/* * 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 "SkAdvancedTypefaceMetrics.h" #include "SkBitmap.h" #include "SkCanvas.h" #include "SkColorData.h" #include "SkDescriptor.h" #include "SkFDot6.h" #include "SkFontDescriptor.h" #include "SkFontHost_FreeType_common.h" #include "SkGlyph.h" #include "SkMakeUnique.h" #include "SkMalloc.h" #include "SkMask.h" #include "SkMaskGamma.h" #include "SkMatrix22.h" #include "SkMutex.h" #include "SkOTUtils.h" #include "SkPath.h" #include "SkScalerContext.h" #include "SkStream.h" #include "SkString.h" #include "SkTemplates.h" #include "SkTo.h" #include #include #include FT_ADVANCES_H #include FT_BITMAP_H #include FT_FREETYPE_H #include FT_LCD_FILTER_H #include FT_MODULE_H #include FT_MULTIPLE_MASTERS_H #include FT_OUTLINE_H #include FT_SIZES_H #include FT_SYSTEM_H #include FT_TRUETYPE_TABLES_H #include FT_TYPE1_TABLES_H #include FT_XFREE86_H // SK_FREETYPE_MINIMUM_RUNTIME_VERSION 0x // Flag SK_FREETYPE_DLOPEN: also try dlopen to get newer features. #define SK_FREETYPE_DLOPEN (0x1) #ifndef SK_FREETYPE_MINIMUM_RUNTIME_VERSION # if defined(SK_BUILD_FOR_ANDROID_FRAMEWORK) || defined (SK_BUILD_FOR_GOOGLE3) # define SK_FREETYPE_MINIMUM_RUNTIME_VERSION (((FREETYPE_MAJOR) << 24) | ((FREETYPE_MINOR) << 16) | ((FREETYPE_PATCH) << 8)) # else # define SK_FREETYPE_MINIMUM_RUNTIME_VERSION ((2 << 24) | (3 << 16) | (11 << 8) | (SK_FREETYPE_DLOPEN)) # endif #endif #if SK_FREETYPE_MINIMUM_RUNTIME_VERSION & SK_FREETYPE_DLOPEN # include #endif // FT_LOAD_COLOR and the corresponding FT_Pixel_Mode::FT_PIXEL_MODE_BGRA // were introduced in FreeType 2.5.0. // The following may be removed once FreeType 2.5.0 is required to build. #ifndef FT_LOAD_COLOR # define FT_LOAD_COLOR ( 1L << 20 ) # define FT_PIXEL_MODE_BGRA 7 #endif // FT_LOAD_BITMAP_METRICS_ONLY was introduced in FreeType 2.7.1 // The following may be removed once FreeType 2.7.1 is required to build. #ifndef FT_LOAD_BITMAP_METRICS_ONLY # define FT_LOAD_BITMAP_METRICS_ONLY ( 1L << 22 ) #endif // FT_VAR_AXIS_FLAG_HIDDEN was introduced in FreeType 2.8.1 // The variation axis should not be exposed to user interfaces. #ifndef FT_VAR_AXIS_FLAG_HIDDEN # define FT_VAR_AXIS_FLAG_HIDDEN 1 #endif //#define ENABLE_GLYPH_SPEW // for tracing calls //#define DUMP_STRIKE_CREATION //#define SK_FONTHOST_FREETYPE_RUNTIME_VERSION //#define SK_GAMMA_APPLY_TO_A8 static bool isLCD(const SkScalerContextRec& rec) { return SkMask::kLCD16_Format == rec.fMaskFormat; } static SkScalar SkFT_FixedToScalar(FT_Fixed x) { return SkFixedToScalar(x); } ////////////////////////////////////////////////////////////////////////// extern "C" { static void* sk_ft_alloc(FT_Memory, long size) { return sk_malloc_throw(size); } static void sk_ft_free(FT_Memory, void* block) { sk_free(block); } static void* sk_ft_realloc(FT_Memory, long cur_size, long new_size, void* block) { return sk_realloc_throw(block, new_size); } }; FT_MemoryRec_ gFTMemory = { nullptr, sk_ft_alloc, sk_ft_free, sk_ft_realloc }; class FreeTypeLibrary : SkNoncopyable { public: FreeTypeLibrary() : fGetVarDesignCoordinates(nullptr) , fGetVarAxisFlags(nullptr) , fLibrary(nullptr) , fIsLCDSupported(false) , fLCDExtra(0) { if (FT_New_Library(&gFTMemory, &fLibrary)) { return; } FT_Add_Default_Modules(fLibrary); // When using dlsym // *(void**)(&procPtr) = dlsym(self, "proc"); // is non-standard, but safe for POSIX. Cannot write // *reinterpret_cast(&procPtr) = dlsym(self, "proc"); // because clang has not implemented DR573. See http://clang.llvm.org/cxx_dr_status.html . FT_Int major, minor, patch; FT_Library_Version(fLibrary, &major, &minor, &patch); #if SK_FREETYPE_MINIMUM_RUNTIME_VERSION >= 0x02070100 fGetVarDesignCoordinates = FT_Get_Var_Design_Coordinates; #elif SK_FREETYPE_MINIMUM_RUNTIME_VERSION & SK_FREETYPE_DLOPEN if (major > 2 || ((major == 2 && minor > 7) || (major == 2 && minor == 7 && patch >= 0))) { //The FreeType library is already loaded, so symbols are available in process. void* self = dlopen(nullptr, RTLD_LAZY); if (self) { *(void**)(&fGetVarDesignCoordinates) = dlsym(self, "FT_Get_Var_Design_Coordinates"); dlclose(self); } } #endif #if SK_FREETYPE_MINIMUM_RUNTIME_VERSION >= 0x02070200 FT_Set_Default_Properties(fLibrary); #elif SK_FREETYPE_MINIMUM_RUNTIME_VERSION & SK_FREETYPE_DLOPEN if (major > 2 || ((major == 2 && minor > 7) || (major == 2 && minor == 7 && patch >= 1))) { //The FreeType library is already loaded, so symbols are available in process. void* self = dlopen(nullptr, RTLD_LAZY); if (self) { FT_Set_Default_PropertiesProc setDefaultProperties; *(void**)(&setDefaultProperties) = dlsym(self, "FT_Set_Default_Properties"); dlclose(self); if (setDefaultProperties) { setDefaultProperties(fLibrary); } } } #endif #if SK_FREETYPE_MINIMUM_RUNTIME_VERSION >= 0x02080100 fGetVarAxisFlags = FT_Get_Var_Axis_Flags; #elif SK_FREETYPE_MINIMUM_RUNTIME_VERSION & SK_FREETYPE_DLOPEN if (major > 2 || ((major == 2 && minor > 7) || (major == 2 && minor == 7 && patch >= 0))) { //The FreeType library is already loaded, so symbols are available in process. void* self = dlopen(nullptr, RTLD_LAZY); if (self) { *(void**)(&fGetVarAxisFlags) = dlsym(self, "FT_Get_Var_Axis_Flags"); dlclose(self); } } #endif // Setup LCD filtering. This reduces color fringes for LCD smoothed glyphs. // The default has changed over time, so this doesn't mean the same thing to all users. if (FT_Library_SetLcdFilter(fLibrary, FT_LCD_FILTER_DEFAULT) == 0) { fIsLCDSupported = true; fLCDExtra = 2; //Using a filter adds one full pixel to each side. } } ~FreeTypeLibrary() { if (fLibrary) { FT_Done_Library(fLibrary); } } FT_Library library() { return fLibrary; } bool isLCDSupported() { return fIsLCDSupported; } int lcdExtra() { return fLCDExtra; } // FT_Get_{MM,Var}_{Blend,Design}_Coordinates were added in FreeType 2.7.1. // Prior to this there was no way to get the coordinates out of the FT_Face. // This wasn't too bad because you needed to specify them anyway, and the clamp was provided. // However, this doesn't work when face_index specifies named variations as introduced in 2.6.1. using FT_Get_Var_Blend_CoordinatesProc = FT_Error (*)(FT_Face, FT_UInt, FT_Fixed*); FT_Get_Var_Blend_CoordinatesProc fGetVarDesignCoordinates; // FT_Get_Var_Axis_Flags was introduced in FreeType 2.8.1 // Get the ‘flags’ field of an OpenType Variation Axis Record. // Not meaningful for Adobe MM fonts (‘*flags’ is always zero). using FT_Get_Var_Axis_FlagsProc = FT_Error (*)(FT_MM_Var*, FT_UInt, FT_UInt*); FT_Get_Var_Axis_FlagsProc fGetVarAxisFlags; private: FT_Library fLibrary; bool fIsLCDSupported; int fLCDExtra; // FT_Library_SetLcdFilterWeights was introduced in FreeType 2.4.0. // The following platforms provide FreeType of at least 2.4.0. // Ubuntu >= 11.04 (previous deprecated April 2013) // Debian >= 6.0 (good) // OpenSuse >= 11.4 (previous deprecated January 2012 / Nov 2013 for Evergreen 11.2) // Fedora >= 14 (good) // Android >= Gingerbread (good) // RHEL >= 7 (6 has 2.3.11, EOL Nov 2020, Phase 3 May 2017) using FT_Library_SetLcdFilterWeightsProc = FT_Error (*)(FT_Library, unsigned char*); // FreeType added the ability to read global properties in 2.7.0. After 2.7.1 a means for users // of FT_New_Library to request these global properties to be read was added. using FT_Set_Default_PropertiesProc = void (*)(FT_Library); }; struct SkFaceRec; SK_DECLARE_STATIC_MUTEX(gFTMutex); static FreeTypeLibrary* gFTLibrary; static SkFaceRec* gFaceRecHead; // Private to ref_ft_library and unref_ft_library static int gFTCount; // Caller must lock gFTMutex before calling this function. static bool ref_ft_library() { gFTMutex.assertHeld(); SkASSERT(gFTCount >= 0); if (0 == gFTCount) { SkASSERT(nullptr == gFTLibrary); gFTLibrary = new FreeTypeLibrary; } ++gFTCount; return gFTLibrary->library(); } // Caller must lock gFTMutex before calling this function. static void unref_ft_library() { gFTMutex.assertHeld(); SkASSERT(gFTCount > 0); --gFTCount; if (0 == gFTCount) { SkASSERT(nullptr == gFaceRecHead); SkASSERT(nullptr != gFTLibrary); delete gFTLibrary; SkDEBUGCODE(gFTLibrary = nullptr;) } } /////////////////////////////////////////////////////////////////////////// struct SkFaceRec { SkFaceRec* fNext; std::unique_ptr> fFace; FT_StreamRec fFTStream; std::unique_ptr fSkStream; uint32_t fRefCnt; uint32_t fFontID; // FreeType prior to 2.7.1 does not implement retreiving variation design metrics. // Cache the variation design metrics used to create the font if the user specifies them. SkAutoSTMalloc<4, SkFixed> fAxes; int fAxesCount; // FreeType from 2.6.1 (14d6b5d7) until 2.7.0 (ee3f36f6b38) uses font_index for both font index // and named variation index on input, but masks the named variation index part on output. // Manually keep track of when a named variation is requested for 2.6.1 until 2.7.1. bool fNamedVariationSpecified; SkFaceRec(std::unique_ptr stream, uint32_t fontID); }; extern "C" { static unsigned long sk_ft_stream_io(FT_Stream ftStream, unsigned long offset, unsigned char* buffer, unsigned long count) { SkStreamAsset* stream = static_cast(ftStream->descriptor.pointer); if (count) { if (!stream->seek(offset)) { return 0; } count = stream->read(buffer, count); } return count; } static void sk_ft_stream_close(FT_Stream) {} } SkFaceRec::SkFaceRec(std::unique_ptr stream, uint32_t fontID) : fNext(nullptr), fSkStream(std::move(stream)), fRefCnt(1), fFontID(fontID) , fAxesCount(0), fNamedVariationSpecified(false) { sk_bzero(&fFTStream, sizeof(fFTStream)); fFTStream.size = fSkStream->getLength(); fFTStream.descriptor.pointer = fSkStream.get(); fFTStream.read = sk_ft_stream_io; fFTStream.close = sk_ft_stream_close; } static void ft_face_setup_axes(SkFaceRec* rec, const SkFontData& data) { if (!(rec->fFace->face_flags & FT_FACE_FLAG_MULTIPLE_MASTERS)) { return; } // If a named variation is requested, don't overwrite the named variation's position. if (data.getIndex() > 0xFFFF) { rec->fNamedVariationSpecified = true; return; } SkDEBUGCODE( FT_MM_Var* variations = nullptr; if (FT_Get_MM_Var(rec->fFace.get(), &variations)) { SkDEBUGF("INFO: font %s claims variations, but none found.\n", rec->fFace->family_name); return; } SkAutoFree autoFreeVariations(variations); if (static_cast(data.getAxisCount()) != variations->num_axis) { SkDEBUGF("INFO: font %s has %d variations, but %d were specified.\n", rec->fFace->family_name, variations->num_axis, data.getAxisCount()); return; } ) SkAutoSTMalloc<4, FT_Fixed> coords(data.getAxisCount()); for (int i = 0; i < data.getAxisCount(); ++i) { coords[i] = data.getAxis()[i]; } if (FT_Set_Var_Design_Coordinates(rec->fFace.get(), data.getAxisCount(), coords.get())) { SkDEBUGF("INFO: font %s has variations, but specified variations could not be set.\n", rec->fFace->family_name); return; } rec->fAxesCount = data.getAxisCount(); rec->fAxes.reset(rec->fAxesCount); for (int i = 0; i < rec->fAxesCount; ++i) { rec->fAxes[i] = data.getAxis()[i]; } } // Will return nullptr on failure // Caller must lock gFTMutex before calling this function. static SkFaceRec* ref_ft_face(const SkTypeface* typeface) { gFTMutex.assertHeld(); const SkFontID fontID = typeface->uniqueID(); SkFaceRec* cachedRec = gFaceRecHead; while (cachedRec) { if (cachedRec->fFontID == fontID) { SkASSERT(cachedRec->fFace); cachedRec->fRefCnt += 1; return cachedRec; } cachedRec = cachedRec->fNext; } std::unique_ptr data = typeface->makeFontData(); if (nullptr == data || !data->hasStream()) { return nullptr; } std::unique_ptr rec(new SkFaceRec(data->detachStream(), fontID)); FT_Open_Args args; memset(&args, 0, sizeof(args)); const void* memoryBase = rec->fSkStream->getMemoryBase(); if (memoryBase) { args.flags = FT_OPEN_MEMORY; args.memory_base = (const FT_Byte*)memoryBase; args.memory_size = rec->fSkStream->getLength(); } else { args.flags = FT_OPEN_STREAM; args.stream = &rec->fFTStream; } { FT_Face rawFace; FT_Error err = FT_Open_Face(gFTLibrary->library(), &args, data->getIndex(), &rawFace); if (err) { SK_TRACEFTR(err, "unable to open font '%x'", fontID); return nullptr; } rec->fFace.reset(rawFace); } SkASSERT(rec->fFace); ft_face_setup_axes(rec.get(), *data); // FreeType will set the charmap to the "most unicode" cmap if it exists. // If there are no unicode cmaps, the charmap is set to nullptr. // However, "symbol" cmaps should also be considered "fallback unicode" cmaps // because they are effectively private use area only (even if they aren't). // This is the last on the fallback list at // https://developer.apple.com/fonts/TrueType-Reference-Manual/RM06/Chap6cmap.html if (!rec->fFace->charmap) { FT_Select_Charmap(rec->fFace.get(), FT_ENCODING_MS_SYMBOL); } rec->fNext = gFaceRecHead; gFaceRecHead = rec.get(); return rec.release(); } // Caller must lock gFTMutex before calling this function. // Marked extern because vc++ does not support internal linkage template parameters. extern /*static*/ void unref_ft_face(SkFaceRec* faceRec) { gFTMutex.assertHeld(); SkFaceRec* rec = gFaceRecHead; SkFaceRec* prev = nullptr; while (rec) { SkFaceRec* next = rec->fNext; if (rec->fFace == faceRec->fFace) { if (--rec->fRefCnt == 0) { if (prev) { prev->fNext = next; } else { gFaceRecHead = next; } delete rec; } return; } prev = rec; rec = next; } SkDEBUGFAIL("shouldn't get here, face not in list"); } class AutoFTAccess { public: AutoFTAccess(const SkTypeface* tf) : fFaceRec(nullptr) { gFTMutex.acquire(); SkASSERT_RELEASE(ref_ft_library()); fFaceRec = ref_ft_face(tf); } ~AutoFTAccess() { if (fFaceRec) { unref_ft_face(fFaceRec); } unref_ft_library(); gFTMutex.release(); } FT_Face face() { return fFaceRec ? fFaceRec->fFace.get() : nullptr; } int getAxesCount() { return fFaceRec ? fFaceRec->fAxesCount : 0; } SkFixed* getAxes() { return fFaceRec ? fFaceRec->fAxes.get() : nullptr; } bool isNamedVariationSpecified() { return fFaceRec ? fFaceRec->fNamedVariationSpecified : false; } private: SkFaceRec* fFaceRec; }; /////////////////////////////////////////////////////////////////////////// class SkScalerContext_FreeType : public SkScalerContext_FreeType_Base { public: SkScalerContext_FreeType(sk_sp, const SkScalerContextEffects&, const SkDescriptor* desc); ~SkScalerContext_FreeType() override; bool success() const { return fFTSize != nullptr && fFace != nullptr; } protected: unsigned generateGlyphCount() override; uint16_t generateCharToGlyph(SkUnichar uni) override; void generateAdvance(SkGlyph* glyph) override; void generateMetrics(SkGlyph* glyph) override; void generateImage(const SkGlyph& glyph) override; bool generatePath(SkGlyphID