/****************************************************************************
** $Id: qfontdatabase.cpp,v 1.1 2003/12/04 08:17:58 falbujer Exp $
**
** Implementation of font database class.
**
** Created : 990603
**
** Copyright (C) 1999-2000 Trolltech AS. All rights reserved.
**
** This file is part of the kernel module of the Qt GUI Toolkit.
**
** This file may be distributed under the terms of the Q Public License
** as defined by Trolltech AS of Norway and appearing in the file
** LICENSE.QPL included in the packaging of this file.
**
** This file may be distributed and/or modified under the terms of the
** GNU General Public License version 2 as published by the Free Software
** Foundation and appearing in the file LICENSE.GPL included in the
** packaging of this file.
**
** Licensees holding valid Qt Enterprise Edition or Qt Professional Edition
** licenses may use this file in accordance with the Qt Commercial License
** Agreement provided with the Software.
**
** This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
** WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
**
** See http://www.trolltech.com/pricing.html or email sales@trolltech.com for
** information about Qt Commercial License Agreements.
** See http://www.trolltech.com/qpl/ for QPL licensing information.
** See http://www.trolltech.com/gpl/ for GPL licensing information.
**
** Contact info@trolltech.com if any conditions of this licensing are
** not clear to you.
**
**********************************************************************/
#include "qfontdatabase.h"
#ifndef QT_NO_FONTDATABASE
#include <qtl.h>
#include <qapplication.h>
#include <private/qunicodetables_p.h>
#include "qfontengine_p.h"
#include <qcleanuphandler.h>
#include <stdlib.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
static int ucstricmp( const QString &as, const QString &bs )
{
const QChar *a = as.unicode();
const QChar *b = bs.unicode();
if ( a == b )
return 0;
if ( a == 0 )
return 1;
if ( b == 0 )
return -1;
int l=QMIN(as.length(),bs.length());
while ( l-- && ::lower( *a ) == ::lower( *b ) )
a++,b++;
if ( l==-1 )
return ( as.length()-bs.length() );
return ::lower( *a ).unicode() - ::lower( *b ).unicode();
}
static int getFontWeight( const QString &weightString )
{
QString s = weightString.lower();
// Test in decreasing order of commonness
if (s == "medium" ||
s == "normal")
return QFont::Normal;
if (s == "bold")
return QFont::Bold;
if (s == "demibold" || s == "demi bold")
return QFont::DemiBold;
if (s == "black")
return QFont::Black;
if (s == "light")
return QFont::Light;
if (s.contains("bold")) {
if (s.contains("demi"))
return (int) QFont::DemiBold;
return (int) QFont::Bold;
}
if (s.contains("light"))
return (int) QFont::Light;
if (s.contains("black"))
return (int) QFont::Black;
return (int) QFont::Normal;
}
#ifdef Q_WS_X11
struct QtFontEncoding
{
int encoding : 16;
uint xpoint : 16;
uint xres : 8;
uint yres : 8;
uint avgwidth : 16;
uchar pitch : 8;
};
#endif // Q_WS_X11
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_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() : italic( FALSE ), oblique( FALSE ),
weight( QFont::Normal ), stretch( 0 ) { }
Key( const Key &o ) : italic( o.italic ), oblique( o.oblique ),
weight( o.weight ), stretch( o.stretch ) { }
uint italic : 1;
uint oblique : 1;
int weight : 8;
int stretch : 12;
bool operator==( const Key & other ) {
return ( italic == other.italic &&
oblique == other.oblique &&
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 = (italic << 13) + (oblique << 12) + (weight << 14) + stretch;
int y = (o.italic << 13) + (o.oblique << 12) + (o.weight << 14) + o.stretch;
return ( x < y );
}
};
QtFontStyle( const Key &k )
: key( k ), bitmapScalable( FALSE ), smoothScalable( FALSE ),
fakeOblique( 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;
while ( count-- )
free(pixelSizes[count].encodings);
#endif
free( pixelSizes );
}
Key key;
bool bitmapScalable : 1;
bool smoothScalable : 1;
bool fakeOblique : 1;
int count : 29;
QtFontSize *pixelSizes;
#ifdef Q_WS_X11
const char *weightName;
const char *setwidthName;
#endif // Q_WS_X11
QtFontSize *pixelSize( unsigned short size, bool = FALSE );
};
QtFontStyle::Key::Key( const QString &styleString )
: italic( FALSE ), oblique( FALSE ), weight( QFont::Normal ), stretch( 0 )
{
weight = getFontWeight( styleString );
if ( styleString.contains( "Italic" ) )
italic = TRUE;
else if ( styleString.contains( "Oblique" ) )
oblique = TRUE;
}
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
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, italic=%d, oblique=%d stretch=%d) at %d", key.weight, key.italic, 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 ScriptStatus { Unknown = 0, Supported = 1,
UnSupported_Xft= 2, UnSupported_Xlfd = 4, UnSupported = 6 };
QtFontFamily(const QString &n )
: fixedPitch( FALSE ),
#ifdef Q_WS_X11
hasXft( FALSE ), xftScriptCheck( FALSE ), xlfdLoaded( FALSE ),
#endif
#ifdef Q_WS_WIN
scriptCheck( FALSE ),
#endif
#ifdef Q_OS_MAC
fixedPitchComputed(FALSE),
#endif
fullyLoaded( FALSE ),
name( n ), count( 0 ), foundries( 0 ) {
memset( scripts, 0, sizeof( scripts ) );
}
~QtFontFamily() {
while ( count-- )
delete foundries[count];
free( foundries );
}
bool fixedPitch : 1;
#ifdef Q_WS_X11
bool hasXft : 1;
