void *quartz_new_layout(char* fontname, double fontsize, char* text) { CFStringRef fontnameref = CFStringCreateWithBytes(kCFAllocatorDefault, (const UInt8 *)fontname, strlen(fontname), kCFStringEncodingUTF8, FALSE); CFStringRef textref = CFStringCreateWithBytes(kCFAllocatorDefault, (const UInt8 *)text, strlen(text), kCFStringEncodingUTF8, FALSE); CTLineRef line = NULL; if (fontnameref && textref) { /* set up the Core Text line */ CTFontRef font = CTFontCreateWithName(fontnameref, fontsize, NULL); CFDictionaryRef attributes = CFDictionaryCreate( kCFAllocatorDefault, (const void**)&kCTFontAttributeName, (const void**)&font, 1, &kCFTypeDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks); CFAttributedStringRef attributed = CFAttributedStringCreate(kCFAllocatorDefault, textref, attributes); line = CTLineCreateWithAttributedString(attributed); CFRelease(attributed); CFRelease(attributes); CFRelease(font); } if (textref) CFRelease(textref); if (fontnameref) CFRelease(fontnameref); return (void *)line; }
void drawTextWithFeature(CGContextRef context, CTFontDescriptorRef fontDescriptor, CFStringRef feature, int value, CGPoint location) { CGFloat fontSize = 25; CGContextSetTextMatrix(context, CGAffineTransformScale(CGAffineTransformIdentity, 1, 1)); CGContextSetTextPosition(context, location.x, location.y); CFNumberRef featureValue = CFNumberCreate(kCFAllocatorDefault, kCFNumberIntType, &value); CFTypeRef featureDictionaryKeys[] = { kCTFontOpenTypeFeatureTag, kCTFontOpenTypeFeatureValue }; CFTypeRef featureDictionaryValues[] = { feature, featureValue }; CFDictionaryRef featureDictionary = CFDictionaryCreate(kCFAllocatorDefault, featureDictionaryKeys, featureDictionaryValues, 2, &kCFTypeDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks); CFRelease(featureValue); CFTypeRef featureSettingsValues[] = { featureDictionary }; CFArrayRef fontFeatureSettings = CFArrayCreate(kCFAllocatorDefault, featureSettingsValues, 1, &kCFTypeArrayCallBacks); CFRelease(featureDictionary); CFTypeRef fontDescriptorKeys[] = { kCTFontFeatureSettingsAttribute }; CFTypeRef fontDescriptorValues[] = { fontFeatureSettings }; CFDictionaryRef fontDescriptorAttributes = CFDictionaryCreate(kCFAllocatorDefault, fontDescriptorKeys, fontDescriptorValues, 1, &kCFTypeDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks); CFRelease(fontFeatureSettings); CTFontDescriptorRef modifiedFontDescriptor = CTFontDescriptorCreateCopyWithAttributes(fontDescriptor, fontDescriptorAttributes); CFRelease(fontDescriptorAttributes); CTFontRef font = CTFontCreateWithFontDescriptor(modifiedFontDescriptor, fontSize, nullptr); CFRelease(modifiedFontDescriptor); CFMutableStringRef string = CFStringCreateMutable(kCFAllocatorDefault, 0); CFStringAppend(string, feature); CFStringAppend(string, value ? CFSTR(" (on)") : CFSTR(" (off)")); CFStringAppend(string, CFSTR(": ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz")); CGColorRef red = CGColorCreateGenericRGB(1, 0, 0, 1); CFTypeRef lineKeys[] = { kCTForegroundColorAttributeName }; CFTypeRef lineValues[] = { red }; CFDictionaryRef lineAttributes = CFDictionaryCreate(kCFAllocatorDefault, lineKeys, lineValues, 1, &kCFTypeDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks); CGColorRelease(red); CFAttributedStringRef attributedString = CFAttributedStringCreate(kCFAllocatorDefault, string, lineAttributes); CFRelease(lineAttributes); CFRelease(string); CFMutableAttributedStringRef mutableAttributedString = CFAttributedStringCreateMutableCopy(kCFAllocatorDefault, 0, attributedString); CFRelease(attributedString); CTFontRef monospaceFont = CTFontCreateWithName(CFSTR("Courier"), fontSize, nullptr); CFAttributedStringSetAttribute(mutableAttributedString, CFRangeMake(0, 12), kCTFontAttributeName, monospaceFont); CFRelease(monospaceFont); CFAttributedStringSetAttribute(mutableAttributedString, CFRangeMake(12, 52), kCTFontAttributeName, font); CFRelease(font); CTLineRef line = CTLineCreateWithAttributedString(mutableAttributedString); CFRelease(mutableAttributedString); CTLineDraw(line, context); CFRelease(line); }
// This function is needed to work around a bug in Windows CG <rdar://problem/22703470> void PlatformCALayer::drawTextAtPoint(CGContextRef context, CGFloat x, CGFloat y, CGSize scale, CGFloat fontSize, const char* text, size_t length) const { auto matrix = CGAffineTransformMakeScale(scale.width, scale.height); auto font = adoptCF(CTFontCreateWithName(CFSTR("Helvetica"), fontSize, &matrix)); CFTypeRef keys[] = { kCTFontAttributeName, kCTForegroundColorFromContextAttributeName }; CFTypeRef values[] = { font.get(), kCFBooleanTrue }; auto attributes = adoptCF(CFDictionaryCreate(kCFAllocatorDefault, keys, values, WTF_ARRAY_LENGTH(keys), &kCFTypeDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks)); auto string = adoptCF(CFStringCreateWithBytesNoCopy(kCFAllocatorDefault, reinterpret_cast<const UInt8*>(text), length, kCFStringEncodingUTF8, false, kCFAllocatorNull)); auto attributedString = adoptCF(CFAttributedStringCreate(kCFAllocatorDefault, string.get(), attributes.get())); auto line = adoptCF(CTLineCreateWithAttributedString(attributedString.get())); CGContextSetTextPosition(context, x, y); CTLineDraw(line.get(), context); }
