src/core/SkTypeface.cpp - skia - Git at Google

 /*
  * Copyright 2011 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 "include/core/SkTypeface.h"

 #include "include/core/SkData.h"
 #include "include/core/SkFont.h"
 #include "include/core/SkFontMetrics.h"
 #include "include/core/SkFontMgr.h"
 #include "include/core/SkFontTypes.h"
 #include "include/core/SkScalar.h"
 #include "include/core/SkStream.h"
 #include "include/private/base/SkDebug.h"
 #include "include/private/base/SkMalloc.h"
 #include "include/private/base/SkOnce.h"
 #include "include/private/base/SkTemplates.h"
 #include "include/utils/SkCustomTypeface.h"
 #include "src/base/SkBitmaskEnum.h"
 #include "src/base/SkEndian.h"
 #include "src/base/SkNoDestructor.h"
 #include "src/base/SkUTF.h"
 #include "src/core/SkAdvancedTypefaceMetrics.h"
 #include "src/core/SkDescriptor.h"
 #include "src/core/SkFontDescriptor.h"
 #include "src/core/SkFontPriv.h"
 #include "src/core/SkScalerContext.h"
 #include "src/core/SkTypefaceCache.h"
 #include "src/sfnt/SkOTTable_OS_2.h"

 #ifdef SK_TYPEFACE_FACTORY_FREETYPE
 #include "src/ports/SkTypeface_FreeType.h"
 #endif

 #ifdef SK_TYPEFACE_FACTORY_CORETEXT
 #include "src/ports/SkTypeface_mac_ct.h"
 #endif

 #ifdef SK_TYPEFACE_FACTORY_DIRECTWRITE
 #include "src/ports/SkTypeface_win_dw.h"
 #endif

 // TODO(https://crbug.com/skia/14338): This needs to be set by Bazel rules.
 #ifdef SK_TYPEFACE_FACTORY_FONTATIONS
 #include "src/ports/SkTypeface_fontations_priv.h"
 #endif

 #include <cstddef>
 #include <cstring>
 #include <vector>

 using namespace skia_private;

 SkTypeface::SkTypeface(const SkFontStyle& style, bool isFixedPitch)
     : fUniqueID(SkTypefaceCache::NewTypefaceID()), fStyle(style), fIsFixedPitch(isFixedPitch) { }

 SkTypeface::~SkTypeface() { }

 ///////////////////////////////////////////////////////////////////////////////

 namespace {

 class SkEmptyTypeface : public SkTypeface {
 public:
     static sk_sp<SkTypeface> Make() {
         static SkNoDestructor<SkEmptyTypeface> instance;
         return sk_ref_sp(instance.get());
     }

     static constexpr SkTypeface::FactoryId FactoryId = SkSetFourByteTag('e','m','t','y');
     static sk_sp<SkTypeface> MakeFromStream(std::unique_ptr<SkStreamAsset> stream,
                                             const SkFontArguments&) {
         if (stream->getLength() == 0) {
             return SkEmptyTypeface::Make();
         }
         return nullptr;
     }
 protected:
     friend SkNoDestructor<SkEmptyTypeface>;
     SkEmptyTypeface() : SkTypeface(SkFontStyle(), true) { }

     std::unique_ptr<SkStreamAsset> onOpenStream(int* ttcIndex) const override { return nullptr; }
     sk_sp<SkTypeface> onMakeClone(const SkFontArguments& args) const override {
         return sk_ref_sp(this);
     }
     std::unique_ptr<SkScalerContext> onCreateScalerContext(
         const SkScalerContextEffects& effects, const SkDescriptor* desc) const override
     {
         return SkScalerContext::MakeEmpty(
                 sk_ref_sp(const_cast<SkEmptyTypeface*>(this)), effects, desc);
     }
     void onFilterRec(SkScalerContextRec*) const override { }
     std::unique_ptr<SkAdvancedTypefaceMetrics> onGetAdvancedMetrics() const override {
         return nullptr;
     }
     void onGetFontDescriptor(SkFontDescriptor* desc, bool* serialize) const override {
         desc->setFactoryId(FactoryId);
         *serialize = false;
     }
     void onCharsToGlyphs(const SkUnichar* chars, int count, SkGlyphID glyphs[]) const override {
         sk_bzero(glyphs, count * sizeof(glyphs[0]));
     }
     int onCountGlyphs() const override { return 0; }
     void getPostScriptGlyphNames(SkString*) const override {}
     void getGlyphToUnicodeMap(SkUnichar*) const override {}
     int onGetUPEM() const override { return 0; }
     bool onComputeBounds(SkRect* bounds) const override { return false; }

     class EmptyLocalizedStrings : public SkTypeface::LocalizedStrings {
     public:
         bool next(SkTypeface::LocalizedString*) override { return false; }
     };
     void onGetFamilyName(SkString* familyName) const override {
         familyName->reset();
     }
     bool onGetPostScriptName(SkString*) const override {
         return false;
     }
     SkTypeface::LocalizedStrings* onCreateFamilyNameIterator() const override {
         return new EmptyLocalizedStrings;
     }
     bool onGlyphMaskNeedsCurrentColor() const override {
         return false;
     }
     int onGetVariationDesignPosition(SkFontArguments::VariationPosition::Coordinate coordinates[],
                                      int coordinateCount) const override
     {
         return 0;
     }
     int onGetVariationDesignParameters(SkFontParameters::Variation::Axis parameters[],
                                        int parameterCount) const override
     {
         return 0;
     }
     int onGetTableTags(SkFontTableTag tags[]) const override { return 0; }
     size_t onGetTableData(SkFontTableTag, size_t, size_t, void*) const override {
         return 0;
     }
 };