glyphID, SkPath* path) override; void generateFontMetrics(SkPaint::FontMetrics*) override; SkUnichar generateGlyphToChar(uint16_t glyph) override; private: using UnrefFTFace = SkFunctionWrapper; std::unique_ptr fFaceRec; FT_Face fFace; // Borrowed face from gFaceRecHead. FT_Size fFTSize; // The size on the fFace for this scaler. FT_Int fStrikeIndex; /** The rest of the matrix after FreeType handles the size. * With outline font rasterization this is handled by FreeType with FT_Set_Transform. * With bitmap only fonts this matrix must be applied to scale the bitmap. */ SkMatrix fMatrix22Scalar; /** Same as fMatrix22Scalar, but in FreeType units and space. */ FT_Matrix fMatrix22; /** The actual size requested. */ SkVector fScale; uint32_t fLoadGlyphFlags; bool fDoLinearMetrics; bool fLCDIsVert; FT_Error setupSize(); void getBBoxForCurrentGlyph(SkGlyph* glyph, FT_BBox* bbox, bool snapToPixelBoundary = false); bool getCBoxForLetter(char letter, FT_BBox* bbox); // Caller must lock gFTMutex before calling this function. void updateGlyphIfLCD(SkGlyph* glyph); // Caller must lock gFTMutex before calling this function. // update FreeType2 glyph slot with glyph emboldened void emboldenIfNeeded(FT_Face face, FT_GlyphSlot glyph, SkGlyphID gid); bool shouldSubpixelBitmap(const SkGlyph&, const SkMatrix&); }; /////////////////////////////////////////////////////////////////////////// static bool canEmbed(FT_Face face) { FT_UShort fsType = FT_Get_FSType_Flags(face); return (fsType & (FT_FSTYPE_RESTRICTED_LICENSE_EMBEDDING | FT_FSTYPE_BITMAP_EMBEDDING_ONLY)) == 0; } static bool canSubset(FT_Face face) { FT_UShort fsType = FT_Get_FSType_Flags(face); return (fsType & FT_FSTYPE_NO_SUBSETTING) == 0; } static SkAdvancedTypefaceMetrics::FontType get_font_type(FT_Face face) { const char* fontType = FT_Get_X11_Font_Format(face); static struct { const char* s; SkAdvancedTypefaceMetrics::FontType t; } values[] = { { "Type 1", SkAdvancedTypefaceMetrics::kType1_Font }, { "CID Type 1", SkAdvancedTypefaceMetrics::kType1CID_Font }, { "CFF", SkAdvancedTypefaceMetrics::kCFF_Font }, { "TrueType", SkAdvancedTypefaceMetrics::kTrueType_Font }, }; for(const auto& v : values) { if (strcmp(fontType, v.s) == 0) { return v.t; } } return SkAdvancedTypefaceMetrics::kOther_Font; } std::unique_ptr SkTypeface_FreeType::onGetAdvancedMetrics() const { AutoFTAccess fta(this); FT_Face face = fta.face(); if (!face) { return nullptr; } std::unique_ptr info(new SkAdvancedTypefaceMetrics); info->fPostScriptName.set(FT_Get_Postscript_Name(face)); info->fFontName = info->fPostScriptName; if (FT_HAS_MULTIPLE_MASTERS(face)) { info->fFlags |= SkAdvancedTypefaceMetrics::kMultiMaster_FontFlag; } if (!canEmbed(face)) { info->fFlags |= SkAdvancedTypefaceMetrics::kNotEmbeddable_FontFlag; } if (!canSubset(face)) { info->fFlags |= SkAdvancedTypefaceMetrics::kNotSubsettable_FontFlag; } info->fType = get_font_type(face); info->fStyle = (SkAdvancedTypefaceMetrics::StyleFlags)0; if (FT_IS_FIXED_WIDTH(face)) { info->fStyle |= SkAdvancedTypefaceMetrics::kFixedPitch_Style; } if (face->style_flags & FT_STYLE_FLAG_ITALIC) { info->fStyle |= SkAdvancedTypefaceMetrics::kItalic_Style; } PS_FontInfoRec psFontInfo; TT_Postscript* postTable; if (FT_Get_PS_Font_Info(face, &psFontInfo) == 0) { info->fItalicAngle = psFontInfo.italic_angle; } else if ((postTable = (TT_Postscript*)FT_Get_Sfnt_Table(face, ft_sfnt_post)) != nullptr) { info->fItalicAngle = SkFixedFloorToInt(postTable->italicAngle); } else { info->fItalicAngle = 0; } info->fAscent = face->ascender; info->fDescent = face->descender; TT_PCLT* pcltTable; TT_OS2* os2Table; if ((pcltTable = (TT_PCLT*)FT_Get_Sfnt_Table(face, ft_sfnt_pclt)) != nullptr) { info->fCapHeight = pcltTable->CapHeight; uint8_t serif_style = pcltTable->SerifStyle & 0x3F; if (2 <= serif_style && serif_style <= 6) { info->fStyle |= SkAdvancedTypefaceMetrics::kSerif_Style; } else if (9 <= serif_style && serif_style <= 12) { info->fStyle |= SkAdvancedTypefaceMetrics::kScript_Style; } } else if (((os2Table = (TT_OS2*)FT_Get_Sfnt_Table(face, ft_sfnt_os2)) != nullptr) && // sCapHeight is available only when version 2 or later. os2Table->version != 0xFFFF && os2Table->version >= 2) { info->fCapHeight = os2Table->sCapHeight; } info->fBBox = SkIRect::MakeLTRB(face->bbox.xMin, face->bbox.yMax, face->bbox.xMax, face->bbox.yMin); return info; } void SkTypeface_FreeType::getGlyphToUnicodeMap(SkUnichar* dstArray) const { SkASSERT(dstArray); AutoFTAccess fta(this); FT_Face face = fta.face(); FT_Long numGlyphs = face->num_glyphs; sk_bzero(dstArray, sizeof(SkUnichar) * numGlyphs); FT_UInt glyphIndex; SkUnichar charCode = FT_Get_First_Char(face, &glyphIndex); while (glyphIndex) { SkASSERT(glyphIndex < SkToUInt(numGlyphs)); // Use the first character that maps to this glyphID. https://crbug.com/359065 if (0 == dstArray[glyphIndex]) { dstArray[glyphIndex] = charCode; } charCode = FT_Get_Next_Char(face, charCode, &glyphIndex); } } void SkTypeface_FreeType::getPostScriptGlyphNames(SkString* dstArray) const { SkASSERT(dstArray); AutoFTAccess fta(this); FT_Face face = fta.face(); if (face && FT_HAS_GLYPH_NAMES(face)) { for (int gID = 0; gID < face->num_glyphs; gID++) { char glyphName[128]; // PS limit for names is 127 bytes. FT_Get_Glyph_Name(face, gID, glyphName, 128); dstArray[gID] = glyphName; } } } /////////////////////////////////////////////////////////////////////////// static bool bothZero(SkScalar a, SkScalar b) { return 0 == a && 0 == b; } // returns false if there is any non-90-rotation or skew static bool isAxisAligned(const SkScalerContextRec& rec) { return 0 == rec.fPreSkewX && (bothZero(rec.fPost2x2[0][1], rec.fPost2x2[1][0]) || bothZero(rec.fPost2x2[0][0], rec.fPost2x2[1][1])); } SkScalerContext* SkTypeface_FreeType::onCreateScalerContext(const SkScalerContextEffects& effects, const SkDescriptor* desc) const { auto c = skstd::make_unique( sk_ref_sp(const_cast(this)), effects, desc); if (!c->success()) { return nullptr; } return c.release(); } std::unique_ptr SkTypeface_FreeType::cloneFontData( const SkFontArguments& args) const { SkString name; AutoFTAccess fta(this); FT_Face face = fta.face(); Scanner::AxisDefinitions axisDefinitions; if (!Scanner::GetAxes(face, &axisDefinitions)) { return nullptr; } SkAutoSTMalloc<4, SkFixed> axisValues(axisDefinitions.count()); Scanner::computeAxisValues(axisDefinitions, args.getVariationDesignPosition(), axisValues, name); int ttcIndex; auto stream = std::unique_ptr(this->openStream(&ttcIndex)); return skstd::make_unique(std::move(stream), ttcIndex, axisValues.get(), axisDefinitions.count()); } void SkTypeface_FreeType::onFilterRec(SkScalerContextRec* rec) const { //BOGUS: http://code.google.com/p/chromium/issues/detail?id=121119 //Cap the requested size as larger sizes give bogus values. //Remove when http://code.google.com/p/skia/issues/detail?id=554 is fixed. //Note that this also currently only protects against large text size requests, //the total matrix is not taken into account here. if (rec->fTextSize > SkIntToScalar(1 << 14)) { rec->fTextSize = SkIntToScalar(1 << 14); } if (isLCD(*rec)) { // TODO: re-work so that FreeType is set-up and selected by the SkFontMgr. SkAutoMutexAcquire ama(gFTMutex); ref_ft_library(); if (!gFTLibrary->isLCDSupported()) { // If the runtime Freetype library doesn't support LCD, disable it here. rec->fMaskFormat = SkMask::kA8_Format; } unref_ft_library(); } SkPaint::Hinting h = rec->getHinting(); if (SkPaint::kFull_Hinting == h && !isLCD(*rec)) { // collapse full->normal hinting if we're not doing LCD h = SkPaint::kNormal_Hinting; } // rotated text looks bad with hinting, so we disable it as needed if (!isAxisAligned(*rec)) { h = SkPaint::kNo_Hinting; } rec->setHinting(h); #ifndef SK_GAMMA_APPLY_TO_A8 if (!isLCD(*rec)) { // SRGBTODO: Is this correct? Do we want contrast boost? rec->ignorePreBlend(); } #endif } int SkTypeface_FreeType::onGetUPEM() const { AutoFTAccess fta(this); FT_Face face = fta.face(); return face ? face->units_per_EM : 0; } bool SkTypeface_FreeType::onGetKerningPairAdjustments(const uint16_t glyphs[], int count, int32_t adjustments[]) const { AutoFTAccess fta(this); FT_Face face = fta.face(); if (!face || !FT_HAS_KERNING(face)) { return false; } for (int i = 0; i < count - 1; ++i) { FT_Vector delta; FT_Error err = FT_Get_Kerning(face, glyphs[i], glyphs[i+1], FT_KERNING_UNSCALED, &delta); if (err) { return false; } adjustments[i] = delta.x; } return true; } /** Returns the bitmap strike equal to or just larger than the requested size. */ static FT_Int chooseBitmapStrike(FT_Face face, FT_F26Dot6 scaleY) { if (face == nullptr) { SkDEBUGF("chooseBitmapStrike aborted due to nullptr face.\n"); return -1; } FT_Pos requestedPPEM = scaleY; // FT_Bitmap_Size::y_ppem is in 26.6 format. FT_Int chosenStrikeIndex = -1; FT_Pos chosenPPEM = 0; for (FT_Int strikeIndex = 0; strikeIndex < face->num_fixed_sizes; ++strikeIndex) { FT_Pos strikePPEM = face->available_sizes[strikeIndex].y_ppem; if (strikePPEM == requestedPPEM) { // exact match - our search stops here return strikeIndex; } else if (chosenPPEM < requestedPPEM) { // attempt to increase chosenPPEM if (chosenPPEM < strikePPEM) { chosenPPEM = strikePPEM; chosenStrikeIndex = strikeIndex; } } else { // attempt to decrease chosenPPEM, but not below requestedPPEM if (requestedPPEM < strikePPEM && strikePPEM < chosenPPEM) { chosenPPEM = strikePPEM; chosenStrikeIndex = strikeIndex; } } } return chosenStrikeIndex; } SkScalerContext_FreeType::SkScalerContext_FreeType(sk_sp typeface, const SkScalerContextEffects& effects, const SkDescriptor* desc) : SkScalerContext_FreeType_Base(std::move(typeface), effects, desc) , fFace(nullptr) , fFTSize(nullptr) , fStrikeIndex(-1) { SkAutoMutexAcquire ac(gFTMutex); SkASSERT_RELEASE(ref_ft_library()); fFaceRec.reset(ref_ft_face(this->getTypeface())); // load the font file if (nullptr == fFaceRec) { SkDEBUGF("Could not create FT_Face.\n"); return; } fLCDIsVert = SkToBool(fRec.fFlags & SkScalerContext::kLCD_Vertical_Flag); // compute the flags we send to Load_Glyph bool linearMetrics = SkToBool(fRec.fFlags & SkScalerContext::kSubpixelPositioning_Flag); { FT_Int32 loadFlags = FT_LOAD_DEFAULT; if (SkMask::kBW_Format == fRec.fMaskFormat) { // See http://code.google.com/p/chromium/issues/detail?id=43252#c24 loadFlags = FT_LOAD_TARGET_MONO; if (fRec.getHinting() == SkPaint::kNo_Hinting) { loadFlags = FT_LOAD_NO_HINTING; linearMetrics = true; } } else { switch (fRec.getHinting()) { case SkPaint::kNo_Hinting: loadFlags = FT_LOAD_NO_HINTING; linearMetrics = true; break; case SkPaint::kSlight_Hinting: loadFlags = FT_LOAD_TARGET_LIGHT; // This implies FORCE_AUTOHINT break; case SkPaint::kNormal_Hinting: loadFlags = FT_LOAD_TARGET_NORMAL; break; case SkPaint::kFull_Hinting: loadFlags = FT_LOAD_TARGET_NORMAL; if (isLCD(fRec)) { if (fLCDIsVert) { loadFlags = FT_LOAD_TARGET_LCD_V; } else { loadFlags = FT_LOAD_TARGET_LCD; } } break; default: SkDebugf("---------- UNKNOWN hinting %d\n", fRec.getHinting()); break; } } if (fRec.fFlags & SkScalerContext::kForceAutohinting_Flag) { loadFlags |= FT_LOAD_FORCE_AUTOHINT; #ifdef SK_BUILD_FOR_ANDROID_FRAMEWORK } else { loadFlags |= FT_LOAD_NO_AUTOHINT; #endif } if ((fRec.fFlags & SkScalerContext::kEmbeddedBitmapText_Flag) == 0) { loadFlags |= FT_LOAD_NO_BITMAP; } // Always using FT_LOAD_IGNORE_GLOBAL_ADVANCE_WIDTH to get correct // advances, as fontconfig and cairo do. // See http://code.google.com/p/skia/issues/detail?id=222. loadFlags |= FT_LOAD_IGNORE_GLOBAL_ADVANCE_WIDTH; // Use vertical layout if requested. if (fRec.fFlags & SkScalerContext::kVertical_Flag) { loadFlags |= FT_LOAD_VERTICAL_LAYOUT; } loadFlags |= FT_LOAD_COLOR; fLoadGlyphFlags = loadFlags; } using DoneFTSize = SkFunctionWrapper, FT_Done_Size>; std::unique_ptr, DoneFTSize> ftSize([this]() -> FT_Size { FT_Size size; FT_Error err = FT_New_Size(fFaceRec->fFace.get(), &size); if (err != 0) { SK_TRACEFTR(err, "FT_New_Size(%s) failed.", fFaceRec->fFace->family_name); return nullptr; } return size; }()); if (nullptr == ftSize) { SkDEBUGF("Could not create FT_Size.\n"); return; } FT_Error err = FT_Activate_Size(ftSize.get()); if (err != 0) { SK_TRACEFTR(err, "FT_Activate_Size(%s) failed.", fFaceRec->fFace->family_name); return; } fRec.computeMatrices(SkScalerContextRec::kFull_PreMatrixScale, &fScale, &fMatrix22Scalar); FT_F26Dot6 scaleX = SkScalarToFDot6(fScale.fX); FT_F26Dot6 scaleY = SkScalarToFDot6(fScale.fY); if (FT_IS_SCALABLE(fFaceRec->fFace)) { err = FT_Set_Char_Size(fFaceRec->fFace.get(), scaleX, scaleY, 72, 72); if (err != 0) { SK_TRACEFTR(err, "FT_Set_CharSize(%s, %f, %f) failed.", fFaceRec->fFace->family_name, fScale.fX, fScale.fY); return; } #ifndef SK_IGNORE_TINY_FREETYPE_SIZE_FIX // Adjust the matrix to reflect the actually chosen scale. // FreeType currently does not allow requesting sizes less than 1, this allow for scaling. // Don't do this at all sizes as that will interfere with hinting. if (fScale.fX < 1 || fScale.fY < 1) { SkScalar upem = fFaceRec->fFace->units_per_EM; FT_Size_Metrics& ftmetrics = fFaceRec->fFace->size->metrics; SkScalar x_ppem = upem * SkFT_FixedToScalar(ftmetrics.x_scale) / 64.0f; SkScalar y_ppem = upem * SkFT_FixedToScalar(ftmetrics.y_scale) / 64.0f; fMatrix22Scalar.preScale(fScale.x() / x_ppem, fScale.y() / y_ppem); } #endif } else if (FT_HAS_FIXED_SIZES(fFaceRec->fFace)) { fStrikeIndex = chooseBitmapStrike(fFaceRec->fFace.get(), scaleY); if (fStrikeIndex == -1) { SkDEBUGF("No glyphs for font \"%s\" size %f.\n", fFaceRec->fFace->family_name, fScale.fY); return; } err = FT_Select_Size(fFaceRec->fFace.get(), fStrikeIndex); if (err != 0) { SK_TRACEFTR(err, "FT_Select_Size(%s, %d) failed.", fFaceRec->fFace->family_name, fStrikeIndex); fStrikeIndex = -1; return; } // Adjust the matrix to reflect the actually chosen scale. // It is likely that the ppem chosen was not the one requested, this allows for scaling. fMatrix22Scalar.preScale(fScale.x() / fFaceRec->fFace->size->metrics.x_ppem, fScale.y() / fFaceRec->fFace->size->metrics.y_ppem); // FreeType does not provide linear metrics for bitmap fonts. linearMetrics = false; // FreeType documentation says: // FT_LOAD_NO_BITMAP -- Ignore bitmap strikes when loading. // Bitmap-only fonts ignore this flag. // // However, in FreeType 2.5.1 color bitmap only fonts do not ignore this flag. // Force this flag off for bitmap only fonts. fLoadGlyphFlags &= ~FT_LOAD_NO_BITMAP; } else { SkDEBUGF("Unknown kind of font \"%s\" size %f.