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gecko-dev/gfx/2d/Factory.cpp
Nicholas Nethercote 18fae65f38 Bug 1563139 - Remove StaticPrefs.h. r=glandium 
This requires replacing inclusions of it with inclusions of more specific prefs
files.

The exception is that StaticPrefsAll.h, which is equivalent to StaticPrefs.h,
and is used in `Codegen.py` because doing something smarter is tricky and
suitable for a follow-up. As a result, any change to StaticPrefList.yaml will
still trigger recompilation of all the generated DOM bindings files, but that's
still a big improvement over trigger recompilation of every file that uses
static prefs.

Most of the changes in this commit are very boring. The only changes that are
not boring are modules/libpref/*, Codegen.py, and ServoBindings.toml.

Differential Revision: https://phabricator.services.mozilla.com/D39138

--HG--
extra : moz-landing-system : lando
2019-07-26 01:10:23 +00:00

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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include "2D.h"
#include "Swizzle.h"
#ifdef USE_CAIRO
# include "DrawTargetCairo.h"
# include "SourceSurfaceCairo.h"
#endif
#ifdef USE_SKIA
# include "DrawTargetSkia.h"
# include "ScaledFontBase.h"
#endif
#if defined(WIN32)
# include "ScaledFontWin.h"
# include "NativeFontResourceGDI.h"
# include "UnscaledFontGDI.h"
#endif
#ifdef XP_DARWIN
# include "ScaledFontMac.h"
# include "NativeFontResourceMac.h"
#endif
#ifdef MOZ_WIDGET_GTK
# include "ScaledFontFontconfig.h"
# include "NativeFontResourceFreeType.h"
# include "UnscaledFontFreeType.h"
#endif
#ifdef MOZ_WIDGET_ANDROID
# include "ScaledFontFreeType.h"
# include "NativeFontResourceFreeType.h"
#endif
#ifdef WIN32
# include "DrawTargetD2D1.h"
# include "ScaledFontDWrite.h"
# include "NativeFontResourceDWrite.h"
# include <d3d10_1.h>
# include "HelpersD2D.h"
#endif
#include "DrawTargetCapture.h"
#include "DrawTargetDual.h"
#include "DrawTargetTiled.h"
#include "DrawTargetOffset.h"
#include "DrawTargetWrapAndRecord.h"
#include "DrawTargetRecording.h"
#include "SourceSurfaceRawData.h"
#include "DrawEventRecorder.h"
#include "Logging.h"
#include "mozilla/CheckedInt.h"
#ifdef MOZ_ENABLE_FREETYPE
# include "ft2build.h"
# include FT_FREETYPE_H
#endif
#include "MainThreadUtils.h"
#include "mozilla/Preferences.h"
#include "mozilla/StaticPrefs_gfx.h"
#if defined(MOZ_LOGGING)
GFX2D_API mozilla::LogModule* GetGFX2DLog() {
static mozilla::LazyLogModule sLog("gfx2d");
return sLog;
}
#endif
// The following code was largely taken from xpcom/glue/SSE.cpp and
// made a little simpler.
enum CPUIDRegister { eax = 0, ebx = 1, ecx = 2, edx = 3 };
#ifdef HAVE_CPUID_H
# if !(defined(__SSE2__) || defined(_M_X64) || \
(defined(_M_IX86_FP) && _M_IX86_FP >= 2)) || \
!defined(__SSE4__)
// cpuid.h is available on gcc 4.3 and higher on i386 and x86_64
# include <cpuid.h>
static inline bool HasCPUIDBit(unsigned int level, CPUIDRegister reg,
unsigned int bit) {
unsigned int regs[4];
return __get_cpuid(level, &regs[0], &regs[1], &regs[2], &regs[3]) &&
(regs[reg] & bit);
}
# endif
# define HAVE_CPU_DETECTION
#else
# if defined(_MSC_VER) && (defined(_M_IX86) || defined(_M_AMD64))
// MSVC 2005 or later supports __cpuid by intrin.h
# include <intrin.h>
# define HAVE_CPU_DETECTION
# elif defined(__SUNPRO_CC) && (defined(__i386) || defined(__x86_64__))
// Define a function identical to MSVC function.
# ifdef __i386
static void __cpuid(int CPUInfo[4], int InfoType) {
asm("xchg %esi, %ebx\n"
"cpuid\n"
"movl %eax, (%edi)\n"
"movl %ebx, 4(%edi)\n"
"movl %ecx, 8(%edi)\n"
"movl %edx, 12(%edi)\n"
"xchg %esi, %ebx\n"
:
: "a"(InfoType), // %eax
"D"(CPUInfo) // %edi
: "%ecx", "%edx", "%esi");
}
# else
static void __cpuid(int CPUInfo[4], int InfoType) {
asm("xchg %rsi, %rbx\n"
"cpuid\n"
"movl %eax, (%rdi)\n"
"movl %ebx, 4(%rdi)\n"
"movl %ecx, 8(%rdi)\n"
"movl %edx, 12(%rdi)\n"
"xchg %rsi, %rbx\n"
:
: "a"(InfoType), // %eax
"D"(CPUInfo) // %rdi
: "%ecx", "%edx", "%rsi");
}
# define HAVE_CPU_DETECTION
# endif
# endif
# ifdef HAVE_CPU_DETECTION
static inline bool HasCPUIDBit(unsigned int level, CPUIDRegister reg,
unsigned int bit) {
// Check that the level in question is supported.