bool xftScriptCheck : 1;
bool xlfdLoaded : 1;
#endif
#ifdef Q_WS_WIN
bool scriptCheck : 1;
#endif
#ifdef Q_WS_MAC
bool fixedPitchComputed : 1;
#endif
bool fullyLoaded : 1;
QString name;
QString rawName;
#ifdef Q_WS_X11
QCString fontFilename;
int fontFileIndex;
#endif
int count;
QtFontFoundry **foundries;
unsigned char scripts[QFont::LastPrivateScript];
QtFontFoundry *foundry( const QString &f, bool = FALSE );
};
QtFontFoundry *QtFontFamily::foundry( const QString &f, bool create )
{
if ( f.isNull() && count == 1 )
return foundries[0];
for ( int i = 0; i < count; i++ ) {
if ( ucstricmp( foundries[i]->name, f ) == 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++];
}
class QFontDatabasePrivate {
public:
QFontDatabasePrivate() : count( 0 ), families( 0 ) { }
~QFontDatabasePrivate() {
while ( count-- )
delete families[count];
free( families );
}
QtFontFamily *family( const QString &f, bool = FALSE );
int count;
QtFontFamily **families;
};
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 = ucstricmp( families[pos]->name, f )) && 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];
}
#if defined(Q_WS_X11) || defined(Q_WS_WIN)
static const unsigned short sample_chars[QFont::LastPrivateScript] =
{
// European Alphabetic Scripts
// Latin,
0x0041,
// Greek,
0x0390,
// Cyrillic,
0x0410,
// Armenian,
0x0540,
// Georgian,
0x10d0,
// Runic,
0x16a0,
// Ogham,
0x1680,
// SpacingModifiers,
0x02b0,
// CombiningMarks,
0x0300,
// Middle Eastern Scripts
// Hebrew,
0x05d0,
// Arabic,
0x0630,
// Syriac,
0x0710,
// Thaana,
0x0780,
// South and Southeast Asian Scripts
// Devanagari,
0x0910,
// Bengali,
0x0990,
// Gurmukhi,
0x0a10,
// Gujarati,
0x0a90,
// Oriya,
0x0b10,
// Tamil,
0x0b90,
// Telugu,
0x0c10,
// Kannada,
0x0c90,
// Malayalam,
0x0d10,
// Sinhala,
0x0d90,
// Thai,
0x0e10,
// Lao,
0x0e81,
// Tibetan,
0x0f00,
// Myanmar,
0x1000,
// Khmer,
0x1780,
// East Asian Scripts
// Han,
0x4e00,
// Hiragana,
0x3050,
// Katakana,
0x30b0,
// Hangul,
0xac00,
// Bopomofo,
0x3110,
// Yi,
0xa000,
// Additional Scripts
// Ethiopic,
0x1200,
// Cherokee,
0x13a0,
// CanadianAboriginal,
0x1410,
// Mongolian,
0x1800,
// Symbols
// CurrencySymbols,
0x20aa,
// LetterlikeSymbols,
0x2122,
// NumberForms,
0x215b,
// MathematicalOperators,
0x222b,
// TechnicalSymbols,
0x2440,
// GeometricSymbols,
0x2500,
// MiscellaneousSymbols,
0x2600,
// EnclosedAndSquare,
0x2460,
// Braille,
0x2800,
// Unicode,
0xfffd,
// some scripts added in Unicode 3.2
// Tagalog,
0x1700,
// Hanunoo,
0x1720,
// Buhid,
0x1740,
// Tagbanwa,
0x1770,
// KatakanaHalfWidth
0xff65,
// NScripts
0x0000,
// NoScript
0x0000,
// Han_Japanese
0x4e00,
// Han_SimplifiedChinese,
0x4e00,
// Han_TraditionalChinese,
0x4e00,
// Han_Korean
0x4e00
};
// returns a sample unicode character for the specified script
static QChar sampleCharacter(QFont::Script script)
{
return QChar(sample_chars[script]);
}
static inline bool canRender( QFontEngine *fe, const QChar &sample )
{
if ( !fe ) return FALSE;
bool hasChar = fe->canRender( &sample, 1 );
#ifdef FONT_MATCH_DEBUG
if (hasChar)
FM_DEBUG(" font has char 0x%04x", sample.unicode() );
#endif
return hasChar;
}
#endif // Q_WS_X11 || Q_WS_WIN
#if !defined(Q_WS_MAC) && !defined(Q_WS_QWS)
static
QFontEngine *loadEngine( QFont::Script script, const QFontPrivate *fp, const QFontDef &request,
QtFontFamily *family, QtFontFoundry *foundry,
QtFontStyle *style, QtFontSize *size
#ifdef Q_WS_X11
, QtFontEncoding *encoding, bool forced_encoding
#endif
);
#endif
static QSingleCleanupHandler<QFontDatabasePrivate> qfontdatabase_cleanup;
static QFontDatabasePrivate *db=0;
#define SMOOTH_SCALABLE 0xffff
#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
#if defined(Q_WS_X11) || defined(Q_WS_WIN)
static
unsigned int bestFoundry( QFont::Script script, unsigned int score, int styleStrategy,
const QtFontFamily *family, const QString &foundry_name,
QtFontStyle::Key styleKey, int pixelSize, char pitch,
QtFontFoundry **best_foundry, QtFontStyle **best_style,
QtFontSize **best_size
#ifdef Q_WS_X11
, QtFontEncoding **best_encoding, int force_encoding_id
#endif
)
{
Q_UNUSED( script );
Q_UNUSED( pitch );
FM_DEBUG( " REMARK: looking for best foundry for family '%s'", family->name.latin1() );
for ( int x = 0; x < family->count; ++x ) {
QtFontFoundry *foundry = family->foundries[x];
if ( ! foundry_name.isEmpty() &&
ucstricmp( foundry->name, foundry_name ) != 0 )
continue;
FM_DEBUG( " looking for matching style in foundry '%s'",
foundry->name.isEmpty() ? "-- none --" : foundry->name.latin1() );
QtFontStyle *style = foundry->style( styleKey );
if ( !style && styleKey.italic ) {
FM_DEBUG( " italic not available, looking for oblique" );
styleKey.italic = FALSE;
styleKey.oblique = TRUE;
style = foundry->style( styleKey );
}
if ( !style ) {
FM_DEBUG( " style not available, looking for closest match" );
int best = 0;
int dist = 0xffff;
for ( int i = 0; i < foundry->count; i++ ) {
style = foundry->styles[i];
int d = QABS( styleKey.weight - style->key.weight );
if ( styleKey.stretch > 0 && styleKey.stretch != 100 &&
style->key.stretch != 0 ) {
d += QABS( styleKey.stretch - style->key.stretch );
}
if ( styleKey.italic ) {
if ( !style->key.italic )
d += style->key.oblique ? 0x0800 : 0x1000;
} else if ( styleKey.oblique ) {
if (!style->key.oblique )
