/**************************************************************************** ** ** Copyright (C) 2010 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the tools applications of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** Commercial Usage ** Licensees holding valid Qt Commercial licenses may use this file in ** accordance with the Qt Commercial License Agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and Nokia. ** ** 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. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3.0 as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU General Public License version 3.0 requirements will be ** met: http://www.gnu.org/copyleft/gpl.html. ** ** If you have questions regarding the use of this file, please contact ** Nokia at qt-info@nokia.com. ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qpf2.h" #include #include #include #include QT_BEGIN_NAMESPACE #include "../../src/gui/text/qpfutil.cpp" int QPF::debugVerbosity = 0; // ### copied from qfontdatabase.cpp // see the Unicode subset bitfields in the MSDN docs static int requiredUnicodeBits[QFontDatabase::WritingSystemsCount][2] = { // Any, { 127, 127 }, // Latin, { 0, 127 }, // Greek, { 7, 127 }, // Cyrillic, { 9, 127 }, // Armenian, { 10, 127 }, // Hebrew, { 11, 127 }, // Arabic, { 13, 127 }, // Syriac, { 71, 127 }, //Thaana, { 72, 127 }, //Devanagari, { 15, 127 }, //Bengali, { 16, 127 }, //Gurmukhi, { 17, 127 }, //Gujarati, { 18, 127 }, //Oriya, { 19, 127 }, //Tamil, { 20, 127 }, //Telugu, { 21, 127 }, //Kannada, { 22, 127 }, //Malayalam, { 23, 127 }, //Sinhala, { 73, 127 }, //Thai, { 24, 127 }, //Lao, { 25, 127 }, //Tibetan, { 70, 127 }, //Myanmar, { 74, 127 }, // Georgian, { 26, 127 }, // Khmer, { 80, 127 }, // SimplifiedChinese, { 126, 127 }, // TraditionalChinese, { 126, 127 }, // Japanese, { 126, 127 }, // Korean, { 56, 127 }, // Vietnamese, { 0, 127 }, // same as latin1 // Other, { 126, 127 } }; #define SimplifiedChineseCsbBit 18 #define TraditionalChineseCsbBit 20 #define JapaneseCsbBit 17 #define KoreanCsbBit 21 static QList determineWritingSystemsFromTrueTypeBits(quint32 unicodeRange[4], quint32 codePageRange[2]) { QList writingSystems; bool hasScript = false; int i; for(i = 0; i < QFontDatabase::WritingSystemsCount; i++) { int bit = requiredUnicodeBits[i][0]; int index = bit/32; int flag = 1 << (bit&31); if (bit != 126 && unicodeRange[index] & flag) { bit = requiredUnicodeBits[i][1]; index = bit/32; flag = 1 << (bit&31); if (bit == 127 || unicodeRange[index] & flag) { writingSystems.append(QFontDatabase::WritingSystem(i)); hasScript = true; // qDebug("font %s: index=%d, flag=%8x supports script %d", familyName.latin1(), index, flag, i); } } } if(codePageRange[0] & (1 << SimplifiedChineseCsbBit)) { writingSystems.append(QFontDatabase::SimplifiedChinese); hasScript = true; //qDebug("font %s supports Simplified Chinese", familyName.latin1()); } if(codePageRange[0] & (1 << TraditionalChineseCsbBit)) { writingSystems.append(QFontDatabase::TraditionalChinese); hasScript = true; //qDebug("font %s supports Traditional Chinese", familyName.latin1()); } if(codePageRange[0] & (1 << JapaneseCsbBit)) { writingSystems.append(QFontDatabase::Japanese); hasScript = true; //qDebug("font %s supports Japanese", familyName.latin1()); } if(codePageRange[0] & (1 << KoreanCsbBit)) { writingSystems.append(QFontDatabase::Korean); hasScript = true; //qDebug("font %s supports Korean", familyName.latin1()); } if (!hasScript) writingSystems.append(QFontDatabase::Symbol); return writingSystems; } static QByteArray getWritingSystems(QFontEngine *fontEngine) { QByteArray os2Table = fontEngine->getSfntTable(MAKE_TAG('O', 'S', '/', '2')); if (os2Table.isEmpty()) return QByteArray(); const uchar *data = reinterpret_cast(os2Table.constData()); quint32 unicodeRange[4] = { qFromBigEndian(data + 42), qFromBigEndian(data + 46), qFromBigEndian(data + 50), qFromBigEndian(data + 54) }; quint32 codePageRange[2] = { qFromBigEndian(data + 78), qFromBigEndian(data + 82) }; QList systems = determineWritingSystemsFromTrueTypeBits(unicodeRange, codePageRange); QByteArray bitField((QFontDatabase::WritingSystemsCount + 7) / 8, 0); for (int i = 0; i < systems.count(); ++i) { int bitPos = systems.at(i); bitField[bitPos / 8] = bitField.at(bitPos / 8) | (1 << (bitPos % 8)); } return bitField; } static QString stringify(const QByteArray &bits) { QString result; for (int i = 0; i < bits.count(); ++i) { uchar currentByte = bits.at(i); for (int j = 0; j < 8; ++j) { if (currentByte & 1) result += '1'; else result += '0'; currentByte >>= 1; } } return result; } static void dumpWritingSystems(const QByteArray &bits) { QStringList writingSystems; QString bitString = stringify(bits); for (int i = 0; i < qMin(int(QFontDatabase::WritingSystemsCount), bitString.length()); ++i) { if (bitString.at(i) == QLatin1Char('1')) writingSystems << QFontDatabase::writingSystemName(QFontDatabase::WritingSystem(i)); } qDebug() << "Supported writing systems:" << writingSystems; } static const char *headerTagNames[QFontEngineQPF::NumTags] = { "FontName", "FileName", "FileIndex", "FontRevision", "FreeText", "Ascent", "Descent", "Leading", "XHeight", "AverageCharWidth", "MaxCharWidth", "LineThickness", "MinLeftBearing", "MinRightBearing", "UnderlinePosition", "GlyphFormat", "PixelSize", "Weight", "Style", "EndOfHeader", "WritingSystems" }; QString QPF::fileNameForFont(const QFont &f) { QString fileName = f.family().toLower() + "_" + QString::number(f.pixelSize()) + "_" + QString::number(f.weight()) + (f.italic() ? "_italic" : "") + ".qpf2"; fileName.replace(QLatin1Char(' '), QLatin1Char('_')); return fileName; } QByteArray QPF::generate(const QFont &font, int options, const QList &ranges, QString *originalFontFile) { QTextEngine engine("Test", font); engine.itemize(); engine.shape(0); QFontEngine *fontEngine = engine.fontEngine(engine.layoutData->items[0]); if (fontEngine->type() == QFontEngine::Multi) fontEngine = static_cast(fontEngine)->engine(0); if (originalFontFile) *originalFontFile = QFile::decodeName(fontEngine->faceId().filename); return generate(fontEngine, options, ranges); } QByteArray QPF::generate(QFontEngine *fontEngine, int options, const QList &ranges) { QPF font; font.options = options; font.addHeader(fontEngine); if (options & IncludeCMap) font.addCMap(fontEngine); font.addGlyphs(fontEngine, ranges); return font.qpf; } void QPF::addHeader(QFontEngine *fontEngine) { QFontEngineQPF::Header *header = reinterpret_cast(addBytes(sizeof(QFontEngineQPF::Header))); header->magic[0] = 'Q'; header->magic[1] = 'P'; header->magic[2] = 'F'; header->magic[3] = '2'; if (options & RenderGlyphs) header->lock = 0xffffffff; else header->lock = 0; header->majorVersion = QFontEngineQPF::CurrentMajorVersion; header->minorVersion = QFontEngineQPF::CurrentMinorVersion; header->dataSize = 0; int oldSize = qpf.size(); addTaggedString(QFontEngineQPF::Tag_FontName, fontEngine->fontDef.family.toUtf8()); QFontEngine::FaceId face = fontEngine->faceId(); addTaggedString(QFontEngineQPF::Tag_FileName, face.filename); addTaggedUInt32(QFontEngineQPF::Tag_FileIndex, face.index); { const QByteArray head = fontEngine->getSfntTable(MAKE_TAG('h', 'e', 'a', 'd')); const quint32 revision = qFromBigEndian(reinterpret_cast(head.constData()) + 4); addTaggedUInt32(QFontEngineQPF::Tag_FontRevision, revision); } addTaggedQFixed(QFontEngineQPF::Tag_Ascent, fontEngine->ascent()); addTaggedQFixed(QFontEngineQPF::Tag_Descent, fontEngine->descent()); addTaggedQFixed(QFontEngineQPF::Tag_Leading, fontEngine->leading()); addTaggedQFixed(QFontEngineQPF::Tag_XHeight, fontEngine->xHeight()); addTaggedQFixed(QFontEngineQPF::Tag_AverageCharWidth, fontEngine->averageCharWidth()); addTaggedQFixed(QFontEngineQPF::Tag_MaxCharWidth, QFixed::fromReal(fontEngine->maxCharWidth())); addTaggedQFixed(QFontEngineQPF::Tag_LineThickness, fontEngine->lineThickness()); addTaggedQFixed(QFontEngineQPF::Tag_MinLeftBearing, QFixed::fromReal(fontEngine->minLeftBearing())); addTaggedQFixed(QFontEngineQPF::Tag_MinRightBearing, QFixed::fromReal(fontEngine->minRightBearing())); addTaggedQFixed(QFontEngineQPF::Tag_UnderlinePosition, fontEngine->underlinePosition()); addTaggedUInt8(QFontEngineQPF::Tag_PixelSize, fontEngine->fontDef.pixelSize); addTaggedUInt8(QFontEngineQPF::Tag_Weight, fontEngine->fontDef.weight); addTaggedUInt8(QFontEngineQPF::Tag_Style, fontEngine->fontDef.style); QByteArray writingSystemBitField = getWritingSystems(fontEngine); if (!writingSystemBitField.isEmpty()) addTaggedString(QFontEngineQPF::Tag_WritingSystems, writingSystemBitField); addTaggedUInt8(QFontEngineQPF::Tag_GlyphFormat, QFontEngineQPF::AlphamapGlyphs); addTaggedString(QFontEngineQPF::Tag_EndOfHeader, QByteArray()); align4(); header = reinterpret_cast(qpf.data()); header->dataSize = qToBigEndian(qpf.size() - oldSize); } static uchar *appendBytes(QByteArray &array, int size) { int oldSize = array.size(); array.resize(array.size() + size); return reinterpret_cast(array.data() + oldSize); } #define APPEND(type, value) \ qToBigEndian(value, appendBytes(cmap, sizeof(type))) struct CMapSegment { int start; // codepoints int end; int startGlyphIndex; }; static QByteArray generateTrueTypeCMap(QFontEngine *fe) { QByteArray cmap; const int glyphCount = fe->glyphCount(); if (!glyphCount) return cmap; // cmap header APPEND(quint16, 0); // table version number APPEND(quint16, 1); // number of tables // encoding record APPEND(quint16, 3); // platform-id APPEND(quint16, 10); // encoding-id (ucs-4) const int cmapOffset = cmap.size() + sizeof(quint32); APPEND(quint32, cmapOffset); // offset to sub-table APPEND(quint16, 4); // subtable format const int cmapTableLengthOffset = cmap.size(); APPEND(quint16, 0); // length in bytes, will fill in later APPEND(quint16, 0); // language field QList segments; CMapSegment currentSegment; currentSegment.start = 0xffff; currentSegment.end = 0; currentSegment.startGlyphIndex = 0; quint32 previousGlyphIndex = 0xfffffffe; bool inSegment = false; QGlyphLayoutArray<10> layout; for (uint uc = 0; uc < 0x10000; ++uc) { QChar ch(uc); int nglyphs = 10; bool validGlyph = fe->stringToCMap(&ch, 1, &layout, &nglyphs, /*flags*/ 0) && nglyphs == 1 && layout.glyphs[0]; // leaving a segment? if (inSegment && (!validGlyph || layout.glyphs[0] != previousGlyphIndex + 1)) { Q_ASSERT(currentSegment.start != 0xffff); // store the current segment currentSegment.end = uc - 1; segments.append(currentSegment); currentSegment.start = 0xffff; inSegment = false; } // entering a new segment? if (validGlyph && (!inSegment || layout.glyphs[0] != previousGlyphIndex + 1)) { currentSegment.start = uc; currentSegment.startGlyphIndex = layout.glyphs[0]; inSegment = true; } if (validGlyph) previousGlyphIndex = layout.glyphs[0]; else previousGlyphIndex = 0xfffffffe; } currentSegment.start = 0xffff; currentSegment.end = 0xffff; currentSegment.startGlyphIndex = 0; segments.append(currentSegment); if (QPF::debugVerbosity > 3) qDebug() << "segments:" << segments.count(); Q_ASSERT(!inSegment); const quint16 entrySelector = int(log2(segments.count())); const quint16 searchRange = 2 * (1 << entrySelector); const quint16 rangeShift = segments.count() * 2 - searchRange; if (QPF::debugVerbosity > 3) qDebug() << "entrySelector" << entrySelector << "searchRange" << searchRange << "rangeShift" << rangeShift; APPEND(quint16, segments.count() * 2); // segCountX2 APPEND(quint16, searchRange); APPEND(quint16, entrySelector); APPEND(quint16, rangeShift); // end character codes for (int i = 0; i < segments.count(); ++i) APPEND(quint16, segments.at(i).end); APPEND(quint16, 0); // pad // start character codes for (int i = 0; i < segments.count(); ++i) APPEND(quint16, segments.at(i).start); // id deltas for (int i = 0; i < segments.count(); ++i) APPEND(quint16, segments.at(i).startGlyphIndex - segments.at(i).start); // id range offsets for (int i = 0; i < segments.count(); ++i) APPEND(quint16, 0); uchar *lengthPtr = reinterpret_cast(cmap.data()) + cmapTableLengthOffset; qToBigEndian(cmap.size() - cmapOffset, lengthPtr); return cmap; } void QPF::addCMap(QFontEngine *fontEngine) { QByteArray cmapTable = fontEngine->getSfntTable(MAKE_TAG('c', 'm', 'a', 'p')); if (cmapTable.isEmpty()) cmapTable = generateTrueTypeCMap(fontEngine); addBlock(QFontEngineQPF::CMapBlock, cmapTable); } void QPF::addGlyphs(QFontEngine *fe, const QList &ranges) { const quint16 glyphCount = fe->glyphCount(); QByteArray gmap; gmap.resize(glyphCount * sizeof(quint32)); gmap.fill(char(0xff)); //qDebug() << "glyphCount" << glyphCount; QByteArray glyphs; if (options & RenderGlyphs) { // this is only a rough estimation glyphs.reserve(glyphCount * (sizeof(QFontEngineQPF::Glyph) + qRound(fe->maxCharWidth() * (fe->ascent() + fe->descent()).toReal()))); QGlyphLayoutArray<10> layout; foreach (CharacterRange range, ranges) { if (debugVerbosity > 2) qDebug() << "rendering range from" << range.start << "to" << range.end; for (uint uc = range.start; uc < range.end; ++uc) { QChar ch(uc); int nglyphs = 10; if (!fe->stringToCMap(&ch, 1, &layout, &nglyphs, /*flags*/ 0)) continue; if (nglyphs != 1) continue; const quint32 glyphIndex = layout.glyphs[0]; if (!glyphIndex) continue; Q_ASSERT(glyphIndex < glyphCount); QImage img = fe->alphaMapForGlyph(glyphIndex).convertToFormat(QImage::Format_Indexed8); glyph_metrics_t metrics = fe->boundingBox(glyphIndex); const quint32 oldSize = glyphs.size(); glyphs.resize(glyphs.size() + sizeof(QFontEngineQPF::Glyph) + img.byteCount()); uchar *data = reinterpret_cast(glyphs.data() + oldSize); uchar *gmapPtr = reinterpret_cast(gmap.data() + glyphIndex * sizeof(quint32)); qToBigEndian(oldSize, gmapPtr); QFontEngineQPF::Glyph *glyph = reinterpret_cast(data); glyph->width = img.width(); glyph->height = img.height(); glyph->bytesPerLine = img.bytesPerLine(); glyph->x = qRound(metrics.x); glyph->y = qRound(metrics.y); glyph->advance = qRound(metrics.xoff); data += sizeof(QFontEngineQPF::Glyph); if (debugVerbosity && uc >= 'A' && uc <= 'z' || debugVerbosity > 1) { qDebug() << "adding glyph with index" << glyphIndex << " uc =" << char(uc) << ":\n" << " glyph->x =" << glyph->x << "rounded from" << metrics.x << "\n" << " glyph->y =" << glyph->y << "rounded from" << metrics.y << "\n" << " width =" << glyph->width << "height =" << glyph->height << " advance =" << glyph->advance << "rounded from" << metrics.xoff ; } qMemCopy(data, img.bits(), img.byteCount()); } } } addBlock(QFontEngineQPF::GMapBlock, gmap); addBlock(QFontEngineQPF::GlyphBlock, glyphs); } void QPF::addBlock(QFontEngineQPF::BlockTag tag, const QByteArray &blockData) { addUInt16(tag); addUInt16(0); // padding const int padSize = ((blockData.size() + 3) / 4) * 4 - blockData.size(); addUInt32(blockData.size() + padSize); addByteArray(blockData); for (int i = 0; i < padSize; ++i) addUInt8(0); } #define ADD_TAGGED_DATA(tag, qtype, type, value) \ addUInt16(tag); \ addUInt16(sizeof(qtype)); \ add##type(value) void QPF::addTaggedString(QFontEngineQPF::HeaderTag tag, const QByteArray &string) { addUInt16(tag); addUInt16(string.length()); addByteArray(string); } void QPF::addTaggedQFixed(QFontEngineQPF::HeaderTag tag, QFixed value) { ADD_TAGGED_DATA(tag, quint32, UInt32, value.value()); } void QPF::addTaggedUInt8(QFontEngineQPF::HeaderTag tag, quint8 value) { ADD_TAGGED_DATA(tag, quint8, UInt8, value); } void QPF::addTaggedInt8(QFontEngineQPF::HeaderTag tag, qint8 value) { ADD_TAGGED_DATA(tag, qint8, Int8, value); } void QPF::addTaggedUInt16(QFontEngineQPF::HeaderTag tag, quint16 value) { ADD_TAGGED_DATA(tag, quint16, UInt16, value); } void QPF::addTaggedUInt32(QFontEngineQPF::HeaderTag tag, quint32 value) { ADD_TAGGED_DATA(tag, quint32, UInt32, value); } void QPF::dump(const QByteArray &qpf) { QPF font; font.qpf = qpf; const uchar *data = reinterpret_cast(qpf.constData()); const uchar *endPtr = reinterpret_cast(qpf.constData() + qpf.size()); data = font.dumpHeader(data); const quint32 *gmap = 0; quint32 glyphCount = 0; while (data < endPtr) { const QFontEngineQPF::Block *block = reinterpret_cast(data); quint32 tag = qFromBigEndian(block->tag); quint32 blockSize = qFromBigEndian(block->dataSize); qDebug() << "Block: Tag =" << qFromBigEndian(block->tag) << "; Size =" << blockSize << "; Offset =" << hex << data - reinterpret_cast(qpf.constData()); data += sizeof(QFontEngineQPF::Block); if (debugVerbosity) { if (tag == QFontEngineQPF::GMapBlock) { gmap = reinterpret_cast(data); glyphCount = blockSize / 4; font.dumpGMapBlock(gmap, glyphCount); } else if (tag == QFontEngineQPF::GlyphBlock && gmap && debugVerbosity > 1) { font.dumpGlyphBlock(gmap, glyphCount, data, data + blockSize); } } data += blockSize; } } const uchar *QPF::dumpHeader(const uchar *data) { const QFontEngineQPF::Header *header = reinterpret_cast(data); qDebug() << "Header:"; qDebug() << "magic =" << header->magic[0] << header->magic[1] << header->magic[2] << header->magic[3]; qDebug() << "lock =" << qFromBigEndian(header->lock); qDebug() << "majorVersion =" << header->majorVersion; qDebug() << "minorVersion =" << header->minorVersion; qDebug() << "dataSize =" << qFromBigEndian(header->dataSize); data += sizeof(QFontEngineQPF::Header); const uchar *endPtr = data + qFromBigEndian(header->dataSize); while (data && data < endPtr) { data = dumpHeaderTag(data); } return endPtr; } const uchar *QPF::dumpHeaderTag(const uchar *data) { const QFontEngineQPF::Tag *tagPtr = reinterpret_cast(data); quint16 tag = qFromBigEndian(tagPtr->tag); quint16 size = qFromBigEndian(tagPtr->size); qDebug() << "Tag =" << tag << headerTagNames[tag]; qDebug() << "Size =" << size; if (tag == QFontEngineQPF::Tag_EndOfHeader) return 0; data += sizeof(QFontEngineQPF::Tag); Q_ASSERT(tag < QFontEngineQPF::NumTags); switch (tagTypes[tag]) { case QFontEngineQPF::StringType: qDebug() << "Payload =" << QString::fromUtf8(QByteArray(reinterpret_cast(data), size)); break; case QFontEngineQPF::FixedType: Q_ASSERT(size == sizeof(quint32)); qDebug() << "Payload =" << QFixed::fromFixed(qFromBigEndian(data)).toReal(); break; case QFontEngineQPF::UInt8Type: Q_ASSERT(size == sizeof(quint8)); qDebug() << "Payload =" << *data; break; case QFontEngineQPF::UInt32Type: Q_ASSERT(size == sizeof(quint32)); qDebug() << "Payload =" << qFromBigEndian(data); break; case QFontEngineQPF::BitFieldType: { QByteArray bits(reinterpret_cast(data), size); qDebug() << "Payload =" << stringify(bits); if (QPF::debugVerbosity > 2 && tag == QFontEngineQPF::Tag_WritingSystems) dumpWritingSystems(bits); } break; } data += size; return data; } void QPF::dumpGMapBlock(const quint32 *gmap, int glyphCount) { qDebug() << "glyphCount =" << glyphCount; int renderedGlyphs = 0; for (int i = 0; i < glyphCount; ++i) { if (gmap[i] != 0xffffffff) { const quint32 glyphPos = qFromBigEndian(gmap[i]); qDebug("gmap[%d] = 0x%x / %u", i, glyphPos, glyphPos); ++renderedGlyphs; } } qDebug() << "Glyphs rendered:" << renderedGlyphs << "; Glyphs missing from the font:" << glyphCount - renderedGlyphs; } void QPF::dumpGlyphBlock(const quint32 *gmap, int glyphCount, const uchar *data, const uchar *endPtr) { // glyphPos -> glyphIndex QMap reverseGlyphMap; for (int i = 0; i < glyphCount; ++i) { if (gmap[i] == 0xffffffff) continue; const quint32 glyphPos = qFromBigEndian(gmap[i]); reverseGlyphMap[glyphPos] = i; } const uchar *glyphBlockBegin = data; while (data < endPtr) { const QFontEngineQPF::Glyph *g = reinterpret_cast(data); const quint64 glyphOffset = data - glyphBlockBegin; const quint32 glyphIndex = reverseGlyphMap.value(glyphOffset, 0xffffffff); if (glyphIndex == 0xffffffff) qDebug() << "############: Glyph present in glyph block is not listed in glyph map!"; qDebug("glyph at offset 0x%x glyphIndex = %u", quint32(glyphOffset), glyphIndex); qDebug() << " width =" << g->width << "height =" << g->height << "x =" << g->x << "y =" << g->y; qDebug() << " advance =" << g->advance << "bytesPerLine =" << g->bytesPerLine; data += sizeof(*g); if (glyphIndex == 0xffffffff || debugVerbosity > 4) { dumpGlyph(data, g); } data += g->height * g->bytesPerLine; } } void QPF::dumpGlyph(const uchar *data, const QFontEngineQPF::Glyph *glyph) { fprintf(stderr, "---- glyph data:\n"); const char *alphas = " .o#"; for (int y = 0; y < glyph->height; ++y) { for (int x = 0; x < glyph->width; ++x) { const uchar value = data[y * glyph->bytesPerLine + x]; fprintf(stderr, "%c", alphas[value >> 6]); } fprintf(stderr, "\n"); } fprintf(stderr, "----\n"); } QT_END_NAMESPACE