/* * Copyright 2006 The Android Open Source Project * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "SkTypes.h" // Keep this before any #ifdef ... #if defined(SK_BUILD_FOR_MAC) || defined(SK_BUILD_FOR_IOS) #ifdef SK_BUILD_FOR_MAC #import <ApplicationServices/ApplicationServices.h> #endif #ifdef SK_BUILD_FOR_IOS #include <CoreText/CoreText.h> #include <CoreText/CTFontManager.h> #include <CoreGraphics/CoreGraphics.h> #include <CoreFoundation/CoreFoundation.h> #endif #include "mac/SkUniqueCFRef.h" #include "SkAdvancedTypefaceMetrics.h" #include "SkAutoMalloc.h" #include "SkCGUtils.h" #include "SkColorData.h" #include "SkDescriptor.h" #include "SkEndian.h" #include "SkFloatingPoint.h" #include "SkFontDescriptor.h" #include "SkFontMetrics.h" #include "SkFontMgr.h" #include "SkGlyph.h" #include "SkMakeUnique.h" #include "SkMaskGamma.h" #include "SkMathPriv.h" #include "SkMutex.h" #include "SkOTTable_OS_2.h" #include "SkOTUtils.h" #include "SkOnce.h" #include "SkPaint.h" #include "SkPath.h" #include "SkSFNTHeader.h" #include "SkStream.h" #include "SkString.h" #include "SkTemplates.h" #include "SkTo.h" #include "SkTypefaceCache.h" #include "SkTypeface_mac.h" #include "SkUTF.h" #include "SkUtils.h" #include <dlfcn.h> #include <utility> // Experimental code to use a global lock whenever we access CG, to see if this reduces // crashes in Chrome #define USE_GLOBAL_MUTEX_FOR_CG_ACCESS #ifdef USE_GLOBAL_MUTEX_FOR_CG_ACCESS SK_DECLARE_STATIC_MUTEX(gCGMutex); #define AUTO_CG_LOCK() SkAutoMutexAcquire amc(gCGMutex) #else #define AUTO_CG_LOCK() #endif // Set to make glyph bounding boxes visible. #define SK_SHOW_TEXT_BLIT_COVERAGE 0 CTFontRef SkTypeface_GetCTFontRef(const SkTypeface* face) { return face ? (CTFontRef)face->internal_private_getCTFontRef() : nullptr; } class SkScalerContext_Mac; static SkUniqueCFRef<CFStringRef> make_CFString(const char s[]) { return SkUniqueCFRef<CFStringRef>(CFStringCreateWithCString(nullptr, s, kCFStringEncodingUTF8)); } // inline versions of these rect helpers static bool CGRectIsEmpty_inline(const CGRect& rect) { return rect.size.width <= 0 || rect.size.height <= 0; } static CGFloat CGRectGetMinX_inline(const CGRect& rect) { return rect.origin.x; } static CGFloat CGRectGetMaxX_inline(const CGRect& rect) { return rect.origin.x + rect.size.width; } static CGFloat CGRectGetMinY_inline(const CGRect& rect) { return rect.origin.y; } static CGFloat CGRectGetMaxY_inline(const CGRect& rect) { return rect.origin.y + rect.size.height; } static CGFloat CGRectGetWidth_inline(const CGRect& rect) { return rect.size.width; } /////////////////////////////////////////////////////////////////////////////// static void sk_memset_rect32(uint32_t* ptr, uint32_t value, int width, int height, size_t rowBytes) { SkASSERT(width); SkASSERT(width * sizeof(uint32_t) <= rowBytes); if (width >= 32) { while (height) { sk_memset32(ptr, value, width); ptr = (uint32_t*)((char*)ptr + rowBytes); height -= 1; } return; } rowBytes -= width * sizeof(uint32_t); if (width >= 8) { while (height) { int w = width; do { *ptr++ = value; *ptr++ = value; *ptr++ = value; *ptr++ = value; *ptr++ = value; *ptr++ = value; *ptr++ = value; *ptr++ = value; w -= 8; } while (w >= 8); while (--w >= 0) { *ptr++ = value; } ptr = (uint32_t*)((char*)ptr + rowBytes); height -= 1; } } else { while (height) { int w = width; do { *ptr++ = value; } while (--w > 0); ptr = (uint32_t*)((char*)ptr + rowBytes); height -= 1; } } } typedef uint32_t CGRGBPixel; static unsigned CGRGBPixel_getAlpha(CGRGBPixel pixel) { return pixel & 0xFF; } static CGFloat ScalarToCG(SkScalar scalar) { if (sizeof(CGFloat) == sizeof(float)) { return SkScalarToFloat(scalar); } else { SkASSERT(sizeof(CGFloat) == sizeof(double)); return (CGFloat) SkScalarToDouble(scalar); } } static SkScalar CGToScalar(CGFloat cgFloat) { if (sizeof(CGFloat) == sizeof(float)) { return SkFloatToScalar(cgFloat); } else { SkASSERT(sizeof(CGFloat) == sizeof(double)); return SkDoubleToScalar(cgFloat); } } static float CGToFloat(CGFloat cgFloat) { if (sizeof(CGFloat) == sizeof(float)) { return cgFloat; } else { SkASSERT(sizeof(CGFloat) == sizeof(double)); return static_cast<float>(cgFloat); } } static CGAffineTransform MatrixToCGAffineTransform(const SkMatrix& matrix) { return CGAffineTransformMake( ScalarToCG(matrix[SkMatrix::kMScaleX]), -ScalarToCG(matrix[SkMatrix::kMSkewY] ), -ScalarToCG(matrix[SkMatrix::kMSkewX] ), ScalarToCG(matrix[SkMatrix::kMScaleY]), ScalarToCG(matrix[SkMatrix::kMTransX]), ScalarToCG(matrix[SkMatrix::kMTransY])); } /////////////////////////////////////////////////////////////////////////////// #define BITMAP_INFO_RGB (kCGImageAlphaNoneSkipFirst | kCGBitmapByteOrder32Host) /** Drawn in FontForge, reduced with fonttools ttx, converted by xxd -i, * this TrueType font contains a glyph of the spider. * * To re-forge the original bytes of the TrueType font file, * remove all ',|( +0x)' from this definition, * copy the data to the clipboard, * run 'pbpaste | xxd -p -r - spider.ttf'. */ static constexpr const uint8_t kSpiderSymbol_ttf[] = { 0x00, 0x01, 0x00, 0x00, 0x00, 0x0c, 0x00, 0x80, 0x00, 0x03, 0x00, 0x40, 0x47, 0x44, 0x45, 0x46, 0x00, 0x14, 0x00, 0x14, 0x00, 0x00, 0x07, 0xa8, 0x00, 0x00, 0x00, 0x18, 0x4f, 0x53, 0x2f, 0x32, 0x8a, 0xf4, 0xfb, 0xdb, 0x00, 0x00, 0x01, 0x48, 0x00, 0x00, 0x00, 0x60, 0x63, 0x6d, 0x61, 0x70, 0xe0, 0x7f, 0x10, 0x7e, 0x00, 0x00, 0x01, 0xb8, 0x00, 0x00, 0x00, 0x54, 0x67, 0x61, 0x73, 0x70, 0xff, 0xff, 0x00, 0x03, 0x00, 0x00, 0x07, 0xa0, 0x00, 0x00, 0x00, 0x08, 0x67, 0x6c, 0x79, 0x66, 0x97, 0x0b, 0x6a, 0xf6, 0x00, 0x00, 0x02, 0x18, 0x00, 0x00, 0x03, 0x40, 0x68, 0x65, 0x61, 0x64, 0x0f, 0xa2, 0x24, 0x1a, 0x00, 0x00, 0x00, 0xcc, 0x00, 0x00, 0x00, 0x36, 0x68, 0x68, 0x65, 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0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01, 0xff, 0xff, 0x00, 0x02, 0x00, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x0c, 0x00, 0x14, 0x00, 0x04, 0x00, 0x00, 0x00, 0x01, 0x00, 0x00, 0x00, 0x02, 0x00, 0x00 }; enum class SmoothBehavior { none, // SmoothFonts produces no effect. some, // SmoothFonts produces some effect, but not subpixel coverage. subpixel, // SmoothFonts produces some effect and provides subpixel coverage. }; /** * There does not appear to be a publicly accessable API for determining if lcd * font smoothing will be applied if we request it. The main issue is that if * smoothing is applied a gamma of 2.0 will be used, if not a gamma of 1.0. */ static SmoothBehavior smooth_behavior() { static SmoothBehavior gSmoothBehavior = []{ uint32_t noSmoothBitmap[16][16] = {}; uint32_t smoothBitmap[16][16] = {}; SkUniqueCFRef<CGColorSpaceRef> colorspace(CGColorSpaceCreateDeviceRGB()); SkUniqueCFRef<CGContextRef> noSmoothContext( CGBitmapContextCreate(&noSmoothBitmap, 16, 16, 8, 16*4, colorspace.get(), BITMAP_INFO_RGB)); SkUniqueCFRef<CGContextRef> smoothContext( CGBitmapContextCreate(&smoothBitmap, 16, 16, 8, 16*4, colorspace.get(), BITMAP_INFO_RGB)); SkUniqueCFRef<CGDataProviderRef> data( CGDataProviderCreateWithData(nullptr, kSpiderSymbol_ttf, SK_ARRAY_COUNT(kSpiderSymbol_ttf), nullptr)); SkUniqueCFRef<CGFontRef> cgFont(CGFontCreateWithDataProvider(data.get())); SkASSERT(cgFont); SkUniqueCFRef<CTFontRef> ctFont( CTFontCreateWithGraphicsFont(cgFont.get(), 16, nullptr, nullptr)); SkASSERT(ctFont); CGContextSetShouldSmoothFonts(noSmoothContext.get(), false); CGContextSetShouldAntialias(noSmoothContext.get(), true); CGContextSetTextDrawingMode(noSmoothContext.get(), kCGTextFill); CGContextSetGrayFillColor(noSmoothContext.get(), 1, 1); CGContextSetShouldSmoothFonts(smoothContext.get(), true); CGContextSetShouldAntialias(smoothContext.get(), true); CGContextSetTextDrawingMode(smoothContext.get(), kCGTextFill); CGContextSetGrayFillColor(smoothContext.get(), 1, 1); CGPoint point = CGPointMake(0, 3); CGGlyph spiderGlyph = 3; CTFontDrawGlyphs(ctFont.get(), &spiderGlyph, &point, 1, noSmoothContext.get()); CTFontDrawGlyphs(ctFont.get(), &spiderGlyph, &point, 1, smoothContext.get()); // For debugging. //SkUniqueCFRef<CGImageRef> image(CGBitmapContextCreateImage(noSmoothContext())); //SkUniqueCFRef<CGImageRef> image(CGBitmapContextCreateImage(smoothContext())); SmoothBehavior smoothBehavior = SmoothBehavior::none; for (int x = 0; x < 16; ++x) { for (int y = 0; y < 16; ++y) { uint32_t smoothPixel = smoothBitmap[x][y]; uint32_t r = (smoothPixel >> 16) & 0xFF; uint32_t g = (smoothPixel >> 8) & 0xFF; uint32_t b = (smoothPixel >> 0) & 0xFF; if (r != g || r != b) { return SmoothBehavior::subpixel; } if (noSmoothBitmap[x][y] != smoothPixel) { smoothBehavior = SmoothBehavior::some; } } } return smoothBehavior; }(); return gSmoothBehavior; } class Offscreen { public: Offscreen() : fRGBSpace(nullptr) , fCG(nullptr) , fDoAA(false) , fDoLCD(false) { fSize.set(0, 0); } CGRGBPixel* getCG(const SkScalerContext_Mac& context, const SkGlyph& glyph, CGGlyph glyphID, size_t* rowBytesPtr, bool generateA8FromLCD); private: enum { kSize = 32 * 32 * sizeof(CGRGBPixel) }; SkAutoSMalloc<kSize> fImageStorage; SkUniqueCFRef<CGColorSpaceRef> fRGBSpace; // cached state SkUniqueCFRef<CGContextRef> fCG; SkISize fSize; bool fDoAA; bool fDoLCD; static int RoundSize(int dimension) { return SkNextPow2(dimension); } }; /////////////////////////////////////////////////////////////////////////////// static bool find_dict_CGFloat(CFDictionaryRef dict, CFStringRef name, CGFloat* value) { CFNumberRef num; return CFDictionaryGetValueIfPresent(dict, name, (const void**)&num) && CFNumberIsFloatType(num) && CFNumberGetValue(num, kCFNumberCGFloatType, value); } template <typename S, typename D, typename C> struct LinearInterpolater { struct Mapping { S src_val; D dst_val; }; constexpr LinearInterpolater(Mapping const mapping[], int mappingCount) : fMapping(mapping), fMappingCount(mappingCount) {} static D map(S value, S src_min, S src_max, D dst_min, D dst_max) { SkASSERT(src_min < src_max); SkASSERT(dst_min <= dst_max); return C()(dst_min + (((value - src_min) * (dst_max - dst_min)) / (src_max - src_min))); } D map(S val) const { // -Inf to [0] if (val < fMapping[0].src_val) { return fMapping[0].dst_val; } // Linear from [i] to [i+1] for (int i = 0; i < fMappingCount - 1; ++i) { if (val < fMapping[i+1].src_val) { return map(val, fMapping[i].src_val, fMapping[i+1].src_val, fMapping[i].dst_val, fMapping[i+1].dst_val); } } // From [n] to +Inf // if (fcweight < Inf) return fMapping[fMappingCount - 1].dst_val; } Mapping const * fMapping; int fMappingCount; }; struct RoundCGFloatToInt { int operator()(CGFloat s) { return s + 0.5; } }; struct CGFloatIdentity { CGFloat operator()(CGFloat s) { return s; } }; /** Returns the [-1, 1] CTFontDescriptor weights for the * <0, 100, 200, 300, 400, 500, 600, 700, 800, 900, 1000> CSS weights. * * It is assumed that the values will be interpolated linearly between these points. * NSFontWeightXXX were added in 10.11, appear in 10.10, but do not appear in 10.9. * The actual values appear to be stable, but they may change in the future without notice. */ static CGFloat(&get_NSFontWeight_mapping())[11] { // Declarations in <AppKit/AppKit.h> on macOS, <UIKit/UIKit.h> on iOS #ifdef SK_BUILD_FOR_MAC # define SK_KIT_FONT_WEIGHT_PREFIX "NS" #endif #ifdef SK_BUILD_FOR_IOS # define SK_KIT_FONT_WEIGHT_PREFIX "UI" #endif static constexpr struct { CGFloat defaultValue; const char* name; } nsFontWeightLoaderInfos[] = { { -0.80f, SK_KIT_FONT_WEIGHT_PREFIX "FontWeightUltraLight" }, { -0.60f, SK_KIT_FONT_WEIGHT_PREFIX "FontWeightThin" }, { -0.40f, SK_KIT_FONT_WEIGHT_PREFIX "FontWeightLight" }, { 0.00f, SK_KIT_FONT_WEIGHT_PREFIX "FontWeightRegular" }, { 0.23f, SK_KIT_FONT_WEIGHT_PREFIX "FontWeightMedium" }, { 0.30f, SK_KIT_FONT_WEIGHT_PREFIX "FontWeightSemibold" }, { 0.40f, SK_KIT_FONT_WEIGHT_PREFIX "FontWeightBold" }, { 0.56f, SK_KIT_FONT_WEIGHT_PREFIX "FontWeightHeavy" }, { 0.62f, SK_KIT_FONT_WEIGHT_PREFIX "FontWeightBlack" }, }; static_assert(SK_ARRAY_COUNT(nsFontWeightLoaderInfos) == 9, ""); static CGFloat nsFontWeights[11]; static SkOnce once; once([&] { size_t i = 0; nsFontWeights[i++] = -1.00; for (const auto& nsFontWeightLoaderInfo : nsFontWeightLoaderInfos) { void* nsFontWeightValuePtr = dlsym(RTLD_DEFAULT, nsFontWeightLoaderInfo.name); if (nsFontWeightValuePtr) { nsFontWeights[i++] = *(static_cast<CGFloat*>(nsFontWeightValuePtr)); } else { nsFontWeights[i++] = nsFontWeightLoaderInfo.defaultValue; } } nsFontWeights[i++] = 1.00; }); return nsFontWeights; } /** Convert the [0, 1000] CSS weight to [-1, 1] CTFontDescriptor weight (for system fonts). * * The -1 to 1 weights reported by CTFontDescriptors have different mappings depending on if the * CTFont is native or created from a CGDataProvider. */ static CGFloat fontstyle_to_ct_weight(int fontstyleWeight) { using Interpolator = LinearInterpolater<int, CGFloat, CGFloatIdentity>; // Note that Mac supports the old OS2 version A so 0 through 10 are as if multiplied by 100. // However, on this end we can't tell, so this is ignored. static Interpolator::Mapping nativeWeightMappings[11]; static SkOnce once; once([&] { CGFloat(&nsFontWeights)[11] = get_NSFontWeight_mapping(); for (int i = 0; i < 11; ++i) { nativeWeightMappings[i].src_val = i * 100; nativeWeightMappings[i].dst_val = nsFontWeights[i]; } }); static constexpr Interpolator nativeInterpolator( nativeWeightMappings, SK_ARRAY_COUNT(nativeWeightMappings)); return nativeInterpolator.map(fontstyleWeight); } /** Convert the [-1, 1] CTFontDescriptor weight to [0, 1000] CSS weight. * * The -1 to 1 weights reported by CTFontDescriptors have different mappings depending on if the * CTFont is native or created from a CGDataProvider. */ static int ct_weight_to_fontstyle(CGFloat cgWeight, bool fromDataProvider) { using Interpolator = LinearInterpolater<CGFloat, int, RoundCGFloatToInt>; // Note that Mac supports the old OS2 version A so 0 through 10 are as if multiplied by 100. // However, on this end we can't tell, so this is ignored. /** This mapping for CGDataProvider created fonts is determined by creating font data with every * weight, creating a CTFont, and asking the CTFont for its weight. See the TypefaceStyle test * in tests/TypefaceTest.cpp for the code used to determine these values. */ static constexpr Interpolator::Mapping dataProviderWeightMappings[] = { { -1.00, 0 }, { -0.70, 100 }, { -0.50, 200 }, { -0.23, 300 }, { 0.00, 400 }, { 0.20, 500 }, { 0.30, 600 }, { 0.40, 700 }, { 0.60, 800 }, { 0.80, 900 }, { 1.00, 1000 }, }; static constexpr Interpolator dataProviderInterpolator( dataProviderWeightMappings, SK_ARRAY_COUNT(dataProviderWeightMappings)); static Interpolator::Mapping nativeWeightMappings[11]; static SkOnce once; once([&] { CGFloat(&nsFontWeights)[11] = get_NSFontWeight_mapping(); for (int i = 0; i < 11; ++i) { nativeWeightMappings[i].src_val = nsFontWeights[i]; nativeWeightMappings[i].dst_val = i * 100; } }); static constexpr Interpolator nativeInterpolator( nativeWeightMappings, SK_ARRAY_COUNT(nativeWeightMappings)); return fromDataProvider ? dataProviderInterpolator.map(cgWeight) : nativeInterpolator.map(cgWeight); } /** Convert the [0, 10] CSS weight to [-1, 1] CTFontDescriptor width. */ static int fontstyle_to_ct_width(int fontstyleWidth) { using Interpolator = LinearInterpolater<int, CGFloat, CGFloatIdentity>; // Values determined by creating font data with every width, creating a CTFont, // and asking the CTFont for its width. See TypefaceStyle test for basics. static constexpr Interpolator::Mapping widthMappings[] = { { 0, -0.5 }, { 10, 0.5 }, }; static constexpr Interpolator interpolator(widthMappings, SK_ARRAY_COUNT(widthMappings)); return interpolator.map(fontstyleWidth); } /** Convert the [-1, 1] CTFontDescriptor width to [0, 10] CSS weight. */ static int ct_width_to_fontstyle(CGFloat cgWidth) { using Interpolator = LinearInterpolater<CGFloat, int, RoundCGFloatToInt>; // Values determined by creating font data with every width, creating a CTFont, // and asking the CTFont for its width. See TypefaceStyle test for basics. static constexpr Interpolator::Mapping widthMappings[] = { { -0.5, 0 }, { 0.5, 10 }, }; static constexpr Interpolator interpolator(widthMappings, SK_ARRAY_COUNT(widthMappings)); return interpolator.map(cgWidth); } static SkFontStyle fontstyle_from_descriptor(CTFontDescriptorRef desc, bool fromDataProvider) { SkUniqueCFRef<CFTypeRef> traits(CTFontDescriptorCopyAttribute(desc, kCTFontTraitsAttribute)); if (!traits || CFDictionaryGetTypeID() != CFGetTypeID(traits.get())) { return SkFontStyle(); } SkUniqueCFRef<CFDictionaryRef> fontTraitsDict(static_cast<CFDictionaryRef>(traits.release())); CGFloat weight, width, slant; if (!find_dict_CGFloat(fontTraitsDict.get(), kCTFontWeightTrait, &weight)) { weight = 0; } if (!find_dict_CGFloat(fontTraitsDict.get(), kCTFontWidthTrait, &width)) { width = 0; } if (!find_dict_CGFloat(fontTraitsDict.get(), kCTFontSlantTrait, &slant)) { slant = 0; } return SkFontStyle(ct_weight_to_fontstyle(weight, fromDataProvider), ct_width_to_fontstyle(width), slant ? SkFontStyle::kItalic_Slant : SkFontStyle::kUpright_Slant); } class SkTypeface_Mac : public SkTypeface { public: SkTypeface_Mac(SkUniqueCFRef<CTFontRef> fontRef, SkUniqueCFRef<CFTypeRef> resourceRef, const SkFontStyle& fs, bool isFixedPitch, bool isLocalStream) : SkTypeface(fs, isFixedPitch) , fFontRef(std::move(fontRef)) , fOriginatingCFTypeRef(std::move(resourceRef)) , fHasColorGlyphs( SkToBool(CTFontGetSymbolicTraits(fFontRef.get()) & kCTFontColorGlyphsTrait)) , fIsLocalStream(isLocalStream) { SkASSERT(fFontRef); } SkUniqueCFRef<CTFontRef> fFontRef; SkUniqueCFRef<CFTypeRef> fOriginatingCFTypeRef; const bool fHasColorGlyphs; protected: int onGetUPEM() const override; SkStreamAsset* onOpenStream(int* ttcIndex) const override; std::unique_ptr<SkFontData> onMakeFontData() const override; int onGetVariationDesignPosition(SkFontArguments::VariationPosition::Coordinate coordinates[], int coordinateCount) const override; void onGetFamilyName(SkString* familyName) const override; SkTypeface::LocalizedStrings* onCreateFamilyNameIterator() const override; int onGetTableTags(SkFontTableTag tags[]) const override; size_t onGetTableData(SkFontTableTag, size_t offset, size_t length, void* data) const override; SkScalerContext* onCreateScalerContext(const SkScalerContextEffects&, const SkDescriptor*) const override; void onFilterRec(SkScalerContextRec*) const override; void onGetFontDescriptor(SkFontDescriptor*, bool*) const override; void getGlyphToUnicodeMap(SkUnichar*) const override; std::unique_ptr<SkAdvancedTypefaceMetrics> onGetAdvancedMetrics() const override; int onCharsToGlyphs(const void* chars, Encoding, uint16_t glyphs[], int glyphCount) const override; int onCountGlyphs() const override; void* onGetCTFontRef() const override { return (void*)fFontRef.get(); } private: bool fIsLocalStream; typedef SkTypeface INHERITED; }; static bool find_by_CTFontRef(SkTypeface* cached, void* context) { CTFontRef self = (CTFontRef)context; CTFontRef other = (CTFontRef)cached->internal_private_getCTFontRef(); return CFEqual(self, other); } /** Creates a typeface, searching the cache if isLocalStream is false. */ static sk_sp<SkTypeface> create_from_CTFontRef(SkUniqueCFRef<CTFontRef> font, SkUniqueCFRef<CFTypeRef> resource, bool isLocalStream) { SkASSERT(font); if (!isLocalStream) { SkTypeface* face = SkTypefaceCache::FindByProcAndRef(find_by_CTFontRef, (void*)font.get()); if (face) { return sk_sp<SkTypeface>(face); } } SkUniqueCFRef<CTFontDescriptorRef> desc(CTFontCopyFontDescriptor(font.get())); SkFontStyle style = fontstyle_from_descriptor(desc.get(), isLocalStream); CTFontSymbolicTraits traits = CTFontGetSymbolicTraits(font.get()); bool isFixedPitch = SkToBool(traits & kCTFontMonoSpaceTrait); SkTypeface* face = new SkTypeface_Mac(std::move(font), std::move(resource), style, isFixedPitch, isLocalStream); if (!isLocalStream) { SkTypefaceCache::Add(face); } return sk_sp<SkTypeface>(face); } /** Creates a typeface from a descriptor, searching the cache. */ static sk_sp<SkTypeface> create_from_desc(CTFontDescriptorRef desc) { SkUniqueCFRef<CTFontRef> ctFont(CTFontCreateWithFontDescriptor(desc, 0, nullptr)); if (!ctFont) { return nullptr; } return create_from_CTFontRef(std::move(ctFont), nullptr, false); } static SkUniqueCFRef<CTFontDescriptorRef> create_descriptor(const char familyName[], const SkFontStyle& style) { SkUniqueCFRef<CFMutableDictionaryRef> cfAttributes( CFDictionaryCreateMutable(kCFAllocatorDefault, 0, &kCFTypeDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks)); SkUniqueCFRef<CFMutableDictionaryRef> cfTraits( CFDictionaryCreateMutable(kCFAllocatorDefault, 0, &kCFTypeDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks)); if (!cfAttributes || !cfTraits) { return nullptr; } // CTFontTraits (symbolic) // macOS 14 and iOS 12 seem to behave badly when kCTFontSymbolicTrait is set. // CTFontTraits (weight) CGFloat ctWeight = fontstyle_to_ct_weight(style.weight()); SkUniqueCFRef<CFNumberRef> cfFontWeight( CFNumberCreate(kCFAllocatorDefault, kCFNumberCGFloatType, &ctWeight)); if (cfFontWeight) { CFDictionaryAddValue(cfTraits.get(), kCTFontWeightTrait, cfFontWeight.get()); } // CTFontTraits (width) CGFloat ctWidth = fontstyle_to_ct_width(style.width()); SkUniqueCFRef<CFNumberRef> cfFontWidth( CFNumberCreate(kCFAllocatorDefault, kCFNumberCGFloatType, &ctWidth)); if (cfFontWidth) { CFDictionaryAddValue(cfTraits.get(), kCTFontWidthTrait, cfFontWidth.get()); } // CTFontTraits (slant) CGFloat ctSlant = style.slant() == SkFontStyle::kUpright_Slant ? 