d += style->key.italic ? 0x0800 : 0x1000;
} else if ( style->key.italic || style->key.oblique ) {
d += 0x1000;
}
if ( d < dist ) {
best = i;
dist = d;
}
}
FM_DEBUG( " best style has distance 0x%x", dist );
style = foundry->styles[best];
}
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) 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) px = pixelSize;
}
// 3. see if we have a bitmap scalable font
if (! size && style->bitmapScalable && (styleStrategy & QFont::PreferMatch)) {
size = style->pixelSize(0);
if (size) px = pixelSize;
}
// 4. find closest size match
if (! size) {
unsigned int distance = ~0u;
for (int x = 0; x < style->count; ++x) {
unsigned int d = QABS(style->pixelSizes[x].pixelSize - pixelSize);
if (d < distance) {
distance = d;
size = style->pixelSizes + x;
}
}
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
QtFontEncoding *encoding = 0;
if ( force_encoding_id >= 0 ) {
encoding = size->encodingID( force_encoding_id );
if ( ! encoding ) {
FM_DEBUG( " required encoding_id not available" );
continue;
}
} else {
encoding = size->encodingID( -1 ); // -1 == prefer Xft
if ( encoding && ( styleStrategy & ( QFont::OpenGLCompatible |
QFont::PreferBitmap ) ) ) {
FM_DEBUG( " PreferBitmap and/or OpenGL set, skipping Xft" );
continue;
}
if ( ! encoding ) { // Xft not available, find an XLFD font
// try the default encoding first
encoding = size->encodingID( QFontPrivate::defaultEncodingID );
if ( ! encoding || ! scripts_for_xlfd_encoding[encoding->encoding][script] ) {
// find the first encoding that supports the requested script
encoding = 0;
for (int x = 0; !encoding && x < size->count; ++x ) {
const int enc = size->encodings[x].encoding;
if ( scripts_for_xlfd_encoding[enc][script] ) {
encoding = &size->encodings[x];
break;
}
}
}
}
}
if ( ! encoding ) {
FM_DEBUG( " foundry doesn't support the script we want" );
continue;
}
#endif // Q_WS_X11
unsigned int this_score = 0x0000;
#ifdef Q_WS_X11
if ( encoding->encoding != -1 ) {
this_score += 1;
if ( encoding->encoding != QFontPrivate::defaultEncodingID )
this_score += 10;
}
if (pitch != '*') {
if ( !( pitch == 'm' && encoding->pitch == 'c' ) && pitch != encoding->pitch )
this_score += 200;
}
#endif
if ( styleKey != style->key )
this_score += 100;
if ( !style->smoothScalable && px != size->pixelSize ) // bitmap scaled
this_score += 50;
if ( this_score < score ) {
FM_DEBUG( " found a match: score %u best score so far %u",
this_score, score );
score = this_score;
*best_foundry = foundry;
*best_style = style;
*best_size = size;
#ifdef Q_WS_X11
*best_encoding = encoding;
#endif // Q_WS_X11
} else {
FM_DEBUG( " score %u no better than best %u", this_score, score);
}
}
return score;
}
/*!
\internal
*/
QFontEngine *
QFontDatabase::findFont( QFont::Script script, const QFontPrivate *fp,
const QFontDef &request, int force_encoding_id )
{
if ( !db )
initializeDb();
QFontEngine *fe = 0;
if ( fp ) {
if ( fp->rawMode ) {
fe = loadEngine( script, fp, request, 0, 0, 0
#ifdef Q_WS_X11
, 0, 0, FALSE
#endif
);
// if we fail to load the rawmode font, use a 12pixel box engine instead
if (! fe) fe = new QFontEngineBox( 12 );
return fe;
}
QFontCache::Key key( request, script,
#ifdef Q_WS_WIN
(int)fp->paintdevice
#else
fp->screen
#endif
);
fe = QFontCache::instance->findEngine( key );
if ( fe ) return fe;
}
QString family_name, foundry_name;
QtFontStyle::Key styleKey;
styleKey.italic = request.italic;
styleKey.weight = request.weight;
styleKey.stretch = request.stretch;
char pitch = request.ignorePitch ? '*' : request.fixedPitch ? 'm' : 'p';
parseFontName( request.family, foundry_name, family_name );
FM_DEBUG( "QFontDatabase::findFont\n"
" request:\n"
" family: %s [%s], script: %d (%s)\n"
" weight: %d, italic: %d\n"
" stretch: %d\n"
" pixelSize: %d\n"
" pitch: %c",
family_name.isEmpty() ? "-- first in script --" : family_name.latin1(),
foundry_name.isEmpty() ? "-- any --" : foundry_name.latin1(),
script, scriptName( script ).latin1(),
request.weight, request.italic, request.stretch, request.pixelSize, pitch );
QtFontFamily *best_family = 0;
QtFontFoundry *best_foundry = 0;
QtFontStyle *best_style = 0;
QtFontSize *best_size = 0;
#ifdef Q_WS_X11
QtFontEncoding *best_encoding = 0;
#endif // Q_WS_X11
unsigned int score = ~0;
int loop = 0;
while ( loop++ < 2 ) {
if ( loop == 2 || !family_name.isEmpty() )
load( family_name, script );
for ( int x = 0; x < db->count; ++x ) {
QtFontFamily *family = db->families[x];
if ( !family_name.isEmpty() &&
ucstricmp( family->name, family_name ) != 0 )
continue;
if ( loop == 2 && family_name.isNull() )
load( family->name, script );
QFont::Script override_script = script;
if ( ! ( family->scripts[script] & QtFontFamily::Supported ) && script != QFont::Unicode) {
// family not supported in the script we want
if (family_name.isEmpty()) continue;
if (family->scripts[QFont::UnknownScript] & QtFontFamily::Supported) {
// try with the unknown script (for a symbol font)
override_script = QFont::UnknownScript;
} else if (family->scripts[QFont::Unicode] & QtFontFamily::Supported) {
// try with the unicode script instead
override_script = QFont::Unicode;
} else {
// family not supported by unicode/unknown scripts
continue;
}
}
// as we know the script is supported, we can be sure
// to find a matching font here.
