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/****************************************************************************
**
** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies).
** Contact: Nokia Corporation (qt-info@nokia.com)
**
** This file is part of the QtGui module 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://www.qtsoftware.com/contact.
** $QT_END_LICENSE$
**
****************************************************************************/
#include <qdir.h>
#include "qfontdatabase.h"
#include "qdebug.h"
#include "qalgorithms.h"
#include "qapplication.h"
#include "qvarlengtharray.h" // here or earlier - workaround for VC++6
#include "qthread.h"
#include "qmutex.h"
#include "private/qunicodetables_p.h"
#include "qfontengine_p.h"
#ifdef Q_WS_X11
#include <locale.h>
#endif
#include <stdlib.h>
#include <limits.h>
// #define QFONTDATABASE_DEBUG
#ifdef QFONTDATABASE_DEBUG
# define FD_DEBUG qDebug
#else
# define FD_DEBUG if (false) qDebug
#endif
// #define FONT_MATCH_DEBUG
#ifdef FONT_MATCH_DEBUG
# define FM_DEBUG qDebug
#else
# define FM_DEBUG if (false) qDebug
#endif
#if defined(Q_CC_MSVC) && !defined(Q_CC_MSVC_NET)
# define for if(0){}else for
#endif
QT_BEGIN_NAMESPACE
extern int qt_defaultDpiY(); // in qfont.cpp
Q_GUI_EXPORT bool qt_enable_test_font = false;
static int getFontWeight(const QString &weightString)
{
QString s = weightString.toLower();
// Test in decreasing order of commonness
if (s == QLatin1String("medium") ||
s == QLatin1String("normal")
|| s.compare(qApp->translate("QFontDatabase", "Normal"), Qt::CaseInsensitive) == 0)
return QFont::Normal;
if (s == QLatin1String("bold")
|| s.compare(qApp->translate("QFontDatabase", "Bold"), Qt::CaseInsensitive) == 0)
return QFont::Bold;
if (s == QLatin1String("demibold") || s == QLatin1String("demi bold")
|| s.compare(qApp->translate("QFontDatabase", "Demi Bold"), Qt::CaseInsensitive) == 0)
return QFont::DemiBold;
if (s == QLatin1String("black")
|| s.compare(qApp->translate("QFontDatabase", "Black"), Qt::CaseInsensitive) == 0)
return QFont::Black;
if (s == QLatin1String("light"))
return QFont::Light;
if (s.contains(QLatin1String("bold"))
|| s.contains(qApp->translate("QFontDatabase", "Bold"), Qt::CaseInsensitive)) {
if (s.contains(QLatin1String("demi"))
|| s.compare(qApp->translate("QFontDatabase", "Demi"), Qt::CaseInsensitive) == 0)
return (int) QFont::DemiBold;
return (int) QFont::Bold;
}
if (s.contains(QLatin1String("light"))
|| s.compare(qApp->translate("QFontDatabase", "Light"), Qt::CaseInsensitive) == 0)
return (int) QFont::Light;
if (s.contains(QLatin1String("black"))
|| s.compare(qApp->translate("QFontDatabase", "Black"), Qt::CaseInsensitive) == 0)
return (int) QFont::Black;
return (int) QFont::Normal;
}
struct QtFontEncoding
{
signed int encoding : 16;
uint xpoint : 16;
uint xres : 8;
uint yres : 8;
uint avgwidth : 16;
uchar pitch : 8;
};
struct QtFontSize
{
unsigned short pixelSize;
#ifdef Q_WS_X11
int count;
QtFontEncoding *encodings;
QtFontEncoding *encodingID(int id, uint xpoint = 0, uint xres = 0,
uint yres = 0, uint avgwidth = 0, bool add = false);
#endif // Q_WS_X11
#ifdef Q_WS_QWS
QByteArray fileName;
int fileIndex;
#endif
};
#ifdef Q_WS_X11
QtFontEncoding *QtFontSize::encodingID(int id, uint xpoint, uint xres,
uint yres, uint avgwidth, bool add)
{
// we don't match using the xpoint, xres and yres parameters, only the id
for (int i = 0; i < count; ++i) {
if (encodings[i].encoding == id)
return encodings + i;
}
if (!add) return 0;
if (!(count % 4))
encodings = (QtFontEncoding *)
realloc(encodings,
(((count+4) >> 2) << 2) * sizeof(QtFontEncoding));
encodings[count].encoding = id;
encodings[count].xpoint = xpoint;
encodings[count].xres = xres;
encodings[count].yres = yres;
encodings[count].avgwidth = avgwidth;
encodings[count].pitch = '*';
return encodings + count++;
}
#endif // Q_WS_X11
struct QtFontStyle
{
struct Key {
Key(const QString &styleString);
Key() : style(QFont::StyleNormal),
weight(QFont::Normal), stretch(0) { }
Key(const Key &o) : style(o.style),
weight(o.weight), stretch(o.stretch) { }
uint style : 2;
signed int weight : 8;
signed int stretch : 12;
bool operator==(const Key & other) {
return (style == other.style &&
weight == other.weight &&
(stretch == 0 || other.stretch == 0 || stretch == other.stretch));
}
bool operator!=(const Key &other) {
return !operator==(other);
}
bool operator <(const Key &o) {
int x = (style << 12) + (weight << 14) + stretch;
int y = (o.style << 12) + (o.weight << 14) + o.stretch;
return (x < y);
}
};
QtFontStyle(const Key &k)
: key(k), bitmapScalable(false), smoothScalable(false),
count(0), pixelSizes(0)
{
#if defined(Q_WS_X11)
weightName = setwidthName = 0;
#endif // Q_WS_X11
}
~QtFontStyle() {
#ifdef Q_WS_X11
delete [] weightName;
delete [] setwidthName;
#endif
#if defined(Q_WS_X11) || defined(Q_WS_QWS)
while (count--) {
#ifdef Q_WS_X11
free(pixelSizes[count].encodings);
#endif
#ifdef Q_WS_QWS
pixelSizes[count].fileName.~QByteArray();
#endif
}
#endif
free(pixelSizes);
}
Key key;
bool bitmapScalable : 1;
bool smoothScalable : 1;
signed int count : 30;
QtFontSize *pixelSizes;
#ifdef Q_WS_X11
const char *weightName;
const char *setwidthName;
#endif // Q_WS_X11
#ifdef Q_WS_QWS
bool antialiased;
#endif
QtFontSize *pixelSize(unsigned short size, bool = false);
};
QtFontStyle::Key::Key(const QString &styleString)
: style(QFont::StyleNormal), weight(QFont::Normal), stretch(0)
{
weight = getFontWeight(styleString);
if (styleString.contains(QLatin1String("Italic"))
|| styleString.contains(qApp->translate("QFontDatabase", "Italic")))
style = QFont::StyleItalic;
else if (styleString.contains(QLatin1String("Oblique"))
|| styleString.contains(qApp->translate("QFontDatabase", "Oblique")))
style = QFont::StyleOblique;
}
QtFontSize *QtFontStyle::pixelSize(unsigned short size, bool add)
{
for (int i = 0; i < count; i++) {
if (pixelSizes[i].pixelSize == size)
return pixelSizes + i;
}
if (!add)
return 0;
if (!(count % 8))
pixelSizes = (QtFontSize *)
realloc(pixelSizes,
(((count+8) >> 3) << 3) * sizeof(QtFontSize));
pixelSizes[count].pixelSize = size;
#ifdef Q_WS_X11
pixelSizes[count].count = 0;
pixelSizes[count].encodings = 0;
#endif
#ifdef Q_WS_QWS
new (&pixelSizes[count].fileName) QByteArray;
pixelSizes[count].fileIndex = 0;
#endif