\n", fFaceRec->fFace->family_name, fScale.fY); return; } fMatrix22.xx = SkScalarToFixed(fMatrix22Scalar.getScaleX()); fMatrix22.xy = SkScalarToFixed(-fMatrix22Scalar.getSkewX()); fMatrix22.yx = SkScalarToFixed(-fMatrix22Scalar.getSkewY()); fMatrix22.yy = SkScalarToFixed(fMatrix22Scalar.getScaleY()); fFTSize = ftSize.release(); fFace = fFaceRec->fFace.get(); fDoLinearMetrics = linearMetrics; } SkScalerContext_FreeType::~SkScalerContext_FreeType() { SkAutoMutexAcquire ac(gFTMutex); if (fFTSize != nullptr) { FT_Done_Size(fFTSize); } fFaceRec = nullptr; unref_ft_library(); } /* We call this before each use of the fFace, since we may be sharing this face with other context (at different sizes). */ FT_Error SkScalerContext_FreeType::setupSize() { gFTMutex.assertHeld(); FT_Error err = FT_Activate_Size(fFTSize); if (err != 0) { return err; } FT_Set_Transform(fFace, &fMatrix22, nullptr); return 0; } unsigned SkScalerContext_FreeType::generateGlyphCount() { return fFace->num_glyphs; } uint16_t SkScalerContext_FreeType::generateCharToGlyph(SkUnichar uni) { SkAutoMutexAcquire ac(gFTMutex); return SkToU16(FT_Get_Char_Index( fFace, uni )); } SkUnichar SkScalerContext_FreeType::generateGlyphToChar(uint16_t glyph) { SkAutoMutexAcquire ac(gFTMutex); // iterate through each cmap entry, looking for matching glyph indices FT_UInt glyphIndex; SkUnichar charCode = FT_Get_First_Char( fFace, &glyphIndex ); while (glyphIndex != 0) { if (glyphIndex == glyph) { return charCode; } charCode = FT_Get_Next_Char( fFace, charCode, &glyphIndex ); } return 0; } void SkScalerContext_FreeType::generateAdvance(SkGlyph* glyph) { /* unhinted and light hinted text have linearly scaled advances * which are very cheap to compute with some font formats... */ if (fDoLinearMetrics) { SkAutoMutexAcquire ac(gFTMutex); if (this->setupSize()) { glyph->zeroMetrics(); return; } FT_Error error; FT_Fixed advance; error = FT_Get_Advance( fFace, glyph->getGlyphID(), fLoadGlyphFlags | FT_ADVANCE_FLAG_FAST_ONLY, &advance ); if (0 == error) { const SkScalar advanceScalar = SkFT_FixedToScalar(advance); glyph->fAdvanceX = SkScalarToFloat(fMatrix22Scalar.getScaleX() * advanceScalar); glyph->fAdvanceY = SkScalarToFloat(fMatrix22Scalar.getSkewY() * advanceScalar); return; } } /* otherwise, we need to load/hint the glyph, which is slower */ this->generateMetrics(glyph); return; } void SkScalerContext_FreeType::getBBoxForCurrentGlyph(SkGlyph* glyph, FT_BBox* bbox, bool snapToPixelBoundary) { FT_Outline_Get_CBox(&fFace->glyph->outline, bbox); if (fRec.fFlags & SkScalerContext::kSubpixelPositioning_Flag) { int dx = SkFixedToFDot6(glyph->getSubXFixed()); int dy = SkFixedToFDot6(glyph->getSubYFixed()); // negate dy since freetype-y-goes-up and skia-y-goes-down bbox->xMin += dx; bbox->yMin -= dy; bbox->xMax += dx; bbox->yMax -= dy; } // outset the box to integral boundaries if (snapToPixelBoundary) { bbox->xMin &= ~63; bbox->yMin &= ~63; bbox->xMax = (bbox->xMax + 63) & ~63; bbox->yMax = (bbox->yMax + 63) & ~63; } // Must come after snapToPixelBoundary so that the width and height are // consistent. Otherwise asserts will fire later on when generating the // glyph image. if (fRec.fFlags & SkScalerContext::kVertical_Flag) { FT_Vector vector; vector.x = fFace->glyph->metrics.vertBearingX - fFace->glyph->metrics.horiBearingX; vector.y = -fFace->glyph->metrics.vertBearingY - fFace->glyph->metrics.horiBearingY; FT_Vector_Transform(&vector, &fMatrix22); bbox->xMin += vector.x; bbox->xMax += vector.x; bbox->yMin += vector.y; bbox->yMax += vector.y; } } bool SkScalerContext_FreeType::getCBoxForLetter(char letter, FT_BBox* bbox) { const FT_UInt glyph_id = FT_Get_Char_Index(fFace, letter); if (!glyph_id) { return false; } if (FT_Load_Glyph(fFace, glyph_id, fLoadGlyphFlags) != 0) { return false; } emboldenIfNeeded(fFace, fFace->glyph, SkTo(glyph_id)); FT_Outline_Get_CBox(&fFace->glyph->outline, bbox); return true; } void SkScalerContext_FreeType::updateGlyphIfLCD(SkGlyph* glyph) { if (isLCD(fRec)) { if (fLCDIsVert) { glyph->fHeight += gFTLibrary->lcdExtra(); glyph->fTop -= gFTLibrary->lcdExtra() >> 1; } else { glyph->fWidth += gFTLibrary->lcdExtra(); glyph->fLeft -= gFTLibrary->lcdExtra() >> 1; } } } bool SkScalerContext_FreeType::shouldSubpixelBitmap(const SkGlyph& glyph, const SkMatrix& matrix) { // If subpixel rendering of a bitmap *can* be done. bool mechanism = fFace->glyph->format == FT_GLYPH_FORMAT_BITMAP && fRec.fFlags & SkScalerContext::kSubpixelPositioning_Flag && (glyph.getSubXFixed() || glyph.getSubYFixed()); // If subpixel rendering of a bitmap *should* be done. // 1. If the face is not scalable then always allow subpixel rendering. // Otherwise, if the font has an 8ppem strike 7 will subpixel render but 8 won't. // 2. If the matrix is already not identity the bitmap will already be resampled, // so resampling slightly differently shouldn't make much difference. bool policy = !FT_IS_SCALABLE(fFace) || !matrix.isIdentity(); return mechanism && policy; } void SkScalerContext_FreeType::generateMetrics(SkGlyph* glyph) { SkAutoMutexAcquire ac(gFTMutex); FT_Error err; if (this->setupSize()) { glyph->zeroMetrics(); return; } err = FT_Load_Glyph( fFace, glyph->getGlyphID(), fLoadGlyphFlags | FT_LOAD_BITMAP_METRICS_ONLY ); if (err != 0) { glyph->zeroMetrics(); return; } emboldenIfNeeded(fFace, fFace->glyph, glyph->getGlyphID()); switch ( fFace->glyph->format ) { case FT_GLYPH_FORMAT_OUTLINE: if (0 == fFace->glyph->outline.n_contours) { glyph->fWidth = 0; glyph->fHeight = 0; glyph->fTop = 0; glyph->fLeft = 0; } else { FT_BBox bbox; getBBoxForCurrentGlyph(glyph, &bbox, true); glyph->fWidth = SkToU16(SkFDot6Floor(bbox.xMax - bbox.xMin)); glyph->fHeight = SkToU16(SkFDot6Floor(bbox.yMax - bbox.yMin)); glyph->fTop = -SkToS16(SkFDot6Floor(bbox.yMax)); glyph->fLeft = SkToS16(SkFDot6Floor(bbox.xMin)); updateGlyphIfLCD(glyph); } break; case FT_GLYPH_FORMAT_BITMAP: if (fRec.fFlags & SkScalerContext::kVertical_Flag) { FT_Vector vector; vector.x = fFace->glyph->metrics.vertBearingX - fFace->glyph->metrics.horiBearingX; vector.y = -fFace->glyph->metrics.vertBearingY - fFace->glyph->metrics.horiBearingY; FT_Vector_Transform(&vector, &fMatrix22); fFace->glyph->bitmap_left += SkFDot6Floor(vector.x); fFace->glyph->bitmap_top += SkFDot6Floor(vector.y); } if (fFace->glyph->bitmap.pixel_mode == FT_PIXEL_MODE_BGRA) { glyph->fMaskFormat = SkMask::kARGB32_Format; } { SkRect rect = SkRect::MakeXYWH(SkIntToScalar(fFace->glyph->bitmap_left), -SkIntToScalar(fFace->glyph->bitmap_top), SkIntToScalar(fFace->glyph->bitmap.width), SkIntToScalar(fFace->glyph->bitmap.rows)); fMatrix22Scalar.mapRect(&rect); if (this->shouldSubpixelBitmap(*glyph, fMatrix22Scalar)) { rect.offset(SkFixedToScalar(glyph->getSubXFixed()), SkFixedToScalar(glyph->getSubYFixed())); } SkIRect irect = rect.roundOut(); glyph->fWidth = SkToU16(irect.width()); glyph->fHeight = SkToU16(irect.height()); glyph->fTop = SkToS16(irect.top()); glyph->fLeft = SkToS16(irect.left()); } break; default: SkDEBUGFAIL("unknown glyph format"); glyph->zeroMetrics(); return; } if (fRec.fFlags & SkScalerContext::kVertical_Flag) { if (fDoLinearMetrics) { const SkScalar advanceScalar = SkFT_FixedToScalar(fFace->glyph->linearVertAdvance); glyph->fAdvanceX = SkScalarToFloat(fMatrix22Scalar.getSkewX() * advanceScalar); glyph->fAdvanceY = SkScalarToFloat(fMatrix22Scalar.getScaleY() * advanceScalar); } else { glyph->fAdvanceX = -SkFDot6ToFloat(fFace->glyph->advance.x); glyph->fAdvanceY = SkFDot6ToFloat(fFace->glyph->advance.y); } } else { if (fDoLinearMetrics) { const SkScalar advanceScalar = SkFT_FixedToScalar(fFace->glyph->linearHoriAdvance); glyph->fAdvanceX = SkScalarToFloat(fMatrix22Scalar.getScaleX() * advanceScalar); glyph->fAdvanceY = SkScalarToFloat(fMatrix22Scalar.getSkewY() * advanceScalar); } else { glyph->fAdvanceX = SkFDot6ToFloat(fFace->glyph->advance.x); glyph->fAdvanceY = -SkFDot6ToFloat(fFace->glyph->advance.y); } } #ifdef ENABLE_GLYPH_SPEW SkDEBUGF("Metrics(glyph:%d flags:0x%x) w:%d\n", glyph->getGlyphID(), fLoadGlyphFlags, glyph->fWidth); #endif } static void clear_glyph_image(const SkGlyph& glyph) { sk_bzero(glyph.fImage, glyph.rowBytes() * glyph.fHeight); } void SkScalerContext_FreeType::generateImage(const SkGlyph& glyph) { SkAutoMutexAcquire ac(gFTMutex); if (this->setupSize()) { clear_glyph_image(glyph); return; } FT_Error err = FT_Load_Glyph(fFace, glyph.getGlyphID(), fLoadGlyphFlags); if (err != 0) { SK_TRACEFTR(err, "SkScalerContext_FreeType::generateImage: FT_Load_Glyph(glyph:%d " "width:%d height:%d rb:%d flags:%d) failed.", glyph.getGlyphID(), glyph.fWidth, glyph.fHeight, glyph.rowBytes(), fLoadGlyphFlags); clear_glyph_image(glyph); return; } emboldenIfNeeded(fFace, fFace->glyph, glyph.getGlyphID()); SkMatrix* bitmapMatrix = &fMatrix22Scalar; SkMatrix subpixelBitmapMatrix; if (this->shouldSubpixelBitmap(glyph, *bitmapMatrix)) { subpixelBitmapMatrix = fMatrix22Scalar; subpixelBitmapMatrix.postTranslate(SkFixedToScalar(glyph.getSubXFixed()), SkFixedToScalar(glyph.getSubYFixed())); bitmapMatrix = &subpixelBitmapMatrix; } generateGlyphImage(fFace, glyph, *bitmapMatrix); } bool SkScalerContext_FreeType::generatePath(SkGlyphID glyphID, SkPath* path) { SkASSERT(path); SkAutoMutexAcquire ac(gFTMutex); if (this->setupSize()) { path->reset(); return false; } uint32_t flags = fLoadGlyphFlags; flags |= FT_LOAD_NO_BITMAP; // ignore embedded bitmaps so we're sure to get the outline flags &= ~FT_LOAD_RENDER; // don't scan convert (we just want the outline) FT_Error err = FT_Load_Glyph(fFace, glyphID, flags); if (err != 0) { path->reset(); return false; } emboldenIfNeeded(fFace, fFace->glyph, glyphID); if (!generateGlyphPath(fFace, path)) { path->reset(); return false; } // The path's origin from FreeType is always the horizontal layout origin. // Offset the path so that it is relative to the vertical origin if needed. if (fRec.fFlags & SkScalerContext::kVertical_Flag) { FT_Vector vector; vector.x = fFace->glyph->metrics.vertBearingX - fFace->glyph->metrics.horiBearingX; vector.y = -fFace->glyph->metrics.vertBearingY - fFace->glyph->metrics.horiBearingY; FT_Vector_Transform(&vector, &fMatrix22); path->offset(SkFDot6ToScalar(vector.x), -SkFDot6ToScalar(vector.y)); } return true; } void SkScalerContext_FreeType::generateFontMetrics(SkPaint::FontMetrics* metrics) { if (nullptr == metrics) { return; } SkAutoMutexAcquire ac(gFTMutex); if (this->setupSize()) { sk_bzero(metrics, sizeof(*metrics)); return; } FT_Face face = fFace; metrics->fFlags = 0; // fetch units/EM from "head" table if needed (ie for bitmap fonts) SkScalar upem = SkIntToScalar(face->units_per_EM); if (!upem) { TT_Header* ttHeader = (TT_Header*)FT_Get_Sfnt_Table(face, ft_sfnt_head); if (ttHeader) { upem = SkIntToScalar(ttHeader->Units_Per_EM); } } // use the os/2 table as a source of reasonable defaults. SkScalar x_height = 0.0f; SkScalar avgCharWidth = 0.0f; SkScalar cap_height = 0.0f; SkScalar strikeoutThickness = 0.0f, strikeoutPosition = 0.0f; TT_OS2* os2 = (TT_OS2*) FT_Get_Sfnt_Table(face, ft_sfnt_os2); if (os2) { x_height = SkIntToScalar(os2->sxHeight) / upem * fScale.y(); avgCharWidth = SkIntToScalar(os2->xAvgCharWidth) / upem; strikeoutThickness = SkIntToScalar(os2->yStrikeoutSize) / upem; strikeoutPosition = -SkIntToScalar(os2->yStrikeoutPosition) / upem; metrics->fFlags |= SkPaint::FontMetrics::kStrikeoutThicknessIsValid_Flag; metrics->fFlags |= SkPaint::FontMetrics::kStrikeoutPositionIsValid_Flag; if (os2->version != 0xFFFF && os2->version >= 2) { cap_height = SkIntToScalar(os2->sCapHeight) / upem * fScale.y(); } } // pull from format-specific metrics as needed SkScalar ascent, descent, leading, xmin, xmax, ymin, ymax; SkScalar underlineThickness, underlinePosition; if (face->face_flags & FT_FACE_FLAG_SCALABLE) { // scalable outline font // FreeType will always use HHEA metrics if they're not zero. // It completely ignores the OS/2 fsSelection::UseTypoMetrics bit. // It also ignores the VDMX tables, which are also of interest here // (and override everything else when they apply). static const int kUseTypoMetricsMask = (1 << 7); if (os2 && os2->version != 0xFFFF && (os2->fsSelection & kUseTypoMetricsMask)) { ascent = -SkIntToScalar(os2->sTypoAscender) / upem; descent = -SkIntToScalar(os2->sTypoDescender) / upem; leading = SkIntToScalar(os2->sTypoLineGap) / upem; } else { ascent = -SkIntToScalar(face->ascender) / upem; descent = -SkIntToScalar(face->descender) / upem; leading = SkIntToScalar(face->height + (face->descender - face->ascender)) / upem; } xmin = SkIntToScalar(face->bbox.xMin) / upem; xmax = SkIntToScalar(face->bbox.xMax) / upem; ymin = -SkIntToScalar(face->bbox.yMin) / upem; ymax = -SkIntToScalar(face->bbox.yMax) / upem; underlineThickness = SkIntToScalar(face->underline_thickness) / upem; underlinePosition = -SkIntToScalar(face->underline_position + face->underline_thickness / 2) / upem; metrics->fFlags |= SkPaint::FontMetrics::kUnderlineThicknessIsValid_Flag; metrics->fFlags |= SkPaint::FontMetrics::kUnderlinePositionIsValid_Flag; // we may be able to synthesize x_height and cap_height from outline if (!x_height) { FT_BBox bbox; if (getCBoxForLetter('x', &bbox)) { x_height = SkIntToScalar(bbox.yMax) / 64.0f; } } if (!cap_height) { FT_BBox bbox; if (getCBoxForLetter('H', &bbox)) { cap_height = SkIntToScalar(bbox.yMax) / 64.0f; } } } else if (fStrikeIndex != -1) { // bitmap strike metrics SkScalar xppem = SkIntToScalar(face->size->metrics.x_ppem); SkScalar yppem = SkIntToScalar(face->size->metrics.y_ppem); ascent = -SkIntToScalar(face->size->metrics.ascender) / (yppem * 64.0f); descent = -SkIntToScalar(face->size->metrics.descender) / (yppem * 64.0f); leading = (SkIntToScalar(face->size->metrics.height) / (yppem * 64.0f)) + ascent - descent; xmin = 0.0f; xmax = SkIntToScalar(face->available_sizes[fStrikeIndex].width) / xppem; ymin = descent; ymax = ascent; underlineThickness = 0; underlinePosition = 0; metrics->fFlags &= ~SkPaint::FontMetrics::kUnderlineThicknessIsValid_Flag; metrics->fFlags &= ~SkPaint::FontMetrics::kUnderlinePositionIsValid_Flag; TT_Postscript* post = (TT_Postscript*) FT_Get_Sfnt_Table(face, ft_sfnt_post); if (post) { underlineThickness = SkIntToScalar(post->underlineThickness) / upem; underlinePosition = -SkIntToScalar(post->underlinePosition) / upem; metrics->fFlags |= SkPaint::FontMetrics::kUnderlineThicknessIsValid_Flag; metrics->fFlags |= SkPaint::FontMetrics::kUnderlinePositionIsValid_Flag; } } else { sk_bzero(metrics, sizeof(*metrics)); return; } // synthesize elements that were not provided by the os/2 