0 : 1; SkUniqueCFRef<CFNumberRef> cfFontSlant( CFNumberCreate(kCFAllocatorDefault, kCFNumberCGFloatType, &ctSlant)); if (cfFontSlant) { CFDictionaryAddValue(cfTraits.get(), kCTFontSlantTrait, cfFontSlant.get()); } // CTFontTraits CFDictionaryAddValue(cfAttributes.get(), kCTFontTraitsAttribute, cfTraits.get()); // CTFontFamilyName if (familyName) { SkUniqueCFRef<CFStringRef> cfFontName = make_CFString(familyName); if (cfFontName) { CFDictionaryAddValue(cfAttributes.get(), kCTFontFamilyNameAttribute, cfFontName.get()); } } return SkUniqueCFRef<CTFontDescriptorRef>( CTFontDescriptorCreateWithAttributes(cfAttributes.get())); } /** Creates a typeface from a name, searching the cache. */ static sk_sp<SkTypeface> create_from_name(const char familyName[], const SkFontStyle& style) { SkUniqueCFRef<CTFontDescriptorRef> desc = create_descriptor(familyName, style); if (!desc) { return nullptr; } return create_from_desc(desc.get()); } /////////////////////////////////////////////////////////////////////////////// /* This function is visible on the outside. It first searches the cache, and if * not found, returns a new entry (after adding it to the cache). */ SkTypeface* SkCreateTypefaceFromCTFont(CTFontRef font, CFTypeRef resource) { CFRetain(font); if (resource) { CFRetain(resource); } return create_from_CTFontRef(SkUniqueCFRef<CTFontRef>(font), SkUniqueCFRef<CFTypeRef>(resource), false).release(); } static const char* map_css_names(const char* name) { static const struct { const char* fFrom; // name the caller specified const char* fTo; // "canonical" name we map to } gPairs[] = { { "sans-serif", "Helvetica" }, { "serif", "Times" }, { "monospace", "Courier" } }; for (size_t i = 0; i < SK_ARRAY_COUNT(gPairs); i++) { if (strcmp(name, gPairs[i].fFrom) == 0) { return gPairs[i].fTo; } } return name; // no change } /////////////////////////////////////////////////////////////////////////////// class SkScalerContext_Mac : public SkScalerContext { public: SkScalerContext_Mac(sk_sp<SkTypeface_Mac>, const SkScalerContextEffects&, const SkDescriptor*); protected: unsigned generateGlyphCount(void) override; uint16_t generateCharToGlyph(SkUnichar uni) override; bool generateAdvance(SkGlyph* glyph) override; void generateMetrics(SkGlyph* glyph) override; void generateImage(const SkGlyph& glyph) override; bool generatePath(SkGlyphID glyph, SkPath* path) override; void generateFontMetrics(SkFontMetrics*) override; private: static void CTPathElement(void *info, const CGPathElement *element); Offscreen fOffscreen; /** Unrotated variant of fCTFont. * * In 10.10.1 CTFontGetAdvancesForGlyphs applies the font transform to the width of the * advances, but always sets the height to 0. This font is used to get the advances of the * unrotated glyph, and then the rotation is applied separately. * * CT vertical metrics are pre-rotated (in em space, before transform) 90deg clock-wise. * This makes kCTFontOrientationDefault dangerous, because the metrics from * kCTFontOrientationHorizontal are in a different space from kCTFontOrientationVertical. * With kCTFontOrientationVertical the advances must be unrotated. * * Sometimes, creating a copy of a CTFont with the same size but different trasform will select * different underlying font data. As a result, avoid ever creating more than one CTFont per * SkScalerContext to ensure that only one CTFont is used. * * As a result of the above (and other constraints) this font contains the size, but not the * transform. The transform must always be applied separately. */ SkUniqueCFRef<CTFontRef> fCTFont; /** The transform without the font size. */ CGAffineTransform fTransform; CGAffineTransform fInvTransform; SkUniqueCFRef<CGFontRef> fCGFont; uint16_t fGlyphCount; const bool fDoSubPosition; friend class Offscreen; typedef SkScalerContext INHERITED; }; // CTFontCreateCopyWithAttributes or CTFontCreateCopyWithSymbolicTraits cannot be used on 10.10 // and later, as they will return different underlying fonts depending on the size requested. // It is not possible to use descriptors with CTFontCreateWithFontDescriptor, since that does not // work with non-system fonts. As a result, create the strike specific CTFonts from the underlying // CGFont. static SkUniqueCFRef<CTFontRef> ctfont_create_exact_copy(CTFontRef baseFont, CGFloat textSize, const CGAffineTransform* transform) { SkUniqueCFRef<CGFontRef> baseCGFont(CTFontCopyGraphicsFont(baseFont, nullptr)); // The last parameter (CTFontDescriptorRef attributes) *must* be nullptr. // If non-nullptr then with fonts with variation axes, the copy will fail in // CGFontVariationFromDictCallback when it assumes kCGFontVariationAxisName is CFNumberRef // which it quite obviously is not. // Because we cannot setup the CTFont descriptor to match, the same restriction applies here // as other uses of CTFontCreateWithGraphicsFont which is that such CTFonts should not escape // the scaler context, since they aren't 'normal'. return SkUniqueCFRef<CTFontRef>( CTFontCreateWithGraphicsFont(baseCGFont.get(), textSize, transform, nullptr)); } SkScalerContext_Mac::SkScalerContext_Mac(sk_sp<SkTypeface_Mac> typeface, const SkScalerContextEffects& effects, const SkDescriptor* desc) : INHERITED(std::move(typeface), effects, desc) , fDoSubPosition(SkToBool(fRec.fFlags & kSubpixelPositioning_Flag)) { AUTO_CG_LOCK(); CTFontRef ctFont = (CTFontRef)this->getTypeface()->internal_private_getCTFontRef(); CFIndex numGlyphs = CTFontGetGlyphCount(ctFont); SkASSERT(numGlyphs >= 1 && numGlyphs <= 0xFFFF); fGlyphCount = SkToU16(numGlyphs); // CT on (at least) 10.9 will size color glyphs down from the requested size, but not up. // As a result, it is necessary to know the actual device size and request that. SkVector scale; SkMatrix skTransform; bool invertible = fRec.computeMatrices(SkScalerContextRec::kVertical_PreMatrixScale, &scale, &skTransform, nullptr, nullptr, nullptr); fTransform = MatrixToCGAffineTransform(skTransform); // CGAffineTransformInvert documents that if the transform is non-invertible it will return the // passed transform unchanged. It does so, but then also prints a message to stdout. Avoid this. if (invertible) { fInvTransform = CGAffineTransformInvert(fTransform); } else { fInvTransform = fTransform; } // The transform contains everything except the requested text size. // Some properties, like 'trak', are based on the text size (before applying the matrix). CGFloat textSize = ScalarToCG(scale.y()); fCTFont = ctfont_create_exact_copy(ctFont, textSize, nullptr); fCGFont.reset(CTFontCopyGraphicsFont(fCTFont.get(), nullptr)); } CGRGBPixel* Offscreen::getCG(const SkScalerContext_Mac& context, const SkGlyph& glyph, CGGlyph glyphID, size_t* rowBytesPtr, bool generateA8FromLCD) { if (!fRGBSpace) { //It doesn't appear to matter what color space is specified. //Regular blends and antialiased text are always (s*a + d*(1-a)) //and subpixel antialiased text is always g=2.0. fRGBSpace.reset(CGColorSpaceCreateDeviceRGB()); } // default to kBW_Format bool doAA = false; bool doLCD = false; if (SkMask::kBW_Format != glyph.fMaskFormat) { doLCD = true; doAA = true; } // FIXME: lcd smoothed un-hinted rasterization unsupported. if (!generateA8FromLCD && SkMask::kA8_Format == glyph.fMaskFormat) { doLCD = false; doAA = true; } // If this font might have color glyphs, disable LCD as there's no way to support it. // CoreText doesn't tell us which format it ended up using, so we can't detect it. // A8 will end up black on transparent, but TODO: we can detect gray and set to A8. if (SkMask::kARGB32_Format == glyph.fMaskFormat) { doLCD = false; } size_t rowBytes = fSize.fWidth * sizeof(CGRGBPixel); if (!fCG || fSize.fWidth < glyph.fWidth || fSize.fHeight < glyph.fHeight) { if (fSize.fWidth < glyph.fWidth) { fSize.fWidth = RoundSize(glyph.fWidth); } if (fSize.fHeight < glyph.fHeight) { fSize.fHeight = RoundSize(glyph.fHeight); } rowBytes = fSize.fWidth * sizeof(CGRGBPixel); void* image = fImageStorage.reset(rowBytes * fSize.fHeight); const CGImageAlphaInfo alpha = (SkMask::kARGB32_Format == glyph.fMaskFormat) ? kCGImageAlphaPremultipliedFirst : kCGImageAlphaNoneSkipFirst; const CGBitmapInfo bitmapInfo = kCGBitmapByteOrder32Host | alpha; fCG.reset(CGBitmapContextCreate(image, fSize.fWidth, fSize.fHeight, 8, rowBytes, fRGBSpace.get(), bitmapInfo)); // Skia handles quantization and subpixel positioning, // so disable quantization and enabe subpixel positioning in CG. CGContextSetAllowsFontSubpixelQuantization(fCG.get(), false); CGContextSetShouldSubpixelQuantizeFonts(fCG.get(), false); // Because CG always draws from the horizontal baseline, // if there is a non-integral translation from the horizontal origin to the vertical origin, // then CG cannot draw the glyph in the correct location without subpixel positioning. CGContextSetAllowsFontSubpixelPositioning(fCG.get(), true); CGContextSetShouldSubpixelPositionFonts(fCG.get(), true); CGContextSetTextDrawingMode(fCG.get(), kCGTextFill); // Draw black on white to create mask. (Special path exists to speed this up in CG.) CGContextSetGrayFillColor(fCG.get(), 0.0f, 1.0f); // force our checks below to happen fDoAA = !doAA; fDoLCD = !doLCD; CGContextSetTextMatrix(fCG.get(), context.fTransform); } if (fDoAA != doAA) { CGContextSetShouldAntialias(fCG.get(), doAA); fDoAA = doAA; } if (fDoLCD != doLCD) { CGContextSetShouldSmoothFonts(fCG.get(), doLCD); fDoLCD = doLCD; } CGRGBPixel* image = (CGRGBPixel*)fImageStorage.get(); // skip rows based on the glyph's height image += (fSize.fHeight - glyph.fHeight) * fSize.fWidth; // Erase to white (or transparent black if it's a color glyph, to not composite against white). uint32_t bgColor = (SkMask::kARGB32_Format != glyph.fMaskFormat) ? 0xFFFFFFFF : 0x00000000; sk_memset_rect32(image, bgColor, glyph.fWidth, glyph.fHeight, rowBytes); float subX = 0; float subY = 0; if (context.fDoSubPosition) { subX = SkFixedToFloat(glyph.getSubXFixed()); subY = SkFixedToFloat(glyph.getSubYFixed()); } CGPoint point = CGPointMake(-glyph.fLeft + subX, glyph.fTop + glyph.fHeight - subY); // Prior to 10.10, CTFontDrawGlyphs acted like CGContextShowGlyphsAtPositions and took // 'positions' which are in text space. The glyph location (in device space) must be // mapped into text space, so that CG can convert it back into device space. // In 10.10.1, this is handled directly in CTFontDrawGlyphs. // // However, in 10.10.2 color glyphs no longer rotate based on the font transform. // So always make the font transform identity and place the transform on the context. point = CGPointApplyAffineTransform(point, context.fInvTransform); CTFontDrawGlyphs(context.fCTFont.get(), &glyphID, &point, 1, fCG.get()); SkASSERT(rowBytesPtr); *rowBytesPtr = rowBytes; return image; } unsigned SkScalerContext_Mac::generateGlyphCount(void) { return fGlyphCount; } uint16_t SkScalerContext_Mac::generateCharToGlyph(SkUnichar uni) { AUTO_CG_LOCK(); CGGlyph cgGlyph[2]; UniChar theChar[2]; // UniChar is a UTF-16 16-bit code unit. // Get the glyph size_t numUniChar = SkUTF::ToUTF16(uni, theChar); SkASSERT(sizeof(CGGlyph) <= sizeof(uint16_t)); // Undocumented behavior of CTFontGetGlyphsForCharacters with non-bmp code points: // When a surrogate pair is detected, the glyph index used is the index of the high surrogate. // It is documented that if a mapping is unavailable, the glyph will be set to 0. CTFontGetGlyphsForCharacters(fCTFont.get(), theChar, cgGlyph, numUniChar); return cgGlyph[0]; } bool SkScalerContext_Mac::generateAdvance(SkGlyph* glyph) { return false; } void SkScalerContext_Mac::generateMetrics(SkGlyph* glyph) { AUTO_CG_LOCK(); glyph->fMaskFormat = fRec.fMaskFormat; const CGGlyph cgGlyph = (CGGlyph) glyph->getGlyphID(); glyph->zeroMetrics(); // The following block produces cgAdvance in CG units (pixels, y up). CGSize cgAdvance; CTFontGetAdvancesForGlyphs(fCTFont.get(), kCTFontOrientationHorizontal, &cgGlyph, &cgAdvance, 1); cgAdvance = CGSizeApplyAffineTransform(cgAdvance, fTransform); glyph->fAdvanceX = CGToFloat(cgAdvance.width); glyph->fAdvanceY = -CGToFloat(cgAdvance.height); // The following produces skBounds in SkGlyph units (pixels, y down), // or returns early if skBounds would be empty. SkRect skBounds; // Glyphs are always drawn from the horizontal origin. The caller must manually use the result // of CTFontGetVerticalTranslationsForGlyphs to calculate where to draw the glyph for vertical // glyphs. As a result, always get the horizontal bounds of a glyph and translate it if the // glyph is vertical. This avoids any diagreement between the various means of retrieving // vertical metrics. { // CTFontGetBoundingRectsForGlyphs produces cgBounds in CG units (pixels, y up). CGRect cgBounds; CTFontGetBoundingRectsForGlyphs(fCTFont.get(), kCTFontOrientationHorizontal, &cgGlyph, &cgBounds, 1); cgBounds = CGRectApplyAffineTransform(cgBounds, fTransform); // BUG? // 0x200B (zero-advance space) seems