includes/language/Language.php
<?php
/**
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
* http://www.gnu.org/copyleft/gpl.html
*
* @file
*/
/**
* @defgroup Language Internationalisation
*
* See https://www.mediawiki.org/wiki/Special:MyLanguage/Localisation for more information.
*/
/**
* @defgroup Languages Languages
* @ingroup Language
*/
use CLDRPluralRuleParser\Evaluator;
use MediaWiki\Config\Config;
use MediaWiki\Context\RequestContext;
use MediaWiki\HookContainer\HookContainer;
use MediaWiki\HookContainer\HookRunner;
use MediaWiki\Languages\Data\NormalizeAr;
use MediaWiki\Languages\Data\NormalizeMl;
use MediaWiki\Languages\LanguageConverterFactory;
use MediaWiki\Languages\LanguageFallback;
use MediaWiki\Languages\LanguageNameUtils;
use MediaWiki\Logger\LoggerFactory;
use MediaWiki\MainConfigNames;
use MediaWiki\MediaWikiServices;
use MediaWiki\Parser\MagicWord;
use MediaWiki\Title\NamespaceInfo;
use MediaWiki\User\User;
use MediaWiki\User\UserIdentity;
use MediaWiki\User\UserTimeCorrection;
use MediaWiki\Utils\MWTimestamp;
use Wikimedia\Assert\Assert;
use Wikimedia\AtEase\AtEase;
use Wikimedia\Bcp47Code\Bcp47Code;
use Wikimedia\DebugInfo\DebugInfoTrait;
/**
* Base class for language-specific code.
*
* See https://www.mediawiki.org/wiki/Special:MyLanguage/Localisation for more information.
*
* @ingroup Language
*/
class Language implements Bcp47Code {
use DebugInfoTrait;
/** @var string */
public $mCode;
/**
* @deprecated since 1.35, use LocalisationCache with custom language config
*/
public $mMagicExtensions = [];
/** @var string|null */
private $mHtmlCode = null;
/**
* memoize
* @var string[][]
* @deprecated since 1.35, must be private
*/
public $dateFormatStrings = [];
/**
* memoize
* @var string[][]|null
* @deprecated since 1.35, must be protected
*/
public $mExtendedSpecialPageAliases;
/** @var array<int,string>|null Indexed by numeric namespace ID */
protected $namespaceNames;
/** @var array<string,int>|null Indexed by localized lower-cased namespace name */
protected $mNamespaceIds;
/** @var array<string,int>|null Map from alias to namespace ID */
protected $namespaceAliases;
/**
* @var ReplacementArray[]
* @noVarDump
*/
private $transformData = [];
/**
* @var NamespaceInfo
* @noVarDump
*/
private $namespaceInfo;
/**
* @var LocalisationCache
* @noVarDump
*/
private $localisationCache;
/**
* @var LanguageNameUtils
* @noVarDump
*/
private $langNameUtils;
/**
* @var LanguageFallback
* @noVarDump
*/
private $langFallback;
/**
* @var array[]|null
* @noVarDump
*/
private $grammarTransformCache;
/**
* @var LanguageConverterFactory
* @noVarDump
*/
private $converterFactory;
/**
* @var HookContainer
* @noVarDump
*/
private $hookContainer;
/**
* @var HookRunner
* @noVarDump
*/
private $hookRunner;
/**
* @var Config
* @noVarDump
*/
private $config;
/**
* @var array|null
*/
private $overrideUcfirstCharacters;
/**
* @since 1.35
*/
public const WEEKDAY_MESSAGES = [
'sunday', 'monday', 'tuesday', 'wednesday', 'thursday',
'friday', 'saturday'
];
/**
* @since 1.35
*/
public const WEEKDAY_ABBREVIATED_MESSAGES = [
'sun', 'mon', 'tue', 'wed', 'thu', 'fri', 'sat'
];
/**
* @since 1.35
*/
public const MONTH_MESSAGES = [
'january', 'february', 'march', 'april', 'may_long', 'june',
'july', 'august', 'september', 'october', 'november',
'december'
];
/**
* @deprecated since 1.35, use the MONTH_MESSAGES constant
*/
public static $mMonthMsgs = self::MONTH_MESSAGES;
/**
* @since 1.35
*/
public const MONTH_GENITIVE_MESSAGES = [
'january-gen', 'february-gen', 'march-gen', 'april-gen', 'may-gen', 'june-gen',
'july-gen', 'august-gen', 'september-gen', 'october-gen', 'november-gen',
'december-gen'
];
/**
* @since 1.35
*/
public const MONTH_ABBREVIATED_MESSAGES = [
'jan', 'feb', 'mar', 'apr', 'may', 'jun', 'jul', 'aug',
'sep', 'oct', 'nov', 'dec'
];
/**
* @deprecated since 1.35, use the MONTH_ABBREVIATED_MESSAGES constant
*/
public static $mMonthAbbrevMsgs = self::MONTH_ABBREVIATED_MESSAGES;
/**
* @since 1.35
*/
public const IRANIAN_CALENDAR_MONTHS_MESSAGES = [
'iranian-calendar-m1', 'iranian-calendar-m2', 'iranian-calendar-m3',
'iranian-calendar-m4', 'iranian-calendar-m5', 'iranian-calendar-m6',
'iranian-calendar-m7', 'iranian-calendar-m8', 'iranian-calendar-m9',
'iranian-calendar-m10', 'iranian-calendar-m11', 'iranian-calendar-m12'
];
/**
* @since 1.35
*/
public const HEBREW_CALENDAR_MONTHS_MESSAGES = [
'hebrew-calendar-m1', 'hebrew-calendar-m2', 'hebrew-calendar-m3',
'hebrew-calendar-m4', 'hebrew-calendar-m5', 'hebrew-calendar-m6',
'hebrew-calendar-m7', 'hebrew-calendar-m8', 'hebrew-calendar-m9',
'hebrew-calendar-m10', 'hebrew-calendar-m11', 'hebrew-calendar-m12',
'hebrew-calendar-m6a', 'hebrew-calendar-m6b'
];
/**
* @since 1.35
*/
public const HEBREW_CALENDAR_MONTH_GENITIVE_MESSAGES = [
'hebrew-calendar-m1-gen', 'hebrew-calendar-m2-gen', 'hebrew-calendar-m3-gen',
'hebrew-calendar-m4-gen', 'hebrew-calendar-m5-gen', 'hebrew-calendar-m6-gen',
'hebrew-calendar-m7-gen', 'hebrew-calendar-m8-gen', 'hebrew-calendar-m9-gen',
'hebrew-calendar-m10-gen', 'hebrew-calendar-m11-gen', 'hebrew-calendar-m12-gen',
'hebrew-calendar-m6a-gen', 'hebrew-calendar-m6b-gen'
];
/**
* @since 1.35
*/
public const HIJRI_CALENDAR_MONTH_MESSAGES = [
'hijri-calendar-m1', 'hijri-calendar-m2', 'hijri-calendar-m3',
'hijri-calendar-m4', 'hijri-calendar-m5', 'hijri-calendar-m6',
'hijri-calendar-m7', 'hijri-calendar-m8', 'hijri-calendar-m9',
'hijri-calendar-m10', 'hijri-calendar-m11', 'hijri-calendar-m12'
];
/**
* @since 1.35
*/
protected const DURATION_INTERVALS = [
'millennia' => 1000 * 31_556_952,
'centuries' => 100 * 31_556_952,
'decades' => 10 * 31_556_952,
// The average year is 365.2425 days (365 + (24 * 3 + 25) / 400)
'years' => 31_556_952, // 365.2425 * 24 * 3600
'weeks' => 7 * 24 * 3600,
'days' => 24 * 3600,
'hours' => 3600,
'minutes' => 60,
'seconds' => 1,
];
/**
* @deprecated since 1.35, use the DURATION_INTERVALS constant
* @since 1.20
* @var int[]
*/
public static $durationIntervals = self::DURATION_INTERVALS;
/**
* Unicode directional formatting characters, for embedBidi()
*/
private const LRE = "\u{202A}"; // U+202A LEFT-TO-RIGHT EMBEDDING
private const RLE = "\u{202B}"; // U+202B RIGHT-TO-LEFT EMBEDDING
private const PDF = "\u{202C}"; // U+202C POP DIRECTIONAL FORMATTING
/**
* Directionality test regex for embedBidi(). Matches the first strong directionality codepoint:
* - in group 1 if it is LTR
* - in group 2 if it is RTL
* Does not match if there is no strong directionality codepoint.
*
* The form is '/(?:([strong ltr codepoint])|([strong rtl codepoint]))/u'.
*
* Generated by UnicodeJS (see tools/strongDir) from the UCD; see
* https://gerrit.wikimedia.org/g/unicodejs .
*/
// @codeCoverageIgnoreStart
// phpcs:ignore Generic.Files.LineLength
private static $strongDirRegex = '/(?:([\x{41}-\x{5a}\x{61}-\x{7a}\x{aa}\x{b5}\x{ba}\x{c0}-\x{d6}\x{d8}-\x{f6}\x{f8}-\x{2b8}\x{2bb}-\x{2c1}\x{2d0}\x{2d1}\x{2e0}-\x{2e4}\x{2ee}\x{370}-\x{373}\x{376}\x{377}\x{37a}-\x{37d}\x{37f}\x{386}\x{388}-\x{38a}\x{38c}\x{38e}-\x{3a1}\x{3a3}-\x{3f5}\x{3f7}-\x{482}\x{48a}-\x{52f}\x{531}-\x{556}\x{559}-\x{55f}\x{561}-\x{587}\x{589}\x{903}-\x{939}\x{93b}\x{93d}-\x{940}\x{949}-\x{94c}\x{94e}-\x{950}\x{958}-\x{961}\x{964}-\x{980}\x{982}\x{983}\x{985}-\x{98c}\x{98f}\x{990}\x{993}-\x{9a8}\x{9aa}-\x{9b0}\x{9b2}\x{9b6}-\x{9b9}\x{9bd}-\x{9c0}\x{9c7}\x{9c8}\x{9cb}\x{9cc}\x{9ce}\x{9d7}\x{9dc}\x{9dd}\x{9df}-\x{9e1}\x{9e6}-\x{9f1}\x{9f4}-\x{9fa}\x{a03}\x{a05}-\x{a0a}\x{a0f}\x{a10}\x{a13}-\x{a28}\x{a2a}-\x{a30}\x{a32}\x{a33}\x{a35}\x{a36}\x{a38}\x{a39}\x{a3e}-\x{a40}\x{a59}-\x{a5c}\x{a5e}\x{a66}-\x{a6f}\x{a72}-\x{a74}\x{a83}\x{a85}-\x{a8d}\x{a8f}-\x{a91}\x{a93}-\x{aa8}\x{aaa}-\x{ab0}\x{ab2}\x{ab3}\x{ab5}-\x{ab9}\x{abd}-\x{ac0}\x{ac9}\x{acb}\x{acc}\x{ad0}\x{ae0}\x{ae1}\x{ae6}-\x{af0}\x{af9}\x{b02}\x{b03}\x{b05}-\x{b0c}\x{b0f}\x{b10}\x{b13}-\x{b28}\x{b2a}-\x{b30}\x{b32}\x{b33}\x{b35}-\x{b39}\x{b3d}\x{b3e}\x{b40}\x{b47}\x{b48}\x{b4b}\x{b4c}\x{b57}\x{b5c}\x{b5d}\x{b5f}-\x{b61}\x{b66}-\x{b77}\x{b83}\x{b85}-\x{b8a}\x{b8e}-\x{b90}\x{b92}-\x{b95}\x{b99}\x{b9a}\x{b9c}\x{b9e}\x{b9f}\x{ba3}\x{ba4}\x{ba8}-\x{baa}\x{bae}-\x{bb9}\x{bbe}\x{bbf}\x{bc1}\x{bc2}\x{bc6}-\x{bc8}\x{bca}-\x{bcc}\x{bd0}\x{bd7}\x{be6}-\x{bf2}\x{c01}-\x{c03}\x{c05}-\x{c0c}\x{c0e}-\x{c10}\x{c12}-\x{c28}\x{c2a}-\x{c39}\x{c3d}\x{c41}-\x{c44}\x{c58}-\x{c5a}\x{c60}\x{c61}\x{c66}-\x{c6f}\x{c7f}\x{c82}\x{c83}\x{c85}-\x{c8c}\x{c8e}-\x{c90}\x{c92}-\x{ca8}\x{caa}-\x{cb3}\x{cb5}-\x{cb9}\x{cbd}-\x{cc4}\x{cc6}-\x{cc8}\x{cca}\x{ccb}\x{cd5}\x{cd6}\x{cde}\x{ce0}\x{ce1}\x{ce6}-\x{cef}\x{cf1}\x{cf2}\x{d02}\x{d03}\x{d05}-\x{d0c}\x{d0e}-\x{d10}\x{d12}-\x{d3a}\x{d3d}-\x{d40}\x{d46}-\x{d48}\x{d4a}-\x{d4c}\x{d4e}\x{d57}\x{d5f}-\x{d61}\x{d66}-\x{d75}\x{d79}-\x{d7f}\x{d82}\x{d83}\x{d85}-\x{d96}\x{d9a}-\x{db1}\x{db3}-\x{dbb}\x{dbd}\x{dc0}-\x{dc6}\x{dcf}-\x{dd1}\x{dd8}-\x{ddf}\x{de6}-\x{def}\x{df2}-\x{df4}\x{e01}-\x{e30}\x{e32}\x{e33}\x{e40}-\x{e46}\x{e4f}-\x{e5b}\x{e81}\x{e82}\x{e84}\x{e87}\x{e88}\x{e8a}\x{e8d}\x{e94}-\x{e97}\x{e99}-\x{e9f}\x{ea1}-\x{ea3}\x{ea5}\x{ea7}\x{eaa}\x{eab}\x{ead}-\x{eb0}\x{eb2}\x{eb3}\x{ebd}\x{ec0}-\x{ec4}\x{ec6}\x{ed0}-\x{ed9}\x{edc}-\x{edf}\x{f00}-\x{f17}\x{f1a}-\x{f34}\x{f36}\x{f38}\x{f3e}-\x{f47}\x{f49}-\x{f6c}\x{f7f}\x{f85}\x{f88}-\x{f8c}\x{fbe}-\x{fc5}\x{fc7}-\x{fcc}\x{fce}-\x{fda}\x{1000}-\x{102c}\x{1031}\x{1038}\x{103b}\x{103c}\x{103f}-\x{1057}\x{105a}-\x{105d}\x{1061}-\x{1070}\x{1075}-\x{1081}\x{1083}\x{1084}\x{1087}-\x{108c}\x{108e}-\x{109c}\x{109e}-\x{10c5}\x{10c7}\x{10cd}\x{10d0}-\x{1248}\x{124a}-\x{124d}\x{1250}-\x{1256}\x{1258}\x{125a}-\x{125d}\x{1260}-\x{1288}\x{128a}-\x{128d}\x{1290}-\x{12b0}\x{12b2}-\x{12b5}\x{12b8}-\x{12be}\x{12c0}\x{12c2}-\x{12c5}\x{12c8}-\x{12d6}\x{12d8}-\x{1310}\x{1312}-\x{1315}\x{1318}-\x{135a}\x{1360}-\x{137c}\x{1380}-\x{138f}\x{13a0}-\x{13f5}\x{13f8}-\x{13fd}\x{1401}-\x{167f}\x{1681}-\x{169a}\x{16a0}-\x{16f8}\x{1700}-\x{170c}\x{170e}-\x{1711}\x{1720}-\x{1731}\x{1735}\x{1736}\x{1740}-\x{1751}\x{1760}-\x{176c}\x{176e}-\x{1770}\x{1780}-\x{17b3}\x{17b6}\x{17be}-\x{17c5}\x{17c7}\x{17c8}\x{17d4}-\x{17da}\x{17dc}\x{17e0}-\x{17e9}\x{1810}-\x{1819}\x{1820}-\x{1877}\x{1880}-\x{18a8}\x{18aa}\x{18b0}-\x{18f5}\x{1900}-\x{191e}\x{1923}-\x{1926}\x{1929}-\x{192b}\x{1930}\x{1931}\x{1933}-\x{1938}\x{1946}-\x{196d}\x{1970}-\x{1974}\x{1980}-\x{19ab}\x{19b0}-\x{19c9}\x{19d0}-\x{19da}\x{1a00}-\x{1a16}\x{1a19}\x{1a1a}\x{1a1e}-\x{1a55}\x{1a57}\x{1a61}\x{1a63}\x{1a64}\x{1a6d}-\x{1a72}\x{1a80}-\x{1a89}\x{1a90}-\x{1a99}\x{1aa0}-\x{1aad}\x{1b04}-\x{1b33}\x{1b35}\x{1b3b}\x{1b3d}-\x{1b41}\x{1b43}-\x{1b4b}\x{1b50}-\x{1b6a}\x{1b74}-\x{1b7c}\x{1b82}-\x{1ba1}\x{1ba6}\x{1ba7}\x{1baa}\x{1bae}-\x{1be5}\x{1be7}\x{1bea}-\x{1bec}\x{1bee}\x{1bf2}\x{1bf3}\x{1bfc}-\x{1c2b}\x{1c34}\x{1c35}\x{1c3b}-\x{1c49}\x{1c4d}-\x{1c7f}\x{1cc0}-\x{1cc7}\x{1cd3}\x{1ce1}\x{1ce9}-\x{1cec}\x{1cee}-\x{1cf3}\x{1cf5}\x{1cf6}\x{1d00}-\x{1dbf}\x{1e00}-\x{1f15}\x{1f18}-\x{1f1d}\x{1f20}-\x{1f45}\x{1f48}-\x{1f4d}\x{1f50}-\x{1f57}\x{1f59}\x{1f5b}\x{1f5d}\x{1f5f}-\x{1f7d}\x{1f80}-\x{1fb4}\x{1fb6}-\x{1fbc}\x{1fbe}\x{1fc2}-\x{1fc4}\x{1fc6}-\x{1fcc}\x{1fd0}-\x{1fd3}\x{1fd6}-\x{1fdb}\x{1fe0}-\x{1fec}\x{1ff2}-\x{1ff4}\x{1ff6}-\x{1ffc}\x{200e}\x{2071}\x{207f}\x{2090}-\x{209c}\x{2102}\x{2107}\x{210a}-\x{2113}\x{2115}\x{2119}-\x{211d}\x{2124}\x{2126}\x{2128}\x{212a}-\x{212d}\x{212f}-\x{2139}\x{213c}-\x{213f}\x{2145}-\x{2149}\x{214e}\x{214f}\x{2160}-\x{2188}\x{2336}-\x{237a}\x{2395}\x{249c}-\x{24e9}\x{26ac}\x{2800}-\x{28ff}\x{2c00}-\x{2c2e}\x{2c30}-\x{2c5e}\x{2c60}-\x{2ce4}\x{2ceb}-\x{2cee}\x{2cf2}\x{2cf3}\x{2d00}-\x{2d25}\x{2d27}\x{2d2d}\x{2d30}-\x{2d67}\x{2d6f}\x{2d70}\x{2d80}-\x{2d96}\x{2da0}-\x{2da6}\x{2da8}-\x{2dae}\x{2db0}-\x{2db6}\x{2db8}-\x{2dbe}\x{2dc0}-\x{2dc6}\x{2dc8}-\x{2dce}\x{2dd0}-\x{2dd6}\x{2dd8}-\x{2dde}\x{3005}-\x{3007}\x{3021}-\x{3029}\x{302e}\x{302f}\x{3031}-\x{3035}\x{3038}-\x{303c}\x{3041}-\x{3096}\x{309d}-\x{309f}\x{30a1}-\x{30fa}\x{30fc}-\x{30ff}\x{3105}-\x{312d}\x{3131}-\x{318e}\x{3190}-\x{31ba}\x{31f0}-\x{321c}\x{3220}-\x{324f}\x{3260}-\x{327b}\x{327f}-\x{32b0}\x{32c0}-\x{32cb}\x{32d0}-\x{32fe}\x{3300}-\x{3376}\x{337b}-\x{33dd}\x{33e0}-\x{33fe}\x{3400}-\x{4db5}\x{4e00}-\x{9fd5}\x{a000}-\x{a48c}\x{a4d0}-\x{a60c}\x{a610}-\x{a62b}\x{a640}-\x{a66e}\x{a680}-\x{a69d}\x{a6a0}-\x{a6ef}\x{a6f2}-\x{a6f7}\x{a722}-\x{a787}\x{a789}-\x{a7ad}\x{a7b0}-\x{a7b7}\x{a7f7}-\x{a801}\x{a803}-\x{a805}\x{a807}-\x{a80a}\x{a80c}-\x{a824}\x{a827}\x{a830}-\x{a837}\x{a840}-\x{a873}\x{a880}-\x{a8c3}\x{a8ce}-\x{a8d9}\x{a8f2}-\x{a8fd}\x{a900}-\x{a925}\x{a92e}-\x{a946}\x{a952}\x{a953}\x{a95f}-\x{a97c}\x{a983}-\x{a9b2}\x{a9b4}\x{a9b5}\x{a9ba}\x{a9bb}\x{a9bd}-\x{a9cd}\x{a9cf}-\x{a9d9}\x{a9de}-\x{a9e4}\x{a9e6}-\x{a9fe}\x{aa00}-\x{aa28}\x{aa2f}\x{aa30}\x{aa33}\x{aa34}\x{aa40}-\x{aa42}\x{aa44}-\x{aa4b}\x{aa4d}\x{aa50}-\x{aa59}\x{aa5c}-\x{aa7b}\x{aa7d}-\x{aaaf}\x{aab1}\x{aab5}\x{aab6}\x{aab9}-\x{aabd}\x{aac0}\x{aac2}\x{aadb}-\x{aaeb}\x{aaee}-\x{aaf5}\x{ab01}-\x{ab06}\x{ab09}-\x{ab0e}\x{ab11}-\x{ab16}\x{ab20}-\x{ab26}\x{ab28}-\x{ab2e}\x{ab30}-\x{ab65}\x{ab70}-\x{abe4}\x{abe6}\x{abe7}\x{abe9}-\x{abec}\x{abf0}-\x{abf9}\x{ac00}-\x{d7a3}\x{d7b0}-\x{d7c6}\x{d7cb}-\x{d7fb}\x{e000}-\x{fa6d}\x{fa70}-\x{fad9}\x{fb00}-\x{fb06}\x{fb13}-\x{fb17}\x{ff21}-\x{ff3a}\x{ff41}-\x{ff5a}\x{ff66}-\x{ffbe}\x{ffc2}-\x{ffc7}\x{ffca}-\x{ffcf}\x{ffd2}-\x{ffd7}\x{ffda}-\x{ffdc}\x{10000}-\x{1000b}\x{1000d}-\x{10026}\x{10028}-\x{1003a}\x{1003c}\x{1003d}\x{1003f}-\x{1004d}\x{10050}-\x{1005d}\x{10080}-\x{100fa}\x{10100}\x{10102}\x{10107}-\x{10133}\x{10137}-\x{1013f}\x{101d0}-\x{101fc}\x{10280}-\x{1029c}\x{102a0}-\x{102d0}\x{10300}-\x{10323}\x{10330}-\x{1034a}\x{10350}-\x{10