qt5base-lts/util/unicode/main.cpp
Konstantin Ritt 8c0048a377 add some useful methods to QUnicodeTables::
in order to reduce code duplication and prepare the ground for upcoming changes

Change-Id: I980244149f65384c9484bbec4682de8b7b848b08
Reviewed-by: Lars Knoll <lars.knoll@nokia.com>
2012-05-10 11:34:25 +02:00

2958 lines
96 KiB
C++

/****************************************************************************
**
** Copyright (C) 2012 Nokia Corporation and/or its subsidiary(-ies).
** Contact: http://www.qt-project.org/
**
** This file is part of the utils of the Qt Toolkit.
**
** $QT_BEGIN_LICENSE:LGPL$
** GNU Lesser General Public License Usage
** 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 1.1, 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.
**
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****************************************************************************/
#include <qlist.h>
#include <qhash.h>
#include <qfile.h>
#include <qbytearray.h>
#include <qstring.h>
#include <qchar.h>
#include <qvector.h>
#include <qdebug.h>
#if 0
#include <private/qunicodetables_p.h>
#endif
#define DATA_VERSION_S "5.0"
#define DATA_VERSION_STR "QChar::Unicode_5_0"
#define LAST_CODEPOINT 0x10ffff
#define LAST_CODEPOINT_STR "0x10ffff"
static QHash<QByteArray, QChar::UnicodeVersion> age_map;
static void initAgeMap()
{
struct AgeMap {
const QChar::UnicodeVersion version;
const char *age;
} ageMap[] = {
{ QChar::Unicode_1_1, "1.1" },
{ QChar::Unicode_2_0, "2.0" },
{ QChar::Unicode_2_1_2, "2.1" },
{ QChar::Unicode_3_0, "3.0" },
{ QChar::Unicode_3_1, "3.1" },
{ QChar::Unicode_3_2, "3.2" },
{ QChar::Unicode_4_0, "4.0" },
{ QChar::Unicode_4_1, "4.1" },
{ QChar::Unicode_5_0, "5.0" },
{ QChar::Unicode_Unassigned, 0 }
};
AgeMap *d = ageMap;
while (d->age) {
age_map.insert(d->age, d->version);
++d;
}
}
enum Joining {
Joining_None,
Joining_Left,
Joining_Causing,
Joining_Dual,
Joining_Right,
Joining_Transparent
, Joining_Unassigned
};
static QHash<QByteArray, Joining> joining_map;
static void initJoiningMap()
{
struct JoiningList {
Joining joining;
const char *name;
} joinings[] = {
{ Joining_None, "U" },
{ Joining_Left, "L" },
{ Joining_Causing, "C" },
{ Joining_Dual, "D" },
{ Joining_Right, "R" },
{ Joining_Transparent, "T" },
{ Joining_Unassigned, 0 }
};
JoiningList *d = joinings;
while (d->name) {
joining_map.insert(d->name, d->joining);
++d;
}
}
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
, GraphemeBreak_Unassigned
};
static QHash<QByteArray, GraphemeBreak> 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" },
{ GraphemeBreak_Unassigned, 0 }
};
GraphemeBreakList *d = breaks;
while (d->name) {
grapheme_break_map.insert(d->name, d->brk);
++d;
}
}
static 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
, WordBreak_Unassigned
};
static QHash<QByteArray, WordBreak> 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" },
{ WordBreak_Unassigned, 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
, SentenceBreak_Unassigned
};
static QHash<QByteArray, SentenceBreak> 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" },
{ SentenceBreak_Unassigned, 0 }
};
SentenceBreakList *d = breaks;
while (d->name) {
sentence_break_map.insert(d->name, d->brk);
++d;
}
}
static const char *line_break_class_string =
" // 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";
enum LineBreakClass {
LineBreak_OP, LineBreak_CL, LineBreak_QU, LineBreak_GL, LineBreak_NS,
LineBreak_EX, LineBreak_SY, LineBreak_IS, LineBreak_PR, LineBreak_PO,
LineBreak_NU, LineBreak_AL, LineBreak_ID, LineBreak_IN, LineBreak_HY,
LineBreak_BA, LineBreak_BB, LineBreak_B2, LineBreak_ZW, LineBreak_CM,
LineBreak_WJ, LineBreak_H2, LineBreak_H3, LineBreak_JL, LineBreak_JV,
LineBreak_JT, LineBreak_SA, LineBreak_SG,
LineBreak_SP, LineBreak_CR, LineBreak_LF, LineBreak_BK
, LineBreak_Unassigned
};
static QHash<QByteArray, LineBreakClass> line_break_map;
static void initLineBreak()
{
// ### Classes XX and AI are left out and mapped to AL for now;
// ### Class NL is ignored and mapped to AL as well.
