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gnosygnu_xowa/400_xowa/src/gplx/xowa/mediawiki/languages/XomwLanguage.java

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/*
XOWA: the XOWA Offline Wiki Application
Copyright (C) 2012-2017 gnosygnu@gmail.com
XOWA is licensed under the terms of the General Public License (GPL) Version 3,
or alternatively under the terms of the Apache License Version 2.0.
You may use XOWA according to either of these licenses as is most appropriate
for your project on a case-by-case basis.
The terms of each license can be found in the source code repository:
GPLv3 License: https://github.com/gnosygnu/xowa/blob/master/LICENSE-GPLv3.txt
Apache License: https://github.com/gnosygnu/xowa/blob/master/LICENSE-APACHE2.txt
*/
package gplx.xowa.mediawiki.languages; import gplx.*; import gplx.xowa.*; import gplx.xowa.mediawiki.*;
import gplx.langs.regxs.*;
import gplx.core.primitives.*;
import gplx.xowa.langs.*;
import gplx.xowa.mediawiki.includes.*;
import gplx.xowa.mediawiki.vendor.wikimedia.cldr_plural_rule_parser.src.*;
import gplx.xowa.mediawiki.includes.cache.localisation.*;
import gplx.xowa.mediawiki.includes.exception.*;
public class XomwLanguage {
public Xol_lang_itm XoLang() {return xoLang;} private Xol_lang_itm xoLang = null;
private final Bry_bfr tmpBfr = Bry_bfr_.New();
// /**
// * @var LanguageConverter
// */
// public mConverter;
//
public String mCode;
// public mVariants, mCode, mLoaded = false;
// public mMagicExtensions = [], mMagicHookDone = false;
// private mHtmlCode = null, mParentLanguage = false;
//
// public dateFormatStrings = [];
// public mExtendedSpecialPageAliases;
//
// /** @var array|null */
private XomwNamespacesById namespaceNames;
private XomwNamespacesByName mNamespaceIds, namespaceAliases;
private byte[] digitGroupingPattern = null;
private final List_adp tmp_matches = List_adp_.New();
private final Bry_bfr tmp_commafy = Bry_bfr_.New();
// /**
// * ReplacementArray Object caches
// */
// public transformData = [];
/**
* @var LocalisationCache
*/
static public XomwLocalisationCache dataCache; // equivalent to MessagesLangCode.php
// static public mLangObjCache = [];
//
// static public mWeekdayMsgs = [
// 'sunday', 'monday', 'tuesday', 'wednesday', 'thursday',
// 'friday', 'saturday'
// ];
//
// static public mWeekdayAbbrevMsgs = [
// 'sun', 'mon', 'tue', 'wed', 'thu', 'fri', 'sat'
// ];
//
// static public mMonthMsgs = [
// 'january', 'february', 'march', 'april', 'may_long', 'june',
// 'july', 'august', 'september', 'october', 'november',
// 'december'
// ];
// static public mMonthGenMsgs = [
// 'january-gen', 'february-gen', 'march-gen', 'april-gen', 'may-gen', 'june-gen',
// 'july-gen', 'august-gen', 'september-gen', 'october-gen', 'november-gen',
// 'december-gen'
// ];
// static public mMonthAbbrevMsgs = [
// 'jan', 'feb', 'mar', 'apr', 'may', 'jun', 'jul', 'aug',
// 'sep', 'oct', 'nov', 'dec'
// ];
//
// static public mIranianCalendarMonthMsgs = [
// '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'
// ];
//
// static public mHebrewCalendarMonthMsgs = [
// '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'
// ];
//
// static public mHebrewCalendarMonthGenMsgs = [
// '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'
// ];
//
// static public mHijriCalendarMonthMsgs = [
// '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 1.20
// * @var array
// */
// static public durationIntervals = [
// 'millennia' => 31556952000,
// 'centuries' => 3155695200,
// 'decades' => 315569520,
// 'years' => 31556952, // 86400 * (365 + (24 * 3 + 25) / 400)
// 'weeks' => 604800,
// 'days' => 86400,
// 'hours' => 3600,
// 'minutes' => 60,
// 'seconds' => 1,
// ];
//
// /**
// * Cache for language fallbacks.
// * @see XomwLanguage.getFallbacksIncludingSiteLanguage
// * @since 1.21
// * @var array
// */
// static private fallbackLanguageCache = [];
//
// /**
// * Cache for grammar rules data
// * @var MapCacheLRU|null
// */
// static private grammarTransformations;
//
// /**
// * Cache for language names
// * @var HashBagOStuff|null
// */
// static private languageNameCache;
//
// /**
// * Unicode directional formatting characters, for embedBidi()
// */
// static private lre = "\xE2\x80\xAA"; // U+202A LEFT-TO-RIGHT EMBEDDING
// static private rle = "\xE2\x80\xAB"; // U+202B RIGHT-TO-LEFT EMBEDDING
// static private pdf = "\xE2\x80\xAC"; // 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://git.wikimedia.org/summary/unicodejs.git .
// */
// // @codingStandardsIgnoreStart
// // @codeCoverageIgnoreStart
// static private 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
// // @codingStandardsIgnoreEnd
// /**
// * Get a cached or new language Object for a given language code
// * @param String code
// * @return Language
// */
// static function factory(code) {
// global wgDummyLanguageCodes, wgLangObjCacheSize;
//
// if (isset(wgDummyLanguageCodes[code])) {
// code = wgDummyLanguageCodes[code];
// }
//
// // get the language Object to process
// langObj = isset(XomwLanguage.mLangObjCache[code])
// ? XomwLanguage.mLangObjCache[code]
// : XomwLanguage.newFromCode(code);
//
// // merge the language Object in to get it up front in the cache
// XomwLanguage.mLangObjCache = array_merge([ code => langObj ], XomwLanguage.mLangObjCache);
// // get rid of the oldest ones in case we have an overflow
// XomwLanguage.mLangObjCache = array_slice(XomwLanguage.mLangObjCache, 0, wgLangObjCacheSize, true);
//
// return langObj;
// }
//
// /**
// * Create a language Object for a given language code
// * @param String code
// * @throws MWException
// * @return Language
// */
// protected static function newFromCode(code) {
// if (!XomwLanguage.isValidCode(code)) {
// throw new MWException("Invalid language code \"code\"");
// }
//
// if (!XomwLanguage.isValidBuiltInCode(code)) {
// // It's not possible to customise this code with class files, so
// // just return a Language Object. This is to support uselang= hacks.
// lang = new Language;
// lang.setCode(code);
// return lang;
// }
//
// // Check if there is a language class for the code
// class = XomwLanguage.classFromCode(code);
// if (class_exists(class)) {
// lang = new class;
// return lang;
// }
//
// // Keep trying the fallback list until we find an existing class
// fallbacks = XomwLanguage.getFallbacksFor(code);
// foreach (fallbacks as fallbackCode) {
// if (!XomwLanguage.isValidBuiltInCode(fallbackCode)) {
// throw new MWException("Invalid fallback 'fallbackCode' in fallback sequence for 'code'");
// }
//
// class = XomwLanguage.classFromCode(fallbackCode);
// if (class_exists(class)) {
// lang = new class;
// lang.setCode(code);
// return lang;
// }
// }
//
// throw new MWException("Invalid fallback sequence for language 'code'");
// }
//
// /**
// * Checks whether any localisation is available for that language tag
// * in MediaWiki (MessagesXx.php exists).
// *
// * @param String code Language tag (in lower case)
// * @return boolean Whether language is supported
// * @since 1.21
// */
// public static function isSupportedLanguage(code) {
// if (!XomwLanguage.isValidBuiltInCode(code)) {
// return false;
// }
//
// if (code == 'qqq') {
// return false;
// }
//
// return is_readable(XomwLanguage.getMessagesFileName(code)) ||
// is_readable(XomwLanguage.getJsonMessagesFileName(code));
// }
//
// /**
// * Returns true if a language code String is a well-formed language tag
// * according to RFC 5646.
// * This function only checks well-formedness; it doesn't check that
// * language, script or variant codes actually exist in the repositories.
// *
// * Based on regexes by Mark Davis of the Unicode Consortium:
// * http://unicode.org/repos/cldr/trunk/tools/java/org/unicode/cldr/util/data/langtagRegex.txt
// *
// * @param String code
// * @param boolean lenient Whether to allow '_' as separator. The default is only '-'.
// *
// * @return boolean
// * @since 1.21
// */
// public static function isWellFormedLanguageTag(code, lenient = false) {
// alpha = '[a-z]';
// digit = '[0-9]';
// alphanum = '[a-z0-9]';
// x = 'x'; # private use singleton
// singleton = '[a-wy-z]'; # other singleton
// s = lenient ? '[-_]' : '-';
//
// language = "alpha{2,8}|alpha{2,3}salpha{3}";
// script = "alpha{4}"; # ISO 15924
// region = "(?:alpha{2}|digit{3})"; # ISO 3166-1 alpha-2 or UN M.49
// variant = "(?:alphanum{5,8}|digitalphanum{3})";
// extension = "singleton(?:salphanum{2,8})+";
// privateUse = "x(?:salphanum{1,8})+";
//
// # Define certain grandfathered codes, since otherwise the regex is pretty useless.
// # Since these are limited, this is safe even later changes to the registry --
// # the only oddity is that it might change the type of the tag, and thus
// # the results from the capturing groups.
// # https://www.iana.org/assignments/language-subtag-registry
//
// grandfathered = "en{s}GB{s}oed"
// . "|i{s}(?:ami|bnn|default|enochian|hak|klingon|lux|mingo|navajo|pwn|tao|tay|tsu)"
// . "|no{s}(?:bok|nyn)"
// . "|sgn{s}(?:BE{s}(?:fr|nl)|CH{s}de)"
// . "|zh{s}min{s}nan";
//
// variantList = "variant(?:svariant)*";
// extensionList = "extension(?:sextension)*";
//
// langtag = "(?:(language)"
// . "(?:sscript)?"
// . "(?:sregion)?"
// . "(?:svariantList)?"
// . "(?:sextensionList)?"
// . "(?:sprivateUse)?)";
//
// # The final breakdown, with capturing groups for each of these components
// # The variants, extensions, grandfathered, and private-use may have interior '-'
//
// root = "^(?:langtag|privateUse|grandfathered)";
//
// return (boolean)preg_match("/root/", strtolower(code));
// }
//
// /**
// * Returns true if a language code String is of a valid form, whether or
// * not it exists. This includes codes which are used solely for
// * customisation via the MediaWiki namespace.
// *
// * @param String code
// *
// * @return boolean
// */
// public static function isValidCode(code) {
// static cache = [];
// if (!isset(cache[code])) {
// // People think language codes are html safe, so enforce it.
// // Ideally we should only allow a-zA-Z0-9-
// // but, .+ and other chars are often used for {{int:}} hacks
// // see bugs T39564, T39587, T38938
// cache[code] =
// // Protect against path traversal
// strcspn(code, ":/\\\000&<>'\"") == strlen(code)
// && !preg_match(MediaWikiTitleCodec::getTitleInvalidRegex(), code);
// }
// return cache[code];
// }
/**
* Returns true if a language code is of a valid form for the purposes of
* @gplx.Internal protected customisation of MediaWiki, via Messages*.php or *.json.
*
* @param String code
*
* @throws MWException
* @since 1.18
* @return boolean
*/
public static boolean isValidBuiltInCode(String code) {
if (!XophpString_.is_string(code)) {
// if (XophpObject.is_object(code)) {
// addmsg = " of class " . get_class(code);
// } else {
// addmsg = "";
// }
// type = gettype(code);
String addmsg = "";
String type = "";
throw XomwMWException.New_by_method(XomwLanguage.class, "isValidBuildInCode", " must be passed a String, " + type + " given " + addmsg);
}
return XophpRegex_.preg_match_bool(Regx_adp_.new_("^[a-z0-9-]{2,}"), code, null, 0, 0);
}
//
// /**
// * Returns true if a language code is an IETF tag known to MediaWiki.
// *
// * @param String tag
// *
// * @since 1.21
// * @return boolean
// */
// public static function isKnownLanguageTag(tag) {
// // Quick escape for invalid input to avoid exceptions down the line
// // when code tries to process tags which are not valid at all.