void ComplexTextController::collectComplexTextRunsForCharactersCoreText(const UChar* cp, unsigned length, unsigned stringLocation, const SimpleFontData* fontData) { if (!fontData) { // Create a run of missing glyphs from the primary font. m_complexTextRuns.append(ComplexTextRun::create(m_font.primaryFont(), cp, stringLocation, length, m_run.ltr())); return; } if (m_fallbackFonts && fontData != m_font.primaryFont()) m_fallbackFonts->add(fontData); RetainPtr<CTLineRef> line; if (!m_mayUseNaturalWritingDirection || m_run.directionalOverride()) { static const void* optionKeys[] = { kCTTypesetterOptionForcedEmbeddingLevel }; const short ltrForcedEmbeddingLevelValue = 0; const short rtlForcedEmbeddingLevelValue = 1; static const void* ltrOptionValues[] = { CFNumberCreate(kCFAllocatorDefault, kCFNumberShortType, <rForcedEmbeddingLevelValue) }; static const void* rtlOptionValues[] = { CFNumberCreate(kCFAllocatorDefault, kCFNumberShortType, &rtlForcedEmbeddingLevelValue) }; static CFDictionaryRef ltrTypesetterOptions = CFDictionaryCreate(kCFAllocatorDefault, optionKeys, ltrOptionValues, WTF_ARRAY_LENGTH(optionKeys), &kCFCopyStringDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks); static CFDictionaryRef rtlTypesetterOptions = CFDictionaryCreate(kCFAllocatorDefault, optionKeys, rtlOptionValues, WTF_ARRAY_LENGTH(optionKeys), &kCFCopyStringDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks); #if !defined(BUILDING_ON_TIGER) && !defined(BUILDING_ON_LEOPARD) && !defined(BUILDING_ON_SNOW_LEOPARD) ProviderInfo info = { cp, length, fontData->getCFStringAttributes(m_font.typesettingFeatures(), fontData->platformData().orientation()) }; RetainPtr<CTTypesetterRef> typesetter(AdoptCF, wkCreateCTTypesetterWithUniCharProviderAndOptions(&provideStringAndAttributes, 0, &info, m_run.ltr() ? ltrTypesetterOptions : rtlTypesetterOptions)); #else RetainPtr<CFStringRef> string(AdoptCF, CFStringCreateWithCharactersNoCopy(kCFAllocatorDefault, cp, length, kCFAllocatorNull)); RetainPtr<CFAttributedStringRef> attributedString(AdoptCF, CFAttributedStringCreate(kCFAllocatorDefault, string.get(), fontData->getCFStringAttributes(m_font.typesettingFeatures(), fontData->platformData().orientation()))); RetainPtr<CTTypesetterRef> typesetter(AdoptCF, CTTypesetterCreateWithAttributedStringAndOptions(attributedString.get(), m_run.ltr() ? ltrTypesetterOptions : rtlTypesetterOptions)); #endif line.adoptCF(CTTypesetterCreateLine(typesetter.get(), CFRangeMake(0, 0))); } else { ProviderInfo info = { cp, length, fontData->getCFStringAttributes(m_font.typesettingFeatures(), fontData->platformData().orientation()) }; line.adoptCF(wkCreateCTLineWithUniCharProvider(&provideStringAndAttributes, 0, &info)); } m_coreTextLines.append(line.get()); CFArrayRef runArray = CTLineGetGlyphRuns(line.get()); CFIndex runCount = CFArrayGetCount(runArray); for (CFIndex r = 0; r < runCount; r++) { CTRunRef ctRun = static_cast<CTRunRef>(CFArrayGetValueAtIndex(runArray, r)); ASSERT(CFGetTypeID(ctRun) == CTRunGetTypeID()); CFRange runRange = CTRunGetStringRange(ctRun); m_complexTextRuns.append(ComplexTextRun::create(ctRun, fontData, cp, stringLocation, length, runRange)); } }
xy__Float draw__string(const char *s, int x, int y, int w, float pos) { CFStringRef string = CFStringCreateWithCString(kCFAllocatorDefault, s, kCFStringEncodingUTF8); if (font == NULL || font_color == NULL) { fprintf(stderr, "Error in %s: need both font & font_color to be non-NULL.\n", __FUNCTION__); return x; } CFStringRef keys[] = { kCTFontAttributeName, kCTForegroundColorAttributeName }; CFTypeRef values[] = { font, font_color }; CFDictionaryRef attributes = CFDictionaryCreate(kCFAllocatorDefault, (const void**)&keys, (const void**)&values, sizeof(keys) / sizeof(keys[0]), &kCFTypeDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks); CFAttributedStringRef attrString = CFAttributedStringCreate(kCFAllocatorDefault, string, attributes); CFRelease(string); CFRelease(attributes); CTLineRef line = CTLineCreateWithAttributedString(attrString); // This position set is needed to get a useful x_pos value on the next line. CGContextSetTextPosition(ctx, x, y); double x_pos = CTLineGetPenOffsetForFlush(line, pos, w); CGFloat descent; double line_width = CTLineGetTypographicBounds(line, NULL, &descent, NULL); CGContextSetTextPosition(ctx, x + x_pos, y + descent); CTLineDraw(line, ctx); CFRelease(line); return x + x_pos + line_width; }
void CoreTextController::collectCoreTextRunsForCharacters(const UChar* cp, unsigned length, unsigned stringLocation, const SimpleFontData* fontData) { if (!fontData) { // Create a run of missing glyphs from the primary font. m_coreTextRuns.append(CoreTextRun(m_font.primaryFont(), cp, stringLocation, length, m_run.ltr())); return; } RetainPtr<CFStringRef> string(AdoptCF, CFStringCreateWithCharactersNoCopy(NULL, cp, length, kCFAllocatorNull)); RetainPtr<CFAttributedStringRef> attributedString(AdoptCF, CFAttributedStringCreate(NULL, string.get(), fontData->getCFStringAttributes())); RetainPtr<CTTypesetterRef> typesetter; if (!m_mayUseNaturalWritingDirection || m_run.directionalOverride()) { static const void* optionKeys[] = { kCTTypesetterOptionForcedEmbeddingLevel }; static const void* ltrOptionValues[] = { kCFBooleanFalse }; static const void* rtlOptionValues[] = { kCFBooleanTrue }; static CFDictionaryRef ltrTypesetterOptions = CFDictionaryCreate(kCFAllocatorDefault, optionKeys, ltrOptionValues, sizeof(optionKeys) / sizeof(*optionKeys), &kCFCopyStringDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks); static CFDictionaryRef rtlTypesetterOptions = CFDictionaryCreate(kCFAllocatorDefault, optionKeys, rtlOptionValues, sizeof(optionKeys) / sizeof(*optionKeys), &kCFCopyStringDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks); typesetter.adoptCF(CTTypesetterCreateWithAttributedStringAndOptions(attributedString.get(), m_run.ltr() ? ltrTypesetterOptions : rtlTypesetterOptions)); } else typesetter.adoptCF(CTTypesetterCreateWithAttributedString(attributedString.get())); RetainPtr<CTLineRef> line(AdoptCF, CTTypesetterCreateLine(typesetter.get(), CFRangeMake(0, 0))); CFArrayRef runArray = CTLineGetGlyphRuns(line.get()); CFIndex runCount = CFArrayGetCount(runArray); for (CFIndex r = 0; r < runCount; r++) { CTRunRef ctRun = static_cast<CTRunRef>(CFArrayGetValueAtIndex(runArray, r)); ASSERT(CFGetTypeID(ctRun) == CTRunGetTypeID()); m_coreTextRuns.append(CoreTextRun(ctRun, fontData, cp, stringLocation, length)); } }
