($dataProp)],
        ];
        ++$dataSection_NumProps;

        // GKPIDDSI_HEADINGPAIR
        // VtVecHeadingPairValue
        // cElements
        $dataProp = pack('v', 0x0002);
        $dataProp .= pack('v', 0x0000);
        // Array of vtHeadingPair
        // vtUnalignedString - headingString
        // stringType
        $dataProp .= pack('v', 0x001E);
        // padding
        $dataProp .= pack('v', 0x0000);
        // UnalignedLpstr
        // cch
        $dataProp .= pack('v', 0x0013);
        $dataProp .= pack('v', 0x0000);
        // value
        $dataProp .= 'Feuilles de calcul';
        // vtUnalignedString - headingParts
        // wType : 0x0003 = 32 bit signed integer
        $dataProp .= pack('v', 0x0300);
        // padding
        $dataProp .= pack('v', 0x0000);
        // value
        $dataProp .= pack('v', 0x0100);
        $dataProp .= pack('v', 0x0000);
        $dataProp .= pack('v', 0x0000);
        $dataProp .= pack('v', 0x0000);

        $dataSection[] = [
            'summary' => ['pack' =>
'V', 'data' => 0x0C],
            'offset' => ['pack' =>
'V'],
            'type' => ['pack' => 'V',
'data' => 0x100C],
            'data' => ['data' => $dataProp,
'length' => strlen($dataProp)],
        ];
        ++$dataSection_NumProps;

        //         4     Section Length
        //        4     Property count
        //        8 * $dataSection_NumProps (8 =  ID (4) + OffSet(4))
        $dataSection_Content_Offset = 8 + $dataSection_NumProps * 8;
        foreach ($dataSection as $dataProp) {
            // Summary
            $dataSection_Summary .=
pack($dataProp['summary']['pack'],
$dataProp['summary']['data']);
            // Offset
            $dataSection_Summary .=
pack($dataProp['offset']['pack'],
$dataSection_Content_Offset);
            // DataType
            $dataSection_Content .=
pack($dataProp['type']['pack'],
$dataProp['type']['data']);
            // Data
            if ($dataProp['type']['data'] == 0x02) { //
2 byte signed integer
                $dataSection_Content .= pack('V',
$dataProp['data']['data']);

                $dataSection_Content_Offset += 4 + 4;
            } elseif ($dataProp['type']['data'] ==
0x03) { // 4 byte signed integer
                $dataSection_Content .= pack('V',
$dataProp['data']['data']);

                $dataSection_Content_Offset += 4 + 4;
            } elseif ($dataProp['type']['data'] ==
0x0B) { // Boolean
                if ($dataProp['data']['data'] == false)
{
                    $dataSection_Content .= pack('V', 0x0000);
                } else {
                    $dataSection_Content .= pack('V', 0x0001);
                }
                $dataSection_Content_Offset += 4 + 4;
            } elseif ($dataProp['type']['data'] ==
0x1E) { // null-terminated string prepended by dword string length
                // Null-terminated string
                $dataProp['data']['data'] .= chr(0);
                $dataProp['data']['length'] += 1;
                // Complete the string with null string for being a %4
                $dataProp['data']['length'] =
$dataProp['data']['length'] + ((4 -
$dataProp['data']['length'] % 4) == 4 ? 0 : (4 -
$dataProp['data']['length'] % 4));
                $dataProp['data']['data'] =
str_pad($dataProp['data']['data'],
$dataProp['data']['length'], chr(0), STR_PAD_RIGHT);

                $dataSection_Content .= pack('V',
$dataProp['data']['length']);
                $dataSection_Content .=
$dataProp['data']['data'];

                $dataSection_Content_Offset += 4 + 4 +
strlen($dataProp['data']['data']);
            } elseif ($dataProp['type']['data'] ==
0x40) { // Filetime (64-bit value representing the number of 100-nanosecond
intervals since January 1, 1601)
                $dataSection_Content .=
$dataProp['data']['data'];

                $dataSection_Content_Offset += 4 + 8;
            } else {
                // Data Type Not Used at the moment
                $dataSection_Content .=
$dataProp['data']['data'];

                $dataSection_Content_Offset += 4 +
$dataProp['data']['length'];
            }
        }
        // Now $dataSection_Content_Offset contains the size of the content

        // section header
        // offset: $secOffset; size: 4; section length
        //         + x  Size of the content (summary + content)
        $data .= pack('V', $dataSection_Content_Offset);
        // offset: $secOffset+4; size: 4; property count
        $data .= pack('V', $dataSection_NumProps);
        // Section Summary
        $data .= $dataSection_Summary;
        // Section Content
        $data .= $dataSection_Content;

        return $data;
    }

    /**
     * Build the OLE Part for Summary Information.
     *
     * @return string
     */
    private function writeSummaryInformation()
    {
        // offset: 0; size: 2; must be 0xFE 0xFF (UTF-16 LE byte order
mark)
        $data = pack('v', 0xFFFE);
        // offset: 2; size: 2;
        $data .= pack('v', 0x0000);
        // offset: 4; size: 2; OS version
        $data .= pack('v', 0x0106);
        // offset: 6; size: 2; OS indicator
        $data .= pack('v', 0x0002);
        // offset: 8; size: 16
        $data .= pack('VVVV', 0x00, 0x00, 0x00, 0x00);
        // offset: 24; size: 4; section count
        $data .= pack('V', 0x0001);

        // offset: 28; size: 16; first section's class id: e0 85 9f f2
f9 4f 68 10 ab 91 08 00 2b 27 b3 d9
        $data .= pack('vvvvvvvv', 0x85E0, 0xF29F, 0x4FF9, 0x1068,
0x91AB, 0x0008, 0x272B, 0xD9B3);
        // offset: 44; size: 4; offset of the start
        $data .= pack('V', 0x30);

        // SECTION
        $dataSection = [];
        $dataSection_NumProps = 0;
        $dataSection_Summary = '';
        $dataSection_Content = '';

        // CodePage : CP-1252
        $dataSection[] = [
            'summary' => ['pack' =>
'V', 'data' => 0x01],
            'offset' => ['pack' =>
'V'],
            'type' => ['pack' => 'V',
'data' => 0x02], // 2 byte signed integer
            'data' => ['data' => 1252],
        ];
        ++$dataSection_NumProps;

        //    Title
        if ($this->spreadsheet->getProperties()->getTitle()) {
            $dataProp =
$this->spreadsheet->getProperties()->getTitle();
            $dataSection[] = [
                'summary' => ['pack' =>
'V', 'data' => 0x02],
                'offset' => ['pack' =>
'V'],
                'type' => ['pack' =>
'V', 'data' => 0x1E], // null-terminated string
prepended by dword string length
                'data' => ['data' => $dataProp,
'length' => strlen($dataProp)],
            ];
            ++$dataSection_NumProps;
        }
        //    Subject
        if ($this->spreadsheet->getProperties()->getSubject()) {
            $dataProp =
$this->spreadsheet->getProperties()->getSubject();
            $dataSection[] = [
                'summary' => ['pack' =>
'V', 'data' => 0x03],
                'offset' => ['pack' =>
'V'],
                'type' => ['pack' =>
'V', 'data' => 0x1E], // null-terminated string
prepended by dword string length
                'data' => ['data' => $dataProp,
'length' => strlen($dataProp)],
            ];
            ++$dataSection_NumProps;
        }
        //    Author (Creator)
        if ($this->spreadsheet->getProperties()->getCreator()) {
            $dataProp =
$this->spreadsheet->getProperties()->getCreator();
            $dataSection[] = [
                'summary' => ['pack' =>
'V', 'data' => 0x04],
                'offset' => ['pack' =>
'V'],
                'type' => ['pack' =>
'V', 'data' => 0x1E], // null-terminated string
prepended by dword string length
                'data' => ['data' => $dataProp,
'length' => strlen($dataProp)],
            ];
            ++$dataSection_NumProps;
        }
        //    Keywords
        if ($this->spreadsheet->getProperties()->getKeywords()) {
            $dataProp =
$this->spreadsheet->getProperties()->getKeywords();
            $dataSection[] = [
                'summary' => ['pack' =>
'V', 'data' => 0x05],
                'offset' => ['pack' =>
'V'],
                'type' => ['pack' =>
'V', 'data' => 0x1E], // null-terminated string
prepended by dword string length
                'data' => ['data' => $dataProp,
'length' => strlen($dataProp)],
            ];
            ++$dataSection_NumProps;
        }
        //    Comments (Description)
        if ($this->spreadsheet->getProperties()->getDescription())
{
            $dataProp =
$this->spreadsheet->getProperties()->getDescription();
            $dataSection[] = [
                'summary' => ['pack' =>
'V', 'data' => 0x06],
                'offset' => ['pack' =>
'V'],
                'type' => ['pack' =>
'V', 'data' => 0x1E], // null-terminated string
prepended by dword string length
                'data' => ['data' => $dataProp,
'length' => strlen($dataProp)],
            ];
            ++$dataSection_NumProps;
        }
        //    Last Saved By (LastModifiedBy)
        if
($this->spreadsheet->getProperties()->getLastModifiedBy()) {
            $dataProp =
$this->spreadsheet->getProperties()->getLastModifiedBy();
            $dataSection[] = [
                'summary' => ['pack' =>
'V', 'data' => 0x08],
                'offset' => ['pack' =>
'V'],
                'type' => ['pack' =>
'V', 'data' => 0x1E], // null-terminated string
prepended by dword string length
                'data' => ['data' => $dataProp,
'length' => strlen($dataProp)],
            ];
            ++$dataSection_NumProps;
        }
        //    Created Date/Time
        if ($this->spreadsheet->getProperties()->getCreated()) {
            $dataProp =
$this->spreadsheet->getProperties()->getCreated();
            $dataSection[] = [
                'summary' => ['pack' =>
'V', 'data' => 0x0C],
                'offset' => ['pack' =>
'V'],
                'type' => ['pack' =>
'V', 'data' => 0x40], // Filetime (64-bit value
representing the number of 100-nanosecond intervals since January 1, 1601)
                'data' => ['data' =>
OLE::localDateToOLE($dataProp)],
            ];
            ++$dataSection_NumProps;
        }
        //    Modified Date/Time
        if ($this->spreadsheet->getProperties()->getModified()) {
            $dataProp =
$this->spreadsheet->getProperties()->getModified();
            $dataSection[] = [
                'summary' => ['pack' =>
'V', 'data' => 0x0D],
                'offset' => ['pack' =>
'V'],
                'type' => ['pack' =>
'V', 'data' => 0x40], // Filetime (64-bit value
representing the number of 100-nanosecond intervals since January 1, 1601)
                'data' => ['data' =>
OLE::localDateToOLE($dataProp)],
            ];
            ++$dataSection_NumProps;
        }
        //    Security
        $dataSection[] = [
            'summary' => ['pack' =>
'V', 'data' => 0x13],
            'offset' => ['pack' =>
'V'],
            'type' => ['pack' => 'V',
'data' => 0x03], // 4 byte signed integer
            'data' => ['data' => 0x00],
        ];
        ++$dataSection_NumProps;

        //         4     Section Length
        //        4     Property count
        //        8 * $dataSection_NumProps (8 =  ID (4) + OffSet(4))
        $dataSection_Content_Offset = 8 + $dataSection_NumProps * 8;
        foreach ($dataSection as $dataProp) {
            // Summary
            $dataSection_Summary .=
pack($dataProp['summary']['pack'],
$dataProp['summary']['data']);
            // Offset
            $dataSection_Summary .=
pack($dataProp['offset']['pack'],
$dataSection_Content_Offset);
            // DataType
            $dataSection_Content .=
pack($dataProp['type']['pack'],
$dataProp['type']['data']);
            // Data
            if ($dataProp['type']['data'] == 0x02) { //
2 byte signed integer
                $dataSection_Content .= pack('V',
$dataProp['data']['data']);

                $dataSection_Content_Offset += 4 + 4;
            } elseif ($dataProp['type']['data'] ==
0x03) { // 4 byte signed integer
                $dataSection_Content .= pack('V',
$dataProp['data']['data']);

                $dataSection_Content_Offset += 4 + 4;
            } elseif ($dataProp['type']['data'] ==
0x1E) { // null-terminated string prepended by dword string length
                // Null-terminated string
                $dataProp['data']['data'] .= chr(0);
                $dataProp['data']['length'] += 1;
                // Complete the string with null string for being a %4
                $dataProp['data']['length'] =
$dataProp['data']['length'] + ((4 -
$dataProp['data']['length'] % 4) == 4 ? 0 : (4 -
$dataProp['data']['length'] % 4));
                $dataProp['data']['data'] =
str_pad($dataProp['data']['data'],
$dataProp['data']['length'], chr(0), STR_PAD_RIGHT);

                $dataSection_Content .= pack('V',
$dataProp['data']['length']);
                $dataSection_Content .=
$dataProp['data']['data'];

                $dataSection_Content_Offset += 4 + 4 +
strlen($dataProp['data']['data']);
            } elseif ($dataProp['type']['data'] ==
0x40) { // Filetime (64-bit value representing the number of 100-nanosecond
intervals since January 1, 1601)
                $dataSection_Content .=
$dataProp['data']['data'];

                $dataSection_Content_Offset += 4 + 8;
            }
            // Data Type Not Used at the moment
        }
        // Now $dataSection_Content_Offset contains the size of the content

        // section header
        // offset: $secOffset; size: 4; section length
        //         + x  Size of the content (summary + content)
        $data .= pack('V', $dataSection_Content_Offset);
        // offset: $secOffset+4; size: 4; property count
        $data .= pack('V', $dataSection_NumProps);
        // Section Summary
        $data .= $dataSection_Summary;
        // Section Content
        $data .= $dataSection_Content;

        return $data;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xlsx/Chart.php000064400000172603151165414060022531
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer\Xlsx;

use PhpOffice\PhpSpreadsheet\Chart\Axis;
use PhpOffice\PhpSpreadsheet\Chart\DataSeries;
use PhpOffice\PhpSpreadsheet\Chart\DataSeriesValues;
use PhpOffice\PhpSpreadsheet\Chart\GridLines;
use PhpOffice\PhpSpreadsheet\Chart\Layout;
use PhpOffice\PhpSpreadsheet\Chart\Legend;
use PhpOffice\PhpSpreadsheet\Chart\PlotArea;
use PhpOffice\PhpSpreadsheet\Chart\Title;
use PhpOffice\PhpSpreadsheet\Shared\StringHelper;
use PhpOffice\PhpSpreadsheet\Shared\XMLWriter;
use PhpOffice\PhpSpreadsheet\Writer\Exception as WriterException;

class Chart extends WriterPart
{
    protected $calculateCellValues;

    /**
     * @var int
     */
    private $seriesIndex;

    /**
     * Write charts to XML format.
     *
     * @param \PhpOffice\PhpSpreadsheet\Chart\Chart $pChart
     * @param mixed $calculateCellValues
     *
     * @throws WriterException
     *
     * @return string XML Output
     */
    public function writeChart(\PhpOffice\PhpSpreadsheet\Chart\Chart
$pChart, $calculateCellValues = true)
    {
        $this->calculateCellValues = $calculateCellValues;

        // Create XML writer
        $objWriter = null;
        if ($this->getParentWriter()->getUseDiskCaching()) {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_DISK,
$this->getParentWriter()->getDiskCachingDirectory());
        } else {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_MEMORY);
        }
        //    Ensure that data series values are up-to-date before we save
        if ($this->calculateCellValues) {
            $pChart->refresh();
        }

        // XML header
        $objWriter->startDocument('1.0', 'UTF-8',
'yes');

        // c:chartSpace
        $objWriter->startElement('c:chartSpace');
        $objWriter->writeAttribute('xmlns:c',
'http://schemas.openxmlformats.org/drawingml/2006/chart');
        $objWriter->writeAttribute('xmlns:a',
'http://schemas.openxmlformats.org/drawingml/2006/main');
        $objWriter->writeAttribute('xmlns:r',
'http://schemas.openxmlformats.org/officeDocument/2006/relationships');

        $objWriter->startElement('c:date1904');
        $objWriter->writeAttribute('val', 0);
        $objWriter->endElement();
        $objWriter->startElement('c:lang');
        $objWriter->writeAttribute('val', 'en-GB');
        $objWriter->endElement();
        $objWriter->startElement('c:roundedCorners');
        $objWriter->writeAttribute('val', 0);
        $objWriter->endElement();

        $this->writeAlternateContent($objWriter);

        $objWriter->startElement('c:chart');

        $this->writeTitle($objWriter, $pChart->getTitle());

        $objWriter->startElement('c:autoTitleDeleted');
        $objWriter->writeAttribute('val', 0);
        $objWriter->endElement();

        $this->writePlotArea($objWriter, $pChart->getWorksheet(),
$pChart->getPlotArea(), $pChart->getXAxisLabel(),
$pChart->getYAxisLabel(), $pChart->getChartAxisX(),
$pChart->getChartAxisY(), $pChart->getMajorGridlines(),
$pChart->getMinorGridlines());

        $this->writeLegend($objWriter, $pChart->getLegend());

        $objWriter->startElement('c:plotVisOnly');
        $objWriter->writeAttribute('val', (int)
$pChart->getPlotVisibleOnly());
        $objWriter->endElement();

        $objWriter->startElement('c:dispBlanksAs');
        $objWriter->writeAttribute('val',
$pChart->getDisplayBlanksAs());
        $objWriter->endElement();

        $objWriter->startElement('c:showDLblsOverMax');
        $objWriter->writeAttribute('val', 0);
        $objWriter->endElement();

        $objWriter->endElement();

        $this->writePrintSettings($objWriter);

        $objWriter->endElement();

        // Return
        return $objWriter->getData();
    }

    /**
     * Write Chart Title.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param Title $title
     *
     * @throws WriterException
     */
    private function writeTitle(XMLWriter $objWriter, Title $title = null)
    {
        if ($title === null) {
            return;
        }

        $objWriter->startElement('c:title');
        $objWriter->startElement('c:tx');
        $objWriter->startElement('c:rich');

        $objWriter->startElement('a:bodyPr');
        $objWriter->endElement();

        $objWriter->startElement('a:lstStyle');
        $objWriter->endElement();

        $objWriter->startElement('a:p');

        $caption = $title->getCaption();
        if ((is_array($caption)) && (count($caption) > 0)) {
            $caption = $caption[0];
        }
       
$this->getParentWriter()->getWriterPart('stringtable')->writeRichTextForCharts($objWriter,
$caption, 'a');

        $objWriter->endElement();
        $objWriter->endElement();
        $objWriter->endElement();

        $this->writeLayout($objWriter, $title->getLayout());

        $objWriter->startElement('c:overlay');
        $objWriter->writeAttribute('val', 0);
        $objWriter->endElement();

        $objWriter->endElement();
    }

    /**
     * Write Chart Legend.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param Legend $legend
     *
     * @throws WriterException
     */
    private function writeLegend(XMLWriter $objWriter, Legend $legend =
null)
    {
        if ($legend === null) {
            return;
        }

        $objWriter->startElement('c:legend');

        $objWriter->startElement('c:legendPos');
        $objWriter->writeAttribute('val',
$legend->getPosition());
        $objWriter->endElement();

        $this->writeLayout($objWriter, $legend->getLayout());

        $objWriter->startElement('c:overlay');
        $objWriter->writeAttribute('val',
($legend->getOverlay()) ? '1' : '0');
        $objWriter->endElement();

        $objWriter->startElement('c:txPr');
        $objWriter->startElement('a:bodyPr');
        $objWriter->endElement();

        $objWriter->startElement('a:lstStyle');
        $objWriter->endElement();

        $objWriter->startElement('a:p');
        $objWriter->startElement('a:pPr');
        $objWriter->writeAttribute('rtl', 0);

        $objWriter->startElement('a:defRPr');
        $objWriter->endElement();
        $objWriter->endElement();

        $objWriter->startElement('a:endParaRPr');
        $objWriter->writeAttribute('lang', 'en-US');
        $objWriter->endElement();

        $objWriter->endElement();
        $objWriter->endElement();

        $objWriter->endElement();
    }

    /**
     * Write Chart Plot Area.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param \PhpOffice\PhpSpreadsheet\Worksheet\Worksheet $pSheet
     * @param PlotArea $plotArea
     * @param Title $xAxisLabel
     * @param Title $yAxisLabel
     * @param Axis $xAxis
     * @param Axis $yAxis
     * @param null|GridLines $majorGridlines
     * @param null|GridLines $minorGridlines
     *
     * @throws WriterException
     */
    private function writePlotArea(XMLWriter $objWriter,
\PhpOffice\PhpSpreadsheet\Worksheet\Worksheet $pSheet, PlotArea $plotArea,
Title $xAxisLabel = null, Title $yAxisLabel = null, Axis $xAxis = null,
Axis $yAxis = null, GridLines $majorGridlines = null, GridLines
$minorGridlines = null)
    {
        if ($plotArea === null) {
            return;
        }

        $id1 = $id2 = 0;
        $this->seriesIndex = 0;
        $objWriter->startElement('c:plotArea');

        $layout = $plotArea->getLayout();

        $this->writeLayout($objWriter, $layout);

        $chartTypes = self::getChartType($plotArea);
        $catIsMultiLevelSeries = $valIsMultiLevelSeries = false;
        $plotGroupingType = '';
        foreach ($chartTypes as $chartType) {
            $objWriter->startElement('c:' . $chartType);

            $groupCount = $plotArea->getPlotGroupCount();
            for ($i = 0; $i < $groupCount; ++$i) {
                $plotGroup = $plotArea->getPlotGroupByIndex($i);
                $groupType = $plotGroup->getPlotType();
                if ($groupType == $chartType) {
                    $plotStyle = $plotGroup->getPlotStyle();
                    if ($groupType === DataSeries::TYPE_RADARCHART) {
                       
$objWriter->startElement('c:radarStyle');
                        $objWriter->writeAttribute('val',
$plotStyle);
                        $objWriter->endElement();
                    } elseif ($groupType === DataSeries::TYPE_SCATTERCHART)
{
                       
$objWriter->startElement('c:scatterStyle');
                        $objWriter->writeAttribute('val',
$plotStyle);
                        $objWriter->endElement();
                    }

                    $this->writePlotGroup($plotGroup, $chartType,
$objWriter, $catIsMultiLevelSeries, $valIsMultiLevelSeries,
$plotGroupingType);
                }
            }

            $this->writeDataLabels($objWriter, $layout);

            if ($chartType === DataSeries::TYPE_LINECHART) {
                //    Line only, Line3D can't be smoothed
                $objWriter->startElement('c:smooth');
                $objWriter->writeAttribute('val', (int)
$plotGroup->getSmoothLine());
                $objWriter->endElement();
            } elseif (($chartType === DataSeries::TYPE_BARCHART) ||
($chartType === DataSeries::TYPE_BARCHART_3D)) {
                $objWriter->startElement('c:gapWidth');
                $objWriter->writeAttribute('val', 150);
                $objWriter->endElement();

                if ($plotGroupingType == 'percentStacked' ||
$plotGroupingType == 'stacked') {
                    $objWriter->startElement('c:overlap');
                    $objWriter->writeAttribute('val', 100);
                    $objWriter->endElement();
                }
            } elseif ($chartType === DataSeries::TYPE_BUBBLECHART) {
                $objWriter->startElement('c:bubbleScale');
                $objWriter->writeAttribute('val', 25);
                $objWriter->endElement();

                $objWriter->startElement('c:showNegBubbles');
                $objWriter->writeAttribute('val', 0);
                $objWriter->endElement();
            } elseif ($chartType === DataSeries::TYPE_STOCKCHART) {
                $objWriter->startElement('c:hiLowLines');
                $objWriter->endElement();

                $objWriter->startElement('c:upDownBars');

                $objWriter->startElement('c:gapWidth');
                $objWriter->writeAttribute('val', 300);
                $objWriter->endElement();

                $objWriter->startElement('c:upBars');
                $objWriter->endElement();

                $objWriter->startElement('c:downBars');
                $objWriter->endElement();

                $objWriter->endElement();
            }

            //    Generate 2 unique numbers to use for axId values
            $id1 = '75091328';
            $id2 = '75089408';

            if (($chartType !== DataSeries::TYPE_PIECHART) &&
($chartType !== DataSeries::TYPE_PIECHART_3D) && ($chartType !==
DataSeries::TYPE_DONUTCHART)) {
                $objWriter->startElement('c:axId');
                $objWriter->writeAttribute('val', $id1);
                $objWriter->endElement();
                $objWriter->startElement('c:axId');
                $objWriter->writeAttribute('val', $id2);
                $objWriter->endElement();
            } else {
                $objWriter->startElement('c:firstSliceAng');
                $objWriter->writeAttribute('val', 0);
                $objWriter->endElement();

                if ($chartType === DataSeries::TYPE_DONUTCHART) {
                    $objWriter->startElement('c:holeSize');
                    $objWriter->writeAttribute('val', 50);
                    $objWriter->endElement();
                }
            }

            $objWriter->endElement();
        }

        if (($chartType !== DataSeries::TYPE_PIECHART) &&
($chartType !== DataSeries::TYPE_PIECHART_3D) && ($chartType !==
DataSeries::TYPE_DONUTCHART)) {
            if ($chartType === DataSeries::TYPE_BUBBLECHART) {
                $this->writeValueAxis($objWriter, $xAxisLabel,
$chartType, $id1, $id2, $catIsMultiLevelSeries, $xAxis, $majorGridlines,
$minorGridlines);
            } else {
                $this->writeCategoryAxis($objWriter, $xAxisLabel, $id1,
$id2, $catIsMultiLevelSeries, $yAxis);
            }

            $this->writeValueAxis($objWriter, $yAxisLabel, $chartType,
$id1, $id2, $valIsMultiLevelSeries, $xAxis, $majorGridlines,
$minorGridlines);
        }

        $objWriter->endElement();
    }

    /**
     * Write Data Labels.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param \PhpOffice\PhpSpreadsheet\Chart\Layout $chartLayout Chart
layout
     */
    private function writeDataLabels(XMLWriter $objWriter, Layout
$chartLayout = null)
    {
        $objWriter->startElement('c:dLbls');

        $objWriter->startElement('c:showLegendKey');
        $showLegendKey = (empty($chartLayout)) ? 0 :
$chartLayout->getShowLegendKey();
        $objWriter->writeAttribute('val',
((empty($showLegendKey)) ? 0 : 1));
        $objWriter->endElement();

        $objWriter->startElement('c:showVal');
        $showVal = (empty($chartLayout)) ? 0 :
$chartLayout->getShowVal();
        $objWriter->writeAttribute('val', ((empty($showVal)) ?
0 : 1));
        $objWriter->endElement();

        $objWriter->startElement('c:showCatName');
        $showCatName = (empty($chartLayout)) ? 0 :
$chartLayout->getShowCatName();
        $objWriter->writeAttribute('val',
((empty($showCatName)) ? 0 : 1));
        $objWriter->endElement();

        $objWriter->startElement('c:showSerName');
        $showSerName = (empty($chartLayout)) ? 0 :
$chartLayout->getShowSerName();
        $objWriter->writeAttribute('val',
((empty($showSerName)) ? 0 : 1));
        $objWriter->endElement();

        $objWriter->startElement('c:showPercent');
        $showPercent = (empty($chartLayout)) ? 0 :
$chartLayout->getShowPercent();
        $objWriter->writeAttribute('val',
((empty($showPercent)) ? 0 : 1));
        $objWriter->endElement();

        $objWriter->startElement('c:showBubbleSize');
        $showBubbleSize = (empty($chartLayout)) ? 0 :
$chartLayout->getShowBubbleSize();
        $objWriter->writeAttribute('val',
((empty($showBubbleSize)) ? 0 : 1));
        $objWriter->endElement();

        $objWriter->startElement('c:showLeaderLines');
        $showLeaderLines = (empty($chartLayout)) ? 1 :
$chartLayout->getShowLeaderLines();
        $objWriter->writeAttribute('val',
((empty($showLeaderLines)) ? 0 : 1));
        $objWriter->endElement();

        $objWriter->endElement();
    }

    /**
     * Write Category Axis.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param Title $xAxisLabel
     * @param string $id1
     * @param string $id2
     * @param bool $isMultiLevelSeries
     * @param Axis $yAxis
     *
     * @throws WriterException
     */
    private function writeCategoryAxis($objWriter, $xAxisLabel, $id1, $id2,
$isMultiLevelSeries, Axis $yAxis)
    {
        $objWriter->startElement('c:catAx');

        if ($id1 > 0) {
            $objWriter->startElement('c:axId');
            $objWriter->writeAttribute('val', $id1);
            $objWriter->endElement();
        }

        $objWriter->startElement('c:scaling');
        $objWriter->startElement('c:orientation');
        $objWriter->writeAttribute('val',
$yAxis->getAxisOptionsProperty('orientation'));
        $objWriter->endElement();
        $objWriter->endElement();

        $objWriter->startElement('c:delete');
        $objWriter->writeAttribute('val', 0);
        $objWriter->endElement();

        $objWriter->startElement('c:axPos');
        $objWriter->writeAttribute('val', 'b');
        $objWriter->endElement();

        if ($xAxisLabel !== null) {
            $objWriter->startElement('c:title');
            $objWriter->startElement('c:tx');
            $objWriter->startElement('c:rich');

            $objWriter->startElement('a:bodyPr');
            $objWriter->endElement();

            $objWriter->startElement('a:lstStyle');
            $objWriter->endElement();

            $objWriter->startElement('a:p');
            $objWriter->startElement('a:r');

            $caption = $xAxisLabel->getCaption();
            if (is_array($caption)) {
                $caption = $caption[0];
            }
            $objWriter->startElement('a:t');
           
$objWriter->writeRawData(StringHelper::controlCharacterPHP2OOXML($caption));
            $objWriter->endElement();

            $objWriter->endElement();
            $objWriter->endElement();
            $objWriter->endElement();
            $objWriter->endElement();

            $layout = $xAxisLabel->getLayout();
            $this->writeLayout($objWriter, $layout);

            $objWriter->startElement('c:overlay');
            $objWriter->writeAttribute('val', 0);
            $objWriter->endElement();

            $objWriter->endElement();
        }

        $objWriter->startElement('c:numFmt');
        $objWriter->writeAttribute('formatCode',
$yAxis->getAxisNumberFormat());
        $objWriter->writeAttribute('sourceLinked',
$yAxis->getAxisNumberSourceLinked());
        $objWriter->endElement();

        $objWriter->startElement('c:majorTickMark');
        $objWriter->writeAttribute('val',
$yAxis->getAxisOptionsProperty('major_tick_mark'));
        $objWriter->endElement();

        $objWriter->startElement('c:minorTickMark');
        $objWriter->writeAttribute('val',
$yAxis->getAxisOptionsProperty('minor_tick_mark'));
        $objWriter->endElement();

        $objWriter->startElement('c:tickLblPos');
        $objWriter->writeAttribute('val',
$yAxis->getAxisOptionsProperty('axis_labels'));
        $objWriter->endElement();

        if ($id2 > 0) {
            $objWriter->startElement('c:crossAx');
            $objWriter->writeAttribute('val', $id2);
            $objWriter->endElement();

            $objWriter->startElement('c:crosses');
            $objWriter->writeAttribute('val',
$yAxis->getAxisOptionsProperty('horizontal_crosses'));
            $objWriter->endElement();
        }

        $objWriter->startElement('c:auto');
        $objWriter->writeAttribute('val', 1);
        $objWriter->endElement();

        $objWriter->startElement('c:lblAlgn');
        $objWriter->writeAttribute('val', 'ctr');
        $objWriter->endElement();

        $objWriter->startElement('c:lblOffset');
        $objWriter->writeAttribute('val', 100);
        $objWriter->endElement();

        if ($isMultiLevelSeries) {
            $objWriter->startElement('c:noMultiLvlLbl');
            $objWriter->writeAttribute('val', 0);
            $objWriter->endElement();
        }
        $objWriter->endElement();
    }

    /**
     * Write Value Axis.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param Title $yAxisLabel
     * @param string $groupType Chart type
     * @param string $id1
     * @param string $id2
     * @param bool $isMultiLevelSeries
     * @param Axis $xAxis
     * @param GridLines $majorGridlines
     * @param GridLines $minorGridlines
     *
     * @throws WriterException
     */
    private function writeValueAxis($objWriter, $yAxisLabel, $groupType,
$id1, $id2, $isMultiLevelSeries, Axis $xAxis, GridLines $majorGridlines,
GridLines $minorGridlines)
    {
        $objWriter->startElement('c:valAx');

        if ($id2 > 0) {
            $objWriter->startElement('c:axId');
            $objWriter->writeAttribute('val', $id2);
            $objWriter->endElement();
        }

        $objWriter->startElement('c:scaling');

        if ($xAxis->getAxisOptionsProperty('maximum') !==
null) {
            $objWriter->startElement('c:max');
            $objWriter->writeAttribute('val',
$xAxis->getAxisOptionsProperty('maximum'));
            $objWriter->endElement();
        }

        if ($xAxis->getAxisOptionsProperty('minimum') !==
null) {
            $objWriter->startElement('c:min');
            $objWriter->writeAttribute('val',
$xAxis->getAxisOptionsProperty('minimum'));
            $objWriter->endElement();
        }

        $objWriter->startElement('c:orientation');
        $objWriter->writeAttribute('val',
$xAxis->getAxisOptionsProperty('orientation'));

        $objWriter->endElement();
        $objWriter->endElement();

        $objWriter->startElement('c:delete');
        $objWriter->writeAttribute('val', 0);
        $objWriter->endElement();

        $objWriter->startElement('c:axPos');
        $objWriter->writeAttribute('val', 'l');
        $objWriter->endElement();

        $objWriter->startElement('c:majorGridlines');
        $objWriter->startElement('c:spPr');

        if ($majorGridlines->getLineColorProperty('value') !==
null) {
            $objWriter->startElement('a:ln');
            $objWriter->writeAttribute('w',
$majorGridlines->getLineStyleProperty('width'));
            $objWriter->startElement('a:solidFill');
           
$objWriter->startElement("a:{$majorGridlines->getLineColorProperty('type')}");
            $objWriter->writeAttribute('val',
$majorGridlines->getLineColorProperty('value'));
            $objWriter->startElement('a:alpha');
            $objWriter->writeAttribute('val',
$majorGridlines->getLineColorProperty('alpha'));
            $objWriter->endElement(); //end alpha
            $objWriter->endElement(); //end srgbClr
            $objWriter->endElement(); //end solidFill

            $objWriter->startElement('a:prstDash');
            $objWriter->writeAttribute('val',
$majorGridlines->getLineStyleProperty('dash'));
            $objWriter->endElement();

            if ($majorGridlines->getLineStyleProperty('join')
== 'miter') {
                $objWriter->startElement('a:miter');
                $objWriter->writeAttribute('lim',
'800000');
                $objWriter->endElement();
            } else {
                $objWriter->startElement('a:bevel');
                $objWriter->endElement();
            }

            if
($majorGridlines->getLineStyleProperty(['arrow',
'head', 'type']) !== null) {
                $objWriter->startElement('a:headEnd');
                $objWriter->writeAttribute('type',
$majorGridlines->getLineStyleProperty(['arrow',
'head', 'type']));
                $objWriter->writeAttribute('w',
$majorGridlines->getLineStyleArrowParameters('head',
'w'));
                $objWriter->writeAttribute('len',
$majorGridlines->getLineStyleArrowParameters('head',
'len'));
                $objWriter->endElement();
            }

            if
($majorGridlines->getLineStyleProperty(['arrow',
'end', 'type']) !== null) {
                $objWriter->startElement('a:tailEnd');
                $objWriter->writeAttribute('type',
$majorGridlines->getLineStyleProperty(['arrow',
'end', 'type']));
                $objWriter->writeAttribute('w',
$majorGridlines->getLineStyleArrowParameters('end',
'w'));
                $objWriter->writeAttribute('len',
$majorGridlines->getLineStyleArrowParameters('end',
'len'));
                $objWriter->endElement();
            }
            $objWriter->endElement(); //end ln
        }
        $objWriter->startElement('a:effectLst');

        if ($majorGridlines->getGlowSize() !== null) {
            $objWriter->startElement('a:glow');
            $objWriter->writeAttribute('rad',
$majorGridlines->getGlowSize());
           
