gecko-dev/gfx/2d/Factory.cpp

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26 KiB
C++

/* -*- Mode: C++; tab-width: 20; indent-tabs-mode: nil; c-basic-offset: 2 -*-
* 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"
#ifdef USE_CAIRO
#include "DrawTargetCairo.h"
#include "ScaledFontCairo.h"
#include "SourceSurfaceCairo.h"
#endif
#ifdef USE_SKIA
#include "DrawTargetSkia.h"
#include "ScaledFontBase.h"
#ifdef MOZ_ENABLE_FREETYPE
#define USE_SKIA_FREETYPE
#include "ScaledFontCairo.h"
#endif
#endif
#if defined(WIN32)
#include "ScaledFontWin.h"
#include "NativeFontResourceGDI.h"
#endif
#ifdef XP_DARWIN
#include "ScaledFontMac.h"
#include "NativeFontResourceMac.h"
#endif
#ifdef MOZ_WIDGET_GTK
#include "ScaledFontFontconfig.h"
#endif
#ifdef XP_DARWIN
#include "DrawTargetCG.h"
#endif
#ifdef WIN32
#include "DrawTargetD2D1.h"
#include "ScaledFontDWrite.h"
#include "NativeFontResourceDWrite.h"
#include <d3d10_1.h>
#include "HelpersD2D.h"
#endif
#include "DrawTargetDual.h"
#include "DrawTargetTiled.h"
#include "DrawTargetRecording.h"
#include "SourceSurfaceRawData.h"
#include "DrawEventRecorder.h"
#include "Logging.h"
#include "mozilla/CheckedInt.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))
// 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
namespace mozilla {
namespace gfx {
// In Gecko, this value is managed by gfx.logging.level in gfxPrefs.
int32_t LoggingPrefs::sGfxLogLevel = LOG_DEFAULT;
#ifdef WIN32
ID3D11Device *Factory::mD3D11Device;
ID2D1Device *Factory::mD2D1Device;
#endif
DrawEventRecorder *Factory::mRecorder;
mozilla::gfx::Config* Factory::sConfig = nullptr;
void
Factory::Init(const Config& aConfig)
{
MOZ_ASSERT(!sConfig);
sConfig = new Config(aConfig);
// Make sure we don't completely break rendering because of a typo in the
// pref or whatnot.
const int32_t kMinAllocPref = 10000000;
const int32_t kMinSizePref = 2048;
if (sConfig->mMaxAllocSize < kMinAllocPref) {
sConfig->mMaxAllocSize = kMinAllocPref;
}
if (sConfig->mMaxTextureSize < kMinSizePref) {
sConfig->mMaxTextureSize = kMinSizePref;
}
}
void
Factory::ShutDown()
{
if (sConfig) {
delete sConfig;
sConfig = nullptr;
}
}
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
}
// 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) {
gfxDebug() << "Surface width or 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;
}
#if defined(XP_MACOSX)
// CoreGraphics is limited to images < 32K in *height*,
// so clamp all surfaces on the Mac to that height
if (sz.height > SHRT_MAX) {
gfxDebug() << "Surface size too large (exceeds CoreGraphics limit)!";
return false;
}
#endif
// 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;
}
#elif defined XP_DARWIN
case BackendType::COREGRAPHICS:
case BackendType::COREGRAPHICS_ACCELERATED:
{
RefPtr<DrawTargetCG> newTarget;
newTarget = new DrawTargetCG();
if (newTarget->Init(aBackend, 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<DrawTargetRecording>(mRecorder, retVal);
}
if (!retVal) {
// Failed
gfxCriticalError(LoggerOptionsBasedOnSize(aSize)) << "Failed to create DrawTarget, Type: " << int(aBackend) << " Size: " << aSize;
}
return retVal.forget();
}
already_AddRefed<DrawTarget>
Factory::CreateRecordingDrawTarget(DrawEventRecorder *aRecorder, DrawTarget *aDT)
{
return MakeAndAddRef<DrawTargetRecording>(aRecorder, aDT);
}
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();
newTarget->Init(aData, aSize, aStride, aFormat, aUninitialized);
retVal = newTarget;
break;
}
#endif
#ifdef XP_DARWIN
case BackendType::COREGRAPHICS:
{
RefPtr<DrawTargetCG> newTarget = new DrawTargetCG();
if (newTarget->Init(aBackend, aData, aSize, aStride, aFormat))
return newTarget.forget();
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<DrawTargetRecording>(mRecorder, retVal, true);
}
if (!retVal) {
gfxCriticalNote << "Failed to create DrawTarget, Type: " << int(aBackend) << " Size: " << aSize << ", Data: " << hexa(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();
}
bool
Factory::DoesBackendSupportDataDrawtarget(BackendType aType)
{
switch (aType) {
case BackendType::DIRECT2D:
case BackendType::DIRECT2D1_1:
case BackendType::RECORDING:
case BackendType::NONE:
case BackendType::COREGRAPHICS_ACCELERATED:
case BackendType::BACKEND_LAST:
return false;
case BackendType::CAIRO:
case BackendType::COREGRAPHICS:
case BackendType::SKIA:
return true;
}
return false;
}
uint32_t
Factory::GetMaxSurfaceSize(BackendType aType)
{
switch (aType) {
case BackendType::CAIRO:
case BackendType::COREGRAPHICS:
return DrawTargetCairo::GetMaxSurfaceSize();
#ifdef XP_MACOSX
case BackendType::COREGRAPHICS_ACCELERATED:
return DrawTargetCG::GetMaxSurfaceSize();
#endif
#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, Float aSize)
{
switch (aNativeFont.mType) {
#ifdef WIN32
case NativeFontType::DWRITE_FONT_FACE:
{
return MakeAndAddRef<ScaledFontDWrite>(static_cast<IDWriteFontFace*>(aNativeFont.mFont), aSize);
}
#if defined(USE_CAIRO) || defined(USