/**************************************************************************** ** ** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies). ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the utils of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** No Commercial Usage ** This file contains pre-release code and may not be distributed. ** You may use this file in accordance with the terms and conditions ** contained in the either Technology Preview License Agreement or the ** Beta Release License Agreement. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 2.1 requirements ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain ** additional rights. These rights are described in the Nokia Qt LGPL ** Exception version 1.0, included in the file LGPL_EXCEPTION.txt in this ** package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3.0 as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU General Public License version 3.0 requirements will be ** met: http://www.gnu.org/copyleft/gpl.html. ** ** If you are unsure which license is appropriate for your use, please ** contact the sales department at http://qt.nokia.com/contact. ** $QT_END_LICENSE$ ** ****************************************************************************/ #include #include #include #include #include #include #include #include static struct AgeMap { const char *age; const QChar::UnicodeVersion version; } ageMap [] = { { "1.1", QChar::Unicode_1_1 }, { "2.0", QChar::Unicode_2_0 }, { "2.1", QChar::Unicode_2_1_2 }, { "3.0", QChar::Unicode_3_0 }, { "3.1", QChar::Unicode_3_1 }, { "3.2", QChar::Unicode_3_2 }, { "4.0", QChar::Unicode_4_0 }, { "4.1", QChar::Unicode_4_1 }, { "5.0", QChar::Unicode_5_0 }, { 0, QChar::Unicode_Unassigned } }; #define CURRENT_UNICODE_VERSION "QChar::Unicode_5_0" static const char *grapheme_break_string = " enum GraphemeBreak {\n" " GraphemeBreakOther, \n" " GraphemeBreakCR,\n" " GraphemeBreakLF,\n" " GraphemeBreakControl,\n" " GraphemeBreakExtend,\n" " GraphemeBreakL,\n" " GraphemeBreakV,\n" " GraphemeBreakT,\n" " GraphemeBreakLV,\n" " GraphemeBreakLVT\n" " };\n\n"; enum GraphemeBreak { GraphemeBreakOther, GraphemeBreakCR, GraphemeBreakLF, GraphemeBreakControl, GraphemeBreakExtend, GraphemeBreakL, GraphemeBreakV, GraphemeBreakT, GraphemeBreakLV, GraphemeBreakLVT }; QHash grapheme_break_map; static void initGraphemeBreak() { struct GraphemeBreakList { GraphemeBreak brk; const char *name; } breaks[] = { { GraphemeBreakOther, "Other" }, { GraphemeBreakCR, "CR" }, { GraphemeBreakLF, "LF" }, { GraphemeBreakControl, "Control" }, { GraphemeBreakExtend, "Extend" }, { GraphemeBreakL, "L" }, { GraphemeBreakV, "V" }, { GraphemeBreakT, "T" }, { GraphemeBreakLV, "LV" }, { GraphemeBreakLVT, "LVT" }, { GraphemeBreakOther, 0 } }; GraphemeBreakList *d = breaks; while (d->name) { grapheme_break_map.insert(d->name, d->brk); ++d; } } const char *word_break_string = " enum WordBreak {\n" " WordBreakOther,\n" " WordBreakFormat,\n" " WordBreakKatakana,\n" " WordBreakALetter,\n" " WordBreakMidLetter,\n" " WordBreakMidNum,\n" " WordBreakNumeric,\n" " WordBreakExtendNumLet\n" " };\n\n"; enum WordBreak { WordBreakOther, WordBreakFormat, WordBreakKatakana, WordBreakALetter, WordBreakMidLetter, WordBreakMidNum, WordBreakNumeric, WordBreakExtendNumLet }; QHash word_break_map; static void initWordBreak() { struct WordBreakList { WordBreak brk; const char *name; } breaks[] = { { WordBreakFormat, "Format" }, { WordBreakFormat, "Extend" }, // these are copied in from GraphemeBreakProperty.txt { WordBreakKatakana, "Katakana" }, { WordBreakALetter, "ALetter" }, { WordBreakMidLetter, "MidLetter" }, { WordBreakMidNum, "MidNum" }, { WordBreakNumeric, "Numeric" }, { WordBreakExtendNumLet, "ExtendNumLet" }, { WordBreakFormat, 0 } }; WordBreakList *d = breaks; while (d->name) { word_break_map.insert(d->name, d->brk); ++d; } } static const char *sentence_break_string = " enum SentenceBreak {\n" " SentenceBreakOther,\n" " SentenceBreakSep,\n" " SentenceBreakFormat,\n" " SentenceBreakSp,\n" " SentenceBreakLower,\n" " SentenceBreakUpper,\n" " SentenceBreakOLetter,\n" " SentenceBreakNumeric,\n" " SentenceBreakATerm,\n" " SentenceBreakSTerm,\n" " SentenceBreakClose\n" " };\n\n"; enum SentenceBreak { SentenceBreakOther, SentenceBreakSep, SentenceBreakFormat, SentenceBreakSp, SentenceBreakLower, SentenceBreakUpper, SentenceBreakOLetter, SentenceBreakNumeric, SentenceBreakATerm, SentenceBreakSTerm, SentenceBreakClose }; QHash sentence_break_map; static void initSentenceBreak() { struct SentenceBreakList { SentenceBreak brk; const char *name; } breaks[] = { { SentenceBreakOther, "Other" }, { SentenceBreakSep, "Sep" }, { SentenceBreakFormat, "Format" }, { SentenceBreakSp, "Sp" }, { SentenceBreakLower, "Lower" }, { SentenceBreakUpper, "Upper" }, { SentenceBreakOLetter, "OLetter" }, { SentenceBreakNumeric, "Numeric" }, { SentenceBreakATerm, "ATerm" }, { SentenceBreakSTerm, "STerm" }, { SentenceBreakClose, "Close" }, { SentenceBreakOther, 0 } }; SentenceBreakList *d = breaks; while (d->name) { sentence_break_map.insert(d->name, d->brk); ++d; } } // Keep this one in sync with the code in createPropertyInfo const char *property_string = " struct Properties {\n" " ushort category : 8;\n" " ushort line_break_class : 8;\n" " ushort direction : 8;\n" " ushort combiningClass :8;\n" " ushort joining : 2;\n" " signed short digitValue : 6; /* 5 needed */\n" " ushort unicodeVersion : 4;\n" " ushort lowerCaseSpecial : 1;\n" " ushort upperCaseSpecial : 1;\n" " ushort titleCaseSpecial : 1;\n" " ushort caseFoldSpecial : 1; /* currently unused */\n" " signed short mirrorDiff : 16;\n" " signed short lowerCaseDiff : 16;\n" " signed short upperCaseDiff : 16;\n" " signed short titleCaseDiff : 16;\n" " signed short caseFoldDiff : 16;\n" " ushort graphemeBreak : 8;\n" " ushort wordBreak : 8;\n" " ushort sentenceBreak : 8;\n" " };\n" " Q_CORE_EXPORT const Properties * QT_FASTCALL properties(uint ucs4);\n" " Q_CORE_EXPORT const Properties * QT_FASTCALL properties(ushort ucs2);\n"; const char *lineBreakClass = " // see http://www.unicode.org/reports/tr14/tr14-19.html\n" " // we don't use the XX, AI and CB properties and map them to AL instead.\n" " // as we don't support any EBDIC based OS'es, NL is ignored and mapped to AL as well.\n" " enum LineBreakClass {\n" " LineBreak_OP, LineBreak_CL, LineBreak_QU, LineBreak_GL, LineBreak_NS,\n" " LineBreak_EX, LineBreak_SY, LineBreak_IS, LineBreak_PR, LineBreak_PO,\n" " LineBreak_NU, LineBreak_AL, LineBreak_ID, LineBreak_IN, LineBreak_HY,\n" " LineBreak_BA, LineBreak_BB, LineBreak_B2, LineBreak_ZW, LineBreak_CM,\n" " LineBreak_WJ, LineBreak_H2, LineBreak_H3, LineBreak_JL, LineBreak_JV,\n" " LineBreak_JT, LineBreak_SA, LineBreak_SG,\n" " LineBreak_SP, LineBreak_CR, LineBreak_LF, LineBreak_BK\n" " };\n\n"; const char *methods = " Q_CORE_EXPORT QUnicodeTables::LineBreakClass QT_FASTCALL lineBreakClass(uint ucs4);\n" " inline int lineBreakClass(const QChar &ch) {\n" " return QUnicodeTables::lineBreakClass(ch.unicode());\n" " }\n" "\n" " Q_CORE_EXPORT int QT_FASTCALL script(uint ucs4);\n" " Q_CORE_EXPORT_INLINE int QT_FASTCALL script(const QChar &ch) {\n" " return script(ch.unicode());\n" " }\n\n"; struct PropertyFlags { bool operator ==(const PropertyFlags &o) { return (combiningClass == o.combiningClass && category == o.category && direction == o.direction && joining == o.joining && age == o.age && digitValue == o.digitValue && line_break_class == o.line_break_class && mirrorDiff == o.mirrorDiff && lowerCaseDiff == o.lowerCaseDiff && upperCaseDiff == o.upperCaseDiff && titleCaseDiff == o.titleCaseDiff && caseFoldDiff == o.caseFoldDiff && lowerCaseSpecial == o.lowerCaseSpecial && upperCaseSpecial == o.upperCaseSpecial && titleCaseSpecial == o.titleCaseSpecial && caseFoldSpecial == o.caseFoldSpecial && graphemeBreak == o.graphemeBreak && wordBreak == o.wordBreak && sentenceBreak == o.sentenceBreak ); } // from UnicodeData.txt uchar combiningClass : 8; QChar::Category category : 5; QChar::Direction direction : 5; // from ArabicShaping.txt QChar::Joining joining : 2; // from DerivedAge.txt QChar::UnicodeVersion age : 4; int digitValue; uint line_break_class : 5; int mirrorDiff : 16; int lowerCaseDiff; int upperCaseDiff; int titleCaseDiff; int