return pixelSizes + (count++);
}
struct QtFontFoundry
{
QtFontFoundry(const QString &n) : name(n), count(0), styles(0) {}
~QtFontFoundry() {
while (count--)
delete styles[count];
free(styles);
}
QString name;
int count;
QtFontStyle **styles;
QtFontStyle *style(const QtFontStyle::Key &, bool = false);
};
QtFontStyle *QtFontFoundry::style(const QtFontStyle::Key &key, bool create)
{
int pos = 0;
if (count) {
int low = 0;
int high = count;
pos = count / 2;
while (high > low) {
if (styles[pos]->key == key)
return styles[pos];
if (styles[pos]->key < key)
low = pos + 1;
else
high = pos;
pos = (high + low) / 2;
};
pos = low;
}
if (!create)
return 0;
// qDebug("adding key (weight=%d, style=%d, oblique=%d stretch=%d) at %d", key.weight, key.style, key.oblique, key.stretch, pos);
if (!(count % 8))
styles = (QtFontStyle **)
realloc(styles, (((count+8) >> 3) << 3) * sizeof(QtFontStyle *));
memmove(styles + pos + 1, styles + pos, (count-pos)*sizeof(QtFontStyle *));
styles[pos] = new QtFontStyle(key);
count++;
return styles[pos];
}
struct QtFontFamily
{
enum WritingSystemStatus {
Unknown = 0,
Supported = 1,
UnsupportedFT = 2,
UnsupportedXLFD = 4,
Unsupported = UnsupportedFT | UnsupportedXLFD
};
QtFontFamily(const QString &n)
:
#ifdef Q_WS_X11
fixedPitch(true), ftWritingSystemCheck(false),
xlfdLoaded(false), synthetic(false), symbol_checked(false),
#else
fixedPitch(false),
#endif
#ifdef Q_WS_WIN
writingSystemCheck(false),
loaded(false),
#endif
#if !defined(QWS) && defined(Q_OS_MAC)
fixedPitchComputed(false),
#endif
name(n), count(0), foundries(0)
#if defined(Q_WS_QWS)
, bogusWritingSystems(false)
#endif
{
memset(writingSystems, 0, sizeof(writingSystems));
}
~QtFontFamily() {
while (count--)
delete foundries[count];
free(foundries);
}
bool fixedPitch : 1;
#ifdef Q_WS_X11
bool ftWritingSystemCheck : 1;
bool xlfdLoaded : 1;
bool synthetic : 1;
#endif
#ifdef Q_WS_WIN
bool writingSystemCheck : 1;
bool loaded : 1;
#endif
#if !defined(QWS) && defined(Q_OS_MAC)
bool fixedPitchComputed : 1;
#endif
#ifdef Q_WS_X11
bool symbol_checked;
#endif
QString name;
#ifdef Q_WS_X11
QByteArray fontFilename;
int fontFileIndex;
#endif
#ifdef Q_WS_WIN
QString english_name;
#endif
int count;
QtFontFoundry **foundries;
#ifdef Q_WS_QWS
bool bogusWritingSystems;
QStringList fallbackFamilies;
#endif
unsigned char writingSystems[QFontDatabase::WritingSystemsCount];
QtFontFoundry *foundry(const QString &f, bool = false);
};
#if !defined(QWS) && defined(Q_OS_MAC)
inline static void qt_mac_get_fixed_pitch(QtFontFamily *f)
{
if(f && !f->fixedPitchComputed) {
QFontMetrics fm(f->name);
f->fixedPitch = fm.width(QLatin1Char('i')) == fm.width(QLatin1Char('m'));
f->fixedPitchComputed = true;
}
}
#endif
QtFontFoundry *QtFontFamily::foundry(const QString &f, bool create)
{
if (f.isNull() && count == 1)
return foundries[0];
for (int i = 0; i < count; i++) {
if (foundries[i]->name.compare(f, Qt::CaseInsensitive) == 0)
return foundries[i];
}
if (!create)
return 0;
if (!(count % 8))
foundries = (QtFontFoundry **)
realloc(foundries,
(((count+8) >> 3) << 3) * sizeof(QtFontFoundry *));
foundries[count] = new QtFontFoundry(f);
return foundries[count++];
}
// ### copied to tools/makeqpf/qpf2.cpp
#if (defined(Q_WS_QWS) && !defined(QT_NO_FREETYPE)) || defined(Q_WS_WIN) || (defined(Q_WS_MAC) && !defined(QT_MAC_USE_COCOA))
// see the Unicode subset bitfields in the MSDN docs
static int requiredUnicodeBits[QFontDatabase::WritingSystemsCount][2] = {
// Any,
{ 127, 127 },
// Latin,
{ 0, 127 },
// Greek,
{ 7, 127 },
// Cyrillic,
{ 9, 127 },
// Armenian,
{ 10, 127 },
// Hebrew,
{ 11, 127 },
// Arabic,
{ 13, 127 },
// Syriac,
{ 71, 127 },
//Thaana,
{ 72, 127 },
//Devanagari,
{ 15, 127 },
//Bengali,
{ 16, 127 },
//Gurmukhi,
{ 17, 127 },
//Gujarati,
{ 18, 127 },
//Oriya,
{ 19, 127 },
//Tamil,
{ 20, 127 },
//Telugu,
{ 21, 127 },
//Kannada,
{ 22, 127 },
//Malayalam,
{ 23, 127 },
//Sinhala,
{ 73, 127 },
//Thai,
{ 24, 127 },
//Lao,
{ 25, 127 },
//Tibetan,
{ 70, 127 },
//Myanmar,
{ 74, 127 },
// Georgian,
{ 26, 127 },
// Khmer,
{ 80, 127 },
// SimplifiedChinese,
{ 126, 127 },
// TraditionalChinese,
{ 126, 127 },
// Japanese,
{ 126, 127 },
// Korean,
{ 56, 127 },
// Vietnamese,
{ 0, 127 }, // same as latin1
// Other,
{ 126, 127 }
};
#define SimplifiedChineseCsbBit 18
#define TraditionalChineseCsbBit 20
#define JapaneseCsbBit 17
#define KoreanCsbBit 21
static QList<QFontDatabase::WritingSystem> determineWritingSystemsFromTrueTypeBits(quint32 unicodeRange[4], quint32 codePageRange[2])
{
QList<QFontDatabase::WritingSystem> writingSystems;
bool hasScript = false;
int i;
for(i = 0; i < QFontDatabase::WritingSystemsCount; i++) {
int bit = requiredUnicodeBits[i][0];
int index = bit/32;
int flag = 1 << (bit&31);
if (bit != 126 && unicodeRange[index] & flag) {
bit = requiredUnicodeBits[i][1];
index = bit/32;
flag = 1 << (bit&31);
if (bit == 127 || unicodeRange[index] & flag) {
writingSystems.append(QFontDatabase::WritingSystem(i));
hasScript = true;
// qDebug("font %s: index=%d, flag=%8x supports script %d", familyName.latin1(), index, flag, i);
}
}
}
if(codePageRange[0] & (1 << SimplifiedChineseCsbBit)) {
writingSystems.append(QFontDatabase::SimplifiedChinese);
hasScript = true;
//qDebug("font %s supports Simplified Chinese", familyName.latin1());
}
if(codePageRange[0] & (1 << TraditionalChineseCsbBit)) {
writingSystems.append(QFontDatabase::TraditionalChinese);
hasScript = true;
//qDebug("font %s supports Traditional Chinese", familyName.latin1());
}
if(codePageRange[0] & (1 << JapaneseCsbBit)) {
writingSystems.append(QFontDatabase::Japanese);
hasScript = true;
//qDebug("font %s supports Japanese", familyName.latin1());
}
if(codePageRange[0] & (1 << KoreanCsbBit)) {
writingSystems.append(QFontDatabase::Korean);
hasScript = true;
//qDebug("font %s supports Korean", familyName.latin1());
}
if (!hasScript)
writingSystems.append(QFontDatabase::Symbol);
return writingSystems;
}
#endif
class QFontDatabasePrivate
{
public:
QFontDatabasePrivate()
: count(0), families(0), reregisterAppFonts(false)
#if defined(Q_WS_QWS)
, stream(0)
#endif
{ }
~QFontDatabasePrivate() {
free();
}
QtFontFamily *family(const QString &f, bool = false);
void free() {
while (count--)
delete families[count];
::free(families);
families = 0;
count = 0;
// don't clear the memory fonts!