unsigned int newscore =
bestFoundry( override_script, score, request.styleStrategy,
family, foundry_name, styleKey, request.pixelSize, pitch,
&best_foundry, &best_style, &best_size
#ifdef Q_WS_X11
, &best_encoding, force_encoding_id
#endif
);
if ( best_foundry == 0 ) {
// the specific foundry was not found, so look for
// any foundry matching our requirements
newscore = bestFoundry( override_script, score, request.styleStrategy, family,
QString::null, styleKey, request.pixelSize,
pitch, &best_foundry, &best_style, &best_size
#ifdef Q_WS_X11
, &best_encoding, force_encoding_id
#endif
);
}
if ( newscore < score ) {
score = newscore;
best_family = family;
}
if ( newscore < 10 ) // xlfd instead of xft... just accept it
break;
}
if ( score < 10 ) // xlfd instead of xft... just accept it
break;
}
if ( best_family == 0 || best_foundry == 0 || best_style == 0
#ifdef Q_WS_X11
|| best_size == 0 || best_encoding == 0
#endif
) {
FM_DEBUG( "no best match found" );
if ( ! request.family.isEmpty() )
return 0;
FM_DEBUG( "returning box engine" );
fe = new QFontEngineBox( request.pixelSize );
if ( fp ) {
QFontCache::Key key( request, script,
#ifdef Q_WS_WIN
(int)fp->paintdevice
#else
fp->screen
#endif
);
QFontCache::instance->insertEngine( key, fe );
}
return fe;
}
FM_DEBUG( " BEST:\n"
" family: %s [%s]\n"
" weight: %d, italic: %d, oblique: %d\n"
" stretch: %d\n"
" pixelSize: %d\n"
" pitch: %c\n"
" encoding: %d\n",
best_family->name.latin1(),
best_foundry->name.isEmpty() ? "-- none --" : best_foundry->name.latin1(),
best_style->key.weight, best_style->key.italic, best_style->key.oblique,
best_style->key.stretch, best_size ? best_size->pixelSize : 0xffff,
#ifdef Q_WS_X11
best_encoding->pitch, best_encoding->encoding
#else
'p', 0
#endif
);
fe = loadEngine( script, fp, request, best_family, best_foundry, best_style
#ifdef Q_WS_X11
, best_size, best_encoding, ( force_encoding_id >= 0 )
#endif
);
if ( fe ) {
QChar sample = sampleCharacter( script );
if ( script != QFont::Unicode && !canRender( fe, sample ) ) {
FM_DEBUG( " WARN: font loaded cannot render sample 0x%04x",
sample.unicode() );
delete fe;
if ( ! request.family.isEmpty() )
return 0;
FM_DEBUG( "returning box engine" );
fe = new QFontEngineBox( request.pixelSize );
if ( fp ) {
QFontCache::Key key( request, script,
#ifdef Q_WS_WIN
(int)fp->paintdevice
#else
fp->screen
#endif
);
QFontCache::instance->insertEngine( key, fe );
}
return fe;
}
fe->fontDef.family = best_family->name;
if ( ! best_foundry->name.isEmpty() ) {
fe->fontDef.family += QString::fromLatin1( " [" );
fe->fontDef.family += best_foundry->name;
fe->fontDef.family += QString::fromLatin1( "]" );
}
if ( best_style->smoothScalable )
fe->fontDef.pixelSize = request.pixelSize;
else if ( best_style->bitmapScalable &&
( request.styleStrategy & QFont::PreferMatch ) )
fe->fontDef.pixelSize = request.pixelSize;
else
fe->fontDef.pixelSize = best_size->pixelSize;
if ( fp ) {
#if defined(Q_WS_X11)
fe->fontDef.pointSize =
qRound(10. * qt_pointSize(fe->fontDef.pixelSize, fp->paintdevice, fp->screen));
#elif defined(Q_WS_WIN)
fe->fontDef.pointSize = int( double( fe->fontDef.pixelSize ) * 720.0 /
GetDeviceCaps(shared_dc,LOGPIXELSY) );
#else
fe->fontDef.pointSize = int( double( fe->fontDef.pixelSize ) * 720.0 /
96.0 );
#endif
} else {
fe->fontDef.pointSize = request.pointSize;
}
fe->fontDef.styleHint = request.styleHint;
fe->fontDef.styleStrategy = request.styleStrategy;
fe->fontDef.weight = best_style->key.weight;
fe->fontDef.italic = best_style->key.italic || best_style->key.oblique;
fe->fontDef.fixedPitch = best_family->fixedPitch;
fe->fontDef.stretch = best_style->key.stretch;
fe->fontDef.ignorePitch = FALSE;
if ( fp ) {
QFontCache::Key key( request, script,
#ifdef Q_WS_WIN
(int)fp->paintdevice
#else
fp->screen
#endif
);
QFontCache::instance->insertEngine( key, fe );
for ( int i = 0; i < QFont::NScripts; ++i ) {
if ( i == script ) continue;
if ( ! canRender( fe, sampleCharacter( (QFont::Script) i ) ) )
continue;
key.script = i;
QFontCache::instance->insertEngine( key, fe );
}
}
} else {
if ( request.family.isEmpty() ) {
FM_DEBUG( "returning box engine" );
fe = new QFontEngineBox( request.pixelSize );
if ( fp ) {
QFontCache::Key key( request, script,
#ifdef Q_WS_WIN
(int)fp->paintdevice
#else
fp->screen
#endif
);
QFontCache::instance->insertEngine( key, fe );
}
}
}
return fe;
}
#endif // Q_WS_X11 || Q_WS_WIN
static QString styleString( int weight, bool italic, bool oblique )
{
QString result;
if ( weight >= QFont::Black )
result = "Black";
else if ( weight >= QFont::Bold )
result = "Bold";
else if ( weight >= QFont::DemiBold )
result = "Demi Bold";
else if ( weight < QFont::Normal )
result = "Light";
if ( italic )
result += " Italic";
else if ( oblique )
result += " Oblique";
if ( result.isEmpty() )
result = "Normal";
return result.simplifyWhiteSpace();
}
/*!
