/* * Copyright (C) 2020-2021 Yomichan Authors * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see <https://www.gnu.org/licenses/>. */ const JapaneseUtil = (() => { const ITERATION_MARK_CODE_POINT = 0x3005; const HIRAGANA_SMALL_TSU_CODE_POINT = 0x3063; const KATAKANA_SMALL_TSU_CODE_POINT = 0x30c3; const KATAKANA_SMALL_KA_CODE_POINT = 0x30f5; const KATAKANA_SMALL_KE_CODE_POINT = 0x30f6; const KANA_PROLONGED_SOUND_MARK_CODE_POINT = 0x30fc; const HIRAGANA_RANGE = [0x3040, 0x309f]; const KATAKANA_RANGE = [0x30a0, 0x30ff]; const HIRAGANA_CONVERSION_RANGE = [0x3041, 0x3096]; const KATAKANA_CONVERSION_RANGE = [0x30a1, 0x30f6]; const KANA_RANGES = [HIRAGANA_RANGE, KATAKANA_RANGE]; const CJK_UNIFIED_IDEOGRAPHS_RANGE = [0x4e00, 0x9fff]; const CJK_UNIFIED_IDEOGRAPHS_EXTENSION_A_RANGE = [0x3400, 0x4dbf]; const CJK_UNIFIED_IDEOGRAPHS_EXTENSION_B_RANGE = [0x20000, 0x2a6df]; const CJK_UNIFIED_IDEOGRAPHS_EXTENSION_C_RANGE = [0x2a700, 0x2b73f]; const CJK_UNIFIED_IDEOGRAPHS_EXTENSION_D_RANGE = [0x2b740, 0x2b81f]; const CJK_UNIFIED_IDEOGRAPHS_EXTENSION_E_RANGE = [0x2b820, 0x2ceaf]; const CJK_UNIFIED_IDEOGRAPHS_EXTENSION_F_RANGE = [0x2ceb0, 0x2ebef]; const CJK_COMPATIBILITY_IDEOGRAPHS_SUPPLEMENT_RANGE = [0x2f800, 0x2fa1f]; const CJK_UNIFIED_IDEOGRAPHS_RANGES = [ CJK_UNIFIED_IDEOGRAPHS_RANGE, CJK_UNIFIED_IDEOGRAPHS_EXTENSION_A_RANGE, CJK_UNIFIED_IDEOGRAPHS_EXTENSION_B_RANGE, CJK_UNIFIED_IDEOGRAPHS_EXTENSION_C_RANGE, CJK_UNIFIED_IDEOGRAPHS_EXTENSION_D_RANGE, CJK_UNIFIED_IDEOGRAPHS_EXTENSION_E_RANGE, CJK_UNIFIED_IDEOGRAPHS_EXTENSION_F_RANGE, CJK_COMPATIBILITY_IDEOGRAPHS_SUPPLEMENT_RANGE ]; // Japanese character ranges, roughly ordered in order of expected frequency const JAPANESE_RANGES = [ HIRAGANA_RANGE, KATAKANA_RANGE, ...CJK_UNIFIED_IDEOGRAPHS_RANGES, [0xff66, 0xff9f], // Halfwidth katakana [0x30fb, 0x30fc], // Katakana punctuation [0xff61, 0xff65], // Kana punctuation [0x3000, 0x303f], // CJK punctuation [0xff10, 0xff19], // Fullwidth numbers [0xff21, 0xff3a], // Fullwidth upper case Latin letters [0xff41, 0xff5a], // Fullwidth lower case Latin letters [0xff01, 0xff0f], // Fullwidth punctuation 1 [0xff1a, 0xff1f], // Fullwidth punctuation 2 [0xff3b, 0xff3f], // Fullwidth punctuation 3 [0xff5b, 0xff60], // Fullwidth punctuation 4 [0xffe0, 0xffee] // Currency markers ]; const SMALL_KANA_SET = new Set(Array.from('ぁぃぅぇぉゃゅょゎァィゥェォャュョヮ')); const HALFWIDTH_KATAKANA_MAPPING = new Map([ ['ヲ', 'ヲヺ-'], ['ァ', 'ァ--'], ['ィ', 'ィ--'], ['ゥ', 'ゥ--'], ['ェ', 'ェ--'], ['ォ', 'ォ--'], ['ャ', 'ャ--'], ['ュ', 'ュ--'], ['ョ', 'ョ--'], ['ッ', 'ッ--'], ['ー', 'ー--'], ['ア', 'ア--'], ['イ', 'イ--'], ['ウ', 'ウヴ-'], ['エ', 'エ--'], ['オ', 'オ--'], ['カ', 'カガ-'], ['キ', 'キギ-'], ['ク', 'クグ-'], ['ケ', 'ケゲ-'], ['コ', 'コゴ-'], ['サ', 'サザ-'], ['シ', 'シジ-'], ['ス', 'スズ-'], ['セ', 'セゼ-'], ['ソ', 'ソゾ-'], ['タ', 'タダ-'], ['チ', 'チヂ-'], ['ツ', 'ツヅ-'], ['テ', 'テデ-'], ['ト', 'トド-'], ['ナ', 'ナ--'], ['ニ', 'ニ--'], ['ヌ', 'ヌ--'], ['ネ', 'ネ--'], ['ノ', 'ノ--'], ['ハ', 'ハバパ'], ['ヒ', 'ヒビピ'], ['フ', 'フブプ'], ['ヘ', 'ヘベペ'], ['ホ', 'ホボポ'], ['マ', 'マ--'], ['ミ', 'ミ--'], ['ム', 'ム--'], ['メ', 'メ--'], ['モ', 'モ--'], ['ヤ', 'ヤ--'], ['ユ', 'ユ--'], ['ヨ', 'ヨ--'], ['ラ', 'ラ--'], ['リ', 'リ--'], ['ル', 'ル--'], ['レ', 'レ--'], ['ロ', 'ロ--'], ['ワ', 'ワ--'], ['ン', 'ン--'] ]); const VOWEL_TO_KANA_MAPPING = new Map([ ['a', 