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|
/****************************************************************************
**
** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies).
** All rights reserved.
** 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 Technology Preview License Agreement accompanying
** this package.
**
** 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 1.1, included in the file LGPL_EXCEPTION.txt in this package.
**
** If you have questions regarding the use of this file, please contact
** Nokia at qt-info@nokia.com.
**
**
**
**
**
**
**
**
** $QT_END_LICENSE$
**
****************************************************************************/
#include "qfontengine_p.h"
#include "qtextengine_p.h"
#include <qglobal.h>
#include "qt_windows.h"
#include <private/qapplication_p.h>
#include <qlibrary.h>
#include <qpaintdevice.h>
#include <qpainter.h>
#include <qlibrary.h>
#include <limits.h>
#include <qendian.h>
#include <qmath.h>
#include <qthreadstorage.h>
#include <private/qunicodetables_p.h>
#include <qbitmap.h>
#include <private/qpainter_p.h>
#include <private/qpdf_p.h>
#include "qpaintengine.h"
#include "qvarlengtharray.h"
#include <private/qpaintengine_raster_p.h>
#include <private/qnativeimage_p.h>
#if defined(Q_OS_WINCE)
#include "qguifunctions_wince.h"
#endif
//### mingw needed define
#ifndef TT_PRIM_CSPLINE
#define TT_PRIM_CSPLINE 3
#endif
#ifdef MAKE_TAG
#undef MAKE_TAG
#endif
// GetFontData expects the tags in little endian ;(
#define MAKE_TAG(ch1, ch2, ch3, ch4) (\
(((quint32)(ch4)) << 24) | \
(((quint32)(ch3)) << 16) | \
(((quint32)(ch2)) << 8) | \
((quint32)(ch1)) \
)
typedef BOOL (WINAPI *PtrGetCharWidthI)(HDC, UINT, UINT, LPWORD, LPINT);
// common DC for all fonts
QT_BEGIN_NAMESPACE
class QtHDC
{
HDC _hdc;
public:
QtHDC()
{
HDC displayDC = GetDC(0);
_hdc = CreateCompatibleDC(displayDC);
ReleaseDC(0, displayDC);
}
~QtHDC()
{
if (_hdc)
DeleteDC(_hdc);
}
HDC hdc() const
{
return _hdc;
}
};
#ifndef QT_NO_THREAD
Q_GLOBAL_STATIC(QThreadStorage<QtHDC *>, local_shared_dc)
HDC shared_dc()
{
QtHDC *&hdc = local_shared_dc()->localData();
if (!hdc)
hdc = new QtHDC;
return hdc->hdc();
}
#else
HDC shared_dc()
{
return 0;
}
#endif
static HFONT stock_sysfont = 0;
static PtrGetCharWidthI ptrGetCharWidthI = 0;
static bool resolvedGetCharWidthI = false;
static void resolveGetCharWidthI()
{
if (resolvedGetCharWidthI)
return;
resolvedGetCharWidthI = true;
ptrGetCharWidthI = (PtrGetCharWidthI)QLibrary::resolve(QLatin1String("gdi32"), "GetCharWidthI");
}
// Copy a LOGFONTW struct into a LOGFONTA by converting the face name to an 8 bit value.
// This is needed when calling CreateFontIndirect on non-unicode windowses.
inline static void wa_copy_logfont(LOGFONTW *lfw, LOGFONTA *lfa)
{
lfa->lfHeight = lfw->lfHeight;
lfa->lfWidth = lfw->lfWidth;
lfa->lfEscapement = lfw->lfEscapement;
lfa->lfOrientation = lfw->lfOrientation;
lfa->lfWeight = lfw->lfWeight;
lfa->lfItalic = lfw->lfItalic;
lfa->lfUnderline = lfw->lfUnderline;
lfa->lfCharSet = lfw->lfCharSet;
lfa->lfOutPrecision = lfw->lfOutPrecision;
lfa->lfClipPrecision = lfw->lfClipPrecision;
lfa->lfQuality = lfw->lfQuality;
lfa->lfPitchAndFamily = lfw->lfPitchAndFamily;
QString fam = QString::fromUtf16((const ushort*)lfw->lfFaceName);
memcpy(lfa->lfFaceName, fam.toLocal8Bit().constData(), fam.length() + 1);
}
// defined in qtextengine_win.cpp
typedef void *SCRIPT_CACHE;
typedef HRESULT (WINAPI *fScriptFreeCache)(SCRIPT_CACHE *);
extern fScriptFreeCache ScriptFreeCache;
static inline quint32 getUInt(unsigned char *p)
{
quint32 val;
val = *p++ << 24;
val |= *p++ << 16;
val |= *p++ << 8;
val |= *p;
return val;
}
static inline quint16 getUShort(unsigned char *p)
{
quint16 val;
val = *p++ << 8;
val |= *p;
return val;
}
static inline HFONT systemFont()
{
if (stock_sysfont == 0)
stock_sysfont = (HFONT)GetStockObject(SYSTEM_FONT);
return stock_sysfont;
}
// general font engine
QFixed QFontEngineWin::lineThickness() const
{
if(lineWidth > 0)
return lineWidth;
return QFontEngine::lineThickness();
}
#if defined(Q_OS_WINCE)
static OUTLINETEXTMETRICW *getOutlineTextMetric(HDC hdc)
{
int size;
size = GetOutlineTextMetricsW(hdc, 0, 0);
OUTLINETEXTMETRICW *otm = (OUTLINETEXTMETRICW *)malloc(size);
GetOutlineTextMetricsW(hdc, size, otm);
return otm;
}
#else
static OUTLINETEXTMETRICA *getOutlineTextMetric(HDC hdc)
{
int size;
size = GetOutlineTextMetricsA(hdc, 0, 0);
