/**************************************************************************** ** ** Copyright (C) 2011 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. ** ** $QT_BEGIN_LICENSE:LGPL$ ** GNU Lesser General Public License Usage ** This file may be used under the terms of the GNU Lesser General Public ** License version 2.1 as published by the Free Software Foundation and ** appearing in the file LICENSE.LGPL included in the packaging of this ** file. Please review the following information to ensure the GNU Lesser ** General Public License version 2.1 requirements will be met: ** http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain additional ** rights. These rights are described in the Nokia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU General ** Public License version 3.0 as published by the Free Software Foundation ** and appearing in the file LICENSE.GPL included in the packaging of this ** file. Please review the following information to ensure the GNU General ** Public License version 3.0 requirements will be met: ** http://www.gnu.org/copyleft/gpl.html. ** ** Other Usage ** Alternatively, this file may be used in accordance with the terms and ** conditions contained in a signed written agreement between you and Nokia. ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qfontengine_qpf_p.h" #include "private/qpaintengine_raster_p.h" #include #include #include #include #include #if !defined(QT_NO_FREETYPE) #include "private/qfontengine_ft_p.h" #endif #include "private/qcore_unix_p.h" // overrides QT_OPEN // for mmap #include #include #include #include #include #include #include QT_BEGIN_NAMESPACE #ifndef QT_NO_QWS_QPF2 #include "qpfutil.cpp" QT_BEGIN_INCLUDE_NAMESPACE #if defined(Q_WS_QWS) # include "private/qwscommand_qws_p.h" # include "qwsdisplay_qws.h" # include "qabstractfontengine_p.h" #endif #include "qplatformdefs.h" QT_END_INCLUDE_NAMESPACE //#define DEBUG_HEADER //#define DEBUG_FONTENGINE #if defined(DEBUG_HEADER) # define DEBUG_VERIFY qDebug #else # define DEBUG_VERIFY if (0) qDebug #endif #define READ_VERIFY(type, variable) \ if (tagPtr + sizeof(type) > endPtr) { \ DEBUG_VERIFY() << "read verify failed in line" << __LINE__; \ return 0; \ } \ variable = qFromBigEndian(tagPtr); \ DEBUG_VERIFY() << "read value" << variable << "of type " #type; \ tagPtr += sizeof(type) template T readValue(const uchar *&data) { T value = qFromBigEndian(data); data += sizeof(T); return value; } #define VERIFY(condition) \ if (!(condition)) { \ DEBUG_VERIFY() << "condition " #condition " failed in line" << __LINE__; \ return 0; \ } #define VERIFY_TAG(condition) \ if (!(condition)) { \ DEBUG_VERIFY() << "verifying tag condition " #condition " failed in line" << __LINE__ << "with tag" << tag; \ return 0; \ } static inline const uchar *verifyTag(const uchar *tagPtr, const uchar *endPtr) { quint16 tag, length; READ_VERIFY(quint16, tag); READ_VERIFY(quint16, length); if (tag == QFontEngineQPF::Tag_EndOfHeader) return endPtr; if (tag < QFontEngineQPF::NumTags) { switch (tagTypes[tag]) { case QFontEngineQPF::BitFieldType: case QFontEngineQPF::StringType: // can't do anything... break; case QFontEngineQPF::UInt32Type: VERIFY_TAG(length == sizeof(quint32)); break; case QFontEngineQPF::FixedType: VERIFY_TAG(length == sizeof(quint32)); break; case QFontEngineQPF::UInt8Type: VERIFY_TAG(length == sizeof(quint8)); break; } #if defined(DEBUG_HEADER) if (length == 1) qDebug() << "tag data" << hex << *tagPtr; else if (length == 4) qDebug() << "tag data" << hex << tagPtr[0] << tagPtr[1] << tagPtr[2] << tagPtr[3]; #endif } return tagPtr + length; } const QFontEngineQPF::Glyph *QFontEngineQPF::findGlyph(glyph_t g) const { if (!g || g >= glyphMapEntries) return 0; const quint32 *gmapPtr = reinterpret_cast(fontData + glyphMapOffset); quint32 glyphPos = qFromBigEndian(gmapPtr[g]); if (glyphPos > glyphDataSize) { if (glyphPos == 0xffffffff) return 0; #if