$objWriter->startElement("a:{$majorGridlines->getGlowColor('type')}");
            $objWriter->writeAttribute('val',
$majorGridlines->getGlowColor('value'));
            $objWriter->startElement('a:alpha');
            $objWriter->writeAttribute('val',
$majorGridlines->getGlowColor('alpha'));
            $objWriter->endElement(); //end alpha
            $objWriter->endElement(); //end schemeClr
            $objWriter->endElement(); //end glow
        }

        if ($majorGridlines->getShadowProperty('presets') !==
null) {
           
$objWriter->startElement("a:{$majorGridlines->getShadowProperty('effect')}");
            if ($majorGridlines->getShadowProperty('blur') !==
null) {
                $objWriter->writeAttribute('blurRad',
$majorGridlines->getShadowProperty('blur'));
            }
            if ($majorGridlines->getShadowProperty('distance')
!== null) {
                $objWriter->writeAttribute('dist',
$majorGridlines->getShadowProperty('distance'));
            }
            if
($majorGridlines->getShadowProperty('direction') !== null) {
                $objWriter->writeAttribute('dir',
$majorGridlines->getShadowProperty('direction'));
            }
            if ($majorGridlines->getShadowProperty('algn') !==
null) {
                $objWriter->writeAttribute('algn',
$majorGridlines->getShadowProperty('algn'));
            }
            if ($majorGridlines->getShadowProperty(['size',
'sx']) !== null) {
                $objWriter->writeAttribute('sx',
$majorGridlines->getShadowProperty(['size', 'sx']));
            }
            if ($majorGridlines->getShadowProperty(['size',
'sy']) !== null) {
                $objWriter->writeAttribute('sy',
$majorGridlines->getShadowProperty(['size', 'sy']));
            }
            if ($majorGridlines->getShadowProperty(['size',
'kx']) !== null) {
                $objWriter->writeAttribute('kx',
$majorGridlines->getShadowProperty(['size', 'kx']));
            }
            if
($majorGridlines->getShadowProperty('rotWithShape') !== null)
{
                $objWriter->writeAttribute('rotWithShape',
$majorGridlines->getShadowProperty('rotWithShape'));
            }
           
$objWriter->startElement("a:{$majorGridlines->getShadowProperty(['color',
'type'])}");
            $objWriter->writeAttribute('val',
$majorGridlines->getShadowProperty(['color',
'value']));

            $objWriter->startElement('a:alpha');
            $objWriter->writeAttribute('val',
$majorGridlines->getShadowProperty(['color',
'alpha']));
            $objWriter->endElement(); //end alpha

            $objWriter->endElement(); //end color:type
            $objWriter->endElement(); //end shadow
        }

        if ($majorGridlines->getSoftEdgesSize() !== null) {
            $objWriter->startElement('a:softEdge');
            $objWriter->writeAttribute('rad',
$majorGridlines->getSoftEdgesSize());
            $objWriter->endElement(); //end softEdge
        }

        $objWriter->endElement(); //end effectLst
        $objWriter->endElement(); //end spPr
        $objWriter->endElement(); //end majorGridLines

        if ($minorGridlines->getObjectState()) {
            $objWriter->startElement('c:minorGridlines');
            $objWriter->startElement('c:spPr');

            if ($minorGridlines->getLineColorProperty('value')
!== null) {
                $objWriter->startElement('a:ln');
                $objWriter->writeAttribute('w',
$minorGridlines->getLineStyleProperty('width'));
                $objWriter->startElement('a:solidFill');
               
$objWriter->startElement("a:{$minorGridlines->getLineColorProperty('type')}");
                $objWriter->writeAttribute('val',
$minorGridlines->getLineColorProperty('value'));
                $objWriter->startElement('a:alpha');
                $objWriter->writeAttribute('val',
$minorGridlines->getLineColorProperty('alpha'));
                $objWriter->endElement(); //end alpha
                $objWriter->endElement(); //end srgbClr
                $objWriter->endElement(); //end solidFill

                $objWriter->startElement('a:prstDash');
                $objWriter->writeAttribute('val',
$minorGridlines->getLineStyleProperty('dash'));
                $objWriter->endElement();

                if
($minorGridlines->getLineStyleProperty('join') ==
'miter') {
                    $objWriter->startElement('a:miter');
                    $objWriter->writeAttribute('lim',
'800000');
                    $objWriter->endElement();
                } else {
                    $objWriter->startElement('a:bevel');
                    $objWriter->endElement();
                }

                if
($minorGridlines->getLineStyleProperty(['arrow',
'head', 'type']) !== null) {
                    $objWriter->startElement('a:headEnd');
                    $objWriter->writeAttribute('type',
$minorGridlines->getLineStyleProperty(['arrow',
'head', 'type']));
                    $objWriter->writeAttribute('w',
$minorGridlines->getLineStyleArrowParameters('head',
'w'));
                    $objWriter->writeAttribute('len',
$minorGridlines->getLineStyleArrowParameters('head',
'len'));
                    $objWriter->endElement();
                }

                if
($minorGridlines->getLineStyleProperty(['arrow',
'end', 'type']) !== null) {
                    $objWriter->startElement('a:tailEnd');
                    $objWriter->writeAttribute('type',
$minorGridlines->getLineStyleProperty(['arrow',
'end', 'type']));
                    $objWriter->writeAttribute('w',
$minorGridlines->getLineStyleArrowParameters('end',
'w'));
                    $objWriter->writeAttribute('len',
$minorGridlines->getLineStyleArrowParameters('end',
'len'));
                    $objWriter->endElement();
                }
                $objWriter->endElement(); //end ln
            }

            $objWriter->startElement('a:effectLst');

            if ($minorGridlines->getGlowSize() !== null) {
                $objWriter->startElement('a:glow');
                $objWriter->writeAttribute('rad',
$minorGridlines->getGlowSize());
               
$objWriter->startElement("a:{$minorGridlines->getGlowColor('type')}");
                $objWriter->writeAttribute('val',
$minorGridlines->getGlowColor('value'));
                $objWriter->startElement('a:alpha');
                $objWriter->writeAttribute('val',
$minorGridlines->getGlowColor('alpha'));
                $objWriter->endElement(); //end alpha
                $objWriter->endElement(); //end schemeClr
                $objWriter->endElement(); //end glow
            }

            if ($minorGridlines->getShadowProperty('presets')
!== null) {
               
$objWriter->startElement("a:{$minorGridlines->getShadowProperty('effect')}");
                if ($minorGridlines->getShadowProperty('blur')
!== null) {
                    $objWriter->writeAttribute('blurRad',
$minorGridlines->getShadowProperty('blur'));
                }
                if
($minorGridlines->getShadowProperty('distance') !== null) {
                    $objWriter->writeAttribute('dist',
$minorGridlines->getShadowProperty('distance'));
                }
                if
($minorGridlines->getShadowProperty('direction') !== null) {
                    $objWriter->writeAttribute('dir',
$minorGridlines->getShadowProperty('direction'));
                }
                if ($minorGridlines->getShadowProperty('algn')
!== null) {
                    $objWriter->writeAttribute('algn',
$minorGridlines->getShadowProperty('algn'));
                }
                if
($minorGridlines->getShadowProperty(['size', 'sx'])
!== null) {
                    $objWriter->writeAttribute('sx',
$minorGridlines->getShadowProperty(['size', 'sx']));
                }
                if
($minorGridlines->getShadowProperty(['size', 'sy'])
!== null) {
                    $objWriter->writeAttribute('sy',
$minorGridlines->getShadowProperty(['size', 'sy']));
                }
                if
($minorGridlines->getShadowProperty(['size', 'kx'])
!== null) {
                    $objWriter->writeAttribute('kx',
$minorGridlines->getShadowProperty(['size', 'kx']));
                }
                if
($minorGridlines->getShadowProperty('rotWithShape') !== null)
{
                    $objWriter->writeAttribute('rotWithShape',
$minorGridlines->getShadowProperty('rotWithShape'));
                }
               
$objWriter->startElement("a:{$minorGridlines->getShadowProperty(['color',
'type'])}");
                $objWriter->writeAttribute('val',
$minorGridlines->getShadowProperty(['color',
'value']));
                $objWriter->startElement('a:alpha');
                $objWriter->writeAttribute('val',
$minorGridlines->getShadowProperty(['color',
'alpha']));
                $objWriter->endElement(); //end alpha
                $objWriter->endElement(); //end color:type
                $objWriter->endElement(); //end shadow
            }

            if ($minorGridlines->getSoftEdgesSize() !== null) {
                $objWriter->startElement('a:softEdge');
                $objWriter->writeAttribute('rad',
$minorGridlines->getSoftEdgesSize());
                $objWriter->endElement(); //end softEdge
            }

            $objWriter->endElement(); //end effectLst
            $objWriter->endElement(); //end spPr
            $objWriter->endElement(); //end minorGridLines
        }

        if ($yAxisLabel !== null) {
            $objWriter->startElement('c:title');
            $objWriter->startElement('c:tx');
            $objWriter->startElement('c:rich');

            $objWriter->startElement('a:bodyPr');
            $objWriter->endElement();

            $objWriter->startElement('a:lstStyle');
            $objWriter->endElement();

            $objWriter->startElement('a:p');
            $objWriter->startElement('a:r');

            $caption = $yAxisLabel->getCaption();
            if (is_array($caption)) {
                $caption = $caption[0];
            }

            $objWriter->startElement('a:t');
           
$objWriter->writeRawData(StringHelper::controlCharacterPHP2OOXML($caption));
            $objWriter->endElement();

            $objWriter->endElement();
            $objWriter->endElement();
            $objWriter->endElement();
            $objWriter->endElement();

            if ($groupType !== DataSeries::TYPE_BUBBLECHART) {
                $layout = $yAxisLabel->getLayout();
                $this->writeLayout($objWriter, $layout);
            }

            $objWriter->startElement('c:overlay');
            $objWriter->writeAttribute('val', 0);
            $objWriter->endElement();

            $objWriter->endElement();
        }

        $objWriter->startElement('c:numFmt');
        $objWriter->writeAttribute('formatCode',
$xAxis->getAxisNumberFormat());
        $objWriter->writeAttribute('sourceLinked',
$xAxis->getAxisNumberSourceLinked());
        $objWriter->endElement();

        $objWriter->startElement('c:majorTickMark');
        $objWriter->writeAttribute('val',
$xAxis->getAxisOptionsProperty('major_tick_mark'));
        $objWriter->endElement();

        $objWriter->startElement('c:minorTickMark');
        $objWriter->writeAttribute('val',
$xAxis->getAxisOptionsProperty('minor_tick_mark'));
        $objWriter->endElement();

        $objWriter->startElement('c:tickLblPos');
        $objWriter->writeAttribute('val',
$xAxis->getAxisOptionsProperty('axis_labels'));
        $objWriter->endElement();

        $objWriter->startElement('c:spPr');

        if ($xAxis->getFillProperty('value') !== null) {
            $objWriter->startElement('a:solidFill');
            $objWriter->startElement('a:' .
$xAxis->getFillProperty('type'));
            $objWriter->writeAttribute('val',
$xAxis->getFillProperty('value'));
            $objWriter->startElement('a:alpha');
            $objWriter->writeAttribute('val',
$xAxis->getFillProperty('alpha'));
            $objWriter->endElement();
            $objWriter->endElement();
            $objWriter->endElement();
        }

        $objWriter->startElement('a:ln');

        $objWriter->writeAttribute('w',
$xAxis->getLineStyleProperty('width'));
        $objWriter->writeAttribute('cap',
$xAxis->getLineStyleProperty('cap'));
        $objWriter->writeAttribute('cmpd',
$xAxis->getLineStyleProperty('compound'));

        if ($xAxis->getLineProperty('value') !== null) {
            $objWriter->startElement('a:solidFill');
            $objWriter->startElement('a:' .
$xAxis->getLineProperty('type'));
            $objWriter->writeAttribute('val',
$xAxis->getLineProperty('value'));
            $objWriter->startElement('a:alpha');
            $objWriter->writeAttribute('val',
$xAxis->getLineProperty('alpha'));
            $objWriter->endElement();
            $objWriter->endElement();
            $objWriter->endElement();
        }

        $objWriter->startElement('a:prstDash');
        $objWriter->writeAttribute('val',
$xAxis->getLineStyleProperty('dash'));
        $objWriter->endElement();

        if ($xAxis->getLineStyleProperty('join') ==
'miter') {
            $objWriter->startElement('a:miter');
            $objWriter->writeAttribute('lim',
'800000');
            $objWriter->endElement();
        } else {
            $objWriter->startElement('a:bevel');
            $objWriter->endElement();
        }

        if ($xAxis->getLineStyleProperty(['arrow',
'head', 'type']) !== null) {
            $objWriter->startElement('a:headEnd');
            $objWriter->writeAttribute('type',
$xAxis->getLineStyleProperty(['arrow', 'head',
'type']));
            $objWriter->writeAttribute('w',
$xAxis->getLineStyleArrowWidth('head'));
            $objWriter->writeAttribute('len',
$xAxis->getLineStyleArrowLength('head'));
            $objWriter->endElement();
        }

        if ($xAxis->getLineStyleProperty(['arrow',
'end', 'type']) !== null) {
            $objWriter->startElement('a:tailEnd');
            $objWriter->writeAttribute('type',
$xAxis->getLineStyleProperty(['arrow', 'end',
'type']));
            $objWriter->writeAttribute('w',
$xAxis->getLineStyleArrowWidth('end'));
            $objWriter->writeAttribute('len',
$xAxis->getLineStyleArrowLength('end'));
            $objWriter->endElement();
        }

        $objWriter->endElement();

        $objWriter->startElement('a:effectLst');

        if ($xAxis->getGlowProperty('size') !== null) {
            $objWriter->startElement('a:glow');
            $objWriter->writeAttribute('rad',
$xAxis->getGlowProperty('size'));
           
$objWriter->startElement("a:{$xAxis->getGlowProperty(['color',
'type'])}");
            $objWriter->writeAttribute('val',
$xAxis->getGlowProperty(['color', 'value']));
            $objWriter->startElement('a:alpha');
            $objWriter->writeAttribute('val',
$xAxis->getGlowProperty(['color', 'alpha']));
            $objWriter->endElement();
            $objWriter->endElement();
            $objWriter->endElement();
        }

        if ($xAxis->getShadowProperty('presets') !== null) {
           
$objWriter->startElement("a:{$xAxis->getShadowProperty('effect')}");

            if ($xAxis->getShadowProperty('blur') !== null) {
                $objWriter->writeAttribute('blurRad',
$xAxis->getShadowProperty('blur'));
            }
            if ($xAxis->getShadowProperty('distance') !==
null) {
                $objWriter->writeAttribute('dist',
$xAxis->getShadowProperty('distance'));
            }
            if ($xAxis->getShadowProperty('direction') !==
null) {
                $objWriter->writeAttribute('dir',
$xAxis->getShadowProperty('direction'));
            }
            if ($xAxis->getShadowProperty('algn') !== null) {
                $objWriter->writeAttribute('algn',
$xAxis->getShadowProperty('algn'));
            }
            if ($xAxis->getShadowProperty(['size',
'sx']) !== null) {
                $objWriter->writeAttribute('sx',
$xAxis->getShadowProperty(['size', 'sx']));
            }
            if ($xAxis->getShadowProperty(['size',
'sy']) !== null) {
                $objWriter->writeAttribute('sy',
$xAxis->getShadowProperty(['size', 'sy']));
            }
            if ($xAxis->getShadowProperty(['size',
'kx']) !== null) {
                $objWriter->writeAttribute('kx',
$xAxis->getShadowProperty(['size', 'kx']));
            }
            if ($xAxis->getShadowProperty('rotWithShape') !==
null) {
                $objWriter->writeAttribute('rotWithShape',
$xAxis->getShadowProperty('rotWithShape'));
            }

           
$objWriter->startElement("a:{$xAxis->getShadowProperty(['color',
'type'])}");
            $objWriter->writeAttribute('val',
$xAxis->getShadowProperty(['color', 'value']));
            $objWriter->startElement('a:alpha');
            $objWriter->writeAttribute('val',
$xAxis->getShadowProperty(['color', 'alpha']));
            $objWriter->endElement();
            $objWriter->endElement();

            $objWriter->endElement();
        }

        if ($xAxis->getSoftEdgesSize() !== null) {
            $objWriter->startElement('a:softEdge');
            $objWriter->writeAttribute('rad',
$xAxis->getSoftEdgesSize());
            $objWriter->endElement();
        }

        $objWriter->endElement(); //effectList
        $objWriter->endElement(); //end spPr

        if ($id1 > 0) {
            $objWriter->startElement('c:crossAx');
            $objWriter->writeAttribute('val', $id2);
            $objWriter->endElement();

            if
($xAxis->getAxisOptionsProperty('horizontal_crosses_value')
!== null) {
                $objWriter->startElement('c:crossesAt');
                $objWriter->writeAttribute('val',
$xAxis->getAxisOptionsProperty('horizontal_crosses_value'));
                $objWriter->endElement();
            } else {
                $objWriter->startElement('c:crosses');
                $objWriter->writeAttribute('val',
$xAxis->getAxisOptionsProperty('horizontal_crosses'));
                $objWriter->endElement();
            }

            $objWriter->startElement('c:crossBetween');
            $objWriter->writeAttribute('val',
'midCat');
            $objWriter->endElement();

            if ($xAxis->getAxisOptionsProperty('major_unit')
!== null) {
                $objWriter->startElement('c:majorUnit');
                $objWriter->writeAttribute('val',
$xAxis->getAxisOptionsProperty('major_unit'));
                $objWriter->endElement();
            }

            if ($xAxis->getAxisOptionsProperty('minor_unit')
!== null) {
                $objWriter->startElement('c:minorUnit');
                $objWriter->writeAttribute('val',
$xAxis->getAxisOptionsProperty('minor_unit'));
                $objWriter->endElement();
            }
        }

        if ($isMultiLevelSeries) {
            if ($groupType !== DataSeries::TYPE_BUBBLECHART) {
                $objWriter->startElement('c:noMultiLvlLbl');
                $objWriter->writeAttribute('val', 0);
                $objWriter->endElement();
            }
        }

        $objWriter->endElement();
    }

    /**
     * Get the data series type(s) for a chart plot series.
     *
     * @param PlotArea $plotArea
     *
     * @throws WriterException
     *
     * @return array|string
     */
    private static function getChartType($plotArea)
    {
        $groupCount = $plotArea->getPlotGroupCount();

        if ($groupCount == 1) {
            $chartType =
[$plotArea->getPlotGroupByIndex(0)->getPlotType()];
        } else {
            $chartTypes = [];
            for ($i = 0; $i < $groupCount; ++$i) {
                $chartTypes[] =
$plotArea->getPlotGroupByIndex($i)->getPlotType();
            }
            $chartType = array_unique($chartTypes);
            if (count($chartTypes) == 0) {
                throw new WriterException('Chart is not yet
implemented');
            }
        }

        return $chartType;
    }

    /**
     * Method writing plot series values.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param int       $val       value for idx (default: 3)
     * @param string    $fillColor hex color (default: FF9900)
     *
     * @return XMLWriter XML Writer
     */
    private function writePlotSeriesValuesElement($objWriter, $val = 3,
$fillColor = 'FF9900')
    {
        $objWriter->startElement('c:dPt');
        $objWriter->startElement('c:idx');
        $objWriter->writeAttribute('val', $val);
        $objWriter->endElement();

        $objWriter->startElement('c:bubble3D');
        $objWriter->writeAttribute('val', 0);
        $objWriter->endElement();

        $objWriter->startElement('c:spPr');
        $objWriter->startElement('a:solidFill');
        $objWriter->startElement('a:srgbClr');
        $objWriter->writeAttribute('val', $fillColor);
        $objWriter->endElement();
        $objWriter->endElement();
        $objWriter->endElement();
        $objWriter->endElement();

        return $objWriter;
    }

    /**
     * Write Plot Group (series of related plots).
     *
     * @param DataSeries $plotGroup
     * @param string $groupType Type of plot for dataseries
     * @param XMLWriter $objWriter XML Writer
     * @param bool &$catIsMultiLevelSeries Is category a multi-series
category
     * @param bool &$valIsMultiLevelSeries Is value set a multi-series
set
     * @param string &$plotGroupingType Type of grouping for
multi-series values
     *
     * @throws WriterException
     */
    private function writePlotGroup($plotGroup, $groupType, $objWriter,
&$catIsMultiLevelSeries, &$valIsMultiLevelSeries,
&$plotGroupingType)
    {
        if ($plotGroup === null) {
            return;
        }

        if (($groupType == DataSeries::TYPE_BARCHART) || ($groupType ==
DataSeries::TYPE_BARCHART_3D)) {
            $objWriter->startElement('c:barDir');
            $objWriter->writeAttribute('val',
$plotGroup->getPlotDirection());
            $objWriter->endElement();
        }

        if ($plotGroup->getPlotGrouping() !== null) {
            $plotGroupingType = $plotGroup->getPlotGrouping();
            $objWriter->startElement('c:grouping');
            $objWriter->writeAttribute('val',
$plotGroupingType);
            $objWriter->endElement();
        }

        //    Get these details before the loop, because we can use the
count to check for varyColors
        $plotSeriesOrder = $plotGroup->getPlotOrder();
        $plotSeriesCount = count($plotSeriesOrder);

        if (($groupType !== DataSeries::TYPE_RADARCHART) &&
($groupType !== DataSeries::TYPE_STOCKCHART)) {
            if ($groupType !== DataSeries::TYPE_LINECHART) {
                if (($groupType == DataSeries::TYPE_PIECHART) ||
($groupType == DataSeries::TYPE_PIECHART_3D) || ($groupType ==
DataSeries::TYPE_DONUTCHART) || ($plotSeriesCount > 1)) {
                    $objWriter->startElement('c:varyColors');
                    $objWriter->writeAttribute('val', 1);
                    $objWriter->endElement();
                } else {
                    $objWriter->startElement('c:varyColors');
                    $objWriter->writeAttribute('val', 0);
                    $objWriter->endElement();
                }
            }
        }

        foreach ($plotSeriesOrder as $plotSeriesIdx => $plotSeriesRef) {
            $objWriter->startElement('c:ser');

            $plotLabel =
$plotGroup->getPlotLabelByIndex($plotSeriesIdx);
            if ($plotLabel) {
                $fillColor = $plotLabel->getFillColor();
                if ($fillColor !== null && !is_array($fillColor)) {
                    $objWriter->startElement('c:spPr');
                    $objWriter->startElement('a:solidFill');
                    $objWriter->startElement('a:srgbClr');
                    $objWriter->writeAttribute('val',
$fillColor);
                    $objWriter->endElement();
                    $objWriter->endElement();
                    $objWriter->endElement();
                }
            }

            $objWriter->startElement('c:idx');
            $objWriter->writeAttribute('val',
$this->seriesIndex + $plotSeriesIdx);
            $objWriter->endElement();

            $objWriter->startElement('c:order');
            $objWriter->writeAttribute('val',
$this->seriesIndex + $plotSeriesRef);
            $objWriter->endElement();

            //    Values
            $plotSeriesValues =
$plotGroup->getPlotValuesByIndex($plotSeriesRef);

            if (($groupType == DataSeries::TYPE_PIECHART) || ($groupType ==
DataSeries::TYPE_PIECHART_3D) || ($groupType ==
DataSeries::TYPE_DONUTCHART)) {
                $fillColorValues = $plotSeriesValues->getFillColor();
                if ($fillColorValues !== null &&
is_array($fillColorValues)) {
                    foreach ($plotSeriesValues->getDataValues() as
$dataKey => $dataValue) {
                        $this->writePlotSeriesValuesElement($objWriter,
$dataKey, ($fillColorValues[$dataKey] ?? 'FF9900'));
                    }
                } else {
                    $this->writePlotSeriesValuesElement($objWriter);
                }
            }

            //    Labels
            $plotSeriesLabel =
$plotGroup->getPlotLabelByIndex($plotSeriesRef);
            if ($plotSeriesLabel &&
($plotSeriesLabel->getPointCount() > 0)) {
                $objWriter->startElement('c:tx');
                $objWriter->startElement('c:strRef');
                $this->writePlotSeriesLabel($plotSeriesLabel,
$objWriter);
                $objWriter->endElement();
                $objWriter->endElement();
            }

            //    Formatting for the points
            if (($groupType == DataSeries::TYPE_LINECHART) || ($groupType
== DataSeries::TYPE_STOCKCHART)) {
                $plotLineWidth = 12700;
                if ($plotSeriesValues) {
                    $plotLineWidth = $plotSeriesValues->getLineWidth();
                }

                $objWriter->startElement('c:spPr');
                $objWriter->startElement('a:ln');
                $objWriter->writeAttribute('w',
$plotLineWidth);
                if ($groupType == DataSeries::TYPE_STOCKCHART) {
                    $objWriter->startElement('a:noFill');
                    $objWriter->endElement();
                }
                $objWriter->endElement();
                $objWriter->endElement();
            }

            if ($plotSeriesValues) {
                $plotSeriesMarker = $plotSeriesValues->getPointMarker();
                if ($plotSeriesMarker) {
                    $objWriter->startElement('c:marker');
                    $objWriter->startElement('c:symbol');
                    $objWriter->writeAttribute('val',
$plotSeriesMarker);
                    $objWriter->endElement();

                    if ($plotSeriesMarker !== 'none') {
                        $objWriter->startElement('c:size');
                        $objWriter->writeAttribute('val', 3);
                        $objWriter->endElement();
                    }

                    $objWriter->endElement();
                }
            }

            if (($groupType === DataSeries::TYPE_BARCHART) || ($groupType
=== DataSeries::TYPE_BARCHART_3D) || ($groupType ===
DataSeries::TYPE_BUBBLECHART)) {
               
$objWriter->startElement('c:invertIfNegative');
                $objWriter->writeAttribute('val', 0);
                $objWriter->endElement();
            }

            //    Category Labels
            $plotSeriesCategory =
$plotGroup->getPlotCategoryByIndex($plotSeriesRef);
            if ($plotSeriesCategory &&
($plotSeriesCategory->getPointCount() > 0)) {
                $catIsMultiLevelSeries = $catIsMultiLevelSeries ||
$plotSeriesCategory->isMultiLevelSeries();

                if (($groupType == DataSeries::TYPE_PIECHART) ||
($groupType == DataSeries::TYPE_PIECHART_3D) || ($groupType ==
DataSeries::TYPE_DONUTCHART)) {
                    if ($plotGroup->getPlotStyle() !== null) {
                        $plotStyle = $plotGroup->getPlotStyle();
                        if ($plotStyle) {
                           
$objWriter->startElement('c:explosion');
                            $objWriter->writeAttribute('val',
25);
                            $objWriter->endElement();
                        }
                    }
                }

                if (($groupType === DataSeries::TYPE_BUBBLECHART) ||
($groupType === DataSeries::TYPE_SCATTERCHART)) {
                    $objWriter->startElement('c:xVal');
                } else {
                    $objWriter->startElement('c:cat');
                }

                $this->writePlotSeriesValues($plotSeriesCategory,
$objWriter, $groupType, 'str');
                $objWriter->endElement();
            }

            //    Values
            if ($plotSeriesValues) {
                $valIsMultiLevelSeries = $valIsMultiLevelSeries ||
$plotSeriesValues->isMultiLevelSeries();

                if (($groupType === DataSeries::TYPE_BUBBLECHART) ||
($groupType === DataSeries::TYPE_SCATTERCHART)) {
                    $objWriter->startElement('c:yVal');
                } else {
                    $objWriter->startElement('c:val');
                }

                $this->writePlotSeriesValues($plotSeriesValues,
$objWriter, $groupType, 'num');
                $objWriter->endElement();
            }

            if ($groupType === DataSeries::TYPE_BUBBLECHART) {
                $this->writeBubbles($plotSeriesValues, $objWriter);
            }

            $objWriter->endElement();
        }

        $this->seriesIndex += $plotSeriesIdx + 1;
    }

    /**
     * Write Plot Series Label.
     *
     * @param DataSeriesValues $plotSeriesLabel
     * @param XMLWriter $objWriter XML Writer
     */
    private function writePlotSeriesLabel($plotSeriesLabel, $objWriter)
    {
        if ($plotSeriesLabel === null) {
            return;
        }

        $objWriter->startElement('c:f');
        $objWriter->writeRawData($plotSeriesLabel->getDataSource());
        $objWriter->endElement();

        $objWriter->startElement('c:strCache');
        $objWriter->startElement('c:ptCount');
        $objWriter->writeAttribute('val',
$plotSeriesLabel->getPointCount());
        $objWriter->endElement();

        foreach ($plotSeriesLabel->getDataValues() as $plotLabelKey
=> $plotLabelValue) {
            $objWriter->startElement('c:pt');
            $objWriter->writeAttribute('idx', $plotLabelKey);

            $objWriter->startElement('c:v');
            $objWriter->writeRawData($plotLabelValue);
            $objWriter->endElement();
            $objWriter->endElement();
        }
        $objWriter->endElement();
    }

    /**
     * Write Plot Series Values.
     *
     * @param DataSeriesValues $plotSeriesValues
     * @param XMLWriter $objWriter XML Writer
     * @param string $groupType Type of plot for dataseries
     * @param string $dataType Datatype of series values
     */
    private function writePlotSeriesValues($plotSeriesValues, XMLWriter
$objWriter, $groupType, $dataType = 'str')
    {
        if ($plotSeriesValues === null) {
            return;
        }

        if ($plotSeriesValues->isMultiLevelSeries()) {
            $levelCount = $plotSeriesValues->multiLevelCount();

            $objWriter->startElement('c:multiLvlStrRef');

            $objWriter->startElement('c:f');
           
$objWriter->writeRawData($plotSeriesValues->getDataSource());
            $objWriter->endElement();

            $objWriter->startElement('c:multiLvlStrCache');

            $objWriter->startElement('c:ptCount');
            $objWriter->writeAttribute('val',
$plotSeriesValues->getPointCount());
            $objWriter->endElement();

            for ($level = 0; $level < $levelCount; ++$level) {
                $objWriter->startElement('c:lvl');

                foreach ($plotSeriesValues->getDataValues() as
$plotSeriesKey => $plotSeriesValue) {
                    if (isset($plotSeriesValue[$level])) {
                        $objWriter->startElement('c:pt');
                        $objWriter->writeAttribute('idx',
$plotSeriesKey);

                        $objWriter->startElement('c:v');
                       
$objWriter->writeRawData($plotSeriesValue[$level]);
                        $objWriter->endElement();
                        $objWriter->endElement();
                    }
                }

                $objWriter->endElement();
            }

            $objWriter->endElement();

            $objWriter->endElement();
        } else {
            $objWriter->startElement('c:' . $dataType .
'Ref');

            $objWriter->startElement('c:f');
           
$objWriter->writeRawData($plotSeriesValues->getDataSource());
            $objWriter->endElement();

            $objWriter->startElement('c:' . $dataType .
'Cache');

            if (($groupType != DataSeries::TYPE_PIECHART) &&
($groupType != DataSeries::TYPE_PIECHART_3D) && ($groupType !=
DataSeries::TYPE_DONUTCHART)) {
                if (($plotSeriesValues->getFormatCode() !== null)
&& ($plotSeriesValues->getFormatCode() !== '')) {
                    $objWriter->startElement('c:formatCode');
                   
$objWriter->writeRawData($plotSeriesValues->getFormatCode());
                    $objWriter->endElement();
                }
            }

            $objWriter->startElement('c:ptCount');
            $objWriter->writeAttribute('val',
$plotSeriesValues->getPointCount());
            $objWriter->endElement();

            $dataValues = $plotSeriesValues->getDataValues();
            if (!empty($dataValues)) {
                if (is_array($dataValues)) {
                    foreach ($dataValues as $plotSeriesKey =>
$plotSeriesValue) {
                        $objWriter->startElement('c:pt');
                        $objWriter->writeAttribute('idx',
$plotSeriesKey);

                        $objWriter->startElement('c:v');
                        $objWriter->writeRawData($plotSeriesValue);
                        $objWriter->endElement();
                        $objWriter->endElement();
                    }
                }
            }

            $objWriter->endElement();

            $objWriter->endElement();
        }
    }

    /**
     * Write Bubble Chart Details.
     *
     * @param DataSeriesValues $plotSeriesValues
     * @param XMLWriter $objWriter XML Writer
     */
    private function writeBubbles($plotSeriesValues, $objWriter)
    {
        if ($plotSeriesValues === null) {
            return;
        }

        $objWriter->startElement('c:bubbleSize');
        $objWriter->startElement('c:numLit');

        $objWriter->startElement('c:formatCode');
        $objWriter->writeRawData('General');
        $objWriter->endElement();

        $objWriter->startElement('c:ptCount');
        $objWriter->writeAttribute('val',
$plotSeriesValues->getPointCount());
        $objWriter->endElement();

        $dataValues = $plotSeriesValues->getDataValues();
        if (!empty($dataValues)) {
            if (is_array($dataValues)) {
                foreach ($dataValues as $plotSeriesKey =>
$plotSeriesValue) {
                    $objWriter->startElement('c:pt');
                    $objWriter->writeAttribute('idx',
$plotSeriesKey);
                    $objWriter->startElement('c:v');
                    $objWriter->writeRawData(1);
                    $objWriter->endElement();
                    $objWriter->endElement();
                }
            }
        }

        $objWriter->endElement();
        $objWriter->endElement();

        $objWriter->startElement('c:bubble3D');
        $objWriter->writeAttribute('val', 0);
        $objWriter->endElement();
    }

    /**
     * Write Layout.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param Layout $layout
     */
    private function writeLayout(XMLWriter $objWriter, Layout $layout =
null)
    {
        $objWriter->startElement('c:layout');

        if ($layout !== null) {
            $objWriter->startElement('c:manualLayout');

            $layoutTarget = $layout->getLayoutTarget();
            if ($layoutTarget !== null) {
                $objWriter->startElement('c:layoutTarget');
                $objWriter->writeAttribute('val',
$layoutTarget);
                $objWriter->endElement();
            }

            $xMode = $layout->getXMode();
            if ($xMode !== null) {
                $objWriter->startElement('c:xMode');
                $objWriter->writeAttribute('val', $xMode);
                $objWriter->endElement();
            }

            $yMode = $layout->getYMode();
            if ($yMode !== null) {
                $objWriter->startElement('c:yMode');
                $objWriter->writeAttribute('val', $yMode);
                $objWriter->endElement();
            }

            $x = $layout->getXPosition();
            if ($x !== null) {
                $objWriter->startElement('c:x');
                $objWriter->writeAttribute('val', $x);
                $objWriter->endElement();
            }

            $y = $layout->getYPosition();
            if ($y !== null) {
                $objWriter->startElement('c:y');
                $objWriter->writeAttribute('val', $y);
                $objWriter->endElement();
            }

            $w = $layout->getWidth();
            if ($w !== null) {
                $objWriter->startElement('c:w');
                $objWriter->writeAttribute('val', $w);
                $objWriter->endElement();
            }

            $h = $layout->getHeight();
            if ($h !== null) {
                $objWriter->startElement('c:h');
                $objWriter->writeAttribute('val', $h);
                $objWriter->endElement();
            }