// if (!XomwLanguage.isValidBuiltInCode(tag)) {
// return false;
// }
//
// if (isset(MediaWiki\Languages\Data\Names::names[tag])
// || XomwLanguage.fetchLanguageName(tag, tag) != ''
// ) {
// return true;
// }
//
// return false;
// }
/**
* Get the LocalisationCache instance
*
* @return LocalisationCache
*/
public static XomwLocalisationCache getLocalisationCache() {
// if (is_null(XomwLanguage.dataCache)) {
// global wgLocalisationCacheConf;
// class = wgLocalisationCacheConf['class'];
// XomwLanguage.dataCache = new class(wgLocalisationCacheConf);
// }
return XomwLanguage.dataCache;
}
// function __construct() {
// this.mConverter = new FakeConverter(this);
// // Set the code to the name of the descendant
// if (get_class(this) == 'Language') {
// this.mCode = 'en';
// } else {
// this.mCode = str_replace('_', '-', strtolower(substr(get_class(this), 8)));
// }
// XomwLanguage.getLocalisationCache();
// }
public XomwLanguage(Xol_lang_itm xoLang) {
this.xoLang = xoLang;
this.mCode = xoLang.Key_str();
}
// /**
// * Reduce memory usage
// */
// function __destruct() {
// foreach (this as name => value) {
// unset(this.name);
// }
// }
//
// /**
// * Hook which will be called if this is the content language.
// * Descendants can use this to register hook functions or modify globals
// */
// function initContLang() {
// }
//
// /**
// * @return array
// * @since 1.19
// */
// public function getFallbackLanguages() {
// return XomwLanguage.getFallbacksFor(this.mCode);
// }
//
// /**
// * Exports wgBookstoreListEn
// * @return array
// */
// public function getBookstoreList() {
// return XomwLanguage.dataCache.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
*/
public XomwNamespacesById getNamespaces() {
if (this.namespaceNames == null) {
// global wgMetaNamespace, wgMetaNamespaceTalk, wgExtraNamespaces;
//
XomwNamespacesById validNamespaces = XomwNamespace.getCanonicalNamespaces();
//
// this.namespaceNames = wgExtraNamespaces +
// XomwLanguage.dataCache.getItem(this.mCode, 'namespaceNames');
// this.namespaceNames += validNamespaces;
this.namespaceNames = validNamespaces;
// this.namespaceNames[NS_PROJECT] = wgMetaNamespace;
// if (wgMetaNamespaceTalk) {
// this.namespaceNames[NS_PROJECT_TALK] = wgMetaNamespaceTalk;
// } 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);
//
// Hooks::run('LanguageGetNamespaces', [ &this.namespaceNames ]);
}
return this.namespaceNames;
}
// /**
// * Arbitrarily set all of the namespace names at once. Mainly used for testing
// * @param array namespaces Array of namespaces (id => name)
// */
// public function setNamespaces(array namespaces) {
// this.namespaceNames = namespaces;
// this.mNamespaceIds = null;
// }
//
// /**
// * Resets all of the namespace caches. Mainly used for testing
// */
// 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 array
// */
// public function getFormattedNamespaces() {
// ns = this.getNamespaces();
// foreach (ns as k => v) {
// ns[k] = strtr(v, '_', ' ');
// }
// return ns;
// }
/**
* Get a namespace value by key
*
* <code>
* mw_ns = wgContLang.getNsText(NS_MEDIAWIKI);
* echo mw_ns; // prints 'MediaWiki'
* </code>
*
* @param int index The array key of the namespace to return
* @return String|boolean String if the namespace value exists, otherwise false
*/
public byte[] getNsText(int index) {
XomwNamespacesById nsHash = this.getNamespaces();
return nsHash.GetNameOrNull(index);
}
// /**
// * A convenience function that returns the same thing as
// * getNsText() except with '_' changed to ' ', useful for
// * producing output.
// *
// * <code>
// * mw_ns = wgContLang.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 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
// * @since 1.18
// */
// public function getGenderNsText(index, gender) {
// global wgExtraGenderNamespaces;
//
// ns = wgExtraGenderNamespaces +
// (array)XomwLanguage.dataCache.getItem(this.mCode, 'namespaceGenderAliases');
//
// return isset(ns[index][gender]) ? ns[index][gender] : this.getNsText(index);
// }
//
// /**
// * Whether this language uses gender-dependent namespace aliases.
// * See https://www.mediawiki.org/wiki/Manual:wgExtraGenderNamespaces
// * @return boolean
// * @since 1.18
// */
// public function needsGenderDistinction() {
// global wgExtraGenderNamespaces, wgExtraNamespaces;
// if (count(wgExtraGenderNamespaces) > 0) {
// // wgExtraGenderNamespaces overrides everything
// return true;
// } elseif (isset(wgExtraNamespaces[NS_USER]) && isset(wgExtraNamespaces[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 = XomwLanguage.dataCache.getItem(this.mCode, 'namespaceGenderAliases');
// return count(aliases) > 0;
// }
// }
//
// /**
// * Get a namespace key by value, case insensitive.
// * Only matches namespace names for the current language, not the
// * canonical ones defined in Namespace.php.
// *
// * @param String text
// * @return int|boolean An integer if text is a valid value otherwise false
// */
// function getLocalNsIndex(text) {
// lctext = this.lc(text);
// ids = this.getNamespaceIds();
// return isset(ids[lctext]) ? ids[lctext] : false;
// }
/**
* @return array
*/
public XomwNamespacesByName getNamespaceAliases() {
if (this.namespaceAliases == null) {
// XO.MW: MW uses two sets: "aliases" + "convertedNames" and then combines them; XO just uses one
this.namespaceAliases = new XomwNamespacesByName();
// aliases = XomwLanguage.dataCache.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;
// }
// }
// }
//
// global wgExtraGenderNamespaces;
// genders = wgExtraGenderNamespaces +
// (array)XomwLanguage.dataCache.getItem(this.mCode, 'namespaceGenderAliases');
// foreach (genders as index => forms) {
// foreach (forms as alias) {
// aliases[alias] = index;
// }
// }
// Also add converted namespace names as aliases, to avoid confusion.
// convertedNames = [];
// foreach (this.getVariants() as variant) {
// if (variant == this.mCode) {
// continue;
// }
// foreach (this.getNamespaces() as ns => _) {
// convertedNames[this.getConverter().convertNamespace(ns, variant)] = ns;
// }
// }
//
// this.namespaceAliases = aliases + convertedNames;
}
return this.namespaceAliases;
}
/**
* @return array
*/
public XomwNamespacesByName 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 = new XomwNamespacesByName();
XomwNamespacesById getNamespacesHash = this.getNamespaces();
int len = getNamespacesHash.Len();
for (int i = 0; i < len; i++) {
XomwNamespaceItem item = (XomwNamespaceItem)getNamespacesHash.GetAtOrNull(i);
this.mNamespaceIds.Add(this.lc(item.name), item);
}
XomwNamespacesByName getNamespaceAliasesHash = this.getNamespaceAliases();
len = getNamespaceAliasesHash.Len();
for (int i = 0; i < len; i++) {
XomwNamespaceItem item = (XomwNamespaceItem)getNamespaceAliasesHash.GetAtOrNull(i);
this.mNamespaceIds.Add(this.lc(item.name), item);
}
XomwNamespacesByName wgNamespaceAliases = XomwSetup.wgNamespaceAliases;
len = wgNamespaceAliases.Len();
for (int i = 0; i < len; i++) {
XomwNamespaceItem item = (XomwNamespaceItem)wgNamespaceAliases.GetAtOrNull(i);
this.mNamespaceIds.Add(this.lc(item.name), item);
}
}
return this.mNamespaceIds;
}
/**
* Get a namespace key by value, case insensitive. Canonical namespace
* @Override names custom ones defined for the current language.
*
* @param String text
* @return int|boolean An integer if text is a valid value otherwise false
*/
public int getNsIndex(byte[] text) {
byte[] lctext = this.lc(text);
int ns = XomwNamespace.getCanonicalIndex(lctext);
if (ns != XomwNamespace.NULL_NS_ID) {
return ns;
}
XomwNamespacesByName ids = this.getNamespaceIds();
return ids.GetAsIdOrNullInt(lctext);
}
// /**
// * short names for language variants used for language conversion links.
// *
// * @param String code
// * @param boolean usemsg Use the "variantname-xyz" message if it exists
// * @return String
// */
// public function getVariantname(code, usemsg = true) {
// msg = "variantname-code";
// if (usemsg && wfMessage(msg).exists()) {
// return this.getMessageFromDB(msg);
// }
// name = XomwLanguage.fetchLanguageName(code);
// if (name) {
// return name; # if it's defined as a language name, show that
// } else {
// # otherwise, output the language code
// return code;
// }
// }
//
// /**
// * @return array
// */
// public function getDatePreferences() {
// return XomwLanguage.dataCache.getItem(this.mCode, 'datePreferences');
// }
//
// /**
// * @return array
// */
// function getDateFormats() {
// return XomwLanguage.dataCache.getItem(this.mCode, 'dateFormats');
// }
//
// /**
// * @return array|String
// */
// public function getDefaultDateFormat() {
// df = XomwLanguage.dataCache.getItem(this.mCode, 'defaultDateFormat');
// if (df == 'dmy or mdy') {
// global wgAmericanDates;
// return wgAmericanDates ? 'mdy' : 'dmy';
// } else {
// return df;
// }
// }
//
// /**
// * @return array
// */
// public function getDatePreferenceMigrationMap() {
// return XomwLanguage.dataCache.getItem(this.mCode, 'datePreferenceMigrationMap');
// }
//
// /**
// * @param String image
// * @return array|null
// */
// function getImageFile(image) {
// return XomwLanguage.dataCache.getSubitem(this.mCode, 'imageFiles', image);
// }
//
// /**
// * @return array
// * @since 1.24
// */
// public function getImageFiles() {
// return XomwLanguage.dataCache.getItem(this.mCode, 'imageFiles');
// }
//
// /**
// * @return array
// */
// public function getExtraUserToggles() {
// return (array)XomwLanguage.dataCache.getItem(this.mCode, 'extraUserToggles');
// }
//
// /**
// * @param String tog
// * @return String
// */
// function getUserToggle(tog) {
// return this.getMessageFromDB("tog-tog");
// }
//
// /**
// * Get an array of language names, indexed by code.
// * @param null|String inLanguage Code of language in which to return the names
// * Use null for autonyms (native names)
// * @param String include One of:
// * 'all' all available languages
// * 'mw' only if the language is defined in MediaWiki or wgExtraLanguageNames (default)
// * 'mwfile' only if the language is in 'mw' *and* has a message file
// * @return array Language code => language name
// * @since 1.20
// */
// public static function fetchLanguageNames(inLanguage = null, include = 'mw') {
// cacheKey = inLanguage == null ? 'null' : inLanguage;
// cacheKey .= ":include";
// if (XomwLanguage.languageNameCache == null) {
// XomwLanguage.languageNameCache = new HashBagOStuff([ 'maxKeys' => 20 ]);
// }
//
// ret = XomwLanguage.languageNameCache.get(cacheKey);
// if (!ret) {
// ret = XomwLanguage.fetchLanguageNamesUncached(inLanguage, include);
// XomwLanguage.languageNameCache.set(cacheKey, ret);
// }
// return ret;
// }
//
// /**
// * Uncached helper for fetchLanguageNames
// * @param null|String inLanguage Code of language in which to return the names
// * Use null for autonyms (native names)
// * @param String include One of:
// * 'all' all available languages
// * 'mw' only if the language is defined in MediaWiki or wgExtraLanguageNames (default)
// * 'mwfile' only if the language is in 'mw' *and* has a message file
// * @return array Language code => language name
// */
// private static function fetchLanguageNamesUncached(inLanguage = null, include = 'mw') {
// global wgExtraLanguageNames;
//
// // If passed an invalid language code to use, fallback to en
// if (inLanguage != null && !XomwLanguage.isValidCode(inLanguage)) {
// inLanguage = 'en';
// }
//
// names = [];
//
// if (inLanguage) {
// # TODO: also include when inLanguage is null, when this code is more efficient
// Hooks::run('LanguageGetTranslatedLanguageNames', [ &names, inLanguage ]);
// }
//
// mwNames = wgExtraLanguageNames + MediaWiki\Languages\Data\Names::names;
// foreach (mwNames as mwCode => mwName) {
// # - Prefer own MediaWiki native name when not using the hook
// # - For other names just add if not added through the hook
// if (mwCode == inLanguage || !isset(names[mwCode])) {
// names[mwCode] = mwName;
// }
// }
//
// if (include == 'all') {
// ksort(names);
// return names;
// }
//
// returnMw = [];
// coreCodes = array_keys(mwNames);
// foreach (coreCodes as coreCode) {
// returnMw[coreCode] = names[coreCode];
// }
//
// if (include == 'mwfile') {
// namesMwFile = [];
// # We do this using a foreach over the codes instead of a directory
// # loop so that messages files in extensions will work correctly.