volatile int regs[4];
__cpuid((int*)regs, level & 0x80000000u);
if (unsigned(regs[0]) < level) return false;
__cpuid((int*)regs, level);
return !!(unsigned(regs[reg]) & bit);
}
# endif
#endif
#ifdef MOZ_ENABLE_FREETYPE
extern "C" {
FT_Face mozilla_NewFTFace(FT_Library aFTLibrary, const char* aFileName,
int aFaceIndex) {
return mozilla::gfx::Factory::NewFTFace(aFTLibrary, aFileName, aFaceIndex);
}
FT_Face mozilla_NewFTFaceFromData(FT_Library aFTLibrary, const uint8_t* aData,
size_t aDataSize, int aFaceIndex) {
return mozilla::gfx::Factory::NewFTFaceFromData(aFTLibrary, aData, aDataSize,
aFaceIndex);
}
void mozilla_ReleaseFTFace(FT_Face aFace) {
mozilla::gfx::Factory::ReleaseFTFace(aFace);
}
FT_Error mozilla_LoadFTGlyph(FT_Face aFace, uint32_t aGlyphIndex,
int32_t aFlags) {
return mozilla::gfx::Factory::LoadFTGlyph(aFace, aGlyphIndex, aFlags);
}
void mozilla_LockFTLibrary(FT_Library aFTLibrary) {
mozilla::gfx::Factory::LockFTLibrary(aFTLibrary);
}
void mozilla_UnlockFTLibrary(FT_Library aFTLibrary) {
mozilla::gfx::Factory::UnlockFTLibrary(aFTLibrary);
}
}
#endif
namespace mozilla {
namespace gfx {
#ifdef MOZ_ENABLE_FREETYPE
FT_Library Factory::mFTLibrary = nullptr;
StaticMutex Factory::mFTLock;
#endif
#ifdef WIN32
// Note: mDeviceLock must be held when mutating these values.
static uint32_t mDeviceSeq = 0;
StaticRefPtr<ID3D11Device> Factory::mD3D11Device;
StaticRefPtr<ID2D1Device> Factory::mD2D1Device;
StaticRefPtr<IDWriteFactory> Factory::mDWriteFactory;
StaticRefPtr<ID2D1DeviceContext> Factory::mMTDC;
StaticRefPtr<ID2D1DeviceContext> Factory::mOffMTDC;
bool Factory::mDWriteFactoryInitialized = false;
StaticRefPtr<IDWriteFontCollection> Factory::mDWriteSystemFonts;
StaticMutex Factory::mDeviceLock;
StaticMutex Factory::mDTDependencyLock;
#endif
bool Factory::mBGRSubpixelOrder = false;
DrawEventRecorder* Factory::mRecorder;
mozilla::gfx::Config* Factory::sConfig = nullptr;
void Factory::Init(const Config& aConfig) {
MOZ_ASSERT(!sConfig);
sConfig = new Config(aConfig);
}
void Factory::ShutDown() {
if (sConfig) {
delete sConfig->mLogForwarder;
delete sConfig;
sConfig = nullptr;
}
#ifdef MOZ_ENABLE_FREETYPE
mFTLibrary = nullptr;
#endif
}
bool Factory::HasSSE2() {
#if defined(__SSE2__) || defined(_M_X64) || \
(defined(_M_IX86_FP) && _M_IX86_FP >= 2)
// gcc with -msse2 (default on OSX and x86-64)
// cl.exe with -arch:SSE2 (default on x64 compiler)
return true;
#elif defined(HAVE_CPU_DETECTION)
static enum {
UNINITIALIZED,
NO_SSE2,
HAS_SSE2
} sDetectionState = UNINITIALIZED;
if (sDetectionState == UNINITIALIZED) {
sDetectionState = HasCPUIDBit(1u, edx, (1u << 26)) ? HAS_SSE2 : NO_SSE2;
}
return sDetectionState == HAS_SSE2;
#else
return false;
#endif
}
bool Factory::HasSSE4() {
#if defined(__SSE4__)
// gcc with -msse2 (default on OSX and x86-64)
// cl.exe with -arch:SSE2 (default on x64 compiler)
return true;
#elif defined(HAVE_CPU_DETECTION)
static enum {
UNINITIALIZED,
NO_SSE4,
HAS_SSE4
} sDetectionState = UNINITIALIZED;
if (sDetectionState == UNINITIALIZED) {
sDetectionState = HasCPUIDBit(1u, ecx, (1u << 19)) ? HAS_SSE4 : NO_SSE4;
}
return sDetectionState == HAS_SSE4;
#else
return false;
#endif
}
// If the size is "reasonable", we want gfxCriticalError to assert, so
// this is the option set up for it.
inline int LoggerOptionsBasedOnSize(const IntSize& aSize) {
return CriticalLog::DefaultOptions(Factory::ReasonableSurfaceSize(aSize));
}
bool Factory::ReasonableSurfaceSize(const IntSize& aSize) {
return Factory::CheckSurfaceSize(aSize, 8192);
}
bool Factory::AllowedSurfaceSize(const IntSize& aSize) {
if (sConfig) {
return Factory::CheckSurfaceSize(aSize, sConfig->mMaxTextureSize,
sConfig->mMaxAllocSize);
}
return CheckSurfaceSize(aSize);
}
bool Factory::CheckBufferSize(int32_t bufSize) {
return !sConfig || bufSize < sConfig->mMaxAllocSize;
}
bool Factory::CheckSurfaceSize(const IntSize& sz, int32_t extentLimit,
int32_t allocLimit) {
if (sz.width <= 0 || sz.height <= 0) {
return false;
}
// reject images with sides bigger than limit
if (extentLimit && (sz.width > extentLimit || sz.height > extentLimit)) {
gfxDebug() << "Surface size too large (exceeds extent limit)!";
return false;
}
// assuming 4 bytes per pixel, make sure the allocation size
// doesn't overflow a int32_t either
CheckedInt<int32_t> stride = GetAlignedStride<16>(sz.width, 4);
if (!stride.isValid() || stride.value() == 0) {
gfxDebug() << "Surface size too large (stride overflows int32_t)!";
return false;
}
CheckedInt<int32_t> numBytes = stride * sz.height;
if (!numBytes.isValid()) {
gfxDebug()
<< "Surface size too large (allocation size would overflow int32_t)!";
return false;
}
if (allocLimit && allocLimit < numBytes.value()) {
gfxDebug() << "Surface size too large (exceeds allocation limit)!";
return false;
}
return true;
}
already_AddRefed<DrawTarget> Factory::CreateDrawTarget(BackendType aBackend,
const IntSize& aSize,
SurfaceFormat aFormat) {
if (!AllowedSurfaceSize(aSize)) {
gfxCriticalError(LoggerOptionsBasedOnSize(aSize))
<< "Failed to allocate a surface due to invalid size (CDT) " << aSize;
return nullptr;
}
RefPtr<DrawTarget> retVal;
switch (aBackend) {
#ifdef WIN32
case BackendType::DIRECT2D1_1: {
RefPtr<DrawTargetD2D1> newTarget;
newTarget = new DrawTargetD2D1();
if (newTarget->Init(aSize, aFormat)) {
retVal = newTarget;
}
break;
}
#endif
#ifdef USE_SKIA
case BackendType::SKIA: {
RefPtr<DrawTargetSkia> newTarget;
newTarget = new DrawTargetSkia();
if (newTarget->Init(aSize, aFormat)) {
retVal = newTarget;
}
break;
}
#endif
#ifdef USE_CAIRO
case BackendType::CAIRO: {
RefPtr<DrawTargetCairo> newTarget;
newTarget = new DrawTargetCairo();
if (newTarget->Init(aSize, aFormat)) {
retVal = newTarget;
}
break;
}
#endif
default:
return nullptr;
}
if (mRecorder && retVal) {
return MakeAndAddRef<DrawTargetWrapAndRecord>(mRecorder, retVal);
}
if (!retVal) {
// Failed
gfxCriticalError(LoggerOptionsBasedOnSize(aSize))
<< "Failed to create DrawTarget, Type: " << int(aBackend)
<< " Size: " << aSize;
}
return retVal.forget();
}
already_AddRefed<DrawTarget> Factory::CreateWrapAndRecordDrawTarget(
DrawEventRecorder* aRecorder, DrawTarget* aDT) {
return MakeAndAddRef<DrawTargetWrapAndRecord>(aRecorder, aDT);
}
already_AddRefed<DrawTarget> Factory::CreateRecordingDrawTarget(
DrawEventRecorder* aRecorder, DrawTarget* aDT, IntRect aRect) {
return MakeAndAddRef<DrawTargetRecording>(aRecorder, aDT, aRect);
}
already_AddRefed<DrawTargetCapture> Factory::CreateCaptureDrawTargetForTarget(
gfx::DrawTarget* aTarget, size_t aFlushBytes) {
return MakeAndAddRef<DrawTargetCaptureImpl>(aTarget, aFlushBytes);
}
already_AddRefed<DrawTargetCapture> Factory::CreateCaptureDrawTarget(
BackendType aBackend, const IntSize& aSize, SurfaceFormat aFormat) {
return MakeAndAddRef<DrawTargetCaptureImpl>(aBackend, aSize, aFormat);
}
already_AddRefed<DrawTargetCapture> Factory::CreateCaptureDrawTargetForData(
BackendType aBackend, const IntSize& aSize, SurfaceFormat aFormat,
int32_t aStride, size_t aSurfaceAllocationSize) {
MOZ_ASSERT(aSurfaceAllocationSize && aStride);
BackendType type = aBackend;
if (!Factory::DoesBackendSupportDataDrawtarget(aBackend)) {
type = BackendType::SKIA;
}
RefPtr<DrawTargetCaptureImpl> dt =
new DrawTargetCaptureImpl(type, aSize, aFormat);
dt->InitForData(aStride, aSurfaceAllocationSize);
return dt.forget();
}