}
int count;
QtFontFamily **families;
struct ApplicationFont {
QString fileName;
QByteArray data;
#if defined(Q_OS_WIN)
HANDLE handle;
bool memoryFont;
QVector<FONTSIGNATURE> signatures;
#elif defined(Q_WS_MAC)
ATSFontContainerRef handle;
#endif
QStringList families;
};
QVector<ApplicationFont> applicationFonts;
int addAppFont(const QByteArray &fontData, const QString &fileName);
bool reregisterAppFonts;
bool isApplicationFont(const QString &fileName);
void invalidate();
#if defined(Q_WS_QWS)
bool loadFromCache(const QString &fontPath);
void addFont(const QString &familyname, const char *foundryname, int weight,
bool italic, int pixelSize, const QByteArray &file, int fileIndex,
bool antialiased,
const QList<QFontDatabase::WritingSystem> &writingSystems = QList<QFontDatabase::WritingSystem>());
void addQPF2File(const QByteArray &file);
#ifndef QT_NO_FREETYPE
QStringList addTTFile(const QByteArray &file, const QByteArray &fontData = QByteArray());
#endif
QDataStream *stream;
QStringList fallbackFamilies;
#endif
};
void QFontDatabasePrivate::invalidate()
{
QFontCache::instance()->clear();
free();
emit static_cast<QApplication *>(QApplication::instance())->fontDatabaseChanged();
}
QtFontFamily *QFontDatabasePrivate::family(const QString &f, bool create)
{
int low = 0;
int high = count;
int pos = count / 2;
int res = 1;
if (count) {
while ((res = families[pos]->name.compare(f, Qt::CaseInsensitive)) && pos != low) {
if (res > 0)
high = pos;
else
low = pos;
pos = (high + low) / 2;
};
if (!res)
return families[pos];
}
if (!create)
return 0;
if (res < 0)
pos++;
// qDebug("adding family %s at %d total=%d", f.latin1(), pos, count);
if (!(count % 8))
families = (QtFontFamily **)
realloc(families,
(((count+8) >> 3) << 3) * sizeof(QtFontFamily *));
memmove(families + pos + 1, families + pos, (count-pos)*sizeof(QtFontFamily *));
families[pos] = new QtFontFamily(f);
count++;
return families[pos];
}
static const int scriptForWritingSystem[] = {
QUnicodeTables::Common, // Any
QUnicodeTables::Latin, // Latin
QUnicodeTables::Greek, // Greek
QUnicodeTables::Cyrillic, // Cyrillic
QUnicodeTables::Armenian, // Armenian
QUnicodeTables::Hebrew, // Hebrew
QUnicodeTables::Arabic, // Arabic
QUnicodeTables::Syriac, // Syriac
QUnicodeTables::Thaana, // Thaana
QUnicodeTables::Devanagari, // Devanagari
QUnicodeTables::Bengali, // Bengali
QUnicodeTables::Gurmukhi, // Gurmukhi
QUnicodeTables::Gujarati, // Gujarati
QUnicodeTables::Oriya, // Oriya
QUnicodeTables::Tamil, // Tamil
QUnicodeTables::Telugu, // Telugu
QUnicodeTables::Kannada, // Kannada
QUnicodeTables::Malayalam, // Malayalam
QUnicodeTables::Sinhala, // Sinhala
QUnicodeTables::Thai, // Thai
QUnicodeTables::Lao, // Lao
QUnicodeTables::Tibetan, // Tibetan
QUnicodeTables::Myanmar, // Myanmar
QUnicodeTables::Georgian, // Georgian
QUnicodeTables::Khmer, // Khmer
QUnicodeTables::Common, // SimplifiedChinese
QUnicodeTables::Common, // TraditionalChinese
QUnicodeTables::Common, // Japanese
QUnicodeTables::Hangul, // Korean
QUnicodeTables::Common, // Vietnamese
QUnicodeTables::Common, // Yi
QUnicodeTables::Common, // Tagalog
QUnicodeTables::Common, // Hanunoo
QUnicodeTables::Common, // Buhid
QUnicodeTables::Common, // Tagbanwa
QUnicodeTables::Common, // Limbu
QUnicodeTables::Common, // TaiLe
QUnicodeTables::Common, // Braille
QUnicodeTables::Common, // Symbol
QUnicodeTables::Ogham, // Ogham
QUnicodeTables::Runic // Runic
};
#if defined Q_WS_QWS || (defined(Q_WS_X11) && !defined(QT_NO_FONTCONFIG)) || defined(Q_WS_WIN)
static inline bool requiresOpenType(int writingSystem)
{
return ((writingSystem >= QFontDatabase::Syriac && writingSystem <= QFontDatabase::Sinhala)
|| writingSystem == QFontDatabase::Khmer);
}
static inline bool scriptRequiresOpenType(int script)
{
return ((script >= QUnicodeTables::Syriac && script <= QUnicodeTables::Sinhala)
|| script == QUnicodeTables::Khmer);
}
#endif
/*!
\internal
This makes sense of the font family name:
if the family name contains a '[' and a ']', then we take the text
between the square brackets as the foundry, and the text before the
square brackets as the family (ie. "Arial [Monotype]")
*/
static void parseFontName(const QString &name, QString &foundry, QString &family)
{
int i = name.indexOf(QLatin1Char('['));
int li = name.lastIndexOf(QLatin1Char(']'));
if (i >= 0 && li >= 0 && i < li) {
foundry = name.mid(i + 1, li - i - 1);
if (i > 0 && name[i - 1] == QLatin1Char(' '))
i--;
family = name.left(i);
} else {
foundry.clear();
family = name;
}
// capitalize the family/foundry names
bool space = true;
QChar *s = family.data();
int len = family.length();
while(len--) {
if (space) *s = s->toUpper();
space = s->isSpace();
++s;
}
space = true;
s = foundry.data();
len = foundry.length();
while(len--) {
if (space) *s = s->toUpper();
space = s->isSpace();
++s;
}
}
struct QtFontDesc
{
inline QtFontDesc() : family(0), foundry(0), style(0), size(0), encoding(0), familyIndex(-1) {}
QtFontFamily *family;
QtFontFoundry *foundry;
QtFontStyle *style;
QtFontSize *size;
QtFontEncoding *encoding;
int familyIndex;
};
#if !defined(Q_WS_MAC)
static void match(int script, const QFontDef &request,
const QString &family_name, const QString &foundry_name, int force_encoding_id,
QtFontDesc *desc, const QList<int> &blacklistedFamilies = QList<int>());
#if defined(Q_WS_X11) || defined(Q_WS_QWS)
static void initFontDef(const QtFontDesc &desc, const QFontDef &request, QFontDef *fontDef)
{
fontDef->family = desc.family->name;
if (! desc.foundry->name.isEmpty() && desc.family->count > 1) {
fontDef->family += QString::fromLatin1(" [");
fontDef->family += desc.foundry->name;
fontDef->family += QString::fromLatin1("]");
}
if (desc.style->smoothScalable)
fontDef->pixelSize = request.pixelSize;
else if ((desc.style->bitmapScalable && (request.styleStrategy & QFont::PreferMatch)))
fontDef->pixelSize = request.pixelSize;
else
fontDef->pixelSize = desc.size->pixelSize;
fontDef->styleHint = request.styleHint;
fontDef->styleStrategy = request.styleStrategy;
fontDef->weight = desc.style->key.weight;
fontDef->style = desc.style->key.style;
fontDef->fixedPitch = desc.family->fixedPitch;
fontDef->stretch = desc.style->key.stretch;
fontDef->ignorePitch = false;
}
#endif
#endif
#if defined(Q_WS_X11) || defined(Q_WS_WIN)
static void getEngineData(const QFontPrivate *d, const QFontCache::Key &key)
{
// look for the requested font in the engine data cache
d->engineData = QFontCache::instance()->findEngineData(key);
if (!d->engineData) {
// create a new one
d->engineData = new QFontEngineData;
QFontCache::instance()->insertEngineData(key, d->engineData);
} else {
d->engineData->ref.ref();
}
}
#endif
static QStringList familyList(const QFontDef &req)
{
// list of families to try
QStringList family_list;
if (req.family.isEmpty())
return family_list;
QStringList list = req.family.split(QLatin1Char(','));
for (int i = 0; i < list.size(); ++i) {
QString str = list.at(i).trimmed();
if ((str.startsWith(QLatin1Char('"')) && str.endsWith(QLatin1Char('"')))
|| (str.startsWith(QLatin1Char('\'')) && str.endsWith(QLatin1Char('\''))))
str = str.mid(1, str.length() - 2);
family_list << str;
}
// append the substitute list for each family in family_list
QStringList subs_list;
QStringList::ConstIterator it = family_list.constBegin(), end = family_list.constEnd();
for (; it != end; ++it)
subs_list += QFont::substitutes(*it);
// qDebug() << "adding substs: " << subs_list;
family_list += subs_list;
return family_list;
}
Q_GLOBAL_STATIC(QFontDatabasePrivate, privateDb)
Q_GLOBAL_STATIC_WITH_ARGS(QMutex, fontDatabaseMutex, (QMutex::Recursive))
// used in qfontengine_x11.cpp
QMutex *qt_fontdatabase_mutex()
{
return fontDatabaseMutex();
}
#define SMOOTH_SCALABLE 0xffff
QT_BEGIN_INCLUDE_NAMESPACE
#if defined(Q_WS_X11)
# include "qfontdatabase_x11.cpp"
#elif defined(Q_WS_MAC)
# include "qfontdatabase_mac.cpp"
#elif defined(Q_WS_WIN)
# include "qfontdatabase_win.cpp"
#elif defined(Q_WS_QWS)
# include "qfontdatabase_qws.cpp"
#endif
QT_END_INCLUDE_NAMESPACE
static QtFontStyle *bestStyle(QtFontFoundry *foundry, const QtFontStyle::Key &styleKey)
{
int best = 0;
int dist = 0xffff;
for ( int i = 0; i < foundry->count; i++ ) {
QtFontStyle *style = foundry->styles[i];
int d = qAbs( styleKey.weight - style->key.weight );
if ( styleKey.stretch != 0 && style->key.stretch != 0 ) {
d += qAbs( styleKey.stretch - style->key.stretch );
}
if (styleKey.style != style->key.style) {
if (styleKey.style != QFont::StyleNormal && style->key.style != QFont::StyleNormal)
// one is italic, the other oblique
d += 0x0001;
else
d += 0x1000;
}
if ( d < dist ) {
best = i;
dist = d;
}
}
FM_DEBUG( " best style has distance 0x%x", dist );
return foundry->styles[best];
}
#if defined(Q_WS_X11)
static QtFontEncoding *findEncoding(int script, int styleStrategy,
QtFontSize *size, int force_encoding_id)
{
QtFontEncoding *encoding = 0;
if (force_encoding_id >= 0) {
encoding = size->encodingID(force_encoding_id);
if (!encoding)
FM_DEBUG(" required encoding_id not available");
return encoding;
}
if (styleStrategy & (QFont::OpenGLCompatible | QFont::PreferBitmap)) {
FM_DEBUG(" PreferBitmap and/or OpenGL set, skipping Freetype");
} else {
encoding = size->encodingID(-1); // -1 == prefer Freetype
if (encoding)
return encoding;
}
// FT not available, find an XLFD font, trying the default encoding first
encoding = size->encodingID(QFontPrivate::defaultEncodingID);
if (encoding) {
// does it support the requested script?
