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These rights are described in the Digia 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. ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qfontengine_s60_p.h" #include "qtextengine_p.h" #include "qendian.h" #include "qglobal.h" #include #include "qimage.h" #include #include #include #include #include #include #if defined(Q_SYMBIAN_HAS_GLYPHOUTLINE_API) #include #endif // Q_SYMBIAN_HAS_GLYPHOUTLINE_API // Replication of TGetFontTableParam & friends. // There is unfortunately no compile time flag like SYMBIAN_FONT_TABLE_API // that would help us to only replicate these things for Symbian versions // that do not yet have the font table Api. Symbian's public SDK does // generally not define any usable macros. class QSymbianTGetFontTableParam { public: TUint32 iTag; TAny *iContent; TInt iLength; }; const TUid QSymbianKFontGetFontTable = {0x102872C1}; const TUid QSymbianKFontReleaseFontTable = {0x2002AC24}; QT_BEGIN_NAMESPACE QSymbianTypeFaceExtras::QSymbianTypeFaceExtras(CFont* cFont, COpenFont *openFont) : m_cFont(cFont) , m_symbolCMap(false) , m_openFont(openFont) { if (!symbianFontTableApiAvailable()) { TAny *trueTypeExtension = NULL; m_openFont->ExtendedInterface(KUidOpenFontTrueTypeExtension, trueTypeExtension); m_trueTypeExtension = static_cast(trueTypeExtension); Q_ASSERT(m_trueTypeExtension); } } QSymbianTypeFaceExtras::~QSymbianTypeFaceExtras() { if (symbianFontTableApiAvailable()) S60->screenDevice()->ReleaseFont(m_cFont); } QByteArray QSymbianTypeFaceExtras::getSfntTable(uint tag) const { if (symbianFontTableApiAvailable()) { QSymbianTGetFontTableParam fontTableParams = { tag, 0, 0 }; if (m_cFont->ExtendedFunction(QSymbianKFontGetFontTable, &fontTableParams) == KErrNone) { const char* const fontTableContent = static_cast(fontTableParams.iContent); const QByteArray fontTable(fontTableContent, fontTableParams.iLength); m_cFont->ExtendedFunction(QSymbianKFontReleaseFontTable, &fontTableParams); return fontTable; } return QByteArray(); } else { Q_ASSERT(m_trueTypeExtension->HasTrueTypeTable(tag)); TInt error = KErrNone; TInt tableByteLength = 0; TAny *table = m_trueTypeExtension->GetTrueTypeTable(error, tag, &tableByteLength); Q_CHECK_PTR(table); const QByteArray result(static_cast(table), tableByteLength); m_trueTypeExtension->ReleaseTrueTypeTable(table); return result; } } bool QSymbianTypeFaceExtras::getSfntTableData(uint tag, uchar *buffer, uint *length) const { bool result = true; if (symbianFontTableApiAvailable()) { QSymbianTGetFontTableParam fontTableParams = { tag, 0, 0 }; if (m_cFont->ExtendedFunction(QSymbianKFontGetFontTable, &fontTableParams) == KErrNone) { if (*length > 0 && *length < fontTableParams.iLength) { result = false; // Caller did not allocate enough memory } else { *length = fontTableParams.iLength; if (buffer) memcpy(buffer, fontTableParams.iContent, fontTableParams.iLength); } m_cFont->ExtendedFunction(QSymbianKFontReleaseFontTable, &fontTableParams); } else { result = false; } } else { if (!m_trueTypeExtension->HasTrueTypeTable(tag)) return false; TInt error = KErrNone; TInt tableByteLength; TAny *table = m_trueTypeExtension->GetTrueTypeTable(error, tag, &tableByteLength); Q_CHECK_PTR(table); if (error != KErrNone) { return false; } else if (*length > 0 && *length < tableByteLength) { result = false; // Caller did not allocate enough memory } else { *length = tableByteLength; if (buffer) memcpy(buffer, table, tableByteLength); } m_trueTypeExtension->ReleaseTrueTypeTable(table); } return result; } const uchar *QSymbianTypeFaceExtras::cmap() const { if (m_cmapTable.isNull()) { const QByteArray cmapTable = getSfntTable(MAKE_TAG('c', 'm', 'a', 'p')); int size = 0; const uchar *cmap = QFontEngine::getCMap(reinterpret_cast (cmapTable.constData()), cmapTable.size(), &m_symbolCMap, &size); m_cmapTable = QByteArray(reinterpret_cast(cmap), size); } return reinterpret_cast(m_cmapTable.constData()); } bool QSymbianTypeFaceExtras::isSymbolCMap() const { return m_symbolCMap; } CFont *QSymbianTypeFaceExtras::fontOwner() const { return m_cFont; } QFixed QSymbianTypeFaceExtras::unitsPerEm() const { if (m_unitsPerEm.value() != 0) return m_unitsPerEm; const QByteArray head = getSfntTable(MAKE_TAG('h', 'e', 'a', 'd')); const int unitsPerEmOffset = 18; if (head.size() > unitsPerEmOffset + sizeof(quint16)) { const uchar* tableData = reinterpret_cast(head.constData()); const uchar* unitsPerEm = tableData + unitsPerEmOffset; m_unitsPerEm = qFromBigEndian(unitsPerEm); } else { // Bitmap font? Corrupt font? // We return -1 and let the QFontEngineS60 return the pixel size. m_unitsPerEm = -1; } return m_unitsPerEm; } bool QSymbianTypeFaceExtras::symbianFontTableApiAvailable() { enum FontTableApiAvailability { Unknown, Available, Unavailable }; static FontTableApiAvailability availability = QSysInfo::symbianVersion() < QSysInfo::SV_SF_3 ? Unavailable : Unknown; if (availability == Unknown) { // Actually, we should ask CFeatureDiscovery::IsFeatureSupportedL() // with FfFontTable here. But since at the time of writing, the // FfFontTable flag check either gave false positives or false // negatives. Here comes an implicit check via CFont::ExtendedFunction. QSymbianTGetFontTableParam fontTableParams = { MAKE_TAG('O', 'S', '/', '2'), 0, 0 }; QSymbianFbsHeapLock lock(QSymbianFbsHeapLock::Unlock); CFont *font; const TInt getFontErr = S60->screenDevice()->GetNearestFontInTwips(font, TFontSpec()); Q_ASSERT(getFontErr == KErrNone); if (font->ExtendedFunction(QSymbianKFontGetFontTable, &fontTableParams) == KErrNone) { font->ExtendedFunction(QSymbianKFontReleaseFontTable, &fontTableParams); availability = Available; } else { availability = Unavailable; } S60->screenDevice()->ReleaseFont(font); lock.relock(); } return availability == Available; } // duplicated from qfontengine_xyz.cpp 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; } extern QString qt_symbian_fontNameWithAppFontMarker(const QString &fontName); // qfontdatabase_s60.cpp CFont *QFontEngineS60::fontWithSize(qreal size) const { CFont *result = 0; const QString family = qt_symbian_fontNameWithAppFontMarker(QFontEngine::fontDef.family); TFontSpec fontSpec(qt_QString2TPtrC(family), TInt(size)); fontSpec.iFontStyle.SetBitmapType(EAntiAliasedGlyphBitmap); fontSpec.iFontStyle.SetPosture(QFontEngine::fontDef.style == QFont::StyleNormal?EPostureUpright:EPostureItalic); fontSpec.iFontStyle.SetStrokeWeight(QFontEngine::fontDef.weight > QFont::Normal?EStrokeWeightBold:EStrokeWeightNormal); const TInt errorCode = S60->screenDevice()->GetNearestFontToDesignHeightInPixels(result, fontSpec); Q_ASSERT(result && (errorCode == 0)); return result; } void QFontEngineS60::setFontScale(qreal scale) { if (qFuzzyCompare(scale, qreal(1))) { if (!m_originalFont) m_originalFont = fontWithSize(m_originalFontSizeInPixels); m_activeFont = m_originalFont; } else { const qreal scaledFontSizeInPixels = m_originalFontSizeInPixels * scale; if (!m_scaledFont || (TInt(scaledFontSizeInPixels) != TInt(m_scaledFontSizeInPixels))) { releaseFont(m_scaledFont); m_scaledFontSizeInPixels = scaledFontSizeInPixels; m_scaledFont = fontWithSize(m_scaledFontSizeInPixels); } m_activeFont = m_scaledFont; } } void QFontEngineS60::releaseFont(CFont *&font) { if (font) { S60->screenDevice()->ReleaseFont(font); font = 0; } } QFontEngineS60::QFontEngineS60(const QFontDef &request, const QSymbianTypeFaceExtras *extras) : m_extras(extras) , m_originalFont(0) , m_originalFontSizeInPixels((request.pixelSize >= 