Returns a string that describes the style of the font \a f. For
example, "Bold Italic", "Bold", "Italic" or "Normal". An empty
string may be returned.
*/
QString QFontDatabase::styleString( const QFont &f )
{
// ### fix oblique here
return ::styleString( f.weight(), f.italic(), FALSE );
}
/*!
\class QFontDatabase qfontdatabase.h
\brief The QFontDatabase class provides information about the fonts available in the underlying window system.
\ingroup environment
\ingroup graphics
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().
A text version of a style is given by styleString().
The QFontDatabase class also supports some static functions, for
example, standardSizes(). You can retrieve the Unicode 3.0
description of a \link QFont::Script script\endlink using
scriptName(), and a sample of characters in a script with
scriptSample().
Example:
\code
#include <qapplication.h>
#include <qfontdatabase.h>
int main( int argc, char **argv )
{
QApplication app( argc, argv );
QFontDatabase fdb;
QStringList families = fdb.families();
for ( QStringList::Iterator f = families.begin(); f != families.end(); ++f ) {
QString family = *f;
qDebug( family );
QStringList styles = fdb.styles( family );
for ( QStringList::Iterator s = styles.begin(); s != styles.end(); ++s ) {
QString style = *s;
QString dstyle = "\t" + style + " (";
QValueList<int> smoothies = fdb.smoothSizes( family, style );
for ( QValueList<int>::Iterator points = smoothies.begin();
points != smoothies.end(); ++points ) {
dstyle += QString::number( *points ) + " ";
}
dstyle = dstyle.left( dstyle.length() - 1 ) + ")";
qDebug( dstyle );
}
}
return 0;
}
\endcode
This example gets the list of font families, then the list of
styles for each family and the point sizes that are available for
each family/style combination.
*/
/*!
\obsolete
\fn inline QStringList QFontDatabase::families( bool ) const
*/
/*!
\obsolete
\fn inline QStringList QFontDatabase::styles( const QString &family,
const QString & ) const
*/
/*!
\obsolete
\fn inline QValueList<int> QFontDatabase::pointSizes( const QString &family,
const QString &style ,
const QString & )
*/
/*!
\obsolete
\fn inline QValueList<int> QFontDatabase::smoothSizes( const QString &family,
const QString &style,
const QString & )
*/
/*!
\obsolete
\fn inline QFont QFontDatabase::font( const QString &familyName,
const QString &style,
int pointSize,
const QString &)
*/
/*!
\obsolete
\fn inline bool QFontDatabase::isBitmapScalable( const QString &family,
const QString &style,
const QString & ) const
*/
/*!
\obsolete
\fn inline bool QFontDatabase::isSmoothlyScalable( const QString &family,
const QString &style,
const QString & ) const
*/
/*!
\obsolete
\fn inline bool QFontDatabase::isScalable( const QString &family,
const QString &style,
const QString & ) const
*/
/*!
\obsolete
\fn inline bool QFontDatabase::isFixedPitch( const QString &family,
const QString &style,
const QString & ) const
*/
/*!
\obsolete
\fn inline bool QFontDatabase::italic( const QString &family,
const QString &style,
const QString & ) const
*/
/*!
\obsolete
\fn inline bool QFontDatabase::bold( const QString &family,
const QString &style,
const QString & ) const
*/
/*!
\obsolete
\fn inline int QFontDatabase::weight( const QString &family,
const QString &style,
const QString & ) const
*/
/*!
Creates a font database object.
*/
QFontDatabase::QFontDatabase()
{
createDatabase();
d = db;
}
/*! Returns a sorted list of the names of the available font families.
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".
*/
QStringList QFontDatabase::families() const
{
load();
QStringList flist;
for ( int i = 0; i < d->count; i++ ) {
QtFontFamily *f = d->families[i];
if ( f->count == 0 )
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 += " [";
str += foundry;
str += "]";
}
flist.append( str );
}
}
}
return flist;
}
/*!
\overload
Returns a sorted list of the available font families which support
the Unicode script \a script.
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".
*/
QStringList QFontDatabase::families( QFont::Script script ) const
{
load();
QStringList flist;
for ( int i = 0; i < d->count; i++ ) {
QtFontFamily *f = d->families[i];
if ( f->count == 0 )
continue;
if (!(f->scripts[script] & 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 += " [";
str += foundry;
str += "]";
}
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.