table or format-specific metrics if (!x_height) { x_height = -ascent * fScale.y(); } if (!avgCharWidth) { avgCharWidth = xmax - xmin; } if (!cap_height) { cap_height = -ascent * fScale.y(); } // disallow negative linespacing if (leading < 0.0f) { leading = 0.0f; } metrics->fTop = ymax * fScale.y(); metrics->fAscent = ascent * fScale.y(); metrics->fDescent = descent * fScale.y(); metrics->fBottom = ymin * fScale.y(); metrics->fLeading = leading * fScale.y(); metrics->fAvgCharWidth = avgCharWidth * fScale.y(); metrics->fXMin = xmin * fScale.y(); metrics->fXMax = xmax * fScale.y(); metrics->fMaxCharWidth = metrics->fXMax - metrics->fXMin; metrics->fXHeight = x_height; metrics->fCapHeight = cap_height; metrics->fUnderlineThickness = underlineThickness * fScale.y(); metrics->fUnderlinePosition = underlinePosition * fScale.y(); metrics->fStrikeoutThickness = strikeoutThickness * fScale.y(); metrics->fStrikeoutPosition = strikeoutPosition * fScale.y(); } /////////////////////////////////////////////////////////////////////////////// // hand-tuned value to reduce outline embolden strength #ifndef SK_OUTLINE_EMBOLDEN_DIVISOR #ifdef SK_BUILD_FOR_ANDROID_FRAMEWORK #define SK_OUTLINE_EMBOLDEN_DIVISOR 34 #else #define SK_OUTLINE_EMBOLDEN_DIVISOR 24 #endif #endif /////////////////////////////////////////////////////////////////////////////// void SkScalerContext_FreeType::emboldenIfNeeded(FT_Face face, FT_GlyphSlot glyph, SkGlyphID gid) { // check to see if the embolden bit is set if (0 == (fRec.fFlags & SkScalerContext::kEmbolden_Flag)) { return; } switch (glyph->format) { case FT_GLYPH_FORMAT_OUTLINE: FT_Pos strength; strength = FT_MulFix(face->units_per_EM, face->size->metrics.y_scale) / SK_OUTLINE_EMBOLDEN_DIVISOR; FT_Outline_Embolden(&glyph->outline, strength); break; case FT_GLYPH_FORMAT_BITMAP: if (!fFace->glyph->bitmap.buffer) { FT_Load_Glyph(fFace, gid, fLoadGlyphFlags); } FT_GlyphSlot_Own_Bitmap(glyph); FT_Bitmap_Embolden(glyph->library, &glyph->bitmap, kBitmapEmboldenStrength, 0); break; default: SkDEBUGFAIL("unknown glyph format"); } } /////////////////////////////////////////////////////////////////////////////// #include "SkUtils.h" static SkUnichar next_utf8(const void** chars) { return SkUTF8_NextUnichar((const char**)chars); } static SkUnichar next_utf16(const void** chars) { return SkUTF16_NextUnichar((const uint16_t**)chars); } static SkUnichar next_utf32(const void** chars) { const SkUnichar** uniChars = (const SkUnichar**)chars; SkUnichar uni = **uniChars; *uniChars += 1; return uni; } typedef SkUnichar (*EncodingProc)(const void**); static EncodingProc find_encoding_proc(SkTypeface::Encoding enc) { static const EncodingProc gProcs[] = { next_utf8, next_utf16, next_utf32 }; SkASSERT((size_t)enc < SK_ARRAY_COUNT(gProcs)); return gProcs[enc]; } int SkTypeface_FreeType::onCharsToGlyphs(const void* chars, Encoding encoding, uint16_t glyphs[], int glyphCount) const { AutoFTAccess fta(this); FT_Face face = fta.face(); if (!face) { if (glyphs) { sk_bzero(glyphs, glyphCount * sizeof(glyphs[0])); } return 0; } EncodingProc next_uni_proc = find_encoding_proc(encoding); if (nullptr == glyphs) { for (int i = 0; i < glyphCount; ++i) { if (0 == FT_Get_Char_Index(face, next_uni_proc(&chars))) { return i; } } return glyphCount; } else { int first = glyphCount; for (int i = 0; i < glyphCount; ++i) { unsigned id = FT_Get_Char_Index(face, next_uni_proc(&chars)); glyphs[i] = SkToU16(id); if (0 == id && i < first) { first = i; } } return first; } } int SkTypeface_FreeType::onCountGlyphs() const { AutoFTAccess fta(this); FT_Face face = fta.face(); return face ? face->num_glyphs : 0; } SkTypeface::LocalizedStrings* SkTypeface_FreeType::onCreateFamilyNameIterator() const { SkTypeface::LocalizedStrings* nameIter = SkOTUtils::LocalizedStrings_NameTable::CreateForFamilyNames(*this); if (nullptr == nameIter) { SkString familyName; this->getFamilyName(&familyName); SkString language("und"); //undetermined nameIter = new SkOTUtils::LocalizedStrings_SingleName(familyName, language); } return nameIter; } int SkTypeface_FreeType::onGetVariationDesignPosition( SkFontArguments::VariationPosition::Coordinate coordinates[], int coordinateCount) const { AutoFTAccess fta(this); FT_Face face = fta.face(); if (!face) { return -1; } if (!(face->face_flags & FT_FACE_FLAG_MULTIPLE_MASTERS)) { return 0; } FT_MM_Var* variations = nullptr; if (FT_Get_MM_Var(face, &variations)) { return -1; } SkAutoFree autoFreeVariations(variations); if (!coordinates || coordinateCount < SkToInt(variations->num_axis)) { return variations->num_axis; } SkAutoSTMalloc<4, FT_Fixed> coords(variations->num_axis); // FT_Get_{MM,Var}_{Blend,Design}_Coordinates were added in FreeType 2.7.1. if (gFTLibrary->fGetVarDesignCoordinates && !gFTLibrary->fGetVarDesignCoordinates(face, variations->num_axis, coords.get())) { for (FT_UInt i = 0; i < variations->num_axis; ++i) { coordinates[i].axis = variations->axis[i].tag; coordinates[i].value = SkFixedToScalar(coords[i]); } } else if (static_cast(fta.getAxesCount()) == variations->num_axis) { for (FT_UInt i = 0; i < variations->num_axis; ++i) { coordinates[i].axis = variations->axis[i].tag; coordinates[i].value = SkFixedToScalar(fta.getAxes()[i]); } } else if (fta.isNamedVariationSpecified()) { // The font has axes, they cannot be retrieved, and some named axis was specified. return -1; } else { // The font has axes, they cannot be retrieved, but no named instance was specified. return 0; } return variations->num_axis; } int SkTypeface_FreeType::onGetVariationDesignParameters( SkFontParameters::Variation::Axis parameters[], int parameterCount) const { AutoFTAccess fta(this); FT_Face face = fta.face(); if (!face) { return -1; } if (!(face->face_flags & FT_FACE_FLAG_MULTIPLE_MASTERS)) { return 0; } FT_MM_Var* variations = nullptr; if (FT_Get_MM_Var(face, &variations)) { return -1; } SkAutoFree autoFreeVariations(variations); if (!parameters || parameterCount < SkToInt(variations->num_axis)) { return variations->num_axis; } for (FT_UInt i = 0; i < variations->num_axis; ++i) { parameters[i].tag = variations->axis[i].tag; parameters[i].min = SkFixedToScalar(variations->axis[i].minimum); parameters[i].def = SkFixedToScalar(variations->axis[i].def); parameters[i].max = SkFixedToScalar(variations->axis[i].maximum); FT_UInt flags = 0; bool hidden = gFTLibrary->fGetVarAxisFlags && !gFTLibrary->fGetVarAxisFlags(variations, i, &flags) && (flags & FT_VAR_AXIS_FLAG_HIDDEN); parameters[i].setHidden(hidden); } return variations->num_axis; } int SkTypeface_FreeType::onGetTableTags(SkFontTableTag tags[]) const { AutoFTAccess fta(this); FT_Face face = fta.face(); FT_ULong tableCount = 0; FT_Error error; // When 'tag' is nullptr, returns number of tables in 'length'. error = FT_Sfnt_Table_Info(face, 0, nullptr, &tableCount); if (error) { return 0; } if (tags) { for (FT_ULong tableIndex = 0; tableIndex < tableCount; ++tableIndex) { FT_ULong tableTag; FT_ULong tablelength; error = FT_Sfnt_Table_Info(face, tableIndex, &tableTag, &tablelength); if (error) { return 0; } tags[tableIndex] = static_cast(tableTag); } } return tableCount; } size_t SkTypeface_FreeType::onGetTableData(SkFontTableTag tag, size_t offset, size_t length, void* data) const { AutoFTAccess