'ぁあかがさざただなはばぱまゃやらゎわヵァアカガサザタダナハバパマャヤラヮワヵヷ'], ['i', 'ぃいきぎしじちぢにひびぴみりゐィイキギシジチヂニヒビピミリヰヸ'], ['u', 'ぅうくぐすずっつづぬふぶぷむゅゆるゥウクグスズッツヅヌフブプムュユルヴ'], ['e', 'ぇえけげせぜてでねへべぺめれゑヶェエケゲセゼテデネヘベペメレヱヶヹ'], ['o', 'ぉおこごそぞとどのほぼぽもょよろをォオコゴソゾトドノホボポモョヨロヲヺ'], ['', 'のノ'] ]); const KANA_TO_VOWEL_MAPPING = (() => { const map = new Map(); for (const [vowel, characters] of VOWEL_TO_KANA_MAPPING) { for (const character of characters) { map.set(character, vowel); } } return map; })(); function isCodePointInRange(codePoint, [min, max]) { return (codePoint >= min && codePoint <= max); } function isCodePointInRanges(codePoint, ranges) { for (const [min, max] of ranges) { if (codePoint >= min && codePoint <= max) { return true; } } return false; } function getProlongedHiragana(previousCharacter) { switch (KANA_TO_VOWEL_MAPPING.get(previousCharacter)) { case 'a': return 'あ'; case 'i': return 'い'; case 'u': return 'う'; case 'e': return 'え'; case 'o': return 'う'; default: return null; } } // eslint-disable-next-line no-shadow class JapaneseUtil { constructor(wanakana=null) { this._wanakana = wanakana; } // Character code testing functions isCodePointKanji(codePoint) { return isCodePointInRanges(codePoint, CJK_UNIFIED_IDEOGRAPHS_RANGES); } isCodePointKana(codePoint) { return isCodePointInRanges(codePoint, KANA_RANGES); } isCodePointJapanese(codePoint) { return isCodePointInRanges(codePoint, JAPANESE_RANGES); } // String testing functions isStringEntirelyKana(str) { if (str.length === 0) { return false; } for (const c of str) { if (!isCodePointInRanges(c.codePointAt(0), KANA_RANGES)) { return false; } } return true; } isStringPartiallyJapanese(str) { if (str.length === 0) { return false; } for (const c of str) { if (isCodePointInRanges(c.codePointAt(0), JAPANESE_RANGES)) { return true; } } return false; } // Mora functions isMoraPitchHigh(moraIndex, pitchAccentPosition) { switch (pitchAccentPosition) { case 0: return (moraIndex > 0); case 1: return (moraIndex < 1); default: return (moraIndex > 0 && moraIndex < pitchAccentPosition); } } getPitchCategory(text, pitchAccentPosition, isVerbOrAdjective) { if (pitchAccentPosition === 0) { return 'heiban'; } if (isVerbOrAdjective) { return pitchAccentPosition > 0 ? 'kifuku' : null; } if (pitchAccentPosition === 1) { return 'atamadaka'; } if (pitchAccentPosition > 1) { return pitchAccentPosition >= this.getKanaMoraCount(text) ? 'odaka' : 'nakadaka'; } return null; } getKanaMorae(text) { const morae = []; let i; for (const c of text) { if (SMALL_KANA_SET.has(c) && (i = morae.length) > 0) { morae[i - 1] += c; } else { morae.push(c); } } return morae; } getKanaMoraCount(text) { let moraCount = 0; for (const c of text) { if (!(SMALL_KANA_SET.has(c) && moraCount > 0)) { ++moraCount; } } return moraCount; } // Conversion functions convertToKana(text) { return this._getWanakana().toKana(text); } convertKatakanaToHiragana(text) { let result = ''; const offset = (HIRAGANA_CONVERSION_RANGE[0] - KATAKANA_CONVERSION_RANGE[0]); for (let char of text) { const codePoint = char.codePointAt(0); if (codePoint === KATAKANA_SMALL_KA_CODE_POINT || codePoint === KATAKANA_SMALL_KE_CODE_POINT) { // No change } else if (codePoint === KANA_PROLONGED_SOUND_MARK_CODE_POINT) { if (result.length > 0) { const char2 = getProlongedHiragana(result[result.length - 1]); if (char2 !