*/
QStringList QFontDatabase::styles( const QString &family ) const
{
QString familyName, foundryName;
parseFontName( family, foundryName, familyName );
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() || ucstricmp( foundry->name, foundryName ) == 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( ::styleString( allStyles.styles[i]->key.weight,
allStyles.styles[i]->key.italic,
allStyles.styles[i]->key.oblique ) );
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 );
load( familyName );
QtFontFamily *f = d->family( familyName );
#ifdef Q_OS_MAC
if (f) {
if (!f->fixedPitchComputed) {
QFontMetrics fm(familyName);
f->fixedPitch = fm.width('i') == fm.width('m');
f->fixedPitchComputed = TRUE;
}
}
#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 );
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() || ucstricmp( foundry->name, foundryName ) == 0 ) {
for ( int k = 0; k < foundry->count; k++ )
if ( 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 );
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() ||
ucstricmp( foundry->name, foundryName ) == 0 ) {
for ( int k = 0; k < foundry->count; k++ )
if ( 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
{
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()
*/
QValueList<int> QFontDatabase::pointSizes( const QString &family,
const QString &style)
{
#if defined(Q_WS_WIN) || defined(Q_WS_MAC)
// 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 );
load( familyName );
QtFontStyle::Key styleKey( style );
QValueList<int> sizes;
QtFontFamily *fam = d->family( familyName );
if ( !fam ) return sizes;
for ( int j = 0; j < fam->count; j++ ) {
QtFontFoundry *foundry = fam->foundries[j];
if ( foundryName.isEmpty() || ucstricmp( foundry->name, foundryName ) == 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) {
#ifdef Q_WS_X11
const uint pointSize = qRound(qt_pointSize(size->pixelSize, 0, -1));
#else
const uint pointSize = size->pixelSize; // embedded uses 72dpi
#endif
if (! sizes.contains(pointSize))
sizes.append(pointSize);
}
}
}
}
end:
if ( smoothScalable )
return standardSizes();
qHeapSort( 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)
{
QString familyName, foundryName;
parseFontName( family, foundryName, familyName );
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() || ucstricmp( foundry->name, foundryName ) == 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 );
// ### perhaps do a bit of matching to find the most compatible font?
if ( !s && allStyles.count )
s = allStyles.styles[0];
if ( !s ) // no styles found?
return QApplication::font();
return QFont( family, pointSize, s->key.weight,
s->key.italic ? TRUE : s->key.oblique ? TRUE : FALSE );
}
/*!
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()
*/
QValueList<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 );
load( familyName );
QtFontStyle::Key styleKey( style );
QValueList<int> sizes;
QtFontFamily *fam = d->family( familyName );
if ( !fam )
return sizes;
for ( int j = 0; j < fam->count; j++ ) {
QtFontFoundry *foundry = fam->foundries[j];
if ( foundryName.isEmpty() ||
ucstricmp( foundry->name, foundryName ) == 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 ) {
#ifdef Q_WS_X11
const uint pointSize = qRound(qt_pointSize(size->pixelSize, 0, -1));
#else
const uint pointSize = size->pixelSize; // embedded uses 72dpi
#endif
if (! sizes.contains(pointSize))
sizes.append( pointSize );
}
}
}
}
end:
if ( smoothScalable )
return QFontDatabase::standardSizes();
qHeapSort( sizes );
return sizes;
#endif
}
/*!
Returns a list of standard font sizes.
\sa smoothSizes(), pointSizes()
*/
QValueList<int> QFontDatabase::standardSizes()
{
QValueList<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 );
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() || ucstricmp( foundry->name, foundryName ) == 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.italic;
}
/*!
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 );
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() ||
ucstricmp( foundry->name, foundryName ) == 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 );
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() ||
ucstricmp( foundry->name, foundryName ) == 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 a string that gives a default description of the \a script
(e.g. for displaying to the user in a dialog). The name matches
the name of the script as defined by the Unicode 3.0 standard.
\sa QFont::Script
*/
QString QFontDatabase::scriptName(QFont::Script script)
{
const char *name = 0;
switch (script) {
case QFont::Latin:
name = QT_TRANSLATE_NOOP("QFont", "Latin");
break;
case QFont::Greek:
name = QT_TRANSLATE_NOOP("QFont", "Greek" );
break;
case QFont::Cyrillic:
name = QT_TRANSLATE_NOOP("QFont", "Cyrillic" );
break;
case QFont::Armenian:
name = QT_TRANSLATE_NOOP("QFont", "Armenian" );
break;
case QFont::Georgian:
name = QT_TRANSLATE_NOOP("QFont", "Georgian" );
break;
case QFont::Runic:
name = QT_TRANSLATE_NOOP("QFont", "Runic" );
break;
case QFont::Ogham:
name = QT_TRANSLATE_NOOP("QFont", "Ogham" );
break;
case QFont::SpacingModifiers:
name = QT_TRANSLATE_NOOP("QFont", "SpacingModifiers" );