defined(DEBUG_FONTENGINE) qDebug() << "glyph" << g << "outside of glyphData, remapping font file"; #endif #if !defined(QT_NO_FREETYPE) && !defined(QT_FONTS_ARE_RESOURCES) const_cast(this)->remapFontData(); #endif if (glyphPos > glyphDataSize) return 0; } return reinterpret_cast(fontData + glyphDataOffset + glyphPos); } bool QFontEngineQPF::verifyHeader(const uchar *data, int size) { VERIFY(size >= int(sizeof(Header))); const Header *header = reinterpret_cast(data); if (header->magic[0] != 'Q' || header->magic[1] != 'P' || header->magic[2] != 'F' || header->magic[3] != '2') return false; VERIFY(header->majorVersion <= CurrentMajorVersion); const quint16 dataSize = qFromBigEndian(header->dataSize); VERIFY(size >= int(sizeof(Header)) + dataSize); const uchar *tagPtr = data + sizeof(Header); const uchar *tagEndPtr = tagPtr + dataSize; while (tagPtr < tagEndPtr - 3) { tagPtr = verifyTag(tagPtr, tagEndPtr); VERIFY(tagPtr); } VERIFY(tagPtr <= tagEndPtr); return true; } QVariant QFontEngineQPF::extractHeaderField(const uchar *data, HeaderTag requestedTag) { const Header *header = reinterpret_cast(data); const uchar *tagPtr = data + sizeof(Header); const uchar *endPtr = tagPtr + qFromBigEndian(header->dataSize); while (tagPtr < endPtr - 3) { quint16 tag = readValue(tagPtr); quint16 length = readValue(tagPtr); if (tag == requestedTag) { switch (tagTypes[requestedTag]) { case StringType: return QVariant(QString::fromUtf8(reinterpret_cast(tagPtr), length)); case UInt32Type: return QVariant(readValue(tagPtr)); case UInt8Type: return QVariant(uint(*tagPtr)); case FixedType: return QVariant(QFixed::fromFixed(readValue(tagPtr)).toReal()); case BitFieldType: return QVariant(QByteArray(reinterpret_cast(tagPtr), length)); } return QVariant(); } else if (tag == Tag_EndOfHeader) { break; } tagPtr += length; } return QVariant(); } #endif // QT_NO_QWS_QPF2 QString qws_fontCacheDir() { QString dir; #if defined(Q_WS_QWS) extern QString qws_dataDir(); dir = qws_dataDir(); #else dir = QDir::tempPath(); #endif dir.append(QLatin1String("/fonts/")); QDir qd(dir); if (!qd.exists() && !qd.mkpath(dir)) dir = QDir::tempPath(); return dir; } #ifndef QT_NO_QWS_QPF2 #ifndef QT_FONTS_ARE_RESOURCES QList QFontEngineQPF::cleanUpAfterClientCrash(const QList &crashedClientIds) { QList removedFonts; QDir dir(qws_fontCacheDir(), QLatin1String("*.qsf")); foreach (const QFileInfo &fi, dir.entryInfoList()) { const QByteArray fileName = QFile::encodeName(fi.absoluteFilePath()); int fd = QT_OPEN(fileName.constData(), O_RDONLY, 0); if (fd >= 0) { void *header = ::mmap(0, sizeof(QFontEngineQPF::Header), PROT_READ, MAP_SHARED, fd, 0); if (header && header != MAP_FAILED) { quint32 lockValue = reinterpret_cast(header)->lock; if (lockValue && crashedClientIds.contains(lockValue)) { removedFonts.append(fileName); QFile::remove(QFile::decodeName(fileName)); } ::munmap(header, sizeof(QFontEngineQPF::Header)); } QT_CLOSE(fd); } } if (!removedFonts.isEmpty()) qDebug() << "list of corrupted and removed fonts:" << removedFonts; return removedFonts; } #endif static inline unsigned int getChar(const QChar *str, int &i, const int len) { uint ucs4 = str[i].unicode(); if (str[i].isHighSurrogate() && i < len-1 && str[i+1].isLowSurrogate()) { ++i; ucs4 = QChar::surrogateToUcs4(ucs4, str[i].unicode()); } return ucs4; } #ifdef QT_FONTS_ARE_RESOURCES QFontEngineQPF::QFontEngineQPF(const QFontDef &def, const uchar *bytes, int size) : fd(-1), fontData(bytes), dataSize(size), renderingFontEngine(0) #else QFontEngineQPF::QFontEngineQPF(const QFontDef &def, int fileDescriptor, QFontEngine *fontEngine) : fd(fileDescriptor), fontData(0), dataSize(0), renderingFontEngine(fontEngine) #endif { fontDef = def; cache_cost = 100; freetype = 0; externalCMap = 0; cmapOffset = 0; cmapSize = 0; glyphMapOffset = 0; glyphMapEntries = 0; glyphDataOffset = 0; glyphDataSize = 0; if (renderingFontEngine) glyphFormat = renderingFontEngine->glyphFormat; kerning_pairs_loaded = false; readOnly = true; #if defined(DEBUG_FONTENGINE) qDebug() << "QFontEngineQPF::QFontEngineQPF( fd =" << fd << ", renderingFontEngine =" << renderingFontEngine << ')'; #endif #ifndef QT_FONTS_ARE_RESOURCES if (fd < 0) { if (!renderingFontEngine) return; fileName = fontDef.family.toLower() + QLatin1Char('_') + QString::number(fontDef.pixelSize) + QLatin1Char('_') + QString::number(fontDef.weight) + (fontDef.style != QFont::StyleNormal ? QLatin1String("_italic") : QLatin1String("")) + QLatin1String(".qsf"); fileName.replace(QLatin1Char(' '), QLatin1Char('_')); fileName.prepend(qws_fontCacheDir()); encodedFileName = QFile::encodeName(fileName); if (::access(encodedFileName, F_OK) == 0) { #if defined(DEBUG_FONTENGINE) qDebug() << "found existing qpf:" << fileName; #endif if (::access(encodedFileName, W_OK | R_OK) == 0) { fd = QT_OPEN(encodedFileName, O_RDWR); } // read-write access failed - try read-only access if (fd == -1 && ::access(encodedFileName, R_OK) == 0) { fd = QT_OPEN(encodedFileName, O_RDONLY); if (fd == -1) { #if defined(DEBUG_FONTENGINE) qErrnoWarning("QFontEngineQPF: unable to open %s", encodedFileName.constData()); #endif return; } } if (fd == -1) { #if defined(DEBUG_FONTENGINE) qWarning("QFontEngineQPF: insufficient access rights to %s", encodedFileName.constData()); #endif return; } } else { #if defined(DEBUG_FONTENGINE) qDebug() << "creating qpf on the fly:" << fileName; #endif if (::access(QFile::encodeName(qws_fontCacheDir()), W_OK) == 0) { fd = QT_OPEN(encodedFileName, O_RDWR | O_EXCL | O_CREAT, 0644); if (fd == -1) { #if defined(DEBUG_FONTENGINE) qErrnoWarning(errno, "QFontEngineQPF: open() failed for %s", encodedFileName.constData()); #endif return; } QBuffer buffer; buffer.open(QIODevice::ReadWrite); QPFGenerator generator(&buffer, renderingFontEngine); generator.generate(); buffer.close(); const QByteArray &data = buffer.data(); if (QT_WRITE(fd, data.constData(), data.size()) == -1) { #if defined(DEBUG_FONTENGINE) qErrnoWarning(errno, "QFontEngineQPF: write() failed for %s", encodedFileName.constData()); #endif return; } } else { #if defined(DEBUG_FONTENGINE) qErrnoWarning(errno, "QFontEngineQPF: access() failed for %s", qPrintable(qws_fontCacheDir())); #endif return; } } } QT_STATBUF st; if (QT_FSTAT(fd, &st)) { #if defined(DEBUG_FONTENGINE) qErrnoWarning(errno, "QFontEngineQPF: fstat failed!"); #endif return; } dataSize = st.st_size; fontData = (const uchar *)::mmap(0, st.st_size, PROT_READ | (renderingFontEngine ? PROT_WRITE : 0), MAP_SHARED, fd, 0); if (!fontData || fontData == (const uchar *)MAP_FAILED) { #if defined(DEBUG_FONTENGINE) perror("mmap failed"); #endif fontData = 0; return; } #endif //QT_FONTS_ARE_RESOURCES if (!verifyHeader(fontData, dataSize)) { #if defined(DEBUG_FONTENGINE) qDebug() << "verifyHeader failed!"; #endif return; } const Header *header = reinterpret_cast(fontData); readOnly = (header->lock == 0xffffffff); const uchar *data = fontData + sizeof(Header) + qFromBigEndian(header->dataSize); const uchar *endPtr = fontData + dataSize; while (data <= endPtr - 8) { quint16 blockTag = readValue(data); data += 2; // skip padding quint32 blockSize = readValue(data); if (blockTag == CMapBlock) { cmapOffset = data - fontData; cmapSize = blockSize; } else if (blockTag == GMapBlock) { glyphMapOffset = data - fontData; glyphMapEntries = blockSize / 4; } else if (blockTag == GlyphBlock) { glyphDataOffset = data - fontData; glyphDataSize = blockSize; } data += blockSize; } face_id.filename = QFile::encodeName(extractHeaderField(fontData, Tag_FileName).toString()); face_id.index = extractHeaderField(fontData, Tag_FileIndex).toInt(); #if !defined(QT_NO_FREETYPE) && !defined(QT_FONTS_ARE_RESOURCES) freetype = QFreetypeFace::getFace(face_id); if (!freetype) { QString newPath = #ifndef QT_NO_SETTINGS QLibraryInfo::location(QLibraryInfo::LibrariesPath) + #endif QLatin1String("/fonts/") + QFileInfo(QFile::decodeName(face_id.filename)).fileName(); face_id.filename = QFile::encodeName(newPath); freetype = QFreetypeFace::getFace(face_id); } if (freetype) { const quint32 qpfTtfRevision = extractHeaderField(fontData, Tag_FontRevision).toUInt(); uchar data[4]; uint length = 4; bool ok = freetype->getSfntTable(MAKE_TAG('h', 'e', 'a', 'd'), data, &length); if (!ok || length != 4 || qFromBigEndian(data) != qpfTtfRevision) { freetype->release(face_id); freetype = 0; } } if (!cmapOffset && freetype) { freetypeCMapTable = getSfntTable(MAKE_TAG('c', 'm', 'a', 'p')); externalCMap = reinterpret_cast(freetypeCMapTable.constData()); cmapSize = freetypeCMapTable.size(); } #endif // get the real cmap if (cmapOffset) { int tableSize = cmapSize; const uchar *cmapPtr = getCMap(fontData + cmapOffset, tableSize, &symbol, &cmapSize); if (cmapPtr) cmapOffset = cmapPtr - fontData; else cmapOffset = 0; } else if (externalCMap) { int tableSize = cmapSize; externalCMap = getCMap(externalCMap, tableSize, &symbol, &cmapSize); } // verify all the positions in the glyphMap if (glyphMapOffset) { const quint32 *gmapPtr = reinterpret_cast(fontData + glyphMapOffset); for (uint i = 0; i < glyphMapEntries; ++i) { quint32 glyphDataPos = qFromBigEndian(gmapPtr[i]); if (glyphDataPos == 0xffffffff) continue; if (glyphDataPos >= glyphDataSize) { // error glyphMapOffset = 0; glyphMapEntries = 0; break; } } } #if defined(DEBUG_FONTENGINE) if (!isValid()) qDebug() << "fontData" << fontData << "dataSize" << dataSize << "externalCMap" << externalCMap << "cmapOffset" << cmapOffset << "glyphMapOffset" << glyphMapOffset << "glyphDataOffset" << glyphDataOffset << "fd" << fd << "glyphDataSize" << glyphDataSize; #endif #if defined(Q_WS_QWS) if (isValid() && renderingFontEngine) qt_fbdpy->sendFontCommand(QWSFontCommand::StartedUsingFont, encodedFileName); #endif } QFontEngineQPF::~QFontEngineQPF() { #if defined(Q_WS_QWS) if (isValid() && renderingFontEngine) { QT_TRY { qt_fbdpy->sendFontCommand(QWSFontCommand::StoppedUsingFont, encodedFileName); } QT_CATCH(...) { qDebug("QFontEngineQPF::~QFontEngineQPF: Out of memory"); // ignore. } } #endif delete renderingFontEngine; if (fontData) { if (munmap((void *)fontData, dataSize) == -1) { #if defined(DEBUG_FONTENGINE) qErrnoWarning(errno, "~QFontEngineQPF: Unable to munmap"); #endif } } if (fd != -1) ::close(fd); #if !defined(QT_NO_FREETYPE) if (freetype) freetype->release(face_id); #endif } bool QFontEngineQPF::getSfntTableData(uint tag, uchar *buffer, uint *length) const { #if !defined(QT_NO_FREETYPE) if (freetype) return freetype->getSfntTable(tag, buffer, length); #endif Q_UNUSED(tag); Q_UNUSED(buffer); *length = 0; return false; } bool QFontEngineQPF::stringToCMap(const QChar *str, int len, QGlyphLayout *glyphs, int *nglyphs, QTextEngine::ShaperFlags flags) const { if (!externalCMap && !cmapOffset && renderingFontEngine) { if (!renderingFontEngine->stringToCMap(str, len, glyphs, nglyphs, flags)) return false; #ifndef QT_NO_FREETYPE const_cast(this)->ensureGlyphsLoaded(*glyphs); #endif return true; } if (*nglyphs < len) { *nglyphs = len; return false; } #if defined(DEBUG_FONTENGINE) QSet seenGlyphs; #endif const uchar *cmap = externalCMap ? externalCMap : (fontData + cmapOffset); bool mirrored = flags & QTextEngine::RightToLeft; int glyph_pos = 0; if (symbol) { for (int i = 0; i < len; ++i) { unsigned int uc = getChar(str, i, len); glyphs->glyphs[glyph_pos] = getTrueTypeGlyphIndex(cmap, uc); if(!glyphs->glyphs[glyph_pos] && uc < 0x100) glyphs->glyphs[glyph_pos] = getTrueTypeGlyphIndex(cmap, uc + 0xf000); ++glyph_pos; } } else { for (int i = 0; i < len; ++i) { unsigned int uc = getChar(str, i, len); if (mirrored) uc = QChar::mirroredChar(uc); glyphs->glyphs[glyph_pos] = getTrueTypeGlyphIndex(cmap, uc); #if 0 && defined(DEBUG_FONTENGINE) QChar c(uc); if (!findGlyph(glyphs[glyph_pos].glyph) && !seenGlyphs.contains(c)) qDebug() << "glyph for character" << c << '/' << hex << uc << "is" << dec << glyphs[glyph_pos].glyph; seenGlyphs.insert(c); #endif ++glyph_pos; } } *nglyphs = glyph_pos; glyphs->numGlyphs = glyph_pos; recalcAdvances(glyphs, flags); return true; } void QFontEngineQPF::recalcAdvances(QGlyphLayout *glyphs, QTextEngine::ShaperFlags) const { #ifndef QT_NO_FREETYPE const_cast(this)->ensureGlyphsLoaded(*glyphs); #endif for (int i = 0; i < glyphs->numGlyphs; ++i) { const Glyph *g = findGlyph(glyphs->glyphs[i]); if (!g) { glyphs->glyphs[i] = 0; continue; } glyphs->advances_x[i] = g->advance; glyphs->advances_y[i] = 0; } } QImage QFontEngineQPF::alphaMapForGlyph(glyph_t g) { const Glyph *glyph = findGlyph(g); if (!glyph) return QImage(); const uchar *bits = ((const uchar *) glyph) + sizeof(Glyph); QImage image(glyph->width, glyph->height, QImage::Format_Indexed8); for (int j=0; j<256; ++j) image.setColor(j, qRgba(0, 0, 0, j)); for (int i=0; iheight; ++i) { memcpy(image.scanLine(i), bits, glyph->bytesPerLine); bits += glyph->bytesPerLine; } return image; } void QFontEngineQPF::draw(QPaintEngine *p, qreal _x, qreal _y, const QTextItemInt &si) { QPaintEngineState *pState = p->state; QRasterPaintEngine *paintEngine = static_cast(p); QTransform matrix = pState->transform(); matrix.translate(_x, _y); QFixed x = QFixed::fromReal(matrix.dx()); QFixed y = QFixed::fromReal(matrix.dy()); QVarLengthArray positions; QVarLengthArray glyphs; getGlyphPositions(si.glyphs, matrix, si.flags, glyphs, positions); if (glyphs.size() == 0) return; for(int i = 0; i < glyphs.size(); i++) { const Glyph *glyph = findGlyph(glyphs[i]); if (!glyph) continue; const int depth = 8; //### paintEngine->alphaPenBlt(reinterpret_cast(glyph) + sizeof(Glyph), glyph->bytesPerLine, depth, qRound(positions[i].x) + glyph->x, qRound(positions[i].y) + glyph->y, glyph->width, glyph->height); } } void QFontEngineQPF::addOutlineToPath(qreal x, qreal y, const QGlyphLayout &glyphs, QPainterPath *path, QTextItem::RenderFlags flags) { if (renderingFontEngine && (renderingFontEngine->type() != QFontEngine::Proxy || static_cast(renderingFontEngine)->capabilities() & QAbstractFontEngine::CanOutlineGlyphs)) { renderingFontEngine->addOutlineToPath(x, y, glyphs, path, flags); return; } addBitmapFontToPath(x, y, glyphs, path, flags); } glyph_metrics_t QFontEngineQPF::boundingBox(const QGlyphLayout &glyphs) { #ifndef QT_NO_FREETYPE const_cast(this)->ensureGlyphsLoaded(glyphs); #endif glyph_metrics_t overall; // initialize with line height, we get the same behaviour on all platforms overall.y = -ascent(); overall.height = ascent() + descent() + 1; QFixed ymax = 0; QFixed xmax = 0; for (int i = 0; i < glyphs.numGlyphs; i++) { const Glyph *g = findGlyph(glyphs.glyphs[i]); if (!g) continue; QFixed x = overall.xoff + glyphs.offsets[i].x + g->x; QFixed y = overall.yoff + glyphs.offsets[i].y + g->y; overall.x = qMin(overall.x, x); overall.y = qMin(overall.y, y); xmax = qMax(xmax, x + g->width); ymax = qMax(ymax, y + g->height); overall.xoff += g->advance; } overall.height = qMax(overall.height, ymax - overall.y); overall.width = xmax - overall.x; return overall; } glyph_metrics_t QFontEngineQPF::boundingBox(glyph_t glyph) { #ifndef QT_NO_FREETYPE { QGlyphLayoutArray<1> tmp; tmp.glyphs[0] = glyph; const_cast(this)->ensureGlyphsLoaded(tmp); } #endif glyph_metrics_t overall; const Glyph *g = findGlyph(glyph); if (!g) return overall; overall.x = g->x; overall.y = g->y; overall.width = g->width; overall.height = g->height; overall.xoff = g->advance; return overall; } QFixed QFontEngineQPF::ascent() const { return QFixed::fromReal(extractHeaderField(fontData, Tag_Ascent).value()); } QFixed QFontEngineQPF::descent() const { return QFixed::fromReal(extractHeaderField(fontData, Tag_Descent).value()); } QFixed QFontEngineQPF::leading() const { return QFixed::fromReal(extractHeaderField(fontData, Tag_Leading).value()); } qreal QFontEngineQPF::maxCharWidth() const { return extractHeaderField(fontData, Tag_MaxCharWidth).value(); } qreal