375}\x{10380}-\x{1039d}\x{1039f}-\x{103c3}\x{103c8}-\x{103d5}\x{10400}-\x{1049d}\x{104a0}-\x{104a9}\x{10500}-\x{10527}\x{10530}-\x{10563}\x{1056f}\x{10600}-\x{10736}\x{10740}-\x{10755}\x{10760}-\x{10767}\x{11000}\x{11002}-\x{11037}\x{11047}-\x{1104d}\x{11066}-\x{1106f}\x{11082}-\x{110b2}\x{110b7}\x{110b8}\x{110bb}-\x{110c1}\x{110d0}-\x{110e8}\x{110f0}-\x{110f9}\x{11103}-\x{11126}\x{1112c}\x{11136}-\x{11143}\x{11150}-\x{11172}\x{11174}-\x{11176}\x{11182}-\x{111b5}\x{111bf}-\x{111c9}\x{111cd}\x{111d0}-\x{111df}\x{111e1}-\x{111f4}\x{11200}-\x{11211}\x{11213}-\x{1122e}\x{11232}\x{11233}\x{11235}\x{11238}-\x{1123d}\x{11280}-\x{11286}\x{11288}\x{1128a}-\x{1128d}\x{1128f}-\x{1129d}\x{1129f}-\x{112a9}\x{112b0}-\x{112de}\x{112e0}-\x{112e2}\x{112f0}-\x{112f9}\x{11302}\x{11303}\x{11305}-\x{1130c}\x{1130f}\x{11310}\x{11313}-\x{11328}\x{1132a}-\x{11330}\x{11332}\x{11333}\x{11335}-\x{11339}\x{1133d}-\x{1133f}\x{11341}-\x{11344}\x{11347}\x{11348}\x{1134b}-\x{1134d}\x{11350}\x{11357}\x{1135d}-\x{11363}\x{11480}-\x{114b2}\x{114b9}\x{114bb}-\x{114be}\x{114c1}\x{114c4}-\x{114c7}\x{114d0}-\x{114d9}\x{11580}-\x{115b1}\x{115b8}-\x{115bb}\x{115be}\x{115c1}-\x{115db}\x{11600}-\x{11632}\x{1163b}\x{1163c}\x{1163e}\x{11641}-\x{11644}\x{11650}-\x{11659}\x{11680}-\x{116aa}\x{116ac}\x{116ae}\x{116af}\x{116b6}\x{116c0}-\x{116c9}\x{11700}-\x{11719}\x{11720}\x{11721}\x{11726}\x{11730}-\x{1173f}\x{118a0}-\x{118f2}\x{118ff}\x{11ac0}-\x{11af8}\x{12000}-\x{12399}\x{12400}-\x{1246e}\x{12470}-\x{12474}\x{12480}-\x{12543}\x{13000}-\x{1342e}\x{14400}-\x{14646}\x{16800}-\x{16a38}\x{16a40}-\x{16a5e}\x{16a60}-\x{16a69}\x{16a6e}\x{16a6f}\x{16ad0}-\x{16aed}\x{16af5}\x{16b00}-\x{16b2f}\x{16b37}-\x{16b45}\x{16b50}-\x{16b59}\x{16b5b}-\x{16b61}\x{16b63}-\x{16b77}\x{16b7d}-\x{16b8f}\x{16f00}-\x{16f44}\x{16f50}-\x{16f7e}\x{16f93}-\x{16f9f}\x{1b000}\x{1b001}\x{1bc00}-\x{1bc6a}\x{1bc70}-\x{1bc7c}\x{1bc80}-\x{1bc88}\x{1bc90}-\x{1bc99}\x{1bc9c}\x{1bc9f}\x{1d000}-\x{1d0f5}\x{1d100}-\x{1d126}\x{1d129}-\x{1d166}\x{1d16a}-\x{1d172}\x{1d183}\x{1d184}\x{1d18c}-\x{1d1a9}\x{1d1ae}-\x{1d1e8}\x{1d360}-\x{1d371}\x{1d400}-\x{1d454}\x{1d456}-\x{1d49c}\x{1d49e}\x{1d49f}\x{1d4a2}\x{1d4a5}\x{1d4a6}\x{1d4a9}-\x{1d4ac}\x{1d4ae}-\x{1d4b9}\x{1d4bb}\x{1d4bd}-\x{1d4c3}\x{1d4c5}-\x{1d505}\x{1d507}-\x{1d50a}\x{1d50d}-\x{1d514}\x{1d516}-\x{1d51c}\x{1d51e}-\x{1d539}\x{1d53b}-\x{1d53e}\x{1d540}-\x{1d544}\x{1d546}\x{1d54a}-\x{1d550}\x{1d552}-\x{1d6a5}\x{1d6a8}-\x{1d6da}\x{1d6dc}-\x{1d714}\x{1d716}-\x{1d74e}\x{1d750}-\x{1d788}\x{1d78a}-\x{1d7c2}\x{1d7c4}-\x{1d7cb}\x{1d800}-\x{1d9ff}\x{1da37}-\x{1da3a}\x{1da6d}-\x{1da74}\x{1da76}-\x{1da83}\x{1da85}-\x{1da8b}\x{1f110}-\x{1f12e}\x{1f130}-\x{1f169}\x{1f170}-\x{1f19a}\x{1f1e6}-\x{1f202}\x{1f210}-\x{1f23a}\x{1f240}-\x{1f248}\x{1f250}\x{1f251}\x{20000}-\x{2a6d6}\x{2a700}-\x{2b734}\x{2b740}-\x{2b81d}\x{2b820}-\x{2cea1}\x{2f800}-\x{2fa1d}\x{f0000}-\x{ffffd}\x{100000}-\x{10fffd}])|([\x{590}\x{5be}\x{5c0}\x{5c3}\x{5c6}\x{5c8}-\x{5ff}\x{7c0}-\x{7ea}\x{7f4}\x{7f5}\x{7fa}-\x{815}\x{81a}\x{824}\x{828}\x{82e}-\x{858}\x{85c}-\x{89f}\x{200f}\x{fb1d}\x{fb1f}-\x{fb28}\x{fb2a}-\x{fb4f}\x{10800}-\x{1091e}\x{10920}-\x{10a00}\x{10a04}\x{10a07}-\x{10a0b}\x{10a10}-\x{10a37}\x{10a3b}-\x{10a3e}\x{10a40}-\x{10ae4}\x{10ae7}-\x{10b38}\x{10b40}-\x{10e5f}\x{10e7f}-\x{10fff}\x{1e800}-\x{1e8cf}\x{1e8d7}-\x{1edff}\x{1ef00}-\x{1efff}\x{608}\x{60b}\x{60d}\x{61b}-\x{64a}\x{66d}-\x{66f}\x{671}-\x{6d5}\x{6e5}\x{6e6}\x{6ee}\x{6ef}\x{6fa}-\x{710}\x{712}-\x{72f}\x{74b}-\x{7a5}\x{7b1}-\x{7bf}\x{8a0}-\x{8e2}\x{fb50}-\x{fd3d}\x{fd40}-\x{fdcf}\x{fdf0}-\x{fdfc}\x{fdfe}\x{fdff}\x{fe70}-\x{fefe}\x{1ee00}-\x{1eeef}\x{1eef2}-\x{1eeff}]))/u';
// @codeCoverageIgnoreEnd
/**
* @internal Calling this directly is deprecated. Use LanguageFactory instead.
*
* @param string|null $code Which code to use. Passing null is deprecated in 1.35.
* @param NamespaceInfo|null $namespaceInfo
* @param LocalisationCache|null $localisationCache
* @param LanguageNameUtils|null $langNameUtils
* @param LanguageFallback|null $langFallback
* @param LanguageConverterFactory|null $converterFactory
* @param HookContainer|null $hookContainer
* @param Config|null $config
*/
public function __construct(
$code = null,
NamespaceInfo $namespaceInfo = null,
LocalisationCache $localisationCache = null,
LanguageNameUtils $langNameUtils = null,
LanguageFallback $langFallback = null,
LanguageConverterFactory $converterFactory = null,
HookContainer $hookContainer = null,
Config $config = null
) {
if ( !func_num_args() ) {
// Old calling convention, deprecated
if ( static::class === 'Language' ) {
$this->mCode = 'en';
} else {
$this->mCode = str_replace( '_', '-', strtolower( substr( static::class, 8 ) ) );
}
$services = MediaWikiServices::getInstance();
$this->namespaceInfo = $services->getNamespaceInfo();
$this->localisationCache = $services->getLocalisationCache();
$this->langNameUtils = $services->getLanguageNameUtils();
$this->langFallback = $services->getLanguageFallback();
$this->converterFactory = $services->getLanguageConverterFactory();
$this->hookContainer = $services->getHookContainer();
$this->hookRunner = new HookRunner( $this->hookContainer );
$this->config = $services->getMainConfig();
return;
}
Assert::parameter( $code !== null, '$code',
'Parameters cannot be null unless all are omitted' );
Assert::parameter( $namespaceInfo !== null, '$namespaceInfo',
'Parameters cannot be null unless all are omitted' );
Assert::parameter( $localisationCache !== null, '$localisationCache',
'Parameters cannot be null unless all are omitted' );
Assert::parameter( $langNameUtils !== null, '$langNameUtils',
'Parameters cannot be null unless all are omitted' );
Assert::parameter( $langFallback !== null, '$langFallback',
'Parameters cannot be null unless all are omitted' );
Assert::parameter( $converterFactory !== null, '$converterFactory',
'Parameters cannot be null unless all are omitted' );
Assert::parameter( $hookContainer !== null, '$hookContainer',
'Parameters cannot be null unless all are omitted' );
Assert::parameter( $config !== null, '$config',
'Parameters cannot be null unless all are omitted' );
$this->mCode = $code;
$this->namespaceInfo = $namespaceInfo;
$this->localisationCache = $localisationCache;
$this->langNameUtils = $langNameUtils;
$this->langFallback = $langFallback;
$this->converterFactory = $converterFactory;
$this->hookContainer = $hookContainer;
$this->hookRunner = new HookRunner( $hookContainer );
$this->config = $config;
}
/**
* @return array
* @since 1.19
*/
public function getFallbackLanguages() {
return $this->langFallback->getAll( $this->mCode );
}
/**
* Exports $wgBookstoreListEn
* @return array
*/
public function getBookstoreList() {
return $this->localisationCache->getItem( $this->mCode, 'bookstoreList' );
}
/**
* Returns an array of localised namespaces indexed by their numbers. If the namespace is not
* available in localised form, it will be included in English.
*
* @return array<int,string> List of localized namespace names, indexed by numeric namespace ID.
*/
public function getNamespaces() {
if ( $this->namespaceNames === null ) {
$metaNamespace = $this->config->get( MainConfigNames::MetaNamespace );
$metaNamespaceTalk = $this->config->get( MainConfigNames::MetaNamespaceTalk );
$extraNamespaces = $this->config->get( MainConfigNames::ExtraNamespaces );
$validNamespaces = $this->namespaceInfo->getCanonicalNamespaces();
// @phan-suppress-next-line PhanTypeMismatchProperty
$this->namespaceNames = $extraNamespaces +
$this->localisationCache->getItem( $this->mCode, 'namespaceNames' );
// @phan-suppress-next-line PhanTypeInvalidLeftOperand
$this->namespaceNames += $validNamespaces;
$this->namespaceNames[NS_PROJECT] = $metaNamespace;
if ( $metaNamespaceTalk ) {
$this->namespaceNames[NS_PROJECT_TALK] = $metaNamespaceTalk;
} else {
$talk = $this->namespaceNames[NS_PROJECT_TALK];
$this->namespaceNames[NS_PROJECT_TALK] =
$this->fixVariableInNamespace( $talk );
}
# Sometimes a language will be localised but not actually exist on this wiki.
foreach ( $this->namespaceNames as $key => $text ) {
if ( !isset( $validNamespaces[$key] ) ) {
unset( $this->namespaceNames[$key] );
}
}
# The above mixing may leave namespaces out of canonical order.
# Re-order by namespace ID number...
ksort( $this->namespaceNames );
$this->getHookRunner()->onLanguageGetNamespaces( $this->namespaceNames );
}
return $this->namespaceNames;
}
/**
* Arbitrarily set all the namespace names at once. Mainly used for testing
* @param string[] $namespaces Array of namespaces (id => name)
*/
public function setNamespaces( array $namespaces ) {
$this->namespaceNames = $namespaces;
$this->mNamespaceIds = null;
}
/**
* Resets all the namespace caches. Mainly used for testing
* @deprecated since 1.39 Use MediaWikiServices::resetServiceForTesting() instead.
*/
public function resetNamespaces() {
$this->namespaceNames = null;
$this->mNamespaceIds = null;
$this->namespaceAliases = null;
}
/**
* A convenience function that returns getNamespaces() with spaces instead of underscores
* in values. Useful for producing output to be displayed e.g. in `<select>` forms.
*
* @return string[]
*/
public function getFormattedNamespaces() {
$ns = $this->getNamespaces();
foreach ( $ns as $k => $v ) {
$ns[$k] = strtr( $v, '_', ' ' );
}
return $ns;
}
/**
* Get a namespace value by key
*
* Namespace name uses underscores (not spaces), e.g. 'MediaWiki_talk'.
*
* <code>
* $mw_ns = $lang->getNsText( NS_MEDIAWIKI_TALK );
* echo $mw_ns; // prints 'MediaWiki_talk'
* </code>
*
* @param int $index The array key of the namespace to return
* @return string|false String if the namespace value exists, otherwise false
*/
public function getNsText( $index ) {
$ns = $this->getNamespaces();
return $ns[$index] ?? false;
}
/**
* A convenience function that returns the same thing as
* getNsText() except with '_' changed to ' ', useful for
* producing output.
*
* <code>
* $mw_ns = $lang->getFormattedNsText( NS_MEDIAWIKI_TALK );
* echo $mw_ns; // prints 'MediaWiki talk'
* </code>
*
* @param int $index The array key of the namespace to return
* @return string Namespace name without underscores (empty string if namespace does not exist)
*/
public function getFormattedNsText( $index ) {
$ns = $this->getNsText( $index );
return $ns === false ? '' : strtr( $ns, '_', ' ' );
}
/**
* Returns gender-dependent namespace alias if available.
* See https://www.mediawiki.org/wiki/Manual:$wgExtraGenderNamespaces
* @param int $index Namespace index
* @param string $gender Gender key (male, female... )
* @return string|false
* @since 1.18
*/
public function getGenderNsText( $index, $gender ) {
$extraGenderNamespaces = $this->config->get( MainConfigNames::ExtraGenderNamespaces );
$ns = $extraGenderNamespaces +
(array)$this->localisationCache->getItem( $this->mCode, 'namespaceGenderAliases' );
return $ns[$index][$gender] ?? $this->getNsText( $index );
}
/**
* Whether this language uses gender-dependent namespace aliases.
* See https://www.mediawiki.org/wiki/Manual:$wgExtraGenderNamespaces
* @return bool
* @since 1.18
*/
public function needsGenderDistinction() {
$extraGenderNamespaces = $this->config->get( MainConfigNames::ExtraGenderNamespaces );
$extraNamespaces = $this->config->get( MainConfigNames::ExtraNamespaces );
if ( count( $extraGenderNamespaces ) > 0 ) {
// $wgExtraGenderNamespaces overrides everything
return true;
} elseif ( isset( $extraNamespaces[NS_USER] ) && isset( $extraNamespaces[NS_USER_TALK] ) ) {
// @todo There may be other gender namespace than NS_USER & NS_USER_TALK in the future
// $wgExtraNamespaces overrides any gender aliases specified in i18n files
return false;
} else {
// Check what is in i18n files
$aliases = $this->localisationCache->getItem( $this->mCode, 'namespaceGenderAliases' );
return count( $aliases ) > 0;
}
}
/**
* Get a namespace key by case-insensitive value.
* Only matches namespace names for the current language, not the
* canonical ones defined in Namespace.php.
*
* @param string $text
* @return int|false An integer if $text is a valid value otherwise false
*/
public function getLocalNsIndex( $text ) {
$lctext = $this->lc( $text );
$ids = $this->getNamespaceIds();
return $ids[$lctext] ?? false;
}
/**
* @return array<string,int> Map from names to namespace IDs. Note that each
* namespace ID can have multiple alias.
*/
public function getNamespaceAliases() {
if ( $this->namespaceAliases === null ) {
$aliases = $this->localisationCache->getItem( $this->mCode, 'namespaceAliases' );
if ( !$aliases ) {
$aliases = [];
} else {
foreach ( $aliases as $name => $index ) {
if ( $index === NS_PROJECT_TALK ) {
unset( $aliases[$name] );
$name = $this->fixVariableInNamespace( $name );
$aliases[$name] = $index;
}
}
}
$extraGenderNamespaces = $this->config->get( MainConfigNames::ExtraGenderNamespaces );
$genders = $extraGenderNamespaces + (array)$this->localisationCache
->getItem( $this->mCode, 'namespaceGenderAliases' );
foreach ( $genders as $index => $forms ) {
foreach ( $forms as $alias ) {
$aliases[$alias] = $index;
}
}
$langConverter = $this->getConverterInternal();
# Also add converted namespace names as aliases, to avoid confusion.
$convertedNames = [];
foreach ( $langConverter->getVariants() as $variant ) {
if ( $variant === $this->mCode ) {
continue;
}
foreach ( $this->getNamespaces() as $ns => $_ ) {
$convertedNames[$langConverter->convertNamespace( $ns, $variant )] = $ns;
}
}
$this->namespaceAliases = $aliases + $convertedNames;
// In the case of conflicts between $wgNamespaceAliases and other sources
// of aliasing, $wgNamespaceAliases wins.