0)? request.pixelSize:pointsToPixels(request.pointSize)) , m_scaledFont(0) , m_scaledFontSizeInPixels(0) , m_activeFont(0) { QFontEngine::fontDef = request; setFontScale(1.0); cache_cost = sizeof(QFontEngineS60); } QFontEngineS60::~QFontEngineS60() { if (QThread::currentThread() == thread()) { releaseFont(m_originalFont); releaseFont(m_scaledFont); } } QFixed QFontEngineS60::emSquareSize() const { const QFixed unitsPerEm = m_extras->unitsPerEm(); return unitsPerEm.toInt() == -1 ? QFixed::fromReal(m_originalFontSizeInPixels) : unitsPerEm; } bool QFontEngineS60::stringToCMap(const QChar *characters, int len, QGlyphLayout *glyphs, int *nglyphs, QTextEngine::ShaperFlags flags) const { if (*nglyphs < len) { *nglyphs = len; return false; } HB_Glyph *g = glyphs->glyphs; const unsigned char* cmap = m_extras->cmap(); const bool isRtl = (flags & QTextEngine::RightToLeft); for (int i = 0; i < len; ++i) { const unsigned int uc = getChar(characters, i, len); *g++ = QFontEngine::getTrueTypeGlyphIndex(cmap, (isRtl && !m_extras->isSymbolCMap()) ? QChar::mirroredChar(uc) : uc); } glyphs->numGlyphs = g - glyphs->glyphs; *nglyphs = glyphs->numGlyphs; if (flags & QTextEngine::GlyphIndicesOnly) return true; recalcAdvances(glyphs, flags); return true; } void QFontEngineS60::recalcAdvances(QGlyphLayout *glyphs, QTextEngine::ShaperFlags flags) const { Q_UNUSED(flags); TOpenFontCharMetrics metrics; const TUint8 *glyphBitmapBytes; TSize glyphBitmapSize; for (int i = 0; i < glyphs->numGlyphs; i++) { getCharacterData(glyphs->glyphs[i], metrics, glyphBitmapBytes, glyphBitmapSize); glyphs->advances_x[i] = metrics.HorizAdvance(); glyphs->advances_y[i] = 0; } } #ifdef Q_SYMBIAN_HAS_GLYPHOUTLINE_API static bool parseGlyphPathData(const char *dataStr, const char *dataEnd, QPainterPath &path, qreal fontPixelSize, const QPointF &offset, bool hinted); #endif //Q_SYMBIAN_HAS_GLYPHOUTLINE_API void QFontEngineS60::addGlyphsToPath(glyph_t *glyphs, QFixedPoint *positions, int nglyphs, QPainterPath *path, QTextItem::RenderFlags flags) { #ifdef Q_SYMBIAN_HAS_GLYPHOUTLINE_API Q_UNUSED(flags) RGlyphOutlineIterator iterator; const TInt error = iterator.Open(*m_activeFont, glyphs, nglyphs); if (KErrNone != error) return; const qreal fontSizeInPixels = qreal(m_activeFont->HeightInPixels()); int count = 0; do { const TUint8* outlineUint8 = iterator.Outline(); const char* const outlineChar = reinterpret_cast(outlineUint8); const char* const outlineEnd = outlineChar + iterator.OutlineLength(); parseGlyphPathData(outlineChar, outlineEnd, *path, fontSizeInPixels, positions[count++].toPointF(), false); } while(KErrNone == iterator.Next() && count <= nglyphs); iterator.Close(); #else // Q_SYMBIAN_HAS_GLYPHOUTLINE_API QFontEngine::addGlyphsToPath(glyphs, positions, nglyphs, path, flags); #endif //Q_SYMBIAN_HAS_GLYPHOUTLINE_API } QImage QFontEngineS60::alphaMapForGlyph(glyph_t glyph) { // Note: On some Symbian versions (apparently <= Symbian^1), this // function will return gray values 0x00, 0x10 ... 0xe0, 0xf0 due // to a bug. The glyphs are nowhere perfectly opaque. // This has been fixed for Symbian^3. TOpenFontCharMetrics metrics; const TUint8 *glyphBitmapBytes; TSize glyphBitmapSize; getCharacterData(glyph, metrics, glyphBitmapBytes, glyphBitmapSize); QImage result(glyphBitmapBytes, glyphBitmapSize.iWidth, glyphBitmapSize.iHeight, glyphBitmapSize.iWidth, QImage::Format_Indexed8); result.setColorTable(grayPalette()); return result; } glyph_metrics_t QFontEngineS60::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, -ascent(), w - lastRightBearing(glyphs), ascent()+descent()+1, w, 0); } glyph_metrics_t QFontEngineS60::boundingBox_const(glyph_t glyph) const { TOpenFontCharMetrics metrics; const TUint8 *glyphBitmapBytes; TSize