to return a huge (garbage) bounds, when // it should be empty. So, if we see a zero-advance, we check if it has an // empty path or not, and if so, we jam the bounds to 0. Hopefully a zero-advance // is rare, so we won't incur a big performance cost for this extra check. if (0 == cgAdvance.width && 0 == cgAdvance.height) { SkUniqueCFRef<CGPathRef> path(CTFontCreatePathForGlyph(fCTFont.get(), cgGlyph,nullptr)); if (!path || CGPathIsEmpty(path.get())) { return; } } if (CGRectIsEmpty_inline(cgBounds)) { return; } // Convert cgBounds to SkGlyph units (pixels, y down). skBounds = SkRect::MakeXYWH(cgBounds.origin.x, -cgBounds.origin.y - cgBounds.size.height, cgBounds.size.width, cgBounds.size.height); } // Currently the bounds are based on being rendered at (0,0). // The top left must not move, since that is the base from which subpixel positioning is offset. if (fDoSubPosition) { skBounds.fRight += SkFixedToFloat(glyph->getSubXFixed()); skBounds.fBottom += SkFixedToFloat(glyph->getSubYFixed()); } // We're trying to pack left and top into int16_t, // and width and height into uint16_t, after outsetting by 1. if (!SkRect::MakeXYWH(-32767, -32767, 65535, 65535).contains(skBounds)) { return; } SkIRect skIBounds; skBounds.roundOut(&skIBounds); // Expand the bounds by 1 pixel, to give CG room for anti-aliasing. // Note that this outset is to allow room for LCD smoothed glyphs. However, the correct outset // is not currently known, as CG dilates the outlines by some percentage. // Note that if this context is A8 and not back-forming from LCD, there is no need to outset. skIBounds.outset(1, 1); glyph->fLeft = SkToS16(skIBounds.fLeft); glyph->fTop = SkToS16(skIBounds.fTop); glyph->fWidth = SkToU16(skIBounds.width()); glyph->fHeight = SkToU16(skIBounds.height()); } #include "SkColorData.h" static constexpr uint8_t sk_pow2_table(size_t i) { return SkToU8(((i * i + 128) / 255)); } /** * This will invert the gamma applied by CoreGraphics, so we can get linear * values. * * CoreGraphics obscurely defaults to 2.0 as the subpixel coverage gamma value. * The color space used does not appear to affect this choice. */ static constexpr auto gLinearCoverageFromCGLCDValue = SkMakeArray<256>(sk_pow2_table); static void cgpixels_to_bits(uint8_t dst[], const CGRGBPixel src[], int count) { while (count > 0) { uint8_t mask = 0; for (int i = 7; i >= 0; --i) { mask |= ((CGRGBPixel_getAlpha(*src++) >> 7) ^ 0x1) << i; if (0 == --count) { break; } } *dst++ = mask; } } template<bool APPLY_PREBLEND> static inline uint8_t rgb_to_a8(CGRGBPixel rgb, const uint8_t* table8) { U8CPU r = 0xFF - ((rgb >> 16) & 0xFF); U8CPU g = 0xFF - ((rgb >> 8) & 0xFF); U8CPU b = 0xFF - ((rgb >> 0) & 0xFF); U8CPU lum = sk_apply_lut_if<APPLY_PREBLEND>(SkComputeLuminance(r, g, b), table8); #if SK_SHOW_TEXT_BLIT_COVERAGE lum = SkTMax(lum, (U8CPU)0x30); #endif return lum; } template<bool APPLY_PREBLEND> static void rgb_to_a8(const CGRGBPixel* SK_RESTRICT cgPixels, size_t cgRowBytes, const SkGlyph& glyph, const uint8_t* table8) { const int width = glyph.fWidth; size_t dstRB = glyph.rowBytes(); uint8_t* SK_RESTRICT dst = (uint8_t*)glyph.fImage; for (int y = 0; y < glyph.fHeight; y++) { for (int i = 0; i < width; ++i) { dst[i] = rgb_to_a8<APPLY_PREBLEND>(cgPixels[i], table8); } cgPixels = SkTAddOffset<const CGRGBPixel>(cgPixels, cgRowBytes); dst = SkTAddOffset<uint8_t>(dst, dstRB); } } template<bool APPLY_PREBLEND> static inline uint16_t rgb_to_lcd16(CGRGBPixel rgb, const uint8_t* tableR, const uint8_t* tableG, const uint8_t* tableB) { U8CPU r = sk_apply_lut_if<APPLY_PREBLEND>(0xFF - ((rgb >> 16) & 0xFF), tableR); U8CPU g = sk_apply_lut_if<APPLY_PREBLEND>(0xFF - ((rgb >> 8) & 0xFF), tableG); U8CPU b = sk_apply_lut_if<APPLY_PREBLEND>(0xFF - ((rgb >> 0) & 0xFF), tableB); #if SK_SHOW_TEXT_BLIT_COVERAGE r = SkTMax(r, (U8CPU)0x30); g = SkTMax(g, (U8CPU)0x30); b = SkTMax(b, (U8CPU)0x30); #endif return SkPack888ToRGB16(r, g, b); } template<bool APPLY_PREBLEND> static void rgb_to_lcd16(const CGRGBPixel* SK_RESTRICT cgPixels, size_t cgRowBytes, const SkGlyph& glyph, const uint8_t* tableR, const uint8_t* tableG, const uint8_t* tableB) { const int width = glyph.fWidth; size_t dstRB = glyph.rowBytes(); uint16_t* SK_RESTRICT dst = (uint16_t*)glyph.fImage; for (int y = 0; y < glyph.fHeight; y++) { for (int i = 0; i < width; i++) { dst[i] = rgb_to_lcd16<APPLY_PREBLEND>(cgPixels[i], tableR, tableG, tableB); } cgPixels = SkTAddOffset<const CGRGBPixel>(cgPixels, cgRowBytes); dst = SkTAddOffset<uint16_t>(dst, dstRB); } } static SkPMColor cgpixels_to_pmcolor(CGRGBPixel rgb) { U8CPU a = (rgb >> 24) & 0xFF; U8CPU r = (rgb >> 16) & 0xFF; U8CPU g = (rgb >> 8) & 0xFF; U8CPU b = (rgb >> 0) & 0xFF; #if SK_SHOW_TEXT_BLIT_COVERAGE a = SkTMax(a, (U8CPU)0x30); #endif return SkPackARGB32(a, r, g, b); } void SkScalerContext_Mac::generateImage(const SkGlyph& glyph) { CGGlyph cgGlyph = SkTo<CGGlyph>(glyph.getGlyphID()); // FIXME: lcd smoothed un-hinted rasterization unsupported. bool requestSmooth = fRec.getHinting() != kNo_SkFontHinting; // Draw the glyph size_t cgRowBytes; CGRGBPixel* cgPixels = fOffscreen.getCG(*this, glyph, cgGlyph, &cgRowBytes, requestSmooth); if (cgPixels == nullptr) { return; } // Fix the glyph if ((glyph.fMaskFormat == SkMask::kLCD16_Format) || (glyph.fMaskFormat == SkMask::kA8_Format && requestSmooth && smooth_behavior() != SmoothBehavior::none)) { const uint8_t* linear = gLinearCoverageFromCGLCDValue.data(); //Note that the following cannot really be integrated into the //pre-blend, since we may not be applying the pre-blend; when we aren't //applying the pre-blend it means that a filter wants linear anyway. //Other code may also be applying the pre-blend, so we'd need another //one with this and one without. CGRGBPixel* addr = cgPixels; for (int y = 0; y < glyph.fHeight; ++y) { for (int x = 0; x < glyph.fWidth; ++x) { int r = (addr[x] >> 16) & 0xFF; int g = (addr[x] >> 8) & 0xFF; int b = (addr[x] >> 0) & 0xFF; addr[x] = (linear[r] << 16) | (linear[g] << 8) | linear[b]; } addr = SkTAddOffset<CGRGBPixel>(addr, cgRowBytes); } } // Convert glyph to mask switch (glyph.fMaskFormat) { case SkMask::kLCD16_Format: { if (fPreBlend.isApplicable()) { rgb_to_lcd16<true>(cgPixels, cgRowBytes, glyph, fPreBlend.fR, fPreBlend.fG, fPreBlend.fB); } else { rgb_to_lcd16<false>(cgPixels, cgRowBytes, glyph, fPreBlend.fR, fPreBlend.fG, fPreBlend.fB); } } break; case SkMask::kA8_Format: { if (fPreBlend.isApplicable()) { rgb_to_a8<true>(cgPixels, cgRowBytes, glyph, fPreBlend.fG); } else { rgb_to_a8<false>(cgPixels, cgRowBytes, glyph, fPreBlend.fG); } } break; case SkMask::kBW_Format: { const int width = glyph.fWidth; size_t dstRB = glyph.rowBytes(); uint8_t* dst = (uint8_t*)glyph.fImage; for (int y = 0; y < glyph.fHeight; y++) { cgpixels_to_bits(dst, cgPixels, width); cgPixels = SkTAddOffset<CGRGBPixel>(cgPixels, cgRowBytes); dst = SkTAddOffset<uint8_t>(dst, dstRB); } } break; case SkMask::kARGB32_Format: { const int width = glyph.fWidth; size_t dstRB = glyph.rowBytes(); SkPMColor* dst = (SkPMColor*)glyph.fImage; for (int y = 0; y < glyph.fHeight; y++) { for (int x = 0; x < width; ++x) { dst[x] = cgpixels_to_pmcolor(cgPixels[x]); } cgPixels = SkTAddOffset<CGRGBPixel>(cgPixels, cgRowBytes); dst = SkTAddOffset<SkPMColor>(dst, dstRB); } } break; default: SkDEBUGFAIL("unexpected mask format"); break; } } /* * Our subpixel resolution is only 2 bits in each direction, so a scale of 4 * seems sufficient, and possibly even correct, to allow the hinted outline * to be subpixel positioned. */ #define kScaleForSubPixelPositionHinting (4.0f) bool SkScalerContext_Mac::generatePath(SkGlyphID glyph, SkPath* path) { AUTO_CG_LOCK(); SkScalar scaleX = SK_Scalar1; SkScalar scaleY = SK_Scalar1; CGAffineTransform xform = fTransform; /* * For subpixel positioning, we want to return an unhinted outline, so it * can be positioned nicely at fractional offsets. However, we special-case * if the baseline of the (horizontal) text is axis-aligned. In those cases * we want to retain hinting in the direction orthogonal to the baseline. * e.g. for horizontal baseline, we want to retain hinting in Y. * The way we remove hinting is to scale the font by some value (4) in that * direction, ask for the path, and then scale the path back down. */ if (fDoSubPosition) { // start out by assuming that we want no hining in X and Y scaleX = scaleY = kScaleForSubPixelPositionHinting; // now see if we need to restore hinting for axis-aligned baselines switch (this->computeAxisAlignmentForHText()) { case kX_SkAxisAlignment: scaleY = SK_Scalar1; // want hinting in the Y direction break; case kY_SkAxisAlignment: scaleX = SK_Scalar1; // want hinting in the X direction break; default: break; } CGAffineTransform scale(CGAffineTransformMakeScale(ScalarToCG(scaleX), ScalarToCG(scaleY))); xform = CGAffineTransformConcat(fTransform, scale); } CGGlyph cgGlyph = SkTo<CGGlyph>(glyph); SkUniqueCFRef<CGPathRef> cgPath(CTFontCreatePathForGlyph(fCTFont.get(), cgGlyph, &xform)); path->reset(); if (!cgPath) { return false; } CGPathApply(cgPath.get(), path, SkScalerContext_Mac::CTPathElement); if (fDoSubPosition) { SkMatrix m; m.setScale(SkScalarInvert(scaleX), SkScalarInvert(scaleY)); path->transform(m); } return true; } void SkScalerContext_Mac::generateFontMetrics(SkFontMetrics* metrics) { if (nullptr == metrics) { return; } AUTO_CG_LOCK(); CGRect theBounds = CTFontGetBoundingBox(fCTFont.get()); metrics->fTop = CGToScalar(-CGRectGetMaxY_inline(theBounds)); metrics->fAscent = CGToScalar(-CTFontGetAscent(fCTFont.get())); metrics->fDescent = CGToScalar( CTFontGetDescent(fCTFont.get())); metrics->fBottom = CGToScalar(-CGRectGetMinY_inline(theBounds)); metrics->fLeading = CGToScalar( CTFontGetLeading(fCTFont.get())); metrics->fAvgCharWidth = CGToScalar( CGRectGetWidth_inline(theBounds)); metrics->fXMin = CGToScalar( CGRectGetMinX_inline(theBounds)); metrics->fXMax = CGToScalar( CGRectGetMaxX_inline(theBounds)); metrics->fMaxCharWidth = metrics->fXMax - metrics->fXMin; metrics->fXHeight = CGToScalar( CTFontGetXHeight(fCTFont.get())); metrics->fCapHeight = CGToScalar( CTFontGetCapHeight(fCTFont.get())); metrics->fUnderlineThickness = CGToScalar( CTFontGetUnderlineThickness(fCTFont.get())); metrics->fUnderlinePosition = -CGToScalar( CTFontGetUnderlinePosition(fCTFont.get())); metrics->fFlags = 0; metrics->fFlags |= SkFontMetrics::kUnderlineThicknessIsValid_Flag; metrics->fFlags |= SkFontMetrics::kUnderlinePositionIsValid_Flag; // See https://bugs.chromium.org/p/skia/issues/detail?id=6203 // At least on 10.12.3 with memory based fonts the x-height is always 0.6666 of the ascent and // the cap-height is always 0.8888 of the ascent. It appears that the values from the 'OS/2' // table are read, but then overwritten if the font is not a system font. As a result, if there // is a valid 'OS/2' table available use the values from the table if they aren't too strange. struct OS2HeightMetrics { SK_OT_SHORT sxHeight; SK_OT_SHORT sCapHeight; } heights; size_t bytesRead = this->getTypeface()->getTableData( SkTEndian_SwapBE32(SkOTTableOS2::TAG), offsetof(SkOTTableOS2, version.v2.sxHeight), sizeof(heights), &heights); if (bytesRead == sizeof(heights)) { // 'fontSize' is correct because the entire resolved size is set by the constructor. CGFloat fontSize = CTFontGetSize(this->fCTFont.get()); unsigned upem = CTFontGetUnitsPerEm(this->fCTFont.get()); unsigned maxSaneHeight = upem * 2; uint16_t xHeight = SkEndian_SwapBE16(heights.sxHeight); if (xHeight && xHeight < maxSaneHeight) { metrics->fXHeight = CGToScalar(xHeight * fontSize / upem); } uint16_t capHeight = SkEndian_SwapBE16(heights.sCapHeight); if (capHeight && capHeight < maxSaneHeight) { metrics->fCapHeight = CGToScalar(capHeight * fontSize / upem); } } } void SkScalerContext_Mac::CTPathElement(void *info, const CGPathElement *element) { SkPath* skPath = (SkPath*)info; // Process the path element switch (element->type) { case kCGPathElementMoveToPoint: skPath->moveTo(element->points[0].x, -element->points[0].y); break; case kCGPathElementAddLineToPoint: skPath->lineTo(element->points[0].x, -element->points[0].y); break; case kCGPathElementAddQuadCurveToPoint: skPath->quadTo(element->points[0].x, -element->points[0].y, element->points[1].x, -element->points[1].y); break; case kCGPathElementAddCurveToPoint: skPath->cubicTo(element->points[0].x, -element->points[0].y, element->points[1].x, -element->points[1].y, element->points[2].x, -element->points[2].y); break; case kCGPathElementCloseSubpath: skPath->close(); break; default: SkDEBUGFAIL("Unknown path element!"); break; } } /////////////////////////////////////////////////////////////////////////////// // Returns nullptr on failure // Call must still manage its ownership of provider static sk_sp<SkTypeface> create_from_dataProvider(SkUniqueCFRef<CGDataProviderRef> provider, int ttcIndex) { if (ttcIndex != 0) { return nullptr; } SkUniqueCFRef<CGFontRef> cg(CGFontCreateWithDataProvider(provider.get())); if (!cg) { return nullptr; } SkUniqueCFRef<CTFontRef> ct(CTFontCreateWithGraphicsFont(cg.get(), 0, nullptr, nullptr)); if (!ct) { return nullptr; } return create_from_CTFontRef(std::move(ct), nullptr, true); } // Web fonts added to the CTFont registry do not return their character set. // Iterate through the font in this case. The existing caller caches the result, // so the performance impact isn't too bad. static void populate_glyph_to_unicode_slow(CTFontRef ctFont, CFIndex glyphCount, SkUnichar* out) { sk_bzero(out, glyphCount * sizeof(SkUnichar)); UniChar unichar = 0; while (glyphCount > 0) { CGGlyph glyph; if (CTFontGetGlyphsForCharacters(ctFont, &unichar, &glyph, 1)) { if (out[glyph] != 0) { out[glyph] = unichar; --glyphCount; } } if (++unichar == 0) { break; } } } // Construct Glyph to Unicode table. // Unicode code points that require conjugate pairs in utf16 are not // supported. static void populate_glyph_to_unicode(CTFontRef ctFont, CFIndex glyphCount, SkUnichar* glyphToUnicode) { sk_bzero(glyphToUnicode, sizeof(SkUnichar) * glyphCount); SkUniqueCFRef<CFCharacterSetRef> charSet(CTFontCopyCharacterSet(ctFont)); if (!charSet) { populate_glyph_to_unicode_slow(ctFont, glyphCount, glyphToUnicode); return; } SkUniqueCFRef<CFDataRef> bitmap( CFCharacterSetCreateBitmapRepresentation(nullptr, charSet.get())); if (!bitmap) { return; } CFIndex length = CFDataGetLength(bitmap.get()); if (!length) { return; } if (length > 8192) { // TODO: Add support for Unicode above 0xFFFF // Consider only the BMP portion of the Unicode character points. // The bitmap may contain other planes, up to plane 16. // See http://developer.apple.com/library/ios/#documentation/CoreFoundation/Reference/CFCharacterSetRef/Reference/reference.html length = 8192; } const UInt8* bits = CFDataGetBytePtr(bitmap.get()); sk_bzero(glyphToUnicode, glyphCount * sizeof(SkUnichar)); for (int i = 0; i < length; i++) { int mask = bits[i]; if (!mask) { continue; } for (int j = 0; j < 8; j++) { CGGlyph glyph; UniChar unichar = static_cast<UniChar>((i << 3) + j); if (mask & (1 << j) && CTFontGetGlyphsForCharacters(ctFont, &unichar, &glyph, 1)) { glyphToUnicode[glyph] = unichar; } } } } /** Assumes src and dst are not nullptr. */ static void CFStringToSkString(CFStringRef src, SkString* dst) { // Reserve enough room for the worst-case string, // plus 1 byte for the trailing null. CFIndex length = CFStringGetMaximumSizeForEncoding(CFStringGetLength(src), kCFStringEncodingUTF8) + 1; dst->resize(length); CFStringGetCString(src, dst->writable_str(), length, kCFStringEncodingUTF8); // Resize to the actual UTF-8 length used, stripping the null character. dst->resize(strlen(dst->c_str())); } void SkTypeface_Mac::getGlyphToUnicodeMap(SkUnichar* dstArray) const { AUTO_CG_LOCK(); SkUniqueCFRef<CTFontRef> ctFont = ctfont_create_exact_copy(fFontRef.get(), CTFontGetUnitsPerEm(fFontRef.get()), nullptr); CFIndex glyphCount = CTFontGetGlyphCount(ctFont.get()); populate_glyph_to_unicode(ctFont.get(), glyphCount, dstArray); } std::unique_ptr<SkAdvancedTypefaceMetrics> SkTypeface_Mac::onGetAdvancedMetrics() const { AUTO_CG_LOCK(); SkUniqueCFRef<CTFontRef> ctFont = ctfont_create_exact_copy(fFontRef.get(), CTFontGetUnitsPerEm(fFontRef.get()), nullptr); std::unique_ptr<SkAdvancedTypefaceMetrics> info(new SkAdvancedTypefaceMetrics); { SkUniqueCFRef<CFStringRef> fontName(CTFontCopyPostScriptName(ctFont.get())); if (fontName.get()) { CFStringToSkString(fontName.get(), &info->fPostScriptName); info->fFontName = info->fPostScriptName; } } // In 10.10 and earlier, CTFontCopyVariationAxes and CTFontCopyVariation do not work when // applied to fonts which started life with CGFontCreateWithDataProvider (they simply always // return nullptr). As a result, we are limited to CGFontCopyVariationAxes and // CGFontCopyVariations here until support for 10.10 and earlier is removed. SkUniqueCFRef<CGFontRef> cgFont(CTFontCopyGraphicsFont(ctFont.get(), nullptr)); if (cgFont) { SkUniqueCFRef<CFArrayRef> cgAxes(CGFontCopyVariationAxes(cgFont.get())); if (cgAxes && CFArrayGetCount(cgAxes.get()) > 0) { info->fFlags |= SkAdvancedTypefaceMetrics::kMultiMaster_FontFlag; } } SkOTTableOS2_V4::Type fsType; if (sizeof(fsType) == this->getTableData(SkTEndian_SwapBE32(SkOTTableOS2::TAG), offsetof(SkOTTableOS2_V4, fsType), sizeof(fsType), &fsType)) { SkOTUtils::SetAdvancedTypefaceFlags(fsType, info.get()); } // If it's not a truetype font, mark it as 'other'. Assume that TrueType // fonts always have both glyf and loca tables. At the least, this is what // sfntly needs to subset the font. CTFontCopyAttribute() does not always // succeed in determining this directly. if (!this->getTableSize('glyf') || !this->getTableSize('loca')) { return info; } info->fType = SkAdvancedTypefaceMetrics::kTrueType_Font; CTFontSymbolicTraits symbolicTraits = CTFontGetSymbolicTraits(ctFont.get()); if (symbolicTraits & kCTFontMonoSpaceTrait) { info->fStyle |= SkAdvancedTypefaceMetrics::kFixedPitch_Style; } if (symbolicTraits & kCTFontItalicTrait) { info->fStyle |= SkAdvancedTypefaceMetrics::kItalic_Style; } CTFontStylisticClass stylisticClass = symbolicTraits & kCTFontClassMaskTrait; if (stylisticClass >= kCTFontOldStyleSerifsClass && stylisticClass <= kCTFontSlabSerifsClass) { info->fStyle |= SkAdvancedTypefaceMetrics::kSerif_Style; } else if (stylisticClass & kCTFontScriptsClass) { info->fStyle |= SkAdvancedTypefaceMetrics::kScript_Style; } info->fItalicAngle = (int16_t) CTFontGetSlantAngle(ctFont.get()); info->fAscent = (int16_t) CTFontGetAscent(ctFont.get()); info->fDescent = (int16_t) CTFontGetDescent(ctFont.get()); info->fCapHeight = (int16_t) CTFontGetCapHeight(ctFont.get()); CGRect bbox = CTFontGetBoundingBox(ctFont.get()); SkRect r; r.set( CGToScalar(CGRectGetMinX_inline(bbox)), // Left CGToScalar(CGRectGetMaxY_inline(bbox)), // Top CGToScalar(CGRectGetMaxX_inline(bbox)), // Right CGToScalar(CGRectGetMinY_inline(bbox))); // Bottom r.roundOut(&(info->fBBox)); // Figure out a good guess for StemV - Min width of i, I, !, 1. // This probably isn't very good with an italic font. int16_t min_width = SHRT_MAX; info->fStemV = 0; static const UniChar stem_chars[] = {'i', 'I', '!', '1'}; const size_t count = sizeof(stem_chars) / sizeof(stem_chars[0]); CGGlyph glyphs[count]; CGRect boundingRects[count]; if (CTFontGetGlyphsForCharacters(ctFont.get(), stem_chars, glyphs, count)) { CTFontGetBoundingRectsForGlyphs(ctFont.get(), kCTFontOrientationHorizontal, glyphs, boundingRects, count); for (size_t i = 0; i < count; i++) { int16_t width = (int16_t) boundingRects[i].size.width; if (width > 0 && width < min_width) { min_width = width; info->fStemV = min_width; } } } return info; } /////////////////////////////////////////////////////////////////////////////// static SK_SFNT_ULONG get_font_type_tag(CTFontRef ctFont) { SkUniqueCFRef<CFNumberRef> fontFormatRef( static_cast<CFNumberRef>(CTFontCopyAttribute(ctFont, kCTFontFormatAttribute))); if (!fontFormatRef) { return 0; } SInt32 fontFormatValue; if (!CFNumberGetValue(fontFormatRef.get(), kCFNumberSInt32Type, &fontFormatValue)) { return 0; } switch (fontFormatValue) { case kCTFontFormatOpenTypePostScript: return SkSFNTHeader::fontType_OpenTypeCFF::TAG; case kCTFontFormatOpenTypeTrueType: return SkSFNTHeader::fontType_WindowsTrueType::TAG; case kCTFontFormatTrueType: return SkSFNTHeader::fontType_MacTrueType::TAG; case kCTFontFormatPostScript: return SkSFNTHeader::fontType_PostScript::TAG; case kCTFontFormatBitmap: return SkSFNTHeader::fontType_MacTrueType::TAG; case kCTFontFormatUnrecognized: default: return 0; } } SkStreamAsset* SkTypeface_Mac::onOpenStream(int* ttcIndex) const { SK_SFNT_ULONG fontType = get_font_type_tag(fFontRef.get()); // get table tags int numTables = this->countTables(); SkTDArray<SkFontTableTag> tableTags; tableTags.setCount(numTables); this->getTableTags(tableTags.begin()); // CT seems to be unreliable in being able to obtain the type, // even if all we want is the first four bytes of the font resource. // Just the presence of the FontForge 'FFTM' table seems to throw it off. if (fontType == 0) { fontType = SkSFNTHeader::fontType_WindowsTrueType::TAG; // see https://skbug.com/7630#c7 bool couldBeCFF = false; constexpr SkFontTableTag CFFTag = SkSetFourByteTag('C', 'F', 'F', ' '); constexpr SkFontTableTag CFF2Tag = SkSetFourByteTag('C', 'F', 'F', '2'); for (int tableIndex = 0; tableIndex < numTables; ++tableIndex) { if (CFFTag == tableTags[tableIndex] || CFF2Tag == tableTags[tableIndex]) { couldBeCFF = true; } } if (couldBeCFF) { fontType = SkSFNTHeader::fontType_OpenTypeCFF::TAG; } } // Sometimes CoreGraphics incorrectly thinks a font is kCTFontFormatPostScript. // It is exceedingly unlikely that this is the case, so double check // (see https://crbug.com/809763 ). if (fontType == SkSFNTHeader::fontType_PostScript::TAG) { // see if there are any required 'typ1' tables (see Adobe Technical Note #5180) bool couldBeTyp1 = false; constexpr SkFontTableTag TYPE1Tag = SkSetFourByteTag('T', 'Y', 'P', '1'); constexpr SkFontTableTag CIDTag = SkSetFourByteTag('C', 'I', 'D', ' '); for (int tableIndex = 0; tableIndex < numTables; ++tableIndex) { if (TYPE1Tag == tableTags[tableIndex] || CIDTag == tableTags[tableIndex]) { couldBeTyp1 = true; } } if (!couldBeTyp1) { fontType = SkSFNTHeader::fontType_OpenTypeCFF::TAG; } } // get the table sizes and accumulate the total size of the font SkTDArray<size_t> tableSizes; size_t totalSize = sizeof(SkSFNTHeader) + sizeof(SkSFNTHeader::TableDirectoryEntry) * numTables; for (int tableIndex = 0; tableIndex < numTables; ++tableIndex) { size_t tableSize = this->getTableSize(tableTags[tableIndex]); totalSize += (tableSize + 3) & ~3; *tableSizes.append() = tableSize; } // reserve memory for stream, and zero it (tables must be zero padded) SkMemoryStream* stream = new SkMemoryStream(totalSize); char* dataStart = (char*)stream->getMemoryBase(); sk_bzero(dataStart, totalSize); char* dataPtr = dataStart; // compute