struct LineBreakList {
LineBreakClass brk;
const char *name;
} breaks[] = {
{ LineBreak_BK, "BK" },
{ LineBreak_CR, "CR" },
{ LineBreak_LF, "LF" },
{ LineBreak_CM, "CM" },
{ LineBreak_AL, "NL" },
{ LineBreak_SG, "SG" },
{ LineBreak_WJ, "WJ" },
{ LineBreak_ZW, "ZW" },
{ LineBreak_GL, "GL" },
{ LineBreak_SP, "SP" },
{ LineBreak_B2, "B2" },
{ LineBreak_BA, "BA" },
{ LineBreak_BB, "BB" },
{ LineBreak_HY, "HY" },
{ LineBreak_AL, "CB" }, // ###
{ LineBreak_CL, "CL" },
{ LineBreak_EX, "EX" },
{ LineBreak_IN, "IN" },
{ LineBreak_NS, "NS" },
{ LineBreak_OP, "OP" },
{ LineBreak_QU, "QU" },
{ LineBreak_IS, "IS" },
{ LineBreak_NU, "NU" },
{ LineBreak_PO, "PO" },
{ LineBreak_PR, "PR" },
{ LineBreak_SY, "SY" },
{ LineBreak_AL, "AI" },
{ LineBreak_AL, "AL" },
{ LineBreak_H2, "H2" },
{ LineBreak_H3, "H3" },
{ LineBreak_ID, "ID" },
{ LineBreak_JL, "JL" },
{ LineBreak_JV, "JV" },
{ LineBreak_JT, "JT" },
{ LineBreak_SA, "SA" },
{ LineBreak_AL, "XX" },
{ LineBreak_Unassigned, 0 }
};
LineBreakList *d = breaks;
while (d->name) {
line_break_map.insert(d->name, d->brk);
++d;
}
}
// Keep this one in sync with the code in createPropertyInfo
static const char *property_string =
" struct Properties {\n"
" ushort category : 8; /* 5 needed */\n"
" ushort line_break_class : 8; /* 6 needed */\n"
" ushort direction : 8; /* 5 needed */\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;\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; /* 4 needed */\n"
" ushort wordBreak : 8; /* 4 needed */\n"
" ushort sentenceBreak : 8; /* 4 needed */\n"
" };\n"
" Q_CORE_EXPORT const Properties * QT_FASTCALL properties(uint ucs4);\n"
" Q_CORE_EXPORT const Properties * QT_FASTCALL properties(ushort ucs2);\n";
static const char *methods =
" Q_CORE_EXPORT GraphemeBreak QT_FASTCALL graphemeBreakClass(uint ucs4);\n"
" inline int graphemeBreakClass(QChar ch)\n"
" { return graphemeBreakClass(ch.unicode()); }\n"
"\n"
" Q_CORE_EXPORT WordBreak QT_FASTCALL wordBreakClass(uint ucs4);\n"
" inline int wordBreakClass(QChar ch)\n"
" { return wordBreakClass(ch.unicode()); }\n"
"\n"
" Q_CORE_EXPORT SentenceBreak QT_FASTCALL sentenceBreakClass(uint ucs4);\n"
" inline int sentenceBreakClass(QChar ch)\n"
" { return sentenceBreakClass(ch.unicode()); }\n"
"\n"
" Q_CORE_EXPORT LineBreakClass QT_FASTCALL lineBreakClass(uint ucs4);\n"
" inline int lineBreakClass(QChar ch)\n"
" { return lineBreakClass(ch.unicode()); }\n"
"\n"
" Q_CORE_EXPORT int QT_FASTCALL script(uint ucs4);\n"
" inline int script(QChar ch)\n"
" { return script(ch.unicode()); }\n\n";
static const char *generated_methods =
" inline bool isNonCharacter(uint ucs4)\n"
" {\n"
" // Noncharacter_Code_Point:\n"
" // Unicode has a couple of \"non-characters\" that one can use internally,\n"
" // but are not allowed to be used for text interchange.\n"
" // Those are the last two entries each Unicode Plane (U+FFFE..U+FFFF,\n"
" // U+1FFFE..U+1FFFF, etc.) as well as the entries in range U+FDD0..U+FDEF\n"
"\n"
" return ucs4 >= 0xfdd0 && (ucs4 <= 0xfdef || (ucs4 & 0xfffe) == 0xfffe);\n"
" }\n\n";
static const int SizeOfPropertiesStruct = 20;
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;
LineBreakClass line_break_class;
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;
};
static QList<int> specialCaseMap;
static int appendToSpecialCaseMap(const QList<int> &map)
{
QList<int> utf16map;
for (int i = 0; i < map.size(); ++i) {
int val = map.at(i);
if (QChar::requiresSurrogates(val)) {
utf16map << QChar::highSurrogate(val);
utf16map << QChar::lowSurrogate(val);
} else {
utf16map << val;
}
}
int length = utf16map.size();
utf16map.prepend(length);
if (specialCaseMap.isEmpty())
specialCaseMap << 0; // placeholder
int i = 1;
while (i < specialCaseMap.size()) {
int n = specialCaseMap.at(i);
if (n == length) {
int j;
for (j = 1; j <= n; ++j) {
if (specialCaseMap.at(i+j) != utf16map.at(j))
break;
}
if (j > n)
return i;
}
i += n + 1;
}
int pos = specialCaseMap.size();
specialCaseMap << utf16map;
return pos;
}
struct UnicodeData {
UnicodeData(int codepoint = 0) {
p.category = QChar::Other_NotAssigned; // Cn
p.combiningClass = 0;
p.direction = QChar::DirL;
// DerivedBidiClass.txt
// 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+FDFF, U+FE70..U+FEFF
// minus noncharacter code points (intersects with U+FDD0..U+FDEF)
if ((codepoint >= 0x600 && codepoint <= 0x7bf)
|| (codepoint >= 0xfb50 && codepoint <= 0xfdcf)
|| (codepoint >= 0xfdf0 && codepoint <= 0xfdff)
|| (codepoint >= 0xfe70 && codepoint <= 0xfeff)) {
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 = LineBreak_AL; // XX -> 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<int> decomposition;
QList<int> specialFolding;
// from BidiMirroring.txt
int mirroredChar;
// DerivedNormalizationProps.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
};
static QHash<QByteArray, QChar::Category> 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::Other_NotAssigned, 0 }