// foreach (returnMw as code => value) {
// if (is_readable(XomwLanguage.getMessagesFileName(code))
// || is_readable(XomwLanguage.getJsonMessagesFileName(code))
// ) {
// namesMwFile[code] = names[code];
// }
// }
//
// ksort(namesMwFile);
// return namesMwFile;
// }
//
// ksort(returnMw);
// # 'mw' option; default if it's not one of the other two options (all/mwfile)
// return returnMw;
// }
//
// /**
// * @param String code The code of the language for which to get the name
// * @param null|String inLanguage Code of language in which to return the name (null for autonyms)
// * @param String include 'all', 'mw' or 'mwfile'; see fetchLanguageNames()
// * @return String Language name or empty
// * @since 1.20
// */
// public static function fetchLanguageName(code, inLanguage = null, include = 'all') {
// code = strtolower(code);
// array = XomwLanguage.fetchLanguageNames(inLanguage, include);
// return !array_key_exists(code, array) ? '' : array[code];
// }
//
// /**
// * Get a message from the MediaWiki namespace.
// *
// * @param String msg Message name
// * @return String
// */
// public function getMessageFromDB(msg) {
// return this.msg(msg).text();
// }
//
// /**
// * Get message Object in this language. Only for use inside this class.
// *
// * @param String msg Message name
// * @return Message
// */
// protected function msg(msg) {
// return wfMessage(msg).inLanguage(this);
// }
//
// /**
// * @param String key
// * @return String
// */
// public function getMonthName(key) {
// return this.getMessageFromDB(XomwLanguage.mMonthMsgs[key - 1]);
// }
//
// /**
// * @return array
// */
// public function getMonthNamesArray() {
// monthNames = [ '' ];
// for (i = 1; i < 13; i++) {
// monthNames[] = this.getMonthName(i);
// }
// return monthNames;
// }
//
// /**
// * @param String key
// * @return String
// */
// public function getMonthNameGen(key) {
// return this.getMessageFromDB(XomwLanguage.mMonthGenMsgs[key - 1]);
// }
//
// /**
// * @param String key
// * @return String
// */
// public function getMonthAbbreviation(key) {
// return this.getMessageFromDB(XomwLanguage.mMonthAbbrevMsgs[key - 1]);
// }
//
// /**
// * @return array
// */
// public function getMonthAbbreviationsArray() {
// monthNames = [ '' ];
// for (i = 1; i < 13; i++) {
// monthNames[] = this.getMonthAbbreviation(i);
// }
// return monthNames;
// }
//
// /**
// * @param String key
// * @return String
// */
// public function getWeekdayName(key) {
// return this.getMessageFromDB(XomwLanguage.mWeekdayMsgs[key - 1]);
// }
//
// /**
// * @param String key
// * @return String
// */
// function getWeekdayAbbreviation(key) {
// return this.getMessageFromDB(XomwLanguage.mWeekdayAbbrevMsgs[key - 1]);
// }
//
// /**
// * @param String key
// * @return String
// */
// function getIranianCalendarMonthName(key) {
// return this.getMessageFromDB(XomwLanguage.mIranianCalendarMonthMsgs[key - 1]);
// }
//
// /**
// * @param String key
// * @return String
// */
// function getHebrewCalendarMonthName(key) {
// return this.getMessageFromDB(XomwLanguage.mHebrewCalendarMonthMsgs[key - 1]);
// }
//
// /**
// * @param String key
// * @return String
// */
// function getHebrewCalendarMonthNameGen(key) {
// return this.getMessageFromDB(XomwLanguage.mHebrewCalendarMonthGenMsgs[key - 1]);
// }
//
// /**
// * @param String key
// * @return String
// */
// function getHijriCalendarMonthName(key) {
// return this.getMessageFromDB(XomwLanguage.mHijriCalendarMonthMsgs[key - 1]);
// }
//
// /**
// * Pass through result from dateTimeObj.format()
// * @param DateTime|boolean|null &dateTimeObj
// * @param String ts
// * @param DateTimeZone|boolean|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 zone Timezone of ts
// * @param[out] int 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?
// *
// * @throws MWException
// * @return String
// */
// public function sprintfDate(format, ts, DateTimeZone zone = null, &ttl = 'unused') {
// 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 MWException(__METHOD__ . ": The timestamp ts should have 14 characters");
// }
//
// if (!ctype_digit(ts)) {
// throw new MWException(__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(substr(ts, 4, 2));
// break;
// case 'xjx':
// usedHebrewMonth = true;
// if (!hebrew) {
// hebrew = XomwLanguage.tsToHebrew(ts);
// }
// s .= this.getHebrewCalendarMonthNameGen(hebrew[1]);
// break;
// case 'd':
// usedDay = true;
// num = substr(ts, 6, 2);
// break;
// case 'D':
// usedDay = true;
// s .= this.getWeekdayAbbreviation(
// XomwLanguage.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 = XomwLanguage.tsToIranian(ts);
// }
// num = iranian[2];
// break;
// case 'xmj':
// usedDay = true;
// if (!hijri) {
// hijri = XomwLanguage.tsToHijri(ts);
// }
// num = hijri[2];
// break;
// case 'xjj':
// usedDay = true;
// if (!hebrew) {
// hebrew = XomwLanguage.tsToHebrew(ts);
// }
// num = hebrew[2];
// break;
// case 'l':
// usedDay = true;
// s .= this.getWeekdayName(
// XomwLanguage.dateTimeObjFormat(dateTimeObj, ts, zone, 'w') + 1
// );
// break;
// case 'F':
// usedMonth = true;
// s .= this.getMonthName(substr(ts, 4, 2));
// break;
// case 'xiF':
// usedIranianMonth = true;
// if (!iranian) {
// iranian = XomwLanguage.tsToIranian(ts);
// }
// s .= this.getIranianCalendarMonthName(iranian[1]);
// break;
// case 'xmF':
// usedHijriMonth = true;
// if (!hijri) {
// hijri = XomwLanguage.tsToHijri(ts);
// }
// s .= this.getHijriCalendarMonthName(hijri[1]);
// break;
// case 'xjF':
// usedHebrewMonth = true;
// if (!hebrew) {
// hebrew = XomwLanguage.tsToHebrew(ts);
// }
// s .= this.getHebrewCalendarMonthName(hebrew[1]);
// break;
// case 'm':
// usedMonth = true;
// num = substr(ts, 4, 2);
// break;
// case 'M':
// usedMonth = true;
// s .= this.getMonthAbbreviation(substr(ts, 4, 2));
// break;
// case 'n':
// usedMonth = true;
// num = intval(substr(ts, 4, 2));
// break;
// case 'xin':
// usedIranianMonth = true;
// if (!iranian) {
// iranian = XomwLanguage.tsToIranian(ts);
// }
// num = iranian[1];
// break;
// case 'xmn':
// usedHijriMonth = true;
// if (!hijri) {
// hijri = XomwLanguage.tsToHijri(ts);
// }
// num = hijri[1];
// break;
// case 'xjn':
// usedHebrewMonth = true;
// if (!hebrew) {
// hebrew = XomwLanguage.tsToHebrew(ts);
// }
// num = hebrew[1];
// break;
// case 'xjt':
// usedHebrewMonth = true;
// if (!hebrew) {
// hebrew = XomwLanguage.tsToHebrew(ts);
// }
// num = hebrew[3];
// break;
// case 'Y':
// usedYear = true;
// num = substr(ts, 0, 4);
// break;
// case 'xiY':
// usedIranianYear = true;
// if (!iranian) {
// iranian = XomwLanguage.tsToIranian(ts);
// }
// num = iranian[0];
// break;
// case 'xmY':
// usedHijriYear = true;
// if (!hijri) {
// hijri = XomwLanguage.tsToHijri(ts);
// }
// num = hijri[0];
// break;
// case 'xjY':
// usedHebrewYear = true;
// if (!hebrew) {
// hebrew = XomwLanguage.tsToHebrew(ts);
// }
// num = hebrew[0];
// break;
// case 'xkY':
// usedYear = true;
// if (!thai) {
// thai = XomwLanguage.tsToYear(ts, 'thai');
// }
// num = thai[0];
// break;
// case 'xoY':
// usedYear = true;
// if (!minguo) {
// minguo = XomwLanguage.tsToYear(ts, 'minguo');
// }
// num = minguo[0];
// break;
// case 'xtY':
// usedTennoYear = true;
// if (!tenno) {
// tenno = XomwLanguage.tsToYear(ts, 'tenno');
// }
// num = tenno[0];
// break;
// case 'y':
// usedYear = true;
// num = substr(ts, 2, 2);
// break;
// case 'xiy':
// usedIranianYear = true;
// if (!iranian) {
// iranian = XomwLanguage.tsToIranian(ts);
// }
// num = substr(iranian[0], -2);
// break;
// case 'xit':
// usedIranianYear = true;
// if (!iranian) {
// iranian = XomwLanguage.tsToIranian(ts);
// }
// num = XomwLanguage.IRANIAN_DAYS[iranian[1] - 1];
// break;
// case 'xiz':
// usedIranianYear = true;
// if (!iranian) {
// iranian = XomwLanguage.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 = substr(ts, 8, 2);
// num = h % 12 ? h % 12 : 12;
// break;
// case 'G':
// usedHour = true;
// num = intval(substr(ts, 8, 2));
// break;
// case 'h':
// usedHour = true;
// h = substr(ts, 8, 2);
// num = sprintf('%02d', h % 12 ? 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 .= XomwLanguage.dateTimeObjFormat(dateTimeObj, ts, zone, code);
// break;
// case 'w':
// case 'N':
// case 'z':
// usedDay = true;
// num = XomwLanguage.dateTimeObjFormat(dateTimeObj, ts, zone, code);
// break;
// case 'W':
// usedWeek = true;
// num = XomwLanguage.dateTimeObjFormat(dateTimeObj, ts, zone, code);
// break;
// case 't':
// usedMonth = true;
// num = XomwLanguage.dateTimeObjFormat(dateTimeObj, ts, zone, code);
// break;
// case 'L':
// usedIsLeapYear = true;
// num = XomwLanguage.dateTimeObjFormat(dateTimeObj, ts, zone, code);
// break;
// case 'o':
// usedISOYear = true;
// num = XomwLanguage.dateTimeObjFormat(dateTimeObj, ts, zone, code);
// break;
// case 'U':
// usedSecond = true;
// // fall through
// case 'I':
// case 'Z':
// num = XomwLanguage.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 end of String, assume literal "
// s .= '"';
// }
// break;
// default:
// s .= format[p];
// }
// if (num != false) {
// if (rawToggle || raw) {
// s .= num;
// raw = false;
// } elseif (roman) {
// s .= XomwLanguage.romanNumeral(num);
// roman = false;
// } elseif (hebrewNum) {
// s .= XomwLanguage.hebrewNumeral(num);
// hebrewNum = false;
// } else {
// s .= this.formatNum(num, true);
// }
// }
// }
//
// if (ttl == 'unused') {
// // No need to calculate the TTL, the caller wont use it anyway.