bool supportsScript = false;
for (int ws = 1; !supportsScript && ws < QFontDatabase::WritingSystemsCount; ++ws) {
if (scriptForWritingSystem[ws] != script)
continue;
supportsScript = writingSystems_for_xlfd_encoding[encoding->encoding][ws];
}
if (!supportsScript)
encoding = 0;
}
// find the first encoding that supports the requested script
for (int ws = 1; !encoding && ws < QFontDatabase::WritingSystemsCount; ++ws) {
if (scriptForWritingSystem[ws] != script)
continue;
for (int x = 0; !encoding && x < size->count; ++x) {
const int enc = size->encodings[x].encoding;
if (writingSystems_for_xlfd_encoding[enc][ws])
encoding = size->encodings + x;
}
}
return encoding;
}
#endif // Q_WS_X11
#if !defined(Q_WS_MAC)
static
unsigned int bestFoundry(int script, unsigned int score, int styleStrategy,
const QtFontFamily *family, const QString &foundry_name,
QtFontStyle::Key styleKey, int pixelSize, char pitch,
QtFontDesc *desc, int force_encoding_id)
{
Q_UNUSED(force_encoding_id);
Q_UNUSED(script);
Q_UNUSED(pitch);
desc->foundry = 0;
desc->style = 0;
desc->size = 0;
desc->encoding = 0;
FM_DEBUG(" REMARK: looking for best foundry for family '%s' [%d]", family->name.toLatin1().constData(), family->count);
for (int x = 0; x < family->count; ++x) {
QtFontFoundry *foundry = family->foundries[x];
if (!foundry_name.isEmpty() && foundry->name.compare(foundry_name, Qt::CaseInsensitive) != 0)
continue;
FM_DEBUG(" looking for matching style in foundry '%s' %d",
foundry->name.isEmpty() ? "-- none --" : foundry->name.toLatin1().constData(), foundry->count);
QtFontStyle *style = bestStyle(foundry, styleKey);
if (!style->smoothScalable && (styleStrategy & QFont::ForceOutline)) {
FM_DEBUG(" ForceOutline set, but not smoothly scalable");
continue;
}
int px = -1;
QtFontSize *size = 0;
// 1. see if we have an exact matching size
if (!(styleStrategy & QFont::ForceOutline)) {
size = style->pixelSize(pixelSize);
if (size) {
FM_DEBUG(" found exact size match (%d pixels)", size->pixelSize);
px = size->pixelSize;
}
}
// 2. see if we have a smoothly scalable font
if (!size && style->smoothScalable && ! (styleStrategy & QFont::PreferBitmap)) {
size = style->pixelSize(SMOOTH_SCALABLE);
if (size) {
FM_DEBUG(" found smoothly scalable font (%d pixels)", pixelSize);
px = pixelSize;
}
}
// 3. see if we have a bitmap scalable font
if (!size && style->bitmapScalable && (styleStrategy & QFont::PreferMatch)) {
size = style->pixelSize(0);
if (size) {
FM_DEBUG(" found bitmap scalable font (%d pixels)", pixelSize);
px = pixelSize;
}
}
#ifdef Q_WS_X11
QtFontEncoding *encoding = 0;
#endif
// 4. find closest size match
if (! size) {
unsigned int distance = ~0u;
for (int x = 0; x < style->count; ++x) {
#ifdef Q_WS_X11
encoding =
findEncoding(script, styleStrategy, style->pixelSizes + x, force_encoding_id);
if (!encoding) {
FM_DEBUG(" size %3d does not support the script we want",
style->pixelSizes[x].pixelSize);
continue;
}
#endif
unsigned int d;
if (style->pixelSizes[x].pixelSize < pixelSize) {
// penalize sizes that are smaller than the
// requested size, due to truncation from floating
// point to integer conversions
d = pixelSize - style->pixelSizes[x].pixelSize + 1;
} else {
d = style->pixelSizes[x].pixelSize - pixelSize;
}
if (d < distance) {
distance = d;
size = style->pixelSizes + x;
FM_DEBUG(" best size so far: %3d (%d)", size->pixelSize, pixelSize);
}
}
if (!size) {
FM_DEBUG(" no size supports the script we want");
continue;
}
if (style->bitmapScalable && ! (styleStrategy & QFont::PreferQuality) &&
(distance * 10 / pixelSize) >= 2) {
// the closest size is not close enough, go ahead and
// use a bitmap scaled font
size = style->pixelSize(0);
px = pixelSize;
} else {
px = size->pixelSize;
}
}
#ifdef Q_WS_X11
if (size) {
encoding = findEncoding(script, styleStrategy, size, force_encoding_id);
if (!encoding) size = 0;
}
if (! encoding) {
FM_DEBUG(" foundry doesn't support the script we want");
continue;
}
#endif // Q_WS_X11
unsigned int this_score = 0x0000;
enum {
PitchMismatch = 0x4000,
StyleMismatch = 0x2000,
BitmapScaledPenalty = 0x1000,
EncodingMismatch = 0x0002,
XLFDPenalty = 0x0001
};
#ifdef Q_WS_X11
if (encoding->encoding != -1) {
this_score += XLFDPenalty;
if (encoding->encoding != QFontPrivate::defaultEncodingID)
this_score += EncodingMismatch;
}
if (pitch != '*') {
if (!(pitch == 'm' && encoding->pitch == 'c') && pitch != encoding->pitch)
this_score += PitchMismatch;
}
#else
if (pitch != '*') {
#if !defined(QWS) && defined(Q_OS_MAC)
qt_mac_get_fixed_pitch(const_cast<QtFontFamily*>(family));
#endif
if ((pitch == 'm' && !family->fixedPitch)
|| (pitch == 'p' && family->fixedPitch))
this_score += PitchMismatch;
}
#endif
if (styleKey != style->key)
this_score += StyleMismatch;
if (!style->smoothScalable && px != size->pixelSize) // bitmap scaled
this_score += BitmapScaledPenalty;
if (px != pixelSize) // close, but not exact, size match
this_score += qAbs(px - pixelSize);
if (this_score < score) {
FM_DEBUG(" found a match: score %x best score so far %x",
this_score, score);
score = this_score;
desc->foundry = foundry;
desc->style = style;
desc->size = size;
#ifdef Q_WS_X11
desc->encoding = encoding;
#endif // Q_WS_X11
} else {
FM_DEBUG(" score %x no better than best %x", this_score, score);
}
}
return score;
}
#endif
#if !defined(Q_WS_MAC)
/*!
\internal
Tries to find the best match for a given request and family/foundry
*/
static void match(int script, const QFontDef &request,
const QString &family_name, const QString &foundry_name, int force_encoding_id,
QtFontDesc *desc, const QList<int> &blacklistedFamilies)
{
Q_UNUSED(force_encoding_id);
QtFontStyle::Key styleKey;
styleKey.style = request.style;
styleKey.weight = request.weight;
styleKey.stretch = request.stretch;
char pitch = request.ignorePitch ? '*' : request.fixedPitch ? 'm' : 'p';
FM_DEBUG("QFontDatabase::match\n"
" request:\n"
" family: %s [%s], script: %d\n"
" weight: %d, style: %d\n"
" stretch: %d\n"
" pixelSize: %d\n"
" pitch: %c",
family_name.isEmpty() ? "-- first in script --" : family_name.toLatin1().constData(),
foundry_name.isEmpty() ? "-- any --" : foundry_name.toLatin1().constData(),
script, request.weight, request.style, request.stretch, request.pixelSize, pitch);
#if defined(FONT_MATCH_DEBUG) && defined(Q_WS_X11)
if (force_encoding_id >= 0) {
FM_DEBUG(" required encoding: %d", force_encoding_id);
}
#endif
desc->family = 0;
desc->foundry = 0;
desc->style = 0;
desc->size = 0;
desc->encoding = 0;
desc->familyIndex = -1;
unsigned int score = ~0u;
load(family_name, script);
QFontDatabasePrivate *db = privateDb();
for (int x = 0; x < db->count; ++x) {
if (blacklistedFamilies.contains(x))
continue;
QtFontDesc test;
test.family = db->families[x];
test.familyIndex = x;
if (!family_name.isEmpty()
&& test.family->name.compare(family_name, Qt::CaseInsensitive) != 0
#ifdef Q_WS_WIN
&& test.family->english_name.compare(family_name, Qt::CaseInsensitive) != 0
#endif
)
continue;
if (family_name.isEmpty())
load(test.family->name, script);
uint score_adjust = 0;
bool supported = (script == QUnicodeTables::Common);
for (int ws = 1; !supported && ws < QFontDatabase::WritingSystemsCount; ++ws) {
if (scriptForWritingSystem[ws] != script)
continue;
if (test.family->writingSystems[ws] & QtFontFamily::Supported)
supported = true;
}
if (!supported) {
// family not supported in the script we want
continue;
}
// as we know the script is supported, we can be sure
// to find a matching font here.