};
Cat *c = categories;
while (c->name) {
categoryMap.insert(c->name, c->cat);
++c;
}
}
static QHash<QByteArray, QChar::Direction> 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;
}
}
static QHash<QByteArray, QChar::Decomposition> decompositionMap;
static void initDecompositionMap()
{
struct Dec {
QChar::Decomposition dec;
const char *name;
} decompositions[] = {
{ QChar::Canonical, "<canonical>" },
{ QChar::Font, "<font>" },
{ QChar::NoBreak, "<noBreak>" },
{ QChar::Initial, "<initial>" },
{ QChar::Medial, "<medial>" },
{ QChar::Final, "<final>" },
{ QChar::Isolated, "<isolated>" },
{ QChar::Circle, "<circle>" },
{ QChar::Super, "<super>" },
{ QChar::Sub, "<sub>" },
{ QChar::Vertical, "<vertical>" },
{ QChar::Wide, "<wide>" },
{ QChar::Narrow, "<narrow>" },
{ QChar::Small, "<small>" },
{ QChar::Square, "<square>" },
{ QChar::Compat, "<compat>" },
{ QChar::Fraction, "<fraction>" },
{ QChar::NoDecomposition, 0 }
};
Dec *d = decompositions;
while (d->name) {
decompositionMap.insert(d->name, d->dec);
++d;
}
}
static QHash<int, UnicodeData> unicodeData;
static QList<PropertyFlags> uniqueProperties;
static QHash<int, int> decompositionLength;
static int highestComposedCharacter = 0;
static int numLigatures = 0;
static int highestLigature = 0;
struct Ligature {
int u1;
int u2;
int 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; }
static QHash<int, QList<Ligature> > ligatureHashes;
static QHash<int, int> combiningClassUsage;
static int maxLowerCaseDiff = 0;
static int maxUpperCaseDiff = 0;
static int maxTitleCaseDiff = 0;
static void readUnicodeData()
{
qDebug() << "Reading UnicodeData.txt";
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<QByteArray> properties = line.split(';');
bool ok;
int codepoint = properties[UD_Value].toInt(&ok, 16);
Q_ASSERT(ok);
Q_ASSERT(codepoint <= LAST_CODEPOINT);
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<QByteArray> properties = nextLine.split(';');
Q_ASSERT(properties[UD_Name].startsWith('<') && properties[UD_Name].contains("Last"));
lastCodepoint = properties[UD_Value].toInt(&ok, 16);
Q_ASSERT(ok);
Q_ASSERT(lastCodepoint <= LAST_CODEPOINT);
}
UnicodeData data(codepoint);
data.p.category = categoryMap.value(properties[UD_Category], QChar::Other_NotAssigned);
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);
int diff = upperCase - codepoint;
if (qAbs(diff) >= (1<<14)) {
qWarning() << "upperCaseDiff exceeded (" << hex << codepoint << "->" << upperCase << "); map it for special case";
// if the condition below doesn't hold anymore we need to modify our special upper casing code in qchar.cpp
Q_ASSERT(!QChar::requiresSurrogates(codepoint) && !QChar::requiresSurrogates(upperCase));
data.p.upperCaseSpecial = true;
data.p.upperCaseDiff = appendToSpecialCaseMap(QList<int>() << upperCase);
} else {
data.p.upperCaseDiff = diff;
maxUpperCaseDiff = qMax(maxUpperCaseDiff, qAbs(diff));
}
if (QChar::requiresSurrogates(codepoint) || QChar::requiresSurrogates(upperCase)) {
// if the conditions below doesn't hold anymore we need to modify our upper casing code
Q_ASSERT(QChar::highSurrogate(codepoint) == QChar::highSurrogate(upperCase));
Q_ASSERT(QChar::lowSurrogate(codepoint) + diff == QChar::lowSurrogate(upperCase));
}
}
if (!properties[UD_LowerCase].isEmpty()) {
int lowerCase = properties[UD_LowerCase].toInt(&ok, 16);
Q_ASSERT(ok);
int diff = lowerCase - codepoint;
if (qAbs(diff) >= (1<<14)) {
qWarning() << "lowerCaseDiff exceeded (" << hex << codepoint << "->" << lowerCase << "); map it for special case";
// if the condition below doesn't hold anymore we need to modify our special lower casing code in qchar.cpp
Q_ASSERT(!QChar::requiresSurrogates(codepoint) && !QChar::requiresSurrogates(lowerCase));
data.p.lowerCaseSpecial = true;
data.p.lowerCaseDiff = appendToSpecialCaseMap(QList<int>() << lowerCase);
} else {
data.p.lowerCaseDiff = diff;
maxLowerCaseDiff = qMax(maxLowerCaseDiff, qAbs(diff));
}
if (QChar::requiresSurrogates(codepoint) || QChar::requiresSurrogates(lowerCase)) {
// if the conditions below doesn't hold anymore we need to modify our lower casing code
Q_ASSERT(QChar::highSurrogate(codepoint) == QChar::highSurrogate(lowerCase));
Q_ASSERT(QChar::lowSurrogate(codepoint) + diff == QChar::lowSurrogate(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);
int diff = titleCase - codepoint;
if (qAbs(diff) >= (1<<14)) {
qWarning() << "titleCaseDiff exceeded (" << hex << codepoint << "->" << titleCase << "); map it for special case";
// if the condition below doesn't hold anymore we need to modify our special title casing code in qchar.cpp
Q_ASSERT(!QChar::requiresSurrogates(codepoint) && !QChar::requiresSurrogates(titleCase));
data.p.titleCaseSpecial = true;
data.p.titleCaseDiff = appendToSpecialCaseMap(QList<int>() << titleCase);
} else {
data.p.titleCaseDiff = diff;
maxTitleCaseDiff = qMax(maxTitleCaseDiff, qAbs(diff));
}