 }  // namespace

 sk_sp<SkTypeface> SkTypeface::MakeEmpty() {
     return SkEmptyTypeface::Make();
 }

 bool SkTypeface::Equal(const SkTypeface* facea, const SkTypeface* faceb) {
     if (facea == faceb) {
         return true;
     }
     if (!facea || !faceb) {
         return false;
     }
     return facea->uniqueID() == faceb->uniqueID();
 }

 ///////////////////////////////////////////////////////////////////////////////

 namespace {

     struct DecoderProc {
         SkFourByteTag id;
         sk_sp<SkTypeface> (*makeFromStream)(std::unique_ptr<SkStreamAsset>, const SkFontArguments&);
     };

     std::vector<DecoderProc>* decoders() {
         static SkNoDestructor<std::vector<DecoderProc>> decoders{{
             { SkEmptyTypeface::FactoryId, SkEmptyTypeface::MakeFromStream },
             { SkCustomTypefaceBuilder::FactoryId, SkCustomTypefaceBuilder::MakeFromStream },
 #ifdef SK_TYPEFACE_FACTORY_CORETEXT
             { SkTypeface_Mac::FactoryId, SkTypeface_Mac::MakeFromStream },
 #endif
 #ifdef SK_TYPEFACE_FACTORY_DIRECTWRITE
             { DWriteFontTypeface::FactoryId, DWriteFontTypeface::MakeFromStream },
 #endif
 #ifdef SK_TYPEFACE_FACTORY_FREETYPE
             { SkTypeface_FreeType::FactoryId, SkTypeface_FreeType::MakeFromStream },
 #endif
 #ifdef SK_TYPEFACE_FACTORY_FONTATIONS
             { SkTypeface_Fontations::FactoryId, SkTypeface_Fontations::MakeFromStream },
 #endif
         }};
         return decoders.get();
     }

 }  // namespace

 sk_sp<SkTypeface> SkTypeface::makeClone(const SkFontArguments& args) const {
     return this->onMakeClone(args);
 }

 ///////////////////////////////////////////////////////////////////////////////

 void SkTypeface::Register(
             FactoryId id,
             sk_sp<SkTypeface> (*make)(std::unique_ptr<SkStreamAsset>, const SkFontArguments&)) {
     decoders()->push_back(DecoderProc{id, make});
 }

 void SkTypeface::serialize(SkWStream* wstream, SerializeBehavior behavior) const {
     bool isLocalData = false;
     SkFontDescriptor desc;
     this->onGetFontDescriptor(&desc, &isLocalData);
     if (desc.getFactoryId() == 0) {
         SkDEBUGF("Factory was not set for %s.\n", desc.getFamilyName());
     }

     bool shouldSerializeData = false;
     switch (behavior) {
         case SerializeBehavior::kDoIncludeData:      shouldSerializeData = true;        break;
         case SerializeBehavior::kDontIncludeData:    shouldSerializeData = false;       break;
         case SerializeBehavior::kIncludeDataIfLocal: shouldSerializeData = isLocalData; break;
     }

     if (shouldSerializeData) {
         int index;
         desc.setStream(this->openStream(&index));
         if (desc.hasStream()) {
             desc.setCollectionIndex(index);
         }

         int numAxes = this->getVariationDesignPosition(nullptr, 0);
         if (0 < numAxes) {
             numAxes = this->getVariationDesignPosition(desc.setVariationCoordinates(numAxes), numAxes);
             if (numAxes <= 0) {
                 desc.setVariationCoordinates(0);
             }
         }
     }
     desc.serialize(wstream);
 }

 sk_sp<SkData> SkTypeface::serialize(SerializeBehavior behavior) const {
     SkDynamicMemoryWStream stream;
     this->serialize(&stream, behavior);
     return stream.detachAsData();
 }

 sk_sp<SkTypeface> SkTypeface::MakeDeserialize(SkStream* stream, sk_sp<SkFontMgr> lastResortMgr) {
     SkFontDescriptor desc;
     if (!SkFontDescriptor::Deserialize(stream, &desc)) {
         return nullptr;
     }

     if (desc.hasStream()) {
         for (const DecoderProc& proc : *decoders()) {
             if (proc.id == desc.getFactoryId()) {
                 return proc.makeFromStream(desc.detachStream(), desc.getFontArguments());
             }
         }