$this->namespaceAliases = $this->config->get( MainConfigNames::NamespaceAliases ) +
$this->namespaceAliases;
# Filter out aliases to namespaces that don't exist, e.g. from extensions
# that aren't loaded here but are included in the l10n cache.
# (array_intersect preserves keys from its first argument)
$this->namespaceAliases = array_intersect(
$this->namespaceAliases,
array_keys( $this->getNamespaces() )
);
}
return $this->namespaceAliases;
}
/**
* @return array<string,int> indexed by localized lower-cased namespace name
*/
public function getNamespaceIds() {
if ( $this->mNamespaceIds === null ) {
# Put namespace names and aliases into a hashtable.
# If this is too slow, then we should arrange it so that it is done
# before caching. The catch is that at pre-cache time, the above
# class-specific fixup hasn't been done.
$this->mNamespaceIds = [];
foreach ( $this->getNamespaces() as $index => $name ) {
$this->mNamespaceIds[$this->lc( $name )] = $index;
}
foreach ( $this->getNamespaceAliases() as $name => $index ) {
$this->mNamespaceIds[$this->lc( $name )] = $index;
}
}
return $this->mNamespaceIds;
}
/**
* Get a namespace key by case-insensitive value. Canonical namespace
* names override custom ones defined for the current language.
*
* @param string $text
* @return int|false An integer if $text is a valid value otherwise false
*/
public function getNsIndex( $text ) {
$lctext = $this->lc( $text );
$ns = $this->namespaceInfo->getCanonicalIndex( $lctext );
if ( $ns !== null ) {
return $ns;
}
$ids = $this->getNamespaceIds();
return $ids[$lctext] ?? false;
}
/**
* Short names for language variants used for language conversion links.
*
* @param string $code
* @param bool $usemsg Use the "variantname-xyz" message if it exists
* @return string
*/
public function getVariantname( $code, $usemsg = true ) {
if ( $usemsg ) {
$msg = $this->msg( "variantname-$code" );
if ( $msg->exists() ) {
return $msg->text();
}
}
$name = $this->langNameUtils->getLanguageName( $code );
if ( $name ) {
return $name; # if it's defined as a language name, show that
} else {
# otherwise, output the language code
return $code;
}
}
/**
* @return string[]|false List of date format preference keys, or false if disabled.
*/
public function getDatePreferences() {
return $this->localisationCache->getItem( $this->mCode, 'datePreferences' );
}
/**
* @return string[]
*/
public function getDateFormats() {
return $this->localisationCache->getItem( $this->mCode, 'dateFormats' );
}
/**
* @return string
*/
public function getDefaultDateFormat() {
$df = $this->localisationCache->getItem( $this->mCode, 'defaultDateFormat' );
if ( $df === 'dmy or mdy' ) {
return $this->config->get( MainConfigNames::AmericanDates ) ? 'mdy' : 'dmy';
} else {
return $df;
}
}
/**
* @return string[]
*/
public function getDatePreferenceMigrationMap() {
return $this->localisationCache->getItem( $this->mCode, 'datePreferenceMigrationMap' );
}
/**
* Get a message from the MediaWiki namespace.
*
* @param string $msg Message name
* @return string
*/
public function getMessageFromDB( $msg ) {
return $this->msg( $msg )->text();
}
/**
* Gets the Message object from this language. Only for use inside this class.
*
* @param string $msg Message name
* @param mixed ...$params Message parameters
* @return Message
*/
protected function msg( $msg, ...$params ) {
return wfMessage( $msg, ...$params )->inLanguage( $this );
}
/**
* @param int $key Number from 1 to 12
* @return string
*/
public function getMonthName( $key ) {
return $this->getMessageFromDB( self::MONTH_MESSAGES[$key - 1] );
}
/**
* @return string[] Indexed from 0 to 11
*/
public function getMonthNamesArray() {
$monthNames = [ '' ];
for ( $i = 1; $i <= 12; $i++ ) {
$monthNames[] = $this->getMonthName( $i );
}
return $monthNames;
}
/**
* @param int $key Number from 1 to 12
* @return string
*/
public function getMonthNameGen( $key ) {
return $this->getMessageFromDB( self::MONTH_GENITIVE_MESSAGES[$key - 1] );
}
/**
* @param int $key Number from 1 to 12
* @return string
*/
public function getMonthAbbreviation( $key ) {
return $this->getMessageFromDB( self::MONTH_ABBREVIATED_MESSAGES[$key - 1] );
}
/**
* @return string[] Indexed from 0 to 11
*/
public function getMonthAbbreviationsArray() {
$monthNames = [ '' ];
for ( $i = 1; $i <= 12; $i++ ) {
$monthNames[] = $this->getMonthAbbreviation( $i );
}
return $monthNames;
}
/**
* @param int $key Number from 1 to 7
* @return string
*/
public function getWeekdayName( $key ) {
return $this->getMessageFromDB( self::WEEKDAY_MESSAGES[$key - 1] );
}
/**
* @param int $key Number from 1 to 7
* @return string
*/
public function getWeekdayAbbreviation( $key ) {
return $this->getMessageFromDB( self::WEEKDAY_ABBREVIATED_MESSAGES[$key - 1] );
}
/**
* Pass through the result from $dateTimeObj->format()
*
* @param DateTime|false|null &$dateTimeObj
* @param string $ts
* @param DateTimeZone|false|null $zone
* @param string $code
* @return string
*/
private static function dateTimeObjFormat( &$dateTimeObj, $ts, $zone, $code ) {
if ( !$dateTimeObj ) {
$dateTimeObj = DateTime::createFromFormat(
'YmdHis', $ts, $zone ?: new DateTimeZone( 'UTC' )
);
}
return $dateTimeObj->format( $code );
}
/**
* This is a workalike of PHP's date() function, but with better
* internationalisation, a reduced set of format characters, and a better
* escaping format.
*
* Supported format characters are dDjlNwzWFmMntLoYyaAgGhHiscrUeIOPTZ. See
* the PHP manual for definitions. There are a number of extensions, which
* start with "x":
*
* xn Do not translate digits of the next numeric format character
* xN Toggle raw digit (xn) flag, stays set until explicitly unset
* xr Use roman numerals for the next numeric format character
* xh Use hebrew numerals for the next numeric format character
* xx Literal x
* xg Genitive month name
*
* xij j (day number) in Iranian calendar
* xiF F (month name) in Iranian calendar
* xin n (month number) in Iranian calendar
* xiy y (two digit year) in Iranian calendar
* xiY Y (full year) in Iranian calendar
* xit t (days in month) in Iranian calendar
* xiz z (day of the year) in Iranian calendar
*
* xjj j (day number) in Hebrew calendar
* xjF F (month name) in Hebrew calendar
* xjt t (days in month) in Hebrew calendar
* xjx xg (genitive month name) in Hebrew calendar
* xjn n (month number) in Hebrew calendar
* xjY Y (full year) in Hebrew calendar
*
* xmj j (day number) in Hijri calendar
* xmF F (month name) in Hijri calendar
* xmn n (month number) in Hijri calendar
* xmY Y (full year) in Hijri calendar
*
* xkY Y (full year) in Thai solar calendar. Months and days are
* identical to the Gregorian calendar
* xoY Y (full year) in Minguo calendar or Juche year.
* Months and days are identical to the
* Gregorian calendar
* xtY Y (full year) in Japanese nengo. Months and days are
* identical to the Gregorian calendar
*
* Characters enclosed in double quotes will be considered literal (with
* the quotes themselves removed). Unmatched quotes will be considered
* literal quotes. Example:
*
* "The month is" F => The month is January
* i's" => 20'11"
*
* Backslash escaping is also supported.
*
* Input timestamp is assumed to be pre-normalized to the desired local
* time zone, if any. Note that the format characters crUeIOPTZ will assume
* $ts is UTC if $zone is not given.
*
* @param string $format
* @param string $ts 14-character timestamp
* YYYYMMDDHHMMSS
* 01234567890123
* @param DateTimeZone|null $zone Timezone of $ts
* @param int|null &$ttl The amount of time (in seconds) the output may be cached for.
* Only makes sense if $ts is the current time.
* @todo handling of "o" format character for Iranian, Hebrew, Hijri & Thai?
*
* @return string
* @return-taint tainted
*/
public function sprintfDate( $format, $ts, DateTimeZone $zone = null, &$ttl = 'unused' ) {
// @phan-suppress-previous-line PhanTypeMismatchDefault Type mismatch on pass-by-ref args
$s = '';
$raw = false;
$roman = false;
$hebrewNum = false;
$dateTimeObj = false;
$rawToggle = false;
$iranian = false;
$hebrew = false;
$hijri = false;
$thai = false;
$minguo = false;
$tenno = false;
$usedSecond = false;
$usedMinute = false;
$usedHour = false;
$usedAMPM = false;
$usedDay = false;
$usedWeek = false;
$usedMonth = false;
$usedYear = false;
$usedISOYear = false;
$usedIsLeapYear = false;
$usedHebrewMonth = false;
$usedIranianMonth = false;
$usedHijriMonth = false;
$usedHebrewYear = false;
$usedIranianYear = false;
$usedHijriYear = false;
$usedTennoYear = false;
if ( strlen( $ts ) !== 14 ) {
throw new InvalidArgumentException( __METHOD__ . ": The timestamp $ts should have 14 characters" );
}
if ( !ctype_digit( $ts ) ) {
throw new InvalidArgumentException( __METHOD__ . ": The timestamp $ts should be a number" );
}
$formatLength = strlen( $format );
for ( $p = 0; $p < $formatLength; $p++ ) {
$num = false;
$code = $format[$p];
if ( $code == 'x' && $p < $formatLength - 1 ) {
$code .= $format[++$p];
}
if ( ( $code === 'xi'
|| $code === 'xj'
|| $code === 'xk'
|| $code === 'xm'
|| $code === 'xo'
|| $code === 'xt' )
&& $p < $formatLength - 1
) {
$code .= $format[++$p];
}
switch ( $code ) {
case 'xx':
$s .= 'x';
break;
case 'xn':
$raw = true;
break;
case 'xN':
$rawToggle = !$rawToggle;
break;
case 'xr':
$roman = true;
break;
case 'xh':
$hebrewNum = true;
break;
case 'xg':
$usedMonth = true;
$s .= $this->getMonthNameGen( (int)substr( $ts, 4, 2 ) );
break;
case 'xjx':
$usedHebrewMonth = true;
if ( !$hebrew ) {
$hebrew = self::tsToHebrew( $ts );
}
$s .= $this->getMessageFromDB( self::HEBREW_CALENDAR_MONTH_GENITIVE_MESSAGES[$hebrew[1] - 1] );
break;
case 'd':
$usedDay = true;
$num = substr( $ts, 6, 2 );
break;
case 'D':
$usedDay = true;
$s .= $this->getWeekdayAbbreviation(
(int)self::dateTimeObjFormat( $dateTimeObj, $ts, $zone, 'w' ) + 1
);
break;
case 'j':
$usedDay = true;
$num = intval( substr( $ts, 6, 2 ) );
break;
case 'xij':
$usedDay = true;
if ( !$iranian ) {
$iranian = self::tsToIranian( $ts );
}
$num = $iranian[2];
break;
case 'xmj':
$usedDay = true;
if ( !$hijri ) {
$hijri = self::tsToHijri( $ts );
}
$num = $hijri[2];
break;
case 'xjj':
$usedDay = true;
if ( !$hebrew ) {
$hebrew = self::tsToHebrew( $ts );
}
$num = $hebrew[2];
break;
case 'l':
$usedDay = true;
$s .= $this->getWeekdayName(
(int)self::dateTimeObjFormat( $dateTimeObj, $ts, $zone, 'w' ) + 1
);
break;
case 'F':
$usedMonth = true;
$s .= $this->getMonthName( (int)substr( $ts, 4, 2 ) );
break;
case 'xiF':
$usedIranianMonth = true;
if ( !$iranian ) {
$iranian = self::tsToIranian( $ts );
}
$s .= $this->getMessageFromDB( self::IRANIAN_CALENDAR_MONTHS_MESSAGES[$iranian[1] - 1] );
break;
case 'xmF':
$usedHijriMonth = true;
if ( !$hijri ) {
$hijri = self::tsToHijri( $ts );
}
$s .= $this->getMessageFromDB( self::HIJRI_CALENDAR_MONTH_MESSAGES[$hijri[1] - 1] );
break;
case 'xjF':
$usedHebrewMonth = true;
if ( !$hebrew ) {
$hebrew = self::tsToHebrew( $ts );
}
$s .= $this->getMessageFromDB( self::HEBREW_CALENDAR_MONTHS_MESSAGES[$hebrew[1] - 1] );
break;
case 'm':
$usedMonth = true;
$num = substr( $ts, 4, 2 );
break;
case 'M':
$usedMonth = true;
$s .= $this->getMonthAbbreviation( (int)substr( $ts, 4, 2 ) );
break;
case 'n':
$usedMonth = true;
$num = intval( substr( $ts, 4, 2 ) );
break;
case 'xin':
$usedIranianMonth = true;
if ( !$iranian ) {
$iranian = self::tsToIranian( $ts );
}
$num = $iranian[1];
break;
case 'xmn':
$usedHijriMonth = true;
if ( !$hijri ) {
$hijri = self::tsToHijri( $ts );
}
$num = $hijri[1];
break;
case 'xjn':
$usedHebrewMonth = true;
if ( !$hebrew ) {
$hebrew = self::tsToHebrew( $ts );
}
$num = $hebrew[1];
break;
case 'xjt':
$usedHebrewMonth = true;
if ( !$hebrew ) {
$hebrew = self::tsToHebrew( $ts );
}
$num = $hebrew[3];
break;
case 'Y':
$usedYear = true;
$num = substr( $ts, 0, 4 );
break;
case 'xiY':
$usedIranianYear = true;
if ( !$iranian ) {
$iranian = self::tsToIranian( $ts );
}
$num = $iranian[0];
break;
case 'xmY':
$usedHijriYear = true;
if ( !$hijri ) {
$hijri = self::tsToHijri( $ts );
}
$num = $hijri[0];
break;
case 'xjY':
$usedHebrewYear = true;
if ( !$hebrew ) {
$hebrew = self::tsToHebrew( $ts );
}
$num = $hebrew[0];
break;
case 'xkY':
$usedYear = true;
if ( !$thai ) {
$thai = self::tsToYear( $ts, 'thai' );
}
$num = $thai[0];
break;
case 'xoY':
$usedYear = true;
if ( !$minguo ) {
$minguo = self::tsToYear( $ts, 'minguo' );
}
$num = $minguo[0];
break;
case 'xtY':
$usedTennoYear = true;
if ( !$tenno ) {
$tenno = self::tsToJapaneseGengo( $ts );
}
$num = $tenno;
break;
case 'y':
$usedYear = true;
$num = substr( $ts, 2, 2 );
break;
case 'xiy':
$usedIranianYear = true;
if ( !$iranian ) {
$iranian = self::tsToIranian( $ts );
}
$num = substr( (string)$iranian[0], -2 );
break;
case 'xit':
$usedIranianYear = true;
if ( !$iranian ) {
$iranian = self::tsToIranian( $ts );
}
$num = self::IRANIAN_DAYS[$iranian[1] - 1];
break;
case 'xiz':
$usedIranianYear = true;
if ( !$iranian ) {
$iranian = self::tsToIranian( $ts );
}
$num = $iranian[3];
break;
case 'a':
$usedAMPM = true;
$s .= intval( substr( $ts, 8, 2 ) ) < 12 ? 'am' : 'pm';
break;
case 'A':
$usedAMPM = true;
$s .= intval( substr( $ts, 8, 2 ) ) < 12 ? 'AM' : 'PM';
break;
case 'g':
$usedHour = true;
$h = (int)substr( $ts, 8, 2 );
$num = $h % 12 ?: 12;
break;
case 'G':
$usedHour = true;
$num = intval( substr( $ts, 8, 2 ) );
break;
case 'h':
$usedHour = true;
$h = (int)substr( $ts, 8, 2 );
$num = sprintf( '%02d', $h % 12 ?: 12 );
break;
case 'H':
$usedHour = true;
$num = substr( $ts, 8, 2 );
break;
case 'i':
$usedMinute = true;
$num = substr( $ts, 10, 2 );
break;
case 's':
$usedSecond = true;
$num = substr( $ts, 12, 2 );
break;
case 'c':
case 'r':
$usedSecond = true;
// fall through
case 'e':
case 'O':
case 'P':
case 'T':
$s .= self::dateTimeObjFormat( $dateTimeObj, $ts, $zone, $code );
break;
case 'w':
case 'N':
case 'z':
$usedDay = true;
$num = self::dateTimeObjFormat( $dateTimeObj, $ts, $zone, $code );
break;
case 'W':
$usedWeek = true;
$num = self::dateTimeObjFormat( $dateTimeObj, $ts, $zone, $code );
break;
case 't':
$usedMonth = true;
$num = self::dateTimeObjFormat( $dateTimeObj, $ts, $zone, $code );
break;
case 'L':
$usedIsLeapYear = true;
$num = self::dateTimeObjFormat( $dateTimeObj, $ts, $zone, $code );
break;
case 'o':
$usedISOYear = true;
$num = self::dateTimeObjFormat( $dateTimeObj, $ts, $zone, $code );
break;
case 'U':
$usedSecond = true;
// fall through
case 'I':
case 'Z':
$num = self::dateTimeObjFormat( $dateTimeObj, $ts, $zone, $code );
break;
case '\\':
# Backslash escaping
if ( $p < $formatLength - 1 ) {
$s .= $format[++$p];
} else {
$s .= '\\';
}
break;
case '"':
# Quoted literal
if ( $p < $formatLength - 1 ) {
$endQuote = strpos( $format, '"', $p + 1 );
if ( $endQuote === false ) {
# No terminating quote, assume literal "
$s .= '"';
} else {
$s .= substr( $format, $p + 1, $endQuote - $p - 1 );
$p = $endQuote;
}
} else {
# Quote at the end of the string, assume literal "
$s .= '"';
}
break;
default:
$s .= $format[$p];
}
if ( $num !== false ) {
if ( $rawToggle || $raw ) {
$s .= $num;
$raw = false;
} elseif ( $roman ) {
$s .= self::romanNumeral( $num );
$roman = false;
} elseif ( $hebrewNum ) {
$s .= self::hebrewNumeral( $num );
$hebrewNum = false;
} elseif ( preg_match( '/^[\d.]+$/', $num ) ) {
$s .= $this->formatNumNoSeparators( $num );
} else {
$s .= $num;
}
}
}
if ( $ttl === 'unused' ) {
// No need to calculate the TTL, the caller won't use it anyway.
} elseif ( $usedSecond ) {
$ttl = 1;
} elseif ( $usedMinute ) {
$ttl = 60 - (int)substr( $ts, 12, 2 );
} elseif ( $usedHour ) {
$ttl = 3600 - (int)substr( $ts, 10, 2 ) * 60 - (int)substr( $ts, 12, 2 );
} elseif ( $usedAMPM ) {
$ttl = 43200 - ( (int)substr( $ts, 8, 2 ) % 12 ) * 3600 -
(int)substr( $ts, 10, 2 ) * 60 - (int)substr( $ts, 12, 2 );
} elseif (
$usedDay ||
$usedHebrewMonth ||
$usedIranianMonth ||
$usedHijriMonth ||
$usedHebrewYear ||
$usedIranianYear ||
$usedHijriYear ||
$usedTennoYear
) {
// @todo Someone who understands the non-Gregorian calendars
// should write proper logic for them so that they don't need purged every day.
$ttl = 86400 - (int)substr( $ts, 8, 2 ) * 3600 -
(int)substr( $ts, 10, 2 ) * 60 - (int)substr( $ts, 12, 2 );
} else {
$possibleTtls = [];
$timeRemainingInDay = 86400 - (int)substr( $ts, 8, 2 ) * 3600 -
(int)substr( $ts, 10, 2 ) * 60 - (int)substr( $ts, 12, 2 );
if ( $usedWeek ) {
$possibleTtls[] =
( 7 - (int)self::dateTimeObjFormat( $dateTimeObj, $ts, $zone, 'N' ) ) * 86400 +
$timeRemainingInDay;
} elseif ( $usedISOYear ) {
// December 28th falls on the last ISO week of the year, every year.