unsigned int newscore =
bestFoundry(script, score, request.styleStrategy,
test.family, foundry_name, styleKey, request.pixelSize, pitch,
&test, force_encoding_id);
if (test.foundry == 0) {
// the specific foundry was not found, so look for
// any foundry matching our requirements
newscore = bestFoundry(script, score, request.styleStrategy, test.family,
QString(), styleKey, request.pixelSize,
pitch, &test, force_encoding_id);
}
newscore += score_adjust;
if (newscore < score) {
score = newscore;
*desc = test;
}
if (newscore < 10) // xlfd instead of FT... just accept it
break;
}
}
#endif
static QString styleStringHelper(int weight, QFont::Style style)
{
QString result;
if (weight >= QFont::Black)
result = qApp->translate("QFontDatabase", "Black");
else if (weight >= QFont::Bold)
result = qApp->translate("QFontDatabase", "Bold");
else if (weight >= QFont::DemiBold)
result = qApp->translate("QFontDatabase", "Demi Bold");
else if (weight < QFont::Normal)
result = qApp->translate("QFontDatabase", "Light");
if (style == QFont::StyleItalic)
result += QLatin1Char(' ') + qApp->translate("QFontDatabase", "Italic");
else if (style == QFont::StyleOblique)
result += QLatin1Char(' ') + qApp->translate("QFontDatabase", "Oblique");
if (result.isEmpty())
result = qApp->translate("QFontDatabase", "Normal");
return result.simplified();
}
/*!
Returns a string that describes the style of the \a font. For
example, "Bold Italic", "Bold", "Italic" or "Normal". An empty
string may be returned.
*/
QString QFontDatabase::styleString(const QFont &font)
{
return styleStringHelper(font.weight(), font.style());
}
/*!
Returns a string that describes the style of the \a fontInfo. For
example, "Bold Italic", "Bold", "Italic" or "Normal". An empty
string may be returned.
*/
QString QFontDatabase::styleString(const QFontInfo &fontInfo)
{
return styleStringHelper(fontInfo.weight(), fontInfo.style());
}
/*!
\class QFontDatabase
\threadsafe
\brief The QFontDatabase class provides information about the fonts available in the underlying window system.
\ingroup environment
\ingroup multimedia
\ingroup text
The most common uses of this class are to query the database for
the list of font families() and for the pointSizes() and styles()
that are available for each family. An alternative to pointSizes()
is smoothSizes() which returns the sizes at which a given family
and style will look attractive.
If the font family is available from two or more foundries the
foundry name is included in the family name, e.g. "Helvetica
[Adobe]" and "Helvetica [Cronyx]". When you specify a family you
can either use the old hyphenated Qt 2.x "foundry-family" format,
e.g. "Cronyx-Helvetica", or the new bracketed Qt 3.x "family
[foundry]" format e.g. "Helvetica [Cronyx]". If the family has a
foundry it is always returned, e.g. by families(), using the
bracketed format.
The font() function returns a QFont given a family, style and
point size.
A family and style combination can be checked to see if it is
italic() or bold(), and to retrieve its weight(). Similarly we can
call isBitmapScalable(), isSmoothlyScalable(), isScalable() and
isFixedPitch().
Use the styleString() to obtain a text version of a style.
The QFontDatabase class also supports some static functions, for
example, standardSizes(). You can retrieve the description of a
writing system using writingSystemName(), and a sample of
characters in a writing system with writingSystemSample().
Example:
\snippet doc/src/snippets/qfontdatabase/main.cpp 0
\snippet doc/src/snippets/qfontdatabase/main.cpp 1
This example gets the list of font families, the list of
styles for each family, and the point sizes that are available for
each combination of family and style, displaying this information
in a tree view.
\sa QFont, QFontInfo, QFontMetrics, QFontComboBox, {Character Map Example}
*/
/*!
Creates a font database object.
*/
QFontDatabase::QFontDatabase()
{
QMutexLocker locker(fontDatabaseMutex());
createDatabase();
d = privateDb();
}
/*!
\enum QFontDatabase::WritingSystem
\value Any
\value Latin
\value Greek
\value Cyrillic
\value Armenian
\value Hebrew
\value Arabic
\value Syriac
\value Thaana
\value Devanagari
\value Bengali
\value Gurmukhi
\value Gujarati
\value Oriya
\value Tamil
\value Telugu
\value Kannada
\value Malayalam
\value Sinhala
\value Thai
\value Lao
\value Tibetan
\value Myanmar
\value Georgian
\value Khmer
\value SimplifiedChinese
\value TraditionalChinese
\value Japanese
\value Korean
\value Vietnamese
\value Symbol
\value Other (the same as Symbol)
\value Ogham
\value Runic
\omitvalue WritingSystemsCount
*/
/*!
Returns a sorted list of the available writing systems. This is
list generated from information about all installed fonts on the
system.
\sa families()
*/
QList<QFontDatabase::WritingSystem> QFontDatabase::writingSystems() const
{
QMutexLocker locker(fontDatabaseMutex());
QT_PREPEND_NAMESPACE(load)();
#ifdef Q_WS_X11
checkSymbolFonts();
#endif
QList<WritingSystem> list;
for (int i = 0; i < d->count; ++i) {
QtFontFamily *family = d->families[i];
if (family->count == 0)
continue;
for (int x = Latin; x < WritingSystemsCount; ++x) {
const WritingSystem writingSystem = WritingSystem(x);
if (!(family->writingSystems[writingSystem] & QtFontFamily::Supported))
continue;
if (!list.contains(writingSystem))
list.append(writingSystem);
}
}
qSort(list);
return list;
}
/*!
Returns a sorted list of the writing systems supported by a given
font \a family.
\sa families()
*/
QList<QFontDatabase::WritingSystem> QFontDatabase::writingSystems(const QString &family) const
{
QString familyName, foundryName;
parseFontName(family, foundryName, familyName);
QMutexLocker locker(fontDatabaseMutex());
QT_PREPEND_NAMESPACE(load)();
#ifdef Q_WS_X11
checkSymbolFonts(familyName);
#endif
QList<WritingSystem> list;
QtFontFamily *f = d->family(familyName);
if (!f || f->count == 0)
return list;
for (int x = Latin; x < WritingSystemsCount; ++x) {
const WritingSystem writingSystem = WritingSystem(x);
if (f->writingSystems[writingSystem] & QtFontFamily::Supported)
list.append(writingSystem);
}
return list;
}
/*!
Returns a sorted list of the available font families which support
the \a writingSystem.
If a family exists in several foundries, the returned name for
that font is in the form "family [foundry]". Examples: "Times
[Adobe]", "Times [Cronyx]", "Palatino".
\sa writingSystems()
*/
QStringList QFontDatabase::families(WritingSystem writingSystem) const
{
QMutexLocker locker(fontDatabaseMutex());
QT_PREPEND_NAMESPACE(load)();
#ifdef Q_WS_X11
if (writingSystem != Any)
checkSymbolFonts();
#endif
QStringList flist;
for (int i = 0; i < d->count; i++) {
QtFontFamily *f = d->families[i];
if (f->count == 0)
continue;
if (writingSystem != Any && (f->writingSystems[writingSystem] != QtFontFamily::Supported))
continue;
if (f->count == 1) {
flist.append(f->name);
} else {
for (int j = 0; j < f->count; j++) {
QString str = f->name;
QString foundry = f->foundries[j]->name;
if (!foundry.isEmpty()) {
str += QLatin1String(" [");
str += foundry;
str += QLatin1String("]");
}
flist.append(str);
}
}
}
return flist;
}
/*!
Returns a list of the styles available for the font family \a
family. Some example styles: "Light", "Light Italic", "Bold",
"Oblique", "Demi". The list may be empty.