font header entries uint16_t entrySelector = 0; uint16_t searchRange = 1; while (searchRange < numTables >> 1) { entrySelector++; searchRange <<= 1; } searchRange <<= 4; uint16_t rangeShift = (numTables << 4) - searchRange; // write font header SkSFNTHeader* header = (SkSFNTHeader*)dataPtr; header->fontType = fontType; header->numTables = SkEndian_SwapBE16(numTables); header->searchRange = SkEndian_SwapBE16(searchRange); header->entrySelector = SkEndian_SwapBE16(entrySelector); header->rangeShift = SkEndian_SwapBE16(rangeShift); dataPtr += sizeof(SkSFNTHeader); // write tables SkSFNTHeader::TableDirectoryEntry* entry = (SkSFNTHeader::TableDirectoryEntry*)dataPtr; dataPtr += sizeof(SkSFNTHeader::TableDirectoryEntry) * numTables; for (int tableIndex = 0; tableIndex < numTables; ++tableIndex) { size_t tableSize = tableSizes[tableIndex]; this->getTableData(tableTags[tableIndex], 0, tableSize, dataPtr); entry->tag = SkEndian_SwapBE32(tableTags[tableIndex]); entry->checksum = SkEndian_SwapBE32(SkOTUtils::CalcTableChecksum((SK_OT_ULONG*)dataPtr, tableSize)); entry->offset = SkEndian_SwapBE32(SkToU32(dataPtr - dataStart)); entry->logicalLength = SkEndian_SwapBE32(SkToU32(tableSize)); dataPtr += (tableSize + 3) & ~3; ++entry; } *ttcIndex = 0; return stream; } struct NonDefaultAxesContext { SkFixed* axisValue; CFArrayRef cgAxes; }; static void set_non_default_axes(CFTypeRef key, CFTypeRef value, void* context) { NonDefaultAxesContext* self = static_cast<NonDefaultAxesContext*>(context); if (CFGetTypeID(key) != CFStringGetTypeID() || CFGetTypeID(value) != CFNumberGetTypeID()) { return; } // The key is a CFString which is a string from the 'name' table. // Search the cgAxes for an axis with this name, and use its index to store the value. CFIndex keyIndex = -1; CFStringRef keyString = static_cast<CFStringRef>(key); for (CFIndex i = 0; i < CFArrayGetCount(self->cgAxes); ++i) { CFTypeRef cgAxis = CFArrayGetValueAtIndex(self->cgAxes, i); if (CFGetTypeID(cgAxis) != CFDictionaryGetTypeID()) { continue; } CFDictionaryRef cgAxisDict = static_cast<CFDictionaryRef>(cgAxis); CFTypeRef cgAxisName = CFDictionaryGetValue(cgAxisDict, kCGFontVariationAxisName); if (!cgAxisName || CFGetTypeID(cgAxisName) != CFStringGetTypeID()) { continue; } CFStringRef cgAxisNameString = static_cast<CFStringRef>(cgAxisName); if (CFStringCompare(keyString, cgAxisNameString, 0) == kCFCompareEqualTo) { keyIndex = i; break; } } if (keyIndex == -1) { return; } CFNumberRef valueNumber = static_cast<CFNumberRef>(value); double valueDouble; if (!CFNumberGetValue(valueNumber, kCFNumberDoubleType, &valueDouble) || valueDouble < SkFixedToDouble(SK_FixedMin) || SkFixedToDouble(SK_FixedMax) < valueDouble) { return; } self->axisValue[keyIndex] = SkDoubleToFixed(valueDouble); } static bool get_variations(CTFontRef ctFont, CFIndex* cgAxisCount, SkAutoSTMalloc<4, SkFixed>* axisValues) { // In 10.10 and earlier, CTFontCopyVariationAxes and CTFontCopyVariation do not work when // applied to fonts which started life with CGFontCreateWithDataProvider (they simply always // return nullptr). As a result, we are limited to CGFontCopyVariationAxes and // CGFontCopyVariations here until support for 10.10 and earlier is removed. SkUniqueCFRef<CGFontRef> cgFont(CTFontCopyGraphicsFont(ctFont, nullptr)); if (!cgFont) { return false; } SkUniqueCFRef<CFDictionaryRef> cgVariations(CGFontCopyVariations(cgFont.get())); // If a font has no variations CGFontCopyVariations returns nullptr (instead of an empty dict). if (!cgVariations) { return false; } SkUniqueCFRef<CFArrayRef> cgAxes(CGFontCopyVariationAxes(cgFont.get())); if (!cgAxes) { return false; } *cgAxisCount = CFArrayGetCount(cgAxes.get()); axisValues->reset(*cgAxisCount); // Set all of the axes to their default values. // Fail if any default value cannot be determined. for (CFIndex i = 0; i < *cgAxisCount; ++i) { CFTypeRef cgAxis = CFArrayGetValueAtIndex(cgAxes.get(), i); if (CFGetTypeID(cgAxis) != CFDictionaryGetTypeID()) { return false; } CFDictionaryRef cgAxisDict = static_cast<CFDictionaryRef>(cgAxis); CFTypeRef axisDefaultValue = CFDictionaryGetValue(cgAxisDict, kCGFontVariationAxisDefaultValue); if (!axisDefaultValue || CFGetTypeID(axisDefaultValue) != CFNumberGetTypeID()) { return false; } CFNumberRef axisDefaultValueNumber = static_cast<CFNumberRef>(axisDefaultValue); double axisDefaultValueDouble; if (!CFNumberGetValue(axisDefaultValueNumber, kCFNumberDoubleType, &axisDefaultValueDouble)) { return false; } if (axisDefaultValueDouble < SkFixedToDouble(SK_FixedMin) || SkFixedToDouble(SK_FixedMax) < axisDefaultValueDouble) { return false; } (*axisValues)[(int)i] = SkDoubleToFixed(axisDefaultValueDouble); } // Override the default values with the given font's stated axis values. NonDefaultAxesContext c = { axisValues->get(), cgAxes.get() }; CFDictionaryApplyFunction(cgVariations.get(), set_non_default_axes, &c); return true; } std::unique_ptr<SkFontData> SkTypeface_Mac::onMakeFontData() const { int index; std::unique_ptr<SkStreamAsset> stream(this->onOpenStream(&index)); CFIndex cgAxisCount; SkAutoSTMalloc<4, SkFixed> axisValues; if (get_variations(fFontRef.get(), &cgAxisCount, &axisValues)) { return skstd::make_unique<SkFontData>(std::move(stream), index, axisValues.get(), cgAxisCount); } return skstd::make_unique<SkFontData>(std::move(stream), index, nullptr, 0); } /** Creates a CT variation dictionary {tag, value} from a CG variation dictionary {name, value}. */ static SkUniqueCFRef<CFDictionaryRef> ct_variation_from_cg_variation(CFDictionaryRef cgVariations, CFArrayRef ctAxes) { SkUniqueCFRef<CFMutableDictionaryRef> ctVariations( CFDictionaryCreateMutable(kCFAllocatorDefault, 0, &kCFTypeDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks)); CFIndex axisCount = CFArrayGetCount(ctAxes); for (CFIndex i = 0; i < axisCount; ++i) { CFTypeRef axisInfo = CFArrayGetValueAtIndex(ctAxes, i); if (CFDictionaryGetTypeID() != CFGetTypeID(axisInfo)) { return nullptr; } CFDictionaryRef axisInfoDict = static_cast<CFDictionaryRef>(axisInfo); // The assumption is that values produced by kCTFontVariationAxisNameKey and // kCGFontVariationAxisName will always be equal. CFTypeRef axisName = CFDictionaryGetValue(axisInfoDict, kCTFontVariationAxisNameKey); if (!axisName || CFGetTypeID(axisName) != CFStringGetTypeID()) { return nullptr; } CFTypeRef axisValue = CFDictionaryGetValue(cgVariations, axisName); if (!axisValue || CFGetTypeID(axisValue) != CFNumberGetTypeID()) { return nullptr; } CFTypeRef axisTag = CFDictionaryGetValue(axisInfoDict, kCTFontVariationAxisIdentifierKey); if (!axisTag || CFGetTypeID(axisTag) != CFNumberGetTypeID()) { return nullptr; } CFDictionaryAddValue(ctVariations.get(), axisTag, axisValue); } return std::move(ctVariations); } int SkTypeface_Mac::onGetVariationDesignPosition( SkFontArguments::VariationPosition::Coordinate coordinates[], int coordinateCount) const { // The CGFont variation data does not contain the tag. // CTFontCopyVariationAxes returns nullptr for CGFontCreateWithDataProvider fonts with // macOS 10.10 and iOS 9 or earlier. When this happens, there is no API to provide the tag. SkUniqueCFRef<CFArrayRef> ctAxes(CTFontCopyVariationAxes(fFontRef.get())); if (!ctAxes) { return -1; } CFIndex axisCount = CFArrayGetCount(ctAxes.get()); if (!coordinates || coordinateCount < axisCount) { return axisCount; } // This call always returns nullptr on 10.11 and under for CGFontCreateWithDataProvider fonts. // When this happens, try converting the CG variation to a CT variation. // On 10.12 and later, this only returns non-default variations. SkUniqueCFRef<CFDictionaryRef> ctVariations(CTFontCopyVariation(fFontRef.get())); if (!ctVariations) { // When 10.11 and earlier are no longer supported, the following code can be replaced with // return -1 and ct_variation_from_cg_variation can be removed. SkUniqueCFRef<CGFontRef> cgFont(CTFontCopyGraphicsFont(fFontRef.get(), nullptr)); if (!cgFont) { return -1; } SkUniqueCFRef<CFDictionaryRef> cgVariations(CGFontCopyVariations(cgFont.get())); if (!cgVariations) { return -1; } ctVariations = ct_variation_from_cg_variation(cgVariations.get(), ctAxes.get()); if (!ctVariations) { return -1; } } for (int i = 0; i < axisCount; ++i) { CFTypeRef axisInfo = CFArrayGetValueAtIndex(ctAxes.get(), i); if (CFDictionaryGetTypeID() != CFGetTypeID(axisInfo)) { return -1; } CFDictionaryRef axisInfoDict = static_cast<CFDictionaryRef>(axisInfo); CFTypeRef tag = CFDictionaryGetValue(axisInfoDict, kCTFontVariationAxisIdentifierKey); if (!tag || CFGetTypeID(tag) != CFNumberGetTypeID()) { return -1; } CFNumberRef tagNumber = static_cast<CFNumberRef>(tag); int64_t tagLong; if (!CFNumberGetValue(tagNumber, kCFNumberSInt64Type, &tagLong)) { return -1; } coordinates[i].axis = tagLong; CGFloat variationCGFloat; CFTypeRef variationValue = CFDictionaryGetValue(ctVariations.get(), tagNumber); if (variationValue) { if (CFGetTypeID(variationValue) != CFNumberGetTypeID()) { return -1; } CFNumberRef variationNumber = static_cast<CFNumberRef>(variationValue); if (!CFNumberGetValue(variationNumber, kCFNumberCGFloatType, &variationCGFloat)) { return -1; } } else { CFTypeRef def = CFDictionaryGetValue(axisInfoDict, kCTFontVariationAxisDefaultValueKey); if (!def || CFGetTypeID(def) != CFNumberGetTypeID()) { return -1; } CFNumberRef defNumber = static_cast<CFNumberRef>(def); if (!CFNumberGetValue(defNumber, kCFNumberCGFloatType, &variationCGFloat)) { return -1; } } coordinates[i].value = CGToScalar(variationCGFloat); } return axisCount; } /////////////////////////////////////////////////////////////////////////////// /////////////////////////////////////////////////////////////////////////////// int SkTypeface_Mac::onGetUPEM() const { SkUniqueCFRef<CGFontRef> cgFont(CTFontCopyGraphicsFont(fFontRef.get(), nullptr)); return CGFontGetUnitsPerEm(cgFont.get()); } SkTypeface::LocalizedStrings* SkTypeface_Mac::onCreateFamilyNameIterator() const { sk_sp<SkTypeface::LocalizedStrings> nameIter = SkOTUtils::LocalizedStrings_NameTable::MakeForFamilyNames(*this); if (!nameIter) { CFStringRef cfLanguageRaw; SkUniqueCFRef<CFStringRef> cfFamilyName( CTFontCopyLocalizedName(fFontRef.get(), kCTFontFamilyNameKey, &cfLanguageRaw)); SkUniqueCFRef<CFStringRef> cfLanguage(cfLanguageRaw); SkString skLanguage; SkString skFamilyName; if (cfLanguage) { CFStringToSkString(cfLanguage.get(), &skLanguage); } else { skLanguage = "und"; //undetermined } if (cfFamilyName) { CFStringToSkString(cfFamilyName.get(), &skFamilyName); } nameIter = sk_make_sp<SkOTUtils::LocalizedStrings_SingleName>(skFamilyName, skLanguage); } return nameIter.release(); } int SkTypeface_Mac::onGetTableTags(SkFontTableTag tags[]) const { SkUniqueCFRef<CFArrayRef> cfArray( CTFontCopyAvailableTables(fFontRef.get(), kCTFontTableOptionNoOptions)); if (!cfArray) { return 0; } int count = SkToInt(CFArrayGetCount(cfArray.get())); if (tags) { for (int i = 0; i < count; ++i) { uintptr_t fontTag = reinterpret_cast<uintptr_t>( CFArrayGetValueAtIndex(cfArray.get(), i)); tags[i] = static_cast<SkFontTableTag>(fontTag); } } return count; } // If, as is the case with web fonts, the CTFont data isn't available, // the CGFont data may work. While the CGFont may always provide the // right result, leave the CTFont code path to minimize disruption. static SkUniqueCFRef<CFDataRef> copy_table_from_font(CTFontRef ctFont, SkFontTableTag tag) { SkUniqueCFRef<CFDataRef> data(CTFontCopyTable(ctFont, (CTFontTableTag) tag, kCTFontTableOptionNoOptions)); if (!data) { SkUniqueCFRef<CGFontRef> cgFont(CTFontCopyGraphicsFont(ctFont, nullptr)); data.reset(CGFontCopyTableForTag(cgFont.get(), tag)); } return data; } size_t SkTypeface_Mac::onGetTableData(SkFontTableTag tag, size_t offset, size_t length, void* dstData) const { SkUniqueCFRef<CFDataRef> srcData = copy_table_from_font(fFontRef.get(), tag); if (!srcData) { return 0; } size_t srcSize = CFDataGetLength(srcData.get()); if (offset >= srcSize) { return 0; } if (length > srcSize - offset) { length = srcSize - offset; } if (dstData) { memcpy(dstData, CFDataGetBytePtr(srcData.get()) + offset, length); } return length; } SkScalerContext* SkTypeface_Mac::onCreateScalerContext(const SkScalerContextEffects& effects, const SkDescriptor* desc) const { return new SkScalerContext_Mac(sk_ref_sp(const_cast<SkTypeface_Mac*>(this)), effects, desc); } void SkTypeface_Mac::onFilterRec(SkScalerContextRec* rec) const { if (rec->fFlags & SkScalerContext::kLCD_BGROrder_Flag || rec->fFlags & SkScalerContext::kLCD_Vertical_Flag) { rec->fMaskFormat = SkMask::kA8_Format; // Render the glyphs as close as possible to what was requested. // The above turns off subpixel rendering, but the user requested it. // Normal hinting will cause the A8 masks to be generated from CoreGraphics subpixel masks. // See comments below for more details. rec->setHinting(kNormal_SkFontHinting); } unsigned flagsWeDontSupport = SkScalerContext::kForceAutohinting_Flag | SkScalerContext::kLCD_BGROrder_Flag | SkScalerContext::kLCD_Vertical_Flag; rec->fFlags &= ~flagsWeDontSupport; SmoothBehavior smoothBehavior = smooth_behavior(); // Only two levels of hinting are supported. // kNo_Hinting means avoid CoreGraphics outline dilation. // kNormal_Hinting means CoreGraphics outline dilation is allowed. // If there is no lcd support, hinting (dilation) cannot be supported. SkFontHinting hinting = rec->getHinting(); if (kSlight_SkFontHinting == hinting || smoothBehavior == SmoothBehavior::none) { hinting = kNo_SkFontHinting; } else if (kFull_SkFontHinting == hinting) { hinting = kNormal_SkFontHinting; } rec->setHinting(hinting); // FIXME: lcd smoothed un-hinted rasterization unsupported. // Tracked by http://code.google.com/p/skia/issues/detail?id=915 . // There is no current means to honor a request for unhinted lcd, // so arbitrarilly ignore the hinting request and honor lcd. // Hinting and smoothing should be orthogonal, but currently they are not. // CoreGraphics has no API to influence hinting. However, its lcd smoothed // output is drawn from auto-dilated outlines (the amount of which is // determined by AppleFontSmoothing). Its regular anti-aliased output is // drawn from un-dilated outlines. // The behavior of Skia is as follows: // [AA][no-hint]: generate AA using CoreGraphic's AA output. // [AA][yes-hint]: use CoreGraphic's LCD output and reduce it to a single // channel. This matches [LCD][yes-hint] in weight. // [LCD][no-hint]: curently unable to honor, and must pick which to respect. // Currenly side with LCD, effectively ignoring the hinting setting. // [LCD][yes-hint]: generate LCD using CoreGraphic's LCD output. if (rec->fMaskFormat == SkMask::kLCD16_Format) { if (smoothBehavior == SmoothBehavior::subpixel) { //CoreGraphics creates 555 masks for smoothed text anyway. rec->fMaskFormat = SkMask::kLCD16_Format; rec->setHinting(kNormal_SkFontHinting); } else { rec->fMaskFormat = SkMask::kA8_Format; if (smoothBehavior == SmoothBehavior::some) { rec->setHinting(kNormal_SkFontHinting); } } } // CoreText provides no information as to whether a glyph will be color or not. // Fonts may mix outlines and bitmaps, so information is needed on a glyph by glyph basis. // If a font contains an 'sbix' table, consider it to be a color font, and disable lcd. if (fHasColorGlyphs) { rec->fMaskFormat = SkMask::kARGB32_Format; } // Unhinted A8 masks (those not derived from LCD masks) must respect SK_GAMMA_APPLY_TO_A8. // All other masks can use regular gamma. if (SkMask::kA8_Format == rec->fMaskFormat && kNo_SkFontHinting == hinting) { #ifndef SK_GAMMA_APPLY_TO_A8 // SRGBTODO: Is this correct? Do we want contrast boost? rec->ignorePreBlend(); #endif } else { //CoreGraphics dialates smoothed text as needed. rec->setContrast(0); } } /** Takes ownership of the CFStringRef. */ static const char* get_str(CFStringRef ref, SkString* str) { if (nullptr == ref) { return nullptr; } CFStringToSkString(ref, str); CFRelease(ref); return str->c_str(); } void SkTypeface_Mac::onGetFamilyName(SkString* familyName) const { get_str(CTFontCopyFamilyName(fFontRef.get()), familyName); } void SkTypeface_Mac::onGetFontDescriptor(SkFontDescriptor* desc, bool* isLocalStream) const { SkString tmpStr; desc->setFamilyName(get_str(CTFontCopyFamilyName(fFontRef.get()), &tmpStr)); desc->setFullName(get_str(CTFontCopyFullName(fFontRef.get()), &tmpStr)); desc->setPostscriptName(get_str(CTFontCopyPostScriptName(fFontRef.get()), &tmpStr)); desc->setStyle(this->fontStyle()); *isLocalStream = fIsLocalStream; } int SkTypeface_Mac::onCharsToGlyphs(const void* chars, Encoding encoding, uint16_t glyphs[], int glyphCount) const { // Undocumented behavior of CTFontGetGlyphsForCharacters with non-bmp code points: // When a surrogate pair is detected, the glyph index used is the index of the high surrogate. // It is documented that if a mapping is unavailable, the glyph will be set to 0. SkAutoSTMalloc<1024, UniChar> charStorage; const UniChar* src; // UniChar is a UTF-16 16-bit code unit. int srcCount; switch (encoding) { case kUTF8_Encoding: { const char* utf8 = reinterpret_cast<const char*>(chars); UniChar* utf16 = charStorage.reset(2 * glyphCount); src = utf16; for (int i = 0; i < glyphCount; ++i) { SkUnichar uni = SkUTF8_NextUnichar(&utf8); utf16 += SkUTF::ToUTF16(uni, utf16); } srcCount = SkToInt(utf16 - src); break; } case kUTF16_Encoding: { src = reinterpret_cast<const UniChar*>(chars); int extra = 0; for (int i = 0; i < glyphCount; ++i) { if (SkUTF16_IsLeadingSurrogate(src[i + extra])) { ++extra; } } srcCount = glyphCount + extra; break; } case kUTF32_Encoding: { const SkUnichar* utf32 = reinterpret_cast<const SkUnichar*>(chars); UniChar* utf16 = charStorage.reset(2 * glyphCount); src = utf16; for (int i = 0; i < glyphCount; ++i) { utf16 += SkUTF::ToUTF16(utf32[i], utf16); } srcCount = SkToInt(utf16 - src); break; } } // If glyphs is nullptr, CT still needs glyph storage for finding the first failure. // Also, if there are any non-bmp code points, the provided 'glyphs' storage will be inadequate. SkAutoSTMalloc<1024, uint16_t> glyphStorage; uint16_t* macGlyphs = glyphs; if (nullptr == macGlyphs || srcCount > glyphCount) { macGlyphs = glyphStorage.reset(srcCount); } bool allEncoded = CTFontGetGlyphsForCharacters(fFontRef.get(), src, macGlyphs, srcCount); // If there were any non-bmp, then copy and compact. // If 'glyphs' is nullptr, then compact glyphStorage in-place. // If all are bmp and 'glyphs' is non-nullptr, 'glyphs' already contains the compact glyphs. // If some are non-bmp and 'glyphs' is non-nullptr, copy and compact into 'glyphs'. uint16_t* compactedGlyphs = glyphs; if (nullptr == compactedGlyphs) { compactedGlyphs = macGlyphs; } if (srcCount > glyphCount) { int extra = 0; for (int i = 0; i < glyphCount; ++i) { compactedGlyphs[i] = macGlyphs[i + extra]; if (SkUTF16_IsLeadingSurrogate(src[i + extra])) { ++extra; } } } if (allEncoded) { return glyphCount; } // If we got false, then we need to manually look for first failure. for (int i = 0; i < glyphCount; ++i) { if (0 == compactedGlyphs[i]) { return i; } } // Odd to get here, as we expected CT to have returned true up front. return glyphCount; } int SkTypeface_Mac::onCountGlyphs() const { return SkToInt(CTFontGetGlyphCount(fFontRef.get())); } /////////////////////////////////////////////////////////////////////////////// /////////////////////////////////////////////////////////////////////////////// static bool find_desc_str(CTFontDescriptorRef desc, CFStringRef name, SkString* value) { SkUniqueCFRef<CFStringRef> ref((CFStringRef)CTFontDescriptorCopyAttribute(desc, name)); if (!ref) { return false; } CFStringToSkString(ref.get(), value); return true; } #include "SkFontMgr.h" static inline int sqr(int value) { SkASSERT(SkAbs32(value) < 0x7FFF); // check for overflow return value * value; } // We normalize each axis (weight, width, italic) to be base-900 static int compute_metric(const SkFontStyle& a, const SkFontStyle& b) { return sqr(a.weight() - b.weight()) + sqr((a.width() - b.width()) * 100) + sqr((a.slant() != b.slant()) * 900); } class SkFontStyleSet_Mac : public SkFontStyleSet { public: SkFontStyleSet_Mac(CTFontDescriptorRef desc) : fArray(CTFontDescriptorCreateMatchingFontDescriptors(desc, nullptr)) , fCount(0) { if (!fArray) { fArray.reset(CFArrayCreate(nullptr, nullptr, 0, nullptr)); } fCount = SkToInt(CFArrayGetCount(fArray.get())); } int count() override { return fCount; } void getStyle(int index, SkFontStyle* style, SkString* name) override { SkASSERT((unsigned)index < (unsigned)fCount); CTFontDescriptorRef desc = (CTFontDescriptorRef)CFArrayGetValueAtIndex(fArray.get(), index); if (style) { *style = fontstyle_from_descriptor(desc, false); } if (name) { if (!find_desc_str(desc, kCTFontStyleNameAttribute, name)) { name->reset(); } } } SkTypeface* createTypeface(int index) override { SkASSERT((unsigned)index < (unsigned)CFArrayGetCount(fArray.get())); CTFontDescriptorRef desc = (CTFontDescriptorRef)CFArrayGetValueAtIndex(fArray.get(), index); return create_from_desc(desc).release(); } SkTypeface* matchStyle(const SkFontStyle& pattern) override { if (0 == fCount) { return nullptr; } return create_from_desc(findMatchingDesc(pattern)).release(); } private: SkUniqueCFRef<CFArrayRef> fArray; int fCount; CTFontDescriptorRef findMatchingDesc(const SkFontStyle& pattern) const { int bestMetric = SK_MaxS32; CTFontDescriptorRef bestDesc = nullptr; for (int i = 0; i < fCount; ++i) { CTFontDescriptorRef desc = (CTFontDescriptorRef)CFArrayGetValueAtIndex(fArray.get(), i); int metric = compute_metric(pattern, fontstyle_from_descriptor(desc, false)); if (0 == metric) { return desc; } if (metric < bestMetric) { bestMetric = metric; bestDesc = desc; } } SkASSERT(bestDesc); return bestDesc; } }; class SkFontMgr_Mac : public SkFontMgr { SkUniqueCFRef<CFArrayRef> fNames; int fCount; CFStringRef getFamilyNameAt(int index) const { SkASSERT((unsigned)index < (unsigned)fCount); return (CFStringRef)CFArrayGetValueAtIndex(fNames.get(), index); } static SkFontStyleSet* CreateSet(CFStringRef cfFamilyName) { SkUniqueCFRef<CFMutableDictionaryRef> cfAttr( CFDictionaryCreateMutable(kCFAllocatorDefault, 0, &kCFTypeDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks)); CFDictionaryAddValue(cfAttr.get(), kCTFontFamilyNameAttribute, cfFamilyName); SkUniqueCFRef<CTFontDescriptorRef> desc( CTFontDescriptorCreateWithAttributes(cfAttr.get())); return new SkFontStyleSet_Mac(desc.get()); } /** CTFontManagerCopyAvailableFontFamilyNames() is not always available, so we * provide a wrapper here that will return an empty array if need be. */ static SkUniqueCFRef<CFArrayRef> CopyAvailableFontFamilyNames() { #ifdef SK_BUILD_FOR_IOS return SkUniqueCFRef<CFArrayRef>(CFArrayCreate(nullptr, nullptr, 0, nullptr)); #else return SkUniqueCFRef<CFArrayRef>(CTFontManagerCopyAvailableFontFamilyNames()); #endif } public: SkFontMgr_Mac() : fNames(CopyAvailableFontFamilyNames()) , fCount(fNames ? SkToInt(CFArrayGetCount(fNames.get())) : 