// The last ISO week of a year can be 52 or 53.
$lastWeekOfISOYear = (int)DateTime::createFromFormat(
'Ymd',
(int)substr( $ts, 0, 4 ) . '1228',
$zone ?: new DateTimeZone( 'UTC' )
)->format( 'W' );
$currentISOWeek = (int)self::dateTimeObjFormat( $dateTimeObj, $ts, $zone, 'W' );
$weeksRemaining = $lastWeekOfISOYear - $currentISOWeek;
$timeRemainingInWeek =
( 7 - (int)self::dateTimeObjFormat( $dateTimeObj, $ts, $zone, 'N' ) ) * 86400
+ $timeRemainingInDay;
$possibleTtls[] = $weeksRemaining * 604800 + $timeRemainingInWeek;
}
if ( $usedMonth ) {
$possibleTtls[] =
( (int)self::dateTimeObjFormat( $dateTimeObj, $ts, $zone, 't' ) -
(int)substr( $ts, 6, 2 ) ) * 86400
+ $timeRemainingInDay;
} elseif ( $usedYear ) {
$possibleTtls[] =
( (int)self::dateTimeObjFormat( $dateTimeObj, $ts, $zone, 'L' ) + 364 -
(int)self::dateTimeObjFormat( $dateTimeObj, $ts, $zone, 'z' ) ) * 86400
+ $timeRemainingInDay;
} elseif ( $usedIsLeapYear ) {
$year = (int)substr( $ts, 0, 4 );
$timeRemainingInYear =
( (int)self::dateTimeObjFormat( $dateTimeObj, $ts, $zone, 'L' ) + 364 -
(int)self::dateTimeObjFormat( $dateTimeObj, $ts, $zone, 'z' ) ) * 86400
+ $timeRemainingInDay;
$mod = $year % 4;
if ( $mod || ( !( $year % 100 ) && $year % 400 ) ) {
// this isn't a leap year. see when the next one starts
$nextCandidate = $year - $mod + 4;
if ( $nextCandidate % 100 || !( $nextCandidate % 400 ) ) {
$possibleTtls[] = ( $nextCandidate - $year - 1 ) * 365 * 86400 +
$timeRemainingInYear;
} else {
$possibleTtls[] = ( $nextCandidate - $year + 3 ) * 365 * 86400 +
$timeRemainingInYear;
}
} else {
// this is a leap year, so the next year isn't
$possibleTtls[] = $timeRemainingInYear;
}
}
if ( $possibleTtls ) {
$ttl = min( $possibleTtls );
}
}
return $s;
}
/**
* Number of days in each month of the Gregorian calendar
*/
private const GREG_DAYS = [ 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 ];
/**
* Number of days in each month of the Iranian calendar
*/
private const IRANIAN_DAYS = [ 31, 31, 31, 31, 31, 31, 30, 30, 30, 30, 30, 29 ];
/**
* Algorithm by Roozbeh Pournader and Mohammad Toossi to convert
* Gregorian dates to Iranian dates. Originally written in C, it
* is released under the terms of GNU Lesser General Public
* License. Conversion to PHP was performed by Niklas Laxström.
*
* Link: http://www.farsiweb.info/jalali/jalali.c
*
* @param string $ts
*
* @return int[]
*/
private static function tsToIranian( $ts ) {
$gy = (int)substr( $ts, 0, 4 ) - 1600;
$gm = (int)substr( $ts, 4, 2 ) - 1;
$gd = (int)substr( $ts, 6, 2 ) - 1;
# Days passed from the beginning (including leap years)
$gDayNo = 365 * $gy
+ floor( ( $gy + 3 ) / 4 )
- floor( ( $gy + 99 ) / 100 )
+ floor( ( $gy + 399 ) / 400 );
// Add the number of days for the past months of this year
for ( $i = 0; $i < $gm; $i++ ) {
$gDayNo += self::GREG_DAYS[$i];
}
// Leap years
if ( $gm > 1 && ( ( $gy % 4 === 0 && $gy % 100 !== 0 ) || $gy % 400 == 0 ) ) {
$gDayNo++;
}
// Days passed in the current month
$gDayNo += $gd;
$jDayNo = $gDayNo - 79;
$jNp = (int)floor( $jDayNo / 12053 );
$jDayNo %= 12053;
$jy = 979 + 33 * $jNp + 4 * (int)floor( $jDayNo / 1461 );
$jDayNo %= 1461;
if ( $jDayNo >= 366 ) {
$jy += (int)floor( ( $jDayNo - 1 ) / 365 );
$jDayNo = (int)floor( ( $jDayNo - 1 ) % 365 );
}
$jz = $jDayNo;
for ( $i = 0; $i < 11 && $jDayNo >= self::IRANIAN_DAYS[$i]; $i++ ) {
$jDayNo -= self::IRANIAN_DAYS[$i];
}
$jm = $i + 1;
$jd = $jDayNo + 1;
return [ $jy, $jm, $jd, $jz ];
}
/**
* Converting Gregorian dates to Hijri dates.
*
* Based on a PHP-Nuke block by Sharjeel which is released under GNU/GPL license
*
* @see https://phpnuke.org/modules.php?name=News&file=article&sid=8234&mode=thread&order=0&thold=0
*
* @param string $ts
*
* @return int[]
*/
private static function tsToHijri( $ts ) {
$year = (int)substr( $ts, 0, 4 );
$month = (int)substr( $ts, 4, 2 );
$day = (int)substr( $ts, 6, 2 );
$zyr = $year;
$zd = $day;
$zm = $month;
$zy = $zyr;
if (
( $zy > 1582 ) || ( ( $zy == 1582 ) && ( $zm > 10 ) ) ||
( ( $zy == 1582 ) && ( $zm == 10 ) && ( $zd > 14 ) )
) {
$zjd = (int)( ( 1461 * ( $zy + 4800 + (int)( ( $zm - 14 ) / 12 ) ) ) / 4 ) +
(int)( ( 367 * ( $zm - 2 - 12 * ( (int)( ( $zm - 14 ) / 12 ) ) ) ) / 12 ) -
(int)( ( 3 * (int)( ( $zy + 4900 + (int)( ( $zm - 14 ) / 12 ) ) / 100 ) ) / 4 ) +
$zd - 32075;
} else {
$zjd = 367 * $zy - (int)( ( 7 * ( $zy + 5001 + (int)( ( $zm - 9 ) / 7 ) ) ) / 4 ) +
(int)( ( 275 * $zm ) / 9 ) + $zd + 1729777;
}
$zl = $zjd - 1948440 + 10632;
$zn = (int)( ( $zl - 1 ) / 10631 );
$zl = $zl - 10631 * $zn + 354;
$zj = ( (int)( ( 10985 - $zl ) / 5316 ) ) * ( (int)( ( 50 * $zl ) / 17719 ) ) +
( (int)( $zl / 5670 ) ) * ( (int)( ( 43 * $zl ) / 15238 ) );
$zl = $zl - ( (int)( ( 30 - $zj ) / 15 ) ) * ( (int)( ( 17719 * $zj ) / 50 ) ) -
( (int)( $zj / 16 ) ) * ( (int)( ( 15238 * $zj ) / 43 ) ) + 29;
$zm = (int)( ( 24 * $zl ) / 709 );
$zd = $zl - (int)( ( 709 * $zm ) / 24 );
$zy = 30 * $zn + $zj - 30;
return [ $zy, $zm, $zd ];
}
/**
* Converting Gregorian dates to Hebrew dates.
*
* Based on a JavaScript code by Abu Mami and Yisrael Hersch
* (abu-mami@kaluach.net, http://www.kaluach.net), who permitted
* to translate the relevant functions into PHP and release them under
* GNU GPL.
*
* The months are counted from Tishrei = 1. In a leap year, Adar I is 13
* and Adar II is 14. In a non-leap year, Adar is 6.
*
* @param string $ts
*
* @return int[]
*/
private static function tsToHebrew( $ts ) {
# Parse date
$year = (int)substr( $ts, 0, 4 );
$month = (int)substr( $ts, 4, 2 );
$day = (int)substr( $ts, 6, 2 );
# Calculate Hebrew year
$hebrewYear = $year + 3760;
# Month number when September = 1, August = 12
$month += 4;
if ( $month > 12 ) {
# Next year
$month -= 12;
$year++;
$hebrewYear++;
}
# Calculate day of year from 1 September
$dayOfYear = $day;
for ( $i = 1; $i < $month; $i++ ) {
if ( $i == 6 ) {
# February
$dayOfYear += 28;
# Check if the year is a leap year
if ( $year % 400 == 0 || ( $year % 4 == 0 && $year % 100 > 0 ) ) {
$dayOfYear++;
}
} elseif ( $i == 8 || $i == 10 || $i == 1 || $i == 3 ) {
$dayOfYear += 30;
} else {
$dayOfYear += 31;
}
}
# Calculate the start of the Hebrew year
$start = self::hebrewYearStart( $hebrewYear );
# Calculate next year's start
if ( $dayOfYear <= $start ) {
# Day is before the start of the year - it is the previous year
# Next year's start
$nextStart = $start;
# Previous year
$year--;
$hebrewYear--;
# Add days since the previous year's 1 September
$dayOfYear += 365;
if ( ( $year % 400 == 0 ) || ( $year % 100 != 0 && $year % 4 == 0 ) ) {
# Leap year
$dayOfYear++;
}
# Start of the new (previous) year
$start = self::hebrewYearStart( $hebrewYear );
} else {
# Next year's start
$nextStart = self::hebrewYearStart( $hebrewYear + 1 );
}
# Calculate Hebrew day of year
$hebrewDayOfYear = $dayOfYear - $start;
# Difference between year's days
$diff = $nextStart - $start;
# Add 12 (or 13 for leap years) days to ignore the difference between
# Hebrew and Gregorian year (353 at least vs. 365/6) - now the
# difference is only about the year type
if ( ( $year % 400 == 0 ) || ( $year % 100 != 0 && $year % 4 == 0 ) ) {
$diff += 13;
} else {
$diff += 12;
}
# Check the year pattern, and is leap year
# 0 means an incomplete year, 1 means a regular year, 2 means a complete year
# This is mod 30, to work on both leap years (which add 30 days of Adar I)
# and non-leap years
$yearPattern = $diff % 30;
# Check if leap year
$isLeap = $diff >= 30;
# Calculate day in the month from number of day in the Hebrew year
# Don't check Adar - if the day is not in Adar, we will stop before;
# if it is in Adar, we will use it to check if it is Adar I or Adar II
$hebrewDay = $hebrewDayOfYear;
$hebrewMonth = 1;
$days = 0;
while ( $hebrewMonth <= 12 ) {
# Calculate days in this month
if ( $isLeap && $hebrewMonth == 6 ) {
# Leap year - has Adar I, with 30 days, and Adar II, with 29 days
$days = 30;
if ( $hebrewDay <= $days ) {
# Day in Adar I
$hebrewMonth = 13;
} else {
# Subtract the days of Adar I
$hebrewDay -= $days;
# Try Adar II
$days = 29;
if ( $hebrewDay <= $days ) {
# Day in Adar II
$hebrewMonth = 14;
}
}
} elseif ( $hebrewMonth == 2 && $yearPattern == 2 ) {
# Cheshvan in a complete year (otherwise as the rule below)
$days = 30;
} elseif ( $hebrewMonth == 3 && $yearPattern == 0 ) {
# Kislev in an incomplete year (otherwise as the rule below)
$days = 29;
} else {
# Odd months have 30 days, even have 29
$days = 30 - ( $hebrewMonth - 1 ) % 2;
}
if ( $hebrewDay <= $days ) {
# In the current month
break;
} else {
# Subtract the days of the current month
$hebrewDay -= $days;
# Try in the next month
$hebrewMonth++;
}
}
return [ $hebrewYear, $hebrewMonth, $hebrewDay, $days ];
}
/**
* This calculates the Hebrew year start, as days since 1 September.
* Based on Carl Friedrich Gauss algorithm for finding Easter date.
* Used for Hebrew date.
*
* @param int $year
*
* @return int
*/
private static function hebrewYearStart( $year ) {
$a = ( 12 * ( $year - 1 ) + 17 ) % 19;
$b = ( $year - 1 ) % 4;
$m = 32.044093161144 + 1.5542417966212 * $a + $b / 4.0 - 0.0031777940220923 * ( $year - 1 );
if ( $m < 0 ) {
$m--;
}
$Mar = intval( $m );
if ( $m < 0 ) {
$m++;
}
$m -= $Mar;
$c = ( $Mar + 3 * ( $year - 1 ) + 5 * $b + 5 ) % 7;
if ( $c == 0 && $a > 11 && $m >= 0.89772376543210 ) {
$Mar++;
} elseif ( $c == 1 && $a > 6 && $m >= 0.63287037037037 ) {
$Mar += 2;
} elseif ( $c == 2 || $c == 4 || $c == 6 ) {
$Mar++;
}
$Mar += intval( ( $year - 3761 ) / 100 ) - intval( ( $year - 3761 ) / 400 ) - 24;
return $Mar;
}
/**
* Algorithm to convert Gregorian dates to Thai solar dates,
* Minguo dates or Minguo dates.
*
* Link: https://en.wikipedia.org/wiki/Thai_solar_calendar
* https://en.wikipedia.org/wiki/Minguo_calendar
*
* @param string $ts 14-character timestamp
* @param string $cName Calender name
* @return array Converted year, month, day
*/
private static function tsToYear( $ts, $cName ) {
$gy = (int)substr( $ts, 0, 4 );
$gm = (int)substr( $ts, 4, 2 );
$gd = (int)substr( $ts, 6, 2 );
if ( $cName === 'thai' ) {
# Thai solar dates
# Add 543 years to the Gregorian calendar
# Months and days are identical
$gy_offset = $gy + 543;
# fix for dates between 1912 and 1941
# https://en.wikipedia.org/?oldid=836596673#New_year
if ( $gy >= 1912 && $gy <= 1940 ) {
if ( $gm <= 3 ) {
$gy_offset--;
}
$gm = ( $gm - 3 ) % 12;
}
} elseif ( $cName === 'minguo' || $cName === 'juche' ) {
# Minguo dates
# Deduct 1911 years from the Gregorian calendar
# Months and days are identical
$gy_offset = $gy - 1911;
} else {
$gy_offset = $gy;
}
return [ $gy_offset, $gm, $gd ];
}
/**
* Algorithm to convert Gregorian dates to Japanese gengo year.
*
* Link: https://en.wikipedia.org/wiki/Japanese_era_name
*
* @param string $ts 14-character timestamp
* @return string Converted year
*/
private static function tsToJapaneseGengo( $ts ) {
# Nengō dates up to Meiji period.
# Deduct years from the Gregorian calendar
# depending on the nengo periods
# The months and days are identical
$gy = (int)substr( $ts, 0, 4 );
$ts = (int)$ts;
if ( $ts >= 18730101000000 && $ts < 19120730000000 ) {
# Meiji period; start from meiji 6 (1873) it starts using gregorian year
return self::tsToJapaneseGengoCalculate( $gy, 1868, '明治' );
} elseif ( $ts >= 19120730000000 && $ts < 19261225000000 ) {
# Taishō period
return self::tsToJapaneseGengoCalculate( $gy, 1912, '大正' );
} elseif ( $ts >= 19261225000000 && $ts < 19890108000000 ) {
# Shōwa period
return self::tsToJapaneseGengoCalculate( $gy, 1926, '昭和' );
} elseif ( $ts >= 19890108000000 && $ts < 20190501000000 ) {
# Heisei period
return self::tsToJapaneseGengoCalculate( $gy, 1989, '平成' );
} elseif ( $ts >= 20190501000000 ) {
# Reiwa period
return self::tsToJapaneseGengoCalculate( $gy, 2019, '令和' );
}
return "西暦$gy";
}
/**
* Calculate Gregorian year to Japanese gengo year.
*
* Link: https://en.wikipedia.org/wiki/Japanese_era_name
*
* @param int $gy 4-digit Gregorian year
* @param int $startYear 4-digit Gengo start year
* @param string $gengo Actual Gengo string
* @return string Converted year
*/
private static function tsToJapaneseGengoCalculate( $gy, $startYear, $gengo ) {
$gy_offset = $gy - $startYear + 1;
if ( $gy_offset == 1 ) {
$gy_offset = '元';
}
return "$gengo$gy_offset";
}
/**
* Gets directionality of the first strongly directional codepoint, for embedBidi()
*
* This is the rule the BIDI algorithm uses to determine the directionality of
* paragraphs ( https://www.unicode.org/reports/tr9/#The_Paragraph_Level ) and
* FSI isolates ( https://www.unicode.org/reports/tr9/#Explicit_Directional_Isolates ).
*
* TODO: Does not handle BIDI control characters inside the text.
* TODO: Does not handle unallocated characters.
*
* @param string $text Text to test
* @return null|string Directionality ('ltr' or 'rtl') or null
*/
private static function strongDirFromContent( $text = '' ) {
if ( !preg_match( self::$strongDirRegex, $text, $matches ) ) {
return null;
}
if ( $matches[1] === '' ) {
return 'rtl';
}
return 'ltr';
}
/**
* Roman number formatting up to 10000
*
* @param int $num
*
* @return string
*/
public static function romanNumeral( $num ) {
static $table = [
[ '', 'I', 'II', 'III', 'IV', 'V', 'VI', 'VII', 'VIII', 'IX', 'X' ],
[ '', 'X', 'XX', 'XXX', 'XL', 'L', 'LX', 'LXX', 'LXXX', 'XC', 'C' ],
[ '', 'C', 'CC', 'CCC', 'CD', 'D', 'DC', 'DCC', 'DCCC', 'CM', 'M' ],
[ '', 'M', 'MM', 'MMM', 'MMMM', 'MMMMM', 'MMMMMM', 'MMMMMMM',
'MMMMMMMM', 'MMMMMMMMM', 'MMMMMMMMMM' ]
];
$num = intval( $num );
if ( $num > 10000 || $num <= 0 ) {
return (string)$num;
}
$s = '';
for ( $pow10 = 1000, $i = 3; $i >= 0; $pow10 /= 10, $i-- ) {
if ( $num >= $pow10 ) {
$s .= $table[$i][(int)floor( $num / $pow10 )];
}
$num %= $pow10;
}
return $s;
}
/**
* Hebrew Gematria number formatting up to 9999
*
* @param int $num
*
* @return string
*/
public static function hebrewNumeral( $num ) {
static $table = [
[ '', 'א', 'ב', 'ג', 'ד', 'ה', 'ו', 'ז', 'ח', 'ט', 'י' ],
[ '', 'י', 'כ', 'ל', 'מ', 'נ', 'ס', 'ע', 'פ', 'צ', 'ק' ],
[ '',
[ 'ק' ],
[ 'ר' ],
[ 'ש' ],
[ 'ת' ],
[ 'ת', 'ק' ],
[ 'ת', 'ר' ],
[ 'ת', 'ש' ],
[ 'ת', 'ת' ],
[ 'ת', 'ת', 'ק' ],
[ 'ת', 'ת', 'ר' ],
],
[ '', 'א', 'ב', 'ג', 'ד', 'ה', 'ו', 'ז', 'ח', 'ט', 'י' ]
];
$num = intval( $num );
if ( $num > 9999 || $num <= 0 ) {
return (string)$num;
}
// Round thousands have special notations
if ( $num === 1000 ) {
return "א' אלף";
} elseif ( $num % 1000 === 0 ) {
return $table[0][$num / 1000] . "' אלפים";
}
$letters = [];
for ( $pow10 = 1000, $i = 3; $i >= 0; $pow10 /= 10, $i-- ) {
if ( $num >= $pow10 ) {
if ( $num === 15 || $num === 16 ) {
$letters[] = $table[0][9];
$letters[] = $table[0][$num - 9];
$num = 0;
} else {
$letters = array_merge(
$letters,
(array)$table[$i][intval( $num / $pow10 )]
);
if ( $pow10 === 1000 ) {
$letters[] = "'";
}
}
}
$num %= $pow10;
}
$preTransformLength = count( $letters );
if ( $preTransformLength === 1 ) {
// Add geresh (single quote) to one-letter numbers
$letters[] = "'";
} else {
$lastIndex = $preTransformLength - 1;
$letters[$lastIndex] = strtr(
$letters[$lastIndex],
[ 'כ' => 'ך', 'מ' => 'ם', 'נ' => 'ן', 'פ' => 'ף', 'צ' => 'ץ' ]
);
// Add gershayim (double quote) to multiple-letter numbers,
// but exclude numbers with only one letter after the thousands
// (1001-1009, 1020, 1030, 2001-2009, etc.)
if ( $letters[1] === "'" && $preTransformLength === 3 ) {
$letters[] = "'";
} else {
array_splice( $letters, -1, 0, '"' );
}
}
return implode( $letters );
}
/**
* Used by date() and time() to adjust the time output.