caseFoldDiff; bool lowerCaseSpecial; bool upperCaseSpecial; bool titleCaseSpecial; bool caseFoldSpecial; GraphemeBreak graphemeBreak; WordBreak wordBreak; SentenceBreak sentenceBreak; }; QList specialCaseMap; int specialCaseMaxLen = 0; static int appendToSpecialCaseMap(const QList &map) { QList utf16map; for (int i = 0; i < map.size(); ++i) { int val = map.at(i); if (val > 0xffff) { utf16map << QChar::highSurrogate(val); utf16map << QChar::lowSurrogate(val); } else { utf16map << val; } } specialCaseMaxLen = qMax(specialCaseMaxLen, utf16map.size()); utf16map << 0; for (int i = 0; i < specialCaseMap.size() - utf16map.size() - 1; ++i) { int j; for (j = 0; j < utf16map.size(); ++j) { if (specialCaseMap.at(i+j) != utf16map.at(j)) break; } if (j == utf16map.size()) return i; } int pos = specialCaseMap.size(); specialCaseMap << utf16map; return pos; } struct UnicodeData { UnicodeData(int codepoint = 0) { p.category = QChar::NoCategory; p.combiningClass = 0; p.direction = QChar::DirL; // DirR for: U+0590..U+05FF, U+07C0..U+08FF, U+FB1D..U+FB4F, U+10800..U+10FFF if ((codepoint >= 0x590 && codepoint <= 0x5ff) || (codepoint >= 0x7c0 && codepoint <= 0x8ff) || (codepoint >= 0xfb1d && codepoint <= 0xfb4f) || (codepoint >= 0x10800 && codepoint <= 0x10fff)) p.direction = QChar::DirR; // DirAL for: U+0600..U+07BF, U+FB50..U+FDCF, U+FDF0..U+FDFF, U+FE70..U+FEFE if ((codepoint >= 0x600 && codepoint <= 0x7bf) || (codepoint >= 0xfb50 && codepoint <= 0xfdcf) || (codepoint >= 0xfdf0 && codepoint <= 0xfdff) || (codepoint >= 0xfe70 && codepoint <= 0xfefe)) p.direction = QChar::DirAL; mirroredChar = 0; decompositionType = QChar::NoDecomposition; p.joining = QChar::OtherJoining; p.age = QChar::Unicode_Unassigned; p.mirrorDiff = 0; p.digitValue = -1; p.line_break_class = QUnicodeTables::LineBreak_AL; p.lowerCaseDiff = 0; p.upperCaseDiff = 0; p.titleCaseDiff = 0; p.caseFoldDiff = 0; p.lowerCaseSpecial = 0; p.upperCaseSpecial = 0; p.titleCaseSpecial = 0; p.caseFoldSpecial = 0; p.graphemeBreak = GraphemeBreakOther; p.wordBreak = WordBreakOther; p.sentenceBreak = SentenceBreakOther; propertyIndex = -1; excludedComposition = false; } PropertyFlags p; // from UnicodeData.txt QChar::Decomposition decompositionType; QList decomposition; QList specialFolding; // from BidiMirroring.txt int mirroredChar; // CompositionExclusions.txt bool excludedComposition; // computed position of unicode property set int propertyIndex; }; enum UniDataFields { UD_Value, UD_Name, UD_Category, UD_CombiningClass, UD_BidiCategory, UD_Decomposition, UD_DecimalDigitValue, UD_DigitValue, UD_NumericValue, UD_Mirrored, UD_OldName, UD_Comment, UD_UpperCase, UD_LowerCase, UD_TitleCase }; QHash categoryMap; static void initCategoryMap() { struct Cat { QChar::Category cat; const char *name; } categories [] = { { QChar::Mark_NonSpacing, "Mn" }, { QChar::Mark_SpacingCombining, "Mc" }, { QChar::Mark_Enclosing, "Me" }, { QChar::Number_DecimalDigit, "Nd" }, { QChar::Number_Letter, "Nl" }, { QChar::Number_Other, "No" }, { QChar::Separator_Space, "Zs" }, { QChar::Separator_Line, "Zl" }, { QChar::Separator_Paragraph, "Zp" }, { QChar::Other_Control, "Cc" }, { QChar::Other_Format, "Cf" }, { QChar::Other_Surrogate, "Cs" }, { QChar::Other_PrivateUse, "Co" }, { QChar::Other_NotAssigned, "Cn" }, { QChar::Letter_Uppercase, "Lu" }, { QChar::Letter_Lowercase, "Ll" }, { QChar::Letter_Titlecase, "Lt" }, { QChar::Letter_Modifier, "Lm" }, { QChar::Letter_Other, "Lo" }, { QChar::Punctuation_Connector, "Pc" }, { QChar::Punctuation_Dash, "Pd" }, { QChar::Punctuation_Open, "Ps" }, { QChar::Punctuation_Close, "Pe" }, { QChar::Punctuation_InitialQuote, "Pi" }, { QChar::Punctuation_FinalQuote, "Pf" }, { QChar::Punctuation_Other, "Po" }, { QChar::Symbol_Math, "Sm" }, { QChar::Symbol_Currency, "Sc" }, { QChar::Symbol_Modifier, "Sk" }, { QChar::Symbol_Other, "So" }, { QChar::NoCategory, 0 } }; Cat *c = categories; while (c->cat != QChar::NoCategory) { categoryMap.insert(c->name, c->cat); ++c; } } QHash directionMap; static void initDirectionMap() { struct Dir { QChar::Direction dir; const char *name; } directions[] = { { QChar::DirL, "L" }, { QChar::DirR, "R" }, { QChar::DirEN, "EN" }, { QChar::DirES, "ES" }, { QChar::DirET, "ET" }, { QChar::DirAN, "AN" }, { QChar::DirCS, "CS" }, { QChar::DirB, "B" }, { QChar::DirS, "S" }, { QChar::DirWS, "WS" }, { QChar::DirON, "ON" }, { QChar::DirLRE, "LRE" }, { QChar::DirLRO, "LRO" }, { QChar::DirAL, "AL" }, { QChar::DirRLE, "RLE" }, { QChar::DirRLO, "RLO" }, { QChar::DirPDF, "PDF" }, { QChar::DirNSM, "NSM" }, { QChar::DirBN, "BN" }, { QChar::DirL, 0 } }; Dir *d = directions; while (d->name) { directionMap.insert(d->name, d->dir); ++d; } } QHash decompositionMap; static void initDecompositionMap() { struct Dec { QChar::Decomposition dec; const char *name; } decompositions[] = { { QChar::Canonical, "" }, { QChar::Font, "" }, { QChar::NoBreak, "" }, { QChar::Initial, "" }, { QChar::Medial, "" }, { QChar::Final, "" }, { QChar::Isolated, "" }, { QChar::Circle, "" }, { QChar::Super, "" }, { QChar::Sub, "" }, { QChar::Vertical, "" }, { QChar::Wide, "" }, { QChar::Narrow, "" }, { QChar::Small, "" }, { QChar::Square, "" }, { QChar::Compat, "" }, { QChar::Fraction, "" }, { QChar::NoDecomposition, 0 } }; Dec *d = decompositions; while (d->name) { decompositionMap.insert(d->name, d->dec); ++d; } } QHash unicodeData; QList uniqueProperties; QHash decompositionLength; int highestComposedCharacter = 0; int numLigatures = 0; int highestLigature = 0; struct Ligature {ushort u1; ushort u2; ushort ligature;}; // we need them sorted after the first component for fast lookup bool operator < (const Ligature &l1, const Ligature &l2) { return l1.u1 < l2.u1; } QHash > ligatureHashes; QHash combiningClassUsage; int maxLowerCaseDiff = 0; int maxUpperCaseDiff = 0; int maxTitleCaseDiff = 0; static void readUnicodeData() { QFile f("data/UnicodeData.txt"); if (!f.exists()) qFatal("Couldn't find UnicodeData.txt"); f.open(QFile::ReadOnly); while (!f.atEnd()) { QByteArray line; line.resize(1024); int len = f.readLine(line.data(), 1024); line.truncate(len-1); int comment = line.indexOf('#'); if (comment >= 0) line = line.left(comment); if (line.isEmpty()) continue; QList properties = line.split(';'); bool ok; int codepoint = properties[UD_Value].toInt(&ok, 16); int lastCodepoint = codepoint; QByteArray name = properties[UD_Name]; if (name.startsWith('<') && name.contains("First")) { QByteArray nextLine; nextLine.resize(1024); f.readLine(nextLine.data(), 1024); QList properties = nextLine.split(';'); lastCodepoint = properties[UD_Value].toInt(&ok, 16); } UnicodeData data(codepoint); data.p.category = categoryMap.value(properties[UD_Category], QChar::NoCategory); data.p.combiningClass = properties[UD_CombiningClass].toInt(); if (!combiningClassUsage.contains(data.p.combiningClass)) combiningClassUsage[data.p.combiningClass] = 1; else ++combiningClassUsage[data.p.combiningClass]; data.p.direction = directionMap.value(properties[UD_BidiCategory], data.p.direction); if (!properties[UD_UpperCase].isEmpty()) { int upperCase = properties[UD_UpperCase].toInt(&ok, 16); Q_ASSERT(ok); data.p.upperCaseDiff = upperCase - codepoint; maxUpperCaseDiff = qMax(maxUpperCaseDiff, qAbs(data.p.upperCaseDiff)); if (codepoint > 0xffff) { // if the condition below doesn't hold anymore we need to modify our case folding code //qDebug() << codepoint << QChar::highSurrogate(codepoint) << QChar::highSurrogate(foldMap.at(0)); Q_ASSERT(QChar::highSurrogate(codepoint) == QChar::highSurrogate(upperCase)); } } if (!properties[UD_LowerCase].isEmpty()) { int lowerCase = properties[UD_LowerCase].toInt(&ok, 16); Q_ASSERT (ok); data.p.lowerCaseDiff = lowerCase - codepoint; maxLowerCaseDiff = qMax(maxLowerCaseDiff, qAbs(data.p.lowerCaseDiff)); if (codepoint > 0xffff) { // if the condition below doesn't hold anymore we need to modify our case folding code //qDebug() << codepoint << QChar::highSurrogate(codepoint) << QChar::highSurrogate(foldMap.at(0)); Q_ASSERT(QChar::highSurrogate(codepoint) == QChar::highSurrogate(lowerCase)); } } // we want toTitleCase to map to ToUpper in case we don't have any titlecase. if (properties[UD_TitleCase].isEmpty()) properties[UD_TitleCase] = properties[UD_UpperCase]; if (!properties[UD_TitleCase].isEmpty()) { int titleCase = properties[UD_TitleCase].toInt(&ok, 16); Q_ASSERT (ok); data.p.titleCaseDiff = titleCase - codepoint; maxTitleCaseDiff = qMax(maxTitleCaseDiff, qAbs(data.p.titleCaseDiff)); if (codepoint > 0xffff) { // if the condition below doesn't hold anymore we need to modify our case folding code //qDebug() << codepoint << QChar::highSurrogate(codepoint) << QChar::highSurrogate(foldMap.at(0)); Q_ASSERT(QChar::highSurrogate(codepoint) == QChar::highSurrogate(titleCase)); } } if (!properties[UD_DigitValue].isEmpty()) data.p.digitValue = properties[UD_DigitValue].toInt(); // decompositition QByteArray decomposition = properties[UD_Decomposition]; if (!decomposition.isEmpty()) { highestComposedCharacter = qMax(highestComposedCharacter, codepoint); QList d = decomposition.split(' '); if (d[0].contains('<')) { data.decompositionType = decompositionMap.value(d[0], QChar::Canonical); d.takeFirst(); } else { data.decompositionType = QChar::Canonical; } for (int i = 0; i < d.size(); ++i) data.decomposition.append(d[i].toInt(&ok, 16)); if (!decompositionLength.contains(data.decomposition.size())) decompositionLength[data.decomposition.size()] = 1; else ++decompositionLength[data.decomposition.size()]; } for (int i = codepoint; i <= lastCodepoint; ++i) unicodeData.insert(i, data); } } static int maxMirroredDiff = 0; static void readBidiMirroring() { QFile f("data/BidiMirroring.txt"); if (!f.exists()) qFatal("Couldn't find BidiMirroring.txt"); f.open(QFile::ReadOnly); while (!f.atEnd()) { QByteArray line; line.resize(1024); int len = f.readLine(line.data(), 1024); line.resize(len-1); int comment = line.indexOf('#'); if (comment >= 0) line = line.left(comment); if (line.isEmpty()) continue; line = line.replace(" ", ""); QList pair = line.split(';'); Q_ASSERT(pair.size() == 2); bool ok; int codepoint = pair[0].toInt(&ok, 16); int mirror = pair[1].toInt(&ok, 16); UnicodeData d = unicodeData.value(codepoint, UnicodeData(codepoint)); d.mirroredChar = mirror; if (qAbs(codepoint-d.mirroredChar) > maxMirroredDiff) maxMirroredDiff = qAbs(codepoint - d.mirroredChar); d.p.mirrorDiff = d.mirroredChar - codepoint; unicodeData.insert(codepoint, d); } } static void readArabicShaping() { QFile f("data/ArabicShaping.txt"); if (!f.exists()) qFatal("Couldn't find ArabicShaping.txt"); f.open(QFile::ReadOnly); while (!f.atEnd()) { QByteArray line; line.resize(1024); int len = f.readLine(line.data(), 1024); line.resize(len-1); int comment = line.indexOf('#'); if (comment >= 0) line = line.left(comment); line = line.trimmed(); if (line.isEmpty()) continue; QList shaping = line.split(';'); Q_ASSERT(shaping.size() == 4); bool ok; int codepoint = shaping[0].toInt(&ok, 16); QChar::Joining j = QChar::OtherJoining; QByteArray shape = shaping[2].trimmed(); if (shape == "R") j = QChar::Right; else if (shape == "D") j = QChar::Dual; else if (shape == "C") j = QChar::Center; UnicodeData d = unicodeData.value(codepoint, UnicodeData(codepoint)); d.p.joining = j; unicodeData.insert(codepoint, d); } } static void readDerivedAge() { QFile f("data/DerivedAge.txt"); if (!f.exists()) qFatal("Couldn't find DerivedAge.txt"); f.open(QFile::ReadOnly); while (!f.atEnd()) { QByteArray line; line.resize(1024); int len = f.readLine(line.data(), 1024); line.resize(len-1); int comment = line.indexOf('#'); if (comment >= 0) line = line.left(comment); line.replace(" ", ""); if (line.isEmpty()) continue; QList l = line.split(';'); Q_ASSERT(l.size() == 2); QByteArray codes = l[0]; codes.replace("..", "."); QList cl = codes.split('.'); bool ok; int from = cl[0].toInt(&ok, 16); int to = from; if (cl.size() == 2) to = cl[1].toInt(&ok, 16); QChar::UnicodeVersion age = QChar::Unicode_Unassigned; QByteArray ba = l[1]; AgeMap *map = ageMap; while (map->age) { if (ba == map->age) { age = map->version; break; } ++map; } //qDebug() << hex << from << ".." << to << ba << age; Q_ASSERT(age != QChar::Unicode_Unassigned); for (int codepoint = from; codepoint <= to; ++codepoint) { UnicodeData d = unicodeData.value(codepoint, UnicodeData(codepoint)); d.p.age = age; unicodeData.insert(codepoint, d); } } } static void readCompositionExclusion() { QFile f("data/CompositionExclusions.txt"); if (!f.exists()) qFatal("Couldn't find CompositionExclusions.txt"); f.open(QFile::ReadOnly); while (!f.atEnd()) { QByteArray line; line.resize(1024); int len = f.readLine(line.data(), 1024); line.resize(len-1); int comment = line.indexOf('#'); if (comment >= 0) line = line.left(comment); line.replace(" ", ""); if (line.isEmpty()) continue; Q_ASSERT(!line.contains("..")); bool ok; int codepoint = line.toInt(&ok, 16); UnicodeData d = unicodeData.value(codepoint, UnicodeData(codepoint)); d.excludedComposition = true; unicodeData.insert(codepoint, d); } for (int i = 0; i < 0x110000; ++i) { UnicodeData data = unicodeData.value(i, UnicodeData(i)); if (!data.excludedComposition && data.decompositionType == QChar::Canonical && data.decomposition.size() > 1) { Q_ASSERT(data.decomposition.size() == 2); uint part1 = data.decomposition.at(0); uint part2 = data.decomposition.at(1); UnicodeData first = unicodeData.value(part1, UnicodeData(part1)); if (first.p.combiningClass != 0) continue; ++numLigatures; highestLigature = qMax(highestLigature, (int)part1); Ligature l = {(ushort)part1, (ushort)part2, i}; ligatureHashes[part2].append(l); } } } struct NormalizationCorrection { uint codepoint; uint mapped; uint version; }; static QByteArray createNormalizationCorrections() { QFile f("data/NormalizationCorrections.txt"); if (!f.exists()) qFatal("Couldn't find NormalizationCorrections.txt"); f.open(QFile::ReadOnly); QByteArray out; out += "struct NormalizationCorrection {\n" " uint ucs4;\n" " uint old_mapping;\n" " int version;\n" "};\n\n" "static const NormalizationCorrection uc_normalization_corrections[] = {\n"; int numCorrections = 0; while (!f.atEnd()) { QByteArray line; line.resize(1024); int len = f.readLine(line.data(), 1024); line.resize(len-1); int comment = line.indexOf('#'); if (comment >= 0) line = line.left(comment); line.replace(" ", ""); if (line.isEmpty()) continue; Q_ASSERT(!line.contains("..")); QList fields = line.split(';'); Q_ASSERT(fields.size() == 4); NormalizationCorrection c; bool ok; c.codepoint = fields.at(0).toInt(&ok, 16); c.mapped = fields.at(1).toInt(&ok, 16); if (fields.at(3) == "3.2.0") c.version = QChar::Unicode_3_2; else if (fields.at(3) == "4.0.0") c.version = QChar::Unicode_4_0; else qFatal("unknown unicode version in NormalizationCorrection.txt"); out += " { 0x" + QByteArray::number(c.codepoint, 16) + ", 0x" + QByteArray::number(c.mapped, 16) + ", " + QString::number(c.version) + " },\n"; ++numCorrections; } out += "};\n\n" "enum { NumNormalizationCorrections = " + QByteArray::number(numCorrections) + " };\n\n"; return out; } static void computeUniqueProperties() { qDebug("computeUniqueProperties:"); for (int uc = 0; uc < 0x110000; ++uc) { UnicodeData d = unicodeData.value(uc, UnicodeData(uc)); int index = uniqueProperties.indexOf(d.p); if (index == -1) { index = uniqueProperties.size(); uniqueProperties.append(d.p); } d.propertyIndex = index; unicodeData.insert(uc, d); } qDebug(" %d unicode properties found", uniqueProperties.size()); } static void readLineBreak() { QFile f("data/LineBreak.txt"); if (!f.exists()) qFatal("Couldn't find LineBreak.txt"); f.open(QFile::ReadOnly); while (!f.atEnd()) { QByteArray line; line.resize(1024); int len = f.readLine(line.data(), 1024); line.resize(len-1); int comment = line.indexOf('#'); if (comment >= 0) line = line.left(comment); line.replace(" ", ""); if (line.isEmpty()) continue; QList l = line.split(';'); Q_ASSERT(l.size() == 2); QByteArray codes = l[0]; codes.replace("..", "."); QList cl = codes.split('.'); bool ok; int from = cl[0].toInt(&ok, 16); int to = from; if (cl.size() == 2) to = cl[1].toInt(&ok, 16); // ### Classes XX and AI are left out and mapped to AL for now QUnicodeTables::LineBreakClass lb = QUnicodeTables::LineBreak_AL; QByteArray ba = l[1]; if (ba == "AI") lb = QUnicodeTables::LineBreak_AL; else if (ba == "XX") lb = QUnicodeTables::LineBreak_AL; else if (ba == "NL") lb = QUnicodeTables::LineBreak_AL; else if (ba == "OP") lb = QUnicodeTables::LineBreak_OP; else if (ba == "CL") lb = QUnicodeTables::LineBreak_CL; else if (ba == "QU") lb = QUnicodeTables::LineBreak_QU; else if (ba == "GL") lb = QUnicodeTables::LineBreak_GL; else if (ba == "NS") lb = QUnicodeTables::LineBreak_NS; else if (ba == "EX") lb = QUnicodeTables::LineBreak_EX; else if (ba == "SY") lb = QUnicodeTables::LineBreak_SY; else if (ba == "IS") lb = QUnicodeTables::LineBreak_IS; else if (ba == "PR") lb = QUnicodeTables::LineBreak_PR; else if (ba == "PO") lb = QUnicodeTables::LineBreak_PO; else if (ba == "NU") lb = QUnicodeTables::LineBreak_NU; else if (ba == "AL") lb = QUnicodeTables::LineBreak_AL; else if (ba == "ID") lb = QUnicodeTables::LineBreak_ID; else if (ba == "IN") lb = QUnicodeTables::LineBreak_IN; else if (ba == "HY") lb = QUnicodeTables::LineBreak_HY; else if (ba == "BA") lb = QUnicodeTables::LineBreak_BA; else if (ba == "BB") lb = QUnicodeTables::LineBreak_BB; else if (ba == "B2") lb = QUnicodeTables::LineBreak_B2; else if (ba == "ZW") lb = QUnicodeTables::LineBreak_ZW; else if (ba == "CM") lb = QUnicodeTables::LineBreak_CM; else if (ba == "SA") lb = QUnicodeTables::LineBreak_SA; else if (ba == "BK") lb = QUnicodeTables::LineBreak_BK; else if (ba == "CR") lb = QUnicodeTables::LineBreak_CR; else if (ba == "LF") lb = QUnicodeTables::LineBreak_LF; else if (ba == "SG") lb = QUnicodeTables::LineBreak_SG; else if (ba == "CB") lb = QUnicodeTables::LineBreak_AL; else if (ba == "SP") lb = QUnicodeTables::LineBreak_SP; else if (ba == "WJ") lb = QUnicodeTables::LineBreak_WJ; else if (ba == "H2") lb = QUnicodeTables::LineBreak_H2; else if (ba == "H3") lb = QUnicodeTables::LineBreak_H3; else if (ba == "JL") lb = QUnicodeTables::LineBreak_JL; else if (ba == "JV") lb = QUnicodeTables::LineBreak_JV; else if (ba == "JT") lb = QUnicodeTables::LineBreak_JT; else { qDebug() << "unhandled line break class:" << ba; } for (int codepoint = from; codepoint <= to; ++codepoint) { UnicodeData d = unicodeData.value(codepoint, UnicodeData(codepoint)); d.p.line_break_class = lb; unicodeData.insert(codepoint, d); } } } static void readSpecialCasing() { // qDebug() << "Reading SpecialCasing.txt"; QFile f("data/SpecialCasing.txt"); if (!f.exists()) qFatal("Couldn't find SpecialCasing.txt"); f.open(QFile::ReadOnly); while (!f.atEnd()) { QByteArray line; line.resize(1024); int len = f.readLine(line.data(), 1024); line.resize(len-1); int comment = line.indexOf('#'); if (comment >= 0) line = line.left(comment); if (line.isEmpty()) continue; QList l = line.split(';'); QByteArray condition = l.size() < 5 ? QByteArray() : l[4].trimmed(); if (!condition.isEmpty()) // ##### continue; bool ok; int codepoint = l[0].trimmed().toInt(&ok, 16); Q_ASSERT(ok); Q_ASSERT(codepoint <= 0xffff); // qDebug() << "codepoint" << hex << codepoint; // qDebug() << line; QList lower = l[1].trimmed().split(' '); QList lowerMap; for (int i = 0; i < lower.size(); ++i) { bool ok; lowerMap.append(lower.at(i).toInt(&ok, 16)); Q_ASSERT(ok); } QList title = l[2].trimmed().split(' '); QList titleMap; for (int i = 0; i < title.size(); ++i) { bool ok; titleMap.append(title.at(i).toInt(&ok, 16)); if (!ok) qDebug() << line << title.at(i); Q_ASSERT(ok); } QList upper = l[3].trimmed().split(' '); QList upperMap; for (int i = 0; i < upper.size(); ++i) { bool ok; upperMap.append(upper.at(i).toInt(&ok, 16)); Q_ASSERT(ok); } UnicodeData ud = unicodeData.value(codepoint, UnicodeData(codepoint)); Q_ASSERT(lowerMap.size() > 1 || lowerMap.at(0) == codepoint + ud.p.lowerCaseDiff); Q_ASSERT(titleMap.size() > 1 || titleMap.at(0) == codepoint + ud.p.titleCaseDiff); Q_ASSERT(upperMap.size() > 1 || upperMap.at(0) == codepoint + ud.p.upperCaseDiff); if (lowerMap.size() > 1) { ud.p.lowerCaseSpecial = true; ud.p.lowerCaseDiff = appendToSpecialCaseMap(lowerMap); } if (titleMap.size() > 1) { ud.p.titleCaseSpecial = true; ud.p.titleCaseDiff = appendToSpecialCaseMap(titleMap); } if (upperMap.size() > 1) { ud.p.upperCaseSpecial = true; ud.p.upperCaseDiff = appendToSpecialCaseMap(upperMap);; } unicodeData.insert(codepoint, ud); } } int maxCaseFoldDiff = 0; static void readCaseFolding() { qDebug() << "Reading CaseFolding.txt"; QFile f("data/CaseFolding.txt"); if (!f.exists()) qFatal("Couldn't find CaseFolding.txt"); f.open(QFile::ReadOnly); while (!f.atEnd()) { QByteArray line; line.resize(1024); int len = f.readLine(line.data(), 1024); line.resize(len-1); int comment = line.indexOf('#'); if (comment >= 0) line = line.left(comment); if (line.isEmpty()) continue; QList l = line.split(';'); bool ok; uint codepoint = l[0].trimmed().toInt(&ok, 16); Q_ASSERT(ok); l[1] = l[1].trimmed(); if (l[1] == "F" || l[1] == "T") continue; // qDebug() << "codepoint" << hex << codepoint; // qDebug() << line; QList fold = l[2].trimmed().split(' '); QList foldMap; for (int i = 0; i < fold.size(); ++i) { bool ok; foldMap.append(fold.at(i).toInt(&ok, 16)); Q_ASSERT(ok); } UnicodeData ud = unicodeData.value(codepoint, UnicodeData(codepoint)); if (foldMap.size() == 1) { ud.p.caseFoldDiff = foldMap.at(0) - codepoint; maxCaseFoldDiff = qMax(maxCaseFoldDiff, ud.p.caseFoldDiff); if (codepoint > 0xffff) { // if the condition below doesn't hold anymore we need to modify our case folding code //qDebug() << codepoint << QChar::highSurrogate(codepoint) << QChar::highSurrogate(foldMap.at(0)); Q_ASSERT(QChar::highSurrogate(codepoint) == QChar::highSurrogate(foldMap.at(0))); } if (foldMap.at(0) != codepoint + ud.p.lowerCaseDiff) qDebug() << hex << codepoint; } else { Q_ASSERT(false); // we currently don't support full case foldings // qDebug() << "special" << hex << foldMap; ud.p.caseFoldSpecial = true; ud.p.caseFoldDiff = appendToSpecialCaseMap(foldMap); } unicodeData.insert(codepoint, ud); } } static void readGraphemeBreak() { qDebug() << "Reading GraphemeBreakProperty.txt"; QFile f("data/GraphemeBreakProperty.txt"); if (!f.exists()) qFatal("Couldn't find GraphemeBreakProperty.txt"); f.open(QFile::ReadOnly); while (!f.atEnd()) { QByteArray line; line.resize(1024); int len = f.readLine(line.data(), 1024); line.resize(len-1); int comment = line.indexOf('#'); if (comment >= 0) line = line.left(comment); if (line.isEmpty()) continue; QList l = line.split(';'); QByteArray codes = l[0].trimmed(); codes.replace("..", "."); QList cl = codes.split('.'); bool ok; int from = cl[0].toInt(&ok, 16); Q_ASSERT(ok); int to = from; if (cl.size() == 2) { to = cl[1].toInt(&ok, 16); Q_ASSERT(ok); } GraphemeBreak brk = grapheme_break_map.value(l[1].trimmed(), GraphemeBreakOther); for (int codepoint = from; codepoint <= to; ++codepoint) { UnicodeData ud = unicodeData.value(codepoint, UnicodeData(codepoint)); ud.p.graphemeBreak = brk; unicodeData.insert(codepoint, ud); } } } static void readWordBreak() { qDebug() << "Reading WordBreakProperty.txt"; QFile f("data/WordBreakProperty.txt"); if (!f.exists()) qFatal("Couldn't find WordBreakProperty.txt"); f.open(QFile::ReadOnly); while (!f.atEnd()) { QByteArray line; line.resize(1024); int len = f.readLine(line.data(), 1024); line.resize(len-1); int comment = line.indexOf('#'); if (comment >= 0) line = line.left(comment); if (line.isEmpty()) continue; QList l = line.split(';'); QByteArray codes = l[0].trimmed(); codes.replace("..", "."); QList cl = codes.split('.'); bool ok; int from = cl[0].toInt(&ok, 16); Q_ASSERT(ok); int to = from; if (cl.size() == 2) { to = cl[1].toInt(&ok, 16); Q_ASSERT(ok); } WordBreak brk = word_break_map.value(l[1].trimmed(), WordBreakOther); Q_ASSERT(brk != WordBreakOther); for (int codepoint = from; codepoint <= to; ++codepoint) { UnicodeData ud = unicodeData.value(codepoint, UnicodeData(codepoint)); ud.p.wordBreak = brk; unicodeData.insert(codepoint, ud); } } } static void readSentenceBreak() { qDebug() << "Reading SentenceBreakProperty.txt"; QFile f("data/SentenceBreakProperty.txt"); if (!f.exists()) qFatal("Couldn't find SentenceBreakProperty.txt"); f.open(QFile::ReadOnly); while (!f.atEnd()) { QByteArray line; line.resize(1024); int len = f.readLine(line.data(), 1024); line.resize(len-1); int comment = line.indexOf('#'); if (comment >= 0) line = line.left(comment); if (line.isEmpty()) continue; QList l = line.split(';'); QByteArray codes = l[0].trimmed(); codes.replace("..", "."); QList cl = codes.split('.'); bool ok; int from = cl[0].toInt(&ok, 16); Q_ASSERT(ok); int to = from; if (cl.size() == 2) { to = cl[1].toInt(&ok, 16); Q_ASSERT(ok); } SentenceBreak brk = sentence_break_map.value(l[1].trimmed(), SentenceBreakOther); Q_ASSERT(brk != SentenceBreakOther); for (int codepoint = from; codepoint <= to; ++codepoint) { UnicodeData ud = unicodeData.value(codepoint, UnicodeData(codepoint)); ud.p.sentenceBreak = brk; unicodeData.insert(codepoint, ud); } } } #if 0 // this piece of code does full case folding and comparison. We currently // don't use it, since this gives lots of issues with things as case insensitive // search and replace. static inline void foldCase(uint ch, ushort *out) { const QUnicodeTables::Properties *p = qGetProp(ch); if (!p->caseFoldSpecial) { *(out++) = ch + p->caseFoldDiff; } else { const ushort *folded = specialCaseMap + p->caseFoldDiff; while (*folded) *out++ = *folded++; } *out = 0; } static int ucstricmp(const ushort *a, const ushort *ae, const ushort *b, const ushort *be) { if (a == b) return 0; if (a == 0) return 1; if (b == 0) return -1; while (a != ae && b != be) { const QUnicodeTables::Properties *pa = qGetProp(*a); const QUnicodeTables::Properties *pb = qGetProp(*b); if (pa->caseFoldSpecial | pb->caseFoldSpecial) goto special; int diff = (int)(*a + pa->caseFoldDiff) - (int)(*b + pb->caseFoldDiff); if ((diff)) return diff; ++a; ++b; } } if (a == ae) { if (b == be) return 0; return -1; } return 1; special: ushort abuf[SPECIAL_CASE_MAX_LEN + 1]; ushort bbuf[SPECIAL_CASE_MAX_LEN + 1]; abuf[0] = bbuf[0] = 0; ushort *ap = abuf; ushort *bp = bbuf; while (1) { if (!*ap) { if (a == ae) { if (!*bp && b == be) return 0; return -1; } foldCase(*(a++), abuf); ap = abuf; } if (!*bp) { if (b == be) return 1; foldCase(*(b++), bbuf); bp = bbuf; } if (*ap != *bp) return (int)*ap - (int)*bp; ++ap; ++bp; } } static int ucstricmp(const ushort *a, const ushort *ae, const uchar *b) { if (a == 0) return 1; if (b == 0) return -1; while (a != ae && *b) { const QUnicodeTables::Properties *pa = qGetProp(*a); const QUnicodeTables::Properties *pb = qGetProp((ushort)*b); if (pa->caseFoldSpecial | pb->caseFoldSpecial) goto special; int diff = (int)(*a + pa->caseFoldDiff) - (int)(*b + pb->caseFoldDiff); if ((diff)) return diff; ++a; ++b; } if (a == ae) { if (!*b) return 0; return -1; } return 1; special: ushort abuf[SPECIAL_CASE_MAX_LEN + 1]; ushort bbuf[SPECIAL_CASE_MAX_LEN + 1]; abuf[0] = bbuf[0] = 0; ushort *ap = abuf; ushort *bp = bbuf; while (1) { if (!*ap) { if (a == ae) { if (!*bp && !*b) return 0; return -1; } foldCase(*(a++), abuf); ap = abuf; } if (!*bp) { if (!*b) return 1; foldCase(*(b++), bbuf); bp = bbuf; } if (*ap != *bp) return (int)*ap - (int)*bp; ++ap; ++bp; } } #endif #if 0 static QList blockNames; struct BlockInfo { int blockIndex; int firstCodePoint; int lastCodePoint; }; static QList blockInfoList; static void readBlocks() { QFile f("data/Blocks.txt"); if (!f.exists()) qFatal("Couldn't find Blocks.txt"); f.open(QFile::ReadOnly); while (!f.atEnd()) { QByteArray line = f.readLine(); line.resize(line.size() - 1); int comment = line.indexOf("#"); if (comment >= 0) line = line.left(comment); line.replace(" ", ""); if (line.isEmpty()) continue; int semicolon = line.indexOf(';'); Q_ASSERT(semicolon >= 0); QByteArray codePoints = line.left(semicolon); QByteArray blockName = line.mid(semicolon + 1); int blockIndex = blockNames.indexOf(blockName); if (blockIndex < 0) { blockNames.append(blockName); blockIndex = blockNames.indexOf(blockName); Q_ASSERT(blockIndex >= 0); } int dotdot = codePoints.indexOf(".."); Q_ASSERT(dotdot >= 0); bool unused; int first = codePoints.left(dotdot).toInt(&unused, 16); int last = codePoints.mid(dotdot + 2).toInt(&unused, 16); BlockInfo blockInfo = { blockIndex, first, last }; blockInfoList.append(blockInfo); } } #endif static QList scriptNames; static QHash scriptAssignment; static QHash scriptHash; struct ExtraBlock { int block; QVector vector; }; static QList extraBlockList; static void readScripts() { scriptNames.append("Common"); static const char *files[] = { "data/ScriptsInitial.txt", "data/Scripts.txt", "data/ScriptsCorrections.txt" }; enum { fileCount = sizeof(files) / sizeof(const char *) }; for (int i = 0; i < fileCount; ++i) { QFile f(files[i]); if (!f.exists()) qFatal("Couldn't find %s", files[i]); f.open(QFile::ReadOnly); while (!f.atEnd()) { QByteArray line = f.readLine(); line.resize(line.size() - 1); int comment = line.indexOf("#"); if (comment >= 0) line = line.left(comment); line.replace(" ", ""); line.replace("_", ""); if (line.isEmpty()) continue; int semicolon = line.indexOf(';'); Q_ASSERT(semicolon >= 0); QByteArray codePoints = line.left(semicolon); QByteArray scriptName = line.mid(semicolon + 1); int scriptIndex = scriptNames.indexOf(scriptName); if (scriptIndex < 0) { scriptNames.append(scriptName); scriptIndex = scriptNames.indexOf(scriptName); Q_ASSERT(scriptIndex >= 0); } int dotdot = codePoints.indexOf(".."); bool unused; int first = -1, last = -1; if (dotdot >= 0) { first = codePoints.left(dotdot).toInt(&unused, 16); last = codePoints.mid(dotdot + 2).toInt(&unused, 16); } else { first = codePoints.toInt(&unused, 16); } if (last != -1) { for (int i = first; i <= last; ++i) scriptAssignment[i] = scriptIndex; } else { scriptAssignment[first] = scriptIndex; } } } } static int scriptSentinel = 0; QByteArray createScriptEnumDeclaration() { static const char *specialScripts[] = { "Common", "Arabic", "Armenian", "Bengali", "Cyrillic", "Devanagari", "Georgian", "Greek", "Gujarati", "Gurmukhi", "Hangul", "Hebrew", "Kannada", "Khmer", "Lao", "Malayalam", "Myanmar", "Ogham", "Oriya", "Runic", "Sinhala", "Syriac", "Tamil", "Telugu", "Thaana", "Thai", "Tibetan", "Inherited" }; const int specialScriptsCount = sizeof(specialScripts) / sizeof(const char *); // generate script enum QByteArray declaration; declaration += " // See http://www.unicode.org/reports/tr24/tr24-5.html\n\n"; declaration += " enum Script {\n Common"; int uniqueScripts = 1; // Common // output the ones with special processing first for (int i = 1; i < scriptNames.size(); ++i) { QByteArray scriptName = scriptNames.at(i); // does the script require special processing? bool special = false; for (int s = 0; !special && s < specialScriptsCount; ++s) { if (scriptName == specialScripts[s]) special = true; } if (!special) { scriptHash[i] = 0; // alias for 'Common' continue; } else { ++uniqueScripts; scriptHash[i] = i; } declaration += ",\n "; declaration += scriptName; } declaration += ",\n ScriptCount = Inherited"; // output the ones that are an alias for 'Common' for (int i = 1; i < scriptNames.size(); ++i) { if (scriptHash.value(i) != 0) continue; QByteArray scriptName = scriptNames.at(i); scriptName += " = Common"; declaration += ",\n "; declaration += scriptName; } declaration += "\n };\n"; scriptSentinel = ((uniqueScripts + 16) / 32) * 32; // a multiple of 32 declaration += " enum { ScriptSentinel = "; declaration += QByteArray::number(scriptSentinel); declaration += " };\n\n"; return declaration; } QByteArray createScriptTableDeclaration() { Q_ASSERT(scriptSentinel > 0); QByteArray declaration; const int unicodeBlockCount = 512; // number of unicode blocks const int unicodeBlockSize = 128; // size of each block declaration = "enum { UnicodeBlockCount = "; declaration += QByteArray::number(unicodeBlockCount); declaration += " }; // number of unicode blocks\n"; declaration += "enum { UnicodeBlockSize = "; declaration += QByteArray::number(unicodeBlockSize); declaration += " }; // size of each block\n\n"; // script table declaration += "namespace QUnicodeTables {\n\nstatic const unsigned char uc_scripts[] = {\n"; for (int i = 0; i < unicodeBlockCount; ++i) { int block = (((i << 7) & 0xff00) | ((i & 1) * 0x80)); int blockAssignment[unicodeBlockSize]; for (int x = 0; x < unicodeBlockSize; ++x) { int codePoint = (i << 7) | x; blockAssignment[x] = scriptAssignment.value(codePoint, 0); } bool allTheSame = true; const int originalScript = blockAssignment[0]; const int script = scriptHash.value(originalScript); for (int x = 1; allTheSame && x < unicodeBlockSize; ++x) { const int s = scriptHash.value(blockAssignment[x]); if (s != script) allTheSame = false; } if (allTheSame) { declaration += " "; declaration += scriptNames.value(originalScript); declaration += ", /* U+"; declaration += QByteArray::number(block, 16).rightJustified(4, '0'); declaration += '-'; declaration += QByteArray::number(block + unicodeBlockSize - 1, 16).rightJustified(4, '0'); declaration += " */\n"; } else { const int value = extraBlockList.size() + scriptSentinel; const int offset = ((value - scriptSentinel) * unicodeBlockSize) + unicodeBlockCount; declaration += " "; declaration += QByteArray::number(value); declaration += ", /* U+"; declaration += QByteArray::number(block, 16).rightJustified(4, '0'); declaration += '-'; declaration += QByteArray::number(block + unicodeBlockSize - 1, 16).rightJustified(4, '0'); declaration += " at offset "; declaration += QByteArray::number(offset); declaration += " */\n"; ExtraBlock extraBlock; extraBlock.block = block; extraBlock.vector.resize(unicodeBlockSize); for (int x = 0; x < unicodeBlockSize; ++x) extraBlock.vector[x] = blockAssignment[x]; extraBlockList.append(extraBlock); } } for (int i = 0; i < extraBlockList.size(); ++i) { const int value = i + scriptSentinel; const int offset = ((value - scriptSentinel) * unicodeBlockSize) + unicodeBlockCount; const ExtraBlock &extraBlock = extraBlockList.at(i); const int block = extraBlock.block; declaration += "\n\n /* U+"; declaration += QByteArray::number(block, 16).rightJustified(4, '0'); declaration += '-'; declaration += QByteArray::number(block + unicodeBlockSize - 1, 16).rightJustified(4, '0'); declaration += " at offset "; declaration += QByteArray::number(offset); declaration += " */\n "; for (int x = 0; x < extraBlock.vector.size(); ++x) { const int o = extraBlock.vector.at(x); declaration += scriptNames.value(o); if (x < extraBlock.vector.size() - 1 || i < extraBlockList.size() - 1) declaration += ','; if ((x & 7) == 7 && x < extraBlock.vector.size() - 1) declaration += "\n "; else declaration += ' '; } } declaration += "\n};\n\n} // namespace QUnicodeTables\n\n"; qDebug("createScriptTableDeclaration: table size is %d bytes", unicodeBlockCount + (extraBlockList.size() * unicodeBlockSize)); return declaration; } #if 0 static void dump(int from, int to) { for (int i = from; i <= to; ++i) { UnicodeData d = unicodeData.value(i, UnicodeData(i)); qDebug("0x%04x: cat=%d combining=%d dir=%d case=%x mirror=%x joining=%d age=%d", i, d.p.category, d.p.combiningClass, d.p.direction, d.otherCase, d.mirroredChar, d.p.joining, d.p.age); if (d.decompositionType != QChar::NoDecomposition) { qDebug(" decomposition: type=%d, length=%d, first=%x", d.decompositionType, d.decomposition.size(), d.decomposition[0]); } } qDebug(" "); } #endif struct PropertyBlock { PropertyBlock() { index = -1; } int index; QList properties; bool operator ==(const PropertyBlock &other) { return properties == other.properties; } }; static QByteArray createPropertyInfo() { qDebug("createPropertyInfo:"); const int BMP_BLOCKSIZE=32; const int BMP_SHIFT = 5; const int BMP_END = 0x11000; const int SMP_END = 0x110000; const int SMP_BLOCKSIZE = 256; const int SMP_SHIFT = 8; QList blocks; QList blockMap; int used = 0; for (int block = 0; block < BMP_END/BMP_BLOCKSIZE; ++block) { PropertyBlock b; for (int i = 0; i < BMP_BLOCKSIZE; ++i) { int uc = block*BMP_BLOCKSIZE + i; UnicodeData d = unicodeData.value(uc, UnicodeData(uc)); b.properties.append(d.propertyIndex); } int index = blocks.indexOf(b); if (index == -1) { index = blocks.size(); b.index = used; used += BMP_BLOCKSIZE; blocks.append(b); } blockMap.append(blocks.at(index).index); } int bmp_blocks = blocks.size(); Q_ASSERT(blockMap.size() == BMP_END/BMP_BLOCKSIZE); for (int block = BMP_END/SMP_BLOCKSIZE; block < SMP_END/SMP_BLOCKSIZE; ++block) { PropertyBlock b; for (int i = 0; i < SMP_BLOCKSIZE; ++i) { int uc = block*SMP_BLOCKSIZE + i; UnicodeData d = unicodeData.value(uc, UnicodeData(uc)); b.properties.append(d.propertyIndex); } int index = blocks.indexOf(b); if (index == -1) { index = blocks.size(); b.index = used; used += SMP_BLOCKSIZE; blocks.append(b); } blockMap.append(blocks.at(index).index); } int bmp_block_data = bmp_blocks*BMP_BLOCKSIZE*2; int bmp_trie = BMP_END/BMP_BLOCKSIZE*2; int bmp_mem = bmp_block_data + bmp_trie; qDebug(" %d unique blocks in BMP.",blocks.size()); qDebug(" block data uses: %d bytes", bmp_block_data); qDebug(" trie data uses : %d bytes", bmp_trie); int smp_block_data = (blocks.size()- bmp_blocks)*SMP_BLOCKSIZE*2; int smp_trie = (SMP_END-BMP_END)/SMP_BLOCKSIZE*2; int smp_mem = smp_block_data + smp_trie; qDebug(" %d unique blocks in SMP.",blocks.size()-bmp_blocks); qDebug(" block data uses: %d bytes", smp_block_data); qDebug(" trie data uses : %d bytes", smp_trie); qDebug("\n properties use : %d bytes", uniqueProperties.size()*20); qDebug(" memory usage: %d bytes", bmp_mem+smp_mem + uniqueProperties.size()*20); QByteArray out; out += "static const unsigned short uc_property_trie[] = {\n"; // first write the map out += " // 0x" + QByteArray::number(BMP_END, 16); for (int i = 0; i < BMP_END/BMP_BLOCKSIZE; ++i) { if (!(i % 8)) { if (out.endsWith(' ')) out.chop(1); if (!((i*BMP_BLOCKSIZE) % 0x1000)) out += "\n"; out += "\n "; } out += QByteArray::number(blockMap.at(i) + blockMap.size()); out += ", "; } if (out.endsWith(' ')) out.chop(1); out += "\n\n // 0x" + QByteArray::number(BMP_END, 16) + " - 0x" + QByteArray::number(SMP_END, 16) + "\n";; for (int i = BMP_END/BMP_BLOCKSIZE; i < blockMap.size(); ++i) { if (!(i % 8)) { if (out.endsWith(' ')) out.chop(1); if (!(i % (0x10000/SMP_BLOCKSIZE))) out += "\n"; out += "\n "; } out += QByteArray::number(blockMap.at(i) + blockMap.size()); out += ", "; } if (out.endsWith(' ')) out.chop(1); out += "\n"; // write the data for (int i = 0; i < blocks.size(); ++i) { if (out.endsWith(' ')) out.chop(1); out += "\n"; const PropertyBlock &b = blocks.at(i); for (int j = 0; j < b.properties.size(); ++j) { if (!(j % 8)) { if (out.endsWith(' ')) out.chop(1); out += "\n "; } out += QByteArray::number(b.properties.at(j)); out += ", "; } } // we reserve one bit more than in the assert below for the sign Q_ASSERT(maxMirroredDiff < (1<<12)); Q_ASSERT(maxLowerCaseDiff < (1<<14)); Q_ASSERT(maxUpperCaseDiff < (1<<14)); Q_ASSERT(maxTitleCaseDiff < (1<<14)); Q_ASSERT(maxCaseFoldDiff < (1<<14)); if (out.endsWith(' ')) out.chop(1); out += "\n};\n\n" "#define GET_PROP_INDEX(ucs4) \\\n" " (ucs4 < 0x" + QByteArray::number(BMP_END, 16) + " \\\n" " ? (uc_property_trie[uc_property_trie[ucs4>>" + QByteArray::number(BMP_SHIFT) + "] + (ucs4 & 0x" + QByteArray::number(BMP_BLOCKSIZE-1, 16)+ ")]) \\\n" " : (uc_property_trie[uc_property_trie[((ucs4 - 0x" + QByteArray::number(BMP_END, 16) + ")>>" + QByteArray::number(SMP_SHIFT) + ") + 0x" + QByteArray::number(BMP_END/BMP_BLOCKSIZE, 16) + "]" " + (ucs4 & 0x" + QByteArray::number(SMP_BLOCKSIZE-1, 16) + ")]))\n\n" "#define GET_PROP_INDEX_UCS2(ucs2) \\\n" "(uc_property_trie[uc_property_trie[ucs2>>" + QByteArray::number(BMP_SHIFT) + "] + (ucs2 & 0x" + QByteArray::number(BMP_BLOCKSIZE-1, 16)+ ")])\n\n" "static const QUnicodeTables::Properties uc_properties [] = {\n"; // keep in sync with the property declaration for (int i = 0; i < uniqueProperties.size(); ++i) { PropertyFlags p = uniqueProperties.at(i); out += " { "; // " ushort category : 8;\n" out += QByteArray::number( p.category ); out += ", "; // " ushort line_break_class : 8;\n" out += QByteArray::number( p.line_break_class ); out += ", "; // " ushort direction : 8;\n" out += QByteArray::number( p.direction ); out += ", "; // " ushort combiningClass :8;\n" out += QByteArray::number( p.combiningClass ); out += ", "; // " ushort joining : 2;\n" out += QByteArray::number( p.joining ); out += ", "; // " signed short digitValue : 6;\n /* 5 needed */" out += QByteArray::number( p.digitValue ); out += ", "; // " ushort unicodeVersion : 4;\n" out += QByteArray::number( p.age ); out += ", "; // " ushort lowerCaseSpecial : 1;\n" // " ushort upperCaseSpecial : 1;\n" // " ushort titleCaseSpecial : 1;\n" // " ushort caseFoldSpecial : 1;\n" out += QByteArray::number( p.lowerCaseSpecial ); out += ", "; out += QByteArray::number( p.upperCaseSpecial ); out += ", "; out += QByteArray::number( p.titleCaseSpecial ); out += ", "; out += QByteArray::number( p.caseFoldSpecial ); out += ", "; // " signed short mirrorDiff : 16;\n" // " signed short lowerCaseDiff : 16;\n" // " signed