break;
case QFont::CombiningMarks:
name = QT_TRANSLATE_NOOP("QFont", "CombiningMarks" );
break;
case QFont::Hebrew:
name = QT_TRANSLATE_NOOP("QFont", "Hebrew" );
break;
case QFont::Arabic:
name = QT_TRANSLATE_NOOP("QFont", "Arabic" );
break;
case QFont::Syriac:
name = QT_TRANSLATE_NOOP("QFont", "Syriac" );
break;
case QFont::Thaana:
name = QT_TRANSLATE_NOOP("QFont", "Thaana" );
break;
case QFont::Devanagari:
name = QT_TRANSLATE_NOOP("QFont", "Devanagari" );
break;
case QFont::Bengali:
name = QT_TRANSLATE_NOOP("QFont", "Bengali" );
break;
case QFont::Gurmukhi:
name = QT_TRANSLATE_NOOP("QFont", "Gurmukhi" );
break;
case QFont::Gujarati:
name = QT_TRANSLATE_NOOP("QFont", "Gujarati" );
break;
case QFont::Oriya:
name = QT_TRANSLATE_NOOP("QFont", "Oriya" );
break;
case QFont::Tamil:
name = QT_TRANSLATE_NOOP("QFont", "Tamil" );
break;
case QFont::Telugu:
name = QT_TRANSLATE_NOOP("QFont", "Telugu" );
break;
case QFont::Kannada:
name = QT_TRANSLATE_NOOP("QFont", "Kannada" );
break;
case QFont::Malayalam:
name = QT_TRANSLATE_NOOP("QFont", "Malayalam" );
break;
case QFont::Sinhala:
name = QT_TRANSLATE_NOOP("QFont", "Sinhala" );
break;
case QFont::Thai:
name = QT_TRANSLATE_NOOP("QFont", "Thai" );
break;
case QFont::Lao:
name = QT_TRANSLATE_NOOP("QFont", "Lao" );
break;
case QFont::Tibetan:
name = QT_TRANSLATE_NOOP("QFont", "Tibetan" );
break;
case QFont::Myanmar:
name = QT_TRANSLATE_NOOP("QFont", "Myanmar" );
break;
case QFont::Khmer:
name = QT_TRANSLATE_NOOP("QFont", "Khmer" );
break;
case QFont::Han:
name = QT_TRANSLATE_NOOP("QFont", "Han" );
break;
case QFont::Hiragana:
name = QT_TRANSLATE_NOOP("QFont", "Hiragana" );
break;
case QFont::Katakana:
name = QT_TRANSLATE_NOOP("QFont", "Katakana" );
break;
case QFont::Hangul:
name = QT_TRANSLATE_NOOP("QFont", "Hangul" );
break;
case QFont::Bopomofo:
name = QT_TRANSLATE_NOOP("QFont", "Bopomofo" );
break;
case QFont::Yi:
name = QT_TRANSLATE_NOOP("QFont", "Yi" );
break;
case QFont::Ethiopic:
name = QT_TRANSLATE_NOOP("QFont", "Ethiopic" );
break;
case QFont::Cherokee:
name = QT_TRANSLATE_NOOP("QFont", "Cherokee" );
break;
case QFont::CanadianAboriginal:
name = QT_TRANSLATE_NOOP("QFont", "Canadian Aboriginal" );
break;
case QFont::Mongolian:
name = QT_TRANSLATE_NOOP("QFont", "Mongolian" );
break;
case QFont::CurrencySymbols:
name = QT_TRANSLATE_NOOP("QFont", "Currency Symbols" );
break;
case QFont::LetterlikeSymbols:
name = QT_TRANSLATE_NOOP("QFont", "Letterlike Symbols" );
break;
case QFont::NumberForms:
name = QT_TRANSLATE_NOOP("QFont", "Number Forms" );
break;
case QFont::MathematicalOperators:
name = QT_TRANSLATE_NOOP("QFont", "Mathematical Operators" );
break;
case QFont::TechnicalSymbols:
name = QT_TRANSLATE_NOOP("QFont", "Technical Symbols" );
break;
case QFont::GeometricSymbols:
name = QT_TRANSLATE_NOOP("QFont", "Geometric Symbols" );
break;
case QFont::MiscellaneousSymbols:
name = QT_TRANSLATE_NOOP("QFont", "Miscellaneous Symbols" );
break;
case QFont::EnclosedAndSquare:
name = QT_TRANSLATE_NOOP("QFont", "Enclosed and Square" );
break;
case QFont::Braille:
name = QT_TRANSLATE_NOOP("QFont", "Braille" );
break;
case QFont::Unicode:
name = QT_TRANSLATE_NOOP("QFont", "Unicode" );
break;
case QFont::Tagalog:
name = QT_TRANSLATE_NOOP( "QFont", "Tagalog" );
break;
case QFont::Hanunoo:
name = QT_TRANSLATE_NOOP( "QFont", "Hanunoo" );
break;
case QFont::Buhid:
name = QT_TRANSLATE_NOOP( "QFont", "Buhid" );
break;
case QFont::Tagbanwa:
name = QT_TRANSLATE_NOOP( "QFont", "Tagbanwa" );
break;
case QFont::KatakanaHalfWidth:
name = QT_TRANSLATE_NOOP( "QFont", "Katakana Half-Width Forms" );
break;
case QFont::Han_Japanese:
name = QT_TRANSLATE_NOOP( "QFont", "Han (Japanese)" );
break;
case QFont::Han_SimplifiedChinese:
name = QT_TRANSLATE_NOOP( "QFont", "Han (Simplified Chinese)" );
break;
case QFont::Han_TraditionalChinese:
name = QT_TRANSLATE_NOOP( "QFont", "Han (Traditional Chinese)" );
break;
case QFont::Han_Korean:
name = QT_TRANSLATE_NOOP( "QFont", "Han (Korean)" );
break;
default:
name = QT_TRANSLATE_NOOP( "QFont", "Unknown Script" );
break;
}
return qApp ? qApp->translate("QFont", name) : QString::fromLatin1(name);
}
/*!
Returns a string with sample characters from \a script.
\sa QFont::Script
*/
QString QFontDatabase::scriptSample(QFont::Script script)
{
QString sample = "AaBb";
switch (script) {
case QFont::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 += QChar(0x00C3);
sample += QChar(0x00E1);
sample += "Zz";
break;
case QFont::Greek:
sample += QChar(0x0393);
sample += QChar(0x03B1);
sample += QChar(0x03A9);
sample += QChar(0x03C9);
break;
case QFont::Cyrillic:
sample += QChar(0x0414);
sample += QChar(0x0434);
sample += QChar(0x0436);
sample += QChar(0x0402);
break;
case QFont::Armenian:
sample += QChar(0x053f);
sample += QChar(0x054f);
sample += QChar(0x056f);
sample += QChar(0x057f);
break;
case QFont::Georgian:
sample += QChar(0x10a0);
sample += QChar(0x10b0);
sample += QChar(0x10c0);
sample += QChar(0x10d0);
break;
case QFont::Runic:
sample += QChar(0x16a0);
sample += QChar(0x16b0);
sample += QChar(0x16c0);
sample += QChar(0x16d0);
break;
case QFont::Ogham:
sample += QChar(0x1681);
sample += QChar(0x1687);