already_AddRefed<DrawTarget> Factory::CreateDrawTargetForData(
BackendType aBackend, unsigned char* aData, const IntSize& aSize,
int32_t aStride, SurfaceFormat aFormat, bool aUninitialized) {
MOZ_ASSERT(aData);
if (!AllowedSurfaceSize(aSize)) {
gfxCriticalError(LoggerOptionsBasedOnSize(aSize))
<< "Failed to allocate a surface due to invalid size (DTD) " << aSize;
return nullptr;
}
RefPtr<DrawTarget> retVal;
switch (aBackend) {
#ifdef USE_SKIA
case BackendType::SKIA: {
RefPtr<DrawTargetSkia> newTarget;
newTarget = new DrawTargetSkia();
if (newTarget->Init(aData, aSize, aStride, aFormat, aUninitialized)) {
retVal = newTarget;
}
break;
}
#endif
#ifdef USE_CAIRO
case BackendType::CAIRO: {
RefPtr<DrawTargetCairo> newTarget;
newTarget = new DrawTargetCairo();
if (newTarget->Init(aData, aSize, aStride, aFormat)) {
retVal = newTarget.forget();
}
break;
}
#endif
default:
gfxCriticalNote << "Invalid draw target type specified: "
<< (int)aBackend;
return nullptr;
}
if (mRecorder && retVal) {
return MakeAndAddRef<DrawTargetWrapAndRecord>(mRecorder, retVal, true);
}
if (!retVal) {
gfxCriticalNote << "Failed to create DrawTarget, Type: " << int(aBackend)
<< " Size: " << aSize << ", Data: " << hexa((void*)aData)
<< ", Stride: " << aStride;
}
return retVal.forget();
}
already_AddRefed<DrawTarget> Factory::CreateTiledDrawTarget(
const TileSet& aTileSet) {
RefPtr<DrawTargetTiled> dt = new DrawTargetTiled();
if (!dt->Init(aTileSet)) {
return nullptr;
}
return dt.forget();
}
already_AddRefed<DrawTarget> Factory::CreateOffsetDrawTarget(
DrawTarget* aDrawTarget, IntPoint aTileOrigin) {
RefPtr<DrawTargetOffset> dt = new DrawTargetOffset();
if (!dt->Init(aDrawTarget, aTileOrigin)) {
return nullptr;
}
return dt.forget();
}
bool Factory::DoesBackendSupportDataDrawtarget(BackendType aType) {
switch (aType) {
case BackendType::DIRECT2D:
case BackendType::DIRECT2D1_1:
case BackendType::RECORDING:
case BackendType::CAPTURE:
case BackendType::NONE:
case BackendType::BACKEND_LAST:
case BackendType::WEBRENDER_TEXT:
return false;
case BackendType::CAIRO:
case BackendType::SKIA:
return true;
}
return false;
}
uint32_t Factory::GetMaxSurfaceSize(BackendType aType) {
switch (aType) {
case BackendType::CAIRO:
return DrawTargetCairo::GetMaxSurfaceSize();
#ifdef USE_SKIA
case BackendType::SKIA:
return DrawTargetSkia::GetMaxSurfaceSize();
#endif
#ifdef WIN32
case BackendType::DIRECT2D1_1:
return DrawTargetD2D1::GetMaxSurfaceSize();
#endif
default:
return 0;
}
}
already_AddRefed<ScaledFont> Factory::CreateScaledFontForNativeFont(
const NativeFont& aNativeFont, const RefPtr<UnscaledFont>& aUnscaledFont,
Float aSize, cairo_scaled_font_t* aScaledFont) {
switch (aNativeFont.mType) {
#ifdef WIN32
case NativeFontType::GDI_LOGFONT: {
RefPtr<ScaledFontWin> font = MakeAndAddRef<ScaledFontWin>(
static_cast<LOGFONT*>(aNativeFont.mFont), aUnscaledFont, aSize);
# ifdef USE_CAIRO
if (aScaledFont) {
font->SetCairoScaledFont(aScaledFont);
} else {
font->PopulateCairoScaledFont();
}
# endif
return font.forget();
}
#elif defined(MOZ_WIDGET_GTK)
case NativeFontType::FONTCONFIG_PATTERN:
return MakeAndAddRef<ScaledFontFontconfig>(
aScaledFont, static_cast<FcPattern*>(aNativeFont.mFont),
aUnscaledFont, aSize);
#elif defined(MOZ_WIDGET_ANDROID)
case NativeFontType::FREETYPE_FACE:
return MakeAndAddRef<ScaledFontFreeType>(
aScaledFont, static_cast<FT_Face>(aNativeFont.mFont), aUnscaledFont,
aSize);
#endif
default:
gfxWarning() << "Invalid native font type specified.";
return nullptr;
}
}
already_AddRefed<NativeFontResource> Factory::CreateNativeFontResource(
uint8_t* aData, uint32_t aSize, BackendType aBackendType,
FontType aFontType, void* aFontContext) {
switch (aFontType) {
#ifdef WIN32
case FontType::DWRITE: {
bool needsCairo = aBackendType == BackendType::CAIRO;
return NativeFontResourceDWrite::Create(aData, aSize, needsCairo);
}
case FontType::GDI:
return NativeFontResourceGDI::Create(aData, aSize);
#elif defined(XP_DARWIN)
case FontType::MAC: {
bool needsCairo = aBackendType == BackendType::CAIRO;
return NativeFontResourceMac::Create(aData, aSize, needsCairo);