*
* @param string $ts The time in date('YmdHis') format
* @param string|false $tz Adjust the time by this amount (default false, mean we
* get user timecorrection setting)
* @return string
*/
public function userAdjust( $ts, $tz = false ) {
$localTZoffset = $this->config->get( MainConfigNames::LocalTZoffset );
if ( $tz === false ) {
$optionsLookup = MediaWikiServices::getInstance()->getUserOptionsLookup();
$tz = $optionsLookup->getOption(
RequestContext::getMain()->getUser(),
'timecorrection'
);
}
$timeCorrection = new UserTimeCorrection( (string)$tz, null, $localTZoffset );
$tzObj = $timeCorrection->getTimeZone();
if ( $tzObj ) {
$date = new DateTime( $ts, new DateTimeZone( 'UTC' ) );
$date->setTimezone( $tzObj );
return self::makeMediaWikiTimestamp( $ts, $date );
}
$minDiff = $timeCorrection->getTimeOffset();
# No difference? Return the time unchanged
if ( $minDiff === 0 ) {
return $ts;
}
$date = new DateTime( $ts );
$date->modify( "{$minDiff} minutes" );
return self::makeMediaWikiTimestamp( $ts, $date );
}
/**
* Convenience function to convert a PHP DateTime object to a 14-character MediaWiki timestamp,
* falling back to the specified timestamp if the DateTime object holds a too large date (T32148, T277809).
* This is a private utility method as it is only really useful for {@link userAdjust}.
*
* @param string $fallback 14-character MW timestamp to fall back to if the DateTime object holds a too large date
* @param DateTime $date The DateTime object to convert
* @return string 14-character MW timestamp
*/
private static function makeMediaWikiTimestamp( $fallback, $date ) {
$ts = $date->format( 'YmdHis' );
return strlen( $ts ) === 14 ? $ts : $fallback;
}
/**
* This is meant to be used by time(), date(), and timeanddate() to get
* the date preference they're supposed to use. It should be used in
* all children.
*
* function timeanddate([...], $format = true) {
* $datePreference = $this->dateFormat($format);
* [...]
* }
*
* @param int|string|bool $usePrefs If true, the user's preference is used
* if false, the site/language default is used
* if int/string, assumed to be a format.
* @return string
*/
public function dateFormat( $usePrefs = true ) {
if ( is_bool( $usePrefs ) ) {
if ( $usePrefs ) {
$datePreference = RequestContext::getMain()
->getUser()
->getDatePreference();
} else {
$userOptionsLookup = MediaWikiServices::getInstance()->getUserOptionsLookup();
$datePreference = (string)$userOptionsLookup->getDefaultOption( 'date' );
}
} else {
$datePreference = (string)$usePrefs;
}
// return int
if ( $datePreference == '' ) {
return 'default';
}
return $datePreference;
}
/**
* Get a format string for a given type and preference
* @param string $type One of 'date', 'time', 'both', or 'pretty'.
* @param string $pref The format name as it appears in Messages*.php under
* $datePreferences.
*
* @since 1.22 New type 'pretty' that provides a more readable timestamp format
*
* @return string
*/
public function getDateFormatString( $type, $pref ) {
$wasDefault = false;
if ( $pref == 'default' ) {
$wasDefault = true;
$pref = $this->getDefaultDateFormat();
}
if ( !isset( $this->dateFormatStrings[$type][$pref] ) ) {
$df = $this->localisationCache
->getSubitem( $this->mCode, 'dateFormats', "$pref $type" );
if ( $type === 'pretty' && $df === null ) {
$df = $this->getDateFormatString( 'date', $pref );
}
if ( !$wasDefault && $df === null ) {
$pref = $this->getDefaultDateFormat();
$df = $this->localisationCache
->getSubitem( $this->mCode, 'dateFormats', "$pref $type" );
}
$this->dateFormatStrings[$type][$pref] = $df;
}
return $this->dateFormatStrings[$type][$pref];
}
/**
* @param string $ts The time format which needs to be turned into a
* date('YmdHis') format with wfTimestamp(TS_MW,$ts)
* @param bool $adj Whether to adjust the time output according to the
* user configured offset ($timecorrection)
* @param mixed $format True to use user's date format preference
* @param string|false $timecorrection The time offset as returned by
* validateTimeZone() in Special:Preferences
* @return string
*/
public function date( $ts, $adj = false, $format = true, $timecorrection = false ) {
$ts = wfTimestamp( TS_MW, $ts );
if ( $adj ) {
$ts = $this->userAdjust( $ts, $timecorrection );
}
$df = $this->getDateFormatString( 'date', $this->dateFormat( $format ) );
return $this->sprintfDate( $df, $ts );
}
/**
* @param string $ts The time format which needs to be turned into a
* date('YmdHis') format with wfTimestamp(TS_MW,$ts)
* @param bool $adj Whether to adjust the time output according to the
* user configured offset ($timecorrection)
* @param mixed $format True to use user's date format preference
* @param string|false $timecorrection The time offset as returned by
* validateTimeZone() in Special:Preferences
* @return string
*/
public function time( $ts, $adj = false, $format = true, $timecorrection = false ) {
$ts = wfTimestamp( TS_MW, $ts );
if ( $adj ) {
$ts = $this->userAdjust( $ts, $timecorrection );
}
$df = $this->getDateFormatString( 'time', $this->dateFormat( $format ) );
return $this->sprintfDate( $df, $ts );
}
/**
* @param string $ts The time format which needs to be turned into a
* date('YmdHis') format with wfTimestamp(TS_MW,$ts)
* @param bool $adj Whether to adjust the time output according to the
* user configured offset ($timecorrection)
* @param mixed $format What date format to return the result in; if it's false output the
* default one (default true)
* @param string|false $timecorrection The time offset as returned by
* validateTimeZone() in Special:Preferences
* @return string
*/
public function timeanddate( $ts, $adj = false, $format = true, $timecorrection = false ) {
$ts = wfTimestamp( TS_MW, $ts );
if ( $adj ) {
$ts = $this->userAdjust( $ts, $timecorrection );
}
$df = $this->getDateFormatString( 'both', $this->dateFormat( $format ) );
return $this->sprintfDate( $df, $ts );
}
/**
* Takes a number of seconds and turns it into a text using values such as hours and minutes.
*
* @since 1.20
*
* @param int $seconds The number of seconds.
* @param array $chosenIntervals The intervals to enable.
*
* @return string
*/
public function formatDuration( $seconds, array $chosenIntervals = [] ) {
$intervals = $this->getDurationIntervals( $seconds, $chosenIntervals );
$segments = [];
foreach ( $intervals as $intervalName => $intervalValue ) {
// Messages: duration-seconds, duration-minutes, duration-hours, duration-days, duration-weeks,
// duration-years, duration-decades, duration-centuries, duration-millennia
$message = $this->msg( 'duration-' . $intervalName )->numParams( $intervalValue );
$segments[] = $message->escaped();
}
return $this->listToText( $segments );
}
/**
* Takes a number of seconds and returns an array with a set of corresponding intervals.
* For example, 65 will be turned into [ minutes => 1, seconds => 5 ].
*
* @since 1.20
*
* @param int $seconds The number of seconds.
* @param array $chosenIntervals The intervals to enable.
*
* @return int[]
*/
public function getDurationIntervals( $seconds, array $chosenIntervals = [] ) {
if ( !$chosenIntervals ) {
$chosenIntervals = [
'millennia',
'centuries',
'decades',
'years',
'days',
'hours',
'minutes',
'seconds'
];
}
$intervals = array_intersect_key( self::DURATION_INTERVALS,
array_fill_keys( $chosenIntervals, true ) );
$sortedNames = array_keys( $intervals );
$smallestInterval = array_pop( $sortedNames );
$segments = [];
foreach ( $intervals as $name => $length ) {
$value = floor( $seconds / $length );
if ( $value > 0 || ( $name == $smallestInterval && !$segments ) ) {
$seconds -= $value * $length;
$segments[$name] = $value;
}
}
return $segments;
}
/**
* Internal helper function for userDate(), userTime() and userTimeAndDate()
*
* @param string $type Can be 'date', 'time' or 'both'
* @param string $ts The time format which needs to be turned into a
* date('YmdHis') format with wfTimestamp(TS_MW,$ts)
* @param UserIdentity $user User used to get preferences for timezone and format
* @param array $options Array, can contain the following keys:
* - 'timecorrection': time correction, can have the following values:
* - true: use user's preference
* - false: don't use time correction
* - int: value of time correction in minutes
* - 'format': format to use, can have the following values:
* - true: use user's preference
* - false: use default preference
* - string: format to use
* @since 1.19
* @return string
*/
private function internalUserTimeAndDate( $type, $ts, UserIdentity $user, array $options ) {
$ts = wfTimestamp( TS_MW, $ts );
$options += [ 'timecorrection' => true, 'format' => true ];
if ( $options['timecorrection'] !== false ) {
if ( $options['timecorrection'] === true ) {
$offset = MediaWikiServices::getInstance()
->getUserOptionsLookup()
->getOption( $user, 'timecorrection' );
} else {
$offset = $options['timecorrection'];
}
$ts = $this->userAdjust( $ts, $offset );
}
if ( $options['format'] === true ) {
$format = MediaWikiServices::getInstance()
->getUserFactory()
->newFromUserIdentity( $user )
->getDatePreference();
} else {
$format = $options['format'];
}
$df = $this->getDateFormatString( $type, $this->dateFormat( $format ) );
return $this->sprintfDate( $df, $ts );
}
/**
* Get the formatted date for the given timestamp and formatted for
* the given user.
*
* @param mixed $ts Mixed: the time format which needs to be turned into a
* date('YmdHis') format with wfTimestamp(TS_MW,$ts)
* @param UserIdentity $user User used to get preferences for timezone and format
* @param array $options Array, can contain the following keys:
* - 'timecorrection': time correction, can have the following values:
* - true: use user's preference
* - false: don't use time correction
* - int: value of time correction in minutes
* - 'format': format to use, can have the following values:
* - true: use user's preference
* - false: use default preference
* - string: format to use
* @since 1.19
* @return string
*/
public function userDate( $ts, UserIdentity $user, array $options = [] ) {
return $this->internalUserTimeAndDate( 'date', $ts, $user, $options );
}
/**
* Get the formatted time for the given timestamp and formatted for
* the given user.
*
* @param mixed $ts The time format which needs to be turned into a
* date('YmdHis') format with wfTimestamp(TS_MW,$ts)
* @param UserIdentity $user User used to get preferences for timezone and format
* @param array $options Array, can contain the following keys:
* - 'timecorrection': time correction, can have the following values:
* - true: use user's preference
* - false: don't use time correction
* - int: value of time correction in minutes
* - 'format': format to use, can have the following values:
* - true: use user's preference
* - false: use default preference
* - string: format to use
* @since 1.19
* @return string
*/
public function userTime( $ts, UserIdentity $user, array $options = [] ) {
return $this->internalUserTimeAndDate( 'time', $ts, $user, $options );
}
/**
* Get the formatted date and time for the given timestamp and formatted for
* the given user.
*
* @param mixed $ts The time format which needs to be turned into a
* date('YmdHis') format with wfTimestamp(TS_MW,$ts)
* @param UserIdentity $user User used to get preferences for timezone and format
* @param array $options Array, can contain the following keys:
* - 'timecorrection': time correction, can have the following values:
* - true: use user's preference
* - false: don't use time correction
* - int: value of time correction in minutes
* - 'format': format to use, can have the following values:
* - true: use user's preference
* - false: use default preference
* - string: format to use
* @since 1.19
* @return string
*/
public function userTimeAndDate( $ts, UserIdentity $user, array $options = [] ) {
return $this->internalUserTimeAndDate( 'both', $ts, $user, $options );
}
/**
* Get the timestamp in a human-friendly relative format, e.g., "3 days ago".
*
* Determine the difference between the timestamp and the current time, and
* generate a readable timestamp by returning "<N> <units> ago", where the
* largest possible unit is used.
*
* @since 1.26 (Prior to 1.26, the method existed but was not meant to be used directly)
*
* @param MWTimestamp $time
* @param MWTimestamp|null $relativeTo The base timestamp to compare to (defaults to now)
* @param UserIdentity|null $user User the timestamp is being generated for
* (or null to use main context's user)
* @return string Formatted timestamp
*/
public function getHumanTimestamp(
MWTimestamp $time, MWTimestamp $relativeTo = null, UserIdentity $user = null
) {
$relativeTo ??= new MWTimestamp();
if ( $user === null ) {
$user = RequestContext::getMain()->getUser();
} else {
// For compatibility with the hook signature and self::getHumanTimestampInternal
$user = MediaWikiServices::getInstance()
->getUserFactory()
->newFromUserIdentity( $user );
}
// Adjust for the user's timezone.
$offsetThis = $time->offsetForUser( $user );
$offsetRel = $relativeTo->offsetForUser( $user );
$ts = '';
if ( $this->getHookRunner()->onGetHumanTimestamp( $ts, $time, $relativeTo, $user, $this ) ) {
$ts = $this->getHumanTimestampInternal( $time, $relativeTo, $user );
}
// Reset the timezone on the objects.
$time->timestamp->sub( $offsetThis );
$relativeTo->timestamp->sub( $offsetRel );
return $ts;
}
/**
* Convert an MWTimestamp into a pretty human-readable timestamp using
* the given user preferences and relative base time.
*
* @see Language::getHumanTimestamp
* @param MWTimestamp $ts Timestamp to prettify
* @param MWTimestamp $relativeTo Base timestamp
* @param User $user User preferences to use
* @return string Human timestamp
* @since 1.26
*/
private function getHumanTimestampInternal(
MWTimestamp $ts, MWTimestamp $relativeTo, User $user
) {
$diff = $ts->diff( $relativeTo );
$diffDay = (bool)( (int)$ts->timestamp->format( 'w' ) -
(int)$relativeTo->timestamp->format( 'w' ) );
$days = $diff->days ?: (int)$diffDay;
if ( $diff->invert ) {
// Future dates: Use full timestamp
/**
* @todo FIXME: Add better handling of future timestamps.
*/
$format = $this->getDateFormatString( 'both', $user->getDatePreference() ?: 'default' );
$ts = $this->sprintfDate( $format, $ts->getTimestamp( TS_MW ) );
} elseif (
$days > 5 &&
$ts->timestamp->format( 'Y' ) !== $relativeTo->timestamp->format( 'Y' )
) {
// Timestamps are in different years and more than 5 days apart: use full date
$format = $this->getDateFormatString( 'date', $user->getDatePreference() ?: 'default' );
$ts = $this->sprintfDate( $format, $ts->getTimestamp( TS_MW ) );
} elseif ( $days > 5 ) {
// Timestamps are in same year and more than 5 days ago: show day and month only.
$format = $this->getDateFormatString( 'pretty', $user->getDatePreference() ?: 'default' );
$ts = $this->sprintfDate( $format, $ts->getTimestamp( TS_MW ) );
} elseif ( $days > 1 ) {
// Timestamp within the past 5 days: show the day of the week and time
$format = $this->getDateFormatString( 'time', $user->getDatePreference() ?: 'default' );
$weekday = self::WEEKDAY_MESSAGES[(int)$ts->timestamp->format( 'w' )];
// The following messages are used here:
// * sunday-at, monday-at, tuesday-at, wednesday-at, thursday-at, friday-at, saturday-at
$ts = $this->msg( "$weekday-at" )
->params( $this->sprintfDate( $format, $ts->getTimestamp( TS_MW ) ) )
->text();
} elseif ( $days == 1 ) {
// Timestamp was yesterday: say 'yesterday' and the time.
$format = $this->getDateFormatString( 'time', $user->getDatePreference() ?: 'default' );
$ts = $this->msg( 'yesterday-at' )
->params( $this->sprintfDate( $format, $ts->getTimestamp( TS_MW ) ) )
->text();
} elseif ( $diff->h > 1 || ( $diff->h == 1 && $diff->i > 30 ) ) {
// Timestamp was today, but more than 90 minutes ago: say 'today' and the time.
$format = $this->getDateFormatString( 'time', $user->getDatePreference() ?: 'default' );
$ts = $this->msg( 'today-at' )
->params( $this->sprintfDate( $format, $ts->getTimestamp( TS_MW ) ) )
->text();
// From here on in, the timestamp was soon enough ago so that we can simply say
// XX units ago, e.g., "2 hours ago" or "5 minutes ago"
} elseif ( $diff->h == 1 ) {
// Less than 90 minutes, but more than an hour ago.
$ts = $this->msg( 'hours-ago' )->numParams( 1 )->text();
} elseif ( $diff->i >= 1 ) {
// A few minutes ago.
$ts = $this->msg( 'minutes-ago' )->numParams( $diff->i )->text();
} elseif ( $diff->s >= 30 ) {
// Less than a minute, but more than 30 sec ago.
$ts = $this->msg( 'seconds-ago' )->numParams( $diff->s )->text();
} else {
// Less than 30 seconds ago.
$ts = $this->msg( 'just-now' )->text();
}
return $ts;
}
/**
* Gets the localized friendly name for a group, if it exists. For example,
* "Administrators" or "Bureaucrats"
*
* @since 1.38
* @param string $group Internal group name
* @return string Localized friendly group name
*/
public function getGroupName( $group ) {
$msg = $this->msg( "group-$group" );
return $msg->isBlank() ? $group : $msg->text();
}
/**
* Gets the localized name for a member of a user group if it exists.
* For example, "administrator" or "bureaucrat"
*
* @since 1.38
* @param string $group Internal group name
* @param string|UserIdentity $member
* @return string Localized name for group member
*/
public function getGroupMemberName( string $group, $member ) {
if ( $member instanceof UserIdentity ) {
$member = $member->getName();
}
$msg = $this->msg( "group-$group-member", $member );
return $msg->isBlank() ? $group : $msg->text();
}
/**
* @deprecated since 1.41, use LocalisationCache or MessageCache as appropriate.
* @param string $key
* @return string|null
*/
public function getMessage( $key ) {
return $this->localisationCache->getSubitem( $this->mCode, 'messages', $key );
}
/**
* @deprecated since 1.41, use LocalisationCache directly.