static OSStatus local_CoreTR(CGContextRef ctx, CGRect r, CFStringRef string, CFStringRef fontName, CGFloat fontSize, TRFallbackBehavior fallbackBehavior, Boolean render, CGFloat baseline, TRInfo* oInfo) { if (!ctx || !string || !fontName) return paramErr; CGContextSaveGState(ctx); CGContextSetTextMatrix(ctx, CGAffineTransformIdentity); CTFontDescriptorRef fdesc = CTFontDescriptorCreateWithNameAndSize(fontName, fontSize); CTFontRef font = CTFontCreateWithFontDescriptor(fdesc, fontSize, NULL); CFIndex slen = CFStringGetLength(string); CFRange range = CFRangeMake(0L,slen); UniChar* buff = calloc(slen, sizeof(UniChar)); CFStringGetCharacters(string, range, buff); CGGlyph* glyphs = calloc(slen, sizeof(CGGlyph)); Boolean supported = CTFontGetGlyphsForCharacters(font, buff, glyphs, slen); //NSLog(@"%@ supported for '%@'? %d", fontName, string, supported); CFRelease(fdesc); if (!supported) { if (fallbackBehavior == TRLastResortFallbackBehavior) { CFRelease(font); fdesc = CTFontDescriptorCreateWithNameAndSize(CFSTR("LastResort"), fontSize); font = CTFontCreateWithFontDescriptor(fdesc, fontSize, NULL); CFRelease(fdesc); supported = true; } else { CFRange rng = CFRangeMake(0L, CFStringGetLength(string)); CTFontRef font2 = CTFontCreateForString(font, string, rng); CFRelease(font); CFStringRef fontName2 = CTFontCopyName(font2, kCTFontFullNameKey); fdesc = CTFontDescriptorCreateWithNameAndSize(fontName2, fontSize); //NSLog(@"falling back to %@ from %@ : %@", fontName2, fontName, fdesc); CFRelease(fontName2); font = CTFontCreateWithFontDescriptor(fdesc, fontSize, NULL); CFRelease(fdesc); supported = CTFontGetGlyphsForCharacters(font, buff, glyphs, slen); } } free(buff); free(glyphs); CFMutableDictionaryRef attrs = CFDictionaryCreateMutable(kCFAllocatorDefault, 1L, &kCFTypeDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks); CFDictionarySetValue(attrs, kCTFontAttributeName, font); CFAttributedStringRef attrStr = CFAttributedStringCreate(kCFAllocatorDefault, string, attrs); CFRelease(attrs); CTLineRef line = CTLineCreateWithAttributedString(attrStr); CFRelease(attrStr); CGRect bounds = CTLineGetImageBounds(line, ctx); CGFloat descent = CTFontGetDescent(font); CGFloat ascent = CTFontGetAscent(font); CFRelease(font); if (baseline < 0.0L) baseline = ((r.size.height - bounds.size.height + descent)/2.0L); if (render && (supported || fallbackBehavior != TRNoRenderFallbackBehavior)) { CGFloat x = r.origin.x + (r.size.width/2.0L) - (bounds.size.width/2.0L) - bounds.origin.x; CGFloat y = r.origin.y + baseline; CGPoint where = CGPointMake(x, y); CGContextSetTextPosition(ctx, where.x, where.y); CTLineDraw(line, ctx); } CFRelease(line); if (oInfo) { oInfo->height = bounds.size.height + descent; oInfo->width = bounds.size.width; oInfo->ascent = ascent; oInfo->descent = descent; oInfo->baseline = baseline; oInfo->fontSupported = supported; } CGContextRestoreGState(ctx); return (supported)? noErr:kATSUFontsNotMatched; }
bool GlyphPage::fill(unsigned offset, unsigned length, UChar* buffer, unsigned bufferLength, const SimpleFontData* fontData) { bool haveGlyphs = false; Vector<CGGlyph, 512> glyphs(bufferLength); if (!shouldUseCoreText(buffer, bufferLength, fontData)) { // We pass in either 256 or 512 UTF-16 characters: 256 for U+FFFF and less, 512 (double character surrogates) // for U+10000 and above. It is indeed possible to get back 512 glyphs back from the API, so the glyph buffer // we pass in must be 512. If we get back more than 256 glyphs though we'll ignore all the ones after 256, // this should not happen as the only time we pass in 512 characters is when they are surrogates. CGFontGetGlyphsForUnichars(fontData->platformData().cgFont(), buffer, glyphs.data(), bufferLength); for (unsigned i = 0; i < length; ++i) { if (!glyphs[i]) setGlyphDataForIndex(offset + i, 0, 0); else { setGlyphDataForIndex(offset + i, glyphs[i], fontData); haveGlyphs = true; } } } else if (!fontData->platformData().isCompositeFontReference() && ((fontData->platformData().widthVariant() == RegularWidth) ? wkGetVerticalGlyphsForCharacters(fontData->platformData().ctFont(), buffer, glyphs.data(), bufferLength) : CTFontGetGlyphsForCharacters(fontData->platformData().ctFont(), buffer, glyphs.data(), bufferLength))) { // When buffer consists of surrogate pairs, wkGetVerticalGlyphsForCharacters and CTFontGetGlyphsForCharacters // place the glyphs at indices corresponding to the first character of each pair. unsigned glyphStep = bufferLength / length; for (unsigned i = 0; i < length; ++i) { if (!glyphs[i * glyphStep]) setGlyphDataForIndex(offset + i, 0, 0); else { setGlyphDataForIndex(offset + i, glyphs[i * glyphStep], fontData); haveGlyphs = true; } } } else { // We ask CoreText for possible vertical variant glyphs RetainPtr<CFStringRef> string = adoptCF(CFStringCreateWithCharactersNoCopy(kCFAllocatorDefault, buffer, bufferLength, kCFAllocatorNull)); RetainPtr<CFAttributedStringRef> attributedString = adoptCF(CFAttributedStringCreate(kCFAllocatorDefault, string.get(), fontData->getCFStringAttributes(0, fontData->hasVerticalGlyphs() ? Vertical : Horizontal))); RetainPtr<CTLineRef> line = adoptCF(CTLineCreateWithAttributedString(attributedString.get())); CFArrayRef runArray = CTLineGetGlyphRuns(line.get()); CFIndex runCount = CFArrayGetCount(runArray); // Initialize glyph entries for (unsigned index = 0; index < length; ++index) setGlyphDataForIndex(offset + index, 0, 0); Vector<CGGlyph, 512> glyphVector; Vector<CFIndex, 512> indexVector; bool done = false; // For the CGFont comparison in the loop, use the CGFont that Core Text assigns to the CTFont. This may // be non-CFEqual to fontData->platformData().cgFont(). RetainPtr<CGFontRef> cgFont = adoptCF(CTFontCopyGraphicsFont(fontData->platformData().ctFont(), 0)); for (CFIndex r = 0; r < runCount && !done ; ++r) { // CTLine could map characters over multiple fonts using its own font fallback list. // We need to pick runs that use the exact font we need, i.e., fontData->platformData().ctFont(). CTRunRef ctRun = static_cast<CTRunRef>(CFArrayGetValueAtIndex(runArray, r)); ASSERT(CFGetTypeID(ctRun) == CTRunGetTypeID()); CFDictionaryRef attributes = CTRunGetAttributes(ctRun); CTFontRef runFont = static_cast<CTFontRef>(CFDictionaryGetValue(attributes, kCTFontAttributeName)); RetainPtr<CGFontRef> runCGFont = adoptCF(CTFontCopyGraphicsFont(runFont, 0)); // Use CGFont here as CFEqual for CTFont counts all attributes for font. bool gotBaseFont = CFEqual(cgFont.get(), runCGFont.get()); if (gotBaseFont || fontData->platformData().isCompositeFontReference()) { // This run uses the font we want. Extract glyphs. CFIndex glyphCount = CTRunGetGlyphCount(ctRun); const CGGlyph* glyphs = CTRunGetGlyphsPtr(ctRun); if (!glyphs) { glyphVector.resize(glyphCount); CTRunGetGlyphs(ctRun, CFRangeMake(0, 0), glyphVector.data()); glyphs = glyphVector.data(); } const CFIndex* stringIndices = CTRunGetStringIndicesPtr(ctRun); if (!stringIndices) { indexVector.resize(glyphCount); CTRunGetStringIndices(ctRun, CFRangeMake(0, 0), indexVector.data()); stringIndices = indexVector.data(); } if (gotBaseFont) { for (CFIndex i = 0; i < glyphCount; ++i) { if (stringIndices[i] >= static_cast<CFIndex>(length)) { done = true; break; } if (glyphs[i]) { setGlyphDataForIndex(offset + stringIndices[i], glyphs[i], fontData); haveGlyphs = true; } } #if !PLATFORM(IOS) } else { const SimpleFontData* runSimple = fontData->getCompositeFontReferenceFontData((NSFont *)runFont); if (runSimple) { for (CFIndex i = 0; i < glyphCount; ++i) { if (stringIndices[i] >= static_cast<CFIndex>(length)) { done = true; break; } if (glyphs[i]) { setGlyphDataForIndex(offset + stringIndices[i], glyphs[i], runSimple); haveGlyphs = true; } } } #endif // !PLATFORM(IOS) } } } } return haveGlyphs; }
bool GlyphPage::fill(unsigned offset, unsigned length, UChar* buffer, unsigned bufferLength, const SimpleFontData* fontData) { bool haveGlyphs = false; #ifndef BUILDING_ON_TIGER if (fontData->orientation() == Horizontal || fontData->isBrokenIdeographFont()) { Vector<CGGlyph, 512> glyphs(bufferLength); wkGetGlyphsForCharacters(fontData->platformData().cgFont(), buffer, glyphs.data(), bufferLength); for (unsigned i = 0; i < length; ++i) { if (!glyphs[i]) setGlyphDataForIndex(offset + i, 0, 0); else { setGlyphDataForIndex(offset + i, glyphs[i], fontData); haveGlyphs = true; } } } else { // We ask CoreText for possible vertical variant glyphs RetainPtr<CFStringRef> string(AdoptCF, CFStringCreateWithCharactersNoCopy(kCFAllocatorDefault, buffer, bufferLength, kCFAllocatorNull)); RetainPtr<CFAttributedStringRef> attributedString(AdoptCF, CFAttributedStringCreate(kCFAllocatorDefault, string.get(), fontData->getCFStringAttributes(0))); RetainPtr<CTLineRef> line(AdoptCF, CTLineCreateWithAttributedString(attributedString.get())); CFArrayRef runArray = CTLineGetGlyphRuns(line.get()); CFIndex runCount = CFArrayGetCount(runArray); // Initialize glyph entries for (unsigned index = 0; index < length; ++index) setGlyphDataForIndex(offset + index, 0, 0); Vector<CGGlyph, 512> glyphVector; Vector<CFIndex, 512> indexVector; bool done = false; for (CFIndex r = 0; r < runCount && !done ; ++r) { // CTLine could map characters over multiple fonts using its own font fallback list. // We need to pick runs that use the exact font we need, i.e., fontData->platformData().ctFont(). CTRunRef ctRun = static_cast<CTRunRef>(CFArrayGetValueAtIndex(runArray, r)); ASSERT(CFGetTypeID(ctRun) == CTRunGetTypeID()); CFDictionaryRef attributes = CTRunGetAttributes(ctRun); CTFontRef runFont = static_cast<CTFontRef>(CFDictionaryGetValue(attributes, kCTFontAttributeName)); RetainPtr<CGFontRef> runCGFont(AdoptCF, CTFontCopyGraphicsFont(runFont, 0)); // Use CGFont here as CFEqual for CTFont counts all attributes for font. if (CFEqual(fontData->platformData().cgFont(), runCGFont.get())) { // This run uses the font we want. Extract glyphs. CFIndex glyphCount = CTRunGetGlyphCount(ctRun); const CGGlyph* glyphs = CTRunGetGlyphsPtr(ctRun); if (!glyphs) { glyphVector.resize(glyphCount); CTRunGetGlyphs(ctRun, CFRangeMake(0, 0), glyphVector.data()); glyphs = glyphVector.data(); } const CFIndex* stringIndices = CTRunGetStringIndicesPtr(ctRun); if (!stringIndices) { indexVector.resize(glyphCount); CTRunGetStringIndices(ctRun, CFRangeMake(0, 0), indexVector.data()); stringIndices = indexVector.data(); } for (CFIndex i = 0; i < glyphCount; ++i) { if (stringIndices[i] >= static_cast<CFIndex>(length)) { done = true; break; } if (glyphs[i]) { setGlyphDataForIndex(offset + stringIndices[i], glyphs[i], fontData); haveGlyphs = true; } } } } } #else // Use an array of long so we get good enough alignment. long glyphVector[(GLYPH_VECTOR_SIZE + sizeof(long) - 1) / sizeof(long)]; OSStatus status = wkInitializeGlyphVector(GlyphPage::size, &glyphVector); if (status != noErr) // This should never happen, perhaps indicates a bad font! If it does the // font substitution code will find an alternate font. return false; wkConvertCharToGlyphs(fontData->m_styleGroup, buffer, bufferLength, &glyphVector); unsigned numGlyphs = wkGetGlyphVectorNumGlyphs(&glyphVector); if (numGlyphs != length) { // This should never happen, perhaps indicates a bad font? // If it does happen, the font substitution code will find an alternate font. wkClearGlyphVector(&glyphVector); return false; } ATSLayoutRecord* glyphRecord = (ATSLayoutRecord*)wkGetGlyphVectorFirstRecord(glyphVector); for (unsigned i = 0; i < length; i++) { Glyph glyph = glyphRecord->glyphID; if (!glyph) setGlyphDataForIndex(offset + i, 0, 0); else { setGlyphDataForIndex(offset + i, glyph, fontData); haveGlyphs = true; } glyphRecord = (ATSLayoutRecord *)((char *)glyphRecord + wkGetGlyphVectorRecordSize(glyphVector)); } wkClearGlyphVector(&glyphVector); #endif return haveGlyphs; }