QFontEngineQPF::minLeftBearing() const { return extractHeaderField(fontData, Tag_MinLeftBearing).value(); } qreal QFontEngineQPF::minRightBearing() const { return extractHeaderField(fontData, Tag_MinRightBearing).value(); } QFixed QFontEngineQPF::underlinePosition() const { return QFixed::fromReal(extractHeaderField(fontData, Tag_UnderlinePosition).value()); } QFixed QFontEngineQPF::lineThickness() const { return QFixed::fromReal(extractHeaderField(fontData, Tag_LineThickness).value()); } QFontEngine::Type QFontEngineQPF::type() const { return QFontEngine::QPF2; } bool QFontEngineQPF::canRender(const QChar *string, int len) { const uchar *cmap = externalCMap ? externalCMap : (fontData + cmapOffset); if (symbol) { for (int i = 0; i < len; ++i) { unsigned int uc = getChar(string, i, len); glyph_t g = getTrueTypeGlyphIndex(cmap, uc); if(!g && uc < 0x100) g = getTrueTypeGlyphIndex(cmap, uc + 0xf000); if (!g) return false; } } else { for (int i = 0; i < len; ++i) { unsigned int uc = getChar(string, i, len); if (!getTrueTypeGlyphIndex(cmap, uc)) return false; } } return true; } bool QFontEngineQPF::isValid() const { return fontData && dataSize && (cmapOffset || externalCMap || renderingFontEngine) && glyphMapOffset && glyphDataOffset && (fd >= 0 || glyphDataSize > 0); } #if !defined(QT_NO_FREETYPE) FT_Face QFontEngineQPF::lockFace() const { Q_ASSERT(freetype); freetype->lock(); FT_Face face = freetype->face; // ### not perfect const int ysize = qRound(fontDef.pixelSize * qreal(64)); const int xsize = ysize; if (freetype->xsize != xsize || freetype->ysize != ysize) { FT_Set_Char_Size(face, xsize, ysize, 0, 0); freetype->xsize = xsize; freetype->ysize = ysize; } FT_Matrix identityMatrix; identityMatrix.xx = 0x10000; identityMatrix.yy = 0x10000; identityMatrix.xy = 0; identityMatrix.yx = 0; if (freetype->matrix.xx != identityMatrix.xx || freetype->matrix.yy != identityMatrix.yy || freetype->matrix.xy != identityMatrix.xy || freetype->matrix.yx != identityMatrix.yx) { freetype->matrix = identityMatrix; FT_Set_Transform(face, &freetype->matrix, 0); } return face; } void QFontEngineQPF::unlockFace() const { freetype->unlock(); } void QFontEngineQPF::doKerning(QGlyphLayout *g, QTextEngine::ShaperFlags flags) const { if (!kerning_pairs_loaded) { kerning_pairs_loaded = true; if (freetype) { lockFace(); if (freetype->face->size->metrics.x_ppem != 0) { QFixed scalingFactor(freetype->face->units_per_EM/freetype->face->size->metrics.x_ppem); unlockFace(); const_cast(this)->loadKerningPairs(scalingFactor); } else { unlockFace(); } } } QFontEngine::doKerning(g, flags); } HB_Error QFontEngineQPF::getPointInOutline(HB_Glyph glyph, int flags, hb_uint32 point, HB_Fixed *xpos, HB_Fixed *ypos, hb_uint32 *nPoints) { if (!freetype) return HB_Err_Not_Covered; lockFace(); HB_Error result = freetype->getPointInOutline(glyph, flags, point, xpos, ypos, nPoints); unlockFace(); return result; } QFixed QFontEngineQPF::emSquareSize() const { if (!freetype) return QFontEngine::emSquareSize(); if (FT_IS_SCALABLE(freetype->face)) return freetype->face->units_per_EM; else return freetype->face->size->metrics.y_ppem; } void QFontEngineQPF::ensureGlyphsLoaded(const QGlyphLayout &glyphs) { if (readOnly) return; bool locked = false; for (int i = 0; i < glyphs.numGlyphs; ++i) { if (!glyphs.glyphs[i]) continue; const Glyph *g = findGlyph(glyphs.glyphs[i]); if (g) continue; if (!locked) { if (!lockFile()) return; locked = true; g = findGlyph(glyphs.glyphs[i]); if (g) continue; } loadGlyph(glyphs.glyphs[i]); } if (locked) { unlockFile(); #if defined(DEBUG_FONTENGINE) qDebug() << "Finished rendering glyphs\n"; #endif } } void QFontEngineQPF::loadGlyph(glyph_t glyph) { quint32 glyphPos = ~0; if (!renderingFontEngine) return; QImage img = renderingFontEngine->alphaMapForGlyph(glyph); if (img.format() != QImage::Format_Indexed8) { bool mono = img.depth() == 1; img = img.convertToFormat(QImage::Format_Indexed8); if (mono) { //### we