sample += QChar(0x1693);
sample += QChar(0x168d);
break;
case QFont::Hebrew:
sample += QChar(0x05D0);
sample += QChar(0x05D1);
sample += QChar(0x05D2);
sample += QChar(0x05D3);
break;
case QFont::Arabic:
sample += QChar(0x0628);
sample += QChar(0x0629);
sample += QChar(0x062A);
sample += QChar(0x063A);
break;
case QFont::Syriac:
sample += QChar(0x0715);
sample += QChar(0x0725);
sample += QChar(0x0716);
sample += QChar(0x0726);
break;
case QFont::Thaana:
sample += QChar(0x0784);
sample += QChar(0x0794);
sample += QChar(0x078c);
sample += QChar(0x078d);
break;
case QFont::Devanagari:
sample += QChar(0x0905);
sample += QChar(0x0915);
sample += QChar(0x0925);
sample += QChar(0x0935);
break;
case QFont::Bengali:
sample += QChar(0x0986);
sample += QChar(0x0996);
sample += QChar(0x09a6);
sample += QChar(0x09b6);
break;
case QFont::Gurmukhi:
sample += QChar(0x0a05);
sample += QChar(0x0a15);
sample += QChar(0x0a25);
sample += QChar(0x0a35);
break;
case QFont::Gujarati:
sample += QChar(0x0a85);
sample += QChar(0x0a95);
sample += QChar(0x0aa5);
sample += QChar(0x0ab5);
break;
case QFont::Oriya:
sample += QChar(0x0b06);
sample += QChar(0x0b16);
sample += QChar(0x0b2b);
sample += QChar(0x0b36);
break;
case QFont::Tamil:
sample += QChar(0x0b89);
sample += QChar(0x0b99);
sample += QChar(0x0ba9);
sample += QChar(0x0bb9);
break;
case QFont::Telugu:
sample += QChar(0x0c05);
sample += QChar(0x0c15);
sample += QChar(0x0c25);
sample += QChar(0x0c35);
break;
case QFont::Kannada:
sample += QChar(0x0c85);
sample += QChar(0x0c95);
sample += QChar(0x0ca5);
sample += QChar(0x0cb5);
break;
case QFont::Malayalam:
sample += QChar(0x0d05);
sample += QChar(0x0d15);
sample += QChar(0x0d25);
sample += QChar(0x0d35);
break;
case QFont::Sinhala:
sample += QChar(0x0d90);
sample += QChar(0x0da0);
sample += QChar(0x0db0);
sample += QChar(0x0dc0);
break;
case QFont::Thai:
sample += QChar(0x0e02);
sample += QChar(0x0e12);
sample += QChar(0x0e22);
sample += QChar(0x0e32);
break;
case QFont::Lao:
sample += QChar(0x0e8d);
sample += QChar(0x0e9d);
sample += QChar(0x0ead);
sample += QChar(0x0ebd);
break;
case QFont::Tibetan:
sample += QChar(0x0f00);
sample += QChar(0x0f01);
sample += QChar(0x0f02);
sample += QChar(0x0f03);
break;
case QFont::Myanmar:
sample += QChar(0x1000);
sample += QChar(0x1001);
sample += QChar(0x1002);
sample += QChar(0x1003);
break;
case QFont::Khmer:
sample += QChar(0x1780);
sample += QChar(0x1790);
sample += QChar(0x17b0);
sample += QChar(0x17c0);
break;
case QFont::Han:
sample += QChar(0x6f84);
sample += QChar(0x820a);
sample += QChar(0x61a9);
sample += QChar(0x9781);
break;
case QFont::Hiragana:
sample += QChar(0x3050);
sample += QChar(0x3060);
sample += QChar(0x3070);
sample += QChar(0x3080);
break;
case QFont::Katakana:
sample += QChar(0x30b0);
sample += QChar(0x30c0);
sample += QChar(0x30d0);
sample += QChar(0x30e0);
break;
case QFont::Hangul:
sample += QChar(0xac00);
sample += QChar(0xac11);
sample += QChar(0xac1a);
sample += QChar(0xac2f);
break;
case QFont::Bopomofo:
sample += QChar(0x3105);
sample += QChar(0x3115);
sample += QChar(0x3125);
sample += QChar(0x3129);
break;
case QFont::Yi:
sample += QChar(0xa1a8);
sample += QChar(0xa1a6);
sample += QChar(0xa200);
sample += QChar(0xa280);
break;
case QFont::Ethiopic:
sample += QChar(0x1200);
sample += QChar(0x1240);
sample += QChar(0x1280);
sample += QChar(0x12c0);
break;
case QFont::Cherokee:
sample += QChar(0x13a0);
sample += QChar(0x13b0);
sample += QChar(0x13c0);
sample += QChar(0x13d0);
break;
case QFont::CanadianAboriginal:
sample += QChar(0x1410);
sample += QChar(0x1500);
sample += QChar(0x15f0);
sample += QChar(0x1650);
break;
case QFont::Mongolian:
sample += QChar(0x1820);
sample += QChar(0x1840);
sample += QChar(0x1860);
sample += QChar(0x1880);
break;
case QFont::CurrencySymbols:
case QFont::LetterlikeSymbols:
case QFont::NumberForms:
case QFont::MathematicalOperators:
case QFont::TechnicalSymbols:
case QFont::GeometricSymbols:
case QFont::MiscellaneousSymbols:
case QFont::EnclosedAndSquare:
case QFont::Braille:
break;
case QFont::Unicode:
sample += QChar(0x0174);
sample += QChar(0x0628);
sample += QChar(0x0e02);
sample += QChar(0x263A);
sample += QChar(0x3129);
sample += QChar(0x61a9);
sample += QChar(0xac2f);
break;
default:
sample += QChar(0xfffd);
sample += QChar(0xfffd);
sample += QChar(0xfffd);
sample += QChar(0xfffd);
break;
}
return sample;
}
/*!
\internal
This makes sense of the font family name:
1) if the family name contains a '-' (ie. "Adobe-Courier"), then we
split at the '-', and use the string as the foundry, and the string to
the right as the family
2) 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]")
*/
void QFontDatabase::parseFontName(const QString &name, QString &foundry, QString &family)
{
if ( name.contains('-') ) {
int i = name.find('-');
foundry = name.left( i );
family = name.right( name.length() - i - 1 );
} else if ( name.contains('[') && name.contains(']')) {
int i = name.find('[');
int li = name.findRev(']');
if (i < li) {
foundry = name.mid(i + 1, li - i - 1);
if (name[i - 1] == ' ')
i--;
family = name.left(i);
}
} else {
foundry = QString::null;
family = name;
}
}
#endif // QT_NO_FONTDATABASE