            $objWriter->endElement();
        }

        $objWriter->endElement();
    }

    /**
     * Write Alternate Content block.
     *
     * @param XMLWriter $objWriter XML Writer
     */
    private function writeAlternateContent($objWriter)
    {
        $objWriter->startElement('mc:AlternateContent');
        $objWriter->writeAttribute('xmlns:mc',
'http://schemas.openxmlformats.org/markup-compatibility/2006');

        $objWriter->startElement('mc:Choice');
        $objWriter->writeAttribute('xmlns:c14',
'http://schemas.microsoft.com/office/drawing/2007/8/2/chart');
        $objWriter->writeAttribute('Requires',
'c14');

        $objWriter->startElement('c14:style');
        $objWriter->writeAttribute('val', '102');
        $objWriter->endElement();
        $objWriter->endElement();

        $objWriter->startElement('mc:Fallback');
        $objWriter->startElement('c:style');
        $objWriter->writeAttribute('val', '2');
        $objWriter->endElement();
        $objWriter->endElement();

        $objWriter->endElement();
    }

    /**
     * Write Printer Settings.
     *
     * @param XMLWriter $objWriter XML Writer
     */
    private function writePrintSettings($objWriter)
    {
        $objWriter->startElement('c:printSettings');

        $objWriter->startElement('c:headerFooter');
        $objWriter->endElement();

        $objWriter->startElement('c:pageMargins');
        $objWriter->writeAttribute('footer', 0.3);
        $objWriter->writeAttribute('header', 0.3);
        $objWriter->writeAttribute('r', 0.7);
        $objWriter->writeAttribute('l', 0.7);
        $objWriter->writeAttribute('t', 0.75);
        $objWriter->writeAttribute('b', 0.75);
        $objWriter->endElement();

        $objWriter->startElement('c:pageSetup');
        $objWriter->writeAttribute('orientation',
'portrait');
        $objWriter->endElement();

        $objWriter->endElement();
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xlsx/Comments.php000064400000017726151165414060023261
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer\Xlsx;

use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\Comment;
use PhpOffice\PhpSpreadsheet\Shared\XMLWriter;

class Comments extends WriterPart
{
    /**
     * Write comments to XML format.
     *
     * @param \PhpOffice\PhpSpreadsheet\Worksheet\Worksheet $pWorksheet
     *
     * @throws \PhpOffice\PhpSpreadsheet\Writer\Exception
     *
     * @return string XML Output
     */
    public function
writeComments(\PhpOffice\PhpSpreadsheet\Worksheet\Worksheet $pWorksheet)
    {
        // Create XML writer
        $objWriter = null;
        if ($this->getParentWriter()->getUseDiskCaching()) {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_DISK,
$this->getParentWriter()->getDiskCachingDirectory());
        } else {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_MEMORY);
        }

        // XML header
        $objWriter->startDocument('1.0', 'UTF-8',
'yes');

        // Comments cache
        $comments = $pWorksheet->getComments();

        // Authors cache
        $authors = [];
        $authorId = 0;
        foreach ($comments as $comment) {
            if (!isset($authors[$comment->getAuthor()])) {
                $authors[$comment->getAuthor()] = $authorId++;
            }
        }

        // comments
        $objWriter->startElement('comments');
        $objWriter->writeAttribute('xmlns',
'http://schemas.openxmlformats.org/spreadsheetml/2006/main');

        // Loop through authors
        $objWriter->startElement('authors');
        foreach ($authors as $author => $index) {
            $objWriter->writeElement('author', $author);
        }
        $objWriter->endElement();

        // Loop through comments
        $objWriter->startElement('commentList');
        foreach ($comments as $key => $value) {
            $this->writeComment($objWriter, $key, $value, $authors);
        }
        $objWriter->endElement();

        $objWriter->endElement();

        // Return
        return $objWriter->getData();
    }

    /**
     * Write comment to XML format.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param string $pCellReference Cell reference
     * @param Comment $pComment Comment
     * @param array $pAuthors Array of authors
     *
     * @throws \PhpOffice\PhpSpreadsheet\Writer\Exception
     */
    private function writeComment(XMLWriter $objWriter, $pCellReference,
Comment $pComment, array $pAuthors)
    {
        // comment
        $objWriter->startElement('comment');
        $objWriter->writeAttribute('ref', $pCellReference);
        $objWriter->writeAttribute('authorId',
$pAuthors[$pComment->getAuthor()]);

        // text
        $objWriter->startElement('text');
       
$this->getParentWriter()->getWriterPart('stringtable')->writeRichText($objWriter,
$pComment->getText());
        $objWriter->endElement();

        $objWriter->endElement();
    }

    /**
     * Write VML comments to XML format.
     *
     * @param \PhpOffice\PhpSpreadsheet\Worksheet\Worksheet $pWorksheet
     *
     * @throws \PhpOffice\PhpSpreadsheet\Writer\Exception
     *
     * @return string XML Output
     */
    public function
writeVMLComments(\PhpOffice\PhpSpreadsheet\Worksheet\Worksheet $pWorksheet)
    {
        // Create XML writer
        $objWriter = null;
        if ($this->getParentWriter()->getUseDiskCaching()) {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_DISK,
$this->getParentWriter()->getDiskCachingDirectory());
        } else {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_MEMORY);
        }

        // XML header
        $objWriter->startDocument('1.0', 'UTF-8',
'yes');

        // Comments cache
        $comments = $pWorksheet->getComments();

        // xml
        $objWriter->startElement('xml');
        $objWriter->writeAttribute('xmlns:v',
'urn:schemas-microsoft-com:vml');
        $objWriter->writeAttribute('xmlns:o',
'urn:schemas-microsoft-com:office:office');
        $objWriter->writeAttribute('xmlns:x',
'urn:schemas-microsoft-com:office:excel');

        // o:shapelayout
        $objWriter->startElement('o:shapelayout');
        $objWriter->writeAttribute('v:ext', 'edit');

        // o:idmap
        $objWriter->startElement('o:idmap');
        $objWriter->writeAttribute('v:ext', 'edit');
        $objWriter->writeAttribute('data', '1');
        $objWriter->endElement();

        $objWriter->endElement();

        // v:shapetype
        $objWriter->startElement('v:shapetype');
        $objWriter->writeAttribute('id',
'_x0000_t202');
        $objWriter->writeAttribute('coordsize',
'21600,21600');
        $objWriter->writeAttribute('o:spt', '202');
        $objWriter->writeAttribute('path',
'm,l,21600r21600,l21600,xe');

        // v:stroke
        $objWriter->startElement('v:stroke');
        $objWriter->writeAttribute('joinstyle',
'miter');
        $objWriter->endElement();

        // v:path
        $objWriter->startElement('v:path');
        $objWriter->writeAttribute('gradientshapeok',
't');
        $objWriter->writeAttribute('o:connecttype',
'rect');
        $objWriter->endElement();

        $objWriter->endElement();

        // Loop through comments
        foreach ($comments as $key => $value) {
            $this->writeVMLComment($objWriter, $key, $value);
        }

        $objWriter->endElement();

        // Return
        return $objWriter->getData();
    }

    /**
     * Write VML comment to XML format.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param string $pCellReference Cell reference, eg: 'A1'
     * @param Comment $pComment Comment
     */
    private function writeVMLComment(XMLWriter $objWriter, $pCellReference,
Comment $pComment)
    {
        // Metadata
        [$column, $row] =
Coordinate::coordinateFromString($pCellReference);
        $column = Coordinate::columnIndexFromString($column);
        $id = 1024 + $column + $row;
        $id = substr($id, 0, 4);

        // v:shape
        $objWriter->startElement('v:shape');
        $objWriter->writeAttribute('id', '_x0000_s'
. $id);
        $objWriter->writeAttribute('type',
'#_x0000_t202');
        $objWriter->writeAttribute('style',
'position:absolute;margin-left:' . $pComment->getMarginLeft()
. ';margin-top:' . $pComment->getMarginTop() .
';width:' . $pComment->getWidth() . ';height:' .
$pComment->getHeight() . ';z-index:1;visibility:' .
($pComment->getVisible() ? 'visible' : 'hidden'));
        $objWriter->writeAttribute('fillcolor', '#'
. $pComment->getFillColor()->getRGB());
        $objWriter->writeAttribute('o:insetmode',
'auto');

        // v:fill
        $objWriter->startElement('v:fill');
        $objWriter->writeAttribute('color2', '#' .
$pComment->getFillColor()->getRGB());
        $objWriter->endElement();

        // v:shadow
        $objWriter->startElement('v:shadow');
        $objWriter->writeAttribute('on', 't');
        $objWriter->writeAttribute('color',
'black');
        $objWriter->writeAttribute('obscured', 't');
        $objWriter->endElement();

        // v:path
        $objWriter->startElement('v:path');
        $objWriter->writeAttribute('o:connecttype',
'none');
        $objWriter->endElement();

        // v:textbox
        $objWriter->startElement('v:textbox');
        $objWriter->writeAttribute('style',
'mso-direction-alt:auto');

        // div
        $objWriter->startElement('div');
        $objWriter->writeAttribute('style',
'text-align:left');
        $objWriter->endElement();

        $objWriter->endElement();

        // x:ClientData
        $objWriter->startElement('x:ClientData');
        $objWriter->writeAttribute('ObjectType',
'Note');

        // x:MoveWithCells
        $objWriter->writeElement('x:MoveWithCells',
'');

        // x:SizeWithCells
        $objWriter->writeElement('x:SizeWithCells',
'');

        // x:AutoFill
        $objWriter->writeElement('x:AutoFill',
'False');

        // x:Row
        $objWriter->writeElement('x:Row', ($row - 1));

        // x:Column
        $objWriter->writeElement('x:Column', ($column - 1));

        $objWriter->endElement();

        $objWriter->endElement();
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xlsx/ContentTypes.php000064400000025540151165414060024124
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer\Xlsx;

use PhpOffice\PhpSpreadsheet\Shared\File;
use PhpOffice\PhpSpreadsheet\Shared\XMLWriter;
use PhpOffice\PhpSpreadsheet\Spreadsheet;
use PhpOffice\PhpSpreadsheet\Worksheet\MemoryDrawing;
use PhpOffice\PhpSpreadsheet\Writer\Exception as WriterException;

class ContentTypes extends WriterPart
{
    /**
     * Write content types to XML format.
     *
     * @param Spreadsheet $spreadsheet
     * @param bool $includeCharts Flag indicating if we should include
drawing details for charts
     *
     * @throws WriterException
     *
     * @return string XML Output
     */
    public function writeContentTypes(Spreadsheet $spreadsheet,
$includeCharts = false)
    {
        // Create XML writer
        $objWriter = null;
        if ($this->getParentWriter()->getUseDiskCaching()) {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_DISK,
$this->getParentWriter()->getDiskCachingDirectory());
        } else {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_MEMORY);
        }

        // XML header
        $objWriter->startDocument('1.0', 'UTF-8',
'yes');

        // Types
        $objWriter->startElement('Types');
        $objWriter->writeAttribute('xmlns',
'http://schemas.openxmlformats.org/package/2006/content-types');

        // Theme
        $this->writeOverrideContentType($objWriter,
'/xl/theme/theme1.xml',
'application/vnd.openxmlformats-officedocument.theme+xml');

        // Styles
        $this->writeOverrideContentType($objWriter,
'/xl/styles.xml',
'application/vnd.openxmlformats-officedocument.spreadsheetml.styles+xml');

        // Rels
        $this->writeDefaultContentType($objWriter, 'rels',
'application/vnd.openxmlformats-package.relationships+xml');

        // XML
        $this->writeDefaultContentType($objWriter, 'xml',
'application/xml');

        // VML
        $this->writeDefaultContentType($objWriter, 'vml',
'application/vnd.openxmlformats-officedocument.vmlDrawing');

        // Workbook
        if ($spreadsheet->hasMacros()) { //Macros in workbook ?
            // Yes : not standard content but "macroEnabled"
            $this->writeOverrideContentType($objWriter,
'/xl/workbook.xml',
'application/vnd.ms-excel.sheet.macroEnabled.main+xml');
            //... and define a new type for the VBA project
            // Better use Override, because we can use 'bin' also
for xl\printerSettings\printerSettings1.bin
            $this->writeOverrideContentType($objWriter,
'/xl/vbaProject.bin',
'application/vnd.ms-office.vbaProject');
            if ($spreadsheet->hasMacrosCertificate()) {
                // signed macros ?
                // Yes : add needed information
                $this->writeOverrideContentType($objWriter,
'/xl/vbaProjectSignature.bin',
'application/vnd.ms-office.vbaProjectSignature');
            }
        } else {
            // no macros in workbook, so standard type
            $this->writeOverrideContentType($objWriter,
'/xl/workbook.xml',
'application/vnd.openxmlformats-officedocument.spreadsheetml.sheet.main+xml');
        }

        // DocProps
        $this->writeOverrideContentType($objWriter,
'/docProps/app.xml',
'application/vnd.openxmlformats-officedocument.extended-properties+xml');

        $this->writeOverrideContentType($objWriter,
'/docProps/core.xml',
'application/vnd.openxmlformats-package.core-properties+xml');

        $customPropertyList =
$spreadsheet->getProperties()->getCustomProperties();
        if (!empty($customPropertyList)) {
            $this->writeOverrideContentType($objWriter,
'/docProps/custom.xml',
'application/vnd.openxmlformats-officedocument.custom-properties+xml');
        }

        // Worksheets
        $sheetCount = $spreadsheet->getSheetCount();
        for ($i = 0; $i < $sheetCount; ++$i) {
            $this->writeOverrideContentType($objWriter,
'/xl/worksheets/sheet' . ($i + 1) . '.xml',
'application/vnd.openxmlformats-officedocument.spreadsheetml.worksheet+xml');
        }

        // Shared strings
        $this->writeOverrideContentType($objWriter,
'/xl/sharedStrings.xml',
'application/vnd.openxmlformats-officedocument.spreadsheetml.sharedStrings+xml');

        // Add worksheet relationship content types
        $unparsedLoadedData = $spreadsheet->getUnparsedLoadedData();
        $chart = 1;
        for ($i = 0; $i < $sheetCount; ++$i) {
            $drawings =
$spreadsheet->getSheet($i)->getDrawingCollection();
            $drawingCount = count($drawings);
            $chartCount = ($includeCharts) ?
$spreadsheet->getSheet($i)->getChartCount() : 0;
            $hasUnparsedDrawing =
isset($unparsedLoadedData['sheets'][$spreadsheet->getSheet($i)->getCodeName()]['drawingOriginalIds']);

            //    We need a drawing relationship for the worksheet if we
have either drawings or charts
            if (($drawingCount > 0) || ($chartCount > 0) ||
$hasUnparsedDrawing) {
                $this->writeOverrideContentType($objWriter,
'/xl/drawings/drawing' . ($i + 1) . '.xml',
'application/vnd.openxmlformats-officedocument.drawing+xml');
            }

            //    If we have charts, then we need a chart relationship for
every individual chart
            if ($chartCount > 0) {
                for ($c = 0; $c < $chartCount; ++$c) {
                    $this->writeOverrideContentType($objWriter,
'/xl/charts/chart' . $chart++ . '.xml',
'application/vnd.openxmlformats-officedocument.drawingml.chart+xml');
                }
            }
        }

        // Comments
        for ($i = 0; $i < $sheetCount; ++$i) {
            if (count($spreadsheet->getSheet($i)->getComments()) >
0) {
                $this->writeOverrideContentType($objWriter,
'/xl/comments' . ($i + 1) . '.xml',
'application/vnd.openxmlformats-officedocument.spreadsheetml.comments+xml');
            }
        }

        // Add media content-types
        $aMediaContentTypes = [];
        $mediaCount =
$this->getParentWriter()->getDrawingHashTable()->count();
        for ($i = 0; $i < $mediaCount; ++$i) {
            $extension = '';
            $mimeType = '';

            if
($this->getParentWriter()->getDrawingHashTable()->getByIndex($i)
instanceof \PhpOffice\PhpSpreadsheet\Worksheet\Drawing) {
                $extension =
strtolower($this->getParentWriter()->getDrawingHashTable()->getByIndex($i)->getExtension());
                $mimeType =
$this->getImageMimeType($this->getParentWriter()->getDrawingHashTable()->getByIndex($i)->getPath());
            } elseif
($this->getParentWriter()->getDrawingHashTable()->getByIndex($i)
instanceof MemoryDrawing) {
                $extension =
strtolower($this->getParentWriter()->getDrawingHashTable()->getByIndex($i)->getMimeType());
                $extension = explode('/', $extension);
                $extension = $extension[1];

                $mimeType =
$this->getParentWriter()->getDrawingHashTable()->getByIndex($i)->getMimeType();
            }

            if (!isset($aMediaContentTypes[$extension])) {
                $aMediaContentTypes[$extension] = $mimeType;

                $this->writeDefaultContentType($objWriter, $extension,
$mimeType);
            }
        }
        if ($spreadsheet->hasRibbonBinObjects()) {
            // Some additional objects in the ribbon ?
            // we need to write "Extension" but not already write
for media content
            $tabRibbonTypes =
array_diff($spreadsheet->getRibbonBinObjects('types'),
array_keys($aMediaContentTypes));
            foreach ($tabRibbonTypes as $aRibbonType) {
                $mimeType = 'image/.' . $aRibbonType; //we wrote
$mimeType like customUI Editor
                $this->writeDefaultContentType($objWriter, $aRibbonType,
$mimeType);
            }
        }
        $sheetCount = $spreadsheet->getSheetCount();
        for ($i = 0; $i < $sheetCount; ++$i) {
            if
(count($spreadsheet->getSheet($i)->getHeaderFooter()->getImages())
> 0) {
                foreach
($spreadsheet->getSheet($i)->getHeaderFooter()->getImages() as
$image) {
                    if
(!isset($aMediaContentTypes[strtolower($image->getExtension())])) {
                       
$aMediaContentTypes[strtolower($image->getExtension())] =
$this->getImageMimeType($image->getPath());

                        $this->writeDefaultContentType($objWriter,
strtolower($image->getExtension()),
$aMediaContentTypes[strtolower($image->getExtension())]);
                    }
                }
            }
        }

        // unparsed defaults
        if (isset($unparsedLoadedData['default_content_types']))
{
            foreach ($unparsedLoadedData['default_content_types']
as $extName => $contentType) {
                $this->writeDefaultContentType($objWriter, $extName,
$contentType);
            }
        }

        // unparsed overrides
        if (isset($unparsedLoadedData['override_content_types']))
{
            foreach
($unparsedLoadedData['override_content_types'] as $partName =>
$overrideType) {
                $this->writeOverrideContentType($objWriter, $partName,
$overrideType);
            }
        }

        $objWriter->endElement();

        // Return
        return $objWriter->getData();
    }

    /**
     * Get image mime type.
     *
     * @param string $pFile Filename
     *
     * @throws WriterException
     *
     * @return string Mime Type
     */
    private function getImageMimeType($pFile)
    {
        if (File::fileExists($pFile)) {
            $image = getimagesize($pFile);

            return image_type_to_mime_type($image[2]);
        }

        throw new WriterException("File $pFile does not exist");
    }

    /**
     * Write Default content type.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param string $pPartname Part name
     * @param string $pContentType Content type
     *
     * @throws WriterException
     */
    private function writeDefaultContentType(XMLWriter $objWriter,
$pPartname, $pContentType)
    {
        if ($pPartname != '' && $pContentType !=
'') {
            // Write content type
            $objWriter->startElement('Default');
            $objWriter->writeAttribute('Extension',
$pPartname);
            $objWriter->writeAttribute('ContentType',
$pContentType);
            $objWriter->endElement();
        } else {
            throw new WriterException('Invalid parameters
passed.');
        }
    }

    /**
     * Write Override content type.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param string $pPartname Part name
     * @param string $pContentType Content type
     *
     * @throws WriterException
     */
    private function writeOverrideContentType(XMLWriter $objWriter,
$pPartname, $pContentType)
    {
        if ($pPartname != '' && $pContentType !=
'') {
            // Write content type
            $objWriter->startElement('Override');
            $objWriter->writeAttribute('PartName',
$pPartname);
            $objWriter->writeAttribute('ContentType',
$pContentType);
            $objWriter->endElement();
        } else {
            throw new WriterException('Invalid parameters
passed.');
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xlsx/DocProps.php000064400000020766151165414060023223
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer\Xlsx;

use PhpOffice\PhpSpreadsheet\Shared\XMLWriter;
use PhpOffice\PhpSpreadsheet\Spreadsheet;

class DocProps extends WriterPart
{
    /**
     * Write docProps/app.xml to XML format.
     *
     * @param Spreadsheet $spreadsheet
     *
     * @throws \PhpOffice\PhpSpreadsheet\Writer\Exception
     *
     * @return string XML Output
     */
    public function writeDocPropsApp(Spreadsheet $spreadsheet)
    {
        // Create XML writer
        $objWriter = null;
        if ($this->getParentWriter()->getUseDiskCaching()) {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_DISK,
$this->getParentWriter()->getDiskCachingDirectory());
        } else {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_MEMORY);
        }

        // XML header
        $objWriter->startDocument('1.0', 'UTF-8',
'yes');

        // Properties
        $objWriter->startElement('Properties');
        $objWriter->writeAttribute('xmlns',
'http://schemas.openxmlformats.org/officeDocument/2006/extended-properties');
        $objWriter->writeAttribute('xmlns:vt',
'http://schemas.openxmlformats.org/officeDocument/2006/docPropsVTypes');

        // Application
        $objWriter->writeElement('Application',
'Microsoft Excel');

        // DocSecurity
        $objWriter->writeElement('DocSecurity',
'0');

        // ScaleCrop
        $objWriter->writeElement('ScaleCrop',
'false');

        // HeadingPairs
        $objWriter->startElement('HeadingPairs');

        // Vector
        $objWriter->startElement('vt:vector');
        $objWriter->writeAttribute('size', '2');
        $objWriter->writeAttribute('baseType',
'variant');

        // Variant
        $objWriter->startElement('vt:variant');
        $objWriter->writeElement('vt:lpstr',
'Worksheets');
        $objWriter->endElement();

        // Variant
        $objWriter->startElement('vt:variant');
        $objWriter->writeElement('vt:i4',
$spreadsheet->getSheetCount());
        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        // TitlesOfParts
        $objWriter->startElement('TitlesOfParts');

        // Vector
        $objWriter->startElement('vt:vector');
        $objWriter->writeAttribute('size',
$spreadsheet->getSheetCount());
        $objWriter->writeAttribute('baseType',
'lpstr');

        $sheetCount = $spreadsheet->getSheetCount();
        for ($i = 0; $i < $sheetCount; ++$i) {
            $objWriter->writeElement('vt:lpstr',
$spreadsheet->getSheet($i)->getTitle());
        }

        $objWriter->endElement();

        $objWriter->endElement();

        // Company
        $objWriter->writeElement('Company',
$spreadsheet->getProperties()->getCompany());

        // Company
        $objWriter->writeElement('Manager',
$spreadsheet->getProperties()->getManager());

        // LinksUpToDate
        $objWriter->writeElement('LinksUpToDate',
'false');

        // SharedDoc
        $objWriter->writeElement('SharedDoc',
'false');

        // HyperlinksChanged
        $objWriter->writeElement('HyperlinksChanged',
'false');

        // AppVersion
        $objWriter->writeElement('AppVersion',
'12.0000');

        $objWriter->endElement();

        // Return
        return $objWriter->getData();
    }

    /**
     * Write docProps/core.xml to XML format.
     *
     * @param Spreadsheet $spreadsheet
     *
     * @throws \PhpOffice\PhpSpreadsheet\Writer\Exception
     *
     * @return string XML Output
     */
    public function writeDocPropsCore(Spreadsheet $spreadsheet)
    {
        // Create XML writer
        $objWriter = null;
        if ($this->getParentWriter()->getUseDiskCaching()) {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_DISK,
$this->getParentWriter()->getDiskCachingDirectory());
        } else {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_MEMORY);
        }

        // XML header
        $objWriter->startDocument('1.0', 'UTF-8',
'yes');

        // cp:coreProperties
        $objWriter->startElement('cp:coreProperties');
        $objWriter->writeAttribute('xmlns:cp',
'http://schemas.openxmlformats.org/package/2006/metadata/core-properties');
        $objWriter->writeAttribute('xmlns:dc',
'http://purl.org/dc/elements/1.1/');
        $objWriter->writeAttribute('xmlns:dcterms',
'http://purl.org/dc/terms/');
        $objWriter->writeAttribute('xmlns:dcmitype',
'http://purl.org/dc/dcmitype/');
        $objWriter->writeAttribute('xmlns:xsi',
'http://www.w3.org/2001/XMLSchema-instance');

        // dc:creator
        $objWriter->writeElement('dc:creator',
$spreadsheet->getProperties()->getCreator());

        // cp:lastModifiedBy
        $objWriter->writeElement('cp:lastModifiedBy',
$spreadsheet->getProperties()->getLastModifiedBy());

        // dcterms:created
        $objWriter->startElement('dcterms:created');
        $objWriter->writeAttribute('xsi:type',
'dcterms:W3CDTF');
        $objWriter->writeRawData(date(DATE_W3C,
$spreadsheet->getProperties()->getCreated()));
        $objWriter->endElement();

        // dcterms:modified
        $objWriter->startElement('dcterms:modified');
        $objWriter->writeAttribute('xsi:type',
'dcterms:W3CDTF');
        $objWriter->writeRawData(date(DATE_W3C,
$spreadsheet->getProperties()->getModified()));
        $objWriter->endElement();

        // dc:title
        $objWriter->writeElement('dc:title',
$spreadsheet->getProperties()->getTitle());

        // dc:description
        $objWriter->writeElement('dc:description',
$spreadsheet->getProperties()->getDescription());

        // dc:subject
        $objWriter->writeElement('dc:subject',
$spreadsheet->getProperties()->getSubject());

        // cp:keywords
        $objWriter->writeElement('cp:keywords',
$spreadsheet->getProperties()->getKeywords());

        // cp:category
        $objWriter->writeElement('cp:category',
$spreadsheet->getProperties()->getCategory());

        $objWriter->endElement();

        // Return
        return $objWriter->getData();
    }

    /**
     * Write docProps/custom.xml to XML format.
     *
     * @param Spreadsheet $spreadsheet
     *
     * @throws \PhpOffice\PhpSpreadsheet\Writer\Exception
     *
     * @return string XML Output
     */
    public function writeDocPropsCustom(Spreadsheet $spreadsheet)
    {
        $customPropertyList =
$spreadsheet->getProperties()->getCustomProperties();
        if (empty($customPropertyList)) {
            return;
        }

        // Create XML writer
        $objWriter = null;
        if ($this->getParentWriter()->getUseDiskCaching()) {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_DISK,
$this->getParentWriter()->getDiskCachingDirectory());
        } else {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_MEMORY);
        }

        // XML header
        $objWriter->startDocument('1.0', 'UTF-8',
'yes');

        // cp:coreProperties
        $objWriter->startElement('Properties');
        $objWriter->writeAttribute('xmlns',
'http://schemas.openxmlformats.org/officeDocument/2006/custom-properties');
        $objWriter->writeAttribute('xmlns:vt',
'http://schemas.openxmlformats.org/officeDocument/2006/docPropsVTypes');

        foreach ($customPropertyList as $key => $customProperty) {
            $propertyValue =
$spreadsheet->getProperties()->getCustomPropertyValue($customProperty);
            $propertyType =
$spreadsheet->getProperties()->getCustomPropertyType($customProperty);

            $objWriter->startElement('property');
            $objWriter->writeAttribute('fmtid',
'{D5CDD505-2E9C-101B-9397-08002B2CF9AE}');
            $objWriter->writeAttribute('pid', $key + 2);
            $objWriter->writeAttribute('name',
$customProperty);

            switch ($propertyType) {
                case 'i':
                    $objWriter->writeElement('vt:i4',
$propertyValue);

                    break;
                case 'f':
                    $objWriter->writeElement('vt:r8',
$propertyValue);

                    break;
                case 'b':
                    $objWriter->writeElement('vt:bool',
($propertyValue) ? 'true' : 'false');

                    break;
                case 'd':
                    $objWriter->startElement('vt:filetime');
                    $objWriter->writeRawData(date(DATE_W3C,
$propertyValue));
                    $objWriter->endElement();

                    break;
                default:
                    $objWriter->writeElement('vt:lpwstr',
$propertyValue);

                    break;
            }

            $objWriter->endElement();
        }

        $objWriter->endElement();

        return $objWriter->getData();
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xlsx/Drawing.php000064400000046076151165414060023067
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer\Xlsx;

use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\Shared\XMLWriter;
use PhpOffice\PhpSpreadsheet\Spreadsheet;
use PhpOffice\PhpSpreadsheet\Worksheet\BaseDrawing;
use PhpOffice\PhpSpreadsheet\Worksheet\HeaderFooterDrawing;
use PhpOffice\PhpSpreadsheet\Writer\Exception as WriterException;

class Drawing extends WriterPart
{
    /**
     * Write drawings to XML format.
     *
     * @param \PhpOffice\PhpSpreadsheet\Worksheet\Worksheet $pWorksheet
     * @param bool $includeCharts Flag indicating if we should include
drawing details for charts
     *
     * @throws WriterException
     *
     * @return string XML Output
     */
    public function
writeDrawings(\PhpOffice\PhpSpreadsheet\Worksheet\Worksheet $pWorksheet,
$includeCharts = false)
    {
        // Create XML writer
        $objWriter = null;
        if ($this->getParentWriter()->getUseDiskCaching()) {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_DISK,
$this->getParentWriter()->getDiskCachingDirectory());
        } else {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_MEMORY);
        }

        // XML header
        $objWriter->startDocument('1.0', 'UTF-8',
'yes');

        // xdr:wsDr
        $objWriter->startElement('xdr:wsDr');
        $objWriter->writeAttribute('xmlns:xdr',
'http://schemas.openxmlformats.org/drawingml/2006/spreadsheetDrawing');
        $objWriter->writeAttribute('xmlns:a',
'http://schemas.openxmlformats.org/drawingml/2006/main');

        // Loop through images and write drawings
        $i = 1;
        $iterator =
$pWorksheet->getDrawingCollection()->getIterator();
        while ($iterator->valid()) {
            /** @var BaseDrawing $pDrawing */
            $pDrawing = $iterator->current();
            $pRelationId = $i;
            $hlinkClickId = $pDrawing->getHyperlink() === null ? null :
++$i;

            $this->writeDrawing($objWriter, $pDrawing, $pRelationId,
$hlinkClickId);

            $iterator->next();
            ++$i;
        }

        if ($includeCharts) {
            $chartCount = $pWorksheet->getChartCount();
            // Loop through charts and write the chart position
            if ($chartCount > 0) {
                for ($c = 0; $c < $chartCount; ++$c) {
                    $this->writeChart($objWriter,
$pWorksheet->getChartByIndex($c), $c + $i);
                }
            }
        }

        // unparsed AlternateContent
        $unparsedLoadedData =
$pWorksheet->getParent()->getUnparsedLoadedData();
        if
(isset($unparsedLoadedData['sheets'][$pWorksheet->getCodeName()]['drawingAlternateContents']))
{
            foreach
($unparsedLoadedData['sheets'][$pWorksheet->getCodeName()]['drawingAlternateContents']
as $drawingAlternateContent) {
                $objWriter->writeRaw($drawingAlternateContent);
            }
        }

        $objWriter->endElement();

        // Return
        return $objWriter->getData();
    }

    /**
     * Write drawings to XML format.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param \PhpOffice\PhpSpreadsheet\Chart\Chart $pChart
     * @param int $pRelationId
     */
    public function writeChart(XMLWriter $objWriter,
\PhpOffice\PhpSpreadsheet\Chart\Chart $pChart, $pRelationId = -1)
    {
        $tl = $pChart->getTopLeftPosition();
        $tl['colRow'] =
Coordinate::coordinateFromString($tl['cell']);
        $br = $pChart->getBottomRightPosition();
        $br['colRow'] =
Coordinate::coordinateFromString($br['cell']);

        $objWriter->startElement('xdr:twoCellAnchor');

        $objWriter->startElement('xdr:from');
        $objWriter->writeElement('xdr:col',
Coordinate::columnIndexFromString($tl['colRow'][0]) - 1);
        $objWriter->writeElement('xdr:colOff',
\PhpOffice\PhpSpreadsheet\Shared\Drawing::pixelsToEMU($tl['xOffset']));
        $objWriter->writeElement('xdr:row',
$tl['colRow'][1] - 1);
        $objWriter->writeElement('xdr:rowOff',
\PhpOffice\PhpSpreadsheet\Shared\Drawing::pixelsToEMU($tl['yOffset']));
        $objWriter->endElement();
        $objWriter->startElement('xdr:to');
        $objWriter->writeElement('xdr:col',
Coordinate::columnIndexFromString($br['colRow'][0]) - 1);
        $objWriter->writeElement('xdr:colOff',
\PhpOffice\PhpSpreadsheet\Shared\Drawing::pixelsToEMU($br['xOffset']));
        $objWriter->writeElement('xdr:row',
$br['colRow'][1] - 1);
        $objWriter->writeElement('xdr:rowOff',
\PhpOffice\PhpSpreadsheet\Shared\Drawing::pixelsToEMU($br['yOffset']));
        $objWriter->endElement();

        $objWriter->startElement('xdr:graphicFrame');
        $objWriter->writeAttribute('macro', '');
        $objWriter->startElement('xdr:nvGraphicFramePr');
        $objWriter->startElement('xdr:cNvPr');
        $objWriter->writeAttribute('name', 'Chart '
. $pRelationId);
        $objWriter->writeAttribute('id', 1025 * $pRelationId);
        $objWriter->endElement();
        $objWriter->startElement('xdr:cNvGraphicFramePr');
        $objWriter->startElement('a:graphicFrameLocks');
        $objWriter->endElement();
        $objWriter->endElement();
        $objWriter->endElement();

        $objWriter->startElement('xdr:xfrm');
        $objWriter->startElement('a:off');
        $objWriter->writeAttribute('x', '0');
        $objWriter->writeAttribute('y', '0');
        $objWriter->endElement();
        $objWriter->startElement('a:ext');
        $objWriter->writeAttribute('cx', '0');
        $objWriter->writeAttribute('cy', '0');
        $objWriter->endElement();
        $objWriter->endElement();

        $objWriter->startElement('a:graphic');
        $objWriter->startElement('a:graphicData');
        $objWriter->writeAttribute('uri',
'http://schemas.openxmlformats.org/drawingml/2006/chart');
        $objWriter->startElement('c:chart');
        $objWriter->writeAttribute('xmlns:c',
'http://schemas.openxmlformats.org/drawingml/2006/chart');
        $objWriter->writeAttribute('xmlns:r',
'http://schemas.openxmlformats.org/officeDocument/2006/relationships');
        $objWriter->writeAttribute('r:id', 'rId' .
$pRelationId);
        $objWriter->endElement();
        $objWriter->endElement();
        $objWriter->endElement();
        $objWriter->endElement();

        $objWriter->startElement('xdr:clientData');
        $objWriter->endElement();

        $objWriter->endElement();
    }

    /**
     * Write drawings to XML format.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param BaseDrawing $pDrawing
     * @param int $pRelationId
     * @param null|int $hlinkClickId
     *
     * @throws WriterException
     */
    public function writeDrawing(XMLWriter $objWriter, BaseDrawing
$pDrawing, $pRelationId = -1, $hlinkClickId = null)
    {
        if ($pRelationId >= 0) {
            // xdr:oneCellAnchor
            $objWriter->startElement('xdr:oneCellAnchor');
            // Image location
            $aCoordinates =
Coordinate::coordinateFromString($pDrawing->getCoordinates());
            $aCoordinates[0] =
Coordinate::columnIndexFromString($aCoordinates[0]);