* @return string[]
*/
public function getAllMessages() {
return $this->localisationCache->getItem( $this->mCode, 'messages' );
}
/**
* @param string $in
* @param string $out
* @param string $string
* @return string
*/
public function iconv( $in, $out, $string ) {
# Even with //IGNORE iconv can whine about illegal characters in
# *input* string. We just ignore those too.
# REF: https://bugs.php.net/bug.php?id=37166
# REF: https://phabricator.wikimedia.org/T18885
AtEase::suppressWarnings();
$text = iconv( $in, $out . '//IGNORE', $string );
AtEase::restoreWarnings();
return $text;
}
/**
* @param string $str
* @return string The string with uppercase conversion applied to the first character
*/
public function ucfirst( $str ) {
$octetCode = ord( $str );
// See https://en.wikipedia.org/wiki/ASCII#Printable_characters
if ( $octetCode < 96 ) {
// Assume this is an uppercase/uncased ASCII character
return (string)$str;
} elseif ( $octetCode < 128 ) {
// Assume this is a lowercase/uncased ASCII character
return ucfirst( $str );
}
$first = mb_substr( $str, 0, 1 );
if ( strlen( $first ) === 1 ) {
// Broken UTF-8?
return ucfirst( $str );
}
// Memoize the config table
$overrides = $this->overrideUcfirstCharacters
??= $this->config->get( MainConfigNames::OverrideUcfirstCharacters );
// Use the config table and fall back to MB_CASE_TITLE
$ucFirst = $overrides[$first] ?? mb_convert_case( $first, MB_CASE_TITLE );
if ( $ucFirst !== $first ) {
return $ucFirst . mb_substr( $str, 1 );
} else {
return $str;
}
}
/**
* @param string $str
* @param bool $first Whether to uppercase only the first character
* @return string The string with uppercase conversion applied
*/
public function uc( $str, $first = false ) {
if ( $first ) {
return $this->ucfirst( $str );
} else {
return $this->isMultibyte( $str ) ? mb_strtoupper( $str ) : strtoupper( $str );
}
}
/**
* @param string $str
* @return string The string with lowercase conversion applied to the first character
*/
public function lcfirst( $str ) {
$octetCode = ord( $str );
// See https://en.wikipedia.org/wiki/ASCII#Printable_characters
if ( $octetCode < 96 ) {
// Assume this is an uppercase/uncased ASCII character
return lcfirst( $str );
} elseif ( $octetCode < 128 ) {
// Assume this is a lowercase/uncased ASCII character
return (string)$str;
}
return $this->isMultibyte( $str )
// Assume this is a multibyte character and mb_internal_encoding() is appropriate
? mb_strtolower( mb_substr( $str, 0, 1 ) ) . mb_substr( $str, 1 )
// Assume this is a non-multibyte character and LC_CASE is appropriate
: lcfirst( $str );
}
/**
* @param string $str
* @param bool $first Whether to lowercase only the first character
* @return string The string with lowercase conversion applied
*/
public function lc( $str, $first = false ) {
if ( $first ) {
return $this->lcfirst( $str );
} else {
return $this->isMultibyte( $str ) ? mb_strtolower( $str ) : strtolower( $str );
}
}
/**
* @param string $str
* @return bool
*/
private function isMultibyte( $str ) {
return strlen( $str ) !== mb_strlen( $str );
}
/**
* @param string $str
* @return mixed|string
*/
public function ucwords( $str ) {
if ( $this->isMultibyte( $str ) ) {
$str = $this->lc( $str );
// regexp to find the first letter in each word (i.e., after each space)
$replaceRegexp = "/^([a-z]|[\\xc0-\\xff][\\x80-\\xbf]*)| ([a-z]|[\\xc0-\\xff][\\x80-\\xbf]*)/";
// function to use to capitalize a single char
return preg_replace_callback(
$replaceRegexp,
static function ( $matches ) {
return mb_strtoupper( $matches[0] );
},
$str
);
} else {
return ucwords( strtolower( $str ) );
}
}
/**
* capitalize words at word breaks
*
* @param string $str
* @return mixed
*/
public function ucwordbreaks( $str ) {
if ( $this->isMultibyte( $str ) ) {
$str = $this->lc( $str );
// since \b doesn't work for UTF-8, we explicitly define word break chars
$breaks = "[ \-\(\)\}\{\.,\?!]";
// find the first letter after word break
$replaceRegexp = "/^([a-z]|[\\xc0-\\xff][\\x80-\\xbf]*)|" .
"$breaks([a-z]|[\\xc0-\\xff][\\x80-\\xbf]*)/";
return preg_replace_callback(
$replaceRegexp,
static function ( $matches ) {
return mb_strtoupper( $matches[0] );
},
$str
);
} else {
return preg_replace_callback(
'/\b([\w\x80-\xff]+)\b/',
function ( $matches ) {
return $this->ucfirst( $matches[1] );
},
$str
);
}
}
/**
* Return a case-folded representation of $s
*
* This is a representation such that caseFold($s1) == caseFold($s2) if $s1
* and $s2 are the same except for the case of their characters. It is not
* necessary for the value returned to make sense when displayed.
*
* Do *not* perform any other normalisation in this function. If a caller
* uses this function when it should be using a more general normalisation
* function, then fix the caller.
*
* @param string $s
*
* @return string
*/
public function caseFold( $s ) {
return $this->uc( $s );
}
/**
* @param string $s
* @return string
*/
public function checkTitleEncoding( string $s ) {
if ( StringUtils::isUtf8( $s ) ) {
return $s;
}
return $this->iconv( $this->fallback8bitEncoding(), 'utf-8', $s );
}
/**
* @return string
*/
public function fallback8bitEncoding() {
return $this->localisationCache->getItem( $this->mCode, 'fallback8bitEncoding' );
}
/**
* Most writing systems use whitespace to break up words.
* Some languages such as Chinese don't conventionally do this,
* which requires special handling when breaking up words for
* searching, etc.
*
* @return bool
*/
public function hasWordBreaks() {
return true;
}
/**
* Some languages such as Chinese require word segmentation,
* Specify such segmentation when overridden in derived class.
*
* @param string $string
* @return string
*/
public function segmentByWord( $string ) {
return $string;
}
/**
* Specify the language variant that should be used for search indexing.
*
* @return string|null
*/
protected function getSearchIndexVariant() {
return null;
}
/**
* Some languages have special punctuation need to be normalized.
* Make such changes here.
*
* Some languages such as Chinese have many-to-one conversions,
* e.g., it should be better to use zh-hans for search, since conversion
* from zh-hant to zh-hans is less ambiguous than the other way around.
*
* @param string $text
* @return string
*/
public function normalizeForSearch( $text ) {
$text = self::convertDoubleWidth( $text );
if ( $this->getSearchIndexVariant() ) {
return $this->getConverterInternal()->autoConvert( $text, $this->getSearchIndexVariant() );
}
return $text;
}
/**
* Convert double-width roman characters to single-width.
* range: ff00-ff5f ~= 0020-007f
*
* @param string $string
* @return string
*/
protected static function convertDoubleWidth( $string ) {
static $transTable = null;
$transTable ??= array_combine(
mb_str_split( '0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz' ),
str_split( '0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz' )
);
return strtr( $string, $transTable );
}
/**
* @param string $string
* @param string $pattern
* @return string
*/
protected static function insertSpace( $string, $pattern ) {
$string = preg_replace( $pattern, " $1 ", $string );
return preg_replace( '/ +/', ' ', $string );
}
/**
* @param string[] $termsArray
* @return string[]
*/
public function convertForSearchResult( $termsArray ) {
# some languages, e.g., Chinese, need to do a conversion
# in order for search results to be displayed correctly
return $termsArray;
}
/**
* Get the first character of a string.
*
* @param string $s
* @return string
*/
public function firstChar( $s ) {
$firstChar = mb_substr( $s, 0, 1 );
if ( $firstChar === '' || strlen( $firstChar ) != 3 ) {
return $firstChar;
}
// Break down Hangul syllables to grab the first jamo
$code = mb_ord( $firstChar );
if ( $code < 0xac00 || $code >= 0xd7a4 ) {
return $firstChar;
} elseif ( $code < 0xb098 ) {
return "\u{3131}";
} elseif ( $code < 0xb2e4 ) {
return "\u{3134}";
} elseif ( $code < 0xb77c ) {
return "\u{3137}";
} elseif ( $code < 0xb9c8 ) {
return "\u{3139}";
} elseif ( $code < 0xbc14 ) {
return "\u{3141}";
} elseif ( $code < 0xc0ac ) {
return "\u{3142}";
} elseif ( $code < 0xc544 ) {
return "\u{3145}";
} elseif ( $code < 0xc790 ) {
return "\u{3147}";
} elseif ( $code < 0xcc28 ) {
return "\u{3148}";
} elseif ( $code < 0xce74 ) {
return "\u{314A}";
} elseif ( $code < 0xd0c0 ) {
return "\u{314B}";
} elseif ( $code < 0xd30c ) {
return "\u{314C}";
} elseif ( $code < 0xd558 ) {
return "\u{314D}";
} else {
return "\u{314E}";
}
}
/**
* Convert a UTF-8 string to normal form C. In Malayalam and Arabic, this
* also cleans up certain backwards-compatible sequences, converting them
* to the modern Unicode equivalent.
*
* @internal
* @param string $s
* @return string
*/
public function normalize( $s ) {
$allUnicodeFixes = $this->config->get( MainConfigNames::AllUnicodeFixes );
$s = UtfNormal\Validator::cleanUp( $s );
// Optimization: This is disabled by default to avoid negative performance impact.
if ( $allUnicodeFixes ) {
$s = $this->transformUsingPairFile( NormalizeAr::class, $s );
$s = $this->transformUsingPairFile( NormalizeMl::class, $s );
}
return $s;
}
/**
* Transform a string using serialized data stored in the given file (which
* must be in the serialized subdirectory of $IP). The file contains pairs
* mapping source characters to destination characters.
*
* The data is cached in process memory.
*
* @param string $dataClass Name of a normalized pairs' data class
* @param string $input
* @return string
*/
protected function transformUsingPairFile( string $dataClass, string $input ): string {
if ( !isset( $this->transformData[$dataClass] ) ) {
$this->transformData[$dataClass] = new ReplacementArray( $dataClass::PAIRS );
}
return $this->transformData[$dataClass]->replace( $input );
}
/**
* For right-to-left language support
*
* @return bool
*/
public function isRTL() {
return $this->localisationCache->getItem( $this->mCode, 'rtl' );
}
/**
* Return the correct HTML 'dir' attribute value for this language.
* @return string
*/
public function getDir() {
return $this->isRTL() ? 'rtl' : 'ltr';
}
/**
* Return 'left' or 'right' as appropriate alignment for line-start
* for this language's text direction.
*
* Should be equivalent to CSS3 'start' text-align value....
*
* @return string
*/
public function alignStart() {
return $this->isRTL() ? 'right' : 'left';
}
/**
* Return 'right' or 'left' as appropriate alignment for line-end
* for this language's text direction.
*
* Should be equivalent to CSS3 'end' text-align value....
*
* @return string
*/
public function alignEnd() {
return $this->isRTL() ? 'left' : 'right';
}
/**
* A hidden direction mark (LRM or RLM), depending on the language direction.
* Unlike getDirMark(), this function returns the character as an HTML entity.
* This function should be used when the output is guaranteed to be HTML,
* because it makes the output HTML source code more readable. When
* the output is plain text or can be escaped, getDirMark() should be used.
*
* @param bool $opposite Get the direction mark opposite to your language
* @return string
* @since 1.20
*/
public function getDirMarkEntity( $opposite = false ) {
if ( $opposite ) {
return $this->isRTL() ? '‎' : '‏';
}
return $this->isRTL() ? '‏' : '‎';
}
/**
* A hidden direction mark (LRM or RLM), depending on the language direction.
* This function produces them as invisible Unicode characters and
* the output may be hard to read and debug, so it should only be used
* when the output is plain text or can be escaped. When the output is
* HTML, use getDirMarkEntity() instead.
*
* @param bool $opposite Get the direction mark opposite to your language
* @return string
*/
public function getDirMark( $opposite = false ) {
$lrm = "\u{200E}"; # LEFT-TO-RIGHT MARK, commonly abbreviated LRM
$rlm = "\u{200F}"; # RIGHT-TO-LEFT MARK, commonly abbreviated RLM
if ( $opposite ) {
return $this->isRTL() ? $lrm : $rlm;
}
return $this->isRTL() ? $rlm : $lrm;
}
/**
* An arrow, depending on the language direction.
*
* @param string $direction The direction of the arrow: forwards (default),
* backwards, left, right, up, down.
* @return string
*/
public function getArrow( $direction = 'forwards' ) {
switch ( $direction ) {
case 'forwards':
return $this->isRTL() ? '←' : '→';
case 'backwards':
return $this->isRTL() ? '→' : '←';
case 'left':
return '←';
case 'right':
return '→';
case 'up':
return '↑';
case 'down':
return '↓';
}
}
/**
* To allow "foo[[bar]]" to extend the link over the whole word "foobar"
*
* @return bool
*/
public function linkPrefixExtension() {
return $this->localisationCache->getItem( $this->mCode, 'linkPrefixExtension' );
}
/**
* Get all the magic words from the localisation cache.
*
* @return array<string,array> $magicWord => [ int $caseSensitive, string ...$alias ]
*/
public function getMagicWords() {
return $this->localisationCache->getItem( $this->mCode, 'magicWords' );
}
/**
* Fill a MagicWord object with data from this instance
*
* @param MagicWord $mw
*/
public function getMagic( $mw ) {
$rawEntry = $this->mMagicExtensions[$mw->mId] ??
$this->localisationCache->getSubitem( $this->mCode, 'magicWords', $mw->mId );
if ( !is_array( $rawEntry ) ) {
wfWarn( "\"$rawEntry\" is not a valid magic word for \"$mw->mId\"" );
} else {
$mw->mCaseSensitive = $rawEntry[0];
$mw->mSynonyms = array_slice( $rawEntry, 1 );
}
}
/**
* Get special page names, as an associative array
* canonical name => array of valid names, including aliases
* @return string[][]
*/
public function getSpecialPageAliases() {
// Cache aliases because it may be slow to load them
$this->mExtendedSpecialPageAliases ??=
$this->localisationCache->getItem( $this->mCode, 'specialPageAliases' );
return $this->mExtendedSpecialPageAliases;
}
/**
* Italic is unsuitable for some languages
*
* @param string $text The text to be emphasized.
* @return string
*/
public function emphasize( $text ) {
return "<em>$text</em>";
}
/**
* Normally we output all numbers in plain en_US style, that is
* 293,291.235 for two hundred ninety-three thousand two hundred ninety-one
* point two hundred thirty-five. However, this is not suitable for all
* languages, some such as Bengali (bn) want ২,৯৩,২৯১.২৩৫ and others such as
* Icelandic just want to use commas instead of dots, and dots instead
* of commas like "293.291,235".
*
* An example of this function being called:
* <code>
* wfMessage( 'message' )->numParams( $num )->text()
* </code>
*
* See $separatorTransformTable on MessageIs.php for
* the , => . and . => , implementation.
*
* @param string|int|float $number Expected to be a pre-formatted (e.g. leading zeros, number
* of decimal places) numeric string. Any non-string will be cast to string.
* @return string
*/
public function formatNum( $number ) {
return $this->formatNumInternal( (string)$number, false, false );
}
/**
* Internal implementation function, shared between formatNum and formatNumNoSeparators.
*
* @param string $number The stringification of a valid PHP number
* @param bool $noTranslate Whether to translate digits and separators
* @param bool $noSeparators Whether to add separators
* @return string
*/
private function formatNumInternal(
string $number, bool $noTranslate, bool $noSeparators
): string {
$translateNumerals = $this->config->get( MainConfigNames::TranslateNumerals );
if ( $number === '' ) {
return $number;
}
if ( $number === (string)NAN ) {
return $this->msg( 'formatnum-nan' )->text();
}
if ( $number === (string)INF ) {
return "∞";
}
if ( $number === (string)-INF ) {
return "\u{2212}∞";
}
if ( !is_numeric( $number ) ) {
# T267587: downgrade this to level:warn while we chase down the long
# trail of callers.
# wfDeprecated( 'Language::formatNum with a non-numeric string', '1.36' );
LoggerFactory::getInstance( 'formatnum' )->warning(
'Language::formatNum with non-numeric string',
[ 'number' => $number ]
);
$validNumberRe = '(-(?=[\d\.]))?(\d+|(?=\.\d))(\.\d*)?([Ee][-+]?\d+)?';
// For backwards-compat, apply formatNum piecewise on the valid
// numbers in the string. Don't split on NAN/INF in this legacy
// case as they are likely to be found embedded inside non-numeric
// text.
return preg_replace_callback( "/{$validNumberRe}/", function ( $m ) use ( $noTranslate, $noSeparators ) {
return $this->formatNumInternal( $m[0], $noTranslate, $noSeparators );
}, $number );
}
if ( !$noSeparators ) {
$separatorTransformTable = $this->separatorTransformTable();
$digitGroupingPattern = $this->digitGroupingPattern();
$code = $this->getCode();
if ( !( $translateNumerals && $this->langNameUtils->isValidCode( $code ) ) ) {
$code = 'C'; // POSIX system default locale
}
if ( $digitGroupingPattern ) {
$fmt = new NumberFormatter(
$code, NumberFormatter::PATTERN_DECIMAL, $digitGroupingPattern
);
} else {
/** @suppress PhanParamTooFew Phan thinks this always requires 3 parameters, that's wrong */
$fmt = new NumberFormatter( $code, NumberFormatter::DECIMAL );
}
// minimumGroupingDigits can be used to suppress groupings below a certain value.
// This is used for languages such as Polish, where one would only write the grouping
// separator for values above 9999 - numbers with more than 4 digits.
// NumberFormatter is yet to support minimumGroupingDigits, ICU has it as experimental feature.
// The attribute value is used by adding it to the grouping separator value. If
// the input number has fewer integer digits, the grouping separator is suppressed.
$minimumGroupingDigits = $this->minimumGroupingDigits();
// Minimum length of a number to do digit grouping on.
// http://unicode.org/reports/tr35/tr35-numbers.html#Examples_of_minimumGroupingDigits
$minimumLength = $minimumGroupingDigits + $fmt->getAttribute( NumberFormatter::GROUPING_SIZE );
if ( $minimumGroupingDigits > 1
&& !preg_match( '/^\-?\d{' . $minimumLength . '}/', $number )
) {
// This number does not need commas inserted (even if
// NumberFormatter thinks it does) because it's not long
// enough. We still need to do decimal separator
// transformation, though. For example, 1234.56 becomes 1234,56
// in pl with $minimumGroupingDigits = 2.
if ( !$noTranslate ) {
$number = strtr( $number, $separatorTransformTable ?: [] );
}
} elseif ( $number === '-0' ) {
// Special case to ensure we don't lose the minus sign by
// converting to an int.
if ( !$noTranslate ) {
$number = strtr( $number, $separatorTransformTable ?: [] );
}
} else {
// NumberFormatter supports separator transformation,
// but it does not know all languages MW
// supports. Example: arq. Also, languages like pl have
// customisation. So manually set it.
if ( $noTranslate ) {
$fmt->setSymbol(
NumberFormatter::DECIMAL_SEPARATOR_SYMBOL,
'.'
);
$fmt->setSymbol(
NumberFormatter::GROUPING_SEPARATOR_SYMBOL,
','
);
} elseif ( $separatorTransformTable ) {
$fmt->setSymbol(
NumberFormatter::DECIMAL_SEPARATOR_SYMBOL,
$separatorTransformTable[ '.' ] ?? '.'
);
$fmt->setSymbol(
NumberFormatter::GROUPING_SEPARATOR_SYMBOL,
$separatorTransformTable[ ',' ] ?? ','
);
}
// Maintain # of digits before and after the decimal point
// (and presence of decimal point)
if ( preg_match( '/^-?(\d*)(\.(\d*))?$/', $number, $m ) ) {
$fmt->setAttribute( NumberFormatter::MIN_INTEGER_DIGITS, strlen( $m[1] ) );
if ( isset( $m[2] ) ) {
$fmt->setAttribute( NumberFormatter::DECIMAL_ALWAYS_SHOWN, 1 );
}
$fmt->setAttribute( NumberFormatter::FRACTION_DIGITS, strlen( $m[3] ?? '' ) );
}
$number = $fmt->format( (float)$number );
}
}
if ( !$noTranslate ) {
if ( $translateNumerals ) {
// This is often unnecessary: PHP's NumberFormatter will often
// do the digit transform itself (T267614)
$s = $this->digitTransformTable();
if ( $s ) {
$number = strtr( $number, $s );
}
}
# T10327: Make our formatted numbers prettier by using a
# proper Unicode 'minus' character.
$number = strtr( $number, [ '-' => "\u{2212}" ] );
}
// Remove any LRM or RLM characters generated from NumberFormatter,
// since directionality is handled outside of this context.
// Similarly remove \u61C, the "Arabic Letter mark" (unicode 6.3.0)
// https://en.wikipedia.org/wiki/Arabic_letter_mark
// which is added starting PHP 7.3+
return strtr( $number, [
"\u{200E}" => '', // LRM
"\u{200F}" => '', // RLM
"\u{061C}" => '', // ALM
] );
}
/**
* Front-end for non-commafied formatNum
*
* @param string|int|float $number The string to be formatted, should be an integer
* or a floating point number.