OUTLINETEXTMETRICA *otm = (OUTLINETEXTMETRICA *)malloc(size);
GetOutlineTextMetricsA(hdc, size, otm);
return otm;
}
#endif
void QFontEngineWin::getCMap()
{
QT_WA({
ttf = (bool)(tm.w.tmPitchAndFamily & TMPF_TRUETYPE);
} , {
ttf = (bool)(tm.a.tmPitchAndFamily & TMPF_TRUETYPE);
});
HDC hdc = shared_dc();
SelectObject(hdc, hfont);
bool symb = false;
if (ttf) {
cmapTable = getSfntTable(qbswap<quint32>(MAKE_TAG('c', 'm', 'a', 'p')));
int size = 0;
cmap = QFontEngine::getCMap(reinterpret_cast<const uchar *>(cmapTable.constData()),
cmapTable.size(), &symb, &size);
}
if (!cmap) {
ttf = false;
symb = false;
}
symbol = symb;
designToDevice = 1;
_faceId.index = 0;
if(cmap) {
#if defined(Q_OS_WINCE)
OUTLINETEXTMETRICW *otm = getOutlineTextMetric(hdc);
#else
OUTLINETEXTMETRICA *otm = getOutlineTextMetric(hdc);
#endif
designToDevice = QFixed((int)otm->otmEMSquare)/int(otm->otmTextMetrics.tmHeight);
unitsPerEm = otm->otmEMSquare;
x_height = (int)otm->otmsXHeight;
loadKerningPairs(designToDevice);
_faceId.filename = (char *)otm + (int)otm->otmpFullName;
lineWidth = otm->otmsUnderscoreSize;
fsType = otm->otmfsType;
free(otm);
} else {
unitsPerEm = tm.w.tmHeight;
}
}
inline unsigned int getChar(const QChar *str, int &i, const int len)
{
unsigned int uc = str[i].unicode();
if (uc >= 0xd800 && uc < 0xdc00 && i < len-1) {
uint low = str[i+1].unicode();
if (low >= 0xdc00 && low < 0xe000) {
uc = (uc - 0xd800)*0x400 + (low - 0xdc00) + 0x10000;
++i;
}
}
return uc;
}
int QFontEngineWin::getGlyphIndexes(const QChar *str, int numChars, QGlyphLayout *glyphs, bool mirrored) const
{
int i = 0;
int glyph_pos = 0;
if (mirrored) {
#if defined(Q_OS_WINCE)
{
#else
if (symbol) {
for (; i < numChars; ++i, ++glyph_pos) {
unsigned int uc = getChar(str, i, numChars);
glyphs->glyphs[glyph_pos] = getTrueTypeGlyphIndex(cmap, uc);
if (!glyphs->glyphs[glyph_pos] && uc < 0x100)
glyphs->glyphs[glyph_pos] = getTrueTypeGlyphIndex(cmap, uc + 0xf000);
}
} else if (ttf) {
for (; i < numChars; ++i, ++glyph_pos) {
unsigned int uc = getChar(str, i, numChars);
glyphs->glyphs[glyph_pos] = getTrueTypeGlyphIndex(cmap, QChar::mirroredChar(uc));
}
} else {
#endif
ushort first, last;
QT_WA({
first = tm.w.tmFirstChar;
last = tm.w.tmLastChar;
}, {
first = tm.a.tmFirstChar;
last = tm.a.tmLastChar;
});
for (; i < numChars; ++i, ++glyph_pos) {
uint ucs = QChar::mirroredChar(getChar(str, i, numChars));
if (
#ifdef Q_OS_WINCE
tm.w.tmFirstChar > 60000 || // see line 375
#endif
ucs >= first && ucs <= last)
glyphs->glyphs[glyph_pos] = ucs;
else
glyphs->glyphs[glyph_pos] = 0;
}
}
} else {
#if defined(Q_OS_WINCE)
{
#else
if (symbol) {
for (; i < numChars; ++i, ++glyph_pos) {
unsigned int uc = getChar(str, i, numChars);
glyphs->glyphs[i] = getTrueTypeGlyphIndex(cmap, uc);
if(!glyphs->glyphs[glyph_pos] && uc < 0x100)
glyphs->glyphs[glyph_pos] = getTrueTypeGlyphIndex(cmap, uc + 0xf000);
}
} else if (ttf) {
for (; i < numChars; ++i, ++glyph_pos) {
unsigned int uc = getChar(str, i, numChars);
glyphs->glyphs[glyph_pos] = getTrueTypeGlyphIndex(cmap, uc);
}
} else {
#endif
ushort first, last;
QT_WA({
first = tm.w.tmFirstChar;
last = tm.w.tmLastChar;
}, {
first = tm.a.tmFirstChar;
last = tm.a.tmLastChar;
});
for (; i < numChars; ++i, ++glyph_pos) {
uint uc = getChar(str, i, numChars);
if (
#ifdef Q_OS_WINCE
tm.w.tmFirstChar > 60000 || // see comment in QFontEngineWin
#endif
uc >= first && uc <= last)
glyphs->glyphs[glyph_pos] = uc;
else
glyphs->glyphs[glyph_pos] = 0;
}
}
}
glyphs->numGlyphs = glyph_pos;
return glyph_pos;
}
QFontEngineWin::QFontEngineWin(const QString &name, HFONT _hfont, bool stockFont, LOGFONT lf)
{
//qDebug("regular windows font engine created: font='%s', size=%d", name, lf.lfHeight);
_name = name;
cmap = 0;
hfont = _hfont;
logfont = lf;
HDC hdc = shared_dc();
SelectObject(hdc, hfont);
this->stockFont = stockFont;
fontDef.pixelSize = -lf.lfHeight;
lbearing = SHRT_MIN;
rbearing = SHRT_MIN;
synthesized_flags = -1;
lineWidth = -1;
x_height = -1;
BOOL res;
QT_WA({
res = GetTextMetricsW(hdc, &tm.w);
} , {
res = GetTextMetricsA(hdc, &tm.a);
});
fontDef.fixedPitch = !(tm.w.tmPitchAndFamily & TMPF_FIXED_PITCH);
if (!res)
qErrnoWarning("QFontEngineWin: GetTextMetrics failed");
cache_cost = tm.w.tmHeight * tm.w.tmAveCharWidth * 2000;
getCMap();
useTextOutA = false;
#ifndef Q_OS_WINCE
// TextOutW doesn't work for symbol fonts on Windows 95!
// since we're using glyph indices we don't care for ttfs about this!