// } elseif (usedSecond) {
// ttl = 1;
// } elseif (usedMinute) {
// ttl = 60 - substr(ts, 12, 2);
// } elseif (usedHour) {
// ttl = 3600 - substr(ts, 10, 2) * 60 - substr(ts, 12, 2);
// } elseif (usedAMPM) {
// ttl = 43200 - (substr(ts, 8, 2) % 12) * 3600 -
// substr(ts, 10, 2) * 60 - 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 - substr(ts, 8, 2) * 3600 -
// substr(ts, 10, 2) * 60 - substr(ts, 12, 2);
// } else {
// possibleTtls = [];
// timeRemainingInDay = 86400 - substr(ts, 8, 2) * 3600 -
// substr(ts, 10, 2) * 60 - substr(ts, 12, 2);
// if (usedWeek) {
// possibleTtls[] =
// (7 - XomwLanguage.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 = DateTime::createFromFormat(
// 'Ymd',
// substr(ts, 0, 4) . '1228',
// zone ?: new DateTimeZone('UTC')
// ).format('W');
// currentISOWeek = XomwLanguage.dateTimeObjFormat(dateTimeObj, ts, zone, 'W');
// weeksRemaining = lastWeekOfISOYear - currentISOWeek;
// timeRemainingInWeek =
// (7 - XomwLanguage.dateTimeObjFormat(dateTimeObj, ts, zone, 'N')) * 86400
// + timeRemainingInDay;
// possibleTtls[] = weeksRemaining * 604800 + timeRemainingInWeek;
// }
//
// if (usedMonth) {
// possibleTtls[] =
// (XomwLanguage.dateTimeObjFormat(dateTimeObj, ts, zone, 't') -
// substr(ts, 6, 2)) * 86400
// + timeRemainingInDay;
// } elseif (usedYear) {
// possibleTtls[] =
// (XomwLanguage.dateTimeObjFormat(dateTimeObj, ts, zone, 'L') + 364 -
// XomwLanguage.dateTimeObjFormat(dateTimeObj, ts, zone, 'z')) * 86400
// + timeRemainingInDay;
// } elseif (usedIsLeapYear) {
// year = substr(ts, 0, 4);
// timeRemainingInYear =
// (XomwLanguage.dateTimeObjFormat(dateTimeObj, ts, zone, 'L') + 364 -
// XomwLanguage.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;
// }
//
// private static GREG_DAYS = [ 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 ];
// private static 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 = substr(ts, 0, 4) -1600;
// gm = substr(ts, 4, 2) -1;
// gd = 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 days of the past months of this year
// for (i = 0; i < gm; i++) {
// gDayNo += XomwLanguage.GREG_DAYS[i];
// }
//
// // Leap years
// if (gm > 1 && ((gy % 4 == 0 && gy % 100 != 0 || (gy % 400 == 0)))) {
// gDayNo++;
// }
//
// // Days passed in current month
// gDayNo += (int)gd;
//
// jDayNo = gDayNo - 79;
//
// jNp = floor(jDayNo / 12053);
// jDayNo %= 12053;
//
// jy = 979 + 33 * jNp + 4 * floor(jDayNo / 1461);
// jDayNo %= 1461;
//
// if (jDayNo >= 366) {
// jy += floor((jDayNo - 1) / 365);
// jDayNo = floor((jDayNo - 1) % 365);
// }
//
// jz = jDayNo;
//
// for (i = 0; i < 11 && jDayNo >= XomwLanguage.IRANIAN_DAYS[i]; i++) {
// jDayNo -= XomwLanguage.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 = substr(ts, 0, 4);
// month = substr(ts, 4, 2);
// day = 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 = substr(ts, 0, 4);
// month = substr(ts, 4, 2);
// day = 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 leap
// 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 = XomwLanguage.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 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 = XomwLanguage.hebrewYearStart(hebrewYear);
// } else {
// # Next year's start
// nextStart = XomwLanguage.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) {
// # Adar in a leap year
// if (isLeap) {
// # 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 String
// */
// private static function hebrewYearStart(year) {
// a = intval((12 * (year - 1) + 17) % 19);
// b = intval((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 = intval((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
// * https://en.wikipedia.org/wiki/Japanese_era_name
// *
// * @param String ts 14-character timestamp
// * @param String cName Calender name
// * @return array Converted year, month, day
// */
// private static function tsToYear(ts, cName) {
// gy = substr(ts, 0, 4);
// gm = substr(ts, 4, 2);
// gd = substr(ts, 6, 2);
//
// if (!strcmp(cName, 'thai')) {
// # Thai solar dates
// # Add 543 years to the Gregorian calendar
// # Months and days are identical
// gy_offset = gy + 543;
// } elseif ((!strcmp(cName, 'minguo')) || !strcmp(cName, 'juche')) {
// # Minguo dates
// # Deduct 1911 years from the Gregorian calendar
// # Months and days are identical
// gy_offset = gy - 1911;
// } elseif (!strcmp(cName, 'tenno')) {
// # Nengo dates up to Meiji period
// # Deduct years from the Gregorian calendar
// # depending on the nengo periods
// # Months and days are identical
// if ((gy < 1912)
// || ((gy == 1912) && (gm < 7))
// || ((gy == 1912) && (gm == 7) && (gd < 31))
// ) {
// # Meiji period
// gy_gannen = gy - 1868 + 1;
// gy_offset = gy_gannen;
// if (gy_gannen == 1) {
// gy_offset = '?';
// }
// gy_offset = '??' . gy_offset;
// } elseif (
// ((gy == 1912) && (gm == 7) && (gd == 31)) ||
// ((gy == 1912) && (gm >= 8)) ||
// ((gy > 1912) && (gy < 1926)) ||
// ((gy == 1926) && (gm < 12)) ||
// ((gy == 1926) && (gm == 12) && (gd < 26))
// ) {
// # Taisho period
// gy_gannen = gy - 1912 + 1;
// gy_offset = gy_gannen;
// if (gy_gannen == 1) {
// gy_offset = '?';
// }
// gy_offset = '??' . gy_offset;
// } elseif (
// ((gy == 1926) && (gm == 12) && (gd >= 26)) ||
// ((gy > 1926) && (gy < 1989)) ||
// ((gy == 1989) && (gm == 1) && (gd < 8))
// ) {
// # Showa period
// gy_gannen = gy - 1926 + 1;
// gy_offset = gy_gannen;
// if (gy_gannen == 1) {
// gy_offset = '?';
// }
// gy_offset = '??' . gy_offset;
// } else {
// # Heisei period
// gy_gannen = gy - 1989 + 1;
// gy_offset = gy_gannen;
// if (gy_gannen == 1) {
// gy_offset = '?';
// }
// gy_offset = '??' . gy_offset;
// }
// } else {
// gy_offset = gy;
// }
//
// return [ gy_offset, gm, gd ];
// }
//
// /**
// * Gets directionality of the first strongly directional codepoint, for embedBidi()
// *
// * This is the rule the BIDI algorithm uses to determine the directionality of
// * paragraphs (http://unicode.org/reports/tr9/#The_Paragraph_Level) and
// * FSI isolates (http://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(XomwLanguage.strongDirRegex, text, matches)) {
// return null;
// }
// if (matches[1] == '') {
// return 'rtl';
// }
// return 'ltr';
// }
//
// /**
// * Roman number formatting up to 10000
// *
// * @param int num
// *
// * @return String
// */
// 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 num;
// }
//
// s = '';
// for (pow10 = 1000, i = 3; i >= 0; pow10 /= 10, i--) {
// if (num >= pow10) {
// s .= table[i][(int)floor(num / pow10)];
// }
// num = num % pow10;
// }
// return s;
// }
//
// /**
// * Hebrew Gematria number formatting up to 9999
// *
// * @param int num
// *
// * @return String
// */
// static function hebrewNumeral(num) {
// static table = [
// [ '', '?', '?', '?', '?', '?', '?', '?', '?', '?', '?' ],
// [ '', '?', '?', '?', '?', '?', '?', '?', '?', '?', '?' ],
// [ '',
// [ '?' ],
// [ '?' ],
// [ '?' ],
// [ '?' ],
// [ '?', '?' ],
// [ '?', '?' ],
// [ '?', '?' ],
// [ '?', '?' ],
// [ '?', '?', '?' ],
// [ '?', '?', '?' ],
// ],
// [ '', '?', '?', '?', '?', '?', '?', '?', '?', '?', '?' ]
// ];
//
// num = intval(num);
// if (num > 9999 || num <= 0) {
// return num;
// }
//
// // Round thousands have special notations
// if (num == 1000) {
// return "?' ???";
// } elseif (num % 1000 == 0) {
// return table[0][num / 1000] . "' ?????";
// }
//
// 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 = num % pow10;
// }
//
// preTransformLength = count(letters);
// if (preTransformLength == 1) {
// // Add geresh (single quote) to one-letter numbers
// letters[] = "'";
// } else {
// lastIndex = preTransformLength - 1;
// letters[lastIndex] = str_replace(
// [ '?', '?', '?', '?', '?' ],
// [ '?', '?', '?', '?', '?' ],
// letters[lastIndex]
// );
//
// // 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 mixed tz Adjust the time by this amount (default false, mean we
// * get user timecorrection setting)
// * @return int
// */
// public function userAdjust(ts, tz = false) {
// global wgUser, wgLocalTZoffset;
//
// if (tz == false) {
// tz = wgUser.getOption('timecorrection');
// }
//
// data = explode('|', tz, 3);
//
// if (data[0] == 'ZoneInfo') {
// try {
// userTZ = new DateTimeZone(data[2]);
// date = new DateTime(ts, new DateTimeZone('UTC'));
// date.setTimezone(userTZ);
// return date.format('YmdHis');
// } catch (Exception e) {
// // Unrecognized timezone, default to 'Offset' with the stored offset.
// data[0] = 'Offset';
// }
// }
//
// if (data[0] == 'System' || tz == '') {
// # Global offset in minutes.
// minDiff = wgLocalTZoffset;
// } elseif (data[0] == 'Offset') {
// minDiff = intval(data[1]);
// } else {
// data = explode(':', tz);
// if (count(data) == 2) {
// data[0] = intval(data[0]);
// data[1] = intval(data[1]);
// minDiff = abs(data[0]) * 60 + data[1];
// if (data[0] < 0) {
// minDiff = -minDiff;
// }
// } else {
// minDiff = intval(data[0]) * 60;
// }
// }
//
// # No difference ? Return time unchanged
// if (0 == minDiff) {
// return ts;
// }
//
// MediaWiki\suppressWarnings(); // E_STRICT system time bitching
// # Generate an adjusted date; take advantage of the fact that mktime
// # will normalize out-of-range values so we don't have to split minDiff
// # into hours and minutes.
// t = mktime((
// (int)substr(ts, 8, 2)), # Hours
// (int)substr(ts, 10, 2) + minDiff, # Minutes
// (int)substr(ts, 12, 2), # Seconds
// (int)substr(ts, 4, 2), # Month
// (int)substr(ts, 6, 2), # Day
// (int)substr(ts, 0, 4)); # Year
//
// date = date('YmdHis', t);
// MediaWiki\restoreWarnings();
//
// return date;
// }
//
// /**
// * 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.
// *
// *<code>
// * function timeanddate([...], format = true) {
// * datePreference = this.dateFormat(format);
// * [...]
// * }
// *</code>
// *
// * @param int|String|boolean 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
// */
// function dateFormat(usePrefs = true) {
// global wgUser;
//
// if (is_bool(usePrefs)) {
// if (usePrefs) {
// datePreference = wgUser.getDatePreference();
// } else {
// datePreference = (String)User::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 May be '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
// */
// function getDateFormatString(type, pref) {
// wasDefault = false;
// if (pref == 'default') {
// wasDefault = true;
// pref = this.getDefaultDateFormat();
// }
//
// if (!isset(this.dateFormatStrings[type][pref])) {
// df = XomwLanguage.dataCache.getSubitem(this.mCode, 'dateFormats', "pref type");
//
// if (type == 'pretty' && df == null) {
// df = this.getDateFormatString('date', pref);
// }
//
// if (!wasDefault && df == null) {
// pref = this.getDefaultDateFormat();
// df = XomwLanguage.dataCache.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 boolean 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|boolean 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 boolean 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|boolean 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 boolean adj Whether to adjust the time output according to the
// * user configured offset (timecorrection)
// * @param mixed format What format to return, if it's false output the
// * default one (default true)
// * @param String|boolean 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 amount 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 = wfMessage('duration-' . intervalName).numParams(intervalValue);
// segments[] = message.inLanguage(this).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 amount of seconds.
// * @param array chosenIntervals The intervals to enable.
// *
// * @return array
// */
// public function getDurationIntervals(seconds, array chosenIntervals = []) {
// if (empty(chosenIntervals)) {
// chosenIntervals = [
// 'millennia',
// 'centuries',
// 'decades',
// 'years',
// 'days',
// 'hours',
// 'minutes',
// 'seconds'
// ];
// }
//
// intervals = array_intersect_key(XomwLanguage.durationIntervals, array_flip(chosenIntervals));
// sortedNames = array_keys(intervals);
// smallestInterval = array_pop(sortedNames);
//
// segments = [];
//
// foreach (intervals as name => length) {
// value = floor(seconds / length);
//
// if (value > 0 || (name == smallestInterval && empty(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 User user User Object 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, User user, array options) {
// ts = wfTimestamp(TS_MW, ts);
// options += [ 'timecorrection' => true, 'format' => true ];
// if (options['timecorrection'] != false) {
// if (options['timecorrection'] == true) {
// offset = user.getOption('timecorrection');
// } else {
// offset = options['timecorrection'];
// }
// ts = this.userAdjust(ts, offset);
// }
// if (options['format'] == true) {
// format = 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 User user User Object 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, User 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 User user User Object 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, User 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 User user User Object 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, User 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 method existed but was not meant to be used directly)
// *
// * @param MWTimestamp time
// * @param MWTimestamp|null relativeTo The super timestamp to compare to (defaults to now)
// * @param User|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, User user = null
// ) {
// if (relativeTo == null) {
// relativeTo = new MWTimestamp();
// }
// if (user == null) {
// user = RequestContext::getMain().getUser();
// }
//
// // Adjust for the user's timezone.