            // xdr:from
            $objWriter->startElement('xdr:from');
            $objWriter->writeElement('xdr:col',
$aCoordinates[0] - 1);
            $objWriter->writeElement('xdr:colOff',
\PhpOffice\PhpSpreadsheet\Shared\Drawing::pixelsToEMU($pDrawing->getOffsetX()));
            $objWriter->writeElement('xdr:row',
$aCoordinates[1] - 1);
            $objWriter->writeElement('xdr:rowOff',
\PhpOffice\PhpSpreadsheet\Shared\Drawing::pixelsToEMU($pDrawing->getOffsetY()));
            $objWriter->endElement();

            // xdr:ext
            $objWriter->startElement('xdr:ext');
            $objWriter->writeAttribute('cx',
\PhpOffice\PhpSpreadsheet\Shared\Drawing::pixelsToEMU($pDrawing->getWidth()));
            $objWriter->writeAttribute('cy',
\PhpOffice\PhpSpreadsheet\Shared\Drawing::pixelsToEMU($pDrawing->getHeight()));
            $objWriter->endElement();

            // xdr:pic
            $objWriter->startElement('xdr:pic');

            // xdr:nvPicPr
            $objWriter->startElement('xdr:nvPicPr');

            // xdr:cNvPr
            $objWriter->startElement('xdr:cNvPr');
            $objWriter->writeAttribute('id', $pRelationId);
            $objWriter->writeAttribute('name',
$pDrawing->getName());
            $objWriter->writeAttribute('descr',
$pDrawing->getDescription());

            //a:hlinkClick
            $this->writeHyperLinkDrawing($objWriter, $hlinkClickId);

            $objWriter->endElement();

            // xdr:cNvPicPr
            $objWriter->startElement('xdr:cNvPicPr');

            // a:picLocks
            $objWriter->startElement('a:picLocks');
            $objWriter->writeAttribute('noChangeAspect',
'1');
            $objWriter->endElement();

            $objWriter->endElement();

            $objWriter->endElement();

            // xdr:blipFill
            $objWriter->startElement('xdr:blipFill');

            // a:blip
            $objWriter->startElement('a:blip');
            $objWriter->writeAttribute('xmlns:r',
'http://schemas.openxmlformats.org/officeDocument/2006/relationships');
            $objWriter->writeAttribute('r:embed',
'rId' . $pRelationId);
            $objWriter->endElement();

            // a:stretch
            $objWriter->startElement('a:stretch');
            $objWriter->writeElement('a:fillRect', null);
            $objWriter->endElement();

            $objWriter->endElement();

            // xdr:spPr
            $objWriter->startElement('xdr:spPr');

            // a:xfrm
            $objWriter->startElement('a:xfrm');
            $objWriter->writeAttribute('rot',
\PhpOffice\PhpSpreadsheet\Shared\Drawing::degreesToAngle($pDrawing->getRotation()));
            $objWriter->endElement();

            // a:prstGeom
            $objWriter->startElement('a:prstGeom');
            $objWriter->writeAttribute('prst',
'rect');

            // a:avLst
            $objWriter->writeElement('a:avLst', null);

            $objWriter->endElement();

            if ($pDrawing->getShadow()->getVisible()) {
                // a:effectLst
                $objWriter->startElement('a:effectLst');

                // a:outerShdw
                $objWriter->startElement('a:outerShdw');
                $objWriter->writeAttribute('blurRad',
\PhpOffice\PhpSpreadsheet\Shared\Drawing::pixelsToEMU($pDrawing->getShadow()->getBlurRadius()));
                $objWriter->writeAttribute('dist',
\PhpOffice\PhpSpreadsheet\Shared\Drawing::pixelsToEMU($pDrawing->getShadow()->getDistance()));
                $objWriter->writeAttribute('dir',
\PhpOffice\PhpSpreadsheet\Shared\Drawing::degreesToAngle($pDrawing->getShadow()->getDirection()));
                $objWriter->writeAttribute('algn',
$pDrawing->getShadow()->getAlignment());
                $objWriter->writeAttribute('rotWithShape',
'0');

                // a:srgbClr
                $objWriter->startElement('a:srgbClr');
                $objWriter->writeAttribute('val',
$pDrawing->getShadow()->getColor()->getRGB());

                // a:alpha
                $objWriter->startElement('a:alpha');
                $objWriter->writeAttribute('val',
$pDrawing->getShadow()->getAlpha() * 1000);
                $objWriter->endElement();

                $objWriter->endElement();

                $objWriter->endElement();

                $objWriter->endElement();
            }
            $objWriter->endElement();

            $objWriter->endElement();

            // xdr:clientData
            $objWriter->writeElement('xdr:clientData', null);

            $objWriter->endElement();
        } else {
            throw new WriterException('Invalid parameters
passed.');
        }
    }

    /**
     * Write VML header/footer images to XML format.
     *
     * @param \PhpOffice\PhpSpreadsheet\Worksheet\Worksheet $pWorksheet
     *
     * @throws WriterException
     *
     * @return string XML Output
     */
    public function
writeVMLHeaderFooterImages(\PhpOffice\PhpSpreadsheet\Worksheet\Worksheet
$pWorksheet)
    {
        // Create XML writer
        $objWriter = null;
        if ($this->getParentWriter()->getUseDiskCaching()) {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_DISK,
$this->getParentWriter()->getDiskCachingDirectory());
        } else {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_MEMORY);
        }

        // XML header
        $objWriter->startDocument('1.0', 'UTF-8',
'yes');

        // Header/footer images
        $images = $pWorksheet->getHeaderFooter()->getImages();

        // xml
        $objWriter->startElement('xml');
        $objWriter->writeAttribute('xmlns:v',
'urn:schemas-microsoft-com:vml');
        $objWriter->writeAttribute('xmlns:o',
'urn:schemas-microsoft-com:office:office');
        $objWriter->writeAttribute('xmlns:x',
'urn:schemas-microsoft-com:office:excel');

        // o:shapelayout
        $objWriter->startElement('o:shapelayout');
        $objWriter->writeAttribute('v:ext', 'edit');

        // o:idmap
        $objWriter->startElement('o:idmap');
        $objWriter->writeAttribute('v:ext', 'edit');
        $objWriter->writeAttribute('data', '1');
        $objWriter->endElement();

        $objWriter->endElement();

        // v:shapetype
        $objWriter->startElement('v:shapetype');
        $objWriter->writeAttribute('id',
'_x0000_t75');
        $objWriter->writeAttribute('coordsize',
'21600,21600');
        $objWriter->writeAttribute('o:spt', '75');
        $objWriter->writeAttribute('o:preferrelative',
't');
        $objWriter->writeAttribute('path',
'm@4@5l@4@11@9@11@9@5xe');
        $objWriter->writeAttribute('filled', 'f');
        $objWriter->writeAttribute('stroked', 'f');

        // v:stroke
        $objWriter->startElement('v:stroke');
        $objWriter->writeAttribute('joinstyle',
'miter');
        $objWriter->endElement();

        // v:formulas
        $objWriter->startElement('v:formulas');

        // v:f
        $objWriter->startElement('v:f');
        $objWriter->writeAttribute('eqn', 'if lineDrawn
pixelLineWidth 0');
        $objWriter->endElement();

        // v:f
        $objWriter->startElement('v:f');
        $objWriter->writeAttribute('eqn', 'sum @0 1
0');
        $objWriter->endElement();

        // v:f
        $objWriter->startElement('v:f');
        $objWriter->writeAttribute('eqn', 'sum 0 0
@1');
        $objWriter->endElement();

        // v:f
        $objWriter->startElement('v:f');
        $objWriter->writeAttribute('eqn', 'prod @2 1
2');
        $objWriter->endElement();

        // v:f
        $objWriter->startElement('v:f');
        $objWriter->writeAttribute('eqn', 'prod @3 21600
pixelWidth');
        $objWriter->endElement();

        // v:f
        $objWriter->startElement('v:f');
        $objWriter->writeAttribute('eqn', 'prod @3 21600
pixelHeight');
        $objWriter->endElement();

        // v:f
        $objWriter->startElement('v:f');
        $objWriter->writeAttribute('eqn', 'sum @0 0
1');
        $objWriter->endElement();

        // v:f
        $objWriter->startElement('v:f');
        $objWriter->writeAttribute('eqn', 'prod @6 1
2');
        $objWriter->endElement();

        // v:f
        $objWriter->startElement('v:f');
        $objWriter->writeAttribute('eqn', 'prod @7 21600
pixelWidth');
        $objWriter->endElement();

        // v:f
        $objWriter->startElement('v:f');
        $objWriter->writeAttribute('eqn', 'sum @8 21600
0');
        $objWriter->endElement();

        // v:f
        $objWriter->startElement('v:f');
        $objWriter->writeAttribute('eqn', 'prod @7 21600
pixelHeight');
        $objWriter->endElement();

        // v:f
        $objWriter->startElement('v:f');
        $objWriter->writeAttribute('eqn', 'sum @10 21600
0');
        $objWriter->endElement();

        $objWriter->endElement();

        // v:path
        $objWriter->startElement('v:path');
        $objWriter->writeAttribute('o:extrusionok',
'f');
        $objWriter->writeAttribute('gradientshapeok',
't');
        $objWriter->writeAttribute('o:connecttype',
'rect');
        $objWriter->endElement();

        // o:lock
        $objWriter->startElement('o:lock');
        $objWriter->writeAttribute('v:ext', 'edit');
        $objWriter->writeAttribute('aspectratio',
't');
        $objWriter->endElement();

        $objWriter->endElement();

        // Loop through images
        foreach ($images as $key => $value) {
            $this->writeVMLHeaderFooterImage($objWriter, $key, $value);
        }

        $objWriter->endElement();

        // Return
        return $objWriter->getData();
    }

    /**
     * Write VML comment to XML format.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param string $pReference Reference
     * @param HeaderFooterDrawing $pImage Image
     */
    private function writeVMLHeaderFooterImage(XMLWriter $objWriter,
$pReference, HeaderFooterDrawing $pImage)
    {
        // Calculate object id
        preg_match('{(\d+)}', md5($pReference), $m);
        $id = 1500 + (substr($m[1], 0, 2) * 1);

        // Calculate offset
        $width = $pImage->getWidth();
        $height = $pImage->getHeight();
        $marginLeft = $pImage->getOffsetX();
        $marginTop = $pImage->getOffsetY();

        // v:shape
        $objWriter->startElement('v:shape');
        $objWriter->writeAttribute('id', $pReference);
        $objWriter->writeAttribute('o:spid',
'_x0000_s' . $id);
        $objWriter->writeAttribute('type',
'#_x0000_t75');
        $objWriter->writeAttribute('style',
"position:absolute;margin-left:{$marginLeft}px;margin-top:{$marginTop}px;width:{$width}px;height:{$height}px;z-index:1");

        // v:imagedata
        $objWriter->startElement('v:imagedata');
        $objWriter->writeAttribute('o:relid', 'rId'
. $pReference);
        $objWriter->writeAttribute('o:title',
$pImage->getName());
        $objWriter->endElement();

        // o:lock
        $objWriter->startElement('o:lock');
        $objWriter->writeAttribute('v:ext', 'edit');
        $objWriter->writeAttribute('textRotation',
't');
        $objWriter->endElement();

        $objWriter->endElement();
    }

    /**
     * Get an array of all drawings.
     *
     * @param Spreadsheet $spreadsheet
     *
     * @return \PhpOffice\PhpSpreadsheet\Worksheet\Drawing[] All drawings
in PhpSpreadsheet
     */
    public function allDrawings(Spreadsheet $spreadsheet)
    {
        // Get an array of all drawings
        $aDrawings = [];

        // Loop through PhpSpreadsheet
        $sheetCount = $spreadsheet->getSheetCount();
        for ($i = 0; $i < $sheetCount; ++$i) {
            // Loop through images and add to array
            $iterator =
$spreadsheet->getSheet($i)->getDrawingCollection()->getIterator();
            while ($iterator->valid()) {
                $aDrawings[] = $iterator->current();

                $iterator->next();
            }
        }

        return $aDrawings;
    }

    /**
     * @param XMLWriter $objWriter
     * @param null|int $hlinkClickId
     */
    private function writeHyperLinkDrawing(XMLWriter $objWriter,
$hlinkClickId)
    {
        if ($hlinkClickId === null) {
            return;
        }

        $objWriter->startElement('a:hlinkClick');
        $objWriter->writeAttribute('xmlns:r',
'http://schemas.openxmlformats.org/officeDocument/2006/relationships');
        $objWriter->writeAttribute('r:id', 'rId' .
$hlinkClickId);
        $objWriter->endElement();
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xlsx/Rels.php000064400000040056151165414060022371
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer\Xlsx;

use PhpOffice\PhpSpreadsheet\Shared\XMLWriter;
use PhpOffice\PhpSpreadsheet\Spreadsheet;
use PhpOffice\PhpSpreadsheet\Worksheet\MemoryDrawing;
use PhpOffice\PhpSpreadsheet\Writer\Exception as WriterException;

class Rels extends WriterPart
{
    /**
     * Write relationships to XML format.
     *
     * @param Spreadsheet $spreadsheet
     *
     * @throws WriterException
     *
     * @return string XML Output
     */
    public function writeRelationships(Spreadsheet $spreadsheet)
    {
        // Create XML writer
        $objWriter = null;
        if ($this->getParentWriter()->getUseDiskCaching()) {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_DISK,
$this->getParentWriter()->getDiskCachingDirectory());
        } else {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_MEMORY);
        }

        // XML header
        $objWriter->startDocument('1.0', 'UTF-8',
'yes');

        // Relationships
        $objWriter->startElement('Relationships');
        $objWriter->writeAttribute('xmlns',
'http://schemas.openxmlformats.org/package/2006/relationships');

        $customPropertyList =
$spreadsheet->getProperties()->getCustomProperties();
        if (!empty($customPropertyList)) {
            // Relationship docProps/app.xml
            $this->writeRelationship(
                $objWriter,
                4,
               
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/custom-properties',
                'docProps/custom.xml'
            );
        }

        // Relationship docProps/app.xml
        $this->writeRelationship(
            $objWriter,
            3,
           
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/extended-properties',
            'docProps/app.xml'
        );

        // Relationship docProps/core.xml
        $this->writeRelationship(
            $objWriter,
            2,
           
'http://schemas.openxmlformats.org/package/2006/relationships/metadata/core-properties',
            'docProps/core.xml'
        );

        // Relationship xl/workbook.xml
        $this->writeRelationship(
            $objWriter,
            1,
           
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/officeDocument',
            'xl/workbook.xml'
        );
        // a custom UI in workbook ?
        if ($spreadsheet->hasRibbon()) {
            $this->writeRelationShip(
                $objWriter,
                5,
               
'http://schemas.microsoft.com/office/2006/relationships/ui/extensibility',
                $spreadsheet->getRibbonXMLData('target')
            );
        }

        $objWriter->endElement();

        return $objWriter->getData();
    }

    /**
     * Write workbook relationships to XML format.
     *
     * @param Spreadsheet $spreadsheet
     *
     * @throws WriterException
     *
     * @return string XML Output
     */
    public function writeWorkbookRelationships(Spreadsheet $spreadsheet)
    {
        // Create XML writer
        $objWriter = null;
        if ($this->getParentWriter()->getUseDiskCaching()) {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_DISK,
$this->getParentWriter()->getDiskCachingDirectory());
        } else {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_MEMORY);
        }

        // XML header
        $objWriter->startDocument('1.0', 'UTF-8',
'yes');

        // Relationships
        $objWriter->startElement('Relationships');
        $objWriter->writeAttribute('xmlns',
'http://schemas.openxmlformats.org/package/2006/relationships');

        // Relationship styles.xml
        $this->writeRelationship(
            $objWriter,
            1,
           
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/styles',
            'styles.xml'
        );

        // Relationship theme/theme1.xml
        $this->writeRelationship(
            $objWriter,
            2,
           
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/theme',
            'theme/theme1.xml'
        );

        // Relationship sharedStrings.xml
        $this->writeRelationship(
            $objWriter,
            3,
           
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/sharedStrings',
            'sharedStrings.xml'
        );

        // Relationships with sheets
        $sheetCount = $spreadsheet->getSheetCount();
        for ($i = 0; $i < $sheetCount; ++$i) {
            $this->writeRelationship(
                $objWriter,
                ($i + 1 + 3),
               
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/worksheet',
                'worksheets/sheet' . ($i + 1) . '.xml'
            );
        }
        // Relationships for vbaProject if needed
        // id : just after the last sheet
        if ($spreadsheet->hasMacros()) {
            $this->writeRelationShip(
                $objWriter,
                ($i + 1 + 3),
               
'http://schemas.microsoft.com/office/2006/relationships/vbaProject',
                'vbaProject.bin'
            );
            ++$i; //increment i if needed for an another relation
        }

        $objWriter->endElement();

        return $objWriter->getData();
    }

    /**
     * Write worksheet relationships to XML format.
     *
     * Numbering is as follows:
     *     rId1                 - Drawings
     *  rId_hyperlink_x     - Hyperlinks
     *
     * @param \PhpOffice\PhpSpreadsheet\Worksheet\Worksheet $pWorksheet
     * @param int $pWorksheetId
     * @param bool $includeCharts Flag indicating if we should write charts
     *
     * @throws WriterException
     *
     * @return string XML Output
     */
    public function
writeWorksheetRelationships(\PhpOffice\PhpSpreadsheet\Worksheet\Worksheet
$pWorksheet, $pWorksheetId = 1, $includeCharts = false)
    {
        // Create XML writer
        $objWriter = null;
        if ($this->getParentWriter()->getUseDiskCaching()) {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_DISK,
$this->getParentWriter()->getDiskCachingDirectory());
        } else {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_MEMORY);
        }

        // XML header
        $objWriter->startDocument('1.0', 'UTF-8',
'yes');

        // Relationships
        $objWriter->startElement('Relationships');
        $objWriter->writeAttribute('xmlns',
'http://schemas.openxmlformats.org/package/2006/relationships');

        // Write drawing relationships?
        $d = 0;
        $drawingOriginalIds = [];
        $unparsedLoadedData =
$pWorksheet->getParent()->getUnparsedLoadedData();
        if
(isset($unparsedLoadedData['sheets'][$pWorksheet->getCodeName()]['drawingOriginalIds']))
{
            $drawingOriginalIds =
$unparsedLoadedData['sheets'][$pWorksheet->getCodeName()]['drawingOriginalIds'];
        }

        if ($includeCharts) {
            $charts = $pWorksheet->getChartCollection();
        } else {
            $charts = [];
        }

        if (($pWorksheet->getDrawingCollection()->count() > 0) ||
(count($charts) > 0) || $drawingOriginalIds) {
            $relPath = '../drawings/drawing' . $pWorksheetId .
'.xml';
            $rId = ++$d;

            if (isset($drawingOriginalIds[$relPath])) {
                $rId = (int) (substr($drawingOriginalIds[$relPath], 3));
            }

            $this->writeRelationship(
                $objWriter,
                $rId,
               
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/drawing',
                $relPath
            );
        }

        // Write hyperlink relationships?
        $i = 1;
        foreach ($pWorksheet->getHyperlinkCollection() as $hyperlink) {
            if (!$hyperlink->isInternal()) {
                $this->writeRelationship(
                    $objWriter,
                    '_hyperlink_' . $i,
                   
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/hyperlink',
                    $hyperlink->getUrl(),
                    'External'
                );

                ++$i;
            }
        }

        // Write comments relationship?
        $i = 1;
        if (count($pWorksheet->getComments()) > 0) {
            $this->writeRelationship(
                $objWriter,
                '_comments_vml' . $i,
               
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/vmlDrawing',
                '../drawings/vmlDrawing' . $pWorksheetId .
'.vml'
            );

            $this->writeRelationship(
                $objWriter,
                '_comments' . $i,
               
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/comments',
                '../comments' . $pWorksheetId . '.xml'
            );
        }

        // Write header/footer relationship?
        $i = 1;
        if (count($pWorksheet->getHeaderFooter()->getImages()) >
0) {
            $this->writeRelationship(
                $objWriter,
                '_headerfooter_vml' . $i,
               
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/vmlDrawing',
                '../drawings/vmlDrawingHF' . $pWorksheetId .
'.vml'
            );
        }

        $this->writeUnparsedRelationship($pWorksheet, $objWriter,
'ctrlProps',
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/ctrlProp');
        $this->writeUnparsedRelationship($pWorksheet, $objWriter,
'vmlDrawings',
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/vmlDrawing');
        $this->writeUnparsedRelationship($pWorksheet, $objWriter,
'printerSettings',
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/printerSettings');

        $objWriter->endElement();

        return $objWriter->getData();
    }

    private function
writeUnparsedRelationship(\PhpOffice\PhpSpreadsheet\Worksheet\Worksheet
$pWorksheet, XMLWriter $objWriter, $relationship, $type)
    {
        $unparsedLoadedData =
$pWorksheet->getParent()->getUnparsedLoadedData();
        if
(!isset($unparsedLoadedData['sheets'][$pWorksheet->getCodeName()][$relationship]))
{
            return;
        }

        foreach
($unparsedLoadedData['sheets'][$pWorksheet->getCodeName()][$relationship]
as $rId => $value) {
            $this->writeRelationship(
                $objWriter,
                $rId,
                $type,
                $value['relFilePath']
            );
        }
    }

    /**
     * Write drawing relationships to XML format.
     *
     * @param \PhpOffice\PhpSpreadsheet\Worksheet\Worksheet $pWorksheet
     * @param int &$chartRef Chart ID
     * @param bool $includeCharts Flag indicating if we should write charts
     *
     * @throws WriterException
     *
     * @return string XML Output
     */
    public function
writeDrawingRelationships(\PhpOffice\PhpSpreadsheet\Worksheet\Worksheet
$pWorksheet, &$chartRef, $includeCharts = false)
    {
        // Create XML writer
        $objWriter = null;
        if ($this->getParentWriter()->getUseDiskCaching()) {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_DISK,
$this->getParentWriter()->getDiskCachingDirectory());
        } else {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_MEMORY);
        }

        // XML header
        $objWriter->startDocument('1.0', 'UTF-8',
'yes');

        // Relationships
        $objWriter->startElement('Relationships');
        $objWriter->writeAttribute('xmlns',
'http://schemas.openxmlformats.org/package/2006/relationships');

        // Loop through images and write relationships
        $i = 1;
        $iterator =
$pWorksheet->getDrawingCollection()->getIterator();
        while ($iterator->valid()) {
            if ($iterator->current() instanceof
\PhpOffice\PhpSpreadsheet\Worksheet\Drawing
                || $iterator->current() instanceof MemoryDrawing) {
                // Write relationship for image drawing
                /** @var \PhpOffice\PhpSpreadsheet\Worksheet\Drawing
$drawing */
                $drawing = $iterator->current();
                $this->writeRelationship(
                    $objWriter,
                    $i,
                   
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/image',
                    '../media/' . str_replace(' ',
'', $drawing->getIndexedFilename())
                );

                $i = $this->writeDrawingHyperLink($objWriter, $drawing,
$i);
            }

            $iterator->next();
            ++$i;
        }

        if ($includeCharts) {
            // Loop through charts and write relationships
            $chartCount = $pWorksheet->getChartCount();
            if ($chartCount > 0) {
                for ($c = 0; $c < $chartCount; ++$c) {
                    $this->writeRelationship(
                        $objWriter,
                        $i++,
                       
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/chart',
                        '../charts/chart' . ++$chartRef .
'.xml'
                    );
                }
            }
        }

        $objWriter->endElement();

        return $objWriter->getData();
    }

    /**
     * Write header/footer drawing relationships to XML format.
     *
     * @param \PhpOffice\PhpSpreadsheet\Worksheet\Worksheet $pWorksheet
     *
     * @throws WriterException
     *
     * @return string XML Output
     */
    public function
writeHeaderFooterDrawingRelationships(\PhpOffice\PhpSpreadsheet\Worksheet\Worksheet
$pWorksheet)
    {
        // Create XML writer
        $objWriter = null;
        if ($this->getParentWriter()->getUseDiskCaching()) {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_DISK,
$this->getParentWriter()->getDiskCachingDirectory());
        } else {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_MEMORY);
        }

        // XML header
        $objWriter->startDocument('1.0', 'UTF-8',
'yes');

        // Relationships
        $objWriter->startElement('Relationships');
        $objWriter->writeAttribute('xmlns',
'http://schemas.openxmlformats.org/package/2006/relationships');

        // Loop through images and write relationships
        foreach ($pWorksheet->getHeaderFooter()->getImages() as $key
=> $value) {
            // Write relationship for image drawing
            $this->writeRelationship(
                $objWriter,
                $key,
               
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/image',
                '../media/' . $value->getIndexedFilename()
            );
        }

        $objWriter->endElement();

        return $objWriter->getData();
    }

    /**
     * Write Override content type.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param int $pId Relationship ID. rId will be prepended!
     * @param string $pType Relationship type
     * @param string $pTarget Relationship target
     * @param string $pTargetMode Relationship target mode
     *
     * @throws WriterException
     */
    private function writeRelationship(XMLWriter $objWriter, $pId, $pType,
$pTarget, $pTargetMode = '')
    {
        if ($pType != '' && $pTarget != '') {
            // Write relationship
            $objWriter->startElement('Relationship');
            $objWriter->writeAttribute('Id', 'rId' .
$pId);
            $objWriter->writeAttribute('Type', $pType);
            $objWriter->writeAttribute('Target', $pTarget);

            if ($pTargetMode != '') {
                $objWriter->writeAttribute('TargetMode',
$pTargetMode);
            }

            $objWriter->endElement();
        } else {
            throw new WriterException('Invalid parameters
passed.');
        }
    }

    /**
     * @param $objWriter
     * @param \PhpOffice\PhpSpreadsheet\Worksheet\Drawing $drawing
     * @param $i
     *
     * @throws WriterException
     *
     * @return int
     */
    private function writeDrawingHyperLink($objWriter, $drawing, $i)
    {
        if ($drawing->getHyperlink() === null) {
            return $i;
        }

        ++$i;
        $this->writeRelationship(
            $objWriter,
            $i,
           
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/hyperlink',
            $drawing->getHyperlink()->getUrl(),
            $drawing->getHyperlink()->getTypeHyperlink()
        );

        return $i;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xlsx/RelsRibbon.php000064400000003253151165414060023523
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer\Xlsx;

use PhpOffice\PhpSpreadsheet\Shared\XMLWriter;
use PhpOffice\PhpSpreadsheet\Spreadsheet;

class RelsRibbon extends WriterPart
{
    /**
     * Write relationships for additional objects of custom UI (ribbon).
     *
     * @param Spreadsheet $spreadsheet
     *
     * @throws \PhpOffice\PhpSpreadsheet\Writer\Exception
     *
     * @return string XML Output
     */
    public function writeRibbonRelationships(Spreadsheet $spreadsheet)
    {
        // Create XML writer
        $objWriter = null;
        if ($this->getParentWriter()->getUseDiskCaching()) {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_DISK,
$this->getParentWriter()->getDiskCachingDirectory());
        } else {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_MEMORY);
        }

        // XML header
        $objWriter->startDocument('1.0', 'UTF-8',
'yes');

        // Relationships
        $objWriter->startElement('Relationships');
        $objWriter->writeAttribute('xmlns',
'http://schemas.openxmlformats.org/package/2006/relationships');
        $localRels =
$spreadsheet->getRibbonBinObjects('names');
        if (is_array($localRels)) {
            foreach ($localRels as $aId => $aTarget) {
                $objWriter->startElement('Relationship');
                $objWriter->writeAttribute('Id', $aId);
                $objWriter->writeAttribute('Type',
'http://schemas.openxmlformats.org/officeDocument/2006/relationships/image');
                $objWriter->writeAttribute('Target',
$aTarget);
                $objWriter->endElement();
            }
        }
        $objWriter->endElement();

        return $objWriter->getData();
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xlsx/RelsVBA.php000064400000002711151165414060022716
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer\Xlsx;

use PhpOffice\PhpSpreadsheet\Shared\XMLWriter;
use PhpOffice\PhpSpreadsheet\Spreadsheet;

class RelsVBA extends WriterPart
{
    /**
     * Write relationships for a signed VBA Project.
     *
     * @param Spreadsheet $spreadsheet
     *
     * @throws \PhpOffice\PhpSpreadsheet\Writer\Exception
     *
     * @return string XML Output
     */
    public function writeVBARelationships(Spreadsheet $spreadsheet)
    {
        // Create XML writer
        $objWriter = null;
        if ($this->getParentWriter()->getUseDiskCaching()) {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_DISK,
$this->getParentWriter()->getDiskCachingDirectory());
        } else {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_MEMORY);
        }

        // XML header
        $objWriter->startDocument('1.0', 'UTF-8',
'yes');

        // Relationships
        $objWriter->startElement('Relationships');
        $objWriter->writeAttribute('xmlns',
'http://schemas.openxmlformats.org/package/2006/relationships');
        $objWriter->startElement('Relationship');
        $objWriter->writeAttribute('Id', 'rId1');
        $objWriter->writeAttribute('Type',
'http://schemas.microsoft.com/office/2006/relationships/vbaProjectSignature');
        $objWriter->writeAttribute('Target',
'vbaProjectSignature.bin');
        $objWriter->endElement();
        $objWriter->endElement();

        return $objWriter->getData();
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xlsx/StringTable.php000064400000023342151165414060023701
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer\Xlsx;

use PhpOffice\PhpSpreadsheet\Cell\DataType;
use PhpOffice\PhpSpreadsheet\RichText\RichText;
use PhpOffice\PhpSpreadsheet\RichText\Run;
use PhpOffice\PhpSpreadsheet\Shared\StringHelper;
use PhpOffice\PhpSpreadsheet\Shared\XMLWriter;
use PhpOffice\PhpSpreadsheet\Worksheet\Worksheet;
use PhpOffice\PhpSpreadsheet\Writer\Exception as WriterException;

class StringTable extends WriterPart
{
    /**
     * Create worksheet stringtable.
     *
     * @param Worksheet $pSheet Worksheet
     * @param string[] $pExistingTable Existing table to eventually merge
with
     *
     * @return string[] String table for worksheet
     */
    public function createStringTable(Worksheet $pSheet, $pExistingTable =
null)
    {
        // Create string lookup table
        $aStringTable = [];
        $cellCollection = null;
        $aFlippedStringTable = null; // For faster lookup

        // Is an existing table given?
        if (($pExistingTable !== null) &&
is_array($pExistingTable)) {
            $aStringTable = $pExistingTable;
        }

        // Fill index array
        $aFlippedStringTable = $this->flipStringTable($aStringTable);

        // Loop through cells
        foreach ($pSheet->getCoordinates() as $coordinate) {
            $cell = $pSheet->getCell($coordinate);
            $cellValue = $cell->getValue();
            if (!is_object($cellValue) &&
                ($cellValue !== null) &&
                $cellValue !== '' &&
                !isset($aFlippedStringTable[$cellValue]) &&
                ($cell->getDataType() == DataType::TYPE_STRING ||
$cell->getDataType() == DataType::TYPE_STRING2 ||
$cell->getDataType() == DataType::TYPE_NULL)) {
                $aStringTable[] = $cellValue;
                $aFlippedStringTable[$cellValue] = true;
            } elseif ($cellValue instanceof RichText &&
                ($cellValue !== null) &&
                !isset($aFlippedStringTable[$cellValue->getHashCode()]))
{
                $aStringTable[] = $cellValue;
                $aFlippedStringTable[$cellValue->getHashCode()] = true;
            }
        }

        return $aStringTable;
    }

    /**
     * Write string table to XML format.
     *
     * @param string[] $pStringTable
     *
     * @throws WriterException
     *
     * @return string XML Output
     */
    public function writeStringTable(array $pStringTable)
    {
        // Create XML writer
        $objWriter = null;
        if ($this->getParentWriter()->getUseDiskCaching()) {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_DISK,
$this->getParentWriter()->getDiskCachingDirectory());
        } else {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_MEMORY);
        }

        // XML header
        $objWriter->startDocument('1.0', 'UTF-8',
'yes');

        // String table
        $objWriter->startElement('sst');
        $objWriter->writeAttribute('xmlns',
'http://schemas.openxmlformats.org/spreadsheetml/2006/main');
        $objWriter->writeAttribute('uniqueCount',
count($pStringTable));

        // Loop through string table
        foreach ($pStringTable as $textElement) {
            $objWriter->startElement('si');

            if (!$textElement instanceof RichText) {
                $textToWrite =
StringHelper::controlCharacterPHP2OOXML($textElement);
                $objWriter->startElement('t');
                if ($textToWrite !== trim($textToWrite)) {
                    $objWriter->writeAttribute('xml:space',
'preserve');
                }
                $objWriter->writeRawData($textToWrite);
                $objWriter->endElement();
            } elseif ($textElement instanceof RichText) {
                $this->writeRichText($objWriter, $textElement);
            }

            $objWriter->endElement();
        }

        $objWriter->endElement();

        return $objWriter->getData();
    }

    /**
     * Write Rich Text.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param RichText $pRichText Rich text
     * @param string $prefix Optional Namespace prefix
     */
    public function writeRichText(XMLWriter $objWriter, RichText
$pRichText, $prefix = null)
    {
        if ($prefix !== null) {
            $prefix .= ':';
        }

        // Loop through rich text elements
        $elements = $pRichText->getRichTextElements();
        foreach ($elements as $element) {
            // r
            $objWriter->startElement($prefix . 'r');

            // rPr
            if ($element instanceof Run) {
                // rPr
                $objWriter->startElement($prefix . 'rPr');

                // rFont
                $objWriter->startElement($prefix . 'rFont');
                $objWriter->writeAttribute('val',
$element->getFont()->getName());
                $objWriter->endElement();

                // Bold
                $objWriter->startElement($prefix . 'b');
                $objWriter->writeAttribute('val',
($element->getFont()->getBold() ? 'true' :
'false'));
                $objWriter->endElement();

                // Italic
                $objWriter->startElement($prefix . 'i');
                $objWriter->writeAttribute('val',
($element->getFont()->getItalic() ? 'true' :
'false'));
                $objWriter->endElement();

                // Superscript / subscript
                if ($element->getFont()->getSuperscript() ||
$element->getFont()->getSubscript()) {
                    $objWriter->startElement($prefix .
'vertAlign');
                    if ($element->getFont()->getSuperscript()) {
                        $objWriter->writeAttribute('val',
'superscript');
                    } elseif ($element->getFont()->getSubscript()) {
                        $objWriter->writeAttribute('val',
'subscript');
                    }
                    $objWriter->endElement();
                }

                // Strikethrough
                $objWriter->startElement($prefix . 'strike');
                $objWriter->writeAttribute('val',
($element->getFont()->getStrikethrough() ? 'true' :
'false'));
                $objWriter->endElement();

                // Color
                $objWriter->startElement($prefix . 'color');
                $objWriter->writeAttribute('rgb',
$element->getFont()->getColor()->getARGB());
                $objWriter->endElement();

                // Size
                $objWriter->startElement($prefix . 'sz');
                $objWriter->writeAttribute('val',
$element->getFont()->getSize());
                $objWriter->endElement();

                // Underline
                $objWriter->startElement($prefix . 'u');
                $objWriter->writeAttribute('val',
$element->getFont()->getUnderline());
                $objWriter->endElement();

                $objWriter->endElement();
            }

            // t
            $objWriter->startElement($prefix . 't');
            $objWriter->writeAttribute('xml:space',
'preserve');
           
$objWriter->writeRawData(StringHelper::controlCharacterPHP2OOXML($element->getText()));
            $objWriter->endElement();