== null) { char = char2; } } } else if (isCodePointInRange(codePoint, KATAKANA_CONVERSION_RANGE)) { char = String.fromCodePoint(codePoint + offset); } result += char; } return result; } convertHiraganaToKatakana(text) { let result = ''; const offset = (KATAKANA_CONVERSION_RANGE[0] - HIRAGANA_CONVERSION_RANGE[0]); for (let char of text) { const codePoint = char.codePointAt(0); if (isCodePointInRange(codePoint, HIRAGANA_CONVERSION_RANGE)) { char = String.fromCodePoint(codePoint + offset); } result += char; } return result; } convertToRomaji(text) { const wanakana = this._getWanakana(); return wanakana.toRomaji(text); } convertReading(term, reading, readingMode) { switch (readingMode) { case 'hiragana': return this.convertKatakanaToHiragana(reading); case 'katakana': return this.convertHiraganaToKatakana(reading); case 'romaji': if (reading) { return this.convertToRomaji(reading); } else { if (this.isStringEntirelyKana(term)) { return this.convertToRomaji(term); } } return reading; case 'none': return ''; default: return reading; } } convertNumericToFullWidth(text) { let result = ''; for (const char of text) { let c = char.codePointAt(0); if (c >= 0x30 && c <= 0x39) { // ['0', '9'] c += 0xff10 - 0x30; // 0xff10 = '0' full width result += String.fromCodePoint(c); } else { result += char; } } return result; } convertHalfWidthKanaToFullWidth(text, sourceMap=null) { let result = ''; // This function is safe to use charCodeAt instead of codePointAt, since all // the relevant characters are represented with a single UTF-16 character code. for (let i = 0, ii = text.length; i < ii; ++i) { const c = text[i]; const mapping = HALFWIDTH_KATAKANA_MAPPING.get(c); if (typeof mapping !== 'string') { result += c; continue; } let index = 0; switch (text.charCodeAt(i + 1)) { case 0xff9e: // dakuten index = 1; break; case 0xff9f: // handakuten index = 2; break; } let c2 = mapping[index]; if (index > 0) { if (c2 === '-') { // invalid index = 0; c2 = mapping[0]; } else { ++i; } } if (sourceMap !== null && index > 0) { sourceMap.combine(result.length, 1); } result += c2; } return result; } convertAlphabeticToKana(text, sourceMap=null) { let part = ''; let result = ''; for (const char of text) { // Note: 0x61 is the character code for 'a' let c = char.codePointAt(0); if (c >= 0x41 && c <= 0x5a) { // ['A', 'Z'] c += (0x61 - 0x41); } else if (c >= 0x61 && c <= 0x7a) { // ['a', 'z'] // NOP; c += (0x61 - 0x61); } else if (c >= 0xff21 && c <= 0xff3a) { // ['A', 'Z'] fullwidth c += (0x61 - 0xff21); } else if (c >= 0xff41 && c <= 0xff5a) { // ['a', 'z'] fullwidth c += (0x61 - 0xff41); } else if (c === 0x2d || c === 0xff0d) { // '-' or fullwidth dash c = 0x2d; // '-' } else { if (part.length > 0) { result += this._convertAlphabeticPartToKana(part, sourceMap, result.length); part = ''; } result += char; continue; } part += String.fromCodePoint(c); } if (part.length > 0) { result += this._convertAlphabeticPartToKana(part, sourceMap, result.length); } return result; } // Furigana distribution distributeFurigana(term, reading) { if (reading === term) { // Same return [this._createFuriganaSegment(term, '')]; } const groups = []; let groupPre = null; let isKanaPre = null; for (const c of term) { const codePoint = c.codePointAt(0); const isKana = !