if (QChar::requiresSurrogates(codepoint) || QChar::requiresSurrogates(titleCase)) {
// if the conditions below doesn't hold anymore we need to modify our title casing code
Q_ASSERT(QChar::highSurrogate(codepoint) == QChar::highSurrogate(titleCase));
Q_ASSERT(QChar::lowSurrogate(codepoint) + diff == QChar::lowSurrogate(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<QByteArray> d = decomposition.split(' ');
if (d[0].contains('<')) {
data.decompositionType = decompositionMap.value(d[0], QChar::NoDecomposition);
if (data.decompositionType == QChar::NoDecomposition)
qFatal("unassigned decomposition type: %s", d[0].constData());
d.takeFirst();
} else {
data.decompositionType = QChar::Canonical;
}
for (int i = 0; i < d.size(); ++i) {
data.decomposition.append(d[i].toInt(&ok, 16));
Q_ASSERT(ok);
}
++decompositionLength[data.decomposition.size()];
}
for (int i = codepoint; i <= lastCodepoint; ++i)
unicodeData.insert(i, data);
}
}
static int maxMirroredDiff = 0;
static void readBidiMirroring()
{
qDebug() << "Reading BidiMirroring.txt";
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<QByteArray> pair = line.split(';');
Q_ASSERT(pair.size() == 2);
bool ok;
int codepoint = pair[0].toInt(&ok, 16);
Q_ASSERT(ok);
int mirror = pair[1].toInt(&ok, 16);
Q_ASSERT(ok);
UnicodeData d = unicodeData.value(codepoint, UnicodeData(codepoint));
d.mirroredChar = mirror;
d.p.mirrorDiff = d.mirroredChar - codepoint;
maxMirroredDiff = qMax(maxMirroredDiff, qAbs(d.p.mirrorDiff));
unicodeData.insert(codepoint, d);
}
}
static void readArabicShaping()
{
qDebug() << "Reading ArabicShaping.txt";
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<QByteArray> l = line.split(';');
Q_ASSERT(l.size() == 4);
bool ok;
int codepoint = l[0].toInt(&ok, 16);
Q_ASSERT(ok);
Joining joining = joining_map.value(l[2].trimmed(), Joining_Unassigned);
if (joining == Joining_Unassigned)
qFatal("unassigned or unhandled joining value: %s", l[2].constData());
if (joining == Joining_Left) {
// There are currently no characters of joining type Left_Joining defined in Unicode.
qFatal("%x: joining type '%s' was met; the current implementation needs to be revised!", codepoint, l[2].constData());
}
UnicodeData d = unicodeData.value(codepoint, UnicodeData(codepoint));
if (joining == Joining_Right)
d.p.joining = QChar::Right;
else if (joining == Joining_Dual)
d.p.joining = QChar::Dual;
else if (joining == Joining_Causing)
d.p.joining = QChar::Center;
else
d.p.joining = QChar::OtherJoining;
unicodeData.insert(codepoint, d);
}
}
static void readDerivedAge()
{
qDebug() << "Reading DerivedAge.txt";
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<QByteArray> l = line.split(';');
Q_ASSERT(l.size() == 2);
QByteArray codes = l[0];
codes.replace("..", ".");
QList<QByteArray> 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);
}
QChar::UnicodeVersion age = age_map.value(l[1].trimmed(), QChar::Unicode_Unassigned);
//qDebug() << hex << from << ".." << to << ba << age;
if (age == QChar::Unicode_Unassigned)
qFatal("unassigned or unhandled age value: %s", l[1].constData());
for (int codepoint = from; codepoint <= to; ++codepoint) {
UnicodeData d = unicodeData.value(codepoint, UnicodeData(codepoint));
d.p.age = age;
unicodeData.insert(codepoint, d);
}
}
}
static void readDerivedNormalizationProps()
{
qDebug() << "Reading DerivedNormalizationProps.txt";
QFile f("data/DerivedNormalizationProps.txt");
if (!f.exists())
qFatal("Couldn't find DerivedNormalizationProps.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.trimmed().isEmpty())
continue;
QList<QByteArray> l = line.split(';');
Q_ASSERT(l.size() >= 2);
QByteArray propName = l[1].trimmed();
if (propName != "Full_Composition_Exclusion")
// ###
continue;
QByteArray codes = l[0].trimmed();
codes.replace("..", ".");
QList<QByteArray> 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);
}
for (int codepoint = from; codepoint <= to; ++codepoint) {
UnicodeData d = unicodeData.value(codepoint, UnicodeData(codepoint));
d.excludedComposition = true;
unicodeData.insert(codepoint, d);
}
}
for (int codepoint = 0; codepoint <= LAST_CODEPOINT; ++codepoint) {
UnicodeData d = unicodeData.value(codepoint, UnicodeData(codepoint));
if (!d.excludedComposition
&& d.decompositionType == QChar::Canonical
&& d.decomposition.size() > 1) {
Q_ASSERT(d.decomposition.size() == 2);
int part1 = d.decomposition.at(0);
int part2 = d.decomposition.at(1);
// all non-starters are listed in DerivedNormalizationProps.txt
// and already excluded from composition
Q_ASSERT(unicodeData.value(part1, UnicodeData(part1)).p.combiningClass == 0);
++numLigatures;
highestLigature = qMax(highestLigature, part1);
Ligature l = { part1, part2, codepoint };
ligatureHashes[part2].append(l);
}
}
}
struct NormalizationCorrection {
uint codepoint;
uint mapped;
int version;
};
static QByteArray createNormalizationCorrections()
{
qDebug() << "Reading NormalizationCorrections.txt";