\sa families()
*/
QStringList QFontDatabase::styles(const QString &family) const
{
QString familyName, foundryName;
parseFontName(family, foundryName, familyName);
QMutexLocker locker(fontDatabaseMutex());
QT_PREPEND_NAMESPACE(load)(familyName);
QStringList l;
QtFontFamily *f = d->family(familyName);
if (!f)
return l;
QtFontFoundry allStyles(foundryName);
for (int j = 0; j < f->count; j++) {
QtFontFoundry *foundry = f->foundries[j];
if (foundryName.isEmpty() || foundry->name.compare(foundryName, Qt::CaseInsensitive) == 0) {
for (int k = 0; k < foundry->count; k++) {
QtFontStyle::Key ke(foundry->styles[k]->key);
ke.stretch = 0;
allStyles.style(ke, true);
}
}
}
for (int i = 0; i < allStyles.count; i++)
l.append(styleStringHelper(allStyles.styles[i]->key.weight, (QFont::Style)allStyles.styles[i]->key.style));
return l;
}
/*!
Returns true if the font that has family \a family and style \a
style is fixed pitch; otherwise returns false.
*/
bool QFontDatabase::isFixedPitch(const QString &family,
const QString &style) const
{
Q_UNUSED(style);
QString familyName, foundryName;
parseFontName(family, foundryName, familyName);
QMutexLocker locker(fontDatabaseMutex());
QT_PREPEND_NAMESPACE(load)(familyName);
QtFontFamily *f = d->family(familyName);
#if !defined(QWS) && defined(Q_OS_MAC)
qt_mac_get_fixed_pitch(f);
#endif
return (f && f->fixedPitch);
}
/*!
Returns true if the font that has family \a family and style \a
style is a scalable bitmap font; otherwise returns false. Scaling
a bitmap font usually produces an unattractive hardly readable
result, because the pixels of the font are scaled. If you need to
scale a bitmap font it is better to scale it to one of the fixed
sizes returned by smoothSizes().
\sa isScalable(), isSmoothlyScalable()
*/
bool QFontDatabase::isBitmapScalable(const QString &family,
const QString &style) const
{
bool bitmapScalable = false;
QString familyName, foundryName;
parseFontName(family, foundryName, familyName);
QMutexLocker locker(fontDatabaseMutex());
QT_PREPEND_NAMESPACE(load)(familyName);
QtFontStyle::Key styleKey(style);
QtFontFamily *f = d->family(familyName);
if (!f) return bitmapScalable;
for (int j = 0; j < f->count; j++) {
QtFontFoundry *foundry = f->foundries[j];
if (foundryName.isEmpty() || foundry->name.compare(foundryName, Qt::CaseInsensitive) == 0) {
for (int k = 0; k < foundry->count; k++)
if ((style.isEmpty() || foundry->styles[k]->key == styleKey)
&& foundry->styles[k]->bitmapScalable && !foundry->styles[k]->smoothScalable) {
bitmapScalable = true;
goto end;
}
}
}
end:
return bitmapScalable;
}
/*!
Returns true if the font that has family \a family and style \a
style is smoothly scalable; otherwise returns false. If this
function returns true, it's safe to scale this font to any size,
and the result will always look attractive.
\sa isScalable(), isBitmapScalable()
*/
bool QFontDatabase::isSmoothlyScalable(const QString &family, const QString &style) const
{
bool smoothScalable = false;
QString familyName, foundryName;
parseFontName(family, foundryName, familyName);
QMutexLocker locker(fontDatabaseMutex());
QT_PREPEND_NAMESPACE(load)(familyName);
QtFontStyle::Key styleKey(style);
QtFontFamily *f = d->family(familyName);
if (!f) return smoothScalable;
for (int j = 0; j < f->count; j++) {
QtFontFoundry *foundry = f->foundries[j];
if (foundryName.isEmpty() || foundry->name.compare(foundryName, Qt::CaseInsensitive) == 0) {
for (int k = 0; k < foundry->count; k++)
if ((style.isEmpty() || foundry->styles[k]->key == styleKey) && foundry->styles[k]->smoothScalable) {
smoothScalable = true;
goto end;
}
}
}
end:
return smoothScalable;
}
/*!
Returns true if the font that has family \a family and style \a
style is scalable; otherwise returns false.
\sa isBitmapScalable(), isSmoothlyScalable()
*/
bool QFontDatabase::isScalable(const QString &family,
const QString &style) const
{
QMutexLocker locker(fontDatabaseMutex());
if (isSmoothlyScalable(family, style))
return true;
return isBitmapScalable(family, style);
}
/*!
Returns a list of the point sizes available for the font that has
family \a family and style \a style. The list may be empty.
\sa smoothSizes(), standardSizes()
*/
QList<int> QFontDatabase::pointSizes(const QString &family,
const QString &style)
{
#if defined(Q_WS_WIN)
// windows and macosx are always smoothly scalable
Q_UNUSED(family);
Q_UNUSED(style);
return standardSizes();
#else
bool smoothScalable = false;
QString familyName, foundryName;
parseFontName(family, foundryName, familyName);
QMutexLocker locker(fontDatabaseMutex());
QT_PREPEND_NAMESPACE(load)(familyName);
QtFontStyle::Key styleKey(style);
QList<int> sizes;
QtFontFamily *fam = d->family(familyName);
if (!fam) return sizes;
#ifdef Q_WS_X11
int dpi = QX11Info::appDpiY();
#else
const int dpi = qt_defaultDpiY(); // embedded
#endif
for (int j = 0; j < fam->count; j++) {
QtFontFoundry *foundry = fam->foundries[j];
if (foundryName.isEmpty() || foundry->name.compare(foundryName, Qt::CaseInsensitive) == 0) {
QtFontStyle *style = foundry->style(styleKey);
if (!style) continue;
if (style->smoothScalable) {
smoothScalable = true;
goto end;
}
for (int l = 0; l < style->count; l++) {
const QtFontSize *size = style->pixelSizes + l;
if (size->pixelSize != 0 && size->pixelSize != USHRT_MAX) {
const uint pointSize = qRound(size->pixelSize * 72.0 / dpi);
if (! sizes.contains(pointSize))
sizes.append(pointSize);
}
}
}
}
end:
if (smoothScalable)
return standardSizes();
qSort(sizes);
return sizes;
#endif
}
/*!
Returns a QFont object that has family \a family, style \a style
and point size \a pointSize. If no matching font could be created,
a QFont object that uses the application's default font is
returned.
*/
QFont QFontDatabase::font(const QString &family, const QString &style,
int pointSize) const
{
QString familyName, foundryName;
parseFontName(family, foundryName, familyName);
QMutexLocker locker(fontDatabaseMutex());
QT_PREPEND_NAMESPACE(load)(familyName);
QtFontFoundry allStyles(foundryName);
QtFontFamily *f = d->family(familyName);
if (!f) return QApplication::font();
for (int j = 0; j < f->count; j++) {
QtFontFoundry *foundry = f->foundries[j];
if (foundryName.isEmpty() || foundry->name.compare(foundryName, Qt::CaseInsensitive) == 0) {
for (int k = 0; k < foundry->count; k++)
allStyles.style(foundry->styles[k]->key, true);
}
}
QtFontStyle::Key styleKey(style);
QtFontStyle *s = bestStyle(&allStyles, styleKey);
if (!s) // no styles found?
return QApplication::font();
QFont fnt(family, pointSize, s->key.weight);
fnt.setStyle((QFont::Style)s->key.style);
return fnt;
}
/*!
Returns the point sizes of a font that has family \a family and
style \a style that will look attractive. The list may be empty.
For non-scalable fonts and bitmap scalable fonts, this function
is equivalent to pointSizes().
\sa pointSizes(), standardSizes()
*/
QList<int> QFontDatabase::smoothSizes(const QString &family,
const QString &style)
{
#ifdef Q_WS_WIN
Q_UNUSED(family);
Q_UNUSED(style);
return QFontDatabase::standardSizes();
#else
bool smoothScalable = false;
QString familyName, foundryName;
parseFontName(family, foundryName, familyName);
QMutexLocker locker(fontDatabaseMutex());
QT_PREPEND_NAMESPACE(load)(familyName);
QtFontStyle::Key styleKey(style);
QList<int> sizes;
QtFontFamily *fam = d->family(familyName);
if (!fam)
return sizes;
#ifdef Q_WS_X11
int dpi = QX11Info::appDpiY();
#else
const int dpi = qt_defaultDpiY(); // embedded
#endif
for (int j = 0; j < fam->count; j++) {
QtFontFoundry *foundry = fam->foundries[j];
if (foundryName.isEmpty() || foundry->name.compare(foundryName, Qt::CaseInsensitive) == 0) {
QtFontStyle *style = foundry->style(styleKey);
if (!style) continue;
if (style->smoothScalable) {
smoothScalable = true;
goto end;
}
for (int l = 0; l < style->count; l++) {
const QtFontSize *size = style->pixelSizes + l;
if (size->pixelSize != 0 && size->pixelSize != USHRT_MAX) {
const uint pointSize = qRound(size->pixelSize * 72.0 / dpi);
if (! sizes.contains(pointSize))
sizes.append(pointSize);
}
}
}
}
end:
if (smoothScalable)
return QFontDatabase::standardSizes();
qSort(sizes);
return sizes;
#endif
}
/*!