* @since 1.21
* @return string
*/
public function formatNumNoSeparators( $number ) {
return $this->formatNumInternal( (string)$number, false, true );
}
/**
* @param string $number
* @return string
*/
public function parseFormattedNumber( $number ) {
if ( $number === $this->msg( 'formatnum-nan' )->text() ) {
return (string)NAN;
}
if ( $number === "∞" ) {
return (string)INF;
}
// Accept either ASCII hyphen-minus or the unicode minus emitted by
// ::formatNum()
$number = strtr( $number, [ "\u{2212}" => '-' ] );
if ( $number === "-∞" ) {
return (string)-INF;
}
$s = $this->digitTransformTable();
if ( $s ) {
// Eliminate empty array values such as ''. (T66347)
$s = array_filter( $s );
$number = strtr( $number, array_flip( $s ) );
}
$s = $this->separatorTransformTable();
if ( $s ) {
// Eliminate empty array values such as ''. (T66347)
$s = array_filter( $s );
$number = strtr( $number, array_flip( $s ) );
}
return strtr( $number, [ ',' => '' ] );
}
/**
* @return string
*/
public function digitGroupingPattern() {
return $this->localisationCache->getItem( $this->mCode, 'digitGroupingPattern' );
}
/**
* @return string[]
*/
public function digitTransformTable() {
return $this->localisationCache->getItem( $this->mCode, 'digitTransformTable' );
}
/**
* @return string[]
*/
public function separatorTransformTable() {
return $this->localisationCache->getItem( $this->mCode, 'separatorTransformTable' );
}
/**
* The minimum number of digits a number must have, in addition to the grouping
* size, before grouping separators are added.
*
* For example, Polish has minimumGroupingDigits = 2, which with a grouping
* size of 3 causes 4-digit numbers to be written like 9999, but 5-digit
* numbers are written like "10 000".
*
* @return int
*/
public function minimumGroupingDigits(): int {
return $this->localisationCache->getItem( $this->mCode, 'minimumGroupingDigits' ) ?? 1;
}
/**
* Take a list of strings and build a locale-friendly comma-separated
* list, using the local comma-separator message.
* The last two strings are chained with an "and".
*
* @param string[] $list
* @param-taint $list tainted
* @return string
*/
public function listToText( array $list ) {
$itemCount = count( $list );
if ( $itemCount < 1 ) {
return '';
}
$text = array_pop( $list );
if ( $itemCount > 1 ) {
$and = $this->msg( 'and' )->escaped();
$space = $this->msg( 'word-separator' )->escaped();
$comma = '';
if ( $itemCount > 2 ) {
$comma = $this->msg( 'comma-separator' )->escaped();
}
$text = implode( $comma, $list ) . $and . $space . $text;
}
// @phan-suppress-next-line PhanTypeMismatchReturnNullable False positive
return $text;
}
/**
* Take a list of strings and build a locale-friendly comma-separated
* list, using the local comma-separator message.
* @param string[] $list Array of strings to put in a comma list
* @param-taint $list tainted
* @return string
*/
public function commaList( array $list ) {
return implode(
$this->msg( 'comma-separator' )->escaped(),
$list
);
}
/**
* Take a list of strings and build a locale-friendly semicolon-separated
* list, using the local semicolon-separator message.
* @param string[] $list Array of strings to put in a semicolon list
* @param-taint $list tainted
* @return string
*/
public function semicolonList( array $list ) {
return implode(
$this->msg( 'semicolon-separator' )->escaped(),
$list
);
}
/**
* Same as commaList, but separate it with the pipe instead.
* @param string[] $list Array of strings to put in a pipe list
* @param-taint $list tainted
* @return string
*/
public function pipeList( array $list ) {
return implode(
$this->msg( 'pipe-separator' )->escaped(),
$list
);
}
/**
* Truncate a string to a specified length in bytes, appending an optional
* string (e.g., for ellipsis)
* When an ellipsis isn't needed, using mb_strcut() directly is recommended.
*
* If $length is negative, the string will be truncated from the beginning
*
* @since 1.31
*
* @param string $string String to truncate
* @param int $length Maximum length in bytes
* @param string $ellipsis String to append to the end of truncated text
* @param bool $adjustLength Subtract length of ellipsis from $length
*
* @return string
*/
public function truncateForDatabase( $string, $length, $ellipsis = '...', $adjustLength = true ) {
return $this->truncateInternal(
$string, $length, $ellipsis, $adjustLength, 'strlen', 'mb_strcut'
);
}
/**
* Truncate a string to a specified number of characters, appending an optional
* string (e.g., for ellipsis).
*
* This provides the multibyte version of truncateForDatabase() method of this class,
* suitable for truncation based on number of characters, instead of number of bytes.
*
* The input should be a raw UTF-8 string, and *NOT* be HTML
* escaped. It is not safe to truncate HTML-escaped strings,
* because the entity can be truncated! Use ::truncateHtml() if you
* need a specific number of HTML-encoded bytes, or
* ::truncateForDatabase() if you need a specific number of PHP
* bytes.
*
* If $length is negative, the string will be truncated from the beginning.
*
* @since 1.31
*
* @param string $string String to truncate
* @param int $length Maximum number of characters
* @param string $ellipsis String to append to the end of truncated text
* @param bool $adjustLength Subtract length of ellipsis from $length
*
* @return string
*/
public function truncateForVisual( $string, $length, $ellipsis = '...', $adjustLength = true ) {
// Passing encoding to mb_strlen and mb_substr is optional.
// Encoding defaults to mb_internal_encoding(), which is set to UTF-8 in Setup.php, so
// explicit specification of encoding is skipped.
// Note: Both multibyte methods are callables invoked in truncateInternal.
return $this->truncateInternal(
$string, $length, $ellipsis, $adjustLength, 'mb_strlen', 'mb_substr'
);
}
/**
* Internal method used for truncation. This method abstracts text truncation into
* one common method, allowing users to provide the length measurement function and
* function for finding substring.
*
* For usages, see truncateForDatabase and truncateForVisual.
*
* @param string $string String to truncate
* @param int $length Maximum length of the final text
* @param string $ellipsis String to append to the end of truncated text
* @param bool $adjustLength Subtract length of ellipsis from $length
* @param callable $measureLength Callable function used for determining the length of text
* @param callable $getSubstring Callable function used for getting the substrings
*
* @return string
*/
private function truncateInternal(
$string, $length, $ellipsis, $adjustLength, callable $measureLength, callable $getSubstring
) {
# Check if there is no need to truncate
if ( $measureLength( $string ) <= abs( $length ) ) {
return $string; // no need to truncate
}
# Use the localized ellipsis character
if ( $ellipsis == '...' ) {
$ellipsis = $this->msg( 'ellipsis' )->text();
}
if ( $length == 0 ) {
return $ellipsis; // convention
}
$stringOriginal = $string;
# If ellipsis length is >= $length then we can't apply $adjustLength
if ( $adjustLength && $measureLength( $ellipsis ) >= abs( $length ) ) {
$string = $ellipsis; // this can be slightly unexpected
# Otherwise, truncate and add ellipsis...
} else {
$ellipsisLength = $adjustLength ? $measureLength( $ellipsis ) : 0;
if ( $length > 0 ) {
$length -= $ellipsisLength;
$string = $getSubstring( $string, 0, $length ); // xyz...
$string = rtrim( $string ) . $ellipsis;
} else {
$length += $ellipsisLength;
$string = $getSubstring( $string, $length ); // ...xyz
$string = $ellipsis . ltrim( $string );
}
}
# Do not truncate if the ellipsis makes the string longer/equal (T24181).
# This check is *not* redundant if $adjustLength, due to the single case where
# LEN($ellipsis) > ABS($limit arg); $stringOriginal could be shorter than $string.
if ( $measureLength( $string ) < $measureLength( $stringOriginal ) ) {
return $string;
} else {
return $stringOriginal;
}
}
/**
* Remove bytes that represent an incomplete Unicode character
* at the end of string (e.g. bytes of the char are missing)
*
* @param string $string
* @return string
*/
protected function removeBadCharLast( $string ) {
if ( $string != '' ) {
$char = ord( $string[strlen( $string ) - 1] );
$m = [];
if ( $char >= 0xc0 ) {
# We got the first byte only of a multibyte char; remove it.
$string = substr( $string, 0, -1 );
} elseif ( $char >= 0x80 &&
// Use the /s modifier (PCRE_DOTALL) so (.*) also matches newlines
preg_match( '/^(.*)(?:[\xe0-\xef][\x80-\xbf]|' .
'[\xf0-\xf7][\x80-\xbf]{1,2})$/s', $string, $m )
) {
# We chopped in the middle of a character; remove it
$string = $m[1];
}
}
return $string;
}
/**
* Truncate a string of valid HTML to a specified length in bytes,
* appending an optional string (e.g., for ellipses), and return valid HTML
*
* This is only intended for styled/linked text, such as HTML with
* tags like <span> and <a>, where the tags are self-contained (valid HTML).
* Also, this will not detect things like "display:none" CSS.
*
* Note: since 1.18 you do not need to leave extra room in $length for ellipses.
*
* @param string $text HTML string to truncate
* @param int $length (zero/positive) Maximum HTML length (including ellipses)
* @param string $ellipsis String to append to the truncated text
* @return string
*/
public function truncateHtml( $text, $length, $ellipsis = '...' ) {
# Use the localized ellipsis character
if ( $ellipsis == '...' ) {
$ellipsis = $this->msg( 'ellipsis' )->escaped();
}
# Check if there is clearly no need to truncate
if ( $length <= 0 ) {
return $ellipsis; // no text shown, nothing to format (convention)
} elseif ( strlen( $text ) <= $length ) {
return $text; // string short enough even *with* HTML (short-circuit)
}
$dispLen = 0; // innerHTML length so far
$testingEllipsis = false; // check if ellipses will make the string longer/equal?
$tagType = 0; // 0-open, 1-close
$bracketState = 0; // 1-tag start, 2-tag name, 0-neither
$entityState = 0; // 0-not entity, 1-entity
$tag = $ret = ''; // accumulated tag name, accumulated result string
$openTags = []; // open tag stack
$maybeState = null; // possible truncation state
$textLen = strlen( $text );
$neLength = max( 0, $length - strlen( $ellipsis ) ); // non-ellipsis len if truncated
for ( $pos = 0; true; ++$pos ) {
# Consider truncation once the display length has reached the maximum.
# We check if $dispLen > 0 to grab tags for the $neLength = 0 case.
# Check that we're not in the middle of a bracket/entity...
if ( $dispLen && $dispLen >= $neLength && $bracketState == 0 && !$entityState ) {
if ( !$testingEllipsis ) {
$testingEllipsis = true;
# Save where we are; we will truncate here unless there turn out to
# be so few remaining characters that truncation is not necessary.
if ( !$maybeState ) { // already saved? ($neLength = 0 case)
$maybeState = [ $ret, $openTags ]; // save state
}
} elseif ( $dispLen > $length && $dispLen > strlen( $ellipsis ) ) {
# The string in fact does need truncation, the truncation point was OK.
// @phan-suppress-next-line PhanTypeInvalidExpressionArrayDestructuring
[ $ret, $openTags ] = $maybeState; // reload state
$ret = $this->removeBadCharLast( $ret ); // multi-byte char fix
$ret .= $ellipsis; // add ellipsis
break;
}
}
if ( $pos >= $textLen ) {
break; // extra iteration just for the checks above
}
# Read the next char...
$ch = $text[$pos];
$lastCh = $pos ? $text[$pos - 1] : '';
$ret .= $ch; // add to result string
if ( $ch == '<' ) {
$this->truncate_endBracket( $tag, $tagType, $lastCh, $openTags ); // for bad HTML
$entityState = 0; // for bad HTML
$bracketState = 1; // tag started (checking for backslash)
} elseif ( $ch == '>' ) {
$this->truncate_endBracket( $tag, $tagType, $lastCh, $openTags );
$entityState = 0; // for bad HTML
$bracketState = 0; // out of brackets
} elseif ( $bracketState == 1 ) {
if ( $ch == '/' ) {
$tagType = 1; // close tag (e.g. "</span>")
} else {
$tagType = 0; // open tag (e.g. "<span>")
$tag .= $ch;
}
$bracketState = 2; // building tag name
} elseif ( $bracketState == 2 ) {
if ( $ch != ' ' ) {
$tag .= $ch;
} else {
// Name found (e.g. "<a href=..."), add on tag attributes...
$pos += $this->truncate_skip( $ret, $text, "<>", $pos + 1 );
}
} elseif ( $bracketState == 0 ) {
if ( $entityState ) {
if ( $ch == ';' ) {
$entityState = 0;
$dispLen++; // entity is one displayed char
}
} else {
if ( $neLength == 0 && !$maybeState ) {
// Save the state without $ch. We want to *hit* the first
// display char (to get tags) but not *use* it if truncating.
$maybeState = [ substr( $ret, 0, -1 ), $openTags ];
}
if ( $ch == '&' ) {
$entityState = 1; // entity found, (e.g. " ")
} else {
$dispLen++; // this char is displayed
// Add the next $max display text chars after this in one swoop...
$max = ( $testingEllipsis ? $length : $neLength ) - $dispLen;
$skipped = $this->truncate_skip( $ret, $text, "<>&", $pos + 1, $max );
$dispLen += $skipped;
$pos += $skipped;
}
}
}
}
// Close the last tag if left unclosed by bad HTML
$this->truncate_endBracket( $tag, $tagType, $text[$textLen - 1], $openTags );
while ( count( $openTags ) > 0 ) {
$ret .= '</' . array_pop( $openTags ) . '>'; // close open tags
}
return $ret;
}
/**
* truncateHtml() helper function
* like strcspn() but adds the skipped chars to $ret
*
* @param string &$ret
* @param string $text
* @param string $search
* @param int $start
* @param null|int $len
* @return int
*/
private function truncate_skip( &$ret, $text, $search, $start, $len = null ) {
if ( $len === null ) {
// -1 means "no limit" for strcspn
$len = -1;
} elseif ( $len < 0 ) {
$len = 0;
}
$skipCount = 0;
if ( $start < strlen( $text ) ) {
$skipCount = strcspn( $text, $search, $start, $len );
$ret .= substr( $text, $start, $skipCount );
}
return $skipCount;
}
/**
* truncateHtml() helper function
* (a) push or pop $tag from $openTags as needed
* (b) clear $tag value
*
* @param string &$tag Current HTML tag name we are looking at
* @param int $tagType (0-open tag, 1-close tag)
* @param string $lastCh Character before the '>' that ended this tag
* @param array &$openTags Open tag stack (not accounting for $tag)
*/
private function truncate_endBracket( &$tag, $tagType, $lastCh, &$openTags ) {
$tag = ltrim( $tag );
if ( $tag != '' ) {
if ( $tagType == 0 && $lastCh != '/' ) {
$openTags[] = $tag; // tag opened (didn't close itself)
} elseif ( $tagType == 1 ) {
if ( $openTags && $tag == $openTags[count( $openTags ) - 1] ) {
array_pop( $openTags ); // tag closed
}
}
$tag = '';
}
}
/**
* Grammatical transformations, needed for inflected languages
* Invoked by putting {{grammar:case|word}} in a message
*
* @param string $word
* @param string $case
* @return string
*/
public function convertGrammar( $word, $case ) {
$grammarForms = $this->config->get( MainConfigNames::GrammarForms );
if ( isset( $grammarForms[$this->getCode()][$case][$word] ) ) {
return $grammarForms[$this->getCode()][$case][$word];
}
$grammarTransformations = $this->getGrammarTransformations();
if ( isset( $grammarTransformations[$case] ) ) {
$forms = $grammarTransformations[$case];
// Some names of grammar rules are aliases for other rules.
// In such cases the value is a string rather than object,
// so load the actual rules.
if ( is_string( $forms ) ) {
$forms = $grammarTransformations[$forms];
}
foreach ( $forms as $rule ) {
$form = $rule[0];
if ( $form === '@metadata' ) {
continue;
}
$replacement = $rule[1];
$regex = '/' . addcslashes( $form, '/' ) . '/u';
$patternMatches = preg_match( $regex, $word );
if ( $patternMatches === false ) {
wfLogWarning(
'An error occurred while processing grammar. ' .
"Word: '$word'. Regex: /$form/."
);
} elseif ( $patternMatches === 1 ) {
$word = preg_replace( $regex, $replacement, $word );
break;
}
}
}
return $word;
}
/**
* Get the grammar forms for the content language.
*
* @return array Array of grammar forms
* @since 1.20
*/
public function getGrammarForms() {
$grammarForms = $this->config->get( MainConfigNames::GrammarForms );
if ( isset( $grammarForms[$this->getCode()] )
&& is_array( $grammarForms[$this->getCode()] )
) {
return $grammarForms[$this->getCode()];
}
return [];
}
/**
* Get the grammar transformations data for the language.
* Used like grammar forms, with {{GRAMMAR}} and cases,
* but uses pairs of regexes and replacements instead of code.
*
* @return array[] Array of grammar transformations.
* @since 1.28
*/
public function getGrammarTransformations() {
global $IP;
if ( $this->grammarTransformCache !== null ) {
return $this->grammarTransformCache;
}
$grammarDataFile = $IP . "/languages/data/grammarTransformations/{$this->getCode()}.json";
$this->grammarTransformCache = is_readable( $grammarDataFile )
? FormatJson::decode( file_get_contents( $grammarDataFile ), true )
: [];
if ( $this->grammarTransformCache === null ) {
throw new RuntimeException( "Invalid grammar data for \"{$this->getCode()}\"." );
}
return $this->grammarTransformCache;
}
/**
* Provides an alternative text depending on specified gender.
* Usage {{gender:username|masculine|feminine|unknown}}.
* username is optional, in which case the gender of the current user is used,
* but only in (some) interface messages; otherwise the default gender is used.
*
* If no forms are given, an empty string is returned. If only one form is
* given, it will be returned unconditionally. These details are implied by
* the caller and cannot be overridden in subclasses.
*
* If three forms are given, the default is to use the third (unknown) form.
* If fewer than three forms are given, the default is to use the first (masculine) form.
* These details can be overridden in subclasses.
*
* @param string $gender
* @param array $forms
*
* @return string
*/
public function gender( $gender, $forms ) {
if ( !count( $forms ) ) {
return '';
}
$forms = $this->preConvertPlural( $forms, 2 );
if ( $gender === 'male' ) {
return $forms[0];
}
if ( $gender === 'female' ) {
return $forms[1];
}
return $forms[2] ?? $forms[0];
}
/**
* Plural form transformations, needed for some languages.
* For example, there are 3 forms of plural in Russian and Polish,
* depending on "count mod 10". See [[w:Plural]]
* For English it is pretty simple.
*
* Invoked by putting {{plural:count|wordform1|wordform2}}
* or {{plural:count|wordform1|wordform2|wordform3}}
*
* Example: {{plural:{{NUMBEROFARTICLES}}|article|articles}}
*
* @param int $count Non-localized number
* @param array $forms Different plural forms
* @return string Correct form of plural for $count in this language
*/
public function convertPlural( $count, $forms ) {
// Handle explicit n=pluralform cases
$forms = $this->handleExplicitPluralForms( $count, $forms );
if ( is_string( $forms ) ) {
return $forms;
}
if ( !count( $forms ) ) {
return '';
}
$pluralForm = $this->getPluralRuleIndexNumber( $count );
$pluralForm = min( $pluralForm, count( $forms ) - 1 );
return $forms[$pluralForm];
}
/**
* Handles explicit plural forms for Language::convertPlural()
*
* In {{PLURAL:$1|0=nothing|one|many}}, 0=nothing will be returned if $1 equals zero.
* If an explicitly defined plural form matches the $count, then the
* string value is returned. Otherwise the array is returned for further consideration
* by CLDR rules or overridden convertPlural().
*
* @since 1.23
*
* @param int $count Non-localized number
* @param string[] $forms Different plural forms
*
* @return string[]|string
*/
protected function handleExplicitPluralForms( $count, array $forms ) {
foreach ( $forms as $index => $form ) {
if ( preg_match( '/\d+=/i', $form ) ) {
$pos = strpos( $form, '=' );
if ( substr( $form, 0, $pos ) === (string)$count ) {
return substr( $form, $pos + 1 );
}
unset( $forms[$index] );
}
}
return array_values( $forms );
}
/**
* Checks that convertPlural was given an array and pads it to requested
* number of forms by copying the last one.
*
* @param array $forms
* @param int $count Minimum number of forms
* @return array Padded array of forms
*/
protected function preConvertPlural( /* Array */ $forms, $count ) {
return array_pad( $forms, $count, end( $forms ) );
}
/**
* Wraps argument with unicode control characters for directionality safety
*
* This solves the problem where directionality-neutral characters at the edge of
* the argument string get interpreted with the wrong directionality from the
* enclosing context, giving renderings that look corrupted like "(Ben_(WMF".