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 maxVersion = 0;
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<QByteArray> fields = line.split(';');
Q_ASSERT(fields.size() == 4);
NormalizationCorrection c = { 0, 0, 0 };
bool ok;
c.codepoint = fields.at(0).toInt(&ok, 16);
Q_ASSERT(ok);
c.mapped = fields.at(1).toInt(&ok, 16);
Q_ASSERT(ok);
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;
maxVersion = qMax(c.version, maxVersion);
}
out += "};\n\n"
"enum { NumNormalizationCorrections = " + QByteArray::number(numCorrections) + " };\n"
"enum { NormalizationCorrectionsVersionMax = " + QByteArray::number(maxVersion) + " };\n\n";
return out;
}
static void computeUniqueProperties()
{
qDebug("computeUniqueProperties:");
for (int uc = 0; uc <= LAST_CODEPOINT; ++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 unique unicode properties found", uniqueProperties.size());
}
static void readLineBreak()
{
qDebug() << "Reading LineBreak.txt";
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<QByteArray> l = line.split(';');
Q_ASSERT(l.size() == 2);
QByteArray codes = l[0];
codes.replace("..", ".");
QList<QByteArray> 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);
}
LineBreakClass lb = line_break_map.value(l[1], LineBreak_Unassigned);
if (lb == LineBreak_Unassigned)
qFatal("unassigned line break class: %s", l[1].constData());
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<QByteArray> 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);
// if the condition below doesn't hold anymore we need to modify our
// lower/upper/title casing code and case folding code
Q_ASSERT(!QChar::requiresSurrogates(codepoint));
// qDebug() << "codepoint" << hex << codepoint;
// qDebug() << line;
QList<QByteArray> lower = l[1].trimmed().split(' ');
QList<int> lowerMap;
for (int i = 0; i < lower.size(); ++i) {
bool ok;
lowerMap.append(lower.at(i).toInt(&ok, 16));
Q_ASSERT(ok);
}
QList<QByteArray> title = l[2].trimmed().split(' ');
QList<int> titleMap;
for (int i = 0; i < title.size(); ++i) {
bool ok;
titleMap.append(title.at(i).toInt(&ok, 16));
Q_ASSERT(ok);
}
QList<QByteArray> upper = l[3].trimmed().split(' ');
QList<int> 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);
}
}
static 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<QByteArray> l = line.split(';');
bool ok;
int 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<QByteArray> fold = l[2].trimmed().split(' ');
QList<int> 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) {
int caseFolded = foldMap.at(0);
int diff = caseFolded - codepoint;
if (qAbs(diff) >= (1<<14)) {
qWarning() << "caseFoldDiff exceeded (" << hex << codepoint << "->" << caseFolded << "); map it for special case";
// if the condition below doesn't hold anymore we need to modify our special case folding code in qchar.cpp
Q_ASSERT(!QChar::requiresSurrogates(codepoint) && !QChar::requiresSurrogates(caseFolded));
ud.p.caseFoldSpecial = true;
ud.p.caseFoldDiff = appendToSpecialCaseMap(foldMap);
} else {
ud.p.caseFoldDiff = diff;
maxCaseFoldDiff = qMax(maxCaseFoldDiff, qAbs(diff));
}
if (QChar::requiresSurrogates(codepoint) || QChar::requiresSurrogates(caseFolded)) {
// if the conditions below doesn't hold anymore we need to modify our case folding code
Q_ASSERT(QChar::highSurrogate(codepoint) == QChar::highSurrogate(caseFolded));
Q_ASSERT(QChar::lowSurrogate(codepoint) + diff == QChar::lowSurrogate(caseFolded));
}
// if (caseFolded != codepoint + ud.p.lowerCaseDiff)
// qDebug() << hex << codepoint;
} else {
qFatal("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);
line.replace(" ", "");
if (line.isEmpty())
continue;
QList<QByteArray> l = line.split(';');
Q_ASSERT(l.size() == 2);
QByteArray codes = l[0];
codes.replace("..", ".");
QList<QByteArray> 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], GraphemeBreak_Unassigned);
if (brk == GraphemeBreak_Unassigned)
qFatal("unassigned grapheme break class: %s", l[1].constData());
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);
line.replace(" ", "");
if (line.isEmpty())
continue;
QList<QByteArray> l = line.split(';');
Q_ASSERT(l.size() == 2);
QByteArray codes = l[0];
codes.replace("..", ".");
QList<QByteArray> 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], WordBreak_Unassigned);
if (brk == WordBreak_Unassigned)
qFatal("unassigned word break class: %s", l[1].constData());
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);
line.replace(" ", "");
if (line.isEmpty())
continue;
QList<QByteArray> l = line.split(';');
Q_ASSERT(l.size() == 2);
QByteArray codes = l[0];
codes.replace("..", ".");
QList<QByteArray> 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], SentenceBreak_Unassigned);
if (brk == SentenceBreak_Unassigned)
qFatal("unassigned sentence break class: %s", l[1].constData());
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;
ushort length = *folded++;
while (length--)