}
#elif defined(MOZ_WIDGET_GTK)
case FontType::FONTCONFIG:
return NativeFontResourceFontconfig::Create(
aData, aSize, static_cast<FT_Library>(aFontContext));
#elif defined(MOZ_WIDGET_ANDROID)
case FontType::FREETYPE:
return NativeFontResourceFreeType::Create(
aData, aSize, static_cast<FT_Library>(aFontContext));
#endif
default:
gfxWarning()
<< "Unable to create requested font resource from truetype data";
return nullptr;
}
}
already_AddRefed<UnscaledFont> Factory::CreateUnscaledFontFromFontDescriptor(
FontType aType, const uint8_t* aData, uint32_t aDataLength,
uint32_t aIndex) {
switch (aType) {
#ifdef WIN32
case FontType::GDI:
return UnscaledFontGDI::CreateFromFontDescriptor(aData, aDataLength,
aIndex);
#endif
#ifdef MOZ_WIDGET_GTK
case FontType::FONTCONFIG:
return UnscaledFontFontconfig::CreateFromFontDescriptor(
aData, aDataLength, aIndex);
#endif
default:
gfxWarning() << "Invalid type specified for UnscaledFont font descriptor";
return nullptr;
}
}
#ifdef XP_DARWIN
already_AddRefed<ScaledFont> Factory::CreateScaledFontForMacFont(
CGFontRef aCGFont, const RefPtr<UnscaledFont>& aUnscaledFont, Float aSize,
const Color& aFontSmoothingBackgroundColor, bool aUseFontSmoothing,
bool aApplySyntheticBold) {
return MakeAndAddRef<ScaledFontMac>(aCGFont, aUnscaledFont, aSize, false,
aFontSmoothingBackgroundColor,
aUseFontSmoothing, aApplySyntheticBold);
}
#endif
already_AddRefed<DrawTarget> Factory::CreateDualDrawTarget(
DrawTarget* targetA, DrawTarget* targetB) {
MOZ_ASSERT(targetA && targetB);
RefPtr<DrawTarget> newTarget = new DrawTargetDual(targetA, targetB);
RefPtr<DrawTarget> retVal = newTarget;
if (mRecorder) {
retVal = new DrawTargetWrapAndRecord(mRecorder, retVal);
}
return retVal.forget();
}
already_AddRefed<SourceSurface> Factory::CreateDualSourceSurface(
SourceSurface* sourceA, SourceSurface* sourceB) {
MOZ_ASSERT(sourceA && sourceB);
RefPtr<SourceSurface> newSource = new SourceSurfaceDual(sourceA, sourceB);
return newSource.forget();
}
void Factory::SetBGRSubpixelOrder(bool aBGR) { mBGRSubpixelOrder = aBGR; }
bool Factory::GetBGRSubpixelOrder() { return mBGRSubpixelOrder; }
#ifdef MOZ_ENABLE_FREETYPE
void Factory::SetFTLibrary(FT_Library aFTLibrary) { mFTLibrary = aFTLibrary; }
FT_Library Factory::GetFTLibrary() {
MOZ_ASSERT(mFTLibrary);
return mFTLibrary;
}
FT_Library Factory::NewFTLibrary() {
FT_Library library;
if (FT_Init_FreeType(&library) != FT_Err_Ok) {
return nullptr;
}
return library;
}
void Factory::ReleaseFTLibrary(FT_Library aFTLibrary) {
FT_Done_FreeType(aFTLibrary);
}
void Factory::LockFTLibrary(FT_Library aFTLibrary) { mFTLock.Lock(); }
void Factory::UnlockFTLibrary(FT_Library aFTLibrary) { mFTLock.Unlock(); }
FT_Face Factory::NewFTFace(FT_Library aFTLibrary, const char* aFileName,
int aFaceIndex) {
StaticMutexAutoLock lock(mFTLock);
if (!aFTLibrary) {
aFTLibrary = mFTLibrary;
}
FT_Face face;
if (FT_New_Face(aFTLibrary, aFileName, aFaceIndex, &face) != FT_Err_Ok) {
return nullptr;
}
return face;
}
FT_Face Factory::NewFTFaceFromData(FT_Library aFTLibrary, const uint8_t* aData,
size_t aDataSize, int aFaceIndex) {
StaticMutexAutoLock lock(mFTLock);
if (!aFTLibrary) {
aFTLibrary = mFTLibrary;
}
FT_Face face;
if (FT_New_Memory_Face(aFTLibrary, aData, aDataSize, aFaceIndex, &face) !=
FT_Err_Ok) {
return nullptr;
}
return face;
}
void Factory::ReleaseFTFace(FT_Face aFace) {
StaticMutexAutoLock lock(mFTLock);
FT_Done_Face(aFace);
}
FT_Error Factory::LoadFTGlyph(FT_Face aFace, uint32_t aGlyphIndex,
int32_t aFlags) {
StaticMutexAutoLock lock(mFTLock);
return FT_Load_Glyph(aFace, aGlyphIndex, aFlags);
}
#endif
AutoSerializeWithMoz2D::AutoSerializeWithMoz2D(BackendType aBackendType) {
#ifdef WIN32
// We use a multi-threaded ID2D1Factory1, so that makes the calls through the
// Direct2D API thread-safe. However, if the Moz2D objects are using Direct3D
// resources we need to make sure that calls through the Direct3D or DXGI API
// use the Direct2D synchronization. It's possible that this should be pushed
// down into the TextureD3D11 objects, so that we always use this.