bool GlyphPage::fill(unsigned offset, unsigned length, UChar* buffer, unsigned bufferLength, const SimpleFontData* fontData) { bool haveGlyphs = false; if (!shouldUseCoreText(buffer, bufferLength, fontData)) { Vector<CGGlyph, 512> glyphs(bufferLength); CMFontGetGlyphsForUnichars(fontData->platformData().cgFont(), buffer, glyphs.data(), bufferLength); // wkGetGlyphsForCharacters(fontData->platformData().cgFont(), buffer, glyphs.data(), bufferLength); for (unsigned i = 0; i < length; ++i) { if (!glyphs[i]) setGlyphDataForIndex(offset + i, 0, 0); else { setGlyphDataForIndex(offset + i, glyphs[i], fontData); haveGlyphs = true; } } } else { // We ask CoreText for possible vertical variant glyphs RetainPtr<CFStringRef> string(AdoptCF, CFStringCreateWithCharactersNoCopy(kCFAllocatorDefault, buffer, bufferLength, kCFAllocatorNull)); RetainPtr<CFAttributedStringRef> attributedString(AdoptCF, CFAttributedStringCreate(kCFAllocatorDefault, string.get(), fontData->getCFStringAttributes(0, fontData->hasVerticalGlyphs() ? Vertical : Horizontal))); RetainPtr<CTLineRef> line(AdoptCF, CTLineCreateWithAttributedString(attributedString.get())); CFArrayRef runArray = CTLineGetGlyphRuns(line.get()); CFIndex runCount = CFArrayGetCount(runArray); // Initialize glyph entries for (unsigned index = 0; index < length; ++index) setGlyphDataForIndex(offset + index, 0, 0); Vector<CGGlyph, 512> glyphVector; Vector<CFIndex, 512> indexVector; bool done = false; // For the CGFont comparison in the loop, use the CGFont that Core Text assigns to the CTFont. This may // be non-CFEqual to fontData->platformData().cgFont(). RetainPtr<CGFontRef> cgFont(AdoptCF, CTFontCopyGraphicsFont(fontData->platformData().ctFont(), 0)); for (CFIndex r = 0; r < runCount && !done ; ++r) { // CTLine could map characters over multiple fonts using its own font fallback list. // We need to pick runs that use the exact font we need, i.e., fontData->platformData().ctFont(). CTRunRef ctRun = static_cast<CTRunRef>(CFArrayGetValueAtIndex(runArray, r)); ASSERT(CFGetTypeID(ctRun) == CTRunGetTypeID()); CFDictionaryRef attributes = CTRunGetAttributes(ctRun); CTFontRef runFont = static_cast<CTFontRef>(CFDictionaryGetValue(attributes, kCTFontAttributeName)); RetainPtr<CGFontRef> runCGFont(AdoptCF, CTFontCopyGraphicsFont(runFont, 0)); // Use CGFont here as CFEqual for CTFont counts all attributes for font. if (CFEqual(cgFont.get(), runCGFont.get())) { // This run uses the font we want. Extract glyphs. CFIndex glyphCount = CTRunGetGlyphCount(ctRun); const CGGlyph* glyphs = CTRunGetGlyphsPtr(ctRun); if (!glyphs) { glyphVector.resize(glyphCount); CTRunGetGlyphs(ctRun, CFRangeMake(0, 0), glyphVector.data()); glyphs = glyphVector.data(); } const CFIndex* stringIndices = CTRunGetStringIndicesPtr(ctRun); if (!stringIndices) { indexVector.resize(glyphCount); CTRunGetStringIndices(ctRun, CFRangeMake(0, 0), indexVector.data()); stringIndices = indexVector.data(); } for (CFIndex i = 0; i < glyphCount; ++i) { if (stringIndices[i] >= static_cast<CFIndex>(length)) { done = true; break; } if (glyphs[i]) { setGlyphDataForIndex(offset + stringIndices[i], glyphs[i], fontData); haveGlyphs = true; } } } } } return haveGlyphs; }
static bool font_renderer_create_atlas(CTFontRef face, ct_font_renderer_t *handle) { int max_width, max_height; unsigned i; size_t bytesPerRow; CGGlyph glyphs[CT_ATLAS_SIZE]; CGRect bounds[CT_ATLAS_SIZE]; CGSize advances[CT_ATLAS_SIZE]; float ascent, descent; CGContextRef offscreen; CFDictionaryRef attr; CFTypeRef values[1]; CFStringRef keys[1]; void *bitmapData = NULL; bool ret = true; size_t bitsPerComponent = 8; UniChar characters[CT_ATLAS_SIZE] = {0}; values[0] = face; keys[0] = kCTFontAttributeName; for (i = 0; i < CT_ATLAS_SIZE; i++) characters[i] = (UniChar)i; CTFontGetGlyphsForCharacters(face, characters, glyphs, CT_ATLAS_SIZE); CTFontGetBoundingRectsForGlyphs(face, #if MAC_OS_X_VERSION_MAX_ALLOWED >= 1080 kCTFontOrientationDefault, #else kCTFontDefaultOrientation, #endif glyphs, bounds, CT_ATLAS_SIZE); CTFontGetAdvancesForGlyphs(face, #if MAC_OS_X_VERSION_MAX_ALLOWED >= 1080 kCTFontOrientationDefault, #else kCTFontDefaultOrientation, #endif glyphs, advances, CT_ATLAS_SIZE); ascent = CTFontGetAscent(face); descent = CTFontGetDescent(face); max_width = 0; max_height = 0; for (i = 0; i < CT_ATLAS_SIZE; i++) { int origin_x, origin_y; struct font_glyph *glyph = &handle->glyphs[i]; if (!glyph) continue; origin_x = ceil(bounds[i].origin.x); origin_y = ceil(bounds[i].origin.y); glyph->draw_offset_x = 0; glyph->draw_offset_y = -ascent; glyph->width = ceil(bounds[i].size.width); glyph->height = ceil(bounds[i].size.height); glyph->advance_x = ceil(advances[i].width); glyph->advance_y = ceil(advances[i].height); max_width = MAX(max_width, (origin_x + glyph->width)); max_height = MAX(max_height, (origin_y + glyph->height)); } max_height = MAX(max_height, ceil(ascent+descent)); handle->atlas.width = max_width * CT_ATLAS_COLS; handle->atlas.height = max_height * CT_ATLAS_ROWS; handle->atlas.buffer = (uint8_t*) calloc(handle->atlas.width * handle->atlas.height, 1); if (!handle->atlas.buffer) { ret = false; goto end; } bytesPerRow = max_width; bitmapData = calloc(max_height, bytesPerRow); offscreen = CGBitmapContextCreate(bitmapData, max_width, max_height, bitsPerComponent, bytesPerRow, NULL, kCGImageAlphaOnly); CGContextSetTextMatrix(offscreen, CGAffineTransformIdentity); attr = CFDictionaryCreate(NULL, (const void **)&keys, (const void **)&values, sizeof(keys) / sizeof(keys[0]), &kCFTypeDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks); for (i = 0; i < CT_ATLAS_SIZE; i++) { char glyph_cstr[2]; const uint8_t *src; uint8_t *dst; unsigned offset_x, offset_y, r, c; CFStringRef glyph_cfstr; CFAttributedStringRef attrString; CTLineRef line; struct font_glyph *glyph = &handle->glyphs[i]; if (!glyph) continue; glyph->width = max_width; glyph->height = max_height; offset_x = (i % CT_ATLAS_COLS) * max_width; offset_y = (i / CT_ATLAS_COLS) * max_height; glyph->atlas_offset_x = offset_x; glyph->atlas_offset_y = offset_y; glyph_cstr[0] = i; glyph_cstr[1] = 0; glyph_cfstr = CFStringCreateWithCString( NULL, glyph_cstr, kCFStringEncodingASCII ); attrString = CFAttributedStringCreate(NULL, glyph_cfstr, attr); CFRelease(glyph_cfstr); glyph_cfstr = NULL; line = CTLineCreateWithAttributedString(attrString); CFRelease(attrString); attrString = NULL; memset( bitmapData, 0, max_height * bytesPerRow ); CGContextSetTextPosition(offscreen, 0, descent); CTLineDraw(line, offscreen); CGContextFlush( offscreen ); CFRelease( line ); line = NULL; dst = (uint8_t*)handle->atlas.buffer; src = (const uint8_t*)bitmapData; for (r = 0; r < max_height; r++ ) { for (c = 0; c < max_width; c++) { unsigned src_idx = r * bytesPerRow + c; unsigned dest_idx = (r + offset_y) * (CT_ATLAS_COLS * max_width) + (c + offset_x); uint8_t v = src[src_idx]; dst[dest_idx] = v; } } } CFRelease(attr); CGContextRelease(offscreen); attr = NULL; offscreen = NULL; free(bitmapData); end: return ret; }