         [[maybe_unused]] FactoryId id = desc.getFactoryId();
         SkDEBUGF("Could not find factory %c%c%c%c for %s.\n",
                  (char)((id >> 24) & 0xFF),
                  (char)((id >> 16) & 0xFF),
                  (char)((id >> 8) & 0xFF),
                  (char)((id >> 0) & 0xFF),
                  desc.getFamilyName());

         if (lastResortMgr) {
             // If we've gotten to here, we will try desperately to find something that might match
             // as a kind of last ditch effort to make something work (and maybe this SkFontMgr knows
             // something about the serialization and can look up the right thing by name anyway if
             // the user provides it).
             // Any time it is used the user will probably get the wrong glyphs drawn (and if they're
             // right it is totally by accident). But sometimes drawing something or getting lucky
             // while debugging is better than drawing nothing at all.
             sk_sp<SkTypeface> typeface = lastResortMgr->makeFromStream(desc.detachStream(),
                                                                        desc.getFontArguments());
             if (typeface) {
                 return typeface;
             }
         }
     }
     if (lastResortMgr) {
         return lastResortMgr->legacyMakeTypeface(desc.getFamilyName(), desc.getStyle());
     }
     return SkEmptyTypeface::Make();
 }

 ///////////////////////////////////////////////////////////////////////////////

 bool SkTypeface::glyphMaskNeedsCurrentColor() const {
     return this->onGlyphMaskNeedsCurrentColor();
 }

 int SkTypeface::getVariationDesignPosition(
         SkFontArguments::VariationPosition::Coordinate coordinates[], int coordinateCount) const
 {
     return this->onGetVariationDesignPosition(coordinates, coordinateCount);
 }

 int SkTypeface::getVariationDesignParameters(
         SkFontParameters::Variation::Axis parameters[], int parameterCount) const
 {
     return this->onGetVariationDesignParameters(parameters, parameterCount);
 }

 int SkTypeface::countTables() const {
     return this->onGetTableTags(nullptr);
 }

 int SkTypeface::getTableTags(SkFontTableTag tags[]) const {
     return this->onGetTableTags(tags);
 }

 size_t SkTypeface::getTableSize(SkFontTableTag tag) const {
     return this->onGetTableData(tag, 0, ~0U, nullptr);
 }

 size_t SkTypeface::getTableData(SkFontTableTag tag, size_t offset, size_t length,
                                 void* data) const {
     return this->onGetTableData(tag, offset, length, data);
 }

 sk_sp<SkData> SkTypeface::copyTableData(SkFontTableTag tag) const {
     return this->onCopyTableData(tag);
 }

 sk_sp<SkData> SkTypeface::onCopyTableData(SkFontTableTag tag) const {
     size_t size = this->getTableSize(tag);
     if (size) {
         sk_sp<SkData> data = SkData::MakeUninitialized(size);
         (void)this->getTableData(tag, 0, size, data->writable_data());
         return data;
     }
     return nullptr;
 }

 std::unique_ptr<SkStreamAsset> SkTypeface::openStream(int* ttcIndex) const {
     int ttcIndexStorage;
     if (nullptr == ttcIndex) {
         // So our subclasses don't need to check for null param
         ttcIndex = &ttcIndexStorage;
     }
     return this->onOpenStream(ttcIndex);
 }

 std::unique_ptr<SkStreamAsset> SkTypeface::openExistingStream(int* ttcIndex) const {
     int ttcIndexStorage;
     if (nullptr == ttcIndex) {
         // So our subclasses don't need to check for null param
         ttcIndex = &ttcIndexStorage;
     }
     return this->onOpenExistingStream(ttcIndex);
 }

 std::unique_ptr<SkScalerContext> SkTypeface::createScalerContext(
         const SkScalerContextEffects& effects, const SkDescriptor* desc) const {
     std::unique_ptr<SkScalerContext> scalerContext = this->onCreateScalerContext(effects, desc);
     SkASSERT(scalerContext);
     return scalerContext;
 }

 void SkTypeface::unicharsToGlyphs(const SkUnichar uni[], int count, SkGlyphID glyphs[]) const {
     if (count > 0 && glyphs && uni) {
         this->onCharsToGlyphs(uni, count, glyphs);
     }
 }

 SkGlyphID SkTypeface::unicharToGlyph(SkUnichar uni) const {
     SkGlyphID glyphs[1] = { 0 };
     this->onCharsToGlyphs(&uni, 1, glyphs);
     return glyphs[0];
 }

 namespace {
 class SkConvertToUTF32 {
 public:
     SkConvertToUTF32() {}

     const SkUnichar* convert(const void* text, size_t byteLength, SkTextEncoding encoding) {
         const SkUnichar* uni;
         switch (encoding) {
             case SkTextEncoding::kUTF8: {
                 uni = fStorage.reset(byteLength);
                 const char* ptr = (const char*)text;
                 const char* end = ptr + byteLength;
                 for (int i = 0; ptr < end; ++i) {
                     fStorage[i] = SkUTF::NextUTF8(&ptr, end);
                 }
             } break;
             case SkTextEncoding::kUTF16: {
                 uni = fStorage.reset(byteLength);
                 const uint16_t* ptr = (const uint16_t*)text;
                 const uint16_t* end = ptr + (byteLength >> 1);
                 for (int i = 0; ptr < end; ++i) {
                     fStorage[i] = SkUTF::NextUTF16(&ptr, end);
                 }
             } break;
             case SkTextEncoding::kUTF32:
                 uni = (const SkUnichar*)text;
                 break;
             default:
                 SK_ABORT("unexpected enum");
         }
         return uni;
     }

 private:
     AutoSTMalloc<256, SkUnichar> fStorage;
 };
 }

 int SkTypeface::textToGlyphs(const void* text, size_t byteLength, SkTextEncoding encoding,
                              SkGlyphID glyphs[], int maxGlyphCount) const {
     if (0 == byteLength) {
         return 0;
     }