// offsetThis = time.offsetForUser(user);
// offsetRel = relativeTo.offsetForUser(user);
//
// ts = '';
// if (Hooks::run('GetHumanTimestamp', [ &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 super time.
// *
// * @see XomwLanguage.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 = (boolean)((int)ts.timestamp.format('w') -
// (int)relativeTo.timestamp.format('w'));
// days = diff.days ?: (int)diffDay;
// if (diff.invert || days > 5
// && ts.timestamp.format('Y') != relativeTo.timestamp.format('Y')
// ) {
// // Timestamps are in different years: use full timestamp
// // Also do full timestamp for future dates
// /**
// * @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) {
// // Timestamps are in same year, but 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 week: show the day of the week and time
// format = this.getDateFormatString('time', user.getDatePreference() ?: 'default');
// weekday = XomwLanguage.mWeekdayMsgs[ts.timestamp.format('w')];
// // Messages:
// // sunday-at, monday-at, tuesday-at, wednesday-at, thursday-at, friday-at, saturday-at
// ts = wfMessage("weekday-at")
// .inLanguage(this)
// .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 = wfMessage('yesterday-at')
// .inLanguage(this)
// .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 = wfMessage('today-at')
// .inLanguage(this)
// .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 = wfMessage('hours-ago').inLanguage(this).numParams(1).text();
// } elseif (diff.i >= 1) {
// // A few minutes ago.
// ts = wfMessage('minutes-ago').inLanguage(this).numParams(diff.i).text();
// } elseif (diff.s >= 30) {
// // Less than a minute, but more than 30 sec ago.
// ts = wfMessage('seconds-ago').inLanguage(this).numParams(diff.s).text();
// } else {
// // Less than 30 seconds ago.
// ts = wfMessage('just-now').text();
// }
//
// return ts;
// }
//
// /**
// * @param String key
// * @return String|null
// */
// public function getMessage(key) {
// return XomwLanguage.dataCache.getSubitem(this.mCode, 'messages', key);
// }
//
// /**
// * @return array
// */
// function getAllMessages() {
// return XomwLanguage.dataCache.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
// MediaWiki\suppressWarnings();
// text = iconv(in, out . '//IGNORE', String);
// MediaWiki\restoreWarnings();
// return text;
// }
//
// // callback functions for ucwords(), ucwordbreaks()
//
// /**
// * @param array matches
// * @return mixed|String
// */
// function ucwordbreaksCallbackAscii(matches) {
// return this.ucfirst(matches[1]);
// }
//
// /**
// * @param array matches
// * @return String
// */
// function ucwordbreaksCallbackMB(matches) {
// return mb_strtoupper(matches[0]);
// }
//
// /**
// * @param array matches
// * @return String
// */
// function ucwordsCallbackMB(matches) {
// return mb_strtoupper(matches[0]);
// }
//
// /**
// * Make a String's first character uppercase
// *
// * @param String str
// *
// * @return String
// */
// public function ucfirst(str) {
// o = ord(str);
// if (o < 96) { // if already uppercase...
// return str;
// } elseif (o < 128) {
// return ucfirst(str); // use PHP's ucfirst()
// } else {
// // fall back to more complex logic in case of multibyte strings
// return this.uc(str, true);
// }
// }
//
// /**
// * Convert a String to uppercase
// *
// * @param String str
// * @param boolean first
// *
// * @return String
// */
// public function uc(str, first = false) {
// if (first) {
// if (this.isMultibyte(str)) {
// return mb_strtoupper(mb_substr(str, 0, 1)) . mb_substr(str, 1);
// } else {
// return ucfirst(str);
// }
// } else {
// return this.isMultibyte(str) ? mb_strtoupper(str) : strtoupper(str);
// }
// }
//
// /**
// * @param String str
// * @return mixed|String
// */
// function lcfirst(str) {
// o = ord(str);
// if (!o) {
// return strval(str);
// } elseif (o >= 128) {
// return this.lc(str, true);
// } elseif (o > 96) {
// return str;
// } else {
// str[0] = strtolower(str[0]);
// return str;
// }
// }
/**
* @param String str
* @param boolean first
* @return mixed|String
*/
public byte[] lc(byte[] str) {return lc(str, false);}
public byte[] lc(byte[] str, boolean first) {
return first
? xoLang.Case_mgr().Case_build_1st_lower(tmpBfr, str, 0, str.length)
: xoLang.Case_mgr().Case_build_lower (str, 0, str.length);
// XO.MW:PORTED
// if (first) {
// if (this.isMultibyte(str)) {
// return mb_strtolower(mb_substr(str, 0, 1)) . mb_substr(str, 1);
// } else {
// return strtolower(substr(str, 0, 1)) . substr(str, 1);
// }
// } else {
// return this.isMultibyte(str) ? mb_strtolower(str) : strtolower(str);
// }
}
// /**
// * @param String str
// * @return boolean
// */
// function isMultibyte(str) {
// return strlen(str) != mb_strlen(str);
// }
//
// /**
// * @param String str
// * @return mixed|String
// */
// function ucwords(str) {
// if (this.isMultibyte(str)) {
// str = this.lc(str);
//
// // regexp to find 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,
// [ this, 'ucwordsCallbackMB' ],
// str
// );
// } else {
// return ucwords(strtolower(str));
// }
// }
//
// /**
// * capitalize words at word breaks
// *
// * @param String str
// * @return mixed
// */
// function ucwordbreaks(str) {
// if (this.isMultibyte(str)) {
// str = this.lc(str);
//
// // since \b doesn't work for UTF-8, we explicitely define word break chars
// breaks = "[ \-\(\)\}\{\.,\?!]";
//
// // find first letter after word break
// replaceRegexp = "/^([a-z]|[\\xc0-\\xff][\\x80-\\xbf]*)|" .
// "breaks([a-z]|[\\xc0-\\xff][\\x80-\\xbf]*)/";
//
// return preg_replace_callback(
// replaceRegexp,
// [ this, 'ucwordbreaksCallbackMB' ],
// str
// );
// } else {
// return preg_replace_callback(
// '/\b([\w\x80-\xff]+)\b/',
// [ this, 'ucwordbreaksCallbackAscii' ],
// 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
// */
// function caseFold(s) {
// return this.uc(s);
// }
//
// /**
// * @param String s
// * @return String
// * @throws MWException
// */
// function checkTitleEncoding(s) {
// if (is_array(s)) {
// throw new MWException('Given array to checkTitleEncoding.');
// }
// if (StringUtils::isUtf8(s)) {
// return s;
// }
//
// return this.iconv(this.fallback8bitEncoding(), 'utf-8', s);
// }
//
// /**
// * @return array
// */
// function fallback8bitEncoding() {
// return XomwLanguage.dataCache.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 boolean
// */
// 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
// */
// function segmentByWord(String) {
// return String;
// }
//
// /**
// * Some languages have special punctuation need to be normalized.
// * Make such changes here.
// *
// * @param String String
// * @return String
// */
// function normalizeForSearch(String) {
// return XomwLanguage.convertDoubleWidth(String);
// }
//
// /**
// * convert double-width roman characters to single-width.
// * range: ff00-ff5f ~= 0020-007f
// *
// * @param String String
// *
// * @return String
// */
// protected static function convertDoubleWidth(String) {
// static full = null;
// static half = null;
//
// if (full == null) {
// fullWidth = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz";
// halfWidth = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz";
// full = str_split(fullWidth, 3);
// half = str_split(halfWidth);
// }
//
// String = str_replace(full, half, String);
// return String;
// }
//
// /**
// * @param String String
// * @param String pattern
// * @return String
// */
// protected static function insertSpace(String, pattern) {
// String = preg_replace(pattern, " 1 ", String);
// String = preg_replace('/ +/', ' ', String);
// return String;
// }
//
// /**
// * @param array termsArray
// * @return array
// */
// 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
// */
// function firstChar(s) {
// matches = [];
// preg_match(
// '/^([\x00-\x7f]|[\xc0-\xdf][\x80-\xbf]|' .
// '[\xe0-\xef][\x80-\xbf]{2}|[\xf0-\xf7][\x80-\xbf]{3})/',
// s,
// matches
// );
//
// if (isset(matches[1])) {
// if (strlen(matches[1]) != 3) {
// return matches[1];
// }
//
// // Break down Hangul syllables to grab the first jamo
// code = UtfNormal\Utils::utf8ToCodepoint(matches[1]);
// if (code < 0xac00 || 0xd7a4 <= code) {
// return matches[1];
// } elseif (code < 0xb098) {
// return "\xe3\x84\xb1";
// } elseif (code < 0xb2e4) {
// return "\xe3\x84\xb4";
// } elseif (code < 0xb77c) {
// return "\xe3\x84\xb7";
// } elseif (code < 0xb9c8) {
// return "\xe3\x84\xb9";
// } elseif (code < 0xbc14) {
// return "\xe3\x85\x81";
// } elseif (code < 0xc0ac) {
// return "\xe3\x85\x82";
// } elseif (code < 0xc544) {
// return "\xe3\x85\x85";
// } elseif (code < 0xc790) {
// return "\xe3\x85\x87";
// } elseif (code < 0xcc28) {
// return "\xe3\x85\x88";
// } elseif (code < 0xce74) {
// return "\xe3\x85\x8a";
// } elseif (code < 0xd0c0) {
// return "\xe3\x85\x8b";
// } elseif (code < 0xd30c) {
// return "\xe3\x85\x8c";
// } elseif (code < 0xd558) {
// return "\xe3\x85\x8d";
// } else {
// return "\xe3\x85\x8e";
// }
// } else {
// return '';
// }
// }
//
// /**
// * @deprecated No-op since 1.28
// */
// function initEncoding() {
// // No-op.
// }
//
// /**
// * @param String s
// * @return String
// * @deprecated No-op since 1.28
// */
// function recodeForEdit(s) {
// return s;
// }
//
// /**
// * @param String s
// * @return String
// * @deprecated No-op since 1.28
// */
// function recodeInput(s) {
// return s;
// }
//
// /**
// * 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.
// *
// * This is language-specific for performance reasons only.
// *
// * @param String s
// *
// * @return String
// */
// function normalize(s) {
// global wgAllUnicodeFixes;
// s = UtfNormal\Validator::cleanUp(s);
// if (wgAllUnicodeFixes) {
// s = this.transformUsingPairFile('normalize-ar.ser', s);
// s = this.transformUsingPairFile('normalize-ml.ser', 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. This will go faster if you have the
// * FastStringSearch extension.
// *
// * @param String file
// * @param String String
// *
// * @throws MWException
// * @return String
// */
// function transformUsingPairFile(file, String) {
// if (!isset(this.transformData[file])) {
// data = wfGetPrecompiledData(file);
// if (data == false) {
// throw new MWException(__METHOD__ . ": The transformation file file is missing");
// }
// this.transformData[file] = new ReplacementArray(data);
// }
// return this.transformData[file].replace(String);
// }
//
// /**
// * For right-to-left language support
// *
// * @return boolean
// */
// function isRTL() {
// return XomwLanguage.dataCache.getItem(this.mCode, 'rtl');
// }
//
// /**
// * Return the correct HTML 'dir' attribute value for this language.
// * @return String
// */
// 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
// */
// 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
// */
// 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 boolean opposite Get the direction mark opposite to your language
// * @return String
// * @since 1.20
// */
// function getDirMarkEntity(opposite = false) {
// if (opposite) {
// return this.isRTL() ? '&lrm;' : '&rlm;';
// }
// return this.isRTL() ? '&rlm;' : '&lrm;';
// }
//
// /**
// * 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 boolean opposite Get the direction mark opposite to your language
// * @return String
// */
// function getDirMark(opposite = false) {
// lrm = "\xE2\x80\x8E"; # LEFT-TO-RIGHT MARK, commonly abbreviated LRM
// rlm = "\xE2\x80\x8F"; # RIGHT-TO-LEFT MARK, commonly abbreviated RLM
// if (opposite) {
// return this.isRTL() ? lrm : rlm;
// }
// return this.isRTL() ? rlm : lrm;
// }
//
// /**
// * @return array
// */
// function capitalizeAllNouns() {
// return XomwLanguage.dataCache.getItem(this.mCode, 'capitalizeAllNouns');
// }
//
// /**
// * An arrow, depending on the language direction.
// *
// * @param String direction The direction of the arrow: forwards (default),
// * backwards, left, right, up, down.