            $objWriter->endElement();
        }
    }

    /**
     * Write Rich Text.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param RichText|string $pRichText text string or Rich text
     * @param string $prefix Optional Namespace prefix
     */
    public function writeRichTextForCharts(XMLWriter $objWriter, $pRichText
= null, $prefix = null)
    {
        if (!$pRichText instanceof RichText) {
            $textRun = $pRichText;
            $pRichText = new RichText();
            $pRichText->createTextRun($textRun);
        }

        if ($prefix !== null) {
            $prefix .= ':';
        }

        // Loop through rich text elements
        $elements = $pRichText->getRichTextElements();
        foreach ($elements as $element) {
            // r
            $objWriter->startElement($prefix . 'r');

            // rPr
            $objWriter->startElement($prefix . 'rPr');

            // Bold
            $objWriter->writeAttribute('b',
($element->getFont()->getBold() ? 1 : 0));
            // Italic
            $objWriter->writeAttribute('i',
($element->getFont()->getItalic() ? 1 : 0));
            // Underline
            $underlineType = $element->getFont()->getUnderline();
            switch ($underlineType) {
                case 'single':
                    $underlineType = 'sng';

                    break;
                case 'double':
                    $underlineType = 'dbl';

                    break;
            }
            $objWriter->writeAttribute('u', $underlineType);
            // Strikethrough
            $objWriter->writeAttribute('strike',
($element->getFont()->getStrikethrough() ? 'sngStrike' :
'noStrike'));

            // rFont
            $objWriter->startElement($prefix . 'latin');
            $objWriter->writeAttribute('typeface',
$element->getFont()->getName());
            $objWriter->endElement();

            $objWriter->endElement();

            // t
            $objWriter->startElement($prefix . 't');
           
$objWriter->writeRawData(StringHelper::controlCharacterPHP2OOXML($element->getText()));
            $objWriter->endElement();

            $objWriter->endElement();
        }
    }

    /**
     * Flip string table (for index searching).
     *
     * @param array $stringTable Stringtable
     *
     * @return array
     */
    public function flipStringTable(array $stringTable)
    {
        // Return value
        $returnValue = [];

        // Loop through stringtable and add flipped items to $returnValue
        foreach ($stringTable as $key => $value) {
            if (!$value instanceof RichText) {
                $returnValue[$value] = $key;
            } elseif ($value instanceof RichText) {
                $returnValue[$value->getHashCode()] = $key;
            }
        }

        return $returnValue;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xlsx/Style.php000064400000061361151165414060022566
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer\Xlsx;

use PhpOffice\PhpSpreadsheet\Shared\StringHelper;
use PhpOffice\PhpSpreadsheet\Shared\XMLWriter;
use PhpOffice\PhpSpreadsheet\Spreadsheet;
use PhpOffice\PhpSpreadsheet\Style\Border;
use PhpOffice\PhpSpreadsheet\Style\Borders;
use PhpOffice\PhpSpreadsheet\Style\Conditional;
use PhpOffice\PhpSpreadsheet\Style\Fill;
use PhpOffice\PhpSpreadsheet\Style\Font;
use PhpOffice\PhpSpreadsheet\Style\NumberFormat;
use PhpOffice\PhpSpreadsheet\Style\Protection;

class Style extends WriterPart
{
    /**
     * Write styles to XML format.
     *
     * @param Spreadsheet $spreadsheet
     *
     * @throws \PhpOffice\PhpSpreadsheet\Writer\Exception
     *
     * @return string XML Output
     */
    public function writeStyles(Spreadsheet $spreadsheet)
    {
        // Create XML writer
        $objWriter = null;
        if ($this->getParentWriter()->getUseDiskCaching()) {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_DISK,
$this->getParentWriter()->getDiskCachingDirectory());
        } else {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_MEMORY);
        }

        // XML header
        $objWriter->startDocument('1.0', 'UTF-8',
'yes');

        // styleSheet
        $objWriter->startElement('styleSheet');
        $objWriter->writeAttribute('xml:space',
'preserve');
        $objWriter->writeAttribute('xmlns',
'http://schemas.openxmlformats.org/spreadsheetml/2006/main');

        // numFmts
        $objWriter->startElement('numFmts');
        $objWriter->writeAttribute('count',
$this->getParentWriter()->getNumFmtHashTable()->count());

        // numFmt
        for ($i = 0; $i <
$this->getParentWriter()->getNumFmtHashTable()->count(); ++$i) {
            $this->writeNumFmt($objWriter,
$this->getParentWriter()->getNumFmtHashTable()->getByIndex($i),
$i);
        }

        $objWriter->endElement();

        // fonts
        $objWriter->startElement('fonts');
        $objWriter->writeAttribute('count',
$this->getParentWriter()->getFontHashTable()->count());

        // font
        for ($i = 0; $i <
$this->getParentWriter()->getFontHashTable()->count(); ++$i) {
            $this->writeFont($objWriter,
$this->getParentWriter()->getFontHashTable()->getByIndex($i));
        }

        $objWriter->endElement();

        // fills
        $objWriter->startElement('fills');
        $objWriter->writeAttribute('count',
$this->getParentWriter()->getFillHashTable()->count());

        // fill
        for ($i = 0; $i <
$this->getParentWriter()->getFillHashTable()->count(); ++$i) {
            $this->writeFill($objWriter,
$this->getParentWriter()->getFillHashTable()->getByIndex($i));
        }

        $objWriter->endElement();

        // borders
        $objWriter->startElement('borders');
        $objWriter->writeAttribute('count',
$this->getParentWriter()->getBordersHashTable()->count());

        // border
        for ($i = 0; $i <
$this->getParentWriter()->getBordersHashTable()->count(); ++$i) {
            $this->writeBorder($objWriter,
$this->getParentWriter()->getBordersHashTable()->getByIndex($i));
        }

        $objWriter->endElement();

        // cellStyleXfs
        $objWriter->startElement('cellStyleXfs');
        $objWriter->writeAttribute('count', 1);

        // xf
        $objWriter->startElement('xf');
        $objWriter->writeAttribute('numFmtId', 0);
        $objWriter->writeAttribute('fontId', 0);
        $objWriter->writeAttribute('fillId', 0);
        $objWriter->writeAttribute('borderId', 0);
        $objWriter->endElement();

        $objWriter->endElement();

        // cellXfs
        $objWriter->startElement('cellXfs');
        $objWriter->writeAttribute('count',
count($spreadsheet->getCellXfCollection()));

        // xf
        foreach ($spreadsheet->getCellXfCollection() as $cellXf) {
            $this->writeCellStyleXf($objWriter, $cellXf, $spreadsheet);
        }

        $objWriter->endElement();

        // cellStyles
        $objWriter->startElement('cellStyles');
        $objWriter->writeAttribute('count', 1);

        // cellStyle
        $objWriter->startElement('cellStyle');
        $objWriter->writeAttribute('name',
'Normal');
        $objWriter->writeAttribute('xfId', 0);
        $objWriter->writeAttribute('builtinId', 0);
        $objWriter->endElement();

        $objWriter->endElement();

        // dxfs
        $objWriter->startElement('dxfs');
        $objWriter->writeAttribute('count',
$this->getParentWriter()->getStylesConditionalHashTable()->count());

        // dxf
        for ($i = 0; $i <
$this->getParentWriter()->getStylesConditionalHashTable()->count();
++$i) {
            $this->writeCellStyleDxf($objWriter,
$this->getParentWriter()->getStylesConditionalHashTable()->getByIndex($i)->getStyle());
        }

        $objWriter->endElement();

        // tableStyles
        $objWriter->startElement('tableStyles');
        $objWriter->writeAttribute('defaultTableStyle',
'TableStyleMedium9');
        $objWriter->writeAttribute('defaultPivotStyle',
'PivotTableStyle1');
        $objWriter->endElement();

        $objWriter->endElement();

        // Return
        return $objWriter->getData();
    }

    /**
     * Write Fill.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param Fill $pFill Fill style
     */
    private function writeFill(XMLWriter $objWriter, Fill $pFill)
    {
        // Check if this is a pattern type or gradient type
        if ($pFill->getFillType() === Fill::FILL_GRADIENT_LINEAR ||
            $pFill->getFillType() === Fill::FILL_GRADIENT_PATH) {
            // Gradient fill
            $this->writeGradientFill($objWriter, $pFill);
        } elseif ($pFill->getFillType() !== null) {
            // Pattern fill
            $this->writePatternFill($objWriter, $pFill);
        }
    }

    /**
     * Write Gradient Fill.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param Fill $pFill Fill style
     */
    private function writeGradientFill(XMLWriter $objWriter, Fill $pFill)
    {
        // fill
        $objWriter->startElement('fill');

        // gradientFill
        $objWriter->startElement('gradientFill');
        $objWriter->writeAttribute('type',
$pFill->getFillType());
        $objWriter->writeAttribute('degree',
$pFill->getRotation());

        // stop
        $objWriter->startElement('stop');
        $objWriter->writeAttribute('position', '0');

        // color
        $objWriter->startElement('color');
        $objWriter->writeAttribute('rgb',
$pFill->getStartColor()->getARGB());
        $objWriter->endElement();

        $objWriter->endElement();

        // stop
        $objWriter->startElement('stop');
        $objWriter->writeAttribute('position', '1');

        // color
        $objWriter->startElement('color');
        $objWriter->writeAttribute('rgb',
$pFill->getEndColor()->getARGB());
        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();
    }

    /**
     * Write Pattern Fill.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param Fill $pFill Fill style
     */
    private function writePatternFill(XMLWriter $objWriter, Fill $pFill)
    {
        // fill
        $objWriter->startElement('fill');

        // patternFill
        $objWriter->startElement('patternFill');
        $objWriter->writeAttribute('patternType',
$pFill->getFillType());

        if ($pFill->getFillType() !== Fill::FILL_NONE) {
            // fgColor
            if ($pFill->getStartColor()->getARGB()) {
                $objWriter->startElement('fgColor');
                $objWriter->writeAttribute('rgb',
$pFill->getStartColor()->getARGB());
                $objWriter->endElement();
            }
        }
        if ($pFill->getFillType() !== Fill::FILL_NONE) {
            // bgColor
            if ($pFill->getEndColor()->getARGB()) {
                $objWriter->startElement('bgColor');
                $objWriter->writeAttribute('rgb',
$pFill->getEndColor()->getARGB());
                $objWriter->endElement();
            }
        }

        $objWriter->endElement();

        $objWriter->endElement();
    }

    /**
     * Write Font.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param Font $pFont Font style
     */
    private function writeFont(XMLWriter $objWriter, Font $pFont)
    {
        // font
        $objWriter->startElement('font');
        //    Weird! The order of these elements actually makes a
difference when opening Xlsx
        //        files in Excel2003 with the compatibility pack. It's
not documented behaviour,
        //        and makes for a real WTF!

        // Bold. We explicitly write this element also when false (like MS
Office Excel 2007 does
        // for conditional formatting). Otherwise it will apparently not be
picked up in conditional
        // formatting style dialog
        if ($pFont->getBold() !== null) {
            $objWriter->startElement('b');
            $objWriter->writeAttribute('val',
$pFont->getBold() ? '1' : '0');
            $objWriter->endElement();
        }

        // Italic
        if ($pFont->getItalic() !== null) {
            $objWriter->startElement('i');
            $objWriter->writeAttribute('val',
$pFont->getItalic() ? '1' : '0');
            $objWriter->endElement();
        }

        // Strikethrough
        if ($pFont->getStrikethrough() !== null) {
            $objWriter->startElement('strike');
            $objWriter->writeAttribute('val',
$pFont->getStrikethrough() ? '1' : '0');
            $objWriter->endElement();
        }

        // Underline
        if ($pFont->getUnderline() !== null) {
            $objWriter->startElement('u');
            $objWriter->writeAttribute('val',
$pFont->getUnderline());
            $objWriter->endElement();
        }

        // Superscript / subscript
        if ($pFont->getSuperscript() === true ||
$pFont->getSubscript() === true) {
            $objWriter->startElement('vertAlign');
            if ($pFont->getSuperscript() === true) {
                $objWriter->writeAttribute('val',
'superscript');
            } elseif ($pFont->getSubscript() === true) {
                $objWriter->writeAttribute('val',
'subscript');
            }
            $objWriter->endElement();
        }

        // Size
        if ($pFont->getSize() !== null) {
            $objWriter->startElement('sz');
            $objWriter->writeAttribute('val',
StringHelper::formatNumber($pFont->getSize()));
            $objWriter->endElement();
        }

        // Foreground color
        if ($pFont->getColor()->getARGB() !== null) {
            $objWriter->startElement('color');
            $objWriter->writeAttribute('rgb',
$pFont->getColor()->getARGB());
            $objWriter->endElement();
        }

        // Name
        if ($pFont->getName() !== null) {
            $objWriter->startElement('name');
            $objWriter->writeAttribute('val',
$pFont->getName());
            $objWriter->endElement();
        }

        $objWriter->endElement();
    }

    /**
     * Write Border.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param Borders $pBorders Borders style
     */
    private function writeBorder(XMLWriter $objWriter, Borders $pBorders)
    {
        // Write border
        $objWriter->startElement('border');
        // Diagonal?
        switch ($pBorders->getDiagonalDirection()) {
            case Borders::DIAGONAL_UP:
                $objWriter->writeAttribute('diagonalUp',
'true');
                $objWriter->writeAttribute('diagonalDown',
'false');

                break;
            case Borders::DIAGONAL_DOWN:
                $objWriter->writeAttribute('diagonalUp',
'false');
                $objWriter->writeAttribute('diagonalDown',
'true');

                break;
            case Borders::DIAGONAL_BOTH:
                $objWriter->writeAttribute('diagonalUp',
'true');
                $objWriter->writeAttribute('diagonalDown',
'true');

                break;
        }

        // BorderPr
        $this->writeBorderPr($objWriter, 'left',
$pBorders->getLeft());
        $this->writeBorderPr($objWriter, 'right',
$pBorders->getRight());
        $this->writeBorderPr($objWriter, 'top',
$pBorders->getTop());
        $this->writeBorderPr($objWriter, 'bottom',
$pBorders->getBottom());
        $this->writeBorderPr($objWriter, 'diagonal',
$pBorders->getDiagonal());
        $objWriter->endElement();
    }

    /**
     * Write Cell Style Xf.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param \PhpOffice\PhpSpreadsheet\Style\Style $pStyle Style
     * @param Spreadsheet $spreadsheet Workbook
     *
     * @throws \PhpOffice\PhpSpreadsheet\Writer\Exception
     */
    private function writeCellStyleXf(XMLWriter $objWriter,
\PhpOffice\PhpSpreadsheet\Style\Style $pStyle, Spreadsheet $spreadsheet)
    {
        // xf
        $objWriter->startElement('xf');
        $objWriter->writeAttribute('xfId', 0);
        $objWriter->writeAttribute('fontId', (int)
$this->getParentWriter()->getFontHashTable()->getIndexForHashCode($pStyle->getFont()->getHashCode()));
        if ($pStyle->getQuotePrefix()) {
            $objWriter->writeAttribute('quotePrefix', 1);
        }

        if ($pStyle->getNumberFormat()->getBuiltInFormatCode() ===
false) {
            $objWriter->writeAttribute('numFmtId', (int)
($this->getParentWriter()->getNumFmtHashTable()->getIndexForHashCode($pStyle->getNumberFormat()->getHashCode())
+ 164));
        } else {
            $objWriter->writeAttribute('numFmtId', (int)
$pStyle->getNumberFormat()->getBuiltInFormatCode());
        }

        $objWriter->writeAttribute('fillId', (int)
$this->getParentWriter()->getFillHashTable()->getIndexForHashCode($pStyle->getFill()->getHashCode()));
        $objWriter->writeAttribute('borderId', (int)
$this->getParentWriter()->getBordersHashTable()->getIndexForHashCode($pStyle->getBorders()->getHashCode()));

        // Apply styles?
        $objWriter->writeAttribute('applyFont',
($spreadsheet->getDefaultStyle()->getFont()->getHashCode() !=
$pStyle->getFont()->getHashCode()) ? '1' : '0');
        $objWriter->writeAttribute('applyNumberFormat',
($spreadsheet->getDefaultStyle()->getNumberFormat()->getHashCode()
!= $pStyle->getNumberFormat()->getHashCode()) ? '1' :
'0');
        $objWriter->writeAttribute('applyFill',
($spreadsheet->getDefaultStyle()->getFill()->getHashCode() !=
$pStyle->getFill()->getHashCode()) ? '1' : '0');
        $objWriter->writeAttribute('applyBorder',
($spreadsheet->getDefaultStyle()->getBorders()->getHashCode() !=
$pStyle->getBorders()->getHashCode()) ? '1' :
'0');
        $objWriter->writeAttribute('applyAlignment',
($spreadsheet->getDefaultStyle()->getAlignment()->getHashCode() !=
$pStyle->getAlignment()->getHashCode()) ? '1' :
'0');
        if ($pStyle->getProtection()->getLocked() !=
Protection::PROTECTION_INHERIT ||
$pStyle->getProtection()->getHidden() !=
Protection::PROTECTION_INHERIT) {
            $objWriter->writeAttribute('applyProtection',
'true');
        }

        // alignment
        $objWriter->startElement('alignment');
        $objWriter->writeAttribute('horizontal',
$pStyle->getAlignment()->getHorizontal());
        $objWriter->writeAttribute('vertical',
$pStyle->getAlignment()->getVertical());

        $textRotation = 0;
        if ($pStyle->getAlignment()->getTextRotation() >= 0) {
            $textRotation =
$pStyle->getAlignment()->getTextRotation();
        } elseif ($pStyle->getAlignment()->getTextRotation() < 0)
{
            $textRotation = 90 -
$pStyle->getAlignment()->getTextRotation();
        }
        $objWriter->writeAttribute('textRotation',
$textRotation);

        $objWriter->writeAttribute('wrapText',
($pStyle->getAlignment()->getWrapText() ? 'true' :
'false'));
        $objWriter->writeAttribute('shrinkToFit',
($pStyle->getAlignment()->getShrinkToFit() ? 'true' :
'false'));

        if ($pStyle->getAlignment()->getIndent() > 0) {
            $objWriter->writeAttribute('indent',
$pStyle->getAlignment()->getIndent());
        }
        if ($pStyle->getAlignment()->getReadOrder() > 0) {
            $objWriter->writeAttribute('readingOrder',
$pStyle->getAlignment()->getReadOrder());
        }
        $objWriter->endElement();

        // protection
        if ($pStyle->getProtection()->getLocked() !=
Protection::PROTECTION_INHERIT ||
$pStyle->getProtection()->getHidden() !=
Protection::PROTECTION_INHERIT) {
            $objWriter->startElement('protection');
            if ($pStyle->getProtection()->getLocked() !=
Protection::PROTECTION_INHERIT) {
                $objWriter->writeAttribute('locked',
($pStyle->getProtection()->getLocked() ==
Protection::PROTECTION_PROTECTED ? 'true' : 'false'));
            }
            if ($pStyle->getProtection()->getHidden() !=
Protection::PROTECTION_INHERIT) {
                $objWriter->writeAttribute('hidden',
($pStyle->getProtection()->getHidden() ==
Protection::PROTECTION_PROTECTED ? 'true' : 'false'));
            }
            $objWriter->endElement();
        }

        $objWriter->endElement();
    }

    /**
     * Write Cell Style Dxf.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param \PhpOffice\PhpSpreadsheet\Style\Style $pStyle Style
     */
    private function writeCellStyleDxf(XMLWriter $objWriter,
\PhpOffice\PhpSpreadsheet\Style\Style $pStyle)
    {
        // dxf
        $objWriter->startElement('dxf');

        // font
        $this->writeFont($objWriter, $pStyle->getFont());

        // numFmt
        $this->writeNumFmt($objWriter, $pStyle->getNumberFormat());

        // fill
        $this->writeFill($objWriter, $pStyle->getFill());

        // alignment
        $objWriter->startElement('alignment');
        if ($pStyle->getAlignment()->getHorizontal() !== null) {
            $objWriter->writeAttribute('horizontal',
$pStyle->getAlignment()->getHorizontal());
        }
        if ($pStyle->getAlignment()->getVertical() !== null) {
            $objWriter->writeAttribute('vertical',
$pStyle->getAlignment()->getVertical());
        }

        if ($pStyle->getAlignment()->getTextRotation() !== null) {
            $textRotation = 0;
            if ($pStyle->getAlignment()->getTextRotation() >= 0) {
                $textRotation =
$pStyle->getAlignment()->getTextRotation();
            } elseif ($pStyle->getAlignment()->getTextRotation() <
0) {
                $textRotation = 90 -
$pStyle->getAlignment()->getTextRotation();
            }
            $objWriter->writeAttribute('textRotation',
$textRotation);
        }
        $objWriter->endElement();

        // border
        $this->writeBorder($objWriter, $pStyle->getBorders());

        // protection
        if (($pStyle->getProtection()->getLocked() !== null) ||
($pStyle->getProtection()->getHidden() !== null)) {
            if ($pStyle->getProtection()->getLocked() !==
Protection::PROTECTION_INHERIT ||
                $pStyle->getProtection()->getHidden() !==
Protection::PROTECTION_INHERIT) {
                $objWriter->startElement('protection');
                if (($pStyle->getProtection()->getLocked() !== null)
&&
                    ($pStyle->getProtection()->getLocked() !==
Protection::PROTECTION_INHERIT)) {
                    $objWriter->writeAttribute('locked',
($pStyle->getProtection()->getLocked() ==
Protection::PROTECTION_PROTECTED ? 'true' : 'false'));
                }
                if (($pStyle->getProtection()->getHidden() !== null)
&&
                    ($pStyle->getProtection()->getHidden() !==
Protection::PROTECTION_INHERIT)) {
                    $objWriter->writeAttribute('hidden',
($pStyle->getProtection()->getHidden() ==
Protection::PROTECTION_PROTECTED ? 'true' : 'false'));
                }
                $objWriter->endElement();
            }
        }

        $objWriter->endElement();
    }

    /**
     * Write BorderPr.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param string $pName Element name
     * @param Border $pBorder Border style
     */
    private function writeBorderPr(XMLWriter $objWriter, $pName, Border
$pBorder)
    {
        // Write BorderPr
        if ($pBorder->getBorderStyle() != Border::BORDER_NONE) {
            $objWriter->startElement($pName);
            $objWriter->writeAttribute('style',
$pBorder->getBorderStyle());

            // color
            $objWriter->startElement('color');
            $objWriter->writeAttribute('rgb',
$pBorder->getColor()->getARGB());
            $objWriter->endElement();

            $objWriter->endElement();
        }
    }

    /**
     * Write NumberFormat.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param NumberFormat $pNumberFormat Number Format
     * @param int $pId Number Format identifier
     */
    private function writeNumFmt(XMLWriter $objWriter, NumberFormat
$pNumberFormat, $pId = 0)
    {
        // Translate formatcode
        $formatCode = $pNumberFormat->getFormatCode();

        // numFmt
        if ($formatCode !== null) {
            $objWriter->startElement('numFmt');
            $objWriter->writeAttribute('numFmtId', ($pId +
164));
            $objWriter->writeAttribute('formatCode',
$formatCode);
            $objWriter->endElement();
        }
    }

    /**
     * Get an array of all styles.
     *
     * @param Spreadsheet $spreadsheet
     *
     * @return \PhpOffice\PhpSpreadsheet\Style\Style[] All styles in
PhpSpreadsheet
     */
    public function allStyles(Spreadsheet $spreadsheet)
    {
        return $spreadsheet->getCellXfCollection();
    }

    /**
     * Get an array of all conditional styles.
     *
     * @param Spreadsheet $spreadsheet
     *
     * @return Conditional[] All conditional styles in PhpSpreadsheet
     */
    public function allConditionalStyles(Spreadsheet $spreadsheet)
    {
        // Get an array of all styles
        $aStyles = [];

        $sheetCount = $spreadsheet->getSheetCount();
        for ($i = 0; $i < $sheetCount; ++$i) {
            foreach
($spreadsheet->getSheet($i)->getConditionalStylesCollection() as
$conditionalStyles) {
                foreach ($conditionalStyles as $conditionalStyle) {
                    $aStyles[] = $conditionalStyle;
                }
            }
        }

        return $aStyles;
    }

    /**
     * Get an array of all fills.
     *
     * @param Spreadsheet $spreadsheet
     *
     * @return Fill[] All fills in PhpSpreadsheet
     */
    public function allFills(Spreadsheet $spreadsheet)
    {
        // Get an array of unique fills
        $aFills = [];

        // Two first fills are predefined
        $fill0 = new Fill();
        $fill0->setFillType(Fill::FILL_NONE);
        $aFills[] = $fill0;

        $fill1 = new Fill();
        $fill1->setFillType(Fill::FILL_PATTERN_GRAY125);
        $aFills[] = $fill1;
        // The remaining fills
        $aStyles = $this->allStyles($spreadsheet);
        /** @var \PhpOffice\PhpSpreadsheet\Style\Style $style */
        foreach ($aStyles as $style) {
            if (!isset($aFills[$style->getFill()->getHashCode()])) {
                $aFills[$style->getFill()->getHashCode()] =
$style->getFill();
            }
        }

        return $aFills;
    }

    /**
     * Get an array of all fonts.
     *
     * @param Spreadsheet $spreadsheet
     *
     * @return Font[] All fonts in PhpSpreadsheet
     */
    public function allFonts(Spreadsheet $spreadsheet)
    {
        // Get an array of unique fonts
        $aFonts = [];
        $aStyles = $this->allStyles($spreadsheet);

        /** @var \PhpOffice\PhpSpreadsheet\Style\Style $style */
        foreach ($aStyles as $style) {
            if (!isset($aFonts[$style->getFont()->getHashCode()])) {
                $aFonts[$style->getFont()->getHashCode()] =
$style->getFont();
            }
        }

        return $aFonts;
    }

    /**
     * Get an array of all borders.
     *
     * @param Spreadsheet $spreadsheet
     *
     * @return Borders[] All borders in PhpSpreadsheet
     */
    public function allBorders(Spreadsheet $spreadsheet)
    {
        // Get an array of unique borders
        $aBorders = [];
        $aStyles = $this->allStyles($spreadsheet);

        /** @var \PhpOffice\PhpSpreadsheet\Style\Style $style */
        foreach ($aStyles as $style) {
            if
(!isset($aBorders[$style->getBorders()->getHashCode()])) {
                $aBorders[$style->getBorders()->getHashCode()] =
$style->getBorders();
            }
        }

        return $aBorders;
    }

    /**
     * Get an array of all number formats.
     *
     * @param Spreadsheet $spreadsheet
     *
     * @return NumberFormat[] All number formats in PhpSpreadsheet
     */
    public function allNumberFormats(Spreadsheet $spreadsheet)
    {
        // Get an array of unique number formats
        $aNumFmts = [];
        $aStyles = $this->allStyles($spreadsheet);

        /** @var \PhpOffice\PhpSpreadsheet\Style\Style $style */
        foreach ($aStyles as $style) {
            if ($style->getNumberFormat()->getBuiltInFormatCode() ===
false &&
!isset($aNumFmts[$style->getNumberFormat()->getHashCode()])) {
                $aNumFmts[$style->getNumberFormat()->getHashCode()] =
$style->getNumberFormat();
            }
        }

        return $aNumFmts;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xlsx/Theme.php000064400000056433151165414060022534
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer\Xlsx;

use PhpOffice\PhpSpreadsheet\Shared\XMLWriter;
use PhpOffice\PhpSpreadsheet\Spreadsheet;

/**
 * @category   PhpSpreadsheet
 *
 * @copyright  Copyright (c) 2006 - 2016 PhpSpreadsheet
(https://github.com/PHPOffice/PhpSpreadsheet)
 */
class Theme extends WriterPart
{
    /**
     * Map of Major fonts to write.
     *
     * @var array of string
     */
    private static $majorFonts = [
        'Jpan' => 'ＭＳ Ｐゴシック',
        'Hang' => '맑은 고딕',
        'Hans' => '宋体',
        'Hant' => '新細明體',
        'Arab' => 'Times New Roman',
        'Hebr' => 'Times New Roman',
        'Thai' => 'Tahoma',
        'Ethi' => 'Nyala',
        'Beng' => 'Vrinda',
        'Gujr' => 'Shruti',
        'Khmr' => 'MoolBoran',
        'Knda' => 'Tunga',
        'Guru' => 'Raavi',
        'Cans' => 'Euphemia',
        'Cher' => 'Plantagenet Cherokee',
        'Yiii' => 'Microsoft Yi Baiti',
        'Tibt' => 'Microsoft Himalaya',
        'Thaa' => 'MV Boli',
        'Deva' => 'Mangal',
        'Telu' => 'Gautami',
        'Taml' => 'Latha',
        'Syrc' => 'Estrangelo Edessa',
        'Orya' => 'Kalinga',
        'Mlym' => 'Kartika',
        'Laoo' => 'DokChampa',
        'Sinh' => 'Iskoola Pota',
        'Mong' => 'Mongolian Baiti',
        'Viet' => 'Times New Roman',
        'Uigh' => 'Microsoft Uighur',
        'Geor' => 'Sylfaen',
    ];

    /**
     * Map of Minor fonts to write.
     *
     * @var array of string
     */
    private static $minorFonts = [
        'Jpan' => 'ＭＳ Ｐゴシック',
        'Hang' => '맑은 고딕',
        'Hans' => '宋体',
        'Hant' => '新細明體',
        'Arab' => 'Arial',
        'Hebr' => 'Arial',
        'Thai' => 'Tahoma',
        'Ethi' => 'Nyala',
        'Beng' => 'Vrinda',
        'Gujr' => 'Shruti',
        'Khmr' => 'DaunPenh',
        'Knda' => 'Tunga',
        'Guru' => 'Raavi',
        'Cans' => 'Euphemia',
        'Cher' => 'Plantagenet Cherokee',
        'Yiii' => 'Microsoft Yi Baiti',
        'Tibt' => 'Microsoft Himalaya',
        'Thaa' => 'MV Boli',
        'Deva' => 'Mangal',
        'Telu' => 'Gautami',
        'Taml' => 'Latha',
        'Syrc' => 'Estrangelo Edessa',
        'Orya' => 'Kalinga',
        'Mlym' => 'Kartika',
        'Laoo' => 'DokChampa',
        'Sinh' => 'Iskoola Pota',
        'Mong' => 'Mongolian Baiti',
        'Viet' => 'Arial',
        'Uigh' => 'Microsoft Uighur',
        'Geor' => 'Sylfaen',
    ];

    /**
     * Map of core colours.
     *
     * @var array of string
     */
    private static $colourScheme = [
        'dk2' => '1F497D',
        'lt2' => 'EEECE1',
        'accent1' => '4F81BD',
        'accent2' => 'C0504D',
        'accent3' => '9BBB59',
        'accent4' => '8064A2',
        'accent5' => '4BACC6',
        'accent6' => 'F79646',
        'hlink' => '0000FF',
        'folHlink' => '800080',
    ];

    /**
     * Write theme to XML format.
     *
     * @param Spreadsheet $spreadsheet
     *
     * @throws \PhpOffice\PhpSpreadsheet\Writer\Exception
     *
     * @return string XML Output
     */
    public function writeTheme(Spreadsheet $spreadsheet)
    {
        // Create XML writer
        $objWriter = null;
        if ($this->getParentWriter()->getUseDiskCaching()) {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_DISK,
$this->getParentWriter()->getDiskCachingDirectory());
        } else {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_MEMORY);
        }

        // XML header
        $objWriter->startDocument('1.0', 'UTF-8',
'yes');

        // a:theme
        $objWriter->startElement('a:theme');
        $objWriter->writeAttribute('xmlns:a',
'http://schemas.openxmlformats.org/drawingml/2006/main');
        $objWriter->writeAttribute('name', 'Office
Theme');

        // a:themeElements
        $objWriter->startElement('a:themeElements');

        // a:clrScheme
        $objWriter->startElement('a:clrScheme');
        $objWriter->writeAttribute('name',
'Office');

        // a:dk1
        $objWriter->startElement('a:dk1');

        // a:sysClr
        $objWriter->startElement('a:sysClr');
        $objWriter->writeAttribute('val',
'windowText');
        $objWriter->writeAttribute('lastClr',
'000000');
        $objWriter->endElement();

        $objWriter->endElement();

        // a:lt1
        $objWriter->startElement('a:lt1');

        // a:sysClr
        $objWriter->startElement('a:sysClr');
        $objWriter->writeAttribute('val', 'window');
        $objWriter->writeAttribute('lastClr',
'FFFFFF');
        $objWriter->endElement();

        $objWriter->endElement();

        // a:dk2
        $this->writeColourScheme($objWriter);

        $objWriter->endElement();

        // a:fontScheme
        $objWriter->startElement('a:fontScheme');
        $objWriter->writeAttribute('name',
'Office');

        // a:majorFont
        $objWriter->startElement('a:majorFont');
        $this->writeFonts($objWriter, 'Cambria',
self::$majorFonts);
        $objWriter->endElement();

        // a:minorFont
        $objWriter->startElement('a:minorFont');
        $this->writeFonts($objWriter, 'Calibri',
self::$minorFonts);
        $objWriter->endElement();

        $objWriter->endElement();

        // a:fmtScheme
        $objWriter->startElement('a:fmtScheme');
        $objWriter->writeAttribute('name',
'Office');

        // a:fillStyleLst
        $objWriter->startElement('a:fillStyleLst');

        // a:solidFill
        $objWriter->startElement('a:solidFill');

        // a:schemeClr
        $objWriter->startElement('a:schemeClr');
        $objWriter->writeAttribute('val', 'phClr');
        $objWriter->endElement();

        $objWriter->endElement();

        // a:gradFill
        $objWriter->startElement('a:gradFill');
        $objWriter->writeAttribute('rotWithShape',
'1');

        // a:gsLst
        $objWriter->startElement('a:gsLst');

        // a:gs
        $objWriter->startElement('a:gs');
        $objWriter->writeAttribute('pos', '0');

        // a:schemeClr
        $objWriter->startElement('a:schemeClr');
        $objWriter->writeAttribute('val', 'phClr');

        // a:tint
        $objWriter->startElement('a:tint');
        $objWriter->writeAttribute('val', '50000');
        $objWriter->endElement();

        // a:satMod
        $objWriter->startElement('a:satMod');
        $objWriter->writeAttribute('val', '300000');
        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        // a:gs
        $objWriter->startElement('a:gs');
        $objWriter->writeAttribute('pos', '35000');

        // a:schemeClr
        $objWriter->startElement('a:schemeClr');
        $objWriter->writeAttribute('val', 'phClr');

        // a:tint
        $objWriter->startElement('a:tint');
        $objWriter->writeAttribute('val', '37000');
        $objWriter->endElement();

        // a:satMod
        $objWriter->startElement('a:satMod');
        $objWriter->writeAttribute('val', '300000');
        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        // a:gs
        $objWriter->startElement('a:gs');
        $objWriter->writeAttribute('pos', '100000');

        // a:schemeClr
        $objWriter->startElement('a:schemeClr');
        $objWriter->writeAttribute('val', 'phClr');

        // a:tint
        $objWriter->startElement('a:tint');
        $objWriter->writeAttribute('val', '15000');
        $objWriter->endElement();

        // a:satMod
        $objWriter->startElement('a:satMod');
        $objWriter->writeAttribute('val', '350000');
        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        // a:lin
        $objWriter->startElement('a:lin');
        $objWriter->writeAttribute('ang',
'16200000');
        $objWriter->writeAttribute('scaled', '1');
        $objWriter->endElement();

        $objWriter->endElement();

        // a:gradFill
        $objWriter->startElement('a:gradFill');
        $objWriter->writeAttribute('rotWithShape',
'1');