if (QSysInfo::WindowsVersion == QSysInfo::WV_95 && !ttf &&
(_name == QLatin1String("Marlett") || _name == QLatin1String("Symbol") ||
_name == QLatin1String("Webdings") || _name == QLatin1String("Wingdings")))
useTextOutA = true;
#endif
widthCache = 0;
widthCacheSize = 0;
designAdvances = 0;
designAdvancesSize = 0;
if (!resolvedGetCharWidthI)
resolveGetCharWidthI();
}
QFontEngineWin::~QFontEngineWin()
{
if (designAdvances)
free(designAdvances);
if (widthCache)
free(widthCache);
// make sure we aren't by accident still selected
SelectObject(shared_dc(), systemFont());
if (!stockFont) {
if (!DeleteObject(hfont))
qErrnoWarning("QFontEngineWin: failed to delete non-stock font...");
}
}
HGDIOBJ QFontEngineWin::selectDesignFont(QFixed *overhang) const
{
LOGFONT f = logfont;
f.lfHeight = unitsPerEm;
HFONT designFont;
QT_WA({
designFont = CreateFontIndirectW(&f);
}, {
LOGFONTA fa;
wa_copy_logfont(&f, &fa);
designFont = CreateFontIndirectA(&fa);
});
HGDIOBJ oldFont = SelectObject(shared_dc(), designFont);
if (QSysInfo::WindowsVersion & QSysInfo::WV_DOS_based) {
BOOL res;
QT_WA({
TEXTMETRICW tm;
res = GetTextMetricsW(shared_dc(), &tm);
if (!res)
qErrnoWarning("QFontEngineWin: GetTextMetrics failed");
*overhang = QFixed((int)tm.tmOverhang) / designToDevice;
} , {
TEXTMETRICA tm;
res = GetTextMetricsA(shared_dc(), &tm);
if (!res)
qErrnoWarning("QFontEngineWin: GetTextMetrics failed");
*overhang = QFixed((int)tm.tmOverhang) / designToDevice;
});
} else {
*overhang = 0;
}
return oldFont;
}
bool QFontEngineWin::stringToCMap(const QChar *str, int len, QGlyphLayout *glyphs, int *nglyphs, QTextEngine::ShaperFlags flags) const
{
if (*nglyphs < len) {
*nglyphs = len;
return false;
}
*nglyphs = getGlyphIndexes(str, len, glyphs, flags & QTextEngine::RightToLeft);
if (flags & QTextEngine::GlyphIndicesOnly)
return true;
#if defined(Q_OS_WINCE)
HDC hdc = shared_dc();
if (flags & QTextEngine::DesignMetrics) {
HGDIOBJ oldFont = 0;
QFixed overhang = 0;
int glyph_pos = 0;
for(register int i = 0; i < len; i++) {
bool surrogate = (str[i].unicode() >= 0xd800 && str[i].unicode() < 0xdc00 && i < len-1
&& str[i+1].unicode() >= 0xdc00 && str[i+1].unicode() < 0xe000);
unsigned int glyph = glyphs->glyphs[glyph_pos];
if(int(glyph) >= designAdvancesSize) {
int newSize = (glyph + 256) >> 8 << 8;
designAdvances = (QFixed *)realloc(designAdvances, newSize*sizeof(QFixed));
for(int i = designAdvancesSize; i < newSize; ++i)
designAdvances[i] = -1000000;
designAdvancesSize = newSize;
}
if(designAdvances[glyph] < -999999) {
if(!oldFont)
oldFont = selectDesignFont(&overhang);
SIZE size = {0, 0};
GetTextExtentPoint32W(hdc, (wchar_t *)(str+i), surrogate ? 2 : 1, &size);
designAdvances[glyph] = QFixed((int)size.cx)/designToDevice;
}
glyphs->advances_x[glyph_pos] = designAdvances[glyph];
glyphs->advances_y[glyph_pos] = 0;
if (surrogate)
++i;
++glyph_pos;
}
if(oldFont)
DeleteObject(SelectObject(hdc, oldFont));
} else {
int glyph_pos = 0;
HGDIOBJ oldFont = 0;
for(register int i = 0; i < len; i++) {
bool surrogate = (str[i].unicode() >= 0xd800 && str[i].unicode() < 0xdc00 && i < len-1
&& str[i+1].unicode() >= 0xdc00 && str[i+1].unicode() < 0xe000);
unsigned int glyph = glyphs->glyphs[glyph_pos];
glyphs->advances_y[glyph_pos] = 0;
if (glyph >= widthCacheSize) {
int newSize = (glyph + 256) >> 8 << 8;
widthCache = (unsigned char *)realloc(widthCache, newSize*sizeof(QFixed));
memset(widthCache + widthCacheSize, 0, newSize - widthCacheSize);
widthCacheSize = newSize;
}
glyphs->advances_x[glyph_pos] = widthCache[glyph];
// font-width cache failed
if (glyphs->advances_x[glyph_pos] == 0) {
SIZE size = {0, 0};
if (!oldFont)
oldFont = SelectObject(hdc, hfont);
GetTextExtentPoint32W(hdc, (wchar_t *)str + i, surrogate ? 2 : 1, &size);
glyphs->advances_x[glyph_pos] = size.cx;
// if glyph's within cache range, store it for later
if (size.cx > 0 && size.cx < 0x100)
widthCache[glyph] = size.cx;
}
if (surrogate)
++i;
++glyph_pos;
}
if (oldFont)
SelectObject(hdc, oldFont);
}
#else
recalcAdvances(glyphs, flags);
#endif
return true;
}
void QFontEngineWin::recalcAdvances(QGlyphLayout *glyphs, QTextEngine::ShaperFlags flags) const
{
HGDIOBJ oldFont = 0;
HDC hdc = shared_dc();
if (ttf && (flags & QTextEngine::DesignMetrics)) {
QFixed overhang = 0;
for(int i = 0; i < glyphs->numGlyphs; i++) {
unsigned int glyph = glyphs->glyphs[i];
if(int(glyph) >= designAdvancesSize) {
int newSize = (glyph + 256) >> 8 << 8;
designAdvances = (QFixed *)realloc(designAdvances, newSize*sizeof(QFixed));
for(int i = designAdvancesSize; i < newSize; ++i)
designAdvances[i] = -1000000;
designAdvancesSize = newSize;
}
if(designAdvances[glyph] < -999999) {
if(!oldFont)
oldFont = selectDesignFont(&overhang);
if (ptrGetCharWidthI) {
int width = 0;