// * @return String
// */
// 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 boolean
// */
// function linkPrefixExtension() {
// return XomwLanguage.dataCache.getItem(this.mCode, 'linkPrefixExtension');
// }
//
// /**
// * Get all magic words from cache.
// * @return array
// */
// function getMagicWords() {
// return XomwLanguage.dataCache.getItem(this.mCode, 'magicWords');
// }
//
// /**
// * Run the LanguageGetMagic hook once.
// */
// protected function doMagicHook() {
// if (this.mMagicHookDone) {
// return;
// }
// this.mMagicHookDone = true;
// Hooks::run('LanguageGetMagic', [ &this.mMagicExtensions, this.getCode() ]);
// }
//
// /**
// * Fill a MagicWord Object with data from here
// *
// * @param MagicWord mw
// */
// function getMagic(mw) {
// // Saves a function call
// if (!this.mMagicHookDone) {
// this.doMagicHook();
// }
//
// if (isset(this.mMagicExtensions[mw.mId])) {
// rawEntry = this.mMagicExtensions[mw.mId];
// } else {
// rawEntry = XomwLanguage.dataCache.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);
// }
// }
//
// /**
// * Add magic words to the extension array
// *
// * @param array newWords
// */
// function addMagicWordsByLang(newWords) {
// fallbackChain = this.getFallbackLanguages();
// fallbackChain = array_reverse(fallbackChain);
// foreach (fallbackChain as code) {
// if (isset(newWords[code])) {
// this.mMagicExtensions = newWords[code] + this.mMagicExtensions;
// }
// }
// }
//
// /**
// * Get special page names, as an associative array
// * canonical name => array of valid names, including aliases
// * @return array
// */
// function getSpecialPageAliases() {
// // Cache aliases because it may be slow to load them
// if (is_null(this.mExtendedSpecialPageAliases)) {
// // Initialise array
// this.mExtendedSpecialPageAliases =
// XomwLanguage.dataCache.getItem(this.mCode, 'specialPageAliases');
// Hooks::run('LanguageGetSpecialPageAliases',
// [ &this.mExtendedSpecialPageAliases, this.getCode() ]);
// }
//
// return this.mExtendedSpecialPageAliases;
// }
//
// /**
// * Italic is unsuitable for some languages
// *
// * @param String text The text to be emphasized.
// * @return String
// */
// function emphasize(text) {
// return "<em>text</em>";
// }
/**
* Normally we output all numbers in plain en_US style, that is
* 293,291.235 for twohundredninetythreethousand-twohundredninetyone
* point twohundredthirtyfive. However this is not suitable for all
* languages, some such as Bengali (bn) want ?,??,???.??? 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.
*
* @todo check if it's viable to use localeconv() for the decimal separator thing.
* @param int|float number The String to be formatted, should be an integer
* or a floating point number.
* @param boolean nocommafy Set to true for special numbers like dates
* @return String
*/
// DFLT:nocommafy=false
public byte[] formatNum(byte[] number) {return formatNum(number, false);}
public byte[] formatNum(byte[] number, boolean nocommafy) {
if (!nocommafy) {
// XOMW: use earlier port
// number = this.commafy(number);
// s = this.separatorTransformTable();
// if (s) {
// number = strtr(number, s);
// }
return xoLang.Num_mgr().Format_num(number, nocommafy);
}
if (XomwDefaultSettings.wgTranslateNumerals) {
// s = this.digitTransformTable();
// if (s) {
// number = strtr(number, s);
// }
}
return number;
}
// /**
// * Front-end for non-commafied formatNum
// *
// * @param 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.formatNum(number, true);
// }
//
// /**
// * @param String number
// * @return String
// */
// public function parseFormattedNumber(number) {
// s = this.digitTransformTable();
// if (s) {
// // eliminate empty array values such as ''. (bug 64347)
// s = array_filter(s);
// number = strtr(number, array_flip(s));
// }
//
// s = this.separatorTransformTable();
// if (s) {
// // eliminate empty array values such as ''. (bug 64347)
// s = array_filter(s);
// number = strtr(number, array_flip(s));
// }
//
// number = strtr(number, [ ',' => '' ]);
// return number;
// }
/**
* Adds commas to a given number
* @since 1.19
* @param mixed number
* @return String
*/
private static byte[] DIGIT_GROUPING_PATTERN_MILLION = Bry_.new_a7("###,###,###");
public byte[] commafy(byte[] number) {
// ignore nulls
if (number == null) {
return Bry_.Empty;
}
// get number vars
int numberLen = number.length;
int integerBgn = 0;
// check for negative; note that MW casts String to number and checks if less than 0
boolean negative = false;
if (numberLen > 0 && number[0] == Byte_ascii.Dash) {
negative = true;
integerBgn = 1;
}
// get integer, decimal pos
int integerEnd = -1, decimalBgn = -1;
boolean decimalExists = false;
for (int i = integerBgn; i < numberLen; i++) {
switch (number[i]) {
// update integerEnd / decimalEnd
case Byte_ascii.Num_0: case Byte_ascii.Num_1: case Byte_ascii.Num_2: case Byte_ascii.Num_3: case Byte_ascii.Num_4:
case Byte_ascii.Num_5: case Byte_ascii.Num_6: case Byte_ascii.Num_7: case Byte_ascii.Num_8: case Byte_ascii.Num_9:
if (decimalExists) {
}
else {
integerEnd = i + 1;
}
break;
// switch to decimalMode
case Byte_ascii.Dot:
decimalExists = true;
decimalBgn = i;
i = numberLen; // break loop
break;
}
}
int integerLen = integerEnd - integerBgn;
if (digitGroupingPattern == null || Bry_.Eq(digitGroupingPattern, DIGIT_GROUPING_PATTERN_MILLION)) {
// default grouping is at thousands, use the same for ###,###,### pattern too.
// return strrev((String)preg_replace('/(\d{3})(?=\d)(?!\d*\.)/', '1,', strrev(number)));
if (negative)
tmp_commafy.Add_byte(Byte_ascii.Dash);
// calculate seg before 1st comma
int seg_0 = (integerLen) % 3;
if (seg_0 == 0 // handle 3x digit; EX: "123", "123456"
&& integerLen > 0) // ignore numbers with no integer portion; EX: ".123"
seg_0 = 3; // set seg_0 to 3
// print digits before 1st comma; EX: 12345 . "12"
if (seg_0 > 0) {
tmp_commafy.Add_mid(number, integerBgn, integerBgn + seg_0);
integerBgn = integerBgn + seg_0;
}
// print digits in groups of 3; add comma to start
for (int i = integerBgn; i < integerEnd; i += 3) {
tmp_commafy.Add_byte_comma();
tmp_commafy.Add_mid(number, i, i + 3);
}
// print decimal portion if it exists
if (decimalExists)
tmp_commafy.Add_mid(number, decimalBgn, number.length);
return tmp_commafy.To_bry_and_clear();
}
else {
// Ref: http://cldr.unicode.org/translation/number-patterns
// EX: MessagesHi.php; "##,##,###";
// NOTE: this entire block follows MW approach and prints number from right-to-left
// XOMW.REGEX: rewritten b/c of multiple preg_match
// preg_match("/\d+/", number, integerPart);
// preg_match("/\.\d*/", number, decimalPart);
// decimal exists; add it first
if (decimalBgn != -1)
tmp_commafy.Add_reverse_mid(number, decimalBgn, numberLen);
// no integer portion; exit
if (integerBgn == -1) {
// the String does not have any number part. Eg: .12345
return number;
}
// init vars for digitGroupingPattern
int numMatches = 0;
int digitGroupingPatternLen = digitGroupingPattern.length;
tmp_matches.Clear();
// parse digitGroupingPattern for groups of "#"; EX: "##,###" . 0,2; 3,6
Int_2_ref match = null;
boolean matchContinued = false;
for (int i = 0; i < digitGroupingPatternLen; i++) {
if (digitGroupingPattern[i] == Byte_ascii.Hash) {
if (matchContinued) {
match.Val_1_(i + 1);
}
else {
match = new Int_2_ref(i, i + 1);
tmp_matches.Add(match);
numMatches++;
matchContinued = true;
}
}
else {
matchContinued = false;
}
}
// set start and end; note that they default to integerEnd
int start = -1, end = -1;
start = end = integerEnd != -1 ? integerEnd : 0;
while (start > integerBgn) {
// get rightmost grouping of "#" from digitGroupingPattern
Int_2_ref curMatch = (Int_2_ref)tmp_matches.Get_at(numMatches - 1);
int matchLen = curMatch.Val_1() - curMatch.Val_0();
// calc start / end positions based on matchLen
start = end - matchLen;
if (start < integerBgn) {
start = integerBgn;
}
// add number
tmp_commafy.Add_reverse_mid(number, start, end);
end = start;
if (numMatches > 1) {
// use the last pattern for the rest of the number
numMatches--;
}
// add comma if more digits still available
if (start > integerBgn) {
tmp_commafy.Add_byte(Byte_ascii.Comma);
}
}
// add negative if exists
if (negative)
tmp_commafy.Add_byte(Byte_ascii.Dash);
return tmp_commafy.To_reversed_bry_and_clear();
}
}
public void setDigitGroupingPattern(byte[] v) {
this.digitGroupingPattern = v;
}
// /**
// * @return array
// */
// function digitTransformTable() {
// return XomwLanguage.dataCache.getItem(this.mCode, 'digitTransformTable');
// }
/**
* @return array
*/
// private byte[][] separatorTransformTable() {
// return XomwLanguage.dataCache.getItem(this.mCode, 'separatorTransformTable');
// }
// /**
// * 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".
// * NOTE: This function will only work with standard numeric array keys (0, 1, 2…)
// *
// * @param String[] l
// * @return String
// */
// function listToText(array l) {
// m = count(l) - 1;
// if (m < 0) {
// return '';
// }
// if (m > 0) {
// and = this.msg('and').escaped();
// space = this.msg('word-separator').escaped();
// if (m > 1) {
// comma = this.msg('comma-separator').escaped();
// }
// }
// s = l[m];
// for (i = m - 1; i >= 0; i--) {
// if (i == m - 1) {
// s = l[i] . and . space . s;
// } else {
// s = l[i] . comma . s;
// }
// }
// return s;
// }
//
// /**
// * 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
// * @return String
// */
// function commaList(array list) {
// return implode(
// wfMessage('comma-separator').inLanguage(this).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
// * @return String
// */
// function semicolonList(array list) {
// return implode(
// wfMessage('semicolon-separator').inLanguage(this).escaped(),
// list
// );
// }
//
// /**
// * Same as commaList, but separate it with the pipe instead.
// * @param String[] list Array of strings to put in a pipe list
// * @return String
// */
// function pipeList(array list) {
// return implode(
// wfMessage('pipe-separator').inLanguage(this).escaped(),
// list
// );
// }
//
// /**
// * Truncate a String to a specified length in bytes, appending an optional
// * String (e.g. for ellipses)
// *
// * The database offers limited byte lengths for some columns in the database;
// * multi-byte character sets mean we need to ensure that only whole characters
// * are included, otherwise broken characters can be passed to the user
// *
// * If length is negative, the String will be truncated from the beginning
// *
// * @param String String String to truncate
// * @param int length Maximum length (including ellipses)
// * @param String ellipsis String to append to the truncated text
// * @param boolean adjustLength Subtract length of ellipsis from length.
// * adjustLength was introduced in 1.18, before that behaved as if false.
// * @return String
// */
// function truncate(String, length, ellipsis = '...', adjustLength = true) {
// # Use the localized ellipsis character
// if (ellipsis == '...') {
// ellipsis = wfMessage('ellipsis').inLanguage(this).escaped();
// }
// # Check if there is no need to truncate
// if (length == 0) {
// return ellipsis; // convention
// } elseif (strlen(String) <= abs(length)) {
// return String; // no need to truncate
// }
// stringOriginal = String;
// # If ellipsis length is >= length then we can't apply adjustLength
// if (adjustLength && strlen(ellipsis) >= abs(length)) {
// String = ellipsis; // this can be slightly unexpected
// # Otherwise, truncate and add ellipsis...
// } else {
// eLength = adjustLength ? strlen(ellipsis) : 0;
// if (length > 0) {
// length -= eLength;
// String = substr(String, 0, length); // xyz...
// String = this.removeBadCharLast(String);
// String = rtrim(String);
// String = String . ellipsis;
// } else {
// length += eLength;
// String = substr(String, length); // ...xyz
// String = this.removeBadCharFirst(String);
// String = ltrim(String);
// String = ellipsis . String;
// }
// }
// # Do not truncate if the ellipsis makes the String longer/equal (bug 22181).