*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<QByteArray> blockNames;
struct BlockInfo
{
int blockIndex;
int firstCodePoint;
int lastCodePoint;
};
static QList<BlockInfo> blockInfoList;
static void readBlocks()
{
qDebug() << "Reading Blocks.txt";
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 == -1) {
blockIndex = blockNames.size();
blockNames.append(blockName);
}
codePoints.replace("..", ".");
QList<QByteArray> cl = codePoints.split('.');
bool ok;
int first = cl[0].toInt(&ok, 16);
Q_ASSERT(ok);
int last = first;
if (cl.size() == 2) {
last = cl[1].toInt(&ok, 16);
Q_ASSERT(ok);
}
BlockInfo blockInfo = { blockIndex, first, last };
blockInfoList.append(blockInfo);
}
}
#endif
static QList<QByteArray> scriptNames;
static QHash<int, int> scriptAssignment;
static QHash<int, int> scriptHash;
struct ExtraBlock {
int block;
QVector<int> vector;
};
static QList<ExtraBlock> 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 == -1) {
scriptIndex = scriptNames.size();
scriptNames.append(scriptName);
}
codePoints.replace("..", ".");
QList<QByteArray> cl = codePoints.split('.');
bool ok;
int first = cl[0].toInt(&ok, 16);
Q_ASSERT(ok);
int last = first;
if (cl.size() == 2) {
last = cl[1].toInt(&ok, 16);
Q_ASSERT(ok);
}
for (int i = first; i <= last; ++i)
scriptAssignment[i] = 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",
"Nko",
"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";
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; s < specialScriptsCount; ++s) {
if (scriptName == specialScripts[s]) {
special = true;
break;
}
}
if (!special) {
scriptHash[i] = 0; // alias for 'Common'
continue;
} else {
++uniqueScripts;
scriptHash[i] = i;
}
if (scriptName != "Inherited") {
declaration += ",\n ";
declaration += scriptName;
}
}
declaration += ",\n Inherited";
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;
declaration += ",\n ";
declaration += scriptNames.at(i);
declaration += " = Common";
}
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 += "static 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 += ' ';
}
if (declaration.endsWith(' '))
declaration.chop(1);
}
declaration += "\n};\n\n";
declaration +=
"Q_CORE_EXPORT int QT_FASTCALL script(uint ucs4)\n"
"{\n"
" if (ucs4 > 0xffff)\n"
" return Common;\n"
" int script = uc_scripts[ucs4 >> 7];\n"
" if (script < ScriptSentinel)\n"
" return script;\n"
" script = (((script - ScriptSentinel) * UnicodeBlockSize) + UnicodeBlockCount);\n"
" script = uc_scripts[script + (ucs4 & 0x7f)];\n"
" return script;\n"
"}\n\n";
qDebug("createScriptTableDeclaration:");
qDebug(" memory usage: %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<int> properties;
bool operator==(const PropertyBlock &other)
{ return properties == other.properties; }
};
static QByteArray createPropertyInfo()
{
qDebug("createPropertyInfo:");
// 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));
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<PropertyBlock> blocks;
QList<int> 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 uses : %d bytes", uniqueProperties.size() * SizeOfPropertiesStruct);
qDebug(" memory usage: %d bytes", bmp_mem + smp_mem + uniqueProperties.size() * SizeOfPropertiesStruct);
QByteArray out;
out += "static const unsigned short uc_property_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 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 += ", ";
}
}
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 Properties uc_properties[] = {";
// keep in sync with the property declaration
for (int i = 0; i < uniqueProperties.size(); ++i) {
PropertyFlags p = uniqueProperties.at(i);
out += "\n { ";
// " 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 += " },";
}
out.chop(1);
out += "\n};\n\n";
out += "static inline const Properties *qGetProp(uint ucs4)\n"
"{\n"
" const int index = GET_PROP_INDEX(ucs4);\n"
" return uc_properties + index;\n"
"}\n"
"\n"
"static inline const Properties *qGetProp(ushort ucs2)\n"
"{\n"
" const int index = GET_PROP_INDEX_UCS2(ucs2);\n"
" return uc_properties + index;\n"
"}\n"
"\n"
"Q_CORE_EXPORT const Properties * QT_FASTCALL properties(uint ucs4)\n"
"{\n"
" return qGetProp(ucs4);\n"
"}\n"
"\n"
"Q_CORE_EXPORT const Properties * QT_FASTCALL properties(ushort ucs2)\n"
"{\n"
" return qGetProp(ucs2);\n"
"}\n\n";
out += "Q_CORE_EXPORT GraphemeBreak QT_FASTCALL graphemeBreakClass(uint ucs4)\n"
"{\n"
" return (GraphemeBreak)qGetProp(ucs4)->graphemeBreak;\n"
"}\n"
"\n"
"Q_CORE_EXPORT WordBreak QT_FASTCALL wordBreakClass(uint ucs4)\n"
"{\n"
" return (WordBreak)qGetProp(ucs4)->wordBreak;\n"
"}\n"
"\n"
"Q_CORE_EXPORT SentenceBreak QT_FASTCALL sentenceBreakClass(uint ucs4)\n"
"{\n"
" return (SentenceBreak)qGetProp(ucs4)->sentenceBreak;\n"
"}\n"
"\n"
"Q_CORE_EXPORT LineBreakClass QT_FASTCALL lineBreakClass(uint ucs4)\n"
"{\n"
" return (LineBreakClass)qGetProp(ucs4)->line_break_class;\n"
"}\n\n";
return out;
}
static QByteArray createSpecialCaseMap()