        // a:gsLst
        $objWriter->startElement('a:gsLst');

        // a:gs
        $objWriter->startElement('a:gs');
        $objWriter->writeAttribute('pos', '0');

        // a:schemeClr
        $objWriter->startElement('a:schemeClr');
        $objWriter->writeAttribute('val', 'phClr');

        // a:shade
        $objWriter->startElement('a:shade');
        $objWriter->writeAttribute('val', '51000');
        $objWriter->endElement();

        // a:satMod
        $objWriter->startElement('a:satMod');
        $objWriter->writeAttribute('val', '130000');
        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        // a:gs
        $objWriter->startElement('a:gs');
        $objWriter->writeAttribute('pos', '80000');

        // a:schemeClr
        $objWriter->startElement('a:schemeClr');
        $objWriter->writeAttribute('val', 'phClr');

        // a:shade
        $objWriter->startElement('a:shade');
        $objWriter->writeAttribute('val', '93000');
        $objWriter->endElement();

        // a:satMod
        $objWriter->startElement('a:satMod');
        $objWriter->writeAttribute('val', '130000');
        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        // a:gs
        $objWriter->startElement('a:gs');
        $objWriter->writeAttribute('pos', '100000');

        // a:schemeClr
        $objWriter->startElement('a:schemeClr');
        $objWriter->writeAttribute('val', 'phClr');

        // a:shade
        $objWriter->startElement('a:shade');
        $objWriter->writeAttribute('val', '94000');
        $objWriter->endElement();

        // a:satMod
        $objWriter->startElement('a:satMod');
        $objWriter->writeAttribute('val', '135000');
        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        // a:lin
        $objWriter->startElement('a:lin');
        $objWriter->writeAttribute('ang',
'16200000');
        $objWriter->writeAttribute('scaled', '0');
        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        // a:lnStyleLst
        $objWriter->startElement('a:lnStyleLst');

        // a:ln
        $objWriter->startElement('a:ln');
        $objWriter->writeAttribute('w', '9525');
        $objWriter->writeAttribute('cap', 'flat');
        $objWriter->writeAttribute('cmpd', 'sng');
        $objWriter->writeAttribute('algn', 'ctr');

        // a:solidFill
        $objWriter->startElement('a:solidFill');

        // a:schemeClr
        $objWriter->startElement('a:schemeClr');
        $objWriter->writeAttribute('val', 'phClr');

        // a:shade
        $objWriter->startElement('a:shade');
        $objWriter->writeAttribute('val', '95000');
        $objWriter->endElement();

        // a:satMod
        $objWriter->startElement('a:satMod');
        $objWriter->writeAttribute('val', '105000');
        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        // a:prstDash
        $objWriter->startElement('a:prstDash');
        $objWriter->writeAttribute('val', 'solid');
        $objWriter->endElement();

        $objWriter->endElement();

        // a:ln
        $objWriter->startElement('a:ln');
        $objWriter->writeAttribute('w', '25400');
        $objWriter->writeAttribute('cap', 'flat');
        $objWriter->writeAttribute('cmpd', 'sng');
        $objWriter->writeAttribute('algn', 'ctr');

        // a:solidFill
        $objWriter->startElement('a:solidFill');

        // a:schemeClr
        $objWriter->startElement('a:schemeClr');
        $objWriter->writeAttribute('val', 'phClr');
        $objWriter->endElement();

        $objWriter->endElement();

        // a:prstDash
        $objWriter->startElement('a:prstDash');
        $objWriter->writeAttribute('val', 'solid');
        $objWriter->endElement();

        $objWriter->endElement();

        // a:ln
        $objWriter->startElement('a:ln');
        $objWriter->writeAttribute('w', '38100');
        $objWriter->writeAttribute('cap', 'flat');
        $objWriter->writeAttribute('cmpd', 'sng');
        $objWriter->writeAttribute('algn', 'ctr');

        // a:solidFill
        $objWriter->startElement('a:solidFill');

        // a:schemeClr
        $objWriter->startElement('a:schemeClr');
        $objWriter->writeAttribute('val', 'phClr');
        $objWriter->endElement();

        $objWriter->endElement();

        // a:prstDash
        $objWriter->startElement('a:prstDash');
        $objWriter->writeAttribute('val', 'solid');
        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        // a:effectStyleLst
        $objWriter->startElement('a:effectStyleLst');

        // a:effectStyle
        $objWriter->startElement('a:effectStyle');

        // a:effectLst
        $objWriter->startElement('a:effectLst');

        // a:outerShdw
        $objWriter->startElement('a:outerShdw');
        $objWriter->writeAttribute('blurRad',
'40000');
        $objWriter->writeAttribute('dist', '20000');
        $objWriter->writeAttribute('dir',
'5400000');
        $objWriter->writeAttribute('rotWithShape',
'0');

        // a:srgbClr
        $objWriter->startElement('a:srgbClr');
        $objWriter->writeAttribute('val', '000000');

        // a:alpha
        $objWriter->startElement('a:alpha');
        $objWriter->writeAttribute('val', '38000');
        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        // a:effectStyle
        $objWriter->startElement('a:effectStyle');

        // a:effectLst
        $objWriter->startElement('a:effectLst');

        // a:outerShdw
        $objWriter->startElement('a:outerShdw');
        $objWriter->writeAttribute('blurRad',
'40000');
        $objWriter->writeAttribute('dist', '23000');
        $objWriter->writeAttribute('dir',
'5400000');
        $objWriter->writeAttribute('rotWithShape',
'0');

        // a:srgbClr
        $objWriter->startElement('a:srgbClr');
        $objWriter->writeAttribute('val', '000000');

        // a:alpha
        $objWriter->startElement('a:alpha');
        $objWriter->writeAttribute('val', '35000');
        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        // a:effectStyle
        $objWriter->startElement('a:effectStyle');

        // a:effectLst
        $objWriter->startElement('a:effectLst');

        // a:outerShdw
        $objWriter->startElement('a:outerShdw');
        $objWriter->writeAttribute('blurRad',
'40000');
        $objWriter->writeAttribute('dist', '23000');
        $objWriter->writeAttribute('dir',
'5400000');
        $objWriter->writeAttribute('rotWithShape',
'0');

        // a:srgbClr
        $objWriter->startElement('a:srgbClr');
        $objWriter->writeAttribute('val', '000000');

        // a:alpha
        $objWriter->startElement('a:alpha');
        $objWriter->writeAttribute('val', '35000');
        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        // a:scene3d
        $objWriter->startElement('a:scene3d');

        // a:camera
        $objWriter->startElement('a:camera');
        $objWriter->writeAttribute('prst',
'orthographicFront');

        // a:rot
        $objWriter->startElement('a:rot');
        $objWriter->writeAttribute('lat', '0');
        $objWriter->writeAttribute('lon', '0');
        $objWriter->writeAttribute('rev', '0');
        $objWriter->endElement();

        $objWriter->endElement();

        // a:lightRig
        $objWriter->startElement('a:lightRig');
        $objWriter->writeAttribute('rig',
'threePt');
        $objWriter->writeAttribute('dir', 't');

        // a:rot
        $objWriter->startElement('a:rot');
        $objWriter->writeAttribute('lat', '0');
        $objWriter->writeAttribute('lon', '0');
        $objWriter->writeAttribute('rev',
'1200000');
        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        // a:sp3d
        $objWriter->startElement('a:sp3d');

        // a:bevelT
        $objWriter->startElement('a:bevelT');
        $objWriter->writeAttribute('w', '63500');
        $objWriter->writeAttribute('h', '25400');
        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        // a:bgFillStyleLst
        $objWriter->startElement('a:bgFillStyleLst');

        // a:solidFill
        $objWriter->startElement('a:solidFill');

        // a:schemeClr
        $objWriter->startElement('a:schemeClr');
        $objWriter->writeAttribute('val', 'phClr');
        $objWriter->endElement();

        $objWriter->endElement();

        // a:gradFill
        $objWriter->startElement('a:gradFill');
        $objWriter->writeAttribute('rotWithShape',
'1');

        // a:gsLst
        $objWriter->startElement('a:gsLst');

        // a:gs
        $objWriter->startElement('a:gs');
        $objWriter->writeAttribute('pos', '0');

        // a:schemeClr
        $objWriter->startElement('a:schemeClr');
        $objWriter->writeAttribute('val', 'phClr');

        // a:tint
        $objWriter->startElement('a:tint');
        $objWriter->writeAttribute('val', '40000');
        $objWriter->endElement();

        // a:satMod
        $objWriter->startElement('a:satMod');
        $objWriter->writeAttribute('val', '350000');
        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        // a:gs
        $objWriter->startElement('a:gs');
        $objWriter->writeAttribute('pos', '40000');

        // a:schemeClr
        $objWriter->startElement('a:schemeClr');
        $objWriter->writeAttribute('val', 'phClr');

        // a:tint
        $objWriter->startElement('a:tint');
        $objWriter->writeAttribute('val', '45000');
        $objWriter->endElement();

        // a:shade
        $objWriter->startElement('a:shade');
        $objWriter->writeAttribute('val', '99000');
        $objWriter->endElement();

        // a:satMod
        $objWriter->startElement('a:satMod');
        $objWriter->writeAttribute('val', '350000');
        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        // a:gs
        $objWriter->startElement('a:gs');
        $objWriter->writeAttribute('pos', '100000');

        // a:schemeClr
        $objWriter->startElement('a:schemeClr');
        $objWriter->writeAttribute('val', 'phClr');

        // a:shade
        $objWriter->startElement('a:shade');
        $objWriter->writeAttribute('val', '20000');
        $objWriter->endElement();

        // a:satMod
        $objWriter->startElement('a:satMod');
        $objWriter->writeAttribute('val', '255000');
        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        // a:path
        $objWriter->startElement('a:path');
        $objWriter->writeAttribute('path',
'circle');

        // a:fillToRect
        $objWriter->startElement('a:fillToRect');
        $objWriter->writeAttribute('l', '50000');
        $objWriter->writeAttribute('t', '-80000');
        $objWriter->writeAttribute('r', '50000');
        $objWriter->writeAttribute('b', '180000');
        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        // a:gradFill
        $objWriter->startElement('a:gradFill');
        $objWriter->writeAttribute('rotWithShape',
'1');

        // a:gsLst
        $objWriter->startElement('a:gsLst');

        // a:gs
        $objWriter->startElement('a:gs');
        $objWriter->writeAttribute('pos', '0');

        // a:schemeClr
        $objWriter->startElement('a:schemeClr');
        $objWriter->writeAttribute('val', 'phClr');

        // a:tint
        $objWriter->startElement('a:tint');
        $objWriter->writeAttribute('val', '80000');
        $objWriter->endElement();

        // a:satMod
        $objWriter->startElement('a:satMod');
        $objWriter->writeAttribute('val', '300000');
        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        // a:gs
        $objWriter->startElement('a:gs');
        $objWriter->writeAttribute('pos', '100000');

        // a:schemeClr
        $objWriter->startElement('a:schemeClr');
        $objWriter->writeAttribute('val', 'phClr');

        // a:shade
        $objWriter->startElement('a:shade');
        $objWriter->writeAttribute('val', '30000');
        $objWriter->endElement();

        // a:satMod
        $objWriter->startElement('a:satMod');
        $objWriter->writeAttribute('val', '200000');
        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        // a:path
        $objWriter->startElement('a:path');
        $objWriter->writeAttribute('path',
'circle');

        // a:fillToRect
        $objWriter->startElement('a:fillToRect');
        $objWriter->writeAttribute('l', '50000');
        $objWriter->writeAttribute('t', '50000');
        $objWriter->writeAttribute('r', '50000');
        $objWriter->writeAttribute('b', '50000');
        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();

        // a:objectDefaults
        $objWriter->writeElement('a:objectDefaults', null);

        // a:extraClrSchemeLst
        $objWriter->writeElement('a:extraClrSchemeLst', null);

        $objWriter->endElement();

        // Return
        return $objWriter->getData();
    }

    /**
     * Write fonts to XML format.
     *
     * @param XMLWriter $objWriter
     * @param string $latinFont
     * @param array of string                $fontSet
     *
     * @return string XML Output
     */
    private function writeFonts($objWriter, $latinFont, $fontSet)
    {
        // a:latin
        $objWriter->startElement('a:latin');
        $objWriter->writeAttribute('typeface', $latinFont);
        $objWriter->endElement();

        // a:ea
        $objWriter->startElement('a:ea');
        $objWriter->writeAttribute('typeface', '');
        $objWriter->endElement();

        // a:cs
        $objWriter->startElement('a:cs');
        $objWriter->writeAttribute('typeface', '');
        $objWriter->endElement();

        foreach ($fontSet as $fontScript => $typeface) {
            $objWriter->startElement('a:font');
            $objWriter->writeAttribute('script', $fontScript);
            $objWriter->writeAttribute('typeface', $typeface);
            $objWriter->endElement();
        }
    }

    /**
     * Write colour scheme to XML format.
     *
     * @param XMLWriter $objWriter
     *
     * @return string XML Output
     */
    private function writeColourScheme($objWriter)
    {
        foreach (self::$colourScheme as $colourName => $colourValue) {
            $objWriter->startElement('a:' . $colourName);

            $objWriter->startElement('a:srgbClr');
            $objWriter->writeAttribute('val', $colourValue);
            $objWriter->endElement();

            $objWriter->endElement();
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xlsx/Workbook.php000064400000036272151165414060023266
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer\Xlsx;

use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\NamedRange;
use PhpOffice\PhpSpreadsheet\Shared\Date;
use PhpOffice\PhpSpreadsheet\Shared\XMLWriter;
use PhpOffice\PhpSpreadsheet\Spreadsheet;
use PhpOffice\PhpSpreadsheet\Worksheet\Worksheet;
use PhpOffice\PhpSpreadsheet\Writer\Exception as WriterException;

class Workbook extends WriterPart
{
    /**
     * Write workbook to XML format.
     *
     * @param Spreadsheet $spreadsheet
     * @param bool $recalcRequired Indicate whether formulas should be
recalculated before writing
     *
     * @throws WriterException
     *
     * @return string XML Output
     */
    public function writeWorkbook(Spreadsheet $spreadsheet, $recalcRequired
= false)
    {
        // Create XML writer
        if ($this->getParentWriter()->getUseDiskCaching()) {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_DISK,
$this->getParentWriter()->getDiskCachingDirectory());
        } else {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_MEMORY);
        }

        // XML header
        $objWriter->startDocument('1.0', 'UTF-8',
'yes');

        // workbook
        $objWriter->startElement('workbook');
        $objWriter->writeAttribute('xml:space',
'preserve');
        $objWriter->writeAttribute('xmlns',
'http://schemas.openxmlformats.org/spreadsheetml/2006/main');
        $objWriter->writeAttribute('xmlns:r',
'http://schemas.openxmlformats.org/officeDocument/2006/relationships');

        // fileVersion
        $this->writeFileVersion($objWriter);

        // workbookPr
        $this->writeWorkbookPr($objWriter);

        // workbookProtection
        $this->writeWorkbookProtection($objWriter, $spreadsheet);

        // bookViews
        if ($this->getParentWriter()->getOffice2003Compatibility()
=== false) {
            $this->writeBookViews($objWriter, $spreadsheet);
        }

        // sheets
        $this->writeSheets($objWriter, $spreadsheet);

        // definedNames
        $this->writeDefinedNames($objWriter, $spreadsheet);

        // calcPr
        $this->writeCalcPr($objWriter, $recalcRequired);

        $objWriter->endElement();

        // Return
        return $objWriter->getData();
    }

    /**
     * Write file version.
     *
     * @param XMLWriter $objWriter XML Writer
     */
    private function writeFileVersion(XMLWriter $objWriter)
    {
        $objWriter->startElement('fileVersion');
        $objWriter->writeAttribute('appName', 'xl');
        $objWriter->writeAttribute('lastEdited',
'4');
        $objWriter->writeAttribute('lowestEdited',
'4');
        $objWriter->writeAttribute('rupBuild',
'4505');
        $objWriter->endElement();
    }

    /**
     * Write WorkbookPr.
     *
     * @param XMLWriter $objWriter XML Writer
     */
    private function writeWorkbookPr(XMLWriter $objWriter)
    {
        $objWriter->startElement('workbookPr');

        if (Date::getExcelCalendar() === Date::CALENDAR_MAC_1904) {
            $objWriter->writeAttribute('date1904',
'1');
        }

        $objWriter->writeAttribute('codeName',
'ThisWorkbook');

        $objWriter->endElement();
    }

    /**
     * Write BookViews.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param Spreadsheet $spreadsheet
     */
    private function writeBookViews(XMLWriter $objWriter, Spreadsheet
$spreadsheet)
    {
        // bookViews
        $objWriter->startElement('bookViews');

        // workbookView
        $objWriter->startElement('workbookView');

        $objWriter->writeAttribute('activeTab',
$spreadsheet->getActiveSheetIndex());
        $objWriter->writeAttribute('autoFilterDateGrouping',
($spreadsheet->getAutoFilterDateGrouping() ? 'true' :
'false'));
        $objWriter->writeAttribute('firstSheet',
$spreadsheet->getFirstSheetIndex());
        $objWriter->writeAttribute('minimized',
($spreadsheet->getMinimized() ? 'true' : 'false'));
        $objWriter->writeAttribute('showHorizontalScroll',
($spreadsheet->getShowHorizontalScroll() ? 'true' :
'false'));
        $objWriter->writeAttribute('showSheetTabs',
($spreadsheet->getShowSheetTabs() ? 'true' :
'false'));
        $objWriter->writeAttribute('showVerticalScroll',
($spreadsheet->getShowVerticalScroll() ? 'true' :
'false'));
        $objWriter->writeAttribute('tabRatio',
$spreadsheet->getTabRatio());
        $objWriter->writeAttribute('visibility',
$spreadsheet->getVisibility());

        $objWriter->endElement();

        $objWriter->endElement();
    }

    /**
     * Write WorkbookProtection.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param Spreadsheet $spreadsheet
     */
    private function writeWorkbookProtection(XMLWriter $objWriter,
Spreadsheet $spreadsheet)
    {
        if ($spreadsheet->getSecurity()->isSecurityEnabled()) {
            $objWriter->startElement('workbookProtection');
            $objWriter->writeAttribute('lockRevision',
($spreadsheet->getSecurity()->getLockRevision() ? 'true' :
'false'));
            $objWriter->writeAttribute('lockStructure',
($spreadsheet->getSecurity()->getLockStructure() ? 'true' :
'false'));
            $objWriter->writeAttribute('lockWindows',
($spreadsheet->getSecurity()->getLockWindows() ? 'true' :
'false'));

            if ($spreadsheet->getSecurity()->getRevisionsPassword()
!= '') {
               
$objWriter->writeAttribute('revisionsPassword',
$spreadsheet->getSecurity()->getRevisionsPassword());
            }

            if ($spreadsheet->getSecurity()->getWorkbookPassword() !=
'') {
                $objWriter->writeAttribute('workbookPassword',
$spreadsheet->getSecurity()->getWorkbookPassword());
            }

            $objWriter->endElement();
        }
    }

    /**
     * Write calcPr.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param bool $recalcRequired Indicate whether formulas should be
recalculated before writing
     */
    private function writeCalcPr(XMLWriter $objWriter, $recalcRequired =
true)
    {
        $objWriter->startElement('calcPr');

        //    Set the calcid to a higher value than Excel itself will use,
otherwise Excel will always recalc
        //  If MS Excel does do a recalc, then users opening a file in MS
Excel will be prompted to save on exit
        //     because the file has changed
        $objWriter->writeAttribute('calcId',
'999999');
        $objWriter->writeAttribute('calcMode',
'auto');
        //    fullCalcOnLoad isn't needed if we've recalculating
for the save
        $objWriter->writeAttribute('calcCompleted',
($recalcRequired) ? 1 : 0);
        $objWriter->writeAttribute('fullCalcOnLoad',
($recalcRequired) ? 0 : 1);
        $objWriter->writeAttribute('forceFullCalc',
($recalcRequired) ? 0 : 1);

        $objWriter->endElement();
    }

    /**
     * Write sheets.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param Spreadsheet $spreadsheet
     *
     * @throws WriterException
     */
    private function writeSheets(XMLWriter $objWriter, Spreadsheet
$spreadsheet)
    {
        // Write sheets
        $objWriter->startElement('sheets');
        $sheetCount = $spreadsheet->getSheetCount();
        for ($i = 0; $i < $sheetCount; ++$i) {
            // sheet
            $this->writeSheet(
                $objWriter,
                $spreadsheet->getSheet($i)->getTitle(),
                ($i + 1),
                ($i + 1 + 3),
                $spreadsheet->getSheet($i)->getSheetState()
            );
        }

        $objWriter->endElement();
    }

    /**
     * Write sheet.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param string $pSheetname Sheet name
     * @param int $pSheetId Sheet id
     * @param int $pRelId Relationship ID
     * @param string $sheetState Sheet state (visible, hidden, veryHidden)
     *
     * @throws WriterException
     */
    private function writeSheet(XMLWriter $objWriter, $pSheetname,
$pSheetId = 1, $pRelId = 1, $sheetState = 'visible')
    {
        if ($pSheetname != '') {
            // Write sheet
            $objWriter->startElement('sheet');
            $objWriter->writeAttribute('name', $pSheetname);
            $objWriter->writeAttribute('sheetId', $pSheetId);
            if ($sheetState !== 'visible' && $sheetState
!= '') {
                $objWriter->writeAttribute('state',
$sheetState);
            }
            $objWriter->writeAttribute('r:id', 'rId'
. $pRelId);
            $objWriter->endElement();
        } else {
            throw new WriterException('Invalid parameters
passed.');
        }
    }

    /**
     * Write Defined Names.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param Spreadsheet $spreadsheet
     *
     * @throws WriterException
     */
    private function writeDefinedNames(XMLWriter $objWriter, Spreadsheet
$spreadsheet)
    {
        // Write defined names
        $objWriter->startElement('definedNames');

        // Named ranges
        if (count($spreadsheet->getNamedRanges()) > 0) {
            // Named ranges
            $this->writeNamedRanges($objWriter, $spreadsheet);
        }

        // Other defined names
        $sheetCount = $spreadsheet->getSheetCount();
        for ($i = 0; $i < $sheetCount; ++$i) {
            // definedName for autoFilter
            $this->writeDefinedNameForAutofilter($objWriter,
$spreadsheet->getSheet($i), $i);

            // definedName for Print_Titles
            $this->writeDefinedNameForPrintTitles($objWriter,
$spreadsheet->getSheet($i), $i);

            // definedName for Print_Area
            $this->writeDefinedNameForPrintArea($objWriter,
$spreadsheet->getSheet($i), $i);
        }

        $objWriter->endElement();
    }

    /**
     * Write named ranges.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param Spreadsheet $spreadsheet
     *
     * @throws WriterException
     */
    private function writeNamedRanges(XMLWriter $objWriter, Spreadsheet
$spreadsheet)
    {
        // Loop named ranges
        $namedRanges = $spreadsheet->getNamedRanges();
        foreach ($namedRanges as $namedRange) {
            $this->writeDefinedNameForNamedRange($objWriter,
$namedRange);
        }
    }

    /**
     * Write Defined Name for named range.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param NamedRange $pNamedRange
     */
    private function writeDefinedNameForNamedRange(XMLWriter $objWriter,
NamedRange $pNamedRange)
    {
        // definedName for named range
        $objWriter->startElement('definedName');
        $objWriter->writeAttribute('name',
$pNamedRange->getName());
        if ($pNamedRange->getLocalOnly()) {
            $objWriter->writeAttribute('localSheetId',
$pNamedRange->getScope()->getParent()->getIndex($pNamedRange->getScope()));
        }

        // Create absolute coordinate and write as raw text
        $range = Coordinate::splitRange($pNamedRange->getRange());
        $iMax = count($range);
        for ($i = 0; $i < $iMax; ++$i) {
            $range[$i][0] = '\'' .
str_replace("'", "''",
$pNamedRange->getWorksheet()->getTitle()) . '\'!' .
Coordinate::absoluteReference($range[$i][0]);
            if (isset($range[$i][1])) {
                $range[$i][1] =
Coordinate::absoluteReference($range[$i][1]);
            }
        }
        $range = Coordinate::buildRange($range);

        $objWriter->writeRawData($range);

        $objWriter->endElement();
    }

    /**
     * Write Defined Name for autoFilter.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param Worksheet $pSheet
     * @param int $pSheetId
     */
    private function writeDefinedNameForAutofilter(XMLWriter $objWriter,
Worksheet $pSheet, $pSheetId = 0)
    {
        // definedName for autoFilter
        $autoFilterRange = $pSheet->getAutoFilter()->getRange();
        if (!empty($autoFilterRange)) {
            $objWriter->startElement('definedName');
            $objWriter->writeAttribute('name',
'_xlnm._FilterDatabase');
            $objWriter->writeAttribute('localSheetId',
$pSheetId);
            $objWriter->writeAttribute('hidden',
'1');

            // Create absolute coordinate and write as raw text
            $range = Coordinate::splitRange($autoFilterRange);
            $range = $range[0];
            //    Strip any worksheet ref so we can make the cell ref
absolute
            [$ws, $range[0]] = Worksheet::extractSheetTitle($range[0],
true);

            $range[0] = Coordinate::absoluteCoordinate($range[0]);
            $range[1] = Coordinate::absoluteCoordinate($range[1]);
            $range = implode(':', $range);

            $objWriter->writeRawData('\'' .
str_replace("'", "''",
$pSheet->getTitle()) . '\'!' . $range);

            $objWriter->endElement();
        }
    }

    /**
     * Write Defined Name for PrintTitles.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param Worksheet $pSheet
     * @param int $pSheetId
     */
    private function writeDefinedNameForPrintTitles(XMLWriter $objWriter,
Worksheet $pSheet, $pSheetId = 0)
    {
        // definedName for PrintTitles
        if ($pSheet->getPageSetup()->isColumnsToRepeatAtLeftSet() ||
$pSheet->getPageSetup()->isRowsToRepeatAtTopSet()) {
            $objWriter->startElement('definedName');
            $objWriter->writeAttribute('name',
'_xlnm.Print_Titles');
            $objWriter->writeAttribute('localSheetId',
$pSheetId);

            // Setting string
            $settingString = '';

            // Columns to repeat
            if
($pSheet->getPageSetup()->isColumnsToRepeatAtLeftSet()) {
                $repeat =
$pSheet->getPageSetup()->getColumnsToRepeatAtLeft();

                $settingString .= '\'' .
str_replace("'", "''",
$pSheet->getTitle()) . '\'!$' . $repeat[0] .
':$' . $repeat[1];
            }

            // Rows to repeat
            if ($pSheet->getPageSetup()->isRowsToRepeatAtTopSet()) {
                if
($pSheet->getPageSetup()->isColumnsToRepeatAtLeftSet()) {
                    $settingString .= ',';
                }

                $repeat =
$pSheet->getPageSetup()->getRowsToRepeatAtTop();

                $settingString .= '\'' .
str_replace("'", "''",
$pSheet->getTitle()) . '\'!$' . $repeat[0] .
':$' . $repeat[1];
            }

            $objWriter->writeRawData($settingString);

            $objWriter->endElement();
        }
    }

    /**
     * Write Defined Name for PrintTitles.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param Worksheet $pSheet
     * @param int $pSheetId
     */
    private function writeDefinedNameForPrintArea(XMLWriter $objWriter,
Worksheet $pSheet, $pSheetId = 0)
    {
        // definedName for PrintArea
        if ($pSheet->getPageSetup()->isPrintAreaSet()) {
            $objWriter->startElement('definedName');
            $objWriter->writeAttribute('name',
'_xlnm.Print_Area');
            $objWriter->writeAttribute('localSheetId',
$pSheetId);

            // Print area
            $printArea =
Coordinate::splitRange($pSheet->getPageSetup()->getPrintArea());

            $chunks = [];
            foreach ($printArea as $printAreaRect) {
                $printAreaRect[0] =
Coordinate::absoluteReference($printAreaRect[0]);
                $printAreaRect[1] =
Coordinate::absoluteReference($printAreaRect[1]);
                $chunks[] = '\'' .
str_replace("'", "''",
$pSheet->getTitle()) . '\'!' . implode(':',
$printAreaRect);
            }

            $objWriter->writeRawData(implode(',', $chunks));

            $objWriter->endElement();
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xlsx/Worksheet.php000064400000146657151165414060023455
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer\Xlsx;

use PhpOffice\PhpSpreadsheet\Cell\Cell;
use PhpOffice\PhpSpreadsheet\Cell\Coordinate;
use PhpOffice\PhpSpreadsheet\RichText\RichText;
use PhpOffice\PhpSpreadsheet\Shared\StringHelper;
use PhpOffice\PhpSpreadsheet\Shared\XMLWriter;
use PhpOffice\PhpSpreadsheet\Style\Conditional;
use PhpOffice\PhpSpreadsheet\Worksheet\AutoFilter\Column;
use PhpOffice\PhpSpreadsheet\Worksheet\AutoFilter\Column\Rule;
use PhpOffice\PhpSpreadsheet\Worksheet\SheetView;
use PhpOffice\PhpSpreadsheet\Worksheet\Worksheet as
PhpspreadsheetWorksheet;
use PhpOffice\PhpSpreadsheet\Writer\Exception as WriterException;

/**
 * @category   PhpSpreadsheet
 *
 * @copyright  Copyright (c) 2006 - 2015 PhpSpreadsheet
(https://github.com/PHPOffice/PhpSpreadsheet)
 */
class Worksheet extends WriterPart
{
    /**
     * Write worksheet to XML format.
     *
     * @param PhpspreadsheetWorksheet $pSheet
     * @param string[] $pStringTable
     * @param bool $includeCharts Flag indicating if we should write charts
     *
     * @throws WriterException
     *
     * @return string XML Output
     */
    public function writeWorksheet(PhpspreadsheetWorksheet $pSheet,
$pStringTable = null, $includeCharts = false)
    {
        // Create XML writer
        $objWriter = null;
        if ($this->getParentWriter()->getUseDiskCaching()) {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_DISK,
$this->getParentWriter()->getDiskCachingDirectory());
        } else {
            $objWriter = new XMLWriter(XMLWriter::STORAGE_MEMORY);
        }

        // XML header
        $objWriter->startDocument('1.0', 'UTF-8',
'yes');

        // Worksheet
        $objWriter->startElement('worksheet');
        $objWriter->writeAttribute('xml:space',
'preserve');
        $objWriter->writeAttribute('xmlns',
'http://schemas.openxmlformats.org/spreadsheetml/2006/main');
        $objWriter->writeAttribute('xmlns:r',
'http://schemas.openxmlformats.org/officeDocument/2006/relationships');

        $objWriter->writeAttribute('xmlns:xdr',
'http://schemas.openxmlformats.org/drawingml/2006/spreadsheetDrawing');
        $objWriter->writeAttribute('xmlns:x14',
'http://schemas.microsoft.com/office/spreadsheetml/2009/9/main');
        $objWriter->writeAttribute('xmlns:mc',
'http://schemas.openxmlformats.org/markup-compatibility/2006');
        $objWriter->writeAttribute('mc:Ignorable',
'x14ac');
        $objWriter->writeAttribute('xmlns:x14ac',
'http://schemas.microsoft.com/office/spreadsheetml/2009/9/ac');

        // sheetPr
        $this->writeSheetPr($objWriter, $pSheet);

        // Dimension
        $this->writeDimension($objWriter, $pSheet);

        // sheetViews
        $this->writeSheetViews($objWriter, $pSheet);

        // sheetFormatPr
        $this->writeSheetFormatPr($objWriter, $pSheet);

        // cols
        $this->writeCols($objWriter, $pSheet);

        // sheetData
        $this->writeSheetData($objWriter, $pSheet, $pStringTable);

        // sheetProtection
        $this->writeSheetProtection($objWriter, $pSheet);

        // protectedRanges
        $this->writeProtectedRanges($objWriter, $pSheet);

        // autoFilter
        $this->writeAutoFilter($objWriter, $pSheet);

        // mergeCells
        $this->writeMergeCells($objWriter, $pSheet);

        // conditionalFormatting
        $this->writeConditionalFormatting($objWriter, $pSheet);

        // dataValidations
        $this->writeDataValidations($objWriter, $pSheet);

        // hyperlinks
        $this->writeHyperlinks($objWriter, $pSheet);

        // Print options
        $this->writePrintOptions($objWriter, $pSheet);

        // Page margins
        $this->writePageMargins($objWriter, $pSheet);

        // Page setup
        $this->writePageSetup($objWriter, $pSheet);

        // Header / footer
        $this->writeHeaderFooter($objWriter, $pSheet);

        // Breaks
        $this->writeBreaks($objWriter, $pSheet);

        // Drawings and/or Charts
        $this->writeDrawings($objWriter, $pSheet, $includeCharts);

        // LegacyDrawing
        $this->writeLegacyDrawing($objWriter, $pSheet);

        // LegacyDrawingHF
        $this->writeLegacyDrawingHF($objWriter, $pSheet);

        // AlternateContent
        $this->writeAlternateContent($objWriter, $pSheet);

        $objWriter->endElement();

        // Return
        return $objWriter->getData();
    }

    /**
     * Write SheetPr.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param PhpspreadsheetWorksheet $pSheet Worksheet
     */
    private function writeSheetPr(XMLWriter $objWriter,
PhpspreadsheetWorksheet $pSheet)
    {
        // sheetPr
        $objWriter->startElement('sheetPr');
        if ($pSheet->getParent()->hasMacros()) {
            //if the workbook have macros, we need to have codeName for the
sheet
            if (!$pSheet->hasCodeName()) {
                $pSheet->setCodeName($pSheet->getTitle());
            }
            $objWriter->writeAttribute('codeName',
$pSheet->getCodeName());
        }
        $autoFilterRange = $pSheet->getAutoFilter()->getRange();
        if (!empty($autoFilterRange)) {
            $objWriter->writeAttribute('filterMode', 1);
            $pSheet->getAutoFilter()->showHideRows();
        }

        // tabColor
        if ($pSheet->isTabColorSet()) {
            $objWriter->startElement('tabColor');
            $objWriter->writeAttribute('rgb',
$pSheet->getTabColor()->getARGB());
            $objWriter->endElement();
        }

        // outlinePr
        $objWriter->startElement('outlinePr');
        $objWriter->writeAttribute('summaryBelow',
($pSheet->getShowSummaryBelow() ? '1' : '0'));
        $objWriter->writeAttribute('summaryRight',
($pSheet->getShowSummaryRight() ? '1' : '0'));
        $objWriter->endElement();

        // pageSetUpPr
        if ($pSheet->getPageSetup()->getFitToPage()) {
            $objWriter->startElement('pageSetUpPr');
            $objWriter->writeAttribute('fitToPage',
'1');
            $objWriter->endElement();
        }

        $objWriter->endElement();
    }

    /**
     * Write Dimension.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param PhpspreadsheetWorksheet $pSheet Worksheet
     */
    private function writeDimension(XMLWriter $objWriter,
PhpspreadsheetWorksheet $pSheet)
    {
        // dimension
        $objWriter->startElement('dimension');
        $objWriter->writeAttribute('ref',
$pSheet->calculateWorksheetDimension());
        $objWriter->endElement();
    }

    /**
     * Write SheetViews.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param PhpspreadsheetWorksheet $pSheet Worksheet
     *
     * @throws WriterException
     */
    private function writeSheetViews(XMLWriter $objWriter,
PhpspreadsheetWorksheet $pSheet)
    {
        // sheetViews
        $objWriter->startElement('sheetViews');

        // Sheet selected?
        $sheetSelected = false;
        if
($this->getParentWriter()->getSpreadsheet()->getIndex($pSheet) ==
$this->getParentWriter()->getSpreadsheet()->getActiveSheetIndex())
{
            $sheetSelected = true;
        }

