<?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



>      * @var ?string


     */
    private static $decimalSeparator;

    /**
     * Thousands separator.
     *

<      * @var string



>      * @var ?string


     */
    private static $thousandsSeparator;

    /**
     * Currency code.
     *
     * @var string
     */
    private static $currencyCode;

    /**
     * Is iconv extension avalable?
     *

<      * @var bool



>      * @var ?bool


     */
    private static $isIconvEnabled;

    /**
     * iconv options.
     *
     * @var string
     */
    private static $iconvOptions = '//IGNORE//TRANSLIT';

    /**
     * Build control characters array.
     */
    private static function buildControlCharacters(): void
    {
        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(): void
    {
        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(): void
    {
        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



>      * @param string $textValue Value to unescape


     *
     * @return string
     */

<     public static function controlCharacterOOXML2PHP($value)



>     public static function controlCharacterOOXML2PHP($textValue)


    {
        self::buildCharacterSets();


<         return str_replace(array_keys(self::$controlCharacters), array_values(self::$controlCharacters), $value);



>         return str_replace(array_keys(self::$controlCharacters), array_values(self::$controlCharacters), $textValue);


    }

    /**
     * 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



>      * @param string $textValue Value to escape


     *
     * @return string
     */

<     public static function controlCharacterPHP2OOXML($value)



>     public static function controlCharacterPHP2OOXML($textValue)


    {
        self::buildCharacterSets();


<         return str_replace(array_values(self::$controlCharacters), array_keys(self::$controlCharacters), $value);



>         return str_replace(array_values(self::$controlCharacters), array_keys(self::$controlCharacters), $textValue);


    }

    /**

<      * Try to sanitize UTF8, stripping invalid byte sequences. Not perfect. Does not surrogate characters.
<      *
<      * @param string $value
<      *
<      * @return string



>      * Try to sanitize UTF8, replacing invalid sequences with Unicode substitution characters.


     */

<     public static function sanitizeUTF8($value)



>     public static function sanitizeUTF8(string $textValue): string


    {

<         if (self::getIsIconvEnabled()) {
<             $value = @iconv('UTF-8', 'UTF-8', $value);



>         $textValue = str_replace(["\xef\xbf\xbe", "\xef\xbf\xbf"], "\xef\xbf\xbd", $textValue);
>         $subst = mb_substitute_character(); // default is question mark
>         mb_substitute_character(65533); // Unicode substitution character
>         // Phpstan does not think this can return false.
>         $returnValue = mb_convert_encoding($textValue, 'UTF-8', 'UTF-8');
>         mb_substitute_character(/** @scrutinizer ignore-type */ $subst);




<             return $value;



>         return self::returnString($returnValue);


        }


<         $value = mb_convert_encoding($value, 'UTF-8', 'UTF-8');
< 
<         return $value;



>     /**
>      * Strictly to satisfy Scrutinizer.
>      *
>      * @param mixed $value
>      */
>     private static function returnString($value): string
>     {
>         return is_string($value) ? $value : '';


    }

    /**
     * Check if a string contains UTF8 data.

<      *
<      * @param string $value
<      *
<      * @return bool


     */

<     public static function isUTF8($value)



>     public static function isUTF8(string $textValue): bool


    {

<         return $value === '' || preg_match('/^./su', $value) === 1;



>         return $textValue === self::sanitizeUTF8($textValue);


    }

    /**
     * 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



>      * @param float|int|string $numericValue


     */

<     public static function formatNumber($value)



>     public static function formatNumber($numericValue): string


    {

<         if (is_float($value)) {
<             return str_replace(',', '.', $value);



>         if (is_float($numericValue)) {
>             return str_replace(',', '.', (string) $numericValue);


        }


<         return (string) $value;



>         return (string) $numericValue;


    }

    /**
     * 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 string $textValue UTF-8 encoded string


     * @param mixed[] $arrcRuns Details of rich text runs in $value

<      *
<      * @return string


     */

<     public static function UTF8toBIFF8UnicodeShort($value, $arrcRuns = [])