fta(this); FT_Face face = fta.face(); FT_ULong tableLength = 0; FT_Error error; // When 'length' is 0 it is overwritten with the full table length; 'offset' is ignored. error = FT_Load_Sfnt_Table(face, tag, 0, nullptr, &tableLength); if (error) { return 0; } if (offset > tableLength) { return 0; } FT_ULong size = SkTMin((FT_ULong)length, tableLength - (FT_ULong)offset); if (data) { error = FT_Load_Sfnt_Table(face, tag, offset, reinterpret_cast(data), &size); if (error) { return 0; } } return size; } /////////////////////////////////////////////////////////////////////////////// /////////////////////////////////////////////////////////////////////////////// SkTypeface_FreeType::Scanner::Scanner() : fLibrary(nullptr) { if (FT_New_Library(&gFTMemory, &fLibrary)) { return; } FT_Add_Default_Modules(fLibrary); } SkTypeface_FreeType::Scanner::~Scanner() { if (fLibrary) { FT_Done_Library(fLibrary); } } FT_Face SkTypeface_FreeType::Scanner::openFace(SkStreamAsset* stream, int ttcIndex, FT_Stream ftStream) const { if (fLibrary == nullptr) { return nullptr; } FT_Open_Args args; memset(&args, 0, sizeof(args)); const void* memoryBase = stream->getMemoryBase(); if (memoryBase) { args.flags = FT_OPEN_MEMORY; args.memory_base = (const FT_Byte*)memoryBase; args.memory_size = stream->getLength(); } else { memset(ftStream, 0, sizeof(*ftStream)); ftStream->size = stream->getLength(); ftStream->descriptor.pointer = stream; ftStream->read = sk_ft_stream_io; ftStream->close = sk_ft_stream_close; args.flags = FT_OPEN_STREAM; args.stream = ftStream; } FT_Face face; if (FT_Open_Face(fLibrary, &args, ttcIndex, &face)) { return nullptr; } return face; } bool SkTypeface_FreeType::Scanner::recognizedFont(SkStreamAsset* stream, int* numFaces) const { SkAutoMutexAcquire libraryLock(fLibraryMutex); FT_StreamRec streamRec; FT_Face face = this->openFace(stream, -1, &streamRec); if (nullptr == face) { return false; } *numFaces = face->num_faces; FT_Done_Face(face); return true; } #include "SkTSearch.h" bool SkTypeface_FreeType::Scanner::scanFont( SkStreamAsset* stream, int ttcIndex, SkString* name, SkFontStyle* style, bool* isFixedPitch, AxisDefinitions* axes) const { SkAutoMutexAcquire libraryLock(fLibraryMutex); FT_StreamRec streamRec; FT_Face face = this->openFace(stream, ttcIndex, &streamRec); if (nullptr == face) { return false; } int weight = SkFontStyle::kNormal_Weight; int width = SkFontStyle::kNormal_Width; SkFontStyle::Slant slant = SkFontStyle::kUpright_Slant; if (face->style_flags & FT_STYLE_FLAG_BOLD) { weight = SkFontStyle::kBold_Weight; } if (face->style_flags & FT_STYLE_FLAG_ITALIC) { slant = SkFontStyle::kItalic_Slant; } PS_FontInfoRec psFontInfo; TT_OS2* os2 = static_cast(FT_Get_Sfnt_Table(face, ft_sfnt_os2)); if (os2 && os2->version != 0xffff) { weight = os2->usWeightClass; width = os2->usWidthClass; // OS/2::fsSelection bit 9 indicates oblique. if (SkToBool(os2->fsSelection & (1u << 9))) { slant = SkFontStyle::kOblique_Slant; } } else if (0 == FT_Get_PS_Font_Info(face, &psFontInfo) && psFontInfo.weight) { static const struct { char const * const name; int const weight; } commonWeights [] = { // There are probably more common names, but these are known to exist. { "all", SkFontStyle::kNormal_Weight }, // Multiple Masters usually default to normal. { "black", SkFontStyle::kBlack_Weight }, { "bold", SkFontStyle::kBold_Weight }, { "book", (SkFontStyle::kNormal_Weight + SkFontStyle::kLight_Weight)/2 }, { "demi", SkFontStyle::kSemiBold_Weight }, { "demibold", SkFontStyle::kSemiBold_Weight }, { "extra", SkFontStyle::kExtraBold_Weight }, { "extrabold", SkFontStyle::kExtraBold_Weight }, { "extralight", SkFontStyle::kExtraLight_Weight }, { "hairline", SkFontStyle::kThin_Weight }, { "heavy", SkFontStyle::kBlack_Weight }, { "light", SkFontStyle::kLight_Weight }, { "medium", SkFontStyle::kMedium_Weight }, { "normal", SkFontStyle::kNormal_Weight }, { "plain", SkFontStyle::kNormal_Weight }, { "regular", SkFontStyle::kNormal_Weight }, { "roman", SkFontStyle::kNormal_Weight }, { "semibold", SkFontStyle::kSemiBold_Weight }, { "standard", SkFontStyle::kNormal_Weight }, { "thin", SkFontStyle::kThin_Weight }, { "ultra", SkFontStyle::kExtraBold_Weight }, { "ultrablack", SkFontStyle::kExtraBlack_Weight }, { "ultrabold", SkFontStyle::kExtraBold_Weight }, { "ultraheavy", SkFontStyle::kExtraBlack_Weight }, { "ultralight", SkFontStyle::kExtraLight_Weight }, }; int const index = SkStrLCSearch(&commonWeights[0].name, SK_ARRAY_COUNT(commonWeights), psFontInfo.weight, sizeof(commonWeights[0])); if (index >= 0) { weight = commonWeights[index].weight; } else { SkDEBUGF("Do not know weight for: %s (%s) \n", face->family_name, psFontInfo.weight); } } if (name) { name->set(face->family_name); } if (style) { *style = SkFontStyle(weight, width, slant); } if (isFixedPitch) { *isFixedPitch = FT_IS_FIXED_WIDTH(face); } bool success = GetAxes(face, axes); FT_Done_Face(face); return success; } bool SkTypeface_FreeType::Scanner::GetAxes(FT_Face face, AxisDefinitions* axes) { if (axes && face->face_flags & FT_FACE_FLAG_MULTIPLE_MASTERS) { FT_MM_Var* variations = nullptr; FT_Error err = FT_Get_MM_Var(face, &variations); if (err) { SkDEBUGF("INFO: font %s claims to have variations, but none found.\n", face->family_name); return false; } SkAutoFree autoFreeVariations(variations); axes->reset(variations->num_axis); for (FT_UInt i = 0; i < variations->num_axis; ++i) { const FT_Var_Axis& ftAxis = variations->axis[i]; (*axes)[i].fTag = ftAxis.tag; (*axes)[i].fMinimum = ftAxis.minimum; (*axes)[i].fDefault = ftAxis.def; (*axes)[i].fMaximum = ftAxis.maximum; } } return true; } /*static*/ void SkTypeface_FreeType::Scanner::computeAxisValues( AxisDefinitions axisDefinitions, const SkFontArguments::VariationPosition position, SkFixed* axisValues, const SkString& name) { for (int i = 0; i < axisDefinitions.count(); ++i) { const Scanner::AxisDefinition& axisDefinition = axisDefinitions[i]; const SkScalar axisMin = SkFixedToScalar(axisDefinition.fMinimum); const SkScalar axisMax = SkFixedToScalar(axisDefinition.fMaximum); axisValues[i] = axisDefinition.fDefault; // 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;) { const auto& coordinate = position.coordinates[j]; if (axisDefinition.fTag == coordinate.axis) { const SkScalar axisValue = SkTPin(coordinate.value, axisMin, axisMax); if (coordinate.value != axisValue) { SkDEBUGF("Requested font axis value out of range: " "%s '%c%c%c%c' %f; pinned to %f.\n", name.c_str(), (axisDefinition.fTag >> 24) & 0xFF, (axisDefinition.fTag >> 16) & 0xFF, (axisDefinition.fTag >> 8) & 0xFF, (axisDefinition.fTag ) & 0xFF, SkScalarToDouble(coordinate.value), SkScalarToDouble(axisValue)); } axisValues[i] = SkScalarToFixed(axisValue); break; } } // TODO: warn on defaulted axis? } SkDEBUGCODE( // Check for axis specified, but not matched in font. for (int i = 0; i < position.coordinateCount; ++i) { SkFourByteTag skTag = position.coordinates[i].axis; bool found = false; for (int j = 0; j < axisDefinitions.count(); ++j) { if (skTag == axisDefinitions[j].fTag) { found = true; break; } } if (!found) { SkDEBUGF("Requested font axis not found: %s '%c%c%c%c'\n", name.c_str(), (skTag >> 24) & 0xFF, (skTag >> 16) & 0xFF, (skTag >> 8) & 0xFF, (skTag) & 0xFF); } } ) }