ptrGetCharWidthI(hdc, glyph, 1, 0, &width);
designAdvances[glyph] = QFixed(width) / designToDevice;
} else {
#ifndef Q_OS_WINCE
GLYPHMETRICS gm;
DWORD res = GDI_ERROR;
MAT2 mat;
mat.eM11.value = mat.eM22.value = 1;
mat.eM11.fract = mat.eM22.fract = 0;
mat.eM21.value = mat.eM12.value = 0;
mat.eM21.fract = mat.eM12.fract = 0;
QT_WA({
res = GetGlyphOutlineW(hdc, glyph, GGO_METRICS|GGO_GLYPH_INDEX|GGO_NATIVE, &gm, 0, 0, &mat);
} , {
res = GetGlyphOutlineA(hdc, glyph, GGO_METRICS|GGO_GLYPH_INDEX|GGO_NATIVE, &gm, 0, 0, &mat);
});
if (res != GDI_ERROR) {
designAdvances[glyph] = QFixed(gm.gmCellIncX) / designToDevice;
}
#endif
}
}
glyphs->advances_x[i] = designAdvances[glyph];
glyphs->advances_y[i] = 0;
}
if(oldFont)
DeleteObject(SelectObject(hdc, oldFont));
} else {
int overhang = (QSysInfo::WindowsVersion & QSysInfo::WV_DOS_based) ? tm.a.tmOverhang : 0;
for(int i = 0; i < glyphs->numGlyphs; i++) {
unsigned int glyph = glyphs->glyphs[i];
glyphs->advances_y[i] = 0;
if (glyph >= widthCacheSize) {
int newSize = (glyph + 256) >> 8 << 8;
widthCache = (unsigned char *)realloc(widthCache, newSize*sizeof(QFixed));
memset(widthCache + widthCacheSize, 0, newSize - widthCacheSize);
widthCacheSize = newSize;
}
glyphs->advances_x[i] = widthCache[glyph];
// font-width cache failed
if (glyphs->advances_x[i] == 0) {
int width = 0;
if (!oldFont)
oldFont = SelectObject(hdc, hfont);
if (!ttf) {
QChar ch[2] = { ushort(glyph), 0 };
int chrLen = 1;
if (glyph > 0xffff) {
ch[0] = QChar::highSurrogate(glyph);
ch[1] = QChar::lowSurrogate(glyph);
++chrLen;
}
SIZE size = {0, 0};
GetTextExtentPoint32W(hdc, (wchar_t *)ch, chrLen, &size);
width = size.cx;
} else if (ptrGetCharWidthI) {
ptrGetCharWidthI(hdc, glyph, 1, 0, &width);
width -= overhang;
} else {
#ifndef Q_OS_WINCE
GLYPHMETRICS gm;
DWORD res = GDI_ERROR;
MAT2 mat;
mat.eM11.value = mat.eM22.value = 1;
mat.eM11.fract = mat.eM22.fract = 0;
mat.eM21.value = mat.eM12.value = 0;
mat.eM21.fract = mat.eM12.fract = 0;
QT_WA({
res = GetGlyphOutlineW(hdc, glyph, GGO_METRICS|GGO_GLYPH_INDEX, &gm, 0, 0, &mat);
} , {
res = GetGlyphOutlineA(hdc, glyph, GGO_METRICS|GGO_GLYPH_INDEX, &gm, 0, 0, &mat);
});
if (res != GDI_ERROR) {
width = gm.gmCellIncX;
}
#endif
}
glyphs->advances_x[i] = width;
// if glyph's within cache range, store it for later
if (width > 0 && width < 0x100)
widthCache[glyph] = width;
}
}
if (oldFont)
SelectObject(hdc, oldFont);
}
}
glyph_metrics_t QFontEngineWin::boundingBox(const QGlyphLayout &glyphs)
{
if (glyphs.numGlyphs == 0)
return glyph_metrics_t();
QFixed w = 0;
for (int i = 0; i < glyphs.numGlyphs; ++i)
w += glyphs.effectiveAdvance(i);
return glyph_metrics_t(0, -tm.w.tmAscent, w, tm.w.tmHeight, w, 0);
}
#ifndef Q_OS_WINCE
typedef HRESULT (WINAPI *pGetCharABCWidthsFloat)(HDC, UINT, UINT, LPABCFLOAT);
static pGetCharABCWidthsFloat qt_GetCharABCWidthsFloat = 0;
#endif
glyph_metrics_t QFontEngineWin::boundingBox(glyph_t glyph, const QTransform &t)
{
#ifndef Q_OS_WINCE
GLYPHMETRICS gm;
HDC hdc = shared_dc();
SelectObject(hdc, hfont);
if(!ttf) {
SIZE s = {0, 0};
WCHAR ch = glyph;
int width;
int overhang = 0;
static bool resolved = false;
if (!resolved) {
QLibrary lib(QLatin1String("gdi32"));
qt_GetCharABCWidthsFloat = (pGetCharABCWidthsFloat) lib.resolve("GetCharABCWidthsFloatW");
resolved = true;
}
if (QT_WA_INLINE(true, false) && qt_GetCharABCWidthsFloat) {
ABCFLOAT abc;
qt_GetCharABCWidthsFloat(hdc, ch, ch, &abc);
width = qRound(abc.abcfB);
} else {
GetTextExtentPoint32W(hdc, &ch, 1, &s);
overhang = (QSysInfo::WindowsVersion & QSysInfo::WV_DOS_based) ? tm.a.tmOverhang : 0;
width = s.cx;
}
return glyph_metrics_t(0, -tm.a.tmAscent,
width, tm.a.tmHeight,
width-overhang, 0).transformed(t);
} else {
DWORD res = 0;
MAT2 mat;
mat.eM11.value = mat.eM22.value = 1;
mat.eM11.fract = mat.eM22.fract = 0;
mat.eM21.value = mat.eM12.value = 0;
mat.eM21.fract = mat.eM12.fract = 0;
if (t.type() > QTransform::TxTranslate) {
// We need to set the transform using the HDC's world
// matrix rather than using the MAT2 above, because the
// results provided when transforming via MAT2 does not
// match the glyphs that are drawn using a WorldTransform
XFORM xform;
xform.eM11 = t.m11();
xform.eM12 = t.m12();
xform.eM21 = t.m21();
xform.eM22 = t.m22();
xform.eDx = 0;
xform.eDy = 0;
SetGraphicsMode(hdc, GM_ADVANCED);
SetWorldTransform(hdc, &xform);
}
QT_WA({
res = GetGlyphOutlineW(hdc, glyph, GGO_METRICS|GGO_GLYPH_INDEX, &gm, 0, 0, &mat);
} , {
res = GetGlyphOutlineA(hdc, glyph, GGO_METRICS|GGO_GLYPH_INDEX, &gm, 0, 0, &mat);
});
if (t.type() > QTransform::TxTranslate) {
XFORM xform;
xform.eM11 = xform.eM22 = 1;
xform.eM12 = xform.eM21 = xform.eDx = xform.eDy = 0;
SetWorldTransform(hdc, &xform);
SetGraphicsMode(hdc, GM_COMPATIBLE);
}
if (res != GDI_ERROR) {