     SkASSERT(text);

     int count = SkFontPriv::CountTextElements(text, byteLength, encoding);
     if (!glyphs || count > maxGlyphCount) {
         return count;
     }

     if (encoding == SkTextEncoding::kGlyphID) {
         memcpy(glyphs, text, count << 1);
         return count;
     }

     SkConvertToUTF32 storage;
     const SkUnichar* uni = storage.convert(text, byteLength, encoding);

     this->unicharsToGlyphs(uni, count, glyphs);
     return count;
 }

 int SkTypeface::countGlyphs() const {
     return this->onCountGlyphs();
 }

 int SkTypeface::getUnitsPerEm() const {
     // should we try to cache this in the base-class?
     return this->onGetUPEM();
 }

 bool SkTypeface::getKerningPairAdjustments(const uint16_t glyphs[], int count,
                                            int32_t adjustments[]) const {
     SkASSERT(count >= 0);
     // check for the only legal way to pass a nullptr.. everything is 0
     // in which case they just want to know if this face can possibly support
     // kerning (true) or never (false).
     if (nullptr == glyphs || nullptr == adjustments) {
         SkASSERT(nullptr == glyphs);
         SkASSERT(0 == count);
         SkASSERT(nullptr == adjustments);
     }
     return this->onGetKerningPairAdjustments(glyphs, count, adjustments);
 }

 SkTypeface::LocalizedStrings* SkTypeface::createFamilyNameIterator() const {
     return this->onCreateFamilyNameIterator();
 }

 void SkTypeface::getFamilyName(SkString* name) const {
     SkASSERT(name);
     this->onGetFamilyName(name);
 }

 bool SkTypeface::getPostScriptName(SkString* name) const {
     return this->onGetPostScriptName(name);
 }

 void SkTypeface::getGlyphToUnicodeMap(SkUnichar* dst) const {
     sk_bzero(dst, sizeof(SkUnichar) * this->countGlyphs());
 }

 std::unique_ptr<SkAdvancedTypefaceMetrics> SkTypeface::getAdvancedMetrics() const {
     std::unique_ptr<SkAdvancedTypefaceMetrics> result = this->onGetAdvancedMetrics();
     if (result && result->fPostScriptName.isEmpty()) {
         if (!this->getPostScriptName(&result->fPostScriptName)) {
             this->getFamilyName(&result->fPostScriptName);
         }
     }
     if (result && (result->fType == SkAdvancedTypefaceMetrics::kTrueType_Font ||
                    result->fType == SkAdvancedTypefaceMetrics::kCFF_Font)) {
         SkOTTableOS2::Version::V2::Type::Field fsType;
         constexpr SkFontTableTag os2Tag = SkTEndian_SwapBE32(SkOTTableOS2::TAG);
         constexpr size_t fsTypeOffset = offsetof(SkOTTableOS2::Version::V2, fsType);
         if (this->getTableData(os2Tag, fsTypeOffset, sizeof(fsType), &fsType) == sizeof(fsType)) {
             if (fsType.Bitmap || (fsType.Restricted && !(fsType.PreviewPrint || fsType.Editable))) {
                 result->fFlags |= SkAdvancedTypefaceMetrics::kNotEmbeddable_FontFlag;
             }
             if (fsType.NoSubsetting) {
                 result->fFlags |= SkAdvancedTypefaceMetrics::kNotSubsettable_FontFlag;
             }
         }
     }
     return result;
 }

 bool SkTypeface::onGetKerningPairAdjustments(const uint16_t glyphs[], int count,
                                              int32_t adjustments[]) const {
     return false;
 }

 std::unique_ptr<SkStreamAsset> SkTypeface::onOpenExistingStream(int* ttcIndex) const {
     return this->onOpenStream(ttcIndex);
 }

 ///////////////////////////////////////////////////////////////////////////////

 SkRect SkTypeface::getBounds() const {
     fBoundsOnce([this] {
         if (!this->onComputeBounds(&fBounds)) {
             fBounds.setEmpty();
         }
     });
     return fBounds;
 }

 bool SkTypeface::onComputeBounds(SkRect* bounds) const {
     // we use a big size to ensure lots of significant bits from the scalercontext.
     // then we scale back down to return our final answer (at 1-pt)
     const SkScalar textSize = 2048;
     const SkScalar invTextSize = 1 / textSize;

     SkFont font;
     font.setTypeface(sk_ref_sp(const_cast<SkTypeface*>(this)));
     font.setSize(textSize);
     font.setLinearMetrics(true);

     SkScalerContextRec rec;
     SkScalerContextEffects effects;

     SkScalerContext::MakeRecAndEffectsFromFont(font, &rec, &effects);

     SkAutoDescriptor ad;
     SkScalerContextEffects noeffects;
     SkScalerContext::AutoDescriptorGivenRecAndEffects(rec, noeffects, &ad);

     std::unique_ptr<SkScalerContext> ctx = this->createScalerContext(noeffects, ad.getDesc());

     SkFontMetrics fm;
     ctx->getFontMetrics(&fm);
     if (!fm.hasBounds()) {
         return false;
     }
     bounds->setLTRB(fm.fXMin * invTextSize, fm.fTop * invTextSize,
                     fm.fXMax * invTextSize, fm.fBottom * invTextSize);
     return true;
 }
	/*
	* Copyright 2011 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 "include/core/SkTypeface.h"