(this.isCodePointKanji(codePoint) || codePoint === ITERATION_MARK_CODE_POINT); if (isKana === isKanaPre) { groupPre.text += c; } else { groupPre = {isKana, text: c, textNormalized: null}; groups.push(groupPre); isKanaPre = isKana; } } for (const group of groups) { if (group.isKana) { group.textNormalized = this.convertKatakanaToHiragana(group.text); } } const readingNormalized = this.convertKatakanaToHiragana(reading); const segments = this._segmentizeFurigana(reading, readingNormalized, groups, 0); if (segments !== null) { return segments; } // Fallback return [this._createFuriganaSegment(term, reading)]; } distributeFuriganaInflected(term, reading, source) { const termNormalized = this.convertKatakanaToHiragana(term); const readingNormalized = this.convertKatakanaToHiragana(reading); const sourceNormalized = this.convertKatakanaToHiragana(source); let mainText = term; let stemLength = this._getStemLength(termNormalized, sourceNormalized); // Check if source is derived from the reading instead of the term const readingStemLength = this._getStemLength(readingNormalized, sourceNormalized); if (readingStemLength > 0 && readingStemLength >= stemLength) { mainText = reading; stemLength = readingStemLength; reading = `${source.substring(0, stemLength)}${reading.substring(stemLength)}`; } const segments = []; if (stemLength > 0) { mainText = `${source.substring(0, stemLength)}${mainText.substring(stemLength)}`; const segments2 = this.distributeFurigana(mainText, reading); let consumed = 0; for (const segment of segments2) { const {text} = segment; const start = consumed; consumed += text.length; if (consumed < stemLength) { segments.push(segment); } else if (consumed === stemLength) { segments.push(segment); break; } else { if (start < stemLength) { segments.push(this._createFuriganaSegment(mainText.substring(start, stemLength), '')); } break; } } } if (stemLength < source.length) { const remainder = source.substring(stemLength); const segmentCount = segments.length; if (segmentCount > 0 && segments[segmentCount - 1].furigana.length === 0) { // Append to the last segment if it has an empty reading segments[segmentCount - 1].text += remainder; } else { // Otherwise, create a new segment segments.push(this._createFuriganaSegment(remainder, '')); } } return segments; } // Miscellaneous collapseEmphaticSequences(text, fullCollapse, sourceMap=null) { let result = ''; let collapseCodePoint = -1; const hasSourceMap = (sourceMap !== null); for (const char of text) { const c = char.codePointAt(0); if ( c === HIRAGANA_SMALL_TSU_CODE_POINT || c === KATAKANA_SMALL_TSU_CODE_POINT || c === KANA_PROLONGED_SOUND_MARK_CODE_POINT ) { if (collapseCodePoint !== c) { collapseCodePoint = c; if (!fullCollapse) { result += char; continue; } } } else { collapseCodePoint = -1; result += char; continue; } if (hasSourceMap) { sourceMap.combine(Math.max(0, result.length - 1), 1); } } return result; } // Private _createFuriganaSegment(text, furigana) { return {text, furigana}; } _segmentizeFurigana(reading, readingNormalized, groups, groupsStart) { const groupCount = groups.length - groupsStart; if (groupCount <= 0) { return reading.length === 0 ? [] : null; } const group = groups[groupsStart]; const {isKana, text} = group; const textLength = text.length; if (isKana) { const {textNormalized} = group; if (readingNormalized.startsWith(textNormalized)) { const segments = this._segmentizeFurigana( reading.substring(textLength), readingNormalized.substring(textLength), groups, groupsStart + 1 ); if (segments !