if (aBackendType == BackendType::DIRECT2D1_1 ||
aBackendType == BackendType::DIRECT2D) {
D2DFactory()->QueryInterface(
static_cast<ID2D1Multithread**>(getter_AddRefs(mMT)));
mMT->Enter();
}
#endif
}
AutoSerializeWithMoz2D::~AutoSerializeWithMoz2D() {
#ifdef WIN32
if (mMT) {
mMT->Leave();
}
#endif
};
#ifdef WIN32
already_AddRefed<DrawTarget> Factory::CreateDrawTargetForD3D11Texture(
ID3D11Texture2D* aTexture, SurfaceFormat aFormat) {
MOZ_ASSERT(aTexture);
RefPtr<DrawTargetD2D1> newTarget;
newTarget = new DrawTargetD2D1();
if (newTarget->Init(aTexture, aFormat)) {
RefPtr<DrawTarget> retVal = newTarget;
if (mRecorder) {
retVal = new DrawTargetWrapAndRecord(mRecorder, retVal, true);
}
return retVal.forget();
}
gfxWarning() << "Failed to create draw target for D3D11 texture.";
// Failed
return nullptr;
}
bool Factory::SetDirect3D11Device(ID3D11Device* aDevice) {
MOZ_RELEASE_ASSERT(NS_IsMainThread());
// D2DFactory already takes the device lock, so we get the factory before
// entering the lock scope.
RefPtr<ID2D1Factory1> factory = D2DFactory();
StaticMutexAutoLock lock(mDeviceLock);
mD3D11Device = aDevice;
if (mD2D1Device) {
mD2D1Device = nullptr;
mMTDC = nullptr;
mOffMTDC = nullptr;
}
if (!aDevice) {
return true;
}
RefPtr<IDXGIDevice> device;
aDevice->QueryInterface((IDXGIDevice**)getter_AddRefs(device));
RefPtr<ID2D1Device> d2dDevice;
HRESULT hr = factory->CreateDevice(device, getter_AddRefs(d2dDevice));
if (FAILED(hr)) {
gfxCriticalError()
<< "[D2D1] Failed to create gfx factory's D2D1 device, code: "
<< hexa(hr);
mD3D11Device = nullptr;
return false;
}
mDeviceSeq++;
mD2D1Device = d2dDevice;
return true;
}
RefPtr<ID3D11Device> Factory::GetDirect3D11Device() {
StaticMutexAutoLock lock(mDeviceLock);
return mD3D11Device;
}
RefPtr<ID2D1Device> Factory::GetD2D1Device(uint32_t* aOutSeqNo) {
StaticMutexAutoLock lock(mDeviceLock);
if (aOutSeqNo) {
*aOutSeqNo = mDeviceSeq;
}
return mD2D1Device.get();
}
bool Factory::HasD2D1Device() { return !!GetD2D1Device(); }
RefPtr<IDWriteFactory> Factory::GetDWriteFactory() {
StaticMutexAutoLock lock(mDeviceLock);
return mDWriteFactory;
}
RefPtr<IDWriteFactory> Factory::EnsureDWriteFactory() {
StaticMutexAutoLock lock(mDeviceLock);
if (mDWriteFactoryInitialized) {
return mDWriteFactory;
}
mDWriteFactoryInitialized = true;
HMODULE dwriteModule = LoadLibraryW(L"dwrite.dll");
decltype(DWriteCreateFactory)* createDWriteFactory =
(decltype(DWriteCreateFactory)*)GetProcAddress(dwriteModule,
"DWriteCreateFactory");
if (!createDWriteFactory) {
gfxWarning() << "Failed to locate DWriteCreateFactory function.";
return nullptr;
}
HRESULT hr =
createDWriteFactory(DWRITE_FACTORY_TYPE_SHARED, __uuidof(IDWriteFactory),
reinterpret_cast<IUnknown**>(&mDWriteFactory));
if (FAILED(hr)) {
gfxWarning() << "Failed to create DWrite Factory.";
}
return mDWriteFactory;
}
RefPtr<IDWriteFontCollection> Factory::GetDWriteSystemFonts(bool aUpdate) {
StaticMutexAutoLock lock(mDeviceLock);
if (mDWriteSystemFonts && !aUpdate) {
return mDWriteSystemFonts;
}
if (!mDWriteFactory) {
return nullptr;
}
RefPtr<IDWriteFontCollection> systemFonts;
HRESULT hr =
mDWriteFactory->GetSystemFontCollection(getter_AddRefs(systemFonts));
if (FAILED(hr)) {
gfxWarning() << "Failed to create DWrite system font collection";
return nullptr;
}