	#include "include/core/SkData.h"
	#include "include/core/SkFont.h"
	#include "include/core/SkFontMetrics.h"
	#include "include/core/SkFontMgr.h"
	#include "include/core/SkFontTypes.h"
	#include "include/core/SkScalar.h"
	#include "include/core/SkStream.h"
	#include "include/private/base/SkDebug.h"
	#include "include/private/base/SkMalloc.h"
	#include "include/private/base/SkOnce.h"
	#include "include/private/base/SkTemplates.h"
	#include "include/utils/SkCustomTypeface.h"
	#include "src/base/SkBitmaskEnum.h"
	#include "src/base/SkEndian.h"
	#include "src/base/SkNoDestructor.h"
	#include "src/base/SkUTF.h"
	#include "src/core/SkAdvancedTypefaceMetrics.h"
	#include "src/core/SkDescriptor.h"
	#include "src/core/SkFontDescriptor.h"
	#include "src/core/SkFontPriv.h"
	#include "src/core/SkScalerContext.h"
	#include "src/core/SkTypefaceCache.h"
	#include "src/sfnt/SkOTTable_OS_2.h"

	#ifdef SK_TYPEFACE_FACTORY_FREETYPE
	#include "src/ports/SkTypeface_FreeType.h"
	#endif

	#ifdef SK_TYPEFACE_FACTORY_CORETEXT
	#include "src/ports/SkTypeface_mac_ct.h"
	#endif

	#ifdef SK_TYPEFACE_FACTORY_DIRECTWRITE
	#include "src/ports/SkTypeface_win_dw.h"
	#endif

	// TODO(https://crbug.com/skia/14338): This needs to be set by Bazel rules.
	#ifdef SK_TYPEFACE_FACTORY_FONTATIONS
	#include "src/ports/SkTypeface_fontations_priv.h"
	#endif

	#include <cstddef>
	#include <cstring>
	#include <vector>

	using namespace skia_private;

	SkTypeface::SkTypeface(const SkFontStyle& style, bool isFixedPitch)
	: fUniqueID(SkTypefaceCache::NewTypefaceID()), fStyle(style), fIsFixedPitch(isFixedPitch) { }

	SkTypeface::~SkTypeface() { }

	///////////////////////////////////////////////////////////////////////////////

	namespace {

	class SkEmptyTypeface : public SkTypeface {
	public:
	static sk_sp<SkTypeface> Make() {
	static SkNoDestructor<SkEmptyTypeface> instance;
	return sk_ref_sp(instance.get());
	}

	static constexpr SkTypeface::FactoryId FactoryId = SkSetFourByteTag('e','m','t','y');
	static sk_sp<SkTypeface> MakeFromStream(std::unique_ptr<SkStreamAsset> stream,
	const SkFontArguments&) {
	if (stream->getLength() == 0) {
	return SkEmptyTypeface::Make();
	}
	return nullptr;
	}
	protected:
	friend SkNoDestructor<SkEmptyTypeface>;
	SkEmptyTypeface() : SkTypeface(SkFontStyle(), true) { }

	std::unique_ptr<SkStreamAsset> onOpenStream(int* ttcIndex) const override { return nullptr; }
	sk_sp<SkTypeface> onMakeClone(const SkFontArguments& args) const override {
	return sk_ref_sp(this);
	}
	std::unique_ptr<SkScalerContext> onCreateScalerContext(
	const SkScalerContextEffects& effects, const SkDescriptor* desc) const override
	{
	return SkScalerContext::MakeEmpty(
	sk_ref_sp(const_cast<SkEmptyTypeface*>(this)), effects, desc);
	}
	void onFilterRec(SkScalerContextRec*) const override { }
	std::unique_ptr<SkAdvancedTypefaceMetrics> onGetAdvancedMetrics() const override {
	return nullptr;
	}
	void onGetFontDescriptor(SkFontDescriptor* desc, bool* serialize) const override {
	desc->setFactoryId(FactoryId);
	*serialize = false;
	}
	void onCharsToGlyphs(const SkUnichar* chars, int count, SkGlyphID glyphs[]) const override {
	sk_bzero(glyphs, count * sizeof(glyphs[0]));
	}
	int onCountGlyphs() const override { return 0; }
	void getPostScriptGlyphNames(SkString*) const override {}
	void getGlyphToUnicodeMap(SkUnichar*) const override {}
	int onGetUPEM() const override { return 0; }
	bool onComputeBounds(SkRect* bounds) const override { return false; }

	class EmptyLocalizedStrings : public SkTypeface::LocalizedStrings {
	public:
	bool next(SkTypeface::LocalizedString*) override { return false; }
	};
	void onGetFamilyName(SkString* familyName) const override {
	familyName->reset();
	}
	bool onGetPostScriptName(SkString*) const override {
	return false;
	}
	SkTypeface::LocalizedStrings* onCreateFamilyNameIterator() const override {
	return new EmptyLocalizedStrings;
	}
	bool onGlyphMaskNeedsCurrentColor() const override {
	return false;
	}
	int onGetVariationDesignPosition(SkFontArguments::VariationPosition::Coordinate coordinates[],
	int coordinateCount) const override
	{
	return 0;
	}
	int onGetVariationDesignParameters(SkFontParameters::Variation::Axis parameters[],
	int parameterCount) const override
	{
	return 0;
	}
	int onGetTableTags(SkFontTableTag tags[]) const override { return 0; }
	size_t onGetTableData(SkFontTableTag, size_t, size_t, void*) const override {
	return 0;
	}
	};