0) {} protected: int onCountFamilies() const override { return fCount; } void onGetFamilyName(int index, SkString* familyName) const override { if ((unsigned)index < (unsigned)fCount) { CFStringToSkString(this->getFamilyNameAt(index), familyName); } else { familyName->reset(); } } SkFontStyleSet* onCreateStyleSet(int index) const override { if ((unsigned)index >= (unsigned)fCount) { return nullptr; } return CreateSet(this->getFamilyNameAt(index)); } SkFontStyleSet* onMatchFamily(const char familyName[]) const override { if (!familyName) { return nullptr; } SkUniqueCFRef<CFStringRef> cfName = make_CFString(familyName); return CreateSet(cfName.get()); } SkTypeface* onMatchFamilyStyle(const char familyName[], const SkFontStyle& style) const override { SkUniqueCFRef<CTFontDescriptorRef> desc = create_descriptor(familyName, style); return create_from_desc(desc.get()).release(); } SkTypeface* onMatchFamilyStyleCharacter(const char familyName[], const SkFontStyle& style, const char* bcp47[], int bcp47Count, SkUnichar character) const override { SkUniqueCFRef<CTFontDescriptorRef> desc = create_descriptor(familyName, style); SkUniqueCFRef<CTFontRef> familyFont(CTFontCreateWithFontDescriptor(desc.get(), 0, nullptr)); // kCFStringEncodingUTF32 is BE unless there is a BOM. // Since there is no machine endian option, explicitly state machine endian. #ifdef SK_CPU_LENDIAN constexpr CFStringEncoding encoding = kCFStringEncodingUTF32LE; #else constexpr CFStringEncoding encoding = kCFStringEncodingUTF32BE; #endif SkUniqueCFRef<CFStringRef> string(CFStringCreateWithBytes( kCFAllocatorDefault, reinterpret_cast<const UInt8 *>(&character), sizeof(character), encoding, false)); CFRange range = CFRangeMake(0, CFStringGetLength(string.get())); // in UniChar units. SkUniqueCFRef<CTFontRef> fallbackFont( CTFontCreateForString(familyFont.get(), string.get(), range)); return create_from_CTFontRef(std::move(fallbackFont), nullptr, false).release(); } SkTypeface* onMatchFaceStyle(const SkTypeface* familyMember, const SkFontStyle&) const override { return nullptr; } sk_sp<SkTypeface> onMakeFromData(sk_sp<SkData> data, int ttcIndex) const override { SkUniqueCFRef<CGDataProviderRef> pr(SkCreateDataProviderFromData(std::move(data))); if (!pr) { return nullptr; } return create_from_dataProvider(std::move(pr), ttcIndex); } sk_sp<SkTypeface> onMakeFromStreamIndex(std::unique_ptr<SkStreamAsset> stream, int ttcIndex) const override { SkUniqueCFRef<CGDataProviderRef> pr(SkCreateDataProviderFromStream(std::move(stream))); if (!pr) { return nullptr; } return create_from_dataProvider(std::move(pr), ttcIndex); } /** Creates a dictionary suitable for setting the axes on a CGFont. */ static SkUniqueCFRef<CFDictionaryRef> copy_axes(CGFontRef cg, const SkFontArguments& args) { // The CGFont variation data is keyed by name, but lacks the tag. // The CTFont variation data is keyed by tag, and also has the name. // We would like to work with CTFont variations, but creating a CTFont font with // CTFont variation dictionary runs into bugs. So use the CTFont variation data // to match names to tags to create the appropriate CGFont. SkUniqueCFRef<CTFontRef> ct(CTFontCreateWithGraphicsFont(cg, 0, nullptr, nullptr)); // CTFontCopyVariationAxes returns nullptr for CGFontCreateWithDataProvider fonts with // macOS 10.10 and iOS 9 or earlier. When this happens, there is no API to provide the tag. SkUniqueCFRef<CFArrayRef> ctAxes(CTFontCopyVariationAxes(ct.get())); if (!ctAxes) { return nullptr; } CFIndex axisCount = CFArrayGetCount(ctAxes.get()); const SkFontArguments::VariationPosition position = args.getVariationDesignPosition(); SkUniqueCFRef<CFMutableDictionaryRef> dict( CFDictionaryCreateMutable(kCFAllocatorDefault, axisCount, &kCFTypeDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks)); for (int i = 0; i < axisCount; ++i) { CFTypeRef axisInfo = CFArrayGetValueAtIndex(ctAxes.get(), i); if (CFDictionaryGetTypeID() != CFGetTypeID(axisInfo)) { return nullptr; } CFDictionaryRef axisInfoDict = static_cast<CFDictionaryRef>(axisInfo); // The assumption is that values produced by kCTFontVariationAxisNameKey and // kCGFontVariationAxisName will always be equal. // If they are ever not, seach the project history for "get_tag_for_name". CFTypeRef axisName = CFDictionaryGetValue(axisInfoDict, kCTFontVariationAxisNameKey); if (!axisName || CFGetTypeID(axisName) != CFStringGetTypeID()) { return nullptr; } CFTypeRef tag = CFDictionaryGetValue(axisInfoDict, kCTFontVariationAxisIdentifierKey); if (!tag || CFGetTypeID(tag) != CFNumberGetTypeID()) { return nullptr; } CFNumberRef tagNumber = static_cast<CFNumberRef>(tag); int64_t tagLong; if (!CFNumberGetValue(tagNumber, kCFNumberSInt64Type, &tagLong)) { return nullptr; } // The variation axes can be set to any value, but cg will effectively pin them. // Pin them here to normalize. CFTypeRef min = CFDictionaryGetValue(axisInfoDict, kCTFontVariationAxisMinimumValueKey); CFTypeRef max = CFDictionaryGetValue(axisInfoDict, kCTFontVariationAxisMaximumValueKey); CFTypeRef def = CFDictionaryGetValue(axisInfoDict, kCTFontVariationAxisDefaultValueKey); if (!min || CFGetTypeID(min) != CFNumberGetTypeID() || !max || CFGetTypeID(max) != CFNumberGetTypeID() || !def || CFGetTypeID(def) != CFNumberGetTypeID()) { return nullptr; } CFNumberRef minNumber = static_cast<CFNumberRef>(min); CFNumberRef maxNumber = static_cast<CFNumberRef>(max); CFNumberRef defNumber = static_cast<CFNumberRef>(def); double minDouble; double maxDouble; double defDouble; if (!CFNumberGetValue(minNumber, kCFNumberDoubleType, &minDouble) || !CFNumberGetValue(maxNumber, kCFNumberDoubleType, &maxDouble) || !CFNumberGetValue(defNumber, kCFNumberDoubleType, &defDouble)) { return nullptr; } double value = defDouble; // The position may be over specified. If there are multiple values for a given axis, // use the last one since that's what css-fonts-4 requires. for (int j = position.coordinateCount; j --> 0;) { if (position.coordinates[j].axis == tagLong) { value = SkTPin(SkScalarToDouble(position.coordinates[j].value), minDouble, maxDouble); break; } } SkUniqueCFRef<CFNumberRef> valueNumber( CFNumberCreate(kCFAllocatorDefault, kCFNumberDoubleType, &value)); CFDictionaryAddValue(dict.get(), axisName, valueNumber.get()); } return std::move(dict); } sk_sp<SkTypeface> onMakeFromStreamArgs(std::unique_ptr<SkStreamAsset> s, const SkFontArguments& args) const override { if (args.getCollectionIndex() != 0) { return nullptr; } SkUniqueCFRef<CGDataProviderRef> provider(SkCreateDataProviderFromStream(std::move(s))); if (!provider) { return nullptr; } SkUniqueCFRef<CGFontRef> cg(CGFontCreateWithDataProvider(provider.get())); if (!cg) { return nullptr; } SkUniqueCFRef<CFDictionaryRef> cgVariations = copy_axes(cg.get(), args); // The CGFontRef returned by CGFontCreateCopyWithVariations when the passed CGFontRef was // created from a data provider does not appear to have any ownership of the underlying // data. The original CGFontRef must be kept alive until the copy will no longer be used. SkUniqueCFRef<CGFontRef> cgVariant; if (cgVariations) { cgVariant.reset(CGFontCreateCopyWithVariations(cg.get(), cgVariations.get())); } else { cgVariant.reset(cg.release()); } SkUniqueCFRef<CTFontRef> ct( CTFontCreateWithGraphicsFont(cgVariant.get(), 0, nullptr, nullptr)); if (!ct) { return nullptr; } return create_from_CTFontRef(std::move(ct), std::move(cg), true); } /** Creates a dictionary suitable for setting the axes on a CGFont. */ static SkUniqueCFRef<CFDictionaryRef> copy_axes(CGFontRef cg, SkFontData* fontData) { SkUniqueCFRef<CFArrayRef> cgAxes(CGFontCopyVariationAxes(cg)); if (!cgAxes) { return nullptr; } CFIndex axisCount = CFArrayGetCount(cgAxes.get()); if (0 == axisCount || axisCount != fontData->getAxisCount()) { return nullptr; } SkUniqueCFRef<CFMutableDictionaryRef> dict( CFDictionaryCreateMutable(kCFAllocatorDefault, axisCount, &kCFTypeDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks)); for (int i = 0; i < fontData->getAxisCount(); ++i) { CFTypeRef axisInfo = CFArrayGetValueAtIndex(cgAxes.get(), i); if (CFDictionaryGetTypeID() != CFGetTypeID(axisInfo)) { return nullptr; } CFDictionaryRef axisInfoDict = static_cast<CFDictionaryRef>(axisInfo); CFTypeRef axisName = CFDictionaryGetValue(axisInfoDict, kCGFontVariationAxisName); if (!axisName || CFGetTypeID(axisName) != CFStringGetTypeID()) { return nullptr; } // The variation axes can be set to any value, but cg will effectively pin them. // Pin them here to normalize. CFTypeRef min = CFDictionaryGetValue(axisInfoDict, kCGFontVariationAxisMinValue); CFTypeRef max = CFDictionaryGetValue(axisInfoDict, kCGFontVariationAxisMaxValue); if (!min || CFGetTypeID(min) != CFNumberGetTypeID() || !max || CFGetTypeID(max) != CFNumberGetTypeID()) { return nullptr; } CFNumberRef minNumber = static_cast<CFNumberRef>(min); CFNumberRef maxNumber = static_cast<CFNumberRef>(max); double minDouble; double maxDouble; if (!CFNumberGetValue(minNumber, kCFNumberDoubleType, &minDouble) || !CFNumberGetValue(maxNumber, kCFNumberDoubleType, &maxDouble)) { return nullptr; } double value = SkTPin(SkFixedToDouble(fontData->getAxis()[i]), minDouble, maxDouble); SkUniqueCFRef<CFNumberRef> valueNumber( CFNumberCreate(kCFAllocatorDefault, kCFNumberDoubleType, &value)); CFDictionaryAddValue(dict.get(), axisName, valueNumber.get()); } return std::move(dict); } sk_sp<SkTypeface> onMakeFromFontData(std::unique_ptr<SkFontData> fontData) const override { if (fontData->getIndex() != 0) { return nullptr; } SkUniqueCFRef<CGDataProviderRef> provider( SkCreateDataProviderFromStream(fontData->detachStream())); if (!provider) { return nullptr; } SkUniqueCFRef<CGFontRef> cg(CGFontCreateWithDataProvider(provider.get())); if (!cg) { return nullptr; } SkUniqueCFRef<CFDictionaryRef> cgVariations = copy_axes(cg.get(), fontData.get()); // The CGFontRef returned by CGFontCreateCopyWithVariations when the passed CGFontRef was // created from a data provider does not appear to have any ownership of the underlying // data. The original CGFontRef must be kept alive until the copy will no longer be used. SkUniqueCFRef<CGFontRef> cgVariant; if (cgVariations) { cgVariant.reset(CGFontCreateCopyWithVariations(cg.get(), cgVariations.get())); } else { cgVariant.reset(cg.release()); } SkUniqueCFRef<CTFontRef> ct( CTFontCreateWithGraphicsFont(cgVariant.get(), 0, nullptr, nullptr)); if (!ct) { return nullptr; } return create_from_CTFontRef(std::move(ct), std::move(cg), true); } sk_sp<SkTypeface> onMakeFromFile(const char path[], int ttcIndex) const override { SkUniqueCFRef<CGDataProviderRef> pr(CGDataProviderCreateWithFilename(path)); if (!pr) { return nullptr; } return create_from_dataProvider(std::move(pr), ttcIndex); } sk_sp<SkTypeface> onLegacyMakeTypeface(const char familyName[], SkFontStyle style) const override { if (familyName) { familyName = map_css_names(familyName); } sk_sp<SkTypeface> face = create_from_name(familyName, style); if (face) { return face; } static SkTypeface* gDefaultFace; static SkOnce lookupDefault; static const char FONT_DEFAULT_NAME[] = "Lucida Sans"; lookupDefault([]{ gDefaultFace = create_from_name(FONT_DEFAULT_NAME, SkFontStyle()).release(); }); return sk_ref_sp(gDefaultFace); } }; /////////////////////////////////////////////////////////////////////////////// sk_sp<SkFontMgr> SkFontMgr::Factory() { return sk_make_sp<SkFontMgr_Mac>(); } #endif//defined(SK_BUILD_FOR_MAC) || defined(SK_BUILD_FOR_IOS)