mDWriteSystemFonts = systemFonts;
return mDWriteSystemFonts;
}
RefPtr<ID2D1DeviceContext> Factory::GetD2DDeviceContext() {
StaticRefPtr<ID2D1DeviceContext>* ptr;
if (NS_IsMainThread()) {
ptr = &mMTDC;
} else {
ptr = &mOffMTDC;
}
if (*ptr) {
return *ptr;
}
RefPtr<ID2D1Device> device = GetD2D1Device();
if (!device) {
return nullptr;
}
RefPtr<ID2D1DeviceContext> dc;
HRESULT hr = device->CreateDeviceContext(
D2D1_DEVICE_CONTEXT_OPTIONS_ENABLE_MULTITHREADED_OPTIMIZATIONS,
getter_AddRefs(dc));
if (FAILED(hr)) {
gfxCriticalError() << "Failed to create global device context";
return nullptr;
}
*ptr = dc;
return *ptr;
}
bool Factory::SupportsD2D1() { return !!D2DFactory(); }
BYTE sSystemTextQuality = CLEARTYPE_QUALITY;
void Factory::SetSystemTextQuality(uint8_t aQuality) {
sSystemTextQuality = aQuality;
}
uint64_t Factory::GetD2DVRAMUsageDrawTarget() {
return DrawTargetD2D1::mVRAMUsageDT;
}
uint64_t Factory::GetD2DVRAMUsageSourceSurface() {
return DrawTargetD2D1::mVRAMUsageSS;
}
void Factory::D2DCleanup() {
StaticMutexAutoLock lock(mDeviceLock);
if (mD2D1Device) {
mD2D1Device = nullptr;
}
DrawTargetD2D1::CleanupD2D();
}
already_AddRefed<ScaledFont> Factory::CreateScaledFontForDWriteFont(
IDWriteFontFace* aFontFace, const gfxFontStyle* aStyle,
const RefPtr<UnscaledFont>& aUnscaledFont, float aSize,
bool aUseEmbeddedBitmap, int aRenderingMode,
IDWriteRenderingParams* aParams, Float aGamma, Float aContrast) {
return MakeAndAddRef<ScaledFontDWrite>(aFontFace, aUnscaledFont, aSize,
aUseEmbeddedBitmap,
(DWRITE_RENDERING_MODE)aRenderingMode,
aParams, aGamma, aContrast, aStyle);
}
#endif // WIN32
#ifdef USE_SKIA
already_AddRefed<DrawTarget> Factory::CreateDrawTargetWithSkCanvas(
SkCanvas* aCanvas) {
RefPtr<DrawTargetSkia> newTarget = new DrawTargetSkia();
if (!newTarget->Init(aCanvas)) {
return nullptr;
}
return newTarget.forget();
}
#endif
void Factory::PurgeAllCaches() {}
already_AddRefed<DrawTarget> Factory::CreateDrawTargetForCairoSurface(
cairo_surface_t* aSurface, const IntSize& aSize, SurfaceFormat* aFormat) {
if (!AllowedSurfaceSize(aSize)) {
gfxWarning() << "Allowing surface with invalid size (Cairo) " << aSize;
}
RefPtr<DrawTarget> retVal;
#ifdef USE_CAIRO
RefPtr<DrawTargetCairo> newTarget = new DrawTargetCairo();
if (newTarget->Init(aSurface, aSize, aFormat)) {
retVal = newTarget;
}
if (mRecorder && retVal) {
return MakeAndAddRef<DrawTargetWrapAndRecord>(mRecorder, retVal, true);
}
#endif
return retVal.forget();
}
already_AddRefed<SourceSurface> Factory::CreateSourceSurfaceForCairoSurface(
cairo_surface_t* aSurface, const IntSize& aSize, SurfaceFormat aFormat) {
if (aSize.width <= 0 || aSize.height <= 0) {
gfxWarning() << "Can't create a SourceSurface without a valid size";
return nullptr;
}
#ifdef USE_CAIRO
return MakeAndAddRef<SourceSurfaceCairo>(aSurface, aSize, aFormat);
#else
return nullptr;
#endif
}
already_AddRefed<DataSourceSurface> Factory::CreateWrappingDataSourceSurface(
uint8_t* aData, int32_t aStride, const IntSize& aSize,
SurfaceFormat aFormat,
SourceSurfaceDeallocator aDeallocator /* = nullptr */,
void* aClosure /* = nullptr */) {
// Just check for negative/zero size instead of the full AllowedSurfaceSize()
// - since the data is already allocated we do not need to check for a
// possible overflow - it already worked.