>     public static function UTF8toBIFF8UnicodeShort(string $textValue, array $arrcRuns = []): string


    {
        // character count

<         $ln = self::countCharacters($value, 'UTF-8');



>         $ln = self::countCharacters($textValue, 'UTF-8');


        // option flags
        if (empty($arrcRuns)) {
            $data = pack('CC', $ln, 0x0001);
            // characters

<             $data .= self::convertEncoding($value, 'UTF-16LE', 'UTF-8');



>             $data .= self::convertEncoding($textValue, 'UTF-16LE', 'UTF-8');


        } else {
            $data = pack('vC', $ln, 0x09);
            $data .= pack('v', count($arrcRuns));
            // characters

<             $data .= self::convertEncoding($value, 'UTF-16LE', 'UTF-8');



>             $data .= self::convertEncoding($textValue, '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



>      * @param string $textValue UTF-8 encoded string


     */

<     public static function UTF8toBIFF8UnicodeLong($value)



>     public static function UTF8toBIFF8UnicodeLong(string $textValue): string


    {
        // character count

<         $ln = self::countCharacters($value, 'UTF-8');



>         $ln = self::countCharacters($textValue, 'UTF-8');



        // characters

<         $chars = self::convertEncoding($value, 'UTF-16LE', 'UTF-8');



>         $chars = self::convertEncoding($textValue, '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)



>     public static function convertEncoding(string $textValue, string $to, string $from): string


    {
        if (self::getIsIconvEnabled()) {

<             $result = iconv($from, $to . self::$iconvOptions, $value);



>             $result = iconv($from, $to . self::$iconvOptions, $textValue);


            if (false !== $result) {
                return $result;
            }
        }


<         return mb_convert_encoding($value, $to, $from);



>         return self::returnString(mb_convert_encoding($textValue, $to, $from));


    }

    /**
     * Get character count.
     *

<      * @param string $value
<      * @param string $enc Encoding



>      * @param string $encoding Encoding


     *
     * @return int Character count
     */

<     public static function countCharacters($value, $enc = 'UTF-8')



>     public static function countCharacters(string $textValue, string $encoding = 'UTF-8'): int


    {

<         return mb_strlen($value, $enc);



>         return mb_strlen($textValue, $encoding);


    }

    /**

<      * Get a substring of a UTF-8 encoded string.



>      * Get character count using mb_strwidth rather than mb_strlen.


     *

<      * @param string $pValue UTF-8 encoded string
<      * @param int $pStart Start offset
<      * @param int $pLength Maximum number of characters in substring



>      * @param string $encoding Encoding


     *

<      * @return string



>      * @return int Character count


     */

<     public static function substring($pValue, $pStart, $pLength = 0)



>     public static function countCharactersDbcs(string $textValue, string $encoding = 'UTF-8'): int


    {

<         return mb_substr($pValue, $pStart, $pLength, 'UTF-8');



>         return mb_strwidth($textValue, $encoding);


    }

    /**

<      * Convert a UTF-8 encoded string to upper case.



>      * Get a substring of a UTF-8 encoded string.


     *

<      * @param string $pValue UTF-8 encoded string



>      * @param string $textValue UTF-8 encoded string
>      * @param int $offset Start offset
>      * @param ?int $length Maximum number of characters in substring
>      */
>     public static function substring(string $textValue, int $offset, ?int $length = 0): string
>     {
>         return mb_substr($textValue, $offset, $length, 'UTF-8');
>     }
> 
>     /**
>      * Convert a UTF-8 encoded string to upper case.