        // sheetView
        $objWriter->startElement('sheetView');
        $objWriter->writeAttribute('tabSelected',
$sheetSelected ? '1' : '0');
        $objWriter->writeAttribute('workbookViewId',
'0');

        // Zoom scales
        if ($pSheet->getSheetView()->getZoomScale() != 100) {
            $objWriter->writeAttribute('zoomScale',
$pSheet->getSheetView()->getZoomScale());
        }
        if ($pSheet->getSheetView()->getZoomScaleNormal() != 100) {
            $objWriter->writeAttribute('zoomScaleNormal',
$pSheet->getSheetView()->getZoomScaleNormal());
        }

        // Show zeros (Excel also writes this attribute only if set to
false)
        if ($pSheet->getSheetView()->getShowZeros() === false) {
            $objWriter->writeAttribute('showZeros', 0);
        }

        // View Layout Type
        if ($pSheet->getSheetView()->getView() !==
SheetView::SHEETVIEW_NORMAL) {
            $objWriter->writeAttribute('view',
$pSheet->getSheetView()->getView());
        }

        // Gridlines
        if ($pSheet->getShowGridlines()) {
            $objWriter->writeAttribute('showGridLines',
'true');
        } else {
            $objWriter->writeAttribute('showGridLines',
'false');
        }

        // Row and column headers
        if ($pSheet->getShowRowColHeaders()) {
            $objWriter->writeAttribute('showRowColHeaders',
'1');
        } else {
            $objWriter->writeAttribute('showRowColHeaders',
'0');
        }

        // Right-to-left
        if ($pSheet->getRightToLeft()) {
            $objWriter->writeAttribute('rightToLeft',
'true');
        }

        $activeCell = $pSheet->getActiveCell();
        $sqref = $pSheet->getSelectedCells();

        // Pane
        $pane = '';
        if ($pSheet->getFreezePane()) {
            [$xSplit, $ySplit] =
Coordinate::coordinateFromString($pSheet->getFreezePane());
            $xSplit = Coordinate::columnIndexFromString($xSplit);
            --$xSplit;
            --$ySplit;

            $topLeftCell = $pSheet->getTopLeftCell();

            // pane
            $pane = 'topRight';
            $objWriter->startElement('pane');
            if ($xSplit > 0) {
                $objWriter->writeAttribute('xSplit', $xSplit);
            }
            if ($ySplit > 0) {
                $objWriter->writeAttribute('ySplit', $ySplit);
                $pane = ($xSplit > 0) ? 'bottomRight' :
'bottomLeft';
            }
            $objWriter->writeAttribute('topLeftCell',
$topLeftCell);
            $objWriter->writeAttribute('activePane', $pane);
            $objWriter->writeAttribute('state',
'frozen');
            $objWriter->endElement();

            if (($xSplit > 0) && ($ySplit > 0)) {
                //    Write additional selections if more than two panes
(ie both an X and a Y split)
                $objWriter->startElement('selection');
                $objWriter->writeAttribute('pane',
'topRight');
                $objWriter->endElement();
                $objWriter->startElement('selection');
                $objWriter->writeAttribute('pane',
'bottomLeft');
                $objWriter->endElement();
            }
        }

        // Selection
        // Only need to write selection element if we have a split pane
        // We cheat a little by over-riding the active cell selection,
setting it to the split cell
        $objWriter->startElement('selection');
        if ($pane != '') {
            $objWriter->writeAttribute('pane', $pane);
        }
        $objWriter->writeAttribute('activeCell', $activeCell);
        $objWriter->writeAttribute('sqref', $sqref);
        $objWriter->endElement();

        $objWriter->endElement();

        $objWriter->endElement();
    }

    /**
     * Write SheetFormatPr.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param PhpspreadsheetWorksheet $pSheet Worksheet
     */
    private function writeSheetFormatPr(XMLWriter $objWriter,
PhpspreadsheetWorksheet $pSheet)
    {
        // sheetFormatPr
        $objWriter->startElement('sheetFormatPr');

        // Default row height
        if ($pSheet->getDefaultRowDimension()->getRowHeight() >=
0) {
            $objWriter->writeAttribute('customHeight',
'true');
            $objWriter->writeAttribute('defaultRowHeight',
StringHelper::formatNumber($pSheet->getDefaultRowDimension()->getRowHeight()));
        } else {
            $objWriter->writeAttribute('defaultRowHeight',
'14.4');
        }

        // Set Zero Height row
        if ((string)
$pSheet->getDefaultRowDimension()->getZeroHeight() === '1'
||
            strtolower((string)
$pSheet->getDefaultRowDimension()->getZeroHeight()) ==
'true') {
            $objWriter->writeAttribute('zeroHeight',
'1');
        }

        // Default column width
        if ($pSheet->getDefaultColumnDimension()->getWidth() >= 0)
{
            $objWriter->writeAttribute('defaultColWidth',
StringHelper::formatNumber($pSheet->getDefaultColumnDimension()->getWidth()));
        }

        // Outline level - row
        $outlineLevelRow = 0;
        foreach ($pSheet->getRowDimensions() as $dimension) {
            if ($dimension->getOutlineLevel() > $outlineLevelRow) {
                $outlineLevelRow = $dimension->getOutlineLevel();
            }
        }
        $objWriter->writeAttribute('outlineLevelRow', (int)
$outlineLevelRow);

        // Outline level - column
        $outlineLevelCol = 0;
        foreach ($pSheet->getColumnDimensions() as $dimension) {
            if ($dimension->getOutlineLevel() > $outlineLevelCol) {
                $outlineLevelCol = $dimension->getOutlineLevel();
            }
        }
        $objWriter->writeAttribute('outlineLevelCol', (int)
$outlineLevelCol);

        $objWriter->endElement();
    }

    /**
     * Write Cols.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param PhpspreadsheetWorksheet $pSheet Worksheet
     */
    private function writeCols(XMLWriter $objWriter,
PhpspreadsheetWorksheet $pSheet)
    {
        // cols
        if (count($pSheet->getColumnDimensions()) > 0) {
            $objWriter->startElement('cols');

            $pSheet->calculateColumnWidths();

            // Loop through column dimensions
            foreach ($pSheet->getColumnDimensions() as $colDimension) {
                // col
                $objWriter->startElement('col');
                $objWriter->writeAttribute('min',
Coordinate::columnIndexFromString($colDimension->getColumnIndex()));
                $objWriter->writeAttribute('max',
Coordinate::columnIndexFromString($colDimension->getColumnIndex()));

                if ($colDimension->getWidth() < 0) {
                    // No width set, apply default of 10
                    $objWriter->writeAttribute('width',
'9.10');
                } else {
                    // Width set
                    $objWriter->writeAttribute('width',
StringHelper::formatNumber($colDimension->getWidth()));
                }

                // Column visibility
                if ($colDimension->getVisible() === false) {
                    $objWriter->writeAttribute('hidden',
'true');
                }

                // Auto size?
                if ($colDimension->getAutoSize()) {
                    $objWriter->writeAttribute('bestFit',
'true');
                }

                // Custom width?
                if ($colDimension->getWidth() !=
$pSheet->getDefaultColumnDimension()->getWidth()) {
                    $objWriter->writeAttribute('customWidth',
'true');
                }

                // Collapsed
                if ($colDimension->getCollapsed() === true) {
                    $objWriter->writeAttribute('collapsed',
'true');
                }

                // Outline level
                if ($colDimension->getOutlineLevel() > 0) {
                    $objWriter->writeAttribute('outlineLevel',
$colDimension->getOutlineLevel());
                }

                // Style
                $objWriter->writeAttribute('style',
$colDimension->getXfIndex());

                $objWriter->endElement();
            }

            $objWriter->endElement();
        }
    }

    /**
     * Write SheetProtection.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param PhpspreadsheetWorksheet $pSheet Worksheet
     */
    private function writeSheetProtection(XMLWriter $objWriter,
PhpspreadsheetWorksheet $pSheet)
    {
        // sheetProtection
        $objWriter->startElement('sheetProtection');

        if ($pSheet->getProtection()->getPassword() !== '')
{
            $objWriter->writeAttribute('password',
$pSheet->getProtection()->getPassword());
        }

        $objWriter->writeAttribute('sheet',
($pSheet->getProtection()->getSheet() ? 'true' :
'false'));
        $objWriter->writeAttribute('objects',
($pSheet->getProtection()->getObjects() ? 'true' :
'false'));
        $objWriter->writeAttribute('scenarios',
($pSheet->getProtection()->getScenarios() ? 'true' :
'false'));
        $objWriter->writeAttribute('formatCells',
($pSheet->getProtection()->getFormatCells() ? 'true' :
'false'));
        $objWriter->writeAttribute('formatColumns',
($pSheet->getProtection()->getFormatColumns() ? 'true' :
'false'));
        $objWriter->writeAttribute('formatRows',
($pSheet->getProtection()->getFormatRows() ? 'true' :
'false'));
        $objWriter->writeAttribute('insertColumns',
($pSheet->getProtection()->getInsertColumns() ? 'true' :
'false'));
        $objWriter->writeAttribute('insertRows',
($pSheet->getProtection()->getInsertRows() ? 'true' :
'false'));
        $objWriter->writeAttribute('insertHyperlinks',
($pSheet->getProtection()->getInsertHyperlinks() ? 'true' :
'false'));
        $objWriter->writeAttribute('deleteColumns',
($pSheet->getProtection()->getDeleteColumns() ? 'true' :
'false'));
        $objWriter->writeAttribute('deleteRows',
($pSheet->getProtection()->getDeleteRows() ? 'true' :
'false'));
        $objWriter->writeAttribute('selectLockedCells',
($pSheet->getProtection()->getSelectLockedCells() ? 'true'
: 'false'));
        $objWriter->writeAttribute('sort',
($pSheet->getProtection()->getSort() ? 'true' :
'false'));
        $objWriter->writeAttribute('autoFilter',
($pSheet->getProtection()->getAutoFilter() ? 'true' :
'false'));
        $objWriter->writeAttribute('pivotTables',
($pSheet->getProtection()->getPivotTables() ? 'true' :
'false'));
        $objWriter->writeAttribute('selectUnlockedCells',
($pSheet->getProtection()->getSelectUnlockedCells() ?
'true' : 'false'));
        $objWriter->endElement();
    }

    /**
     * Write ConditionalFormatting.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param PhpspreadsheetWorksheet $pSheet Worksheet
     *
     * @throws WriterException
     */
    private function writeConditionalFormatting(XMLWriter $objWriter,
PhpspreadsheetWorksheet $pSheet)
    {
        // Conditional id
        $id = 1;

        // Loop through styles in the current worksheet
        foreach ($pSheet->getConditionalStylesCollection() as
$cellCoordinate => $conditionalStyles) {
            foreach ($conditionalStyles as $conditional) {
                // WHY was this again?
                // if
($this->getParentWriter()->getStylesConditionalHashTable()->getIndexForHashCode($conditional->getHashCode())
== '') {
                //    continue;
                // }
                if ($conditional->getConditionType() !=
Conditional::CONDITION_NONE) {
                    // conditionalFormatting
                   
$objWriter->startElement('conditionalFormatting');
                    $objWriter->writeAttribute('sqref',
$cellCoordinate);

                    // cfRule
                    $objWriter->startElement('cfRule');
                    $objWriter->writeAttribute('type',
$conditional->getConditionType());
                    $objWriter->writeAttribute('dxfId',
$this->getParentWriter()->getStylesConditionalHashTable()->getIndexForHashCode($conditional->getHashCode()));
                    $objWriter->writeAttribute('priority',
$id++);

                    if (($conditional->getConditionType() ==
Conditional::CONDITION_CELLIS || $conditional->getConditionType() ==
Conditional::CONDITION_CONTAINSTEXT)
                        && $conditional->getOperatorType() !=
Conditional::OPERATOR_NONE) {
                        $objWriter->writeAttribute('operator',
$conditional->getOperatorType());
                    }

                    if ($conditional->getConditionType() ==
Conditional::CONDITION_CONTAINSTEXT
                        && $conditional->getText() !== null) {
                        $objWriter->writeAttribute('text',
$conditional->getText());
                    }

                    if ($conditional->getStopIfTrue()) {
                       
$objWriter->writeAttribute('stopIfTrue', '1');
                    }

                    if ($conditional->getConditionType() ==
Conditional::CONDITION_CONTAINSTEXT
                        && $conditional->getOperatorType() ==
Conditional::OPERATOR_CONTAINSTEXT
                        && $conditional->getText() !== null) {
                        $objWriter->writeElement('formula',
'NOT(ISERROR(SEARCH("' . $conditional->getText() .
'",' . $cellCoordinate . ')))');
                    } elseif ($conditional->getConditionType() ==
Conditional::CONDITION_CONTAINSTEXT
                        && $conditional->getOperatorType() ==
Conditional::OPERATOR_BEGINSWITH
                        && $conditional->getText() !== null) {
                        $objWriter->writeElement('formula',
'LEFT(' . $cellCoordinate . ',' .
strlen($conditional->getText()) . ')="' .
$conditional->getText() . '"');
                    } elseif ($conditional->getConditionType() ==
Conditional::CONDITION_CONTAINSTEXT
                        && $conditional->getOperatorType() ==
Conditional::OPERATOR_ENDSWITH
                        && $conditional->getText() !== null) {
                        $objWriter->writeElement('formula',
'RIGHT(' . $cellCoordinate . ',' .
strlen($conditional->getText()) . ')="' .
$conditional->getText() . '"');
                    } elseif ($conditional->getConditionType() ==
Conditional::CONDITION_CONTAINSTEXT
                        && $conditional->getOperatorType() ==
Conditional::OPERATOR_NOTCONTAINS
                        && $conditional->getText() !== null) {
                        $objWriter->writeElement('formula',
'ISERROR(SEARCH("' . $conditional->getText() .
'",' . $cellCoordinate . '))');
                    } elseif ($conditional->getConditionType() ==
Conditional::CONDITION_CELLIS
                        || $conditional->getConditionType() ==
Conditional::CONDITION_CONTAINSTEXT
                        || $conditional->getConditionType() ==
Conditional::CONDITION_EXPRESSION) {
                        foreach ($conditional->getConditions() as
$formula) {
                            // Formula
                           
$objWriter->writeElement('formula', $formula);
                        }
                    } elseif ($conditional->getConditionType() ==
Conditional::CONDITION_CONTAINSBLANKS) {
                        // formula copied from ms xlsx xml source file
                        $objWriter->writeElement('formula',
'LEN(TRIM(' . $cellCoordinate . '))=0');
                    } elseif ($conditional->getConditionType() ==
Conditional::CONDITION_NOTCONTAINSBLANKS) {
                        // formula copied from ms xlsx xml source file
                        $objWriter->writeElement('formula',
'LEN(TRIM(' . $cellCoordinate . '))>0');
                    }

                    $objWriter->endElement();

                    $objWriter->endElement();
                }
            }
        }
    }

    /**
     * Write DataValidations.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param PhpspreadsheetWorksheet $pSheet Worksheet
     */
    private function writeDataValidations(XMLWriter $objWriter,
PhpspreadsheetWorksheet $pSheet)
    {
        // Datavalidation collection
        $dataValidationCollection =
$pSheet->getDataValidationCollection();

        // Write data validations?
        if (!empty($dataValidationCollection)) {
            $dataValidationCollection =
Coordinate::mergeRangesInCollection($dataValidationCollection);
            $objWriter->startElement('dataValidations');
            $objWriter->writeAttribute('count',
count($dataValidationCollection));

            foreach ($dataValidationCollection as $coordinate => $dv) {
                $objWriter->startElement('dataValidation');

                if ($dv->getType() != '') {
                    $objWriter->writeAttribute('type',
$dv->getType());
                }

                if ($dv->getErrorStyle() != '') {
                    $objWriter->writeAttribute('errorStyle',
$dv->getErrorStyle());
                }

                if ($dv->getOperator() != '') {
                    $objWriter->writeAttribute('operator',
$dv->getOperator());
                }

                $objWriter->writeAttribute('allowBlank',
($dv->getAllowBlank() ? '1' : '0'));
                $objWriter->writeAttribute('showDropDown',
(!$dv->getShowDropDown() ? '1' : '0'));
                $objWriter->writeAttribute('showInputMessage',
($dv->getShowInputMessage() ? '1' : '0'));
                $objWriter->writeAttribute('showErrorMessage',
($dv->getShowErrorMessage() ? '1' : '0'));

                if ($dv->getErrorTitle() !== '') {
                    $objWriter->writeAttribute('errorTitle',
$dv->getErrorTitle());
                }
                if ($dv->getError() !== '') {
                    $objWriter->writeAttribute('error',
$dv->getError());
                }
                if ($dv->getPromptTitle() !== '') {
                    $objWriter->writeAttribute('promptTitle',
$dv->getPromptTitle());
                }
                if ($dv->getPrompt() !== '') {
                    $objWriter->writeAttribute('prompt',
$dv->getPrompt());
                }

                $objWriter->writeAttribute('sqref',
$coordinate);

                if ($dv->getFormula1() !== '') {
                    $objWriter->writeElement('formula1',
$dv->getFormula1());
                }
                if ($dv->getFormula2() !== '') {
                    $objWriter->writeElement('formula2',
$dv->getFormula2());
                }

                $objWriter->endElement();
            }

            $objWriter->endElement();
        }
    }

    /**
     * Write Hyperlinks.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param PhpspreadsheetWorksheet $pSheet Worksheet
     */
    private function writeHyperlinks(XMLWriter $objWriter,
PhpspreadsheetWorksheet $pSheet)
    {
        // Hyperlink collection
        $hyperlinkCollection = $pSheet->getHyperlinkCollection();

        // Relation ID
        $relationId = 1;

        // Write hyperlinks?
        if (!empty($hyperlinkCollection)) {
            $objWriter->startElement('hyperlinks');

            foreach ($hyperlinkCollection as $coordinate => $hyperlink)
{
                $objWriter->startElement('hyperlink');

                $objWriter->writeAttribute('ref',
$coordinate);
                if (!$hyperlink->isInternal()) {
                    $objWriter->writeAttribute('r:id',
'rId_hyperlink_' . $relationId);
                    ++$relationId;
                } else {
                    $objWriter->writeAttribute('location',
str_replace('sheet://', '', $hyperlink->getUrl()));
                }

                if ($hyperlink->getTooltip() !== '') {
                    $objWriter->writeAttribute('tooltip',
$hyperlink->getTooltip());
                    $objWriter->writeAttribute('display',
$hyperlink->getTooltip());
                }

                $objWriter->endElement();
            }

            $objWriter->endElement();
        }
    }

    /**
     * Write ProtectedRanges.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param PhpspreadsheetWorksheet $pSheet Worksheet
     */
    private function writeProtectedRanges(XMLWriter $objWriter,
PhpspreadsheetWorksheet $pSheet)
    {
        if (count($pSheet->getProtectedCells()) > 0) {
            // protectedRanges
            $objWriter->startElement('protectedRanges');

            // Loop protectedRanges
            foreach ($pSheet->getProtectedCells() as $protectedCell
=> $passwordHash) {
                // protectedRange
                $objWriter->startElement('protectedRange');
                $objWriter->writeAttribute('name',
'p' . md5($protectedCell));
                $objWriter->writeAttribute('sqref',
$protectedCell);
                if (!empty($passwordHash)) {
                    $objWriter->writeAttribute('password',
$passwordHash);
                }
                $objWriter->endElement();
            }

            $objWriter->endElement();
        }
    }

    /**
     * Write MergeCells.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param PhpspreadsheetWorksheet $pSheet Worksheet
     */
    private function writeMergeCells(XMLWriter $objWriter,
PhpspreadsheetWorksheet $pSheet)
    {
        if (count($pSheet->getMergeCells()) > 0) {
            // mergeCells
            $objWriter->startElement('mergeCells');

            // Loop mergeCells
            foreach ($pSheet->getMergeCells() as $mergeCell) {
                // mergeCell
                $objWriter->startElement('mergeCell');
                $objWriter->writeAttribute('ref', $mergeCell);
                $objWriter->endElement();
            }

            $objWriter->endElement();
        }
    }

    /**
     * Write PrintOptions.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param PhpspreadsheetWorksheet $pSheet Worksheet
     */
    private function writePrintOptions(XMLWriter $objWriter,
PhpspreadsheetWorksheet $pSheet)
    {
        // printOptions
        $objWriter->startElement('printOptions');

        $objWriter->writeAttribute('gridLines',
($pSheet->getPrintGridlines() ? 'true' : 'false'));
        $objWriter->writeAttribute('gridLinesSet',
'true');

        if ($pSheet->getPageSetup()->getHorizontalCentered()) {
            $objWriter->writeAttribute('horizontalCentered',
'true');
        }

        if ($pSheet->getPageSetup()->getVerticalCentered()) {
            $objWriter->writeAttribute('verticalCentered',
'true');
        }

        $objWriter->endElement();
    }

    /**
     * Write PageMargins.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param PhpspreadsheetWorksheet $pSheet Worksheet
     */
    private function writePageMargins(XMLWriter $objWriter,
PhpspreadsheetWorksheet $pSheet)
    {
        // pageMargins
        $objWriter->startElement('pageMargins');
        $objWriter->writeAttribute('left',
StringHelper::formatNumber($pSheet->getPageMargins()->getLeft()));
        $objWriter->writeAttribute('right',
StringHelper::formatNumber($pSheet->getPageMargins()->getRight()));
        $objWriter->writeAttribute('top',
StringHelper::formatNumber($pSheet->getPageMargins()->getTop()));
        $objWriter->writeAttribute('bottom',
StringHelper::formatNumber($pSheet->getPageMargins()->getBottom()));
        $objWriter->writeAttribute('header',
StringHelper::formatNumber($pSheet->getPageMargins()->getHeader()));
        $objWriter->writeAttribute('footer',
StringHelper::formatNumber($pSheet->getPageMargins()->getFooter()));
        $objWriter->endElement();
    }

    /**
     * Write AutoFilter.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param PhpspreadsheetWorksheet $pSheet Worksheet
     */
    private function writeAutoFilter(XMLWriter $objWriter,
PhpspreadsheetWorksheet $pSheet)
    {
        $autoFilterRange = $pSheet->getAutoFilter()->getRange();
        if (!empty($autoFilterRange)) {
            // autoFilter
            $objWriter->startElement('autoFilter');

            // Strip any worksheet reference from the filter coordinates
            $range = Coordinate::splitRange($autoFilterRange);
            $range = $range[0];
            //    Strip any worksheet ref
            [$ws, $range[0]] =
PhpspreadsheetWorksheet::extractSheetTitle($range[0], true);
            $range = implode(':', $range);

            $objWriter->writeAttribute('ref',
str_replace('$', '', $range));

            $columns = $pSheet->getAutoFilter()->getColumns();
            if (count($columns) > 0) {
                foreach ($columns as $columnID => $column) {
                    $rules = $column->getRules();
                    if (count($rules) > 0) {
                       
$objWriter->startElement('filterColumn');
                        $objWriter->writeAttribute('colId',
$pSheet->getAutoFilter()->getColumnOffset($columnID));

                       
$objWriter->startElement($column->getFilterType());
                        if ($column->getJoin() ==
Column::AUTOFILTER_COLUMN_JOIN_AND) {
                            $objWriter->writeAttribute('and',
1);
                        }

                        foreach ($rules as $rule) {
                            if (($column->getFilterType() ===
Column::AUTOFILTER_FILTERTYPE_FILTER) &&
                                ($rule->getOperator() ===
Rule::AUTOFILTER_COLUMN_RULE_EQUAL) &&
                                ($rule->getValue() === '')) {
                                //    Filter rule for Blanks
                               
$objWriter->writeAttribute('blank', 1);
                            } elseif ($rule->getRuleType() ===
Rule::AUTOFILTER_RULETYPE_DYNAMICFILTER) {
                                //    Dynamic Filter Rule
                               
$objWriter->writeAttribute('type', $rule->getGrouping());
                                $val =
$column->getAttribute('val');
                                if ($val !== null) {
                                   
$objWriter->writeAttribute('val', $val);
                                }
                                $maxVal =
$column->getAttribute('maxVal');
                                if ($maxVal !== null) {
                                   
$objWriter->writeAttribute('maxVal', $maxVal);
                                }
                            } elseif ($rule->getRuleType() ===
Rule::AUTOFILTER_RULETYPE_TOPTENFILTER) {
                                //    Top 10 Filter Rule
                               
$objWriter->writeAttribute('val', $rule->getValue());
                               
$objWriter->writeAttribute('percent',
(($rule->getOperator() === Rule::AUTOFILTER_COLUMN_RULE_TOPTEN_PERCENT)
? '1' : '0'));
                               
$objWriter->writeAttribute('top', (($rule->getGrouping()
=== Rule::AUTOFILTER_COLUMN_RULE_TOPTEN_TOP) ? '1' :
'0'));
                            } else {
                                //    Filter, DateGroupItem or CustomFilter
                               
$objWriter->startElement($rule->getRuleType());

                                if ($rule->getOperator() !==
Rule::AUTOFILTER_COLUMN_RULE_EQUAL) {
                                   
$objWriter->writeAttribute('operator',
$rule->getOperator());
                                }
                                if ($rule->getRuleType() ===
Rule::AUTOFILTER_RULETYPE_DATEGROUP) {
                                    // Date Group filters
                                    foreach ($rule->getValue() as $key
=> $value) {
                                        if ($value > '') {
                                           
$objWriter->writeAttribute($key, $value);
                                        }
                                    }
                                   
$objWriter->writeAttribute('dateTimeGrouping',
$rule->getGrouping());
                                } else {
                                   
$objWriter->writeAttribute('val', $rule->getValue());
                                }

                                $objWriter->endElement();
                            }
                        }

                        $objWriter->endElement();

                        $objWriter->endElement();
                    }
                }
            }
            $objWriter->endElement();
        }
    }

    /**
     * Write PageSetup.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param PhpspreadsheetWorksheet $pSheet Worksheet
     */
    private function writePageSetup(XMLWriter $objWriter,
PhpspreadsheetWorksheet $pSheet)
    {
        // pageSetup
        $objWriter->startElement('pageSetup');
        $objWriter->writeAttribute('paperSize',
$pSheet->getPageSetup()->getPaperSize());
        $objWriter->writeAttribute('orientation',
$pSheet->getPageSetup()->getOrientation());

        if ($pSheet->getPageSetup()->getScale() !== null) {
            $objWriter->writeAttribute('scale',
$pSheet->getPageSetup()->getScale());
        }
        if ($pSheet->getPageSetup()->getFitToHeight() !== null) {
            $objWriter->writeAttribute('fitToHeight',
$pSheet->getPageSetup()->getFitToHeight());
        } else {
            $objWriter->writeAttribute('fitToHeight',
'0');
        }
        if ($pSheet->getPageSetup()->getFitToWidth() !== null) {
            $objWriter->writeAttribute('fitToWidth',
$pSheet->getPageSetup()->getFitToWidth());
        } else {
            $objWriter->writeAttribute('fitToWidth',
'0');
        }
        if ($pSheet->getPageSetup()->getFirstPageNumber() !== null) {
            $objWriter->writeAttribute('firstPageNumber',
$pSheet->getPageSetup()->getFirstPageNumber());
            $objWriter->writeAttribute('useFirstPageNumber',
'1');
        }

        $getUnparsedLoadedData =
$pSheet->getParent()->getUnparsedLoadedData();
        if
(isset($getUnparsedLoadedData['sheets'][$pSheet->getCodeName()]['pageSetupRelId']))
{
            $objWriter->writeAttribute('r:id',
$getUnparsedLoadedData['sheets'][$pSheet->getCodeName()]['pageSetupRelId']);
        }

        $objWriter->endElement();
    }

    /**
     * Write Header / Footer.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param PhpspreadsheetWorksheet $pSheet Worksheet
     */
    private function writeHeaderFooter(XMLWriter $objWriter,
PhpspreadsheetWorksheet $pSheet)
    {
        // headerFooter
        $objWriter->startElement('headerFooter');
        $objWriter->writeAttribute('differentOddEven',
($pSheet->getHeaderFooter()->getDifferentOddEven() ? 'true'
: 'false'));
        $objWriter->writeAttribute('differentFirst',
($pSheet->getHeaderFooter()->getDifferentFirst() ? 'true' :
'false'));
        $objWriter->writeAttribute('scaleWithDoc',
($pSheet->getHeaderFooter()->getScaleWithDocument() ?
'true' : 'false'));
        $objWriter->writeAttribute('alignWithMargins',
($pSheet->getHeaderFooter()->getAlignWithMargins() ? 'true'
: 'false'));

        $objWriter->writeElement('oddHeader',
$pSheet->getHeaderFooter()->getOddHeader());
        $objWriter->writeElement('oddFooter',
$pSheet->getHeaderFooter()->getOddFooter());
        $objWriter->writeElement('evenHeader',
$pSheet->getHeaderFooter()->getEvenHeader());
        $objWriter->writeElement('evenFooter',
$pSheet->getHeaderFooter()->getEvenFooter());
        $objWriter->writeElement('firstHeader',
$pSheet->getHeaderFooter()->getFirstHeader());
        $objWriter->writeElement('firstFooter',
$pSheet->getHeaderFooter()->getFirstFooter());
        $objWriter->endElement();
    }

    /**
     * Write Breaks.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param PhpspreadsheetWorksheet $pSheet Worksheet
     */
    private function writeBreaks(XMLWriter $objWriter,
PhpspreadsheetWorksheet $pSheet)
    {
        // Get row and column breaks
        $aRowBreaks = [];
        $aColumnBreaks = [];
        foreach ($pSheet->getBreaks() as $cell => $breakType) {
            if ($breakType == PhpspreadsheetWorksheet::BREAK_ROW) {
                $aRowBreaks[] = $cell;
            } elseif ($breakType == PhpspreadsheetWorksheet::BREAK_COLUMN)
{
                $aColumnBreaks[] = $cell;
            }
        }

        // rowBreaks
        if (!empty($aRowBreaks)) {
            $objWriter->startElement('rowBreaks');
            $objWriter->writeAttribute('count',
count($aRowBreaks));
            $objWriter->writeAttribute('manualBreakCount',
count($aRowBreaks));

            foreach ($aRowBreaks as $cell) {
                $coords = Coordinate::coordinateFromString($cell);

                $objWriter->startElement('brk');
                $objWriter->writeAttribute('id', $coords[1]);
                $objWriter->writeAttribute('man',
'1');
                $objWriter->endElement();
            }

            $objWriter->endElement();
        }

        // Second, write column breaks
        if (!empty($aColumnBreaks)) {
            $objWriter->startElement('colBreaks');
            $objWriter->writeAttribute('count',
count($aColumnBreaks));
            $objWriter->writeAttribute('manualBreakCount',
count($aColumnBreaks));

            foreach ($aColumnBreaks as $cell) {
                $coords = Coordinate::coordinateFromString($cell);

                $objWriter->startElement('brk');
                $objWriter->writeAttribute('id',
Coordinate::columnIndexFromString($coords[0]) - 1);
                $objWriter->writeAttribute('man',
'1');
                $objWriter->endElement();
            }

            $objWriter->endElement();
        }
    }

    /**
     * Write SheetData.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param PhpspreadsheetWorksheet $pSheet Worksheet
     * @param string[] $pStringTable String table
     *
     * @throws WriterException
     */
    private function writeSheetData(XMLWriter $objWriter,
PhpspreadsheetWorksheet $pSheet, array $pStringTable)
    {
        // Flipped stringtable, for faster index searching
        $aFlippedStringTable =
$this->getParentWriter()->getWriterPart('stringtable')->flipStringTable($pStringTable);

        // sheetData
        $objWriter->startElement('sheetData');

        // Get column count
        $colCount =
Coordinate::columnIndexFromString($pSheet->getHighestColumn());

        // Highest row number
        $highestRow = $pSheet->getHighestRow();

        // Loop through cells
        $cellsByRow = [];
        foreach ($pSheet->getCoordinates() as $coordinate) {
            $cellAddress = Coordinate::coordinateFromString($coordinate);
            $cellsByRow[$cellAddress[1]][] = $coordinate;
        }

        $currentRow = 0;
        while ($currentRow++ < $highestRow) {
            // Get row dimension
            $rowDimension = $pSheet->getRowDimension($currentRow);

            // Write current row?
            $writeCurrentRow = isset($cellsByRow[$currentRow]) ||
$rowDimension->getRowHeight() >= 0 || $rowDimension->getVisible()
== false || $rowDimension->getCollapsed() == true ||
$rowDimension->getOutlineLevel() > 0 ||
$rowDimension->getXfIndex() !== null;

            if ($writeCurrentRow) {
                // Start a new row
                $objWriter->startElement('row');
                $objWriter->writeAttribute('r', $currentRow);
                $objWriter->writeAttribute('spans',
'1:' . $colCount);

                // Row dimensions
                if ($rowDimension->getRowHeight() >= 0) {
                    $objWriter->writeAttribute('customHeight',
'1');
                    $objWriter->writeAttribute('ht',
StringHelper::formatNumber($rowDimension->getRowHeight()));
                }

                // Row visibility
                if (!$rowDimension->getVisible() === true) {
                    $objWriter->writeAttribute('hidden',
'true');
                }

                // Collapsed
                if ($rowDimension->getCollapsed() === true) {
                    $objWriter->writeAttribute('collapsed',
'true');
                }

                // Outline level
                if ($rowDimension->getOutlineLevel() > 0) {
                    $objWriter->writeAttribute('outlineLevel',
$rowDimension->getOutlineLevel());
                }

                // Style
                if ($rowDimension->getXfIndex() !== null) {
                    $objWriter->writeAttribute('s',
$rowDimension->getXfIndex());
                    $objWriter->writeAttribute('customFormat',
'1');
                }

                // Write cells
                if (isset($cellsByRow[$currentRow])) {
                    foreach ($cellsByRow[$currentRow] as $cellAddress) {
                        // Write cell
                        $this->writeCell($objWriter, $pSheet,
$cellAddress, $aFlippedStringTable);
                    }
                }

                // End row
                $objWriter->endElement();
            }
        }

        $objWriter->endElement();
    }

    /**
     * Write Cell.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param PhpspreadsheetWorksheet $pSheet Worksheet
     * @param Cell $pCellAddress Cell Address
     * @param string[] $pFlippedStringTable String table (flipped), for
faster index searching
     *
     * @throws WriterException
     */
    private function writeCell(XMLWriter $objWriter,
PhpspreadsheetWorksheet $pSheet, $pCellAddress, array $pFlippedStringTable)
    {
        // Cell
        $pCell = $pSheet->getCell($pCellAddress);
        $objWriter->startElement('c');
        $objWriter->writeAttribute('r', $pCellAddress);

        // Sheet styles
        if ($pCell->getXfIndex() != '') {
            $objWriter->writeAttribute('s',
$pCell->getXfIndex());
        }

        // If cell value is supplied, write cell value
        $cellValue = $pCell->getValue();
        if (is_object($cellValue) || $cellValue !== '') {
            // Map type
            $mappedType = $pCell->getDataType();

            // Write data type depending on its type
            switch (strtolower($mappedType)) {
                case 'inlinestr':    // Inline string
                case 's':            // String
                case 'b':            // Boolean
                    $objWriter->writeAttribute('t',
$mappedType);

                    break;
                case 'f':            // Formula
                    $calculatedValue =
($this->getParentWriter()->getPreCalculateFormulas()) ?
                        $pCell->getCalculatedValue() : $cellValue;
                    if (is_string($calculatedValue)) {
                        $objWriter->writeAttribute('t',
'str');
                    } elseif (is_bool($calculatedValue)) {
                        $objWriter->writeAttribute('t',
'b');
                    }

                    break;
                case 'e':            // Error
                    $objWriter->writeAttribute('t',
$mappedType);
            }