Memsubfont* mksubfont(XFont *f, char *name, int lo, int hi, int size, int antialias) { CFStringRef s; CGColorSpaceRef color; CGContextRef ctxt; CTFontRef font; CTFontDescriptorRef desc; CGRect bbox; Memimage *m, *mc, *m1; int x, y, y0; int i, height, ascent; Fontchar *fc, *fc0; Memsubfont *sf; CGFloat whitef[] = { 1.0, 1.0 }; CGColorRef white; s = c2mac(name); desc = CTFontDescriptorCreateWithNameAndSize(s, size); CFRelease(s); if(desc == nil) return nil; font = CTFontCreateWithFontDescriptor(desc, 0, nil); CFRelease(desc); if(font == nil) return nil; bbox = CTFontGetBoundingBox(font); x = (int)(bbox.size.width*2 + 0.99999999); fontheight(f, size, &height, &ascent); y = height; y0 = height - ascent; m = allocmemimage(Rect(0, 0, x*(hi+1-lo)+1, y+1), GREY8); if(m == nil) return nil; mc = allocmemimage(Rect(0, 0, x+1, y+1), GREY8); if(mc == nil){ freememimage(m); return nil; } memfillcolor(m, DBlack); memfillcolor(mc, DBlack); fc = malloc((hi+2 - lo) * sizeof fc[0]); sf = malloc(sizeof *sf); if(fc == nil || sf == nil) { freememimage(m); freememimage(mc); free(fc); free(sf); return nil; } fc0 = fc; color = CGColorSpaceCreateWithName(kCGColorSpaceGenericGray); ctxt = CGBitmapContextCreate(byteaddr(mc, mc->r.min), Dx(mc->r), Dy(mc->r), 8, mc->width*sizeof(u32int), color, kCGImageAlphaNone); white = CGColorCreate(color, whitef); CGColorSpaceRelease(color); if(ctxt == nil) { freememimage(m); freememimage(mc); free(fc); free(sf); return nil; } CGContextSetAllowsAntialiasing(ctxt, antialias); CGContextSetTextPosition(ctxt, 0, 0); // XXX #if OSX_VERSION >= 101400 CGContextSetAllowsFontSmoothing(ctxt, false); #endif x = 0; for(i=lo; i<=hi; i++, fc++) { char buf[20]; CFStringRef str; CFDictionaryRef attrs; CFAttributedStringRef attrString; CTLineRef line; CGRect r; CGPoint p1; CFStringRef keys[] = { kCTFontAttributeName, kCTForegroundColorAttributeName }; CFTypeRef values[] = { font, white }; sprint(buf, "%C", (Rune)mapUnicode(name, i)); str = c2mac(buf); // See https://developer.apple.com/library/ios/documentation/StringsTextFonts/Conceptual/CoreText_Programming/LayoutOperations/LayoutOperations.html#//apple_ref/doc/uid/TP40005533-CH12-SW2 attrs = CFDictionaryCreate(kCFAllocatorDefault, (const void**)&keys, (const void**)&values, sizeof(keys) / sizeof(keys[0]), &kCFTypeDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks); attrString = CFAttributedStringCreate(kCFAllocatorDefault, str, attrs); CFRelease(str); CFRelease(attrs); line = CTLineCreateWithAttributedString(attrString); CGContextSetTextPosition(ctxt, 0, y0); r = CTLineGetImageBounds(line, ctxt); memfillcolor(mc, DBlack); CTLineDraw(line, ctxt); CFRelease(line); fc->x = x; fc->top = 0; fc->bottom = Dy(m->r); // fprint(2, "printed %#x: %g %g\n", mapUnicode(i), p1.x, p1.y); p1 = CGContextGetTextPosition(ctxt); if(p1.x <= 0 || mapUnicode(name, i) == 0xfffd) { fc->width = 0; fc->left = 0; if(i == 0) { drawpjw(m, fc, x, (int)(bbox.size.width + 0.99999999), y, y - y0); x += fc->width; } continue; } memimagedraw(m, Rect(x, 0, x + p1.x, y), mc, ZP, memopaque, ZP, S); fc->width = p1.x; fc->left = 0; x += p1.x; } fc->x = x; // round up to 32-bit boundary // so that in-memory data is same // layout as in-file data. if(x == 0) x = 1; if(y == 0) y = 1; if(antialias) x += -x & 3; else x += -x & 31; m1 = allocmemimage(Rect(0, 0, x, y), antialias ? GREY8 : GREY1); memimagedraw(m1, m1->r, m, m->r.min, memopaque, ZP, S); freememimage(m); freememimage(mc); sf->name = nil; sf->n = hi+1 - lo; sf->height = Dy(m1->r); sf->ascent = Dy(m1->r) - y0; sf->info = fc0; sf->bits = m1; return sf; }
bool SimpleFontData::fillGlyphPage(GlyphPage* pageToFill, unsigned offset, unsigned length, UChar* buffer, unsigned bufferLength) const { bool haveGlyphs = false; Vector<CGGlyph, 512> glyphs(bufferLength); if (!shouldUseCoreText(buffer, bufferLength, this)) { CGFontGetGlyphsForUnichars(platformData().cgFont(), buffer, glyphs.data(), bufferLength); for (unsigned i = 0; i < length; ++i) { if (glyphs[i]) { pageToFill->setGlyphDataForIndex(offset + i, glyphs[i], this); haveGlyphs = true; } } } else if (!platformData().isCompositeFontReference() && platformData().widthVariant() != RegularWidth && CTFontGetGlyphsForCharacters(platformData().ctFont(), buffer, glyphs.data(), bufferLength)) { // When buffer consists of surrogate pairs, CTFontGetGlyphsForCharacters // places the glyphs at indices corresponding to the first character of each pair. unsigned glyphStep = bufferLength / length; for (unsigned i = 0; i < length; ++i) { if (glyphs[i * glyphStep]) { pageToFill->setGlyphDataForIndex(offset + i, glyphs[i * glyphStep], this); haveGlyphs = true; } } } else { // We ask CoreText for possible vertical variant glyphs RetainPtr<CFStringRef> string(AdoptCF, CFStringCreateWithCharactersNoCopy(kCFAllocatorDefault, buffer, bufferLength, kCFAllocatorNull)); RetainPtr<CFAttributedStringRef> attributedString(AdoptCF, CFAttributedStringCreate(kCFAllocatorDefault, string.get(), getCFStringAttributes(0, hasVerticalGlyphs() ? Vertical : Horizontal))); RetainPtr<CTLineRef> line(AdoptCF, CTLineCreateWithAttributedString(attributedString.get())); CFArrayRef runArray = CTLineGetGlyphRuns(line.get()); CFIndex runCount = CFArrayGetCount(runArray); Vector<CGGlyph, 512> glyphVector; Vector<CFIndex, 512> indexVector; bool done = false; // For the CGFont comparison in the loop, use the CGFont that Core Text assigns to the CTFont. This may // be non-CFEqual to platformData().cgFont(). RetainPtr<CGFontRef> cgFont(AdoptCF, CTFontCopyGraphicsFont(platformData().ctFont(), 0)); for (CFIndex r = 0; r < runCount && !done ; ++r) { // CTLine could map characters over multiple fonts using its own font fallback list. // We need to pick runs that use the exact font we need, i.e., platformData().ctFont(). CTRunRef ctRun = static_cast<CTRunRef>(CFArrayGetValueAtIndex(runArray, r)); ASSERT(CFGetTypeID(ctRun) == CTRunGetTypeID()); CFDictionaryRef