Returns a list of standard font sizes.
\sa smoothSizes(), pointSizes()
*/
QList<int> QFontDatabase::standardSizes()
{
QList<int> ret;
static const unsigned short standard[] =
{ 6, 7, 8, 9, 10, 11, 12, 14, 16, 18, 20, 22, 24, 26, 28, 36, 48, 72, 0 };
const unsigned short *sizes = standard;
while (*sizes) ret << *sizes++;
return ret;
}
/*!
Returns true if the font that has family \a family and style \a
style is italic; otherwise returns false.
\sa weight(), bold()
*/
bool QFontDatabase::italic(const QString &family, const QString &style) const
{
QString familyName, foundryName;
parseFontName(family, foundryName, familyName);
QMutexLocker locker(fontDatabaseMutex());
QT_PREPEND_NAMESPACE(load)(familyName);
QtFontFoundry allStyles(foundryName);
QtFontFamily *f = d->family(familyName);
if (!f) return false;
for (int j = 0; j < f->count; j++) {
QtFontFoundry *foundry = f->foundries[j];
if (foundryName.isEmpty() || foundry->name.compare(foundryName, Qt::CaseInsensitive) == 0) {
for (int k = 0; k < foundry->count; k++)
allStyles.style(foundry->styles[k]->key, true);
}
}
QtFontStyle::Key styleKey(style);
QtFontStyle *s = allStyles.style(styleKey);
return s && s->key.style == QFont::StyleItalic;
}
/*!
Returns true if the font that has family \a family and style \a
style is bold; otherwise returns false.
\sa italic(), weight()
*/
bool QFontDatabase::bold(const QString &family,
const QString &style) const
{
QString familyName, foundryName;
parseFontName(family, foundryName, familyName);
QMutexLocker locker(fontDatabaseMutex());
QT_PREPEND_NAMESPACE(load)(familyName);
QtFontFoundry allStyles(foundryName);
QtFontFamily *f = d->family(familyName);
if (!f) return false;
for (int j = 0; j < f->count; j++) {
QtFontFoundry *foundry = f->foundries[j];
if (foundryName.isEmpty() ||
foundry->name.compare(foundryName, Qt::CaseInsensitive) == 0) {
for (int k = 0; k < foundry->count; k++)
allStyles.style(foundry->styles[k]->key, true);
}
}
QtFontStyle::Key styleKey(style);
QtFontStyle *s = allStyles.style(styleKey);
return s && s->key.weight >= QFont::Bold;
}
/*!
Returns the weight of the font that has family \a family and style
\a style. If there is no such family and style combination,
returns -1.
\sa italic(), bold()
*/
int QFontDatabase::weight(const QString &family,
const QString &style) const
{
QString familyName, foundryName;
parseFontName(family, foundryName, familyName);
QMutexLocker locker(fontDatabaseMutex());
QT_PREPEND_NAMESPACE(load)(familyName);
QtFontFoundry allStyles(foundryName);
QtFontFamily *f = d->family(familyName);
if (!f) return -1;
for (int j = 0; j < f->count; j++) {
QtFontFoundry *foundry = f->foundries[j];
if (foundryName.isEmpty() ||
foundry->name.compare(foundryName, Qt::CaseInsensitive) == 0) {
for (int k = 0; k < foundry->count; k++)
allStyles.style(foundry->styles[k]->key, true);
}
}
QtFontStyle::Key styleKey(style);
QtFontStyle *s = allStyles.style(styleKey);
return s ? s->key.weight : -1;
}
/*!
Returns the names the \a writingSystem (e.g. for displaying to the
user in a dialog).
*/
QString QFontDatabase::writingSystemName(WritingSystem writingSystem)
{
const char *name = 0;
switch (writingSystem) {
case Any:
name = QT_TRANSLATE_NOOP("QFontDatabase", "Any");
break;
case Latin:
name = QT_TRANSLATE_NOOP("QFontDatabase", "Latin");
break;
case Greek:
name = QT_TRANSLATE_NOOP("QFontDatabase", "Greek");
break;
case Cyrillic:
name = QT_TRANSLATE_NOOP("QFontDatabase", "Cyrillic");
break;
case Armenian:
name = QT_TRANSLATE_NOOP("QFontDatabase", "Armenian");
break;
case Hebrew:
name = QT_TRANSLATE_NOOP("QFontDatabase", "Hebrew");
break;
case Arabic:
name = QT_TRANSLATE_NOOP("QFontDatabase", "Arabic");
break;
case Syriac:
name = QT_TRANSLATE_NOOP("QFontDatabase", "Syriac");
break;
case Thaana:
name = QT_TRANSLATE_NOOP("QFontDatabase", "Thaana");
break;
case Devanagari:
name = QT_TRANSLATE_NOOP("QFontDatabase", "Devanagari");
break;
case Bengali:
name = QT_TRANSLATE_NOOP("QFontDatabase", "Bengali");
break;
case Gurmukhi:
name = QT_TRANSLATE_NOOP("QFontDatabase", "Gurmukhi");
break;
case Gujarati:
name = QT_TRANSLATE_NOOP("QFontDatabase", "Gujarati");
break;
case Oriya:
name = QT_TRANSLATE_NOOP("QFontDatabase", "Oriya");
break;
case Tamil:
name = QT_TRANSLATE_NOOP("QFontDatabase", "Tamil");
break;
case Telugu:
name = QT_TRANSLATE_NOOP("QFontDatabase", "Telugu");
break;
case Kannada:
name = QT_TRANSLATE_NOOP("QFontDatabase", "Kannada");
break;
case Malayalam:
name = QT_TRANSLATE_NOOP("QFontDatabase", "Malayalam");
break;
case Sinhala:
name = QT_TRANSLATE_NOOP("QFontDatabase", "Sinhala");
break;
case Thai:
name = QT_TRANSLATE_NOOP("QFontDatabase", "Thai");
break;
case Lao:
name = QT_TRANSLATE_NOOP("QFontDatabase", "Lao");
break;
case Tibetan:
name = QT_TRANSLATE_NOOP("QFontDatabase", "Tibetan");
break;
case Myanmar:
name = QT_TRANSLATE_NOOP("QFontDatabase", "Myanmar");
break;
case Georgian:
name = QT_TRANSLATE_NOOP("QFontDatabase", "Georgian");
break;
case Khmer:
name = QT_TRANSLATE_NOOP("QFontDatabase", "Khmer");
break;
case SimplifiedChinese:
name = QT_TRANSLATE_NOOP("QFontDatabase", "Simplified Chinese");
break;
case TraditionalChinese:
name = QT_TRANSLATE_NOOP("QFontDatabase", "Traditional Chinese");
break;
case Japanese:
name = QT_TRANSLATE_NOOP("QFontDatabase", "Japanese");
break;
case Korean:
name = QT_TRANSLATE_NOOP("QFontDatabase", "Korean");
break;
case Vietnamese:
name = QT_TRANSLATE_NOOP("QFontDatabase", "Vietnamese");
break;
case Symbol:
name = QT_TRANSLATE_NOOP("QFontDatabase", "Symbol");
break;
case Ogham:
name = QT_TRANSLATE_NOOP("QFontDatabase", "Ogham");
break;
case Runic:
name = QT_TRANSLATE_NOOP("QFontDatabase", "Runic");
break;
default:
Q_ASSERT_X(false, "QFontDatabase::writingSystemName", "invalid 'writingSystem' parameter");
break;
}
return qApp ? qApp->translate("QFontDatabase", name) : QString::fromLatin1(name);
}
/*!
Returns a string with sample characters from \a writingSystem.