{
qDebug("createSpecialCaseMap:");
QByteArray out;
out += "static const ushort specialCaseMap[] = {\n"
" 0x0, // placeholder";
int i = 1;
while (i < specialCaseMap.size()) {
out += "\n ";
int n = specialCaseMap.at(i);
for (int j = 0; j <= n; ++j) {
out += QByteArray(" 0x") + QByteArray::number(specialCaseMap.at(i+j), 16);
out += ",";
}
i += n + 1;
}
out.chop(1);
out += "\n};\n\n";
qDebug("Special case map uses : %d bytes", specialCaseMap.size()*2);
return out;
}
struct DecompositionBlock {
DecompositionBlock() { index = -1; }
int index;
QList<int> decompositionPositions;
bool operator ==(const DecompositionBlock &other)
{ return decompositionPositions == other.decompositionPositions; }
};
static QByteArray createCompositionInfo()
{
qDebug("createCompositionInfo: highestComposedCharacter=0x%x", highestComposedCharacter);
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 0x%x", highestComposedCharacter);
QList<DecompositionBlock> blocks;
QList<int> blockMap;
QList<unsigned short> 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 utf16Length = 0;
decompositions.append(0);
for (int j = 0; j < d.decomposition.size(); ++j) {
int code = d.decomposition.at(j);
if (QChar::requiresSurrogates(code)) {
// save as surrogate pair
decompositions.append(QChar::highSurrogate(code));
decompositions.append(QChar::lowSurrogate(code));
utf16Length += 2;
} else {
decompositions.append(code);
utf16Length++;
}
}
decompositions[tableIndex] = d.decompositionType + (utf16Length<<8);
b.decompositionPositions.append(tableIndex);
tableIndex += utf16Length + 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 utf16Length = 0;
decompositions.append(0);
for (int j = 0; j < d.decomposition.size(); ++j) {
int code = d.decomposition.at(j);
if (QChar::requiresSurrogates(code)) {
// save as surrogate pair
decompositions.append(QChar::highSurrogate(code));
decompositions.append(QChar::lowSurrogate(code));
utf16Length += 2;
} else {
decompositions.append(code);
utf16Length++;
}
}
decompositions[tableIndex] = d.decompositionType + (utf16Length<<8);
b.decompositionPositions.append(tableIndex);
tableIndex += utf16Length + 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);
}
// if the condition below doesn't hold anymore we need to modify our decomposition code
Q_ASSERT(tableIndex < 0xffff);
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 uses : %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(2);
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[] = {";
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(2);
out += "\n};\n\n";
return out;
}
static QByteArray createLigatureInfo()
{
qDebug("createLigatureInfo: numLigatures=%d, highestLigature=0x%x", numLigatures, highestLigature);
foreach (const QList<Ligature> &l, ligatureHashes) {
for (int j = 0; j < l.size(); ++j) {
// if the condition below doesn't hold anymore we need to modify our ligatureHelper code
Q_ASSERT(QChar::requiresSurrogates(l.at(j).u2) == QChar::requiresSurrogates(l.at(j).ligature) &&
QChar::requiresSurrogates(l.at(j).u2) == QChar::requiresSurrogates(l.at(j).u1));
}
}
const int BMP_BLOCKSIZE = 32;
const int BMP_SHIFT = 5;
const int BMP_END = 0x3100;
const int SMP_END = 0x12000;
const int SMP_BLOCKSIZE = 256;
const int SMP_SHIFT = 8;
if (SMP_END <= highestLigature)
qFatal("end of table smaller than highest ligature character 0x%x", highestLigature);
QList<DecompositionBlock> blocks;
QList<int> blockMap;
QList<unsigned short> ligatures;
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<Ligature> l = ligatureHashes.value(uc);
if (!l.isEmpty()) {
Q_ASSERT(!QChar::requiresSurrogates(uc));
qSort(l); // needed for bsearch in ligatureHelper code
ligatures.append(l.size());
for (int j = 0; j < l.size(); ++j) {
ligatures.append(l.at(j).u1);
ligatures.append(l.at(j).ligature);
}
b.decompositionPositions.append(tableIndex);
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);
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;
QList<Ligature> l = ligatureHashes.value(uc);
if (!l.isEmpty()) {
Q_ASSERT(QChar::requiresSurrogates(uc));
qSort(l); // needed for bsearch in ligatureHelper code
ligatures.append(l.size());
for (int j = 0; j < l.size(); ++j) {
ligatures.append(QChar::highSurrogate(l.at(j).u1));
ligatures.append(QChar::lowSurrogate(l.at(j).u1));
ligatures.append(QChar::highSurrogate(l.at(j).ligature));
ligatures.append(QChar::lowSurrogate(l.at(j).ligature));
}
b.decompositionPositions.append(tableIndex);
tableIndex += 4*l.size() + 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);
}
// if the condition below doesn't hold anymore we need to modify our composition code
Q_ASSERT(tableIndex < 0xffff);
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 ligature data uses : %d bytes", ligatures.size()*2);
qDebug(" memory usage: %d bytes", bmp_mem + smp_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\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(2);