            // Write data depending on its type
            switch (strtolower($mappedType)) {
                case 'inlinestr':    // Inline string
                    if (!$cellValue instanceof RichText) {
                        $objWriter->writeElement('t',
StringHelper::controlCharacterPHP2OOXML(htmlspecialchars($cellValue)));
                    } elseif ($cellValue instanceof RichText) {
                        $objWriter->startElement('is');
                       
$this->getParentWriter()->getWriterPart('stringtable')->writeRichText($objWriter,
$cellValue);
                        $objWriter->endElement();
                    }

                    break;
                case 's':            // String
                    if (!$cellValue instanceof RichText) {
                        if (isset($pFlippedStringTable[$cellValue])) {
                            $objWriter->writeElement('v',
$pFlippedStringTable[$cellValue]);
                        }
                    } elseif ($cellValue instanceof RichText) {
                        $objWriter->writeElement('v',
$pFlippedStringTable[$cellValue->getHashCode()]);
                    }

                    break;
                case 'f':            // Formula
                    $attributes = $pCell->getFormulaAttributes();
                    if (($attributes['t'] ?? null) ===
'array') {
                        $objWriter->startElement('f');
                        $objWriter->writeAttribute('t',
'array');
                        $objWriter->writeAttribute('ref',
$pCellAddress);
                        $objWriter->writeAttribute('aca',
'1');
                        $objWriter->writeAttribute('ca',
'1');
                        $objWriter->text(substr($cellValue, 1));
                        $objWriter->endElement();
                    } else {
                        $objWriter->writeElement('f',
substr($cellValue, 1));
                    }
                    if
($this->getParentWriter()->getOffice2003Compatibility() === false) {
                        if
($this->getParentWriter()->getPreCalculateFormulas()) {
                            if (!is_array($calculatedValue) &&
substr($calculatedValue, 0, 1) !== '#') {
                                $objWriter->writeElement('v',
StringHelper::formatNumber($calculatedValue));
                            } else {
                                $objWriter->writeElement('v',
'0');
                            }
                        } else {
                            $objWriter->writeElement('v',
'0');
                        }
                    }

                    break;
                case 'n':            // Numeric
                    //force a decimal to be written if the type is float
                    if (is_float($cellValue)) {
                        // force point as decimal separator in case current
locale uses comma
                        $cellValue = str_replace(',',
'.', (string) $cellValue);
                        if (strpos($cellValue, '.') === false) {
                            $cellValue = $cellValue . '.0';
                        }
                    }
                    $objWriter->writeElement('v', $cellValue);

                    break;
                case 'b':            // Boolean
                    $objWriter->writeElement('v', ($cellValue
? '1' : '0'));

                    break;
                case 'e':            // Error
                    if (substr($cellValue, 0, 1) === '=') {
                        $objWriter->writeElement('f',
substr($cellValue, 1));
                        $objWriter->writeElement('v',
substr($cellValue, 1));
                    } else {
                        $objWriter->writeElement('v',
$cellValue);
                    }

                    break;
            }
        }

        $objWriter->endElement();
    }

    /**
     * Write Drawings.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param PhpspreadsheetWorksheet $pSheet Worksheet
     * @param bool $includeCharts Flag indicating if we should include
drawing details for charts
     */
    private function writeDrawings(XMLWriter $objWriter,
PhpspreadsheetWorksheet $pSheet, $includeCharts = false)
    {
        $unparsedLoadedData =
$pSheet->getParent()->getUnparsedLoadedData();
        $hasUnparsedDrawing =
isset($unparsedLoadedData['sheets'][$pSheet->getCodeName()]['drawingOriginalIds']);
        $chartCount = ($includeCharts) ?
$pSheet->getChartCollection()->count() : 0;
        if ($chartCount == 0 &&
$pSheet->getDrawingCollection()->count() == 0 &&
!$hasUnparsedDrawing) {
            return;
        }

        // If sheet contains drawings, add the relationships
        $objWriter->startElement('drawing');

        $rId = 'rId1';
        if
(isset($unparsedLoadedData['sheets'][$pSheet->getCodeName()]['drawingOriginalIds']))
{
            $drawingOriginalIds =
$unparsedLoadedData['sheets'][$pSheet->getCodeName()]['drawingOriginalIds'];
            // take first. In future can be overriten
            $rId = reset($drawingOriginalIds);
        }

        $objWriter->writeAttribute('r:id', $rId);
        $objWriter->endElement();
    }

    /**
     * Write LegacyDrawing.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param PhpspreadsheetWorksheet $pSheet Worksheet
     */
    private function writeLegacyDrawing(XMLWriter $objWriter,
PhpspreadsheetWorksheet $pSheet)
    {
        // If sheet contains comments, add the relationships
        if (count($pSheet->getComments()) > 0) {
            $objWriter->startElement('legacyDrawing');
            $objWriter->writeAttribute('r:id',
'rId_comments_vml1');
            $objWriter->endElement();
        }
    }

    /**
     * Write LegacyDrawingHF.
     *
     * @param XMLWriter $objWriter XML Writer
     * @param PhpspreadsheetWorksheet $pSheet Worksheet
     */
    private function writeLegacyDrawingHF(XMLWriter $objWriter,
PhpspreadsheetWorksheet $pSheet)
    {
        // If sheet contains images, add the relationships
        if (count($pSheet->getHeaderFooter()->getImages()) > 0) {
            $objWriter->startElement('legacyDrawingHF');
            $objWriter->writeAttribute('r:id',
'rId_headerfooter_vml1');
            $objWriter->endElement();
        }
    }

    private function writeAlternateContent(XMLWriter $objWriter,
PhpspreadsheetWorksheet $pSheet)
    {
        if
(empty($pSheet->getParent()->getUnparsedLoadedData()['sheets'][$pSheet->getCodeName()]['AlternateContents']))
{
            return;
        }

        foreach
($pSheet->getParent()->getUnparsedLoadedData()['sheets'][$pSheet->getCodeName()]['AlternateContents']
as $alternateContent) {
            $objWriter->writeRaw($alternateContent);
        }
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xlsx/WriterPart.php000064400000001066151165414060023565
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer\Xlsx;

use PhpOffice\PhpSpreadsheet\Writer\Xlsx;

abstract class WriterPart
{
    /**
     * Parent Xlsx object.
     *
     * @var Xlsx
     */
    private $parentWriter;

    /**
     * Get parent Xlsx object.
     *
     * @return Xlsx
     */
    public function getParentWriter()
    {
        return $this->parentWriter;
    }

    /**
     * Set parent Xlsx object.
     *
     * @param Xlsx $pWriter
     */
    public function __construct(Xlsx $pWriter)
    {
        $this->parentWriter = $pWriter;
    }
}
vendor/phpoffice/phpspreadsheet/src/PhpSpreadsheet/Writer/Xlsx.php000064400000052570151165414060021470
0ustar00<?php

namespace PhpOffice\PhpSpreadsheet\Writer;

use PhpOffice\PhpSpreadsheet\Calculation\Calculation;
use PhpOffice\PhpSpreadsheet\Calculation\Functions;
use PhpOffice\PhpSpreadsheet\HashTable;
use PhpOffice\PhpSpreadsheet\Shared\File;
use PhpOffice\PhpSpreadsheet\Spreadsheet;
use PhpOffice\PhpSpreadsheet\Worksheet\Drawing as WorksheetDrawing;
use PhpOffice\PhpSpreadsheet\Worksheet\MemoryDrawing;
use PhpOffice\PhpSpreadsheet\Writer\Exception as WriterException;
use PhpOffice\PhpSpreadsheet\Writer\Xlsx\Chart;
use PhpOffice\PhpSpreadsheet\Writer\Xlsx\Comments;
use PhpOffice\PhpSpreadsheet\Writer\Xlsx\ContentTypes;
use PhpOffice\PhpSpreadsheet\Writer\Xlsx\DocProps;
use PhpOffice\PhpSpreadsheet\Writer\Xlsx\Drawing;
use PhpOffice\PhpSpreadsheet\Writer\Xlsx\Rels;
use PhpOffice\PhpSpreadsheet\Writer\Xlsx\RelsRibbon;
use PhpOffice\PhpSpreadsheet\Writer\Xlsx\RelsVBA;
use PhpOffice\PhpSpreadsheet\Writer\Xlsx\StringTable;
use PhpOffice\PhpSpreadsheet\Writer\Xlsx\Style;
use PhpOffice\PhpSpreadsheet\Writer\Xlsx\Theme;
use PhpOffice\PhpSpreadsheet\Writer\Xlsx\Workbook;
use PhpOffice\PhpSpreadsheet\Writer\Xlsx\Worksheet;
use ZipArchive;

class Xlsx extends BaseWriter
{
    /**
     * Office2003 compatibility.
     *
     * @var bool
     */
    private $office2003compatibility = false;

    /**
     * Private writer parts.
     *
     * @var Xlsx\WriterPart[]
     */
    private $writerParts = [];

    /**
     * Private Spreadsheet.
     *
     * @var Spreadsheet
     */
    private $spreadSheet;

    /**
     * Private string table.
     *
     * @var string[]
     */
    private $stringTable = [];

    /**
     * Private unique Conditional HashTable.
     *
     * @var HashTable
     */
    private $stylesConditionalHashTable;

    /**
     * Private unique Style HashTable.
     *
     * @var HashTable
     */
    private $styleHashTable;

    /**
     * Private unique Fill HashTable.
     *
     * @var HashTable
     */
    private $fillHashTable;

    /**
     * Private unique \PhpOffice\PhpSpreadsheet\Style\Font HashTable.
     *
     * @var HashTable
     */
    private $fontHashTable;

    /**
     * Private unique Borders HashTable.
     *
     * @var HashTable
     */
    private $bordersHashTable;

    /**
     * Private unique NumberFormat HashTable.
     *
     * @var HashTable
     */
    private $numFmtHashTable;

    /**
     * Private unique
\PhpOffice\PhpSpreadsheet\Worksheet\Worksheet\BaseDrawing HashTable.
     *
     * @var HashTable
     */
    private $drawingHashTable;

    /**
     * Create a new Xlsx Writer.
     *
     * @param Spreadsheet $spreadsheet
     */
    public function __construct(Spreadsheet $spreadsheet)
    {
        // Assign PhpSpreadsheet
        $this->setSpreadsheet($spreadsheet);

        $writerPartsArray = [
            'stringtable' => StringTable::class,
            'contenttypes' => ContentTypes::class,
            'docprops' => DocProps::class,
            'rels' => Rels::class,
            'theme' => Theme::class,
            'style' => Style::class,
            'workbook' => Workbook::class,
            'worksheet' => Worksheet::class,
            'drawing' => Drawing::class,
            'comments' => Comments::class,
            'chart' => Chart::class,
            'relsvba' => RelsVBA::class,
            'relsribbonobjects' => RelsRibbon::class,
        ];

        //    Initialise writer parts
        //        and Assign their parent IWriters
        foreach ($writerPartsArray as $writer => $class) {
            $this->writerParts[$writer] = new $class($this);
        }

        $hashTablesArray = ['stylesConditionalHashTable',
'fillHashTable', 'fontHashTable',
            'bordersHashTable', 'numFmtHashTable',
'drawingHashTable',
            'styleHashTable',
        ];

        // Set HashTable variables
        foreach ($hashTablesArray as $tableName) {
            $this->$tableName = new HashTable();
        }
    }

    /**
     * Get writer part.
     *
     * @param string $pPartName Writer part name
     *
     * @return \PhpOffice\PhpSpreadsheet\Writer\Xlsx\WriterPart
     */
    public function getWriterPart($pPartName)
    {
        if ($pPartName != '' &&
isset($this->writerParts[strtolower($pPartName)])) {
            return $this->writerParts[strtolower($pPartName)];
        }

        return null;
    }

    /**
     * Save PhpSpreadsheet to file.
     *
     * @param string $pFilename
     *
     * @throws WriterException
     */
    public function save($pFilename)
    {
        if ($this->spreadSheet !== null) {
            // garbage collect
            $this->spreadSheet->garbageCollect();

            // If $pFilename is php://output or php://stdout, make it a
temporary file...
            $originalFilename = $pFilename;
            if (strtolower($pFilename) == 'php://output' ||
strtolower($pFilename) == 'php://stdout') {
                $pFilename = @tempnam(File::sysGetTempDir(),
'phpxltmp');
                if ($pFilename == '') {
                    $pFilename = $originalFilename;
                }
            }

            $saveDebugLog =
Calculation::getInstance($this->spreadSheet)->getDebugLog()->getWriteDebugLog();
           
Calculation::getInstance($this->spreadSheet)->getDebugLog()->setWriteDebugLog(false);
            $saveDateReturnType = Functions::getReturnDateType();
            Functions::setReturnDateType(Functions::RETURNDATE_EXCEL);

            // Create string lookup table
            $this->stringTable = [];
            for ($i = 0; $i < $this->spreadSheet->getSheetCount();
++$i) {
                $this->stringTable =
$this->getWriterPart('StringTable')->createStringTable($this->spreadSheet->getSheet($i),
$this->stringTable);
            }

            // Create styles dictionaries
           
$this->styleHashTable->addFromSource($this->getWriterPart('Style')->allStyles($this->spreadSheet));
           
$this->stylesConditionalHashTable->addFromSource($this->getWriterPart('Style')->allConditionalStyles($this->spreadSheet));
           
$this->fillHashTable->addFromSource($this->getWriterPart('Style')->allFills($this->spreadSheet));
           
$this->fontHashTable->addFromSource($this->getWriterPart('Style')->allFonts($this->spreadSheet));
           
$this->bordersHashTable->addFromSource($this->getWriterPart('Style')->allBorders($this->spreadSheet));
           
$this->numFmtHashTable->addFromSource($this->getWriterPart('Style')->allNumberFormats($this->spreadSheet));

            // Create drawing dictionary
           
$this->drawingHashTable->addFromSource($this->getWriterPart('Drawing')->allDrawings($this->spreadSheet));

            $zip = new ZipArchive();

            if (file_exists($pFilename)) {
                unlink($pFilename);
            }
            // Try opening the ZIP file
            if ($zip->open($pFilename, ZipArchive::OVERWRITE) !== true)
{
                if ($zip->open($pFilename, ZipArchive::CREATE) !== true)
{
                    throw new WriterException('Could not open ' .
$pFilename . ' for writing.');
                }
            }

            // Add [Content_Types].xml to ZIP file
            $zip->addFromString('[Content_Types].xml',
$this->getWriterPart('ContentTypes')->writeContentTypes($this->spreadSheet,
$this->includeCharts));

            //if hasMacros, add the vbaProject.bin file, Certificate
file(if exists)
            if ($this->spreadSheet->hasMacros()) {
                $macrosCode = $this->spreadSheet->getMacrosCode();
                if ($macrosCode !== null) {
                    // we have the code ?
                    $zip->addFromString('xl/vbaProject.bin',
$macrosCode); //allways in 'xl', allways named vbaProject.bin
                    if ($this->spreadSheet->hasMacrosCertificate()) {
                        //signed macros ?
                        // Yes : add the certificate file and the related
rels file
                       
$zip->addFromString('xl/vbaProjectSignature.bin',
$this->spreadSheet->getMacrosCertificate());
                       
$zip->addFromString('xl/_rels/vbaProject.bin.rels',
$this->getWriterPart('RelsVBA')->writeVBARelationships($this->spreadSheet));
                    }
                }
            }
            //a custom UI in this workbook ? add it ("base" xml
and additional objects (pictures) and rels)
            if ($this->spreadSheet->hasRibbon()) {
                $tmpRibbonTarget =
$this->spreadSheet->getRibbonXMLData('target');
                $zip->addFromString($tmpRibbonTarget,
$this->spreadSheet->getRibbonXMLData('data'));
                if ($this->spreadSheet->hasRibbonBinObjects()) {
                    $tmpRootPath = dirname($tmpRibbonTarget) .
'/';
                    $ribbonBinObjects =
$this->spreadSheet->getRibbonBinObjects('data'); //the
files to write
                    foreach ($ribbonBinObjects as $aPath => $aContent) {
                        $zip->addFromString($tmpRootPath . $aPath,
$aContent);
                    }
                    //the rels for files
                    $zip->addFromString($tmpRootPath .
'_rels/' . basename($tmpRibbonTarget) . '.rels',
$this->getWriterPart('RelsRibbonObjects')->writeRibbonRelationships($this->spreadSheet));
                }
            }

            // Add relationships to ZIP file
            $zip->addFromString('_rels/.rels',
$this->getWriterPart('Rels')->writeRelationships($this->spreadSheet));
            $zip->addFromString('xl/_rels/workbook.xml.rels',
$this->getWriterPart('Rels')->writeWorkbookRelationships($this->spreadSheet));

            // Add document properties to ZIP file
            $zip->addFromString('docProps/app.xml',
$this->getWriterPart('DocProps')->writeDocPropsApp($this->spreadSheet));
            $zip->addFromString('docProps/core.xml',
$this->getWriterPart('DocProps')->writeDocPropsCore($this->spreadSheet));
            $customPropertiesPart =
$this->getWriterPart('DocProps')->writeDocPropsCustom($this->spreadSheet);
            if ($customPropertiesPart !== null) {
                $zip->addFromString('docProps/custom.xml',
$customPropertiesPart);
            }

            // Add theme to ZIP file
            $zip->addFromString('xl/theme/theme1.xml',
$this->getWriterPart('Theme')->writeTheme($this->spreadSheet));

            // Add string table to ZIP file
            $zip->addFromString('xl/sharedStrings.xml',
$this->getWriterPart('StringTable')->writeStringTable($this->stringTable));

            // Add styles to ZIP file
            $zip->addFromString('xl/styles.xml',
$this->getWriterPart('Style')->writeStyles($this->spreadSheet));

            // Add workbook to ZIP file
            $zip->addFromString('xl/workbook.xml',
$this->getWriterPart('Workbook')->writeWorkbook($this->spreadSheet,
$this->preCalculateFormulas));

            $chartCount = 0;
            // Add worksheets
            for ($i = 0; $i < $this->spreadSheet->getSheetCount();
++$i) {
                $zip->addFromString('xl/worksheets/sheet' .
($i + 1) . '.xml',
$this->getWriterPart('Worksheet')->writeWorksheet($this->spreadSheet->getSheet($i),
$this->stringTable, $this->includeCharts));
                if ($this->includeCharts) {
                    $charts =
$this->spreadSheet->getSheet($i)->getChartCollection();
                    if (count($charts) > 0) {
                        foreach ($charts as $chart) {
                           
$zip->addFromString('xl/charts/chart' . ($chartCount + 1) .
'.xml',
$this->getWriterPart('Chart')->writeChart($chart,
$this->preCalculateFormulas));
                            ++$chartCount;
                        }
                    }
                }
            }

            $chartRef1 = 0;
            // Add worksheet relationships (drawings, ...)
            for ($i = 0; $i < $this->spreadSheet->getSheetCount();
++$i) {
                // Add relationships
               
$zip->addFromString('xl/worksheets/_rels/sheet' . ($i + 1) .
'.xml.rels',
$this->getWriterPart('Rels')->writeWorksheetRelationships($this->spreadSheet->getSheet($i),
($i + 1), $this->includeCharts));

                // Add unparsedLoadedData
                $sheetCodeName =
$this->spreadSheet->getSheet($i)->getCodeName();
                $unparsedLoadedData =
$this->spreadSheet->getUnparsedLoadedData();
                if
(isset($unparsedLoadedData['sheets'][$sheetCodeName]['ctrlProps']))
{
                    foreach
($unparsedLoadedData['sheets'][$sheetCodeName]['ctrlProps']
as $ctrlProp) {
                       
$zip->addFromString($ctrlProp['filePath'],
$ctrlProp['content']);
                    }
                }
                if
(isset($unparsedLoadedData['sheets'][$sheetCodeName]['printerSettings']))
{
                    foreach
($unparsedLoadedData['sheets'][$sheetCodeName]['printerSettings']
as $ctrlProp) {
                       
$zip->addFromString($ctrlProp['filePath'],
$ctrlProp['content']);
                    }
                }

                $drawings =
$this->spreadSheet->getSheet($i)->getDrawingCollection();
                $drawingCount = count($drawings);
                if ($this->includeCharts) {
                    $chartCount =
$this->spreadSheet->getSheet($i)->getChartCount();
                }

                // Add drawing and image relationship parts
                if (($drawingCount > 0) || ($chartCount > 0)) {
                    // Drawing relationships
                   
$zip->addFromString('xl/drawings/_rels/drawing' . ($i + 1) .
'.xml.rels',
$this->getWriterPart('Rels')->writeDrawingRelationships($this->spreadSheet->getSheet($i),
$chartRef1, $this->includeCharts));

                    // Drawings
                    $zip->addFromString('xl/drawings/drawing'
. ($i + 1) . '.xml',
$this->getWriterPart('Drawing')->writeDrawings($this->spreadSheet->getSheet($i),
$this->includeCharts));
                } elseif
(isset($unparsedLoadedData['sheets'][$sheetCodeName]['drawingAlternateContents']))
{
                    // Drawings
                    $zip->addFromString('xl/drawings/drawing'
. ($i + 1) . '.xml',
$this->getWriterPart('Drawing')->writeDrawings($this->spreadSheet->getSheet($i),
$this->includeCharts));
                }

                // Add unparsed drawings
                if
(isset($unparsedLoadedData['sheets'][$sheetCodeName]['Drawings']))
{
                    foreach
($unparsedLoadedData['sheets'][$sheetCodeName]['Drawings']
as $relId => $drawingXml) {
                        $drawingFile = array_search($relId,
$unparsedLoadedData['sheets'][$sheetCodeName]['drawingOriginalIds']);
                        if ($drawingFile !== false) {
                            $drawingFile = ltrim($drawingFile,
'.');
                            $zip->addFromString('xl' .
$drawingFile, $drawingXml);
                        }
                    }
                }

                // Add comment relationship parts
                if
(count($this->spreadSheet->getSheet($i)->getComments()) > 0) {
                    // VML Comments
                   
$zip->addFromString('xl/drawings/vmlDrawing' . ($i + 1) .
'.vml',
$this->getWriterPart('Comments')->writeVMLComments($this->spreadSheet->getSheet($i)));

                    // Comments
                    $zip->addFromString('xl/comments' . ($i +
1) . '.xml',
$this->getWriterPart('Comments')->writeComments($this->spreadSheet->getSheet($i)));
                }

                // Add unparsed relationship parts
                if
(isset($unparsedLoadedData['sheets'][$sheetCodeName]['vmlDrawings']))
{
                    foreach
($unparsedLoadedData['sheets'][$sheetCodeName]['vmlDrawings']
as $vmlDrawing) {
                       
$zip->addFromString($vmlDrawing['filePath'],
$vmlDrawing['content']);
                    }
                }

                // Add header/footer relationship parts
                if
(count($this->spreadSheet->getSheet($i)->getHeaderFooter()->getImages())
> 0) {
                    // VML Drawings
                   
$zip->addFromString('xl/drawings/vmlDrawingHF' . ($i + 1) .
'.vml',
$this->getWriterPart('Drawing')->writeVMLHeaderFooterImages($this->spreadSheet->getSheet($i)));

                    // VML Drawing relationships
                   
$zip->addFromString('xl/drawings/_rels/vmlDrawingHF' . ($i +
1) . '.vml.rels',
$this->getWriterPart('Rels')->writeHeaderFooterDrawingRelationships($this->spreadSheet->getSheet($i)));

                    // Media
                    foreach
($this->spreadSheet->getSheet($i)->getHeaderFooter()->getImages()
as $image) {
                        $zip->addFromString('xl/media/' .
$image->getIndexedFilename(), file_get_contents($image->getPath()));
                    }
                }
            }

            // Add media
            for ($i = 0; $i <
$this->getDrawingHashTable()->count(); ++$i) {
                if ($this->getDrawingHashTable()->getByIndex($i)
instanceof WorksheetDrawing) {
                    $imageContents = null;
                    $imagePath =
$this->getDrawingHashTable()->getByIndex($i)->getPath();
                    if (strpos($imagePath, 'zip://') !== false) {
                        $imagePath = substr($imagePath, 6);
                        $imagePathSplitted = explode('#',
$imagePath);

                        $imageZip = new ZipArchive();
                        $imageZip->open($imagePathSplitted[0]);
                        $imageContents =
$imageZip->getFromName($imagePathSplitted[1]);
                        $imageZip->close();
                        unset($imageZip);
                    } else {
                        $imageContents = file_get_contents($imagePath);
                    }

                    $zip->addFromString('xl/media/' .
str_replace(' ', '_',
$this->getDrawingHashTable()->getByIndex($i)->getIndexedFilename()),
$imageContents);
                } elseif
($this->getDrawingHashTable()->getByIndex($i) instanceof
MemoryDrawing) {
                    ob_start();
                    call_user_func(
                       
$this->getDrawingHashTable()->getByIndex($i)->getRenderingFunction(),
                       
$this->getDrawingHashTable()->getByIndex($i)->getImageResource()
                    );
                    $imageContents = ob_get_contents();
                    ob_end_clean();

                    $zip->addFromString('xl/media/' .
str_replace(' ', '_',
$this->getDrawingHashTable()->getByIndex($i)->getIndexedFilename()),
$imageContents);
                }
            }

            Functions::setReturnDateType($saveDateReturnType);
           
Calculation::getInstance($this->spreadSheet)->getDebugLog()->setWriteDebugLog($saveDebugLog);

            // Close file
            if ($zip->close() === false) {
                throw new WriterException("Could not close zip file
$pFilename.");
            }

            // If a temporary file was used, copy it to the correct file
stream
            if ($originalFilename != $pFilename) {
                if (copy($pFilename, $originalFilename) === false) {
                    throw new WriterException("Could not copy
temporary zip file $pFilename to $originalFilename.");
                }
                @unlink($pFilename);
            }
        } else {
            throw new WriterException('PhpSpreadsheet object
unassigned.');
        }
    }

    /**
     * Get Spreadsheet object.
     *
     * @throws WriterException
     *
     * @return Spreadsheet
     */
    public function getSpreadsheet()
    {
        if ($this->spreadSheet !== null) {
            return $this->spreadSheet;
        }

        throw new WriterException('No Spreadsheet object
assigned.');
    }

    /**
     * Set Spreadsheet object.
     *
     * @param Spreadsheet $spreadsheet PhpSpreadsheet object
     *
     * @return $this
     */
    public function setSpreadsheet(Spreadsheet $spreadsheet)
    {
        $this->spreadSheet = $spreadsheet;

        return $this;
    }

    /**
     * Get string table.
     *
     * @return string[]
     */
    public function getStringTable()
    {
        return $this->stringTable;
    }

    /**
     * Get Style HashTable.
     *
     * @return HashTable
     */
    public function getStyleHashTable()
    {
        return $this->styleHashTable;
    }

    /**
     * Get Conditional HashTable.
     *
     * @return HashTable
     */
    public function getStylesConditionalHashTable()
    {
        return $this->stylesConditionalHashTable;
    }

    /**
     * Get Fill HashTable.
     *
     * @return HashTable
     */
    public function getFillHashTable()
    {
        return $this->fillHashTable;
    }

    /**
     * Get \PhpOffice\PhpSpreadsheet\Style\Font HashTable.
     *
     * @return HashTable
     */
    public function getFontHashTable()
    {
        return $this->fontHashTable;
    }

    /**
     * Get Borders HashTable.
     *
     * @return HashTable
     */
    public function getBordersHashTable()
    {
        return $this->bordersHashTable;
    }

    /**
     * Get NumberFormat HashTable.
     *
     * @return HashTable
     */
    public function getNumFmtHashTable()
    {
        return $this->numFmtHashTable;
    }

    /**
     * Get \PhpOffice\PhpSpreadsheet\Worksheet\Worksheet\BaseDrawing
HashTable.
     *
     * @return HashTable
     */
    public function getDrawingHashTable()
    {
        return $this->drawingHashTable;
    }

    /**
     * Get Office2003 compatibility.
     *
     * @return bool
     */
    public function getOffice2003Compatibility()
    {
        return $this->office2003compatibility;
    }

    /**
     * Set Office2003 compatibility.
     *
     * @param bool $pValue Office2003 compatibility?
     *
     * @return $this
     */
    public function setOffice2003Compatibility($pValue)
    {
        $this->office2003compatibility = $pValue;

        return $this;
    }
}
vendor/psr/simple-cache/.editorconfig000064400000000417151165414060013661
0ustar00; This file is for unifying the coding style for different editors
and IDEs.
; More information at http://editorconfig.org

root = true

[*]
charset = utf-8
indent_size = 4
indent_style = space
end_of_line = lf
insert_final_newline = true
trim_trailing_whitespace = true
vendor/psr/simple-cache/composer.json000064400000001050151165414060013720
0ustar00{
    "name": "psr/simple-cache",
    "description": "Common interfaces for simple
caching",
    "keywords": ["psr", "psr-16",
"cache", "simple-cache", "caching"],
    "license": "MIT",
    "authors": [
        {
            "name": "PHP-FIG",
            "homepage": "http://www.php-fig.org/"
        }
    ],
    "require": {
        "php": ">=5.3.0"
    },
    "autoload": {
        "psr-4": {
            "Psr\\SimpleCache\\": "src/"
        }
    },
    "extra": {
        "branch-alias": {
            "dev-master": "1.0.x-dev"
        }
    }
}
vendor/psr/simple-cache/LICENSE.md000064400000002161151165414060012606
0ustar00# The MIT License (MIT)

Copyright (c) 2016 PHP Framework Interoperability Group

> Permission is hereby granted, free of charge, to any person obtaining
a copy
> of this software and associated documentation files (the
"Software"), to deal
> in the Software without restriction, including without limitation the
rights
> to use, copy, modify, merge, publish, distribute, sublicense, and/or
sell
> copies of the Software, and to permit persons to whom the Software is
> furnished to do so, subject to the following conditions:
>
> The above copyright notice and this permission notice shall be
included in
> all copies or substantial portions of the Software.
>
> THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY
KIND, EXPRESS OR
> IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
MERCHANTABILITY,
> FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT
SHALL THE
> AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
> LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
ARISING FROM,
> OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
IN
> THE SOFTWARE.
vendor/psr/simple-cache/README.md000064400000001063151165414060012461
0ustar00PHP FIG Simple Cache PSR
========================

This repository holds all interfaces related to PSR-16.

Note that this is not a cache implementation of its own. It is merely an
interface that describes a cache implementation. See [the
specification](https://github.com/php-fig/fig-standards/blob/master/accepted/PSR-16-simple-cache.md)
for more details.

You can find implementations of the specification by looking for packages
providing the
[psr/simple-cache-implementation](https://packagist.org/providers/psr/simple-cache-implementation)
virtual package.
vendor/psr/simple-cache/src/CacheException.php000064400000000232151165414060015361
0ustar00<?php

namespace Psr\SimpleCache;

/**
 * Interface used for all types of exceptions thrown by the implementing
library.
 */
interface CacheException
{
}
vendor/psr/simple-cache/src/CacheInterface.php000064400000011000151165414060015316
0ustar00<?php

namespace Psr\SimpleCache;

interface CacheInterface
{
    /**
     * Fetches a value from the cache.
     *
     * @param string $key     The unique key of this item in the cache.
     * @param mixed  $default Default value to return if the key does not
exist.
     *
     * @return mixed The value of the item from the cache, or $default in
case of cache miss.
     *
     * @throws \Psr\SimpleCache\InvalidArgumentException
     *   MUST be thrown if the $key string is not a legal value.
     */
    public function get($key, $default = null);

    /**
     * Persists data in the cache, uniquely referenced by a key with an
optional expiration TTL time.
     *
     * @param string                 $key   The key of the item to store.
     * @param mixed                  $value The value of the item to store,
must be serializable.
     * @param null|int|\DateInterval $ttl   Optional. The TTL value of this
item. If no value is sent and
     *                                      the driver supports TTL then
the library may set a default value
     *                                      for it or let the driver take
care of that.
     *
     * @return bool True on success and false on failure.
     *
     * @throws \Psr\SimpleCache\InvalidArgumentException
     *   MUST be thrown if the $key string is not a legal value.
     */
    public function set($key, $value, $ttl = null);

    /**
     * Delete an item from the cache by its unique key.
     *
     * @param string $key The unique cache key of the item to delete.
     *
     * @return bool True if the item was successfully removed. False if
there was an error.
     *
     * @throws \Psr\SimpleCache\InvalidArgumentException
     *   MUST be thrown if the $key string is not a legal value.
     */
    public function delete($key);

    /**
     * Wipes clean the entire cache's keys.
     *
     * @return bool True on success and false on failure.
     */
    public function clear();

    /**
     * Obtains multiple cache items by their unique keys.
     *
     * @param iterable $keys    A list of keys that can obtained in a
single operation.
     * @param mixed    $default Default value to return for keys that do
not exist.
     *
     * @return iterable A list of key => value pairs. Cache keys that do
not exist or are stale will have $default as value.
     *
     * @throws \Psr\SimpleCache\InvalidArgumentException
     *   MUST be thrown if $keys is neither an array nor a Traversable,
     *   or if any of the $keys are not a legal value.
     */
    public function getMultiple($keys, $default = null);

    /**
     * Persists a set of key => value pairs in the cache, with an
optional TTL.
     *
     * @param iterable               $values A list of key => value
pairs for a multiple-set operation.
     * @param null|int|\DateInterval $ttl    Optional. The TTL value of
this item. If no value is sent and
     *                                       the driver supports TTL then
the library may set a default value
     *                                       for it or let the driver take
care of that.
     *
     * @return bool True on success and false on failure.
     *
     * @throws \Psr\SimpleCache\InvalidArgumentException
     *   MUST be thrown if $values is neither an array nor a Traversable,
     *   or if any of the $values are not a legal value.
     */
    public function setMultiple($values, $ttl = null);

    /**
     * Deletes multiple cache items in a single operation.
     *
     * @param iterable $keys A list of string-based keys to be deleted.
     *
     * @return bool True if the items were successfully removed. False if
there was an error.
     *
     * @throws \Psr\SimpleCache\InvalidArgumentException
     *   MUST be thrown if $keys is neither an array nor a Traversable,
     *   or if any of the $keys are not a legal value.
     */
    public function deleteMultiple($keys);

    /**
     * Determines whether an item is present in the cache.
     *
     * NOTE: It is recommended that has() is only to be used for cache
warming type purposes
     * and not to be used within your live applications operations for
get/set, as this method
     * is subject to a race condition where your has() will return true and
immediately after,
     * another script can remove it making the state of your app out of
date.
     *
     * @param string $key The cache item key.
     *
     * @return bool
     *
     * @throws \Psr\SimpleCache\InvalidArgumentException
     *   MUST be thrown if the $key string is not a legal value.
     */
    public function has($key);
}
vendor/psr/simple-cache/src/InvalidArgumentException.php000064400000000404151165414060017450
0ustar00<?php

namespace Psr\SimpleCache;

/**
 * Exception interface for invalid cache arguments.
 *
 * When an invalid argument is passed it must throw an exception which
implements
 * this interface
 */
interface InvalidArgumentException extends CacheException
{
}
vendor/web.config000064400000000267151165414060010015 0ustar00<?xml
version="1.0"?>
<configuration>
    <system.web>
        <authorization>
            <deny users="*" />              
        </authorization>
    </system.web>
</configuration>vendor/.htaccess000064400000000226151165607250007647
0ustar00# Apache 2.4+
<IfModule mod_authz_core.c>
  Require all denied
</IfModule>

# Apache 2.0-2.2
<IfModule !mod_authz_core.c>
  Deny from all
</IfModule>