     *

<      * @return string



>      * @param string $textValue UTF-8 encoded string


     */

<     public static function strToUpper($pValue)



>     public static function strToUpper(string $textValue): string


    {

<         return mb_convert_case($pValue, MB_CASE_UPPER, 'UTF-8');



>         return mb_convert_case($textValue, MB_CASE_UPPER, 'UTF-8');


    }

    /**
     * Convert a UTF-8 encoded string to lower case.
     *

<      * @param string $pValue UTF-8 encoded string
<      *
<      * @return string



>      * @param string $textValue UTF-8 encoded string


     */

<     public static function strToLower($pValue)



>     public static function strToLower(string $textValue): string


    {

<         return mb_convert_case($pValue, MB_CASE_LOWER, 'UTF-8');



>         return mb_convert_case($textValue, 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



>      * @param string $textValue UTF-8 encoded string


     */

<     public static function strToTitle($pValue)



>     public static function strToTitle(string $textValue): string


    {

<         return mb_convert_case($pValue, MB_CASE_TITLE, 'UTF-8');



>         return mb_convert_case($textValue, MB_CASE_TITLE, 'UTF-8');


    }


<     public static function mbIsUpper($char)



>     public static function mbIsUpper(string $character): bool


    {

<         return mb_strtolower($char, 'UTF-8') != $char;



>         return mb_strtolower($character, 'UTF-8') !== $character;


    }


<     public static function mbStrSplit($string)



>     /**
>      * Splits a UTF-8 string into an array of individual characters.
>      */
>     public static function mbStrSplit(string $string): array


    {
        // Split at all position not after the start: ^
        // and not before the end: $

<         return preg_split('/(?<!^)(?!$)/u', $string);



>         $split = preg_split('/(?<!^)(?!$)/u', $string);
> 
>         return ($split === false) ? [] : $split;


    }

    /**
     * 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



>      * @param string $textValue UTF-8 encoded string


     */

<     public static function strCaseReverse($pValue)



>     public static function strCaseReverse(string $textValue): string


    {

<         $characters = self::mbStrSplit($pValue);



>         $characters = self::mbStrSplit($textValue);


        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()



>     public static function getDecimalSeparator(): string


    {
        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



>      * @param string $separator Character for decimal separator


     */

<     public static function setDecimalSeparator($pValue): void



>     public static function setDecimalSeparator(string $separator): void


    {

<         self::$decimalSeparator = $pValue;



>         self::$decimalSeparator = $separator;


    }

    /**
     * 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()



>     public static function getThousandsSeparator(): string


    {
        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



>      * @param string $separator Character for thousands separator


     */

<     public static function setThousandsSeparator($pValue): void



>     public static function setThousandsSeparator(string $separator): void


    {

<         self::$thousandsSeparator = $pValue;



>         self::$thousandsSeparator = $separator;


    }

    /**
     *    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()



>     public static function getCurrencyCode(): string


    {
        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



>      * @param string $currencyCode Character for currency code


     */

<     public static function setCurrencyCode($pValue): void



>     public static function setCurrencyCode(string $currencyCode): void


    {

<         self::$currencyCode = $pValue;



>         self::$currencyCode = $currencyCode;


    }

    /**
     * Convert SYLK encoded string to UTF-8.
     *

<      * @param string $pValue



>      * @param string $textValue SYLK encoded string


     *
     * @return string UTF-8 encoded string
     */

<     public static function SYLKtoUTF8($pValue)



>     public static function SYLKtoUTF8(string $textValue): string


    {
        self::buildCharacterSets();

        // If there is no escape character in the string there is nothing to do

<         if (strpos($pValue, '') === false) {
<             return $pValue;



>         if (strpos($textValue, '') === false) {
>             return $textValue;


        }

        foreach (self::$SYLKCharacters as $k => $v) {

<             $pValue = str_replace($k, $v, $pValue);



>             $textValue = str_replace($k, $v, $textValue);


        }


<         return $pValue;



>         return $textValue;


    }

    /**
     * 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



>      * @param string $textValue


     *
     * @return mixed string or only the leading numeric part of the string
     */

<     public static function testStringAsNumeric($value)



>     public static function testStringAsNumeric($textValue)


    {

<         if (is_numeric($value)) {
<             return $value;



>         if (is_numeric($textValue)) {
>             return $textValue;


        }

<         $v = (float) $value;



>         $v = (float) $textValue;




<         return (is_numeric(substr($value, 0, strlen($v)))) ? $v : $value;



>         return (is_numeric(substr($textValue, 0, strlen((string) $v)))) ? $v : $textValue;


    }
}