	} // namespace

	sk_sp<SkTypeface> SkTypeface::MakeEmpty() {
	return SkEmptyTypeface::Make();
	}

	bool SkTypeface::Equal(const SkTypeface* facea, const SkTypeface* faceb) {
	if (facea == faceb) {
	return true;
	}
	if (!facea \|\| !faceb) {
	return false;
	}
	return facea->uniqueID() == faceb->uniqueID();
	}

	///////////////////////////////////////////////////////////////////////////////

	namespace {

	struct DecoderProc {
	SkFourByteTag id;
	sk_sp<SkTypeface> (*makeFromStream)(std::unique_ptr<SkStreamAsset>, const SkFontArguments&);
	};

	std::vector<DecoderProc>* decoders() {
	static SkNoDestructor<std::vector<DecoderProc>> decoders{{
	{ SkEmptyTypeface::FactoryId, SkEmptyTypeface::MakeFromStream },
	{ SkCustomTypefaceBuilder::FactoryId, SkCustomTypefaceBuilder::MakeFromStream },
	#ifdef SK_TYPEFACE_FACTORY_CORETEXT
	{ SkTypeface_Mac::FactoryId, SkTypeface_Mac::MakeFromStream },
	#endif
	#ifdef SK_TYPEFACE_FACTORY_DIRECTWRITE
	{ DWriteFontTypeface::FactoryId, DWriteFontTypeface::MakeFromStream },
	#endif
	#ifdef SK_TYPEFACE_FACTORY_FREETYPE
	{ SkTypeface_FreeType::FactoryId, SkTypeface_FreeType::MakeFromStream },
	#endif
	#ifdef SK_TYPEFACE_FACTORY_FONTATIONS
	{ SkTypeface_Fontations::FactoryId, SkTypeface_Fontations::MakeFromStream },
	#endif
	}};
	return decoders.get();
	}

	} // namespace

	sk_sp<SkTypeface> SkTypeface::makeClone(const SkFontArguments& args) const {
	return this->onMakeClone(args);
	}

	///////////////////////////////////////////////////////////////////////////////

	void SkTypeface::Register(
	FactoryId id,
	sk_sp<SkTypeface> (*make)(std::unique_ptr<SkStreamAsset>, const SkFontArguments&)) {
	decoders()->push_back(DecoderProc{id, make});
	}

	void SkTypeface::serialize(SkWStream* wstream, SerializeBehavior behavior) const {
	bool isLocalData = false;
	SkFontDescriptor desc;
	this->onGetFontDescriptor(&desc, &isLocalData);
	if (desc.getFactoryId() == 0) {
	SkDEBUGF("Factory was not set for %s.\n", desc.getFamilyName());
	}

	bool shouldSerializeData = false;
	switch (behavior) {
	case SerializeBehavior::kDoIncludeData: shouldSerializeData = true; break;
	case SerializeBehavior::kDontIncludeData: shouldSerializeData = false; break;
	case SerializeBehavior::kIncludeDataIfLocal: shouldSerializeData = isLocalData; break;
	}

	if (shouldSerializeData) {
	int index;
	desc.setStream(this->openStream(&index));
	if (desc.hasStream()) {
	desc.setCollectionIndex(index);
	}

	int numAxes = this->getVariationDesignPosition(nullptr, 0);
	if (0 < numAxes) {
	numAxes = this->getVariationDesignPosition(desc.setVariationCoordinates(numAxes), numAxes);
	if (numAxes <= 0) {
	desc.setVariationCoordinates(0);
	}
	}
	}
	desc.serialize(wstream);
	}

	sk_sp<SkData> SkTypeface::serialize(SerializeBehavior behavior) const {
	SkDynamicMemoryWStream stream;
	this->serialize(&stream, behavior);
	return stream.detachAsData();
	}

	sk_sp<SkTypeface> SkTypeface::MakeDeserialize(SkStream* stream, sk_sp<SkFontMgr> lastResortMgr) {
	SkFontDescriptor desc;
	if (!SkFontDescriptor::Deserialize(stream, &desc)) {
	return nullptr;
	}

	if (desc.hasStream()) {
	for (const DecoderProc& proc : *decoders()) {
	if (proc.id == desc.getFactoryId()) {
	return proc.makeFromStream(desc.detachStream(), desc.getFontArguments());
	}
	}