glyphBitmapSize; getCharacterData(glyph, metrics, glyphBitmapBytes, glyphBitmapSize); const glyph_metrics_t result( metrics.HorizBearingX(), -metrics.HorizBearingY(), metrics.Width(), metrics.Height(), metrics.HorizAdvance(), 0 ); return result; } glyph_metrics_t QFontEngineS60::boundingBox(glyph_t glyph) { return boundingBox_const(glyph); } QFixed QFontEngineS60::ascent() const { // Workaround for QTBUG-8013 // Stroke based fonts may return an incorrect FontMaxAscent of 0. const QFixed ascent = m_originalFont->FontMaxAscent(); return (ascent > 0) ? ascent : QFixed::fromReal(m_originalFontSizeInPixels) - descent(); } QFixed QFontEngineS60::descent() const { return m_originalFont->FontMaxDescent(); } QFixed QFontEngineS60::leading() const { return 0; } qreal QFontEngineS60::maxCharWidth() const { return m_originalFont->MaxCharWidthInPixels(); } const char *QFontEngineS60::name() const { return "QFontEngineS60"; } bool QFontEngineS60::canRender(const QChar *string, int len) { const unsigned char *cmap = m_extras->cmap(); for (int i = 0; i < len; ++i) { const unsigned int uc = getChar(string, i, len); if (QFontEngine::getTrueTypeGlyphIndex(cmap, uc) == 0) return false; } return true; } QByteArray QFontEngineS60::getSfntTable(uint tag) const { return m_extras->getSfntTable(tag); } bool QFontEngineS60::getSfntTableData(uint tag, uchar *buffer, uint *length) const { return m_extras->getSfntTableData(tag, buffer, length); } QFontEngine::Type QFontEngineS60::type() const { return QFontEngine::S60FontEngine; } void QFontEngineS60::getCharacterData(glyph_t glyph, TOpenFontCharMetrics& metrics, const TUint8*& bitmap, TSize& bitmapSize) const { // Setting the most significant bit tells GetCharacterData // that 'code' is a Glyph ID, rather than a UTF-16 value const TUint specialCode = (TUint)glyph | 0x80000000; const CFont::TCharacterDataAvailability availability = m_activeFont->GetCharacterData(specialCode, metrics, bitmap, bitmapSize); const glyph_t fallbackGlyph = '?'; if (availability != CFont::EAllCharacterData) { const CFont::TCharacterDataAvailability fallbackAvailability = m_activeFont->GetCharacterData(fallbackGlyph, metrics, bitmap, bitmapSize); Q_ASSERT(fallbackAvailability == CFont::EAllCharacterData); } } #ifdef Q_SYMBIAN_HAS_GLYPHOUTLINE_API static inline void skipSpacesAndComma(const char* &str, const char* const strEnd) { while (str <= strEnd && (*str == ' ' || *str == ',')) ++str; } static bool parseGlyphPathData(const char *svgPath, const char *svgPathEnd, QPainterPath &path, qreal fontPixelSize, const QPointF &offset, bool hinted) { Q_UNUSED(hinted) QPointF p1, p2, firstSubPathPoint; qreal *elementValues[] = {&p1.rx(), &p1.ry(), &p2.rx(), &p2.ry()}; const int unitsPerEm = 2048; // See: http://en.wikipedia.org/wiki/Em_%28typography%29 const qreal resizeFactor = fontPixelSize / unitsPerEm; while (svgPath < svgPathEnd) { skipSpacesAndComma(svgPath, svgPathEnd); const char pathElem = *svgPath++; skipSpacesAndComma(svgPath, svgPathEnd); if (pathElem != 'Z') { char *endStr = 0; int elementValuesCount = 0; for (int i = 0; i < 4; ++i) { // 4 = size of elementValues[] qreal coordinateValue = strtod(svgPath, &endStr); if (svgPath == endStr) break; if (i % 2) // Flip vertically coordinateValue = -coordinateValue; *elementValues[i] = coordinateValue * resizeFactor; elementValuesCount++; svgPath = endStr; skipSpacesAndComma(svgPath, svgPathEnd); } p1 += offset; if (elementValuesCount == 2) p2 = firstSubPathPoint; else p2 += offset; } switch (pathElem) { case 'M': firstSubPathPoint = p1; path.moveTo(p1); break; case 'Z': path.closeSubpath(); break; case 'L': path.lineTo(p1); break; case 'Q': path.quadTo(p1, p2); break; default: return false; } } return true; } #endif // Q_SYMBIAN_HAS_GLYPHOUTLINE_API QT_END_NAMESPACE