out += "\n};\n\n"
"#define GET_LIGATURE_INDEX(ucs4) \\\n"
" (ucs4 < 0x" + QByteArray::number(BMP_END, 16) + " \\\n"
" ? (uc_ligature_trie[uc_ligature_trie[ucs4>>" + QByteArray::number(BMP_SHIFT) +
"] + (ucs4 & 0x" + QByteArray::number(BMP_BLOCKSIZE-1, 16)+ ")]) \\\n"
" : (ucs4 < 0x" + QByteArray::number(SMP_END, 16) + "\\\n"
" ? uc_ligature_trie[uc_ligature_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_ligature_map[] = {";
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(2);
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 **)
{
initAgeMap();
initCategoryMap();
initDecompositionMap();
initDirectionMap();
initJoiningMap();
initGraphemeBreak();
initWordBreak();
initSentenceBreak();
initLineBreak();
readUnicodeData();
readBidiMirroring();
readArabicShaping();
readDerivedAge();
readDerivedNormalizationProps();
readSpecialCasing();
readCaseFolding();
// readBlocks();
readScripts();
readGraphemeBreak();
readWordBreak();
readSentenceBreak();
readLineBreak();
computeUniqueProperties();
QByteArray properties = createPropertyInfo();
QByteArray specialCases = createSpecialCaseMap();
QByteArray compositions = createCompositionInfo();
QByteArray ligatures = createLigatureInfo();
QByteArray normalizationCorrections = createNormalizationCorrections();
QByteArray scriptEnumDeclaration = createScriptEnumDeclaration();
QByteArray scriptTableDeclaration = createScriptTableDeclaration();
QByteArray header =
"/****************************************************************************\n"
"**\n"
"** Copyright (C) 2012 Nokia Corporation and/or its subsidiary(-ies).\n"
"** Contact: http://www.qt-project.org/\n"
"**\n"
"** This file is part of the QtCore module of the Qt Toolkit.\n"
"**\n"
"** $QT_BEGIN_LICENSE:LGPL$\n"
"** GNU Lesser General Public License Usage\n"
"** This file may be used under the terms of the GNU Lesser General Public\n"
"** License version 2.1 as published by the Free Software Foundation and\n"
"** appearing in the file LICENSE.LGPL included in the packaging of this\n"
"** file. Please review the following information to ensure the GNU Lesser\n"
"** General Public License version 2.1 requirements will be met:\n"
"** http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html.\n"
"**\n"
"** In addition, as a special exception, Nokia gives you certain additional\n"
"** rights. These rights are described in the Nokia Qt LGPL Exception\n"
"** version 1.1, included in the file LGPL_EXCEPTION.txt in this package.\n"
"**\n"
"** GNU General Public License Usage\n"
"** Alternatively, this file may be used under the terms of the GNU General\n"
"** Public License version 3.0 as published by the Free Software Foundation\n"
"** and appearing in the file LICENSE.GPL included in the packaging of this\n"
"** file. Please review the following information to ensure the GNU General\n"
"** Public License version 3.0 requirements will be met:\n"
"** http://www.gnu.org/copyleft/gpl.html.\n"
"**\n"
"** Other Usage\n"
"** Alternatively, this file may be used in accordance with the terms and\n"
"** conditions contained in a signed written agreement between you and Nokia.\n"
"**\n"
"**\n"
"**\n"
"**\n"
"**\n"
"**\n"
"** $QT_END_LICENSE$\n"
"**\n"
"****************************************************************************/\n\n";
QByteArray note =
"/* This file is autogenerated from the Unicode "DATA_VERSION_S" 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";
QFile f("../../src/corelib/tools/qunicodetables.cpp");
f.open(QFile::WriteOnly|QFile::Truncate);
f.write(header);
f.write(note);
f.write("#include \"qunicodetables_p.h\"\n\n");
f.write("QT_BEGIN_NAMESPACE\n\n");
f.write("namespace QUnicodeTables {\n\n");
f.write(properties);
f.write("\n");
f.write(specialCases);
f.write("\n");
f.write(compositions);
f.write(ligatures);
f.write("\n");
f.write(normalizationCorrections);
f.write("\n");
f.write(scriptTableDeclaration);
f.write("} // namespace QUnicodeTables\n\n");
f.write("using namespace QUnicodeTables;\n\n");
f.write("QT_END_NAMESPACE\n");
f.close();
f.setFileName("../../src/corelib/tools/qunicodetables_p.h");
f.open(QFile::WriteOnly | QFile::Truncate);
f.write(header);
f.write(note);
f.write(warning);
f.write("#ifndef QUNICODETABLES_P_H\n"
"#define QUNICODETABLES_P_H\n\n"
"#include <QtCore/qchar.h>\n\n"
"QT_BEGIN_NAMESPACE\n\n");
f.write("#define UNICODE_DATA_VERSION "DATA_VERSION_STR"\n\n");
f.write("#define UNICODE_LAST_CODEPOINT "LAST_CODEPOINT_STR"\n\n");
f.write("namespace QUnicodeTables {\n\n");
f.write(property_string);
f.write("\n");
f.write(scriptEnumDeclaration);
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");
f.write(line_break_class_string);
f.write("\n");
f.write(methods);
f.write("\n");
f.write(generated_methods);
f.write("} // namespace QUnicodeTables\n\n"
"QT_END_NAMESPACE\n\n"
"#endif // QUNICODETABLES_P_H\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
}