	[[maybe_unused]] FactoryId id = desc.getFactoryId();
	SkDEBUGF("Could not find factory %c%c%c%c for %s.\n",
	(char)((id >> 24) & 0xFF),
	(char)((id >> 16) & 0xFF),
	(char)((id >> 8) & 0xFF),
	(char)((id >> 0) & 0xFF),
	desc.getFamilyName());

	if (lastResortMgr) {
	// If we've gotten to here, we will try desperately to find something that might match
	// as a kind of last ditch effort to make something work (and maybe this SkFontMgr knows
	// something about the serialization and can look up the right thing by name anyway if
	// the user provides it).
	// Any time it is used the user will probably get the wrong glyphs drawn (and if they're
	// right it is totally by accident). But sometimes drawing something or getting lucky
	// while debugging is better than drawing nothing at all.
	sk_sp<SkTypeface> typeface = lastResortMgr->makeFromStream(desc.detachStream(),
	desc.getFontArguments());
	if (typeface) {
	return typeface;
	}
	}
	}
	if (lastResortMgr) {
	return lastResortMgr->legacyMakeTypeface(desc.getFamilyName(), desc.getStyle());
	}
	return SkEmptyTypeface::Make();
	}

	///////////////////////////////////////////////////////////////////////////////

	bool SkTypeface::glyphMaskNeedsCurrentColor() const {
	return this->onGlyphMaskNeedsCurrentColor();
	}

	int SkTypeface::getVariationDesignPosition(
	SkFontArguments::VariationPosition::Coordinate coordinates[], int coordinateCount) const
	{
	return this->onGetVariationDesignPosition(coordinates, coordinateCount);
	}

	int SkTypeface::getVariationDesignParameters(
	SkFontParameters::Variation::Axis parameters[], int parameterCount) const
	{
	return this->onGetVariationDesignParameters(parameters, parameterCount);
	}

	int SkTypeface::countTables() const {
	return this->onGetTableTags(nullptr);
	}

	int SkTypeface::getTableTags(SkFontTableTag tags[]) const {
	return this->onGetTableTags(tags);
	}

	size_t SkTypeface::getTableSize(SkFontTableTag tag) const {
	return this->onGetTableData(tag, 0, ~0U, nullptr);
	}

	size_t SkTypeface::getTableData(SkFontTableTag tag, size_t offset, size_t length,
	void* data) const {
	return this->onGetTableData(tag, offset, length, data);
	}

	sk_sp<SkData> SkTypeface::copyTableData(SkFontTableTag tag) const {
	return this->onCopyTableData(tag);
	}

	sk_sp<SkData> SkTypeface::onCopyTableData(SkFontTableTag tag) const {
	size_t size = this->getTableSize(tag);
	if (size) {
	sk_sp<SkData> data = SkData::MakeUninitialized(size);
	(void)this->getTableData(tag, 0, size, data->writable_data());
	return data;
	}
	return nullptr;
	}

	std::unique_ptr<SkStreamAsset> SkTypeface::openStream(int* ttcIndex) const {
	int ttcIndexStorage;
	if (nullptr == ttcIndex) {
	// So our subclasses don't need to check for null param
	ttcIndex = &ttcIndexStorage;
	}
	return this->onOpenStream(ttcIndex);
	}

	std::unique_ptr<SkStreamAsset> SkTypeface::openExistingStream(int* ttcIndex) const {
	int ttcIndexStorage;
	if (nullptr == ttcIndex) {
	// So our subclasses don't need to check for null param
	ttcIndex = &ttcIndexStorage;
	}
	return this->onOpenExistingStream(ttcIndex);
	}

	std::unique_ptr<SkScalerContext> SkTypeface::createScalerContext(
	const SkScalerContextEffects& effects, const SkDescriptor* desc) const {
	std::unique_ptr<SkScalerContext> scalerContext = this->onCreateScalerContext(effects, desc);
	SkASSERT(scalerContext);
	return scalerContext;
	}

	void SkTypeface::unicharsToGlyphs(const SkUnichar uni[], int count, SkGlyphID glyphs[]) const {
	if (count > 0 && glyphs && uni) {
	this->onCharsToGlyphs(uni, count, glyphs);
	}
	}

	SkGlyphID SkTypeface::unicharToGlyph(SkUnichar uni) const {
	SkGlyphID glyphs[1] = { 0 };
	this->onCharsToGlyphs(&uni, 1, glyphs);
	return glyphs[0];
	}

	namespace {
	class SkConvertToUTF32 {
	public:
	SkConvertToUTF32() {}

	const SkUnichar* convert(const void* text, size_t byteLength, SkTextEncoding encoding) {
	const SkUnichar* uni;
	switch (encoding) {
	case SkTextEncoding::kUTF8: {
	uni = fStorage.reset(byteLength);
	const char* ptr = (const char*)text;
	const char* end = ptr + byteLength;
	for (int i = 0; ptr < end; ++i) {
	fStorage[i] = SkUTF::NextUTF8(&ptr, end);
	}
	} break;
	case SkTextEncoding::kUTF16: {
	uni = fStorage.reset(byteLength);
	const uint16_t* ptr = (const uint16_t*)text;
	const uint16_t* end = ptr + (byteLength >> 1);
	for (int i = 0; ptr < end; ++i) {
	fStorage[i] = SkUTF::NextUTF16(&ptr, end);
	}
	} break;
	case SkTextEncoding::kUTF32:
	uni = (const SkUnichar*)text;
	break;
	default:
	SK_ABORT("unexpected enum");
	}
	return uni;
	}

	private:
	AutoSTMalloc<256, SkUnichar> fStorage;
	};
	}

	int SkTypeface::textToGlyphs(const void* text, size_t byteLength, SkTextEncoding encoding,
	SkGlyphID glyphs[], int maxGlyphCount) const {
	if (0 == byteLength) {
	return 0;
	}