*/
QString QFontDatabase::writingSystemSample(WritingSystem writingSystem)
{
QString sample;
switch (writingSystem) {
case Any:
case Symbol:
// show only ascii characters
sample += QLatin1String("AaBbzZ");
break;
case Latin:
// This is cheating... we only show latin-1 characters so that we don't
// end up loading lots of fonts - at least on X11...
sample = QLatin1String("Aa");
sample += QChar(0x00C3);
sample += QChar(0x00E1);
sample += QLatin1String("Zz");
break;
case Greek:
sample += QChar(0x0393);
sample += QChar(0x03B1);
sample += QChar(0x03A9);
sample += QChar(0x03C9);
break;
case Cyrillic:
sample += QChar(0x0414);
sample += QChar(0x0434);
sample += QChar(0x0436);
sample += QChar(0x044f);
break;
case Armenian:
sample += QChar(0x053f);
sample += QChar(0x054f);
sample += QChar(0x056f);
sample += QChar(0x057f);
break;
case Hebrew:
sample += QChar(0x05D0);
sample += QChar(0x05D1);
sample += QChar(0x05D2);
sample += QChar(0x05D3);
break;
case Arabic:
sample += QChar(0x0628);
sample += QChar(0x0629);
sample += QChar(0x062A);
sample += QChar(0x063A);
break;
case Syriac:
sample += QChar(0x0715);
sample += QChar(0x0725);
sample += QChar(0x0716);
sample += QChar(0x0726);
break;
case Thaana:
sample += QChar(0x0784);
sample += QChar(0x0794);
sample += QChar(0x078c);
sample += QChar(0x078d);
break;
case Devanagari:
sample += QChar(0x0905);
sample += QChar(0x0915);
sample += QChar(0x0925);
sample += QChar(0x0935);
break;
case Bengali:
sample += QChar(0x0986);
sample += QChar(0x0996);
sample += QChar(0x09a6);
sample += QChar(0x09b6);
break;
case Gurmukhi:
sample += QChar(0x0a05);
sample += QChar(0x0a15);
sample += QChar(0x0a25);
sample += QChar(0x0a35);
break;
case Gujarati:
sample += QChar(0x0a85);
sample += QChar(0x0a95);
sample += QChar(0x0aa5);
sample += QChar(0x0ab5);
break;
case Oriya:
sample += QChar(0x0b06);
sample += QChar(0x0b16);
sample += QChar(0x0b2b);
sample += QChar(0x0b36);
break;
case Tamil:
sample += QChar(0x0b89);
sample += QChar(0x0b99);
sample += QChar(0x0ba9);
sample += QChar(0x0bb9);
break;
case Telugu:
sample += QChar(0x0c05);
sample += QChar(0x0c15);
sample += QChar(0x0c25);
sample += QChar(0x0c35);
break;
case Kannada:
sample += QChar(0x0c85);
sample += QChar(0x0c95);
sample += QChar(0x0ca5);
sample += QChar(0x0cb5);
break;
case Malayalam:
sample += QChar(0x0d05);
sample += QChar(0x0d15);
sample += QChar(0x0d25);
sample += QChar(0x0d35);
break;
case Sinhala:
sample += QChar(0x0d90);
sample += QChar(0x0da0);
sample += QChar(0x0db0);
sample += QChar(0x0dc0);
break;
case Thai:
sample += QChar(0x0e02);
sample += QChar(0x0e12);
sample += QChar(0x0e22);
sample += QChar(0x0e32);
break;
case Lao:
sample += QChar(0x0e8d);
sample += QChar(0x0e9d);
sample += QChar(0x0ead);
sample += QChar(0x0ebd);
break;
case Tibetan:
sample += QChar(0x0f00);
sample += QChar(0x0f01);
sample += QChar(0x0f02);
sample += QChar(0x0f03);
break;
case Myanmar:
sample += QChar(0x1000);
sample += QChar(0x1001);
sample += QChar(0x1002);
sample += QChar(0x1003);
break;
case Georgian:
sample += QChar(0x10a0);
sample += QChar(0x10b0);
sample += QChar(0x10c0);
sample += QChar(0x10d0);
break;
case Khmer:
sample += QChar(0x1780);
sample += QChar(0x1790);
sample += QChar(0x17b0);
sample += QChar(0x17c0);
break;
case SimplifiedChinese:
sample += QChar(0x4e2d);
sample += QChar(0x6587);
sample += QChar(0x8303);
sample += QChar(0x4f8b);
break;
case TraditionalChinese:
sample += QChar(0x4e2d);
sample += QChar(0x6587);
sample += QChar(0x7bc4);
sample += QChar(0x4f8b);
break;
case Japanese:
sample += QChar(0x3050);
sample += QChar(0x3060);
sample += QChar(0x30b0);
sample += QChar(0x30c0);
break;
case Korean:
sample += QChar(0xac00);
sample += QChar(0xac11);
sample += QChar(0xac1a);
sample += QChar(0xac2f);
break;
case Vietnamese:
break;
case Ogham:
sample += QChar(0x1681);
sample += QChar(0x1682);
sample += QChar(0x1683);
sample += QChar(0x1684);
break;
case Runic:
sample += QChar(0x16a0);
sample += QChar(0x16a1);
sample += QChar(0x16a2);
sample += QChar(0x16a3);
break;
default:
break;
}
return sample;
}
void QFontDatabase::parseFontName(const QString &name, QString &foundry, QString &family)
{
QT_PREPEND_NAMESPACE(parseFontName)(name, foundry, family);
}
void QFontDatabase::createDatabase()
{ initializeDb(); }
// used from qfontengine_ft.cpp
QByteArray qt_fontdata_from_index(int index)
{
QMutexLocker locker(fontDatabaseMutex());
return privateDb()->applicationFonts.value(index).data;
}
int QFontDatabasePrivate::addAppFont(const QByteArray &fontData, const QString &fileName)
{
QFontDatabasePrivate::ApplicationFont font;
font.data = fontData;
font.fileName = fileName;
int i;
for (i = 0; i < applicationFonts.count(); ++i)
if (applicationFonts.at(i).families.isEmpty())
break;
if (i >= applicationFonts.count()) {
applicationFonts.append(ApplicationFont());
i = applicationFonts.count() - 1;
}
if (font.fileName.isEmpty() && !fontData.isEmpty())
font.fileName = QString::fromLatin1(":qmemoryfonts/") + QString::number(i);
registerFont(&font);
if (font.families.isEmpty())
return -1;
applicationFonts[i] = font;
invalidate();
return i;
}
bool QFontDatabasePrivate::isApplicationFont(const QString &fileName)
{
for (int i = 0; i < applicationFonts.count(); ++i)
if (applicationFonts.at(i).fileName == fileName)
return true;
return false;
}
/*!
\since 4.2
Loads the font from the file specified by \a fileName and makes it available to
the application. An ID is returned that can be used to remove the font again
with removeApplicationFont() or to retrieve the list of family names contained
in the font.
The function returns -1 if the font could not be loaded.
Currently only TrueType fonts, TrueType font collections, and OpenType fonts are
supported.
\note Adding application fonts on Unix/X11 platforms without fontconfig is
currently not supported.
\sa addApplicationFontFromData(), applicationFontFamilies(), removeApplicationFont()
*/
int QFontDatabase::addApplicationFont(const QString &fileName)
{
QByteArray data;
QFile f(fileName);
if (!(f.fileEngine()->fileFlags(QAbstractFileEngine::FlagsMask) & QAbstractFileEngine::LocalDiskFlag)) {
if (!f.open(QIODevice::ReadOnly))
return -1;
data = f.readAll();
}
QMutexLocker locker(fontDatabaseMutex());
return privateDb()->addAppFont(data, fileName);
}
/*!
\since 4.2
Loads the font from binary data specified by \a fontData and makes it available to
the application. An ID is returned that can be used to remove the font again
with removeApplicationFont() or to retrieve the list of family names contained
in the font.
The function returns -1 if the font could not be loaded.
Currently only TrueType fonts and TrueType font collections are supported.
\bold{Note:} Adding application fonts on Unix/X11 platforms without fontconfig is
currently not supported.
\sa addApplicationFont(), applicationFontFamilies(), removeApplicationFont()
*/
int QFontDatabase::addApplicationFontFromData(const QByteArray &fontData)
{
QMutexLocker locker(fontDatabaseMutex());
return privateDb()->addAppFont(fontData, QString() /* fileName */);
}
/*!
\since 4.2
Returns a list of font families for the given application font identified by
\a id.
\sa addApplicationFont(), addApplicationFontFromData()
*/
QStringList QFontDatabase::applicationFontFamilies(int id)
{
QMutexLocker locker(fontDatabaseMutex());
return privateDb()->applicationFonts.value(id).families;
}
/*!
\fn bool QFontDatabase::removeApplicationFont(int id)
\since 4.2
Removes the previously loaded application font identified by \a
id. Returns true if unloading of the font succeeded; otherwise
returns false.
\sa removeAllApplicationFonts(), addApplicationFont(),
addApplicationFontFromData()
*/
/*!
\fn bool QFontDatabase::removeAllApplicationFonts()
\since 4.2
Removes all application-local fonts previously added using addApplicationFont()
and addApplicationFontFromData().
Returns true if unloading of the fonts succeeded; otherwise
returns false.
\sa removeApplicationFont(), addApplicationFont(), addApplicationFontFromData()
*/
/*!
\fn bool QFontDatabase::supportsThreadedFontRendering()
\since 4.4
Returns true if font rendering is supported outside the GUI
thread, false otherwise. In other words, a return value of false
means that all QPainter::drawText() calls outside the GUI thread
will not produce readable output.
\sa threads.html#painting-in-threads
*/
QT_END_NAMESPACE
|