return glyph_metrics_t(gm.gmptGlyphOrigin.x, -gm.gmptGlyphOrigin.y,
(int)gm.gmBlackBoxX, (int)gm.gmBlackBoxY, gm.gmCellIncX, gm.gmCellIncY);
}
}
return glyph_metrics_t();
#else
HDC hdc = shared_dc();
HGDIOBJ oldFont = SelectObject(hdc, hfont);
ABC abc;
int width;
int advance;
#ifdef GWES_MGTT // true type fonts
if (GetCharABCWidths(hdc, glyph, glyph, &abc)) {
width = qAbs(abc.abcA) + abc.abcB + qAbs(abc.abcC);
advance = abc.abcA + abc.abcB + abc.abcC;
}
else
#endif
#if defined(GWES_MGRAST) || defined(GWES_MGRAST2) // raster fonts
if (GetCharWidth32(hdc, glyph, glyph, &width)) {
advance = width;
}
else
#endif
{ // fallback
width = tm.w.tmMaxCharWidth;
advance = width;
}
SelectObject(hdc, oldFont);
return glyph_metrics_t(0, -tm.w.tmAscent, width, tm.w.tmHeight, advance, 0).transformed(t);
#endif
}
QFixed QFontEngineWin::ascent() const
{
return tm.w.tmAscent;
}
QFixed QFontEngineWin::descent() const
{
return tm.w.tmDescent;
}
QFixed QFontEngineWin::leading() const
{
return tm.w.tmExternalLeading;
}
QFixed QFontEngineWin::xHeight() const
{
if(x_height >= 0)
return x_height;
return QFontEngine::xHeight();
}
QFixed QFontEngineWin::averageCharWidth() const
{
return tm.w.tmAveCharWidth;
}
qreal QFontEngineWin::maxCharWidth() const
{
return tm.w.tmMaxCharWidth;
}
enum { max_font_count = 256 };
static const ushort char_table[] = {
40,
67,
70,
75,
86,
88,
89,
91,
102,
114,
124,
127,
205,
645,
884,
922,
1070,
12386,
0
};
static const int char_table_entries = sizeof(char_table)/sizeof(ushort);
qreal QFontEngineWin::minLeftBearing() const
{
if (lbearing == SHRT_MIN)
minRightBearing(); // calculates both
return lbearing;
}
qreal QFontEngineWin::minRightBearing() const
{
#ifdef Q_OS_WINCE
if (rbearing == SHRT_MIN) {
int ml = 0;
int mr = 0;
HDC hdc = shared_dc();
SelectObject(hdc, hfont);
if (ttf) {
ABC *abc = 0;
int n = QT_WA_INLINE(tm.w.tmLastChar - tm.w.tmFirstChar, tm.a.tmLastChar - tm.a.tmFirstChar);
if (n <= max_font_count) {
abc = new ABC[n+1];
GetCharABCWidths(hdc, tm.w.tmFirstChar, tm.w.tmLastChar, abc);
} else {
abc = new ABC[char_table_entries+1];
for(int i = 0; i < char_table_entries; i++)
GetCharABCWidths(hdc, char_table[i], char_table[i], abc+i);
n = char_table_entries;
}
ml = abc[0].abcA;
mr = abc[0].abcC;
for (int i = 1; i < n; i++) {
if (abc[i].abcA + abc[i].abcB + abc[i].abcC != 0) {
ml = qMin(ml,abc[i].abcA);
mr = qMin(mr,abc[i].abcC);
}
}
delete [] abc;
} else {
ml = 0;
mr = -tm.a.tmOverhang;
}
lbearing = ml;
rbearing = mr;
}
return rbearing;
#else
if (rbearing == SHRT_MIN) {
int ml = 0;
int mr = 0;
HDC hdc = shared_dc();
SelectObject(hdc, hfont);
if (ttf) {
ABC *abc = 0;
int n = QT_WA_INLINE(tm.w.tmLastChar - tm.w.tmFirstChar, tm.a.tmLastChar - tm.a.tmFirstChar);
if (n <= max_font_count) {
abc = new ABC[n+1];
QT_WA({
GetCharABCWidths(hdc, tm.w.tmFirstChar, tm.w.tmLastChar, abc);
}, {
GetCharABCWidthsA(hdc,tm.a.tmFirstChar,tm.a.tmLastChar,abc);
});
} else {
abc = new ABC[char_table_entries+1];
QT_WA({
for(int i = 0; i < char_table_entries; i++)
GetCharABCWidths(hdc, char_table[i], char_table[i], abc+i);
}, {
for(int i = 0; i < char_table_entries; i++) {
QByteArray w = QString(QChar(char_table[i])).toLocal8Bit();
if (w.length() == 1) {
uint ch8 = (uchar)w[0];
GetCharABCWidthsA(hdc, ch8, ch8, abc+i);
}
}
});
n = char_table_entries;
}
ml = abc[0].abcA;
mr = abc[0].abcC;
for (int i = 1; i < n; i++) {
if (abc[i].abcA + abc[i].abcB + abc[i].abcC != 0) {
ml = qMin(ml,abc[i].abcA);
mr = qMin(mr,abc[i].abcC);
}
}
delete [] abc;
} else {
QT_WA({
ABCFLOAT *abc = 0;
int n = tm.w.tmLastChar - tm.w.tmFirstChar+1;
if (n <= max_font_count) {
abc = new ABCFLOAT[n];
GetCharABCWidthsFloat(hdc, tm.w.tmFirstChar, tm.w.tmLastChar, abc);
} else {
abc = new ABCFLOAT[char_table_entries];
for(int i = 0; i < char_table_entries; i++)
GetCharABCWidthsFloat(hdc, char_table[i], char_table[i], abc+i);
n = char_table_entries;
}
float fml = abc[0].abcfA;
float fmr = abc[0].abcfC;
for (int i=1; i<n; i++) {
if (abc[i].abcfA + abc[i].abcfB + abc[i].abcfC != 0) {
fml = qMin(fml,abc[i].abcfA);
fmr = qMin(fmr,abc[i].abcfC);
}
}
ml = int(fml-0.9999);
mr = int(fmr-0.9999);
delete [] abc;
} , {
ml = 0;
mr = -tm.a.tmOverhang;
});
}
lbearing = ml;
rbearing = mr;
}
return rbearing;
#endif
}
const char *QFontEngineWin::name() const
{
return 0;
}
bool QFontEngineWin::canRender(const QChar *string, int len)
{
if (symbol) {
for (int i = 0; i < len; ++i) {
unsigned int uc = getChar(string, i, len);
if (getTrueTypeGlyphIndex(cmap, uc) == 0) {
if (uc < 0x100) {
if (getTrueTypeGlyphIndex(cmap, uc + 0xf000) == 0)
return false;
} else {
return false;
}
}
}
} else if (ttf) {
for (int i = 0; i < len; ++i) {
unsigned int uc = getChar(string, i, len);
if (getTrueTypeGlyphIndex(cmap, uc) == 0)