attributes = CTRunGetAttributes(ctRun); CTFontRef runFont = static_cast<CTFontRef>(CFDictionaryGetValue(attributes, kCTFontAttributeName)); RetainPtr<CGFontRef> runCGFont(AdoptCF, CTFontCopyGraphicsFont(runFont, 0)); // Use CGFont here as CFEqual for CTFont counts all attributes for font. bool gotBaseFont = CFEqual(cgFont.get(), runCGFont.get()); if (gotBaseFont || platformData().isCompositeFontReference()) { // This run uses the font we want. Extract glyphs. CFIndex glyphCount = CTRunGetGlyphCount(ctRun); const CGGlyph* glyphs = CTRunGetGlyphsPtr(ctRun); if (!glyphs) { glyphVector.resize(glyphCount); CTRunGetGlyphs(ctRun, CFRangeMake(0, 0), glyphVector.data()); glyphs = glyphVector.data(); } const CFIndex* stringIndices = CTRunGetStringIndicesPtr(ctRun); if (!stringIndices) { indexVector.resize(glyphCount); CTRunGetStringIndices(ctRun, CFRangeMake(0, 0), indexVector.data()); stringIndices = indexVector.data(); } if (gotBaseFont) { for (CFIndex i = 0; i < glyphCount; ++i) { if (stringIndices[i] >= static_cast<CFIndex>(length)) { done = true; break; } if (glyphs[i]) { pageToFill->setGlyphDataForIndex(offset + stringIndices[i], glyphs[i], this); haveGlyphs = true; } } } else { const SimpleFontData* runSimple = getCompositeFontReferenceFontData((NSFont *)runFont); if (runSimple) { for (CFIndex i = 0; i < glyphCount; ++i) { if (stringIndices[i] >= static_cast<CFIndex>(length)) { done = true; break; } if (glyphs[i]) { pageToFill->setGlyphDataForIndex(offset + stringIndices[i], glyphs[i], runSimple); haveGlyphs = true; } } } } } } } return haveGlyphs; }
OSStatus GenerateThumbnailForURL(void *thisInterface, QLThumbnailRequestRef thumbnail, CFURLRef url, CFStringRef contentTypeUTI, CFDictionaryRef options, CGSize maxSize) { CGFloat minCartDrawSize = 64; CGFloat size = fmin(maxSize.width, maxSize.height); CGContextRef qlContext = NULL; if (size < minCartDrawSize) { size = 32; qlContext = QLThumbnailRequestCreateContext(thumbnail, CGSizeMake(size,size), true, NULL); } else { qlContext = QLThumbnailRequestCreateContext(thumbnail, CGSizeMake(size,size), false, NULL); } if (qlContext) { NDSHeader header; NDSIcon icon; int pathlen = 2047; UInt8 path[pathlen+1]; if (CFURLGetFileSystemRepresentation(url, true, path, pathlen)) { if (size < minCartDrawSize) { // at smaller sizes we only draw the game icon at native size and let QL do the scaling parseNDSInfo(path, &header, &icon); CGImageRef image = CGImageCreateWithNDSIcon(&icon); if (image) { CGContextDrawImage(qlContext, CGRectMake(0, 0, size, size), image); CGImageRelease(image); } } else { CGContextClearRect(qlContext, CGRectMake(0,0,size,size)); // draw cartridge background CFURLRef bgURL = CFBundleCopyResourceURL(CFBundleGetBundleWithIdentifier( CFSTR("net.mironer.nds.quicklookgenerator")), CFSTR("background"), CFSTR("png"), NULL); if (bgURL) { CGDataProviderRef bgPNG = CGDataProviderCreateWithURL(bgURL); if (bgPNG) { CGImageRef bg = CGImageCreateWithPNGDataProvider(bgPNG, NULL, true, kCGRenderingIntentDefault); if (bg) { CGContextDrawImage(qlContext, CGRectMake(0, 0, size, size), bg); CGImageRelease(bg); } CGDataProviderRelease(bgPNG); } CFRelease(bgURL); } // draw game icon parseNDSInfo(path, &header, &icon); CGImageRef image = CGImageCreateWithNDSIcon(&icon); if (image) { CGContextDrawImage(qlContext, CGRectMake(size / 5, size / 5, size * 3 / 5, size * 3 / 5), image); CGImageRelease(image); } // draw cartridge overlay CFURLRef ovrURL = CFBundleCopyResourceURL( CFBundleGetBundleWithIdentifier( CFSTR("net.mironer.nds.quicklookgenerator")), CFSTR("overlay"), CFSTR("png"), NULL); if (ovrURL) { CGDataProviderRef ovrPNG = CGDataProviderCreateWithURL(ovrURL); if (ovrPNG) { CGImageRef ovr = CGImageCreateWithPNGDataProvider(ovrPNG, NULL, true, kCGRenderingIntentDefault); if (ovr) { CGContextDrawImage(qlContext, CGRectMake(0, 0, size, size), ovr); CGImageRelease(ovr); } CGDataProviderRelease(ovrPNG); } CFRelease(ovrURL); } // draw serial number CFStringRef serial = CFStringCreateWithSerialNumber(&header); CFAttributedStringRef aString = CFAttributedStringCreate(kCFAllocatorDefault, serial, NULL); CFMutableAttributedStringRef attrStr = CFAttributedStringCreateMutableCopy(kCFAllocatorDefault, 128, aString); CFIndex len = CFAttributedStringGetLength(attrStr); CTFontRef font = CTFontCreateWithName(CFSTR("Lucida Sans"), size / 16, NULL); CFAttributedStringSetAttribute(attrStr, CFRangeMake(0, len), kCTFontAttributeName, font); CTTextAlignment rightAlign = kCTRightTextAlignment; CTParagraphStyleSetting styleSettings[] = { {kCTParagraphStyleSpecifierAlignment, sizeof(rightAlign), &rightAlign} }; CTParagraphStyleRef paragraphStyle = CTParagraphStyleCreate(styleSettings, 1); CFAttributedStringSetAttribute(attrStr, CFRangeMake(0, len), kCTParagraphStyleAttributeName, paragraphStyle); CTFramesetterRef framesetter = CTFramesetterCreateWithAttributedString(attrStr); CFRelease(attrStr); CFRelease(aString); CFRelease(serial); CFRelease(font); CGMutablePathRef path = CGPathCreateMutable(); CGPathAddRect(path, NULL, CGRectMake(-size * 1.55 / 8, -size * 6.1 / 8, size, size)); CTFrameRef frame = CTFramesetterCreateFrame(framesetter, CFRangeMake(0, 0), path, NULL); CTFrameDraw(frame, qlContext); CFRelease(frame); CFRelease(framesetter); CFRelease(paragraphStyle); CFRelease(path); } } QLThumbnailRequestFlushContext(thumbnail, qlContext); CFRelease(qlContext); } return noErr; }