*
* The wrapping is LRE...PDF or RLE...PDF, depending on the detected
* directionality of the argument string, using the BIDI algorithm's own "First
* strong directional codepoint" rule. Essentially, this works round the fact that
* there is no embedding equivalent of U+2068 FSI (isolation with heuristic
* direction inference). The latter is cleaner but still not widely supported.
*
* @param string $text Text to wrap
* @return string Text, wrapped in LRE...PDF or RLE...PDF or nothing
*/
public function embedBidi( $text = '' ) {
$dir = self::strongDirFromContent( $text );
if ( $dir === 'ltr' ) {
// Wrap in LEFT-TO-RIGHT EMBEDDING ... POP DIRECTIONAL FORMATTING
return self::LRE . $text . self::PDF;
}
if ( $dir === 'rtl' ) {
// Wrap in RIGHT-TO-LEFT EMBEDDING ... POP DIRECTIONAL FORMATTING
return self::RLE . $text . self::PDF;
}
// No strong directionality: do not wrap
return $text;
}
/**
* Get an array of suggested block durations from MediaWiki:Ipboptions
* @todo FIXME: This uses a rather odd syntax for the options, should it be converted
* to the standard "**<duration>|<displayname>" format?
* @since 1.42
* @param bool $includeOther Whether to include the 'other' option in the list of
* suggestions
* @return string[]
*/
public function getBlockDurations( $includeOther = true ): array {
$msg = $this->msg( 'ipboptions' )->text();
if ( $msg == '-' ) {
return [];
}
$a = XmlSelect::parseOptionsMessage( $msg );
if ( $a && $includeOther ) {
// If options exist, add other to the end instead of the beginning (which
// is what happens by default).
$a[ $this->msg( 'ipbother' )->text() ] = 'other';
}
return $a;
}
/**
* @todo Maybe translate block durations. Note that this function is somewhat misnamed: it
* deals with translating the *duration* ("1 week", "4 days", etc.), not the expiry time
* (which is an absolute timestamp). Please note: do NOT add this blindly, as it is used
* on old expiry lengths recorded in log entries. You'd need to provide the start date to
* match up with it.
*
* @param string $str The validated block duration in English
* @param UserIdentity|null $user User to use timezone from or null for the context user
* @param int $now Current timestamp, for formatting relative block durations
* @return string Somehow translated block duration
* @see LanguageFi.php file for an implementation example
*/
public function translateBlockExpiry( $str, UserIdentity $user = null, $now = 0 ) {
$duration = $this->getBlockDurations();
$show = array_search( $str, $duration, true );
if ( $show !== false ) {
return trim( $show );
}
if ( wfIsInfinity( $str ) ) {
foreach ( $duration as $show => $value ) {
if ( wfIsInfinity( $value ) ) {
return trim( $show );
}
}
}
// If all else fails, return a standard duration or timestamp description.
$time = strtotime( $str, $now );
if ( $time === false ) { // Unknown format. Return it as-is in case.
return $str;
} elseif ( $time !== strtotime( $str, $now + 1 ) ) { // It's a relative timestamp.
// The result differs based on current time, so the difference
// is a fixed duration length.
return $this->formatDuration( $time - $now );
} else { // It's an absolute timestamp.
if ( $time === 0 ) {
// wfTimestamp() handles 0 as current time instead of epoch.
$time = '19700101000000';
}
if ( $user ) {
return $this->userTimeAndDate( $time, $user );
}
return $this->timeanddate( $time );
}
}
/**
* Languages like Chinese need to be segmented in order for the diff
* to be of any use
*
* @param string $text
* @return string
*/
public function segmentForDiff( $text ) {
return $text;
}
/**
* And unsegment to show the result
*
* @param string $text
* @return string
*/
public function unsegmentForDiff( $text ) {
return $text;
}
/**
* A regular expression to match legal word-trailing characters
* which should be merged onto a link of the form [[foo]]bar.
*
* @return string
*/
public function linkTrail() {
return $this->localisationCache->getItem( $this->mCode, 'linkTrail' );
}
/**
* A regular expression character set to match legal word-prefixing
* characters which should be merged onto a link of the form foo[[bar]].
*
* @return string
*/
public function linkPrefixCharset() {
return $this->localisationCache->getItem( $this->mCode, 'linkPrefixCharset' );
}
/**
* Compare with another language object
*
* @since 1.28
* @param Language $lang
* @return bool
*/
public function equals( Language $lang ) {
return $lang === $this || $lang->getCode() === $this->mCode;
}
/**
* Get the internal language code for this language object
*
* NOTE: The return value of this function is NOT HTML-safe and must be escaped with
* htmlspecialchars() or similar
*
* @return string
*/
public function getCode() {
return $this->mCode;
}
/**
* Get the code in BCP 47 format which we can use
* inside html lang="" tags.
*
* NOTE: The return value of this function is NOT HTML-safe and must be escaped with
* htmlspecialchars() or similar.
*
* @since 1.19
* @return string
*/
public function getHtmlCode() {
$this->mHtmlCode ??= LanguageCode::bcp47( $this->getCode() );
return $this->mHtmlCode;
}
/**
* Implement the Bcp47Code interface. This is an alias for
* ::getHtmlCode().
*
* @since 1.40
* @return string
*/
public function toBcp47Code(): string {
return $this->getHtmlCode();
}
/**
* Compare this Language object to a Bcp47Code. This is part of the
* Bcp47Code interface.
* @param Bcp47Code $other
* @return bool
* @since 1.41
*/
public function isSameCodeAs( Bcp47Code $other ): bool {
if ( $this === $other ) {
return true;
}
if ( $other instanceof Language ) {
// Compare the mediawiki-internal code
return $this->equals( $other );
}
// Bcp-47 codes are case insensitive.
// See Bcp47CodeValue::isSameCode()
return strcasecmp( $this->toBcp47Code(), $other->toBcp47Code() ) === 0;
}
/**
* Get the language code from a file name. Inverse of getFileName()
*
* @param string $filename $prefix . $languageCode . $suffix
* @param string $prefix Prefix before the language code
* @param string $suffix Suffix after the language code
* @return string|false Language code, or false if $prefix or $suffix isn't found
*/
public static function getCodeFromFileName( $filename, $prefix = 'Language', $suffix = '.php' ) {
$m = null;
preg_match( '/' . preg_quote( $prefix, '/' ) . '([A-Z][a-z_]+)' .
preg_quote( $suffix, '/' ) . '/', $filename, $m );
if ( !count( $m ) ) {
return false;
}
return str_replace( '_', '-', strtolower( $m[1] ) );
}
/**
* @param string $talk
* @return string
*/
private function fixVariableInNamespace( $talk ) {
if ( strpos( $talk, '$1' ) === false ) {
return $talk;
}
$talk = str_replace( '$1', $this->config->get( MainConfigNames::MetaNamespace ), $talk );
# Allow grammar transformations
# Allowing full message-style parsing would make simple requests
# such as action=raw much more expensive than they need to be.
# This will hopefully cover most cases.
$talk = preg_replace_callback(
'/{{grammar:(.*?)\|(.*?)}}/i',
function ( $m ) {
return $this->convertGrammar( trim( $m[2] ), trim( $m[1] ) );
},
$talk
);
return str_replace( ' ', '_', $talk );
}
/**
* Decode an expiry (block, protection, etc.) which has come from the DB
*
* @param string $expiry Database expiry String
* @param true|int $format True to process using language functions, or TS_ constant
* to return the expiry in a given timestamp
* @param string $infinity If $format is not true, use this string for infinite expiry
* @param UserIdentity|null $user If $format is true, use this user for date format
* @return string
* @since 1.18
* @since 1.36 $user was added
*/
public function formatExpiry( $expiry, $format = true, $infinity = 'infinity', $user = null ) {
static $dbInfinity;
$dbInfinity ??= MediaWikiServices::getInstance()->getConnectionProvider()
->getReplicaDatabase()
->getInfinity();
if ( $expiry == '' || $expiry === 'infinity' || $expiry == $dbInfinity ) {
return $format === true
? $this->getMessageFromDB( 'infiniteblock' )
: $infinity;
} else {
if ( $format === true ) {
return $user
? $this->userTimeAndDate( $expiry, $user )
: $this->timeanddate( $expiry, /* User preference timezone */ true );
}
return wfTimestamp( $format, $expiry );
}
}
/**
* Formats a time given in seconds into a string representation of that time.
*
* @param int|float $seconds
* @param array $format An optional argument that formats the returned string in different ways:
* If $format['avoid'] === 'avoidhours': don't show hours, just show days
* If $format['avoid'] === 'avoidseconds': don't show seconds if $seconds >= 1 hour,
* If $format['avoid'] === 'avoidminutes': don't show seconds/minutes if $seconds > 48 hours,
* If $format['noabbrevs'] is true: use 'seconds' and friends instead of 'seconds-abbrev'
* and friends.
* @note For backwards compatibility, $format may also be one of the strings 'avoidseconds'
* or 'avoidminutes'.
* @return string
*/
public function formatTimePeriod( $seconds, $format = [] ) {
if ( !is_array( $format ) ) {
$format = [ 'avoid' => $format ]; // For backwards compatibility
}
if ( !isset( $format['avoid'] ) ) {
$format['avoid'] = false;
}
if ( !isset( $format['noabbrevs'] ) ) {
$format['noabbrevs'] = false;
}
$secondsMsg = $this->msg( $format['noabbrevs'] ? 'seconds' : 'seconds-abbrev' );
$minutesMsg = $this->msg( $format['noabbrevs'] ? 'minutes' : 'minutes-abbrev' );
$hoursMsg = $this->msg( $format['noabbrevs'] ? 'hours' : 'hours-abbrev' );
$daysMsg = $this->msg( $format['noabbrevs'] ? 'days' : 'days-abbrev' );
$space = $this->msg( 'word-separator' )->text();
if ( round( $seconds * 10 ) < 100 ) {
$s = $this->formatNum( sprintf( "%.1f", round( $seconds * 10 ) / 10 ) );
$s = $secondsMsg->params( $s )->text();
} elseif ( round( $seconds ) < 60 ) {
$s = $this->formatNum( round( $seconds ) );
$s = $secondsMsg->params( $s )->text();
} elseif ( round( $seconds ) < 3600 ) {
$minutes = floor( $seconds / 60 );
$secondsPart = round( fmod( $seconds, 60 ) );
if ( $secondsPart == 60 ) {
$secondsPart = 0;
$minutes++;
}
$s = $minutesMsg->params( $this->formatNum( $minutes ) )->text();
$s .= $space;
$s .= $secondsMsg->params( $this->formatNum( $secondsPart ) )->text();
} elseif ( round( $seconds ) <= 2 * 86400 ) {
$hours = floor( $seconds / 3600 );
$minutes = floor( ( $seconds - $hours * 3600 ) / 60 );
$secondsPart = round( $seconds - $hours * 3600 - $minutes * 60 );
if ( $secondsPart == 60 ) {
$secondsPart = 0;
$minutes++;
}
if ( $minutes == 60 ) {
$minutes = 0;
$hours++;
}
$s = $hoursMsg->params( $this->formatNum( $hours ) )->text();
$s .= $space;
$s .= $minutesMsg->params( $this->formatNum( $minutes ) )->text();
if ( !in_array( $format['avoid'], [ 'avoidseconds', 'avoidminutes', 'avoidhours' ] ) ) {
$s .= $space . $secondsMsg->params( $this->formatNum( $secondsPart ) )->text();
}
} else {
$days = floor( $seconds / 86400 );
if ( $format['avoid'] === 'avoidhours' ) {
$hours = round( ( $seconds - $days * 86400 ) / 3600 );
if ( $hours == 24 ) {
$days++;
}
$s = $daysMsg->params( $this->formatNum( $days ) )->text();
} elseif ( $format['avoid'] === 'avoidminutes' ) {
$hours = round( ( $seconds - $days * 86400 ) / 3600 );
if ( $hours == 24 ) {
$hours = 0;
$days++;
}
$s = $daysMsg->params( $this->formatNum( $days ) )->text();
$s .= $space;
$s .= $hoursMsg->params( $this->formatNum( $hours ) )->text();
} elseif ( $format['avoid'] === 'avoidseconds' ) {
$hours = floor( ( $seconds - $days * 86400 ) / 3600 );
$minutes = round( ( $seconds - $days * 86400 - $hours * 3600 ) / 60 );
if ( $minutes == 60 ) {
$minutes = 0;
$hours++;
}
if ( $hours == 24 ) {
$hours = 0;
$days++;
}
$s = $daysMsg->params( $this->formatNum( $days ) )->text();
$s .= $space;
$s .= $hoursMsg->params( $this->formatNum( $hours ) )->text();
$s .= $space;
$s .= $minutesMsg->params( $this->formatNum( $minutes ) )->text();
} else {
$s = $daysMsg->params( $this->formatNum( $days ) )->text();
$s .= $space;
$s .= $this->formatTimePeriod( $seconds - $days * 86400, $format );
}
}
return $s;
}
/**
* Format a bitrate for output, using an appropriate
* unit (bps, kbps, Mbps, Gbps, Tbps, Pbps, Ebps, Zbps, Ybps, Rbps or Qbps) according to
* the magnitude in question.
*
* This use base 1000. For base 1024 use formatSize(), for another base
* see formatComputingNumbers().
*
* @param int $bps
* @return string
*/
public function formatBitrate( $bps ) {
// messages used: bitrate-bits, bitrate-kilobits, bitrate-megabits, bitrate-gigabits, bitrate-terabits,
// bitrate-petabits, bitrate-exabits, bitrate-zettabits, bitrate-yottabits, bitrate-ronnabits,
// bitrate-quettabits
return $this->formatComputingNumbers( $bps, 1000, "bitrate-$1bits" );
}
/**
* @param int $size Size of the unit
* @param int $boundary Size boundary (1000, or 1024 in most cases)
* @param string $messageKey Message key to be used
* @return string
*/
public function formatComputingNumbers( $size, $boundary, $messageKey ) {
if ( $size <= 0 ) {
return str_replace( '$1', $this->formatNum( $size ),
$this->getMessageFromDB( str_replace( '$1', '', $messageKey ) )
);
}
$sizes = [ '', 'kilo', 'mega', 'giga', 'tera', 'peta', 'exa', 'zetta', 'yotta', 'ronna', 'quetta' ];
$index = 0;
$maxIndex = count( $sizes ) - 1;
while ( $size >= $boundary && $index < $maxIndex ) {
$index++;
$size /= $boundary;
}
// For small sizes no decimal places necessary
$round = 0;
if ( $index > 1 ) {
// For MB and larger units, two decimal places are smarter
$round = 2;
}
$msg = str_replace( '$1', $sizes[$index], $messageKey );
$size = round( $size, $round );
$text = $this->getMessageFromDB( $msg );
return str_replace( '$1', $this->formatNum( $size ), $text );
}
/**
* Format a size in bytes for output, using an appropriate
* unit (B, KB, MB, GB, TB, PB, EB, ZB, YB, RB or QB) according to the magnitude in question
*
* This method use base 1024. For base 1000 use formatBitrate(), for
* another base see formatComputingNumbers()
*
* @param int $size Size to format
* @return string Plain text (not HTML)
*/
public function formatSize( $size ) {
// messages used: size-bytes, size-kilobytes, size-megabytes, size-gigabytes, size-terabytes,
// size-petabytes, size-exabytes, size-zettabytes, size-yottabytes, size-ronnabytes, size-quettabytes
return $this->formatComputingNumbers( $size, 1024, "size-$1bytes" );
}
/**
* Make a list item, used by various special pages
*
* @param string $page Page link
* @param string $details HTML safe text between brackets
* @param bool $oppositedm Add the direction mark opposite to your
* language, to display text properly
* @return string HTML escaped
*/
public function specialList( $page, $details, $oppositedm = true ) {
if ( !$details ) {
return $page;
}
$dirmark = ( $oppositedm ? $this->getDirMark( true ) : '' ) . $this->getDirMark();
return $page .
$dirmark .
$this->msg( 'word-separator' )->escaped() .
$this->msg( 'parentheses' )->rawParams( $details )->escaped();
}
/**
* Get the compiled plural rules for the language
*
* @since 1.20
* @return array<int,string> Associative array with plural form, and plural rule as key-value pairs
*/
public function getCompiledPluralRules() {
$pluralRules =
$this->localisationCache->getItem( strtolower( $this->mCode ), 'compiledPluralRules' );
if ( !$pluralRules ) {
$fallbacks = $this->getFallbackLanguages();
foreach ( $fallbacks as $fallbackCode ) {
$pluralRules = $this->localisationCache
->getItem( strtolower( $fallbackCode ), 'compiledPluralRules' );
if ( $pluralRules ) {
break;
}
}
}
return $pluralRules;
}
/**
* Get the plural rules for the language
*
* @since 1.20
* @return array<int,string> Associative array with plural form number and plural rule as key-value pairs
*/
public function getPluralRules() {
$pluralRules =
$this->localisationCache->getItem( strtolower( $this->mCode ), 'pluralRules' );
if ( !$pluralRules ) {
$fallbacks = $this->getFallbackLanguages();
foreach ( $fallbacks as $fallbackCode ) {
$pluralRules = $this->localisationCache
->getItem( strtolower( $fallbackCode ), 'pluralRules' );
if ( $pluralRules ) {
break;
}
}
}
return $pluralRules;
}
/**
* Get the plural rule types for the language
*
* @since 1.22
* @return array<int,string> Associative array with plural form number and plural rule type as key-value pairs
*/
public function getPluralRuleTypes() {
$pluralRuleTypes =
$this->localisationCache->getItem( strtolower( $this->mCode ), 'pluralRuleTypes' );
if ( !$pluralRuleTypes ) {
$fallbacks = $this->getFallbackLanguages();
foreach ( $fallbacks as $fallbackCode ) {
$pluralRuleTypes = $this->localisationCache
->getItem( strtolower( $fallbackCode ), 'pluralRuleTypes' );
if ( $pluralRuleTypes ) {
break;
}
}
}
return $pluralRuleTypes;
}
/**
* Find the index number of the plural rule appropriate for the given number
*
* @param int $number
* @return int The index number of the plural rule
*/
public function getPluralRuleIndexNumber( $number ) {
$pluralRules = $this->getCompiledPluralRules();
return Evaluator::evaluateCompiled( $number, $pluralRules );
}
/**
* Find the plural rule type appropriate for the given number.
* For example, if the language is set to Arabic, getPluralType(5) should
* return 'few'.
*
* @since 1.22
* @param int $number
* @return string The name of the plural rule type, e.g., one, two, few, many
*/
public function getPluralRuleType( $number ) {
$index = $this->getPluralRuleIndexNumber( $number );
$pluralRuleTypes = $this->getPluralRuleTypes();
return $pluralRuleTypes[$index] ?? 'other';
}
/**
* Return the LanguageConverter for this language,
* convenience function for use in the language classes only
*
* @return ILanguageConverter
*/
protected function getConverterInternal() {
return $this->converterFactory->getLanguageConverter( $this );
}
/**
* Get a HookContainer, for hook metadata and running extension hooks
*
* @since 1.35
* @return HookContainer
*/
protected function getHookContainer() {
return $this->hookContainer;
}
/**
* Get a HookRunner, for running core hooks
*
* @internal This is for use by core only. Hook interfaces may be removed
* without notice.
* @since 1.35
* @return HookRunner
*/
protected function getHookRunner() {
return $this->hookRunner;
}
/**
* @internal Only for use by the 'mediawiki.language' ResourceLoader module and
* generateJqueryMsgData.php
* @return array
*/
public function getJsData() {
return [
'digitTransformTable' => $this->digitTransformTable(),
'separatorTransformTable' => $this->separatorTransformTable(),
'minimumGroupingDigits' => $this->minimumGroupingDigits(),
'grammarForms' => $this->getGrammarForms(),
'grammarTransformations' => $this->getGrammarTransformations(),
'pluralRules' => $this->getPluralRules(),
'digitGroupingPattern' => $this->digitGroupingPattern(),
'fallbackLanguages' => $this->getFallbackLanguages(),
'bcp47Map' => LanguageCode::getNonstandardLanguageCodeMapping(),
];
}
}