return false;
}
} else {
QT_WA({
while(len--) {
if (tm.w.tmFirstChar > string->unicode() || tm.w.tmLastChar < string->unicode())
return false;
}
}, {
while(len--) {
if (tm.a.tmFirstChar > string->unicode() || tm.a.tmLastChar < string->unicode())
return false;
}
});
}
return true;
}
QFontEngine::Type QFontEngineWin::type() const
{
return QFontEngine::Win;
}
static inline double qt_fixed_to_double(const FIXED &p) {
return ((p.value << 16) + p.fract) / 65536.0;
}
static inline QPointF qt_to_qpointf(const POINTFX &pt, qreal scale) {
return QPointF(qt_fixed_to_double(pt.x) * scale, -qt_fixed_to_double(pt.y) * scale);
}
#ifndef GGO_UNHINTED
#define GGO_UNHINTED 0x0100
#endif
static bool addGlyphToPath(glyph_t glyph, const QFixedPoint &position, HDC hdc,
QPainterPath *path, bool ttf, glyph_metrics_t *metric = 0, qreal scale = 1)
{
#if defined(Q_OS_WINCE)
Q_UNUSED(glyph);
Q_UNUSED(hdc);
#endif
MAT2 mat;
mat.eM11.value = mat.eM22.value = 1;
mat.eM11.fract = mat.eM22.fract = 0;
mat.eM21.value = mat.eM12.value = 0;
mat.eM21.fract = mat.eM12.fract = 0;
uint glyphFormat = GGO_NATIVE;
if (ttf)
glyphFormat |= GGO_GLYPH_INDEX;
GLYPHMETRICS gMetric;
memset(&gMetric, 0, sizeof(GLYPHMETRICS));
int bufferSize = GDI_ERROR;
#if !defined(Q_OS_WINCE)
QT_WA( {
bufferSize = GetGlyphOutlineW(hdc, glyph, glyphFormat, &gMetric, 0, 0, &mat);
}, {
bufferSize = GetGlyphOutlineA(hdc, glyph, glyphFormat, &gMetric, 0, 0, &mat);
});
#endif
if ((DWORD)bufferSize == GDI_ERROR) {
return false;
}
void *dataBuffer = new char[bufferSize];
DWORD ret = GDI_ERROR;
#if !defined(Q_OS_WINCE)
QT_WA( {
ret = GetGlyphOutlineW(hdc, glyph, glyphFormat, &gMetric, bufferSize,
dataBuffer, &mat);
}, {
ret = GetGlyphOutlineA(hdc, glyph, glyphFormat, &gMetric, bufferSize,
dataBuffer, &mat);
} );
#endif
if (ret == GDI_ERROR) {
delete [](char *)dataBuffer;
return false;
}
if(metric) {
// #### obey scale
*metric = glyph_metrics_t(gMetric.gmptGlyphOrigin.x, -gMetric.gmptGlyphOrigin.y,
(int)gMetric.gmBlackBoxX, (int)gMetric.gmBlackBoxY,
gMetric.gmCellIncX, gMetric.gmCellIncY);
}
int offset = 0;
int headerOffset = 0;
TTPOLYGONHEADER *ttph = 0;
QPointF oset = position.toPointF();
while (headerOffset < bufferSize) {
ttph = (TTPOLYGONHEADER*)((char *)dataBuffer + headerOffset);
QPointF lastPoint(qt_to_qpointf(ttph->pfxStart, scale));
path->moveTo(lastPoint + oset);
offset += sizeof(TTPOLYGONHEADER);
TTPOLYCURVE *curve;
while (offset<int(headerOffset + ttph->cb)) {
curve = (TTPOLYCURVE*)((char*)(dataBuffer) + offset);
switch (curve->wType) {
case TT_PRIM_LINE: {
for (int i=0; i<curve->cpfx; ++i) {
QPointF p = qt_to_qpointf(curve->apfx[i], scale) + oset;
path->lineTo(p);
}
break;
}
case TT_PRIM_QSPLINE: {
const QPainterPath::Element &elm = path->elementAt(path->elementCount()-1);
QPointF prev(elm.x, elm.y);
QPointF endPoint;
for (int i=0; i<curve->cpfx - 1; ++i) {
QPointF p1 = qt_to_qpointf(curve->apfx[i], scale) + oset;
QPointF p2 = qt_to_qpointf(curve->apfx[i+1], scale) + oset;
if (i < curve->cpfx - 2) {
endPoint = QPointF((p1.x() + p2.x()) / 2, (p1.y() + p2.y()) / 2);
} else {
endPoint = p2;
}
path->quadTo(p1, endPoint);
prev = endPoint;
}
break;
}
case TT_PRIM_CSPLINE: {
for (int i=0; i<curve->cpfx; ) {
QPointF p2 = qt_to_qpointf(curve->apfx[i++], scale) + oset;
QPointF p3 = qt_to_qpointf(curve->apfx[i++], scale) + oset;
QPointF p4 = qt_to_qpointf(curve->apfx[i++], scale) + oset;
path->cubicTo(p2, p3, p4);
}
break;
}
default:
qWarning("QFontEngineWin::addOutlineToPath, unhandled switch case");
}
offset += sizeof(TTPOLYCURVE) + (curve->cpfx-1) * sizeof(POINTFX);
}
path->closeSubpath();
headerOffset += ttph->cb;
}
delete [] (char*)dataBuffer;
return true;
}
void QFontEngineWin::addGlyphsToPath(glyph_t *glyphs, QFixedPoint *positions, int nglyphs,
QPainterPath *path, QTextItem::RenderFlags)
{
LOGFONT lf = logfont;
// The sign must be negative here to make sure we match against character height instead of
// hinted cell height. This ensures that we get linear matching, and we need this for
// paths since we later on apply a scaling transform to the glyph outline to get the
// font at the correct pixel size.
lf.lfHeight = -unitsPerEm;
lf.lfWidth = 0;
HFONT hf;
QT_WA({
hf = CreateFontIndirectW(&lf);
}, {
LOGFONTA lfa;
wa_copy_logfont(&lf, &lfa);
hf = CreateFontIndirectA(&lfa);
});
HDC hdc = shared_dc();
HGDIOBJ oldfont = SelectObject(hdc, hf);
for(int i = 0; i < nglyphs; ++i) {
if (!addGlyphToPath(glyphs[i], positions[i], hdc, path, ttf, /*metric*/0,
qreal(fontDef.pixelSize) / unitsPerEm)) {
// Some windows fonts, like "Modern", are vector stroke
// fonts, which are reported as TMPF_VECTOR but do not
// support GetGlyphOutline, and thus we set this bit so
// that addOutLineToPath can check it and return safely...