if (aSize.width <= 0 || aSize.height <= 0) {
return nullptr;
}
if (!aDeallocator && aClosure) {
return nullptr;
}
MOZ_ASSERT(aData);
RefPtr<SourceSurfaceRawData> newSurf = new SourceSurfaceRawData();
newSurf->InitWrappingData(aData, aSize, aStride, aFormat, aDeallocator,
aClosure);
return newSurf.forget();
}
already_AddRefed<DataSourceSurface> Factory::CreateDataSourceSurface(
const IntSize& aSize, SurfaceFormat aFormat, bool aZero) {
if (!AllowedSurfaceSize(aSize)) {
gfxCriticalError(LoggerOptionsBasedOnSize(aSize))
<< "Failed to allocate a surface due to invalid size (DSS) " << aSize;
return nullptr;
}
// Skia doesn't support RGBX, so memset RGBX to 0xFF
bool clearSurface = aZero || aFormat == SurfaceFormat::B8G8R8X8;
uint8_t clearValue = aFormat == SurfaceFormat::B8G8R8X8 ? 0xFF : 0;
RefPtr<SourceSurfaceAlignedRawData> newSurf =
new SourceSurfaceAlignedRawData();
if (newSurf->Init(aSize, aFormat, clearSurface, clearValue)) {
return newSurf.forget();
}
gfxWarning() << "CreateDataSourceSurface failed in init";
return nullptr;
}
already_AddRefed<DataSourceSurface> Factory::CreateDataSourceSurfaceWithStride(
const IntSize& aSize, SurfaceFormat aFormat, int32_t aStride, bool aZero) {
if (!AllowedSurfaceSize(aSize) ||
aStride < aSize.width * BytesPerPixel(aFormat)) {
gfxCriticalError(LoggerOptionsBasedOnSize(aSize))
<< "CreateDataSourceSurfaceWithStride failed with bad stride "
<< aStride << ", " << aSize << ", " << aFormat;
return nullptr;
}
// Skia doesn't support RGBX, so memset RGBX to 0xFF
bool clearSurface = aZero || aFormat == SurfaceFormat::B8G8R8X8;
uint8_t clearValue = aFormat == SurfaceFormat::B8G8R8X8 ? 0xFF : 0;
RefPtr<SourceSurfaceAlignedRawData> newSurf =
new SourceSurfaceAlignedRawData();
if (newSurf->Init(aSize, aFormat, clearSurface, clearValue, aStride)) {
return newSurf.forget();
}
gfxCriticalError(LoggerOptionsBasedOnSize(aSize))
<< "CreateDataSourceSurfaceWithStride failed to initialize " << aSize
<< ", " << aFormat << ", " << aStride << ", " << aZero;
return nullptr;
}
void Factory::CopyDataSourceSurface(DataSourceSurface* aSource,
DataSourceSurface* aDest) {
// Don't worry too much about speed.
MOZ_ASSERT(aSource->GetSize() == aDest->GetSize());
MOZ_ASSERT(aSource->GetFormat() == SurfaceFormat::R8G8B8A8 ||
aSource->GetFormat() == SurfaceFormat::R8G8B8X8 ||
aSource->GetFormat() == SurfaceFormat::B8G8R8A8 ||
aSource->GetFormat() == SurfaceFormat::B8G8R8X8);
MOZ_ASSERT(aDest->GetFormat() == SurfaceFormat::R8G8B8A8 ||
aDest->GetFormat() == SurfaceFormat::R8G8B8X8 ||
aDest->GetFormat() == SurfaceFormat::B8G8R8A8 ||
aDest->GetFormat() == SurfaceFormat::B8G8R8X8 ||
aDest->GetFormat() == SurfaceFormat::R5G6B5_UINT16);
DataSourceSurface::MappedSurface srcMap;
DataSourceSurface::MappedSurface destMap;
if (!aSource->Map(DataSourceSurface::MapType::READ, &srcMap) ||
!aDest->Map(DataSourceSurface::MapType::WRITE, &destMap)) {
MOZ_ASSERT(false, "CopyDataSourceSurface: Failed to map surface.");
return;
}
SwizzleData(srcMap.mData, srcMap.mStride, aSource->GetFormat(), destMap.mData,
destMap.mStride, aDest->GetFormat(), aSource->GetSize());
aSource->Unmap();
aDest->Unmap();
}
already_AddRefed<DrawEventRecorder> Factory::CreateEventRecorderForFile(
const char_type* aFilename) {
return MakeAndAddRef<DrawEventRecorderFile>(aFilename);
}
void Factory::SetGlobalEventRecorder(DrawEventRecorder* aRecorder) {
mRecorder = aRecorder;
}
// static
void CriticalLogger::OutputMessage(const std::string& aString, int aLevel,
bool aNoNewline) {
if (Factory::GetLogForwarder()) {
Factory::GetLogForwarder()->Log(aString);
}
BasicLogger::OutputMessage(aString, aLevel, aNoNewline);
}
void CriticalLogger::CrashAction(LogReason aReason) {
if (Factory::GetLogForwarder()) {
Factory::GetLogForwarder()->CrashAction(aReason);
}
}
#ifdef WIN32
void LogWStr(const wchar_t* aWStr, std::stringstream& aOut) {
int n =
WideCharToMultiByte(CP_ACP, 0, aWStr, -1, nullptr, 0, nullptr, nullptr);
if (n > 1) {
std::vector<char> str(n);
WideCharToMultiByte(CP_ACP, 0, aWStr, -1, str.data(), n, nullptr, nullptr);
aOut << str.data();
}
}
#endif
} // namespace gfx
} // namespace mozilla
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