static void basic_engine_shape (PangoEngineShape *engine, PangoFont *font, const char *text, gint length, const PangoAnalysis *analysis, PangoGlyphString *glyphs) { const char *p; char *copy; CTLineRef line; CFStringRef cstr; CFDictionaryRef attributes; CFAttributedStringRef attstr; PangoCoreTextFont *cfont = PANGO_CORE_TEXT_FONT (font); PangoCoverage *coverage; CFArrayRef runs; CTRunRef run; CTRunStatus run_status; CFIndex i, glyph_count; const CGGlyph *cgglyphs; CFTypeRef keys[] = { (CFTypeRef) kCTFontAttributeName }; CFTypeRef values[] = { pango_core_text_font_get_ctfont (cfont) }; attributes = CFDictionaryCreate (kCFAllocatorDefault, (const void **)keys, (const void **)values, 1, &kCFCopyStringDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks); copy = g_strndup (text, length + 1); copy[length] = 0; cstr = CFStringCreateWithCString (kCFAllocatorDefault, copy, kCFStringEncodingUTF8); g_free (copy); attstr = CFAttributedStringCreate (kCFAllocatorDefault, cstr, attributes); line = CTLineCreateWithAttributedString (attstr); runs = CTLineGetGlyphRuns (line); /* Since Pango divides things into runs already, we assume there is * only a single run in this line. */ run = CFArrayGetValueAtIndex (runs, 0); run_status = CTRunGetStatus (run); glyph_count = CTRunGetGlyphCount (run); cgglyphs = CTRunGetGlyphsPtr (run); p = text; pango_glyph_string_set_size (glyphs, glyph_count); coverage = pango_font_get_coverage (PANGO_FONT (cfont), analysis->language); for (i = 0; i < glyph_count; i++) { CFIndex real_i, prev_i; gunichar wc; gunichar mirrored_ch; wc = g_utf8_get_char (p); if (analysis->level % 2) if (pango_get_mirror_char (wc, &mirrored_ch)) wc = mirrored_ch; if (run_status & kCTRunStatusRightToLeft) { real_i = glyph_count - i - 1; prev_i = real_i + 1; } else { real_i = i; prev_i = real_i - 1; } if (wc == 0xa0) /* non-break-space */ wc = 0x20; if (pango_is_zero_width (wc)) { set_glyph (font, glyphs, real_i, p - text, PANGO_GLYPH_EMPTY); } else { PangoCoverageLevel result; result = pango_coverage_get (coverage, wc); if (result != PANGO_COVERAGE_NONE) { set_glyph (font, glyphs, real_i, p - text, cgglyphs[real_i]); if (g_unichar_type (wc) == G_UNICODE_NON_SPACING_MARK) { if (i > 0) { PangoRectangle logical_rect, ink_rect; glyphs->glyphs[real_i].geometry.width = MAX (glyphs->glyphs[prev_i].geometry.width, glyphs->glyphs[prev_i].geometry.width); glyphs->glyphs[prev_i].geometry.width = 0; glyphs->log_clusters[real_i] = glyphs->log_clusters[prev_i]; /* Some heuristics to try to guess how overstrike glyphs are * done and compensate */ pango_font_get_glyph_extents (font, glyphs->glyphs[real_i].glyph, &ink_rect, &logical_rect); if (logical_rect.width == 0 && ink_rect.x == 0) glyphs->glyphs[real_i].geometry.x_offset = (glyphs->glyphs[real_i].geometry.width - ink_rect.width) / 2; } } } else { set_glyph (font, glyphs, real_i, p - text, PANGO_GET_UNKNOWN_GLYPH (wc)); } } p = g_utf8_next_char (p); } CFRelease (line); CFRelease (attstr); CFRelease (cstr); CFRelease (attributes); pango_coverage_unref (coverage); }
static gboolean run_iterator_create (struct RunIterator *iter, const char *text, const gint length, CTFontRef ctfont) { char *copy; CFDictionaryRef attributes; CFAttributedStringRef attstr; CFTypeRef keys[] = { (CFTypeRef) kCTFontAttributeName }; CFTypeRef values[] = { ctfont }; /* Initialize RunIterator structure */ iter->current_run_number = -1; iter->current_run = NULL; iter->current_indices = NULL; iter->current_cgglyphs = NULL; /* Create CTLine */ attributes = CFDictionaryCreate (kCFAllocatorDefault, (const void **)keys, (const void **)values, 1, &kCFCopyStringDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks); copy = g_strndup (text, length + 1); copy[length] = 0; iter->cstr = CFStringCreateWithCString (kCFAllocatorDefault, copy, kCFStringEncodingUTF8); g_free (copy); if (!iter->cstr) /* Creating a CFString can fail if the input string does not * adhere to the specified encoding (i.e. it contains invalid UTF8). */ return FALSE; attstr = CFAttributedStringCreate (kCFAllocatorDefault, iter->cstr, attributes); iter->line = CTLineCreateWithAttributedString (attstr); iter->runs = CTLineGetGlyphRuns (iter->line); CFRelease (attstr); CFRelease (attributes); iter->total_ct_i = 0; iter->glyph_count = run_iterator_get_glyph_count (iter); /* If CoreText did not render any glyphs for this string (can happen, * e.g. a run solely consisting of a BOM), glyph_count will be zero and * we immediately set the iterator variable to indicate end of glyph list. */ if (iter->glyph_count > 0) run_iterator_set_current_run (iter, 0); else iter->total_ct_i = -1; return TRUE; }
static void fontheight(XFont *f, int size, int *height, int *ascent) { int i; CFStringRef s; CGRect bbox; CTFontRef font; CTFontDescriptorRef desc; CGContextRef ctxt; CGColorSpaceRef color; s = c2mac(f->name); desc = CTFontDescriptorCreateWithNameAndSize(s, size); CFRelease(s); if(desc == nil) return; font = CTFontCreateWithFontDescriptor(desc, 0, nil); CFRelease(desc); if(font == nil) return; color = CGColorSpaceCreateWithName(kCGColorSpaceGenericGray); ctxt = CGBitmapContextCreate(nil, 1, 1, 8, 1, color, kCGImageAlphaNone); CGColorSpaceRelease(color); CGContextSetTextPosition(ctxt, 0, 0); for(i=0; i<nelem(lines); i++) { CFStringRef keys[] = { kCTFontAttributeName }; CFTypeRef values[] = { font }; CFStringRef str; CFDictionaryRef attrs; CFAttributedStringRef attrString; CGRect r; CTLineRef line; str = c2mac(lines[i]); // See https://developer.apple.com/library/ios/documentation/StringsTextFonts/Conceptual/CoreText_Programming/LayoutOperations/LayoutOperations.html#//apple_ref/doc/uid/TP40005533-CH12-SW2 attrs = CFDictionaryCreate(kCFAllocatorDefault, (const void**)&keys, (const void**)&values, sizeof(keys) / sizeof(keys[0]), &kCFTypeDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks); attrString = CFAttributedStringCreate(kCFAllocatorDefault, str, attrs); CFRelease(str); CFRelease(attrs); line = CTLineCreateWithAttributedString(attrString); r = CTLineGetImageBounds(line, ctxt); r.size.width += r.origin.x; r.size.height += r.origin.y; CFRelease(line); // fprint(2, "%s: %g %g %g %g\n", lines[i], r.origin.x, r.origin.y, r.size.width, r.size.height); if(i == 0) bbox = r; if(bbox.origin.x > r.origin.x) bbox.origin.x = r.origin.x; if(bbox.origin.y > r.origin.y) bbox.origin.y = r.origin.y; if(bbox.size.width < r.size.width) bbox.size.width = r.size.width; if(bbox.size.height < r.size.height) bbox.size.height = r.size.height; } bbox.size.width -= bbox.origin.x; bbox.size.height -= bbox.origin.y; *height = bbox.size.height + 0.999999; *ascent = *height - (-bbox.origin.y + 0.999999); CGContextRelease(ctxt); CFRelease(font); }