hasOutline = false;
break;
}
}
DeleteObject(SelectObject(hdc, oldfont));
}
void QFontEngineWin::addOutlineToPath(qreal x, qreal y, const QGlyphLayout &glyphs,
QPainterPath *path, QTextItem::RenderFlags flags)
{
#if !defined(Q_OS_WINCE)
if(tm.w.tmPitchAndFamily & (TMPF_TRUETYPE | TMPF_VECTOR)) {
hasOutline = true;
QFontEngine::addOutlineToPath(x, y, glyphs, path, flags);
if (hasOutline) {
// has_outline is set to false if addGlyphToPath gets
// false from GetGlyphOutline, meaning its not an outline
// font.
return;
}
}
#endif
QFontEngine::addBitmapFontToPath(x, y, glyphs, path, flags);
}
QFontEngine::FaceId QFontEngineWin::faceId() const
{
return _faceId;
}
QT_BEGIN_INCLUDE_NAMESPACE
#include <qdebug.h>
QT_END_INCLUDE_NAMESPACE
int QFontEngineWin::synthesized() const
{
if(synthesized_flags == -1) {
synthesized_flags = 0;
if(ttf) {
const DWORD HEAD = MAKE_TAG('h', 'e', 'a', 'd');
HDC hdc = shared_dc();
SelectObject(hdc, hfont);
uchar data[4];
GetFontData(hdc, HEAD, 44, &data, 4);
USHORT macStyle = getUShort(data);
if (tm.w.tmItalic && !(macStyle & 2))
synthesized_flags = SynthesizedItalic;
if (fontDef.stretch != 100 && ttf)
synthesized_flags |= SynthesizedStretch;
if (tm.w.tmWeight >= 500 && !(macStyle & 1))
synthesized_flags |= SynthesizedBold;
//qDebug() << "font is" << _name <<
// "it=" << (macStyle & 2) << fontDef.style << "flags=" << synthesized_flags;
}
}
return synthesized_flags;
}
QFixed QFontEngineWin::emSquareSize() const
{
return unitsPerEm;
}
QFontEngine::Properties QFontEngineWin::properties() const
{
LOGFONT lf = logfont;
lf.lfHeight = unitsPerEm;
HFONT hf;
QT_WA({
hf = CreateFontIndirectW(&lf);
}, {
LOGFONTA lfa;
wa_copy_logfont(&lf, &lfa);
hf = CreateFontIndirectA(&lfa);
});
HDC hdc = shared_dc();
HGDIOBJ oldfont = SelectObject(hdc, hf);
#if defined(Q_OS_WINCE)
OUTLINETEXTMETRICW *otm = getOutlineTextMetric(hdc);
#else
OUTLINETEXTMETRICA *otm = getOutlineTextMetric(hdc);
#endif
Properties p;
p.emSquare = unitsPerEm;
p.italicAngle = otm->otmItalicAngle;
p.postscriptName = (char *)otm + (int)otm->otmpFamilyName;
p.postscriptName += (char *)otm + (int)otm->otmpStyleName;
#ifndef QT_NO_PRINTER
p.postscriptName = QPdf::stripSpecialCharacters(p.postscriptName);
#endif
p.boundingBox = QRectF(otm->otmrcFontBox.left, -otm->otmrcFontBox.top,
otm->otmrcFontBox.right - otm->otmrcFontBox.left,
otm->otmrcFontBox.top - otm->otmrcFontBox.bottom);
p.ascent = otm->otmAscent;
p.descent = -otm->otmDescent;
p.leading = (int)otm->otmLineGap;
p.capHeight = 0;
p.lineWidth = otm->otmsUnderscoreSize;
free(otm);
DeleteObject(SelectObject(hdc, oldfont));
return p;
}
void QFontEngineWin::getUnscaledGlyph(glyph_t glyph, QPainterPath *path, glyph_metrics_t *metrics)
{
LOGFONT lf = logfont;
lf.lfHeight = unitsPerEm;
int flags = synthesized();
if(flags & SynthesizedItalic)
lf.lfItalic = false;
lf.lfWidth = 0;
HFONT hf;
QT_WA({
hf = CreateFontIndirectW(&lf);
}, {
LOGFONTA lfa;
wa_copy_logfont(&lf, &lfa);
hf = CreateFontIndirectA(&lfa);
});
HDC hdc = shared_dc();
HGDIOBJ oldfont = SelectObject(hdc, hf);
QFixedPoint p;
p.x = 0;
p.y = 0;
addGlyphToPath(glyph, p, hdc, path, ttf, metrics);
DeleteObject(SelectObject(hdc, oldfont));
}
bool QFontEngineWin::getSfntTableData(uint tag, uchar *buffer, uint *length) const
{
if (!ttf)
return false;
HDC hdc = shared_dc();
SelectObject(hdc, hfont);
DWORD t = qbswap<quint32>(tag);
*length = GetFontData(hdc, t, 0, buffer, *length);
return *length != GDI_ERROR;
}
#if !defined(CLEARTYPE_QUALITY)
# define CLEARTYPE_QUALITY 5
#endif
QNativeImage *QFontEngineWin::drawGDIGlyph(HFONT font, glyph_t glyph, int margin,
const QTransform &t, QImage::Format mask_format)
{
glyph_metrics_t gm = boundingBox(glyph);
// printf(" -> for glyph %4x\n", glyph);
int gx = gm.x.toInt();
int gy = gm.y.toInt();
int iw = gm.width.toInt();
int ih = gm.height.toInt();
if (iw <= 0 || iw <= 0)
return 0;
bool has_transformation = t.type() > QTransform::TxTranslate;
#ifndef Q_OS_WINCE
unsigned int options = ttf ? ETO_GLYPH_INDEX : 0;
XFORM xform;
if (has_transformation) {
xform.eM11 = t.m11();
xform.eM12 = t.m12();
xform.eM21 = t.m21();
xform.eM22 = t.m22();
xform.eDx = margin;
xform.eDy = margin;
QtHDC qthdc;
HDC hdc = qthdc.hdc();
SetGraphicsMode(hdc, GM_ADVANCED);
SetWorldTransform(hdc, &xform);
HGDIOBJ old_font = SelectObject(hdc, font);
int ggo_options = GGO_METRICS | (ttf ? GGO_GLYPH_INDEX : 0);
GLYPHMETRICS tgm;
MAT2 mat;
memset(&mat, 0, sizeof(mat));
mat.eM11.value = mat.eM22.value = 1;
int error = 0;
QT_WA( {
error = GetGlyphOutlineW(hdc, glyph, ggo_options, &tgm, 0, 0, &mat);
}, {
error = GetGlyphOutlineA(hdc, glyph, ggo_options, &tgm, 0, 0, &mat);
} );
if (error == GDI_ERROR) {
qWarning("QWinFontEngine: unable to query transformed glyph metrics...");
return 0;
}
iw = tgm.gmBlackBoxX;
ih = tgm.gmBlackBoxY;
xform.eDx -= tgm.gmptGlyphOrigin.x;