short upperCaseDiff : 16;\n" // " signed short titleCaseDiff : 16;\n" // " signed short caseFoldDiff : 16;\n" out += QByteArray::number( p.mirrorDiff ); out += ", "; out += QByteArray::number( p.lowerCaseDiff ); out += ", "; out += QByteArray::number( p.upperCaseDiff ); out += ", "; out += QByteArray::number( p.titleCaseDiff ); out += ", "; out += QByteArray::number( p.caseFoldDiff ); out += ", "; out += QByteArray::number( p.graphemeBreak ); out += ", "; out += QByteArray::number( p.wordBreak ); out += ", "; out += QByteArray::number( p.sentenceBreak ); out += "},\n"; } out += "};\n\n"; out += "static inline const QUnicodeTables::Properties *qGetProp(uint ucs4)\n" "{\n" " int index = GET_PROP_INDEX(ucs4);\n" " return uc_properties + index;\n" "}\n" "\n" "static inline const QUnicodeTables::Properties *qGetProp(ushort ucs2)\n" "{\n" " int index = GET_PROP_INDEX_UCS2(ucs2);\n" " return uc_properties + index;\n" "}\n" "\n" "Q_CORE_EXPORT const QUnicodeTables::Properties * QT_FASTCALL QUnicodeTables::properties(uint ucs4)\n" "{\n" " int index = GET_PROP_INDEX(ucs4);\n" " return uc_properties + index;\n" "}\n" "\n" "Q_CORE_EXPORT const QUnicodeTables::Properties * QT_FASTCALL QUnicodeTables::properties(ushort ucs2)\n" "{\n" " int index = GET_PROP_INDEX_UCS2(ucs2);\n" " return uc_properties + index;\n" "}\n\n"; out += "#define CURRENT_VERSION "CURRENT_UNICODE_VERSION"\n\n"; out += "static const ushort specialCaseMap [] = {"; for (int i = 0; i < specialCaseMap.size(); ++i) { if (!(i % 16)) out += "\n "; out += QByteArray(" 0x") + QByteArray::number(specialCaseMap.at(i), 16); if (i < specialCaseMap.size() - 1) out += ","; } out += "\n};\n"; out += "#define SPECIAL_CASE_MAX_LEN " + QByteArray::number(specialCaseMaxLen) + "\n\n"; qDebug() << "Special case map uses " << specialCaseMap.size()*2 << "bytes"; return out; } struct DecompositionBlock { DecompositionBlock() { index = -1; } int index; QList decompositionPositions; bool operator ==(const DecompositionBlock &other) { return decompositionPositions == other.decompositionPositions; } }; static QByteArray createCompositionInfo() { qDebug("createCompositionInfo:"); const int BMP_BLOCKSIZE=16; const int BMP_SHIFT = 4; const int BMP_END = 0x3400; // start of Han const int SMP_END = 0x30000; const int SMP_BLOCKSIZE = 256; const int SMP_SHIFT = 8; if(SMP_END <= highestComposedCharacter) qFatal("end of table smaller than highest composed character at %x", highestComposedCharacter); QList blocks; QList blockMap; QList decompositions; int used = 0; int tableIndex = 0; for (int block = 0; block < BMP_END/BMP_BLOCKSIZE; ++block) { DecompositionBlock b; for (int i = 0; i < BMP_BLOCKSIZE; ++i) { int uc = block*BMP_BLOCKSIZE + i; UnicodeData d = unicodeData.value(uc, UnicodeData(uc)); if (!d.decomposition.isEmpty()) { int utf16Chars = 0; for (int j = 0; j < d.decomposition.size(); ++j) utf16Chars += d.decomposition.at(j) > 0x10000 ? 2 : 1; decompositions.append(d.decompositionType + (utf16Chars<<8)); for (int j = 0; j < d.decomposition.size(); ++j) { int code = d.decomposition.at(j); if (code > 0x10000) { // save as surrogate pair code -= 0x10000; ushort high = code/0x400 + 0xd800; ushort low = code%0x400 + 0xdc00; decompositions.append(high); decompositions.append(low); } else { decompositions.append(code); } } b.decompositionPositions.append(tableIndex); tableIndex += utf16Chars + 1; } else { b.decompositionPositions.append(0xffff); } } int index = blocks.indexOf(b); if (index == -1) { index = blocks.size(); b.index = used; used += BMP_BLOCKSIZE; blocks.append(b); } blockMap.append(blocks.at(index).index); } int bmp_blocks = blocks.size(); Q_ASSERT(blockMap.size() == BMP_END/BMP_BLOCKSIZE); for (int block = BMP_END/SMP_BLOCKSIZE; block < SMP_END/SMP_BLOCKSIZE; ++block) { DecompositionBlock b; for (int i = 0; i < SMP_BLOCKSIZE; ++i) { int uc = block*SMP_BLOCKSIZE + i; UnicodeData d = unicodeData.value(uc, UnicodeData(uc)); if (!d.decomposition.isEmpty()) { int utf16Chars = 0; for (int j = 0; j < d.decomposition.size(); ++j) utf16Chars += d.decomposition.at(j) > 0x10000 ? 2 : 1; decompositions.append(d.decompositionType + (utf16Chars<<8)); for (int j = 0; j < d.decomposition.size(); ++j) { int code = d.decomposition.at(j); if (code > 0x10000) { // save as surrogate pair code -= 0x10000; ushort high = code/0x400 + 0xd800; ushort low = code%0x400 + 0xdc00; decompositions.append(high); decompositions.append(low); } else { decompositions.append(code); } } b.decompositionPositions.append(tableIndex); tableIndex += utf16Chars + 1; } else { b.decompositionPositions.append(0xffff); } } int index = blocks.indexOf(b); if (index == -1) { index = blocks.size(); b.index = used; used += SMP_BLOCKSIZE; blocks.append(b); } blockMap.append(blocks.at(index).index); } int bmp_block_data = bmp_blocks*BMP_BLOCKSIZE*2; int bmp_trie = BMP_END/BMP_BLOCKSIZE*2; int bmp_mem = bmp_block_data + bmp_trie; qDebug(" %d unique blocks in BMP.",blocks.size()); qDebug(" block data uses: %d bytes", bmp_block_data); qDebug(" trie data uses : %d bytes", bmp_trie); qDebug(" memory usage: %d bytes", bmp_mem); int smp_block_data = (blocks.size()- bmp_blocks)*SMP_BLOCKSIZE*2; int smp_trie = (SMP_END-BMP_END)/SMP_BLOCKSIZE*2; int smp_mem = smp_block_data + smp_trie; qDebug(" %d unique blocks in SMP.",blocks.size()-bmp_blocks); qDebug(" block data uses: %d bytes", smp_block_data); qDebug(" trie data uses : %d bytes", smp_trie); qDebug("\n decomposition table use : %d bytes", decompositions.size()*2); qDebug(" memory usage: %d bytes", bmp_mem+smp_mem + decompositions.size()*2); QByteArray out; out += "static const unsigned short uc_decomposition_trie[] = {\n"; // first write the map out += " // 0 - 0x" + QByteArray::number(BMP_END, 16); for (int i = 0; i < BMP_END/BMP_BLOCKSIZE; ++i) { if (!(i % 8)) { if (out.endsWith(' ')) out.chop(1); if (!((i*BMP_BLOCKSIZE) % 0x1000)) out += "\n"; out += "\n "; } out += QByteArray::number(blockMap.at(i) + blockMap.size()); out += ", "; } if (out.endsWith(' ')) out.chop(1); out += "\n\n // 0x" + QByteArray::number(BMP_END, 16) + " - 0x" + QByteArray::number(SMP_END, 16) + "\n";; for (int i = BMP_END/BMP_BLOCKSIZE; i < blockMap.size(); ++i) { if (!(i % 8)) { if (out.endsWith(' ')) out.chop(1); if (!(i % (0x10000/SMP_BLOCKSIZE))) out += "\n"; out += "\n "; } out += QByteArray::number(blockMap.at(i) + blockMap.size()); out += ", "; } if (out.endsWith(' ')) out.chop(1); out += "\n"; // write the data for (int i = 0; i < blocks.size(); ++i) { if (out.endsWith(' ')) out.chop(1); out += "\n"; const DecompositionBlock &b = blocks.at(i); for (int j = 0; j < b.decompositionPositions.size(); ++j) { if (!(j % 8)) { if (out.endsWith(' ')) out.chop(1); out += "\n "; } out += "0x" + QByteArray::number(b.decompositionPositions.at(j), 16); out += ", "; } } if (out.endsWith(' ')) out.chop(1); out += "\n};\n\n" "#define GET_DECOMPOSITION_INDEX(ucs4) \\\n" " (ucs4 < 0x" + QByteArray::number(BMP_END, 16) + " \\\n" " ? (uc_decomposition_trie[uc_decomposition_trie[ucs4>>" + QByteArray::number(BMP_SHIFT) + "] + (ucs4 & 0x" + QByteArray::number(BMP_BLOCKSIZE-1, 16)+ ")]) \\\n" " : (ucs4 < 0x" + QByteArray::number(SMP_END, 16) + "\\\n" " ? uc_decomposition_trie[uc_decomposition_trie[((ucs4 - 0x" + QByteArray::number(BMP_END, 16) + ")>>" + QByteArray::number(SMP_SHIFT) + ") + 0x" + QByteArray::number(BMP_END/BMP_BLOCKSIZE, 16) + "]" " + (ucs4 & 0x" + QByteArray::number(SMP_BLOCKSIZE-1, 16) + ")]\\\n" " : 0xffff))\n\n" "static const unsigned short uc_decomposition_map[] = {\n"; for (int i = 0; i < decompositions.size(); ++i) { if (!