know that 1 is opaque and 0 is transparent uchar *byte = img.bits(); int count = img.byteCount(); while (count--) *byte++ *= 0xff; } } glyph_metrics_t metrics = renderingFontEngine->boundingBox(glyph); renderingFontEngine->removeGlyphFromCache(glyph); off_t oldSize = ::lseek(fd, 0, SEEK_END); if (oldSize == (off_t)-1) return; Glyph g; g.width = img.width(); g.height = img.height(); g.bytesPerLine = img.bytesPerLine(); g.x = qRound(metrics.x); g.y = qRound(metrics.y); g.advance = qRound(metrics.xoff); QT_WRITE(fd, &g, sizeof(g)); QT_WRITE(fd, img.bits(), img.byteCount()); glyphPos = oldSize - glyphDataOffset; #if 0 && defined(DEBUG_FONTENGINE) qDebug() << "glyphPos for new glyph" << glyph << "is" << glyphPos << "oldSize" << oldSize << "glyphDataOffset" << glyphDataOffset; #endif quint32 *gmap = (quint32 *)(fontData + glyphMapOffset); gmap[glyph] = qToBigEndian(glyphPos); glyphDataSize = glyphPos + sizeof(g) + img.byteCount(); quint32 *blockSizePtr = (quint32 *)(fontData + glyphDataOffset - 4); *blockSizePtr = qToBigEndian(glyphDataSize); } bool QFontEngineQPF::lockFile() { // #### this does not handle the case when the process holding the // lock hangs for some reason struct flock lock; lock.l_type = F_WRLCK; lock.l_whence = SEEK_SET; lock.l_start = 0; lock.l_len = 0; // lock the whole file while (fcntl(fd, F_SETLKW, &lock) != 0) { if (errno == EINTR) continue; perror("locking qpf"); return false; } Header *header = (Header *)fontData; if (header->lock) { lock.l_type = F_UNLCK; if (fcntl(fd, F_SETLK, &lock) != 0) perror("unlocking possibly corrupt qpf"); return false; } #if defined(Q_WS_QWS) extern int qws_client_id; // qws_client_id == 0 means we're the server. in this case we just // set the id to 1 header->lock = qws_client_id ? qws_client_id : 1; #else header->lock = 1; #endif return true; } void QFontEngineQPF::unlockFile() { ((Header *)fontData)->lock = 0; struct flock lock; lock.l_type = F_UNLCK; lock.l_whence = SEEK_SET; lock.l_start = 0; lock.l_len = 0; // lock the whole file if (fcntl(fd, F_SETLK, &lock) != 0) { perror("unlocking qpf"); } remapFontData(); } void QFontEngineQPF::remapFontData() { off_t newFileSize = ::lseek(fd, 0, SEEK_END); if (newFileSize == (off_t)-1) { #ifdef DEBUG_FONTENGINE perror("QFontEngineQPF::remapFontData: lseek failed"); #endif fontData = 0; return; } #ifndef QT_NO_MREMAP fontData = static_cast(::mremap(const_cast(fontData), dataSize, newFileSize, MREMAP_MAYMOVE)); if (!fontData || fontData == (const uchar *)MAP_FAILED) { # if defined(DEBUG_FONTENGINE) perror("QFontEngineQPF::remapFontData(): mremap failed"); # endif fontData = 0; } if (!fontData) #endif // QT_NO_MREMAP { int status = ::munmap((void *)fontData, dataSize); if (status != 0) qErrnoWarning(status, "QFontEngineQPF::remapFomrData: munmap failed!"); fontData = (const uchar *)::mmap(0, newFileSize, PROT_READ | (renderingFontEngine ? PROT_WRITE : 0), MAP_SHARED, fd, 0); if (!fontData || fontData == (const uchar *)MAP_FAILED) { # if defined(DEBUG_FONTENGINE) perror("mmap failed"); # endif fontData = 0; return; } } dataSize = newFileSize; glyphDataSize = newFileSize - glyphDataOffset; #if defined(DEBUG_FONTENGINE) qDebug() << "remapped the font file to" << newFileSize << "bytes"; #endif } #endif // QT_NO_FREETYPE void QPFGenerator::generate() { writeHeader(); writeGMap(); writeBlock(QFontEngineQPF::GlyphBlock, QByteArray()); dev->seek(4); // position of header.lock writeUInt32(0); } void QPFGenerator::writeHeader() { QFontEngineQPF::Header header; header.magic[0] = 'Q'; header.magic[1] = 'P'; header.magic[2] = 'F'; header.magic[3] = '2'; header.lock = 1; header.majorVersion = QFontEngineQPF::CurrentMajorVersion; header.minorVersion = QFontEngineQPF::CurrentMinorVersion; header.dataSize = 0; dev->write((const char *)&header, sizeof(header)); writeTaggedString(QFontEngineQPF::Tag_FontName, fe->fontDef.family.toUtf8()); QFontEngine::FaceId face = fe->faceId(); writeTaggedString(QFontEngineQPF::Tag_FileName, face.filename); writeTaggedUInt32(QFontEngineQPF::Tag_FileIndex, face.index); { uchar data[4]; uint len = 4; bool ok = fe->getSfntTableData(MAKE_TAG('h', 'e', 'a', 'd'), data, &len); if (ok) { const quint32 revision = qFromBigEndian(data); writeTaggedUInt32(QFontEngineQPF::Tag_FontRevision, revision); } } writeTaggedQFixed(QFontEngineQPF::Tag_Ascent, fe->ascent()); writeTaggedQFixed(QFontEngineQPF::Tag_Descent, fe->descent()); writeTaggedQFixed(QFontEngineQPF::Tag_Leading, fe->leading()); writeTaggedQFixed(QFontEngineQPF::Tag_XHeight, fe->xHeight()); writeTaggedQFixed(QFontEngineQPF::Tag_AverageCharWidth, fe->averageCharWidth()); writeTaggedQFixed(QFontEngineQPF::Tag_MaxCharWidth, QFixed::fromReal(fe->maxCharWidth())); writeTaggedQFixed(QFontEngineQPF::Tag_LineThickness, fe->lineThickness()); writeTaggedQFixed(QFontEngineQPF::Tag_MinLeftBearing, QFixed::fromReal(fe->minLeftBearing())); writeTaggedQFixed(QFontEngineQPF::Tag_MinRightBearing, QFixed::fromReal(fe->minRightBearing())); writeTaggedQFixed(QFontEngineQPF::Tag_UnderlinePosition, fe->underlinePosition()); writeTaggedUInt8(QFontEngineQPF::Tag_PixelSize, fe->fontDef.pixelSize); writeTaggedUInt8(QFontEngineQPF::Tag_Weight, fe->fontDef.weight); writeTaggedUInt8(QFontEngineQPF::Tag_Style, fe->fontDef.style); writeTaggedUInt8(QFontEngineQPF::Tag_GlyphFormat, QFontEngineQPF::AlphamapGlyphs); writeTaggedString(QFontEngineQPF::Tag_EndOfHeader, QByteArray()); align4(); const quint64 size = dev->pos(); header.dataSize = qToBigEndian(size - sizeof(header)); dev->seek(0); dev->write((const char *)&header, sizeof(header)); dev->seek(size); } void QPFGenerator::writeGMap() { const quint16 glyphCount = fe->glyphCount(); writeUInt16(QFontEngineQPF::GMapBlock); writeUInt16(0); // padding writeUInt32(glyphCount * 4); QByteArray &buffer = dev->buffer(); const int numBytes = glyphCount * sizeof(quint32); qint64 pos = buffer.size(); buffer.resize(pos + numBytes); qMemSet(buffer.data() + pos, 0xff, numBytes); dev->seek(pos + numBytes); } void QPFGenerator::writeBlock(QFontEngineQPF::BlockTag tag, const QByteArray &data) { writeUInt16(tag); writeUInt16(0); // padding const int padSize = ((data.size() + 3) / 4) * 4 - data.size(); writeUInt32(data.size() + padSize); dev->write(data); for (int i = 0; i < padSize; ++i) writeUInt8(0); } void QPFGenerator::writeTaggedString(QFontEngineQPF::HeaderTag tag, const QByteArray &string) { writeUInt16(tag); writeUInt16(string.length()); dev->write(string); } void QPFGenerator::writeTaggedUInt32(QFontEngineQPF::HeaderTag tag, quint32 value) { writeUInt16(tag); writeUInt16(sizeof(value)); writeUInt32(value); } void QPFGenerator::writeTaggedUInt8(QFontEngineQPF::HeaderTag tag, quint8 value) { writeUInt16(tag); writeUInt16(sizeof(value)); writeUInt8(value); } void QPFGenerator::writeTaggedQFixed(QFontEngineQPF::HeaderTag tag, QFixed value) { writeUInt16(tag); writeUInt16(sizeof(quint32)); writeUInt32(value.value()); } #endif // QT_NO_QWS_QPF2 /* Creates a new multi qws engine. This function takes ownership of the QFontEngine, increasing it's refcount. */ QFontEngineMultiQWS::QFontEngineMultiQWS(QFontEngine *fe, int _script, const QStringList &fallbacks) : QFontEngineMulti(fallbacks.size() + 1), fallbackFamilies(fallbacks), script(_script) { engines[0] = fe; fe->ref.ref(); fontDef = engines[0]->fontDef; } void QFontEngineMultiQWS::loadEngine(int at) { Q_ASSERT(at < engines.size()); Q_ASSERT(engines.at(at) == 0); QFontDef request = fontDef; request.styleStrategy |= QFont::NoFontMerging; request.family = fallbackFamilies.at(at-1); engines[at] = QFontDatabase::findFont(script, /*fontprivate*/0, request); Q_ASSERT(engines[at]); engines[at]->ref.ref(); engines[at]->fontDef = request; } void QFontEngineMultiQWS::draw(QPaintEngine */*p*/, qreal /*x*/, qreal /*y*/, const QTextItemInt &/*si*/) { qFatal("QFontEngineMultiQWS::draw should never be called!"); } QT_END_NAMESPACE