xform.eDy += tgm.gmptGlyphOrigin.y;
SetGraphicsMode(hdc, GM_COMPATIBLE);
SelectObject(hdc, old_font);
}
#else // else winc
unsigned int options = 0;
#ifdef DEBUG
Q_ASSERT(!has_transformation);
#else
Q_UNUSED(has_transformation);
#endif
#endif
QNativeImage *ni = new QNativeImage(iw + 2 * margin + 4,
ih + 2 * margin + 4,
mask_format, true);
ni->image.fill(0xffffffff);
HDC hdc = ni->hdc;
SelectObject(hdc, GetStockObject(NULL_BRUSH));
SelectObject(hdc, GetStockObject(BLACK_PEN));
SetTextColor(hdc, RGB(0,0,0));
SetBkMode(hdc, TRANSPARENT);
SetTextAlign(hdc, TA_BASELINE);
HGDIOBJ old_font = SelectObject(hdc, font);
#ifndef Q_OS_WINCE
if (has_transformation) {
SetGraphicsMode(hdc, GM_ADVANCED);
SetWorldTransform(hdc, &xform);
ExtTextOutW(hdc, 0, 0, options, 0, (LPCWSTR) &glyph, 1, 0);
} else
#endif
{
ExtTextOutW(hdc, -gx + margin, -gy + margin, options, 0, (LPCWSTR) &glyph, 1, 0);
}
SelectObject(hdc, old_font);
return ni;
}
extern bool qt_cleartype_enabled;
extern uint qt_pow_gamma[256];
QImage QFontEngineWin::alphaMapForGlyph(glyph_t glyph, const QTransform &xform)
{
HFONT font = hfont;
if (qt_cleartype_enabled) {
LOGFONT lf = logfont;
lf.lfQuality = ANTIALIASED_QUALITY;
font = CreateFontIndirectW(&lf);
}
QImage::Format mask_format = QNativeImage::systemFormat();
#ifndef Q_OS_WINCE
mask_format = QImage::Format_RGB32;
#endif
QNativeImage *mask = drawGDIGlyph(font, glyph, 0, xform, mask_format);
if (mask == 0)
return QImage();
QImage indexed(mask->width(), mask->height(), QImage::Format_Indexed8);
// ### This part is kinda pointless, but we'll crash later if we dont because some
// code paths expects there to be colortables for index8-bit...
QVector<QRgb> colors(256);
for (int i=0; i<256; ++i)
colors[i] = qRgba(0, 0, 0, i);
indexed.setColorTable(colors);
// Copy data... Cannot use QPainter here as GDI has messed up the
// Alpha channel of the ni.image pixels...
for (int y=0; y<mask->height(); ++y) {
uchar *dest = indexed.scanLine(y);
if (mask->image.format() == QImage::Format_RGB16) {
const qint16 *src = (qint16 *) ((const QImage &) mask->image).scanLine(y);
for (int x=0; x<mask->width(); ++x)
dest[x] = 255 - qGray(src[x]);
} else {
const uint *src = (uint *) ((const QImage &) mask->image).scanLine(y);
for (int x=0; x<mask->width(); ++x) {
#ifdef Q_OS_WINCE
dest[x] = 255 - qGray(src[x]);
#else
if (QNativeImage::systemFormat() == QImage::Format_RGB16)
dest[x] = 255 - qGray(src[x]);
else
dest[x] = 255 - (qt_pow_gamma[qGray(src[x])] * 255. / 2047.);
#endif
}
}
}
// Cleanup...
delete mask;
if (qt_cleartype_enabled) {
DeleteObject(font);
}
return indexed;
}
#define SPI_GETFONTSMOOTHINGCONTRAST 0x200C
#define SPI_SETFONTSMOOTHINGCONTRAST 0x200D
QImage QFontEngineWin::alphaRGBMapForGlyph(glyph_t glyph, int margin, const QTransform &t)
{
HFONT font = hfont;
int contrast;
SystemParametersInfo(SPI_GETFONTSMOOTHINGCONTRAST, 0, &contrast, 0);
SystemParametersInfo(SPI_SETFONTSMOOTHINGCONTRAST, 0, (void *) 1000, 0);
QNativeImage *mask = drawGDIGlyph(font, glyph, margin, t, QImage::Format_RGB32);
SystemParametersInfo(SPI_SETFONTSMOOTHINGCONTRAST, 0, (void *) contrast, 0);
if (mask == 0)
return QImage();
// Gracefully handle the odd case when the display is 16-bit
const QImage source = mask->image.depth() == 32
? mask->image
: mask->image.convertToFormat(QImage::Format_RGB32);
QImage rgbMask(mask->width(), mask->height(), QImage::Format_RGB32);
for (int y=0; y<mask->height(); ++y) {
uint *dest = (uint *) rgbMask.scanLine(y);
const uint *src = (uint *) source.scanLine(y);
for (int x=0; x<mask->width(); ++x) {
dest[x] = 0xffffffff - (0x00ffffff & src[x]);
}
}
delete mask;
return rgbMask;
}
// -------------------------------------- Multi font engine
QFontEngineMultiWin::QFontEngineMultiWin(QFontEngineWin *first, const QStringList &fallbacks)
: QFontEngineMulti(fallbacks.size()+1),
fallbacks(fallbacks)
{
engines[0] = first;
first->ref.ref();
fontDef = engines[0]->fontDef;
}
void QFontEngineMultiWin::loadEngine(int at)
{
Q_ASSERT(at < engines.size());
Q_ASSERT(engines.at(at) == 0);
QString fam = fallbacks.at(at-1);
LOGFONT lf = static_cast<QFontEngineWin *>(engines.at(0))->logfont;
HFONT hfont;
QT_WA({
memcpy(lf.lfFaceName, fam.utf16(), sizeof(TCHAR)*qMin(fam.length()+1,32)); // 32 = Windows hard-coded
hfont = CreateFontIndirectW(&lf);
} , {
// LOGFONTA and LOGFONTW are binary compatible
QByteArray lname = fam.toLocal8Bit();
memcpy(lf.lfFaceName,lname.data(),
qMin(lname.length()+1,32)); // 32 = Windows hard-coded
hfont = CreateFontIndirectA((LOGFONTA*)&lf);
});
bool stockFont = false;
if (hfont == 0) {
hfont = (HFONT)GetStockObject(ANSI_VAR_FONT);
stockFont = true;
}
engines[at] = new QFontEngineWin(fam, hfont, stockFont, lf);
engines[at]->ref.ref();
engines[at]->fontDef = fontDef;
}
QT_END_NAMESPACE
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