== null) { if (reading.startsWith(text)) { segments.unshift(this._createFuriganaSegment(text, '')); } else { segments.unshift(...this._getFuriganaKanaSegments(text, reading)); } return segments; } } return null; } else { let result = null; for (let i = reading.length; i >= textLength; --i) { const segments = this._segmentizeFurigana( reading.substring(i), readingNormalized.substring(i), groups, groupsStart + 1 ); if (segments !== null) { if (result !== null) { // More than one way to segmentize the tail; mark as ambiguous return null; } const furigana = reading.substring(0, i); segments.unshift(this._createFuriganaSegment(text, furigana)); result = segments; } // There is only one way to segmentize the last non-kana group if (groupCount === 1) { break; } } return result; } } _getFuriganaKanaSegments(text, reading) { const textLength = text.length; const newSegments = []; let start = 0; let state = (reading[0] === text[0]); for (let i = 1; i < textLength; ++i) { const newState = (reading[i] === text[i]); if (state === newState) { continue; } newSegments.push(this._createFuriganaSegment(text.substring(start, i), state ? '' : reading.substring(start, i))); state = newState; start = i; } newSegments.push(this._createFuriganaSegment(text.substring(start, textLength), state ? '' : reading.substring(start, textLength))); return newSegments; } _getWanakana() { const wanakana = this._wanakana; if (wanakana === null) { throw new Error('Functions which use WanaKana are not supported in this context'); } return wanakana; } _convertAlphabeticPartToKana(text, sourceMap, sourceMapStart) { const wanakana = this._getWanakana(); const result = wanakana.toHiragana(text); // Generate source mapping if (sourceMap !== null) { let i = 0; let resultPos = 0; const ii = text.length; while (i < ii) { // Find smallest matching substring let iNext = i + 1; let resultPosNext = result.length; while (iNext < ii) { const t = wanakana.toHiragana(text.substring(0, iNext)); if (t === result.substring(0, t.length)) { resultPosNext = t.length; break; } ++iNext; } // Merge characters const removals = iNext - i - 1; if (removals > 0) { sourceMap.combine(sourceMapStart, removals); } ++sourceMapStart; // Empty elements const additions = resultPosNext - resultPos - 1; for (let j = 0; j < additions; ++j) { sourceMap.insert(sourceMapStart, 0); ++sourceMapStart; } i = iNext; resultPos = resultPosNext; } } return result; } _getStemLength(text1, text2) { const minLength = Math.min(text1.length, text2.length); if (minLength === 0) { return 0; } let i = 0; while (true) { const char1 = text1.codePointAt(i); const char2 = text2.codePointAt(i); if (char1 !== char2) { break; } const charLength = String.fromCodePoint(char1).length; i += charLength; if (i >= minLength) { if (i > minLength) { i -= charLength; // Don't consume partial UTF16 surrogate characters } break; } } return i; } } return JapaneseUtil; })();