	SkASSERT(text);

	int count = SkFontPriv::CountTextElements(text, byteLength, encoding);
	if (!glyphs \|\| count > maxGlyphCount) {
	return count;
	}

	if (encoding == SkTextEncoding::kGlyphID) {
	memcpy(glyphs, text, count << 1);
	return count;
	}

	SkConvertToUTF32 storage;
	const SkUnichar* uni = storage.convert(text, byteLength, encoding);

	this->unicharsToGlyphs(uni, count, glyphs);
	return count;
	}

	int SkTypeface::countGlyphs() const {
	return this->onCountGlyphs();
	}

	int SkTypeface::getUnitsPerEm() const {
	// should we try to cache this in the base-class?
	return this->onGetUPEM();
	}

	bool SkTypeface::getKerningPairAdjustments(const uint16_t glyphs[], int count,
	int32_t adjustments[]) const {
	SkASSERT(count >= 0);
	// check for the only legal way to pass a nullptr.. everything is 0
	// in which case they just want to know if this face can possibly support
	// kerning (true) or never (false).
	if (nullptr == glyphs \|\| nullptr == adjustments) {
	SkASSERT(nullptr == glyphs);
	SkASSERT(0 == count);
	SkASSERT(nullptr == adjustments);
	}
	return this->onGetKerningPairAdjustments(glyphs, count, adjustments);
	}

	SkTypeface::LocalizedStrings* SkTypeface::createFamilyNameIterator() const {
	return this->onCreateFamilyNameIterator();
	}

	void SkTypeface::getFamilyName(SkString* name) const {
	SkASSERT(name);
	this->onGetFamilyName(name);
	}

	bool SkTypeface::getPostScriptName(SkString* name) const {
	return this->onGetPostScriptName(name);
	}

	void SkTypeface::getGlyphToUnicodeMap(SkUnichar* dst) const {
	sk_bzero(dst, sizeof(SkUnichar) * this->countGlyphs());
	}

	std::unique_ptr<SkAdvancedTypefaceMetrics> SkTypeface::getAdvancedMetrics() const {
	std::unique_ptr<SkAdvancedTypefaceMetrics> result = this->onGetAdvancedMetrics();
	if (result && result->fPostScriptName.isEmpty()) {
	if (!this->getPostScriptName(&result->fPostScriptName)) {
	this->getFamilyName(&result->fPostScriptName);
	}
	}
	if (result && (result->fType == SkAdvancedTypefaceMetrics::kTrueType_Font \|\|
	result->fType == SkAdvancedTypefaceMetrics::kCFF_Font)) {
	SkOTTableOS2::Version::V2::Type::Field fsType;
	constexpr SkFontTableTag os2Tag = SkTEndian_SwapBE32(SkOTTableOS2::TAG);
	constexpr size_t fsTypeOffset = offsetof(SkOTTableOS2::Version::V2, fsType);
	if (this->getTableData(os2Tag, fsTypeOffset, sizeof(fsType), &fsType) == sizeof(fsType)) {
	if (fsType.Bitmap \|\| (fsType.Restricted && !(fsType.PreviewPrint \|\| fsType.Editable))) {
	result->fFlags \|= SkAdvancedTypefaceMetrics::kNotEmbeddable_FontFlag;
	}
	if (fsType.NoSubsetting) {
	result->fFlags \|= SkAdvancedTypefaceMetrics::kNotSubsettable_FontFlag;
	}
	}
	}
	return result;
	}

	bool SkTypeface::onGetKerningPairAdjustments(const uint16_t glyphs[], int count,
	int32_t adjustments[]) const {
	return false;
	}

	std::unique_ptr<SkStreamAsset> SkTypeface::onOpenExistingStream(int* ttcIndex) const {
	return this->onOpenStream(ttcIndex);
	}

	///////////////////////////////////////////////////////////////////////////////

	SkRect SkTypeface::getBounds() const {
	fBoundsOnce([this] {
	if (!this->onComputeBounds(&fBounds)) {
	fBounds.setEmpty();
	}
	});
	return fBounds;
	}

	bool SkTypeface::onComputeBounds(SkRect* bounds) const {
	// we use a big size to ensure lots of significant bits from the scalercontext.
	// then we scale back down to return our final answer (at 1-pt)
	const SkScalar textSize = 2048;
	const SkScalar invTextSize = 1 / textSize;

	SkFont font;
	font.setTypeface(sk_ref_sp(const_cast<SkTypeface*>(this)));
	font.setSize(textSize);
	font.setLinearMetrics(true);

	SkScalerContextRec rec;
	SkScalerContextEffects effects;

	SkScalerContext::MakeRecAndEffectsFromFont(font, &rec, &effects);

	SkAutoDescriptor ad;
	SkScalerContextEffects noeffects;
	SkScalerContext::AutoDescriptorGivenRecAndEffects(rec, noeffects, &ad);

	std::unique_ptr<SkScalerContext> ctx = this->createScalerContext(noeffects, ad.getDesc());

	SkFontMetrics fm;
	ctx->getFontMetrics(&fm);
	if (!fm.hasBounds()) {
	return false;
	}
	bounds->setLTRB(fm.fXMin * invTextSize, fm.fTop * invTextSize,
	fm.fXMax * invTextSize, fm.fBottom * invTextSize);
	return true;
	}