// # 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 (strlen(String) < strlen(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;
// }
//
// /**
// * Remove bytes that represent an incomplete Unicode character
// * at the start of String (e.g. bytes of the char are missing)
// *
// * @param String String
// * @return String
// */
// protected function removeBadCharFirst(String) {
// if (String != '') {
// char = ord(String[0]);
// if (char >= 0x80 && char < 0xc0) {
// # We chopped in the middle of a character; remove the whole thing
// String = preg_replace('/^[\x80-\xbf]+/', '', String);
// }
// }
// 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>, were 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 length (including ellipses)
// * @param String ellipsis String to append to the truncated text
// * @return String
// */
// function truncateHtml(text, length, ellipsis = '...') {
// # Use the localized ellipsis character
// if (ellipsis == '...') {
// ellipsis = wfMessage('ellipsis').inLanguage(this).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 legth so far
// testingEllipsis = false; // checking if ellipses will make 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 maximim.
// # 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)) {
// # String in fact does need truncation, the truncation point was OK.
// list(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 above checks
// }
//
// # 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 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. "&#160;")
// } 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, text[textLen - 1], tagType, 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) {
// len = -1; // -1 means "no limit" for strcspn
// } elseif (len < 0) {
// len = 0; // sanity
// }
// 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
// */
// function convertGrammar(word, case) {
// global wgGrammarForms;
// if (isset(wgGrammarForms[this.getCode()][case][word])) {
// return wgGrammarForms[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 (array_values(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
// */
// function getGrammarForms() {
// global wgGrammarForms;
// if (isset(wgGrammarForms[this.getCode()])
// && is_array(wgGrammarForms[this.getCode()])
// ) {
// return wgGrammarForms[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.
// * @throws MWException
// * @since 1.28
// */
// public function getGrammarTransformations() {
// languageCode = this.getCode();
//
// if (XomwLanguage.grammarTransformations == null) {
// XomwLanguage.grammarTransformations = new MapCacheLRU(10);
// }
//
// if (XomwLanguage.grammarTransformations.has(languageCode)) {
// return XomwLanguage.grammarTransformations.get(languageCode);
// }
//
// data = [];
//
// grammarDataFile = __DIR__ . "/data/grammarTransformations/languageCode.json";
// if (is_readable(grammarDataFile)) {
// data = FormatJson::decode(
// file_get_contents(grammarDataFile),
// true
// );
//
// if (data == null) {
// throw new MWException("Invalid grammar data for \"languageCode\".");
// }
//
// XomwLanguage.grammarTransformations.set(languageCode, data);
// }
//
// return data;
// }
//
// /**
// * Provides an alternative text depending on specified gender.
// * Usage {{gender:username|masculine|feminine|unknown}}.
// * username is optional, in which case the gender of current user is used,
// * but only in (some) interface messages; otherwise 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
// */
// 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 isset(forms[2]) ? forms[2] : forms[0];
// }
/**
* Plural form transformations, needed for some languages.
* For example, there are 3 form 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 String convertPlural(String count, XophpArray forms) {
// Handle explicit n=pluralform cases
Object formsObject = this.handleExplicitPluralForms(count, forms);
if (XophpString_.is_string(formsObject)) {
return (String)formsObject;
}
forms = (XophpArray)formsObject;
if (!forms.Count_bool()) {
return "";
}
int pluralForm = this.getPluralRuleIndexNumber(count);
pluralForm = XophpMath.min(pluralForm, forms.Count() - 1);
return forms.Get_at_str(pluralForm);
}
/**
* Handles explicit plural forms for XomwLanguage.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
* String value returned, otherwise array returned for further consideration
* by CLDR rules or overridden convertPlural().
*
* @since 1.23
*
* @param int count Non-localized number
* @param array forms Different plural forms
*
* @return array|String
*/
public Object handleExplicitPluralForms(String count, XophpArray forms) {
XophpArray mutable = forms.Clone();
int len = forms.Len();
for (int i = 0; i < len; i++) {
XophpArrayItm formItem = forms.Get_at_itm(i);
String index = formItem.Key();
String form = (String)formItem.Val();
if (XophpRegex_.preg_match_bool(handleExplicitPluralForms_digits, XophpRegex_.MODIFIER_i, form)) {
int pos = XophpString_.strpos(form, "=");
if (String_.Eq(XophpString_.substr(form, 0, pos), count)) {
return XophpString_.substr(form, pos + 1);
}
mutable.Unset(index);
}
}
return XophpArrayUtl.array_values(mutable);
}
private static final Regx_adp handleExplicitPluralForms_digits = Regx_adp_.new_("\\d+=");
// /**
// * Checks that convertPlural was given an array and pads it to requested
// * amount of forms by copying the last one.
// *
// * @param array forms Array of forms given to convertPlural
// * @param int count How many forms should there be at least
// * @return array Padded array of forms or an exception if not an array
// */
// protected function preConvertPlural(/* Array */ forms, count) {
// while (count(forms) < count) {
// forms[] = forms[count(forms) - 1];
// }
// return 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 = XomwLanguage.strongDirFromContent(text);
// if (dir == 'ltr') {
// // Wrap in LEFT-TO-RIGHT EMBEDDING ... POP DIRECTIONAL FORMATTING
// return XomwLanguage.lre . text . XomwLanguage.pdf;
// }
// if (dir == 'rtl') {
// // Wrap in RIGHT-TO-LEFT EMBEDDING ... POP DIRECTIONAL FORMATTING
// return XomwLanguage.rle . text . XomwLanguage.pdf;
// }
// // No strong directionality: do not wrap
// return text;
// }
//
// /**
// * @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 User user User Object to use timezone from or null for wgUser
// * @param int now Current timestamp, for formatting relative block durations
// * @return String Somehow translated block duration
// * @see LanguageFi.php for example implementation
// */
// function translateBlockExpiry(str, User user = null, now = 0) {
// duration = SpecialBlock::getSuggestedDurations(this);
// foreach (duration as show => value) {
// if (strcmp(str, value) == 0) {
// return htmlspecialchars(trim(show));
// }
// }
//
// if (wfIsInfinity(str)) {
// foreach (duration as show => value) {
// if (wfIsInfinity(value)) {
// return htmlspecialchars(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 it's a duration length.
// return this.formatDuration(time);
// } 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;
// }
//
// /**
// * Return the LanguageConverter used in the Language
// *
// * @since 1.19
// * @return LanguageConverter
// */
// public function getConverter() {
// return this.mConverter;
// }
//
// /**
// * convert text to all supported variants
// *
// * @param String text
// * @return array
// */
// public function autoConvertToAllVariants(text) {
// return this.mConverter.autoConvertToAllVariants(text);
// }
//
// /**
// * convert text to different variants of a language.
// *
// * @param String text
// * @return String
// */
// public function convert(text) {
// return this.mConverter.convert(text);
// }
//
// /**
// * Convert a Title Object to a String in the preferred variant
// *
// * @param Title title
// * @return String
// */
// public function convertTitle(title) {
// return this.mConverter.convertTitle(title);
// }
//
// /**
// * Convert a namespace index to a String in the preferred variant
// *
// * @param int ns
// * @return String
// */
// public function convertNamespace(ns) {
// return this.mConverter.convertNamespace(ns);
// }
//
// /**
// * Check if this is a language with variants
// *
// * @return boolean
// */
// public function hasVariants() {
// return count(this.getVariants()) > 1;
// }
//
// /**
// * Check if the language has the specific variant
// *
// * @since 1.19
// * @param String variant
// * @return boolean
// */
// public function hasVariant(variant) {
// return (boolean)this.mConverter.validateVariant(variant);
// }
//
// /**
// * Perform output conversion on a String, and encode for safe HTML output.
// * @param String text Text to be converted
// * @param boolean isTitle Whether this conversion is for the article title
// * @return String
// * @todo this should get integrated somewhere sane
// */
// public function convertHtml(text, isTitle = false) {
// return htmlspecialchars(this.convert(text, isTitle));
// }
//
// /**
// * @param String key
// * @return String
// */
// public function convertCategoryKey(key) {
// return this.mConverter.convertCategoryKey(key);
// }
//
// /**
// * Get the list of variants supported by this language
// * see sample implementation in LanguageZh.php
// *
// * @return array An array of language codes
// */
// public function getVariants() {
// return this.mConverter.getVariants();
// }
//
// /**
// * @return String
// */
// public function getPreferredVariant() {
// return this.mConverter.getPreferredVariant();
// }
//
// /**
// * @return String
// */
// public function getDefaultVariant() {
// return this.mConverter.getDefaultVariant();
// }
//
// /**
// * @return String
// */
// public function getURLVariant() {
// return this.mConverter.getURLVariant();
// }
//
// /**
// * If a language supports multiple variants, it is
// * possible that non-existing link in one variant
// * actually exists in another variant. this function
// * tries to find it. See e.g. LanguageZh.php
// * The input parameters may be modified upon return
// *
// * @param String &link The name of the link
// * @param Title &nt The title Object of the link
// * @param boolean ignoreOtherCond To disable other conditions when
// * we need to transclude a template or update a category's link
// */
// public function findVariantLink(&link, &nt, ignoreOtherCond = false) {
// this.mConverter.findVariantLink(link, nt, ignoreOtherCond);
// }
//
// /**
// * returns language specific options used by User::getPageRenderHash()
// * for example, the preferred language variant
// *
// * @return String
// */
// function getExtraHashOptions() {
// return this.mConverter.getExtraHashOptions();
// }
//
// /**
// * For languages that support multiple variants, the title of an
// * article may be displayed differently in different variants. this
// * function returns the apporiate title defined in the body of the article.
// *
// * @return String
// */
// public function getParsedTitle() {
// return this.mConverter.getParsedTitle();
// }
//
// /**
// * Refresh the cache of conversion tables when
// * MediaWiki:Conversiontable* is updated.
// *
// * @param Title title The Title of the page being updated
// */
// public function updateConversionTable(Title title) {
// this.mConverter.updateConversionTable(title);
// }
//
// /**
// * Prepare external link text for conversion. When the text is
// * a URL, it shouldn't be converted, and it'll be wrapped in
// * the "raw" tag (-{R| }-) to prevent conversion.
// *
// * This function is called "markNoConversion" for historical
// * reasons.
// *
// * @param String text Text to be used for external link
// * @param boolean noParse Wrap it without confirming it's a real URL first
// * @return String The tagged text
// */
// public function markNoConversion(text, noParse = false) {
// // Excluding protocal-relative URLs may avoid many false positives.
// if (noParse || preg_match('/^(?:' . wfUrlProtocolsWithoutProtRel() . ')/', text)) {
// return this.mConverter.markNoConversion(text);
// } else {
// 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 XomwLanguage.dataCache.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 XomwLanguage.dataCache.getItem(this.mCode, 'linkPrefixCharset');
// }
//
// /**
// * Get the "parent" language which has a converter to convert a "compatible" language
// * (in another variant) to this language (eg. zh for zh-cn, but not en for en-gb).
// *
// * @return Language|null
// * @since 1.22
// */
// public function getParentLanguage() {
// if (this.mParentLanguage != false) {
// return this.mParentLanguage;
// }
//
// code = explode('-', this.getCode())[0];
// if (!in_array(code, LanguageConverter::languagesWithVariants)) {
// this.mParentLanguage = null;
// return null;
// }
// lang = XomwLanguage.factory(code);
// if (!lang.hasVariant(this.getCode())) {
// this.mParentLanguage = null;
// return null;
// }
//
// this.mParentLanguage = lang;
// return lang;
// }
//
// /**
// * Compare with an other language Object
// *
// * @since 1.28
// * @param Language lang
// * @return boolean
// */
// public function equals(Language lang) {
// return lang.getCode() == this.mCode;
// }
//
// /**
// * Get the @gplx.Internal protected 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 of 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() {
// if (is_null(this.mHtmlCode)) {
// this.mHtmlCode = wfBCP47(this.getCode());
// }
// return this.mHtmlCode;
// }
//
// /**
// * @param String code
// */
// public function setCode(code) {
// this.mCode = code;
// // Ensure we don't leave incorrect cached data lying around
// this.mHtmlCode = null;
// this.mParentLanguage = false;
// }
//
// /**
// * 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 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 code
// * @return String Name of the language class
// */
// public static function classFromCode(code) {
// if (code == 'en') {
// return 'Language';
// } else {
// return 'Language' . str_replace('-', '_', ucfirst(code));
// }
// }
//
// /**
// * Get the name of a file for a certain language code
// * @param String prefix Prepend this to the filename
// * @param String code Language code
// * @param String suffix Append this to the filename
// * @throws MWException
// * @return String prefix . mangledCode . suffix
// */
// public static function getFileName(prefix = 'Language', code, suffix = '.php') {
// if (!XomwLanguage.isValidBuiltInCode(code)) {
// throw new MWException("Invalid language code \"code\"");
// }
//
// return prefix . str_replace('-', '_', ucfirst(code)) . suffix;
// }
//
// /**
// * @param String code
// * @return String
// */
// public static function getMessagesFileName(code) {
// global IP;
// file = XomwLanguage.getFileName("IP/languages/messages/Messages", code, '.php');
// Hooks::run('XomwLanguage.getMessagesFileName', [ code, &file ]);
// return file;
// }
//
// /**
// * @param String code
// * @return String
// * @throws MWException
// * @since 1.23
// */
// public static function getJsonMessagesFileName(code) {
// global IP;
//
// if (!XomwLanguage.isValidBuiltInCode(code)) {
// throw new MWException("Invalid language code \"code\"");
// }
//
// return "IP/languages/i18n/code.json";
// }
/**
* Get the first fallback for a given language.