(i % 8)) { if (out.endsWith(' ')) out.chop(1); out += "\n "; } out += "0x" + QByteArray::number(decompositions.at(i), 16); out += ", "; } if (out.endsWith(' ')) out.chop(1); out += "\n};\n\n"; return out; } static QByteArray createLigatureInfo() { qDebug("createLigatureInfo: numLigatures=%d", numLigatures); QList blocks; QList blockMap; QList ligatures; const int BMP_BLOCKSIZE = 32; const int BMP_SHIFT = 5; const int BMP_END = 0x3100; Q_ASSERT(highestLigature < BMP_END); int used = 0; int tableIndex = 0; for (int block = 0; block < BMP_END/BMP_BLOCKSIZE; ++block) { DecompositionBlock b; for (int i = 0; i < BMP_BLOCKSIZE; ++i) { int uc = block*BMP_BLOCKSIZE + i; QList l = ligatureHashes.value(uc); if (!l.isEmpty()) { b.decompositionPositions.append(tableIndex); qSort(l); ligatures.append(l.size()); for (int i = 0; i < l.size(); ++i) { Q_ASSERT(l.at(i).u2 == uc); ligatures.append(l.at(i).u1); ligatures.append(l.at(i).ligature); } tableIndex += 2*l.size() + 1; } else { b.decompositionPositions.append(0xffff); } } int index = blocks.indexOf(b); if (index == -1) { index = blocks.size(); b.index = used; used += BMP_BLOCKSIZE; blocks.append(b); } blockMap.append(blocks.at(index).index); } int bmp_blocks = blocks.size(); Q_ASSERT(blockMap.size() == BMP_END/BMP_BLOCKSIZE); int bmp_block_data = bmp_blocks*BMP_BLOCKSIZE*2; int bmp_trie = BMP_END/BMP_BLOCKSIZE*2; int bmp_mem = bmp_block_data + bmp_trie; qDebug(" %d unique blocks in BMP.",blocks.size()); qDebug(" block data uses: %d bytes", bmp_block_data); qDebug(" trie data uses : %d bytes", bmp_trie); qDebug(" ligature data uses : %d bytes", ligatures.size()*2); qDebug(" memory usage: %d bytes", bmp_mem + ligatures.size() * 2); QByteArray out; out += "static const unsigned short uc_ligature_trie[] = {\n"; // first write the map out += " // 0 - 0x" + QByteArray::number(BMP_END, 16); for (int i = 0; i < BMP_END/BMP_BLOCKSIZE; ++i) { if (!(i % 8)) { if (out.endsWith(' ')) out.chop(1); if (!((i*BMP_BLOCKSIZE) % 0x1000)) out += "\n"; out += "\n "; } out += QByteArray::number(blockMap.at(i) + blockMap.size()); out += ", "; } if (out.endsWith(' ')) out.chop(1); out += "\n"; // write the data for (int i = 0; i < blocks.size(); ++i) { if (out.endsWith(' ')) out.chop(1); out += "\n"; const DecompositionBlock &b = blocks.at(i); for (int j = 0; j < b.decompositionPositions.size(); ++j) { if (!(j % 8)) { if (out.endsWith(' ')) out.chop(1); out += "\n "; } out += "0x" + QByteArray::number(b.decompositionPositions.at(j), 16); out += ", "; } } if (out.endsWith(' ')) out.chop(1); out += "\n};\n\n" "#define GET_LIGATURE_INDEX(u2) " "(u2 < 0x" + QByteArray::number(BMP_END, 16) + " ? " "uc_ligature_trie[uc_ligature_trie[u2>>" + QByteArray::number(BMP_SHIFT) + "] + (u2 & 0x" + QByteArray::number(BMP_BLOCKSIZE-1, 16)+ ")] : 0xffff);\n\n" "static const unsigned short uc_ligature_map [] = {\n"; for (int i = 0; i < ligatures.size(); ++i) { if (!(i % 8)) { if (out.endsWith(' ')) out.chop(1); out += "\n "; } out += "0x" + QByteArray::number(ligatures.at(i), 16); out += ", "; } if (out.endsWith(' ')) out.chop(1); out += "\n};\n\n"; return out; } QByteArray createCasingInfo() { QByteArray out; out += "struct CasingInfo {\n" " uint codePoint : 16;\n" " uint flags : 8;\n" " uint offset : 8;\n" "};\n\n"; return out; } int main(int, char **) { initCategoryMap(); initDirectionMap(); initDecompositionMap(); initGraphemeBreak(); initWordBreak(); initSentenceBreak(); readUnicodeData(); readBidiMirroring(); readArabicShaping(); readDerivedAge(); readCompositionExclusion(); readLineBreak(); readSpecialCasing(); readCaseFolding(); // readBlocks(); readScripts(); readGraphemeBreak(); readWordBreak(); readSentenceBreak(); computeUniqueProperties(); QByteArray properties = createPropertyInfo(); QByteArray compositions = createCompositionInfo(); QByteArray ligatures = createLigatureInfo(); QByteArray normalizationCorrections = createNormalizationCorrections(); QByteArray scriptEnumDeclaration = createScriptEnumDeclaration(); QByteArray scriptTableDeclaration = createScriptTableDeclaration(); QFile f("../../src/corelib/tools/qunicodetables.cpp"); f.open(QFile::WriteOnly|QFile::Truncate); QByteArray header = "/****************************************************************************\n" "**\n" "** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies).\n" "** Contact: Nokia Corporation (qt-info@nokia.com)\n" "**\n" "** This file is part of the QtCore module of the Qt Toolkit.\n" "**\n" "** $QT_BEGIN_LICENSE:LGPL$\n" "** No Commercial Usage\n" "** This file contains pre-release code and may not be distributed.\n" "** You may use this file in accordance with the terms and conditions\n" "** contained in the either Technology Preview License Agreement or the\n" "** Beta Release License Agreement.\n" "**\n" "** GNU Lesser General Public License Usage\n" "** Alternatively, this file may be used under the terms of the GNU Lesser\n" "** General Public License version 2.1 as published by the Free Software\n" "** Foundation and appearing in the file LICENSE.LGPL included in the\n" "** packaging of this file. Please review the following information to\n" "** ensure the GNU Lesser General Public License version 2.1 requirements\n" "** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html.\n" "**\n" "** In addition, as a special exception, Nokia gives you certain\n" "** additional rights. These rights are described in the Nokia Qt LGPL\n" "** Exception version 1.0, included in the file LGPL_EXCEPTION.txt in this\n" "** package.\n" "**\n" "** GNU General Public License Usage\n" "** Alternatively, this file may be used under the terms of the GNU\n" "** General Public License version 3.0 as published by the Free Software\n" "** Foundation and appearing in the file LICENSE.GPL included in the\n" "** packaging of this file. Please review the following information to\n" "** ensure the GNU General Public License version 3.0 requirements will be\n" "** met: http://www.gnu.org/copyleft/gpl.html.\n" "**\n" "** If you are unsure which license is appropriate for your use, please\n" "** contact the sales department at http://qt.nokia.com/contact.\n" "** $QT_END_LICENSE$\n" "**\n" "****************************************************************************/\n\n" "/* This file is autogenerated from the Unicode 5.0 database. Do not edit */\n\n"; QByteArray warning = "//\n" "// W A R N I N G\n" "// -------------\n" "//\n" "// This file is not part of the Qt API. It exists for the convenience\n" "// of internal files. This header file may change from version to version\n" "// without notice, or even be removed.\n" "//\n" "// We mean it.\n" "//\n\n"; f.write(header); f.write("QT_BEGIN_NAMESPACE\n\n"); f.write(properties); f.write(compositions); f.write(ligatures); f.write(normalizationCorrections); f.write(scriptTableDeclaration); f.write("\nQT_END_NAMESPACE\n"); f.close(); f.setFileName("../../src/corelib/tools/qunicodetables_p.h"); f.open(QFile::WriteOnly | QFile::Truncate); f.write(header); f.write(warning); f.write("#ifndef QUNICODETABLES_P_H\n" "#define QUNICODETABLES_P_H\n\n" "#include \n\n" "QT_BEGIN_NAMESPACE\n\n"); f.write("namespace QUnicodeTables {\n"); f.write(property_string); f.write("\n"); f.write(scriptEnumDeclaration); f.write("\n"); f.write(lineBreakClass); f.write("\n"); f.write(methods); f.write("\n"); f.write(grapheme_break_string); f.write("\n"); f.write(word_break_string); f.write("\n"); f.write(sentence_break_string); f.write("\n}\n\n" "QT_END_NAMESPACE\n\n" "#endif\n"); f.close(); qDebug() << "maxMirroredDiff = " << hex << maxMirroredDiff; qDebug() << "maxLowerCaseDiff = " << hex << maxLowerCaseDiff; qDebug() << "maxUpperCaseDiff = " << hex << maxUpperCaseDiff; qDebug() << "maxTitleCaseDiff = " << hex << maxTitleCaseDiff; qDebug() << "maxCaseFoldDiff = " << hex << maxCaseFoldDiff; #if 0 // dump(0, 0x7f); // dump(0x620, 0x640); // dump(0x10000, 0x10020); // dump(0x10800, 0x10820); qDebug("decompositionLength used:"); int totalcompositions = 0; int sum = 0; for (int i = 1; i < 20; ++i) { qDebug(" length %d used %d times", i, decompositionLength.value(i, 0)); totalcompositions += i*decompositionLength.value(i, 0); sum += decompositionLength.value(i, 0); } qDebug(" len decomposition map %d, average length %f, num composed chars %d", totalcompositions, (float)totalcompositions/(float)sum, sum); qDebug("highest composed character %x", highestComposedCharacter); qDebug("num ligatures = %d highest=%x, maxLength=%d", numLigatures, highestLigature, longestLigature); qBubbleSort(ligatures); for (int i = 0; i < ligatures.size(); ++i) qDebug("%s", ligatures.at(i).data()); // qDebug("combiningClass usage:"); // int numClasses = 0; // for (int i = 0; i < 255; ++i) { // int num = combiningClassUsage.value(i, 0); // if (num) { // ++numClasses; // qDebug(" combiningClass %d used %d times", i, num); // } // } // qDebug("total of %d combining classes used", numClasses); #endif }