*
* @param String code
*
* @return boolean|String
*/
public static String getFallbackFor(String code) {
XophpArray fallbacks = XomwLanguage.getFallbacksFor(code);
if (XophpObject.is_true(fallbacks)) {
return fallbacks.Get_at_str(0);
}
return null;
}
/**
* Get the ordered list of fallback languages.
*
* @since 1.19
* @param String code Language code
* @return array Non-empty array, ending in "en"
*/
public static XophpArray getFallbacksFor(String code) {
if (code == "en" || !XomwLanguage.isValidBuiltInCode(code)) {
return XophpArray.New();
}
if (XomwLanguage.getLocalisationCache() == null) {
return null;
}
// For unknown languages, fallbackSequence returns an empty array,
// hardcode fallback to 'en' in that case.
Object rv = XomwLanguage.getLocalisationCache().getItem(code, "fallbackSequence");
return rv == null ? XophpArray.New().Add("en") : (XophpArray)rv;
}
// /**
// * Get the ordered list of fallback languages, ending with the fallback
// * language chain for the site language.
// *
// * @since 1.22
// * @param String code Language code
// * @return array Array(fallbacks, site fallbacks)
// */
// public static function getFallbacksIncludingSiteLanguage(code) {
// global wgLanguageCode;
//
// // Usually, we will only store a tiny number of fallback chains, so we
// // keep them in static memory.
// cacheKey = "{code}-{wgLanguageCode}";
//
// if (!array_key_exists(cacheKey, XomwLanguage.fallbackLanguageCache)) {
// fallbacks = XomwLanguage.getFallbacksFor(code);
//
// // Append the site's fallback chain, including the site language itself
// siteFallbacks = XomwLanguage.getFallbacksFor(wgLanguageCode);
// array_unshift(siteFallbacks, wgLanguageCode);
//
// // Eliminate any languages already included in the chain
// siteFallbacks = array_diff(siteFallbacks, fallbacks);
//
// XomwLanguage.fallbackLanguageCache[cacheKey] = [ fallbacks, siteFallbacks ];
// }
// return XomwLanguage.fallbackLanguageCache[cacheKey];
// }
//
// /**
// * Get all messages for a given language
// * WARNING: this may take a long time. If you just need all message *keys*
// * but need the *contents* of only a few messages, consider using getMessageKeysFor().
// *
// * @param String code
// *
// * @return array
// */
// public static function getMessagesFor(code) {
// return XomwLanguage.getLocalisationCache().getItem(code, 'messages');
// }
//
// /**
// * Get a message for a given language
// *
// * @param String key
// * @param String code
// *
// * @return String
// */
// public static function getMessageFor(key, code) {
// return XomwLanguage.getLocalisationCache().getSubitem(code, 'messages', key);
// }
//
// /**
// * Get all message keys for a given language. This is a faster alternative to
// * array_keys(XomwLanguage.getMessagesFor(code))
// *
// * @since 1.19
// * @param String code Language code
// * @return array Array of message keys (strings)
// */
// public static function getMessageKeysFor(code) {
// return XomwLanguage.getLocalisationCache().getSubitemList(code, 'messages');
// }
//
// /**
// * @param String talk
// * @return mixed
// */
// function fixVariableInNamespace(talk) {
// if (strpos(talk, '1') == false) {
// return talk;
// }
//
// global wgMetaNamespace;
// talk = str_replace('1', wgMetaNamespace, 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',
// [ &this, 'replaceGrammarInNamespace' ], talk);
// return str_replace(' ', '_', talk);
// }
//
// /**
// * @param String m
// * @return String
// */
// function replaceGrammarInNamespace(m) {
// return this.convertGrammar(trim(m[2]), trim(m[1]));
// }
//
// /**
// * Decode an expiry (block, protection, etc) which has come from the DB
// *
// * @param String expiry Database expiry String
// * @param boolean|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
// * @return String
// * @since 1.18
// */
// public function formatExpiry(expiry, format = true, infinity = 'infinity') {
// static dbInfinity;
// if (dbInfinity == null) {
// dbInfinity = wfGetDB(DB_SLAVE).getInfinity();
// }
//
// if (expiry == '' || expiry == 'infinity' || expiry == dbInfinity) {
// return format == true
// ? this.getMessageFromDB('infiniteblock')
// : infinity;
// } else {
// return format == true
// ? this.timeanddate(expiry, /* User preference timezone */ true)
// : 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'] == '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
// */
// 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 = wfMessage(
// format['noabbrevs'] ? 'seconds' : 'seconds-abbrev').inLanguage(this);
// minutesMsg = wfMessage(
// format['noabbrevs'] ? 'minutes' : 'minutes-abbrev').inLanguage(this);
// hoursMsg = wfMessage(
// format['noabbrevs'] ? 'hours' : 'hours-abbrev').inLanguage(this);
// daysMsg = wfMessage(
// format['noabbrevs'] ? 'days' : 'days-abbrev').inLanguage(this);
//
// 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 .= ' ';
// 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 .= ' ';
// s .= minutesMsg.params(this.formatNum(minutes)).text();
// if (!in_array(format['avoid'], [ 'avoidseconds', 'avoidminutes' ])) {
// s .= ' ' . secondsMsg.params(this.formatNum(secondsPart)).text();
// }
// } else {
// days = floor(seconds / 86400);
// if (format['avoid'] == 'avoidminutes') {
// hours = round((seconds - days * 86400) / 3600);
// if (hours == 24) {
// hours = 0;
// days++;
// }
// s = daysMsg.params(this.formatNum(days)).text();
// s .= ' ';
// 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 .= ' ';
// s .= hoursMsg.params(this.formatNum(hours)).text();
// s .= ' ';
// s .= minutesMsg.params(this.formatNum(minutes)).text();
// } else {
// s = daysMsg.params(this.formatNum(days)).text();
// s .= ' ';
// 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 or Ybps) according to
// * the magnitude in question.
// *
// * This use super 1000. For super 1024 use formatSize(), for another super
// * see formatComputingNumbers().
// *
// * @param int bps
// * @return String
// */
// function formatBitrate(bps) {
// 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 uesd
// * @return String
// */
// 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', 'zeta', 'yotta' ];
// 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 bigger 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 or YB) according to the magnitude in question
// *
// * This method use super 1024. For super 1000 use formatBitrate(), for
// * another super see formatComputingNumbers()
// *
// * @param int size Size to format
// * @return String Plain text (not HTML)
// */
// function formatSize(size) {
// 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 boolean oppositedm Add the direction mark opposite to your
// * language, to display text properly
// * @return HTML escaped String
// */
// 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();
// }
//
// /**
// * Generate (prev x| next x) (20|50|100...) type links for paging
// *
// * @param Title title Title Object to link
// * @param int offset
// * @param int limit
// * @param array query Optional URL query parameter String
// * @param boolean atend Optional param for specified if this is the last page
// * @return String
// */
// public function viewPrevNext(Title title, offset, limit,
// array query = [], atend = false
// ) {
// // @todo FIXME: Why on earth this needs one message for the text and another one for tooltip?
//
// # Make 'previous' link
// prev = wfMessage('prevn').inLanguage(this).title(title).numParams(limit).text();
// if (offset > 0) {
// plink = this.numLink(title, max(offset - limit, 0), limit,
// query, prev, 'prevn-title', 'mw-prevlink');
// } else {
// plink = htmlspecialchars(prev);
// }
//
// # Make 'next' link
// next = wfMessage('nextn').inLanguage(this).title(title).numParams(limit).text();
// if (atend) {
// nlink = htmlspecialchars(next);
// } else {
// nlink = this.numLink(title, offset + limit, limit,
// query, next, 'nextn-title', 'mw-nextlink');
// }
//
// # Make links to set number of items per page
// numLinks = [];
// foreach ([ 20, 50, 100, 250, 500 ] as num) {
// numLinks[] = this.numLink(title, offset, num,
// query, this.formatNum(num), 'shown-title', 'mw-numlink');
// }
//
// return wfMessage('viewprevnext').inLanguage(this).title(title
// ).rawParams(plink, nlink, this.pipeList(numLinks)).escaped();
// }
//
// /**
// * Helper function for viewPrevNext() that generates links
// *
// * @param Title title Title Object to link
// * @param int offset
// * @param int limit
// * @param array query Extra query parameters
// * @param String link Text to use for the link; will be escaped
// * @param String tooltipMsg Name of the message to use as tooltip
// * @param String class Value of the "class" attribute of the link
// * @return String HTML fragment
// */
// private function numLink(Title title, offset, limit, array query, link,
// tooltipMsg, class
// ) {
// query = [ 'limit' => limit, 'offset' => offset ] + query;
// tooltip = wfMessage(tooltipMsg).inLanguage(this).title(title)
// .numParams(limit).text();
//
// return Html::element('a', [ 'href' => title.getLocalURL(query),
// 'title' => tooltip, 'class' => class ], link);
// }
//
// /**
// * Get the conversion rule title, if any.
// *
// * @return String
// */
// public function getConvRuleTitle() {
// return this.mConverter.getConvRuleTitle();
// }
public static XomwLocalisationCacheForXowa dataCacheXowa = new XomwLocalisationCacheForXowa();
private final static XophpArray getCompiledPluralRulesEmpty = XophpArray.New();
// MW.SRC:1.33
/**
* Get the compiled plural rules for the language
* @since 1.20
* @return array Associative array with plural form, and plural rule as key-value pairs
*/
public XophpArray getCompiledPluralRules() {
XophpArray pluralRules = (XophpArray)XomwLanguage.dataCacheXowa.getItem_ary(XophpString_.strtolower(this.mCode), "compiledPluralRules");
if (pluralRules == null) return getCompiledPluralRulesEmpty;
XophpArray fallbacks = XomwLanguage.getFallbacksFor(this.mCode);
if (!XophpObject.is_true(pluralRules)) {
int fallbacks_len = fallbacks.Len();
for (int i = 0; i < fallbacks_len; i++) {
String fallbackCode = fallbacks.Get_at_str(i);
pluralRules = XomwLanguage.dataCacheXowa.getItem_ary(XophpString_.strtolower(fallbackCode), "compiledPluralRules");
if (XophpObject.is_true(pluralRules)) {
break;
}
}
}
return pluralRules;
}
// /**
// * Get the plural rules for the language
// * @since 1.20
// * @return array Associative array with plural form number and plural rule as key-value pairs
// */
// public function getPluralRules() {
// pluralRules = XomwLanguage.dataCache.getItem(strtolower(this.mCode), "pluralRules");
// fallbacks = XomwLanguage.getFallbacksFor(this.mCode);
// if (!pluralRules) {
// foreach (fallbacks as fallbackCode) {
// pluralRules = XomwLanguage.dataCache.getItem(strtolower(fallbackCode), "pluralRules");
// if (pluralRules) {
// break;
// }
// }
// }
// return pluralRules;
// }
//
// /**
// * Get the plural rule types for the language
// * @since 1.22
// * @return array Associative array with plural form number and plural rule type as key-value pairs
// */
// public function getPluralRuleTypes() {
// pluralRuleTypes = XomwLanguage.dataCache.getItem(strtolower(this.mCode), "pluralRuleTypes");
// fallbacks = XomwLanguage.getFallbacksFor(this.mCode);
// if (!pluralRuleTypes) {
// foreach (fallbacks as fallbackCode) {
// pluralRuleTypes = XomwLanguage.dataCache.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 int getPluralRuleIndexNumber(String number) {
XophpArray pluralRules = this.getCompiledPluralRules();
int form = XomwEvaluator.evaluateCompiled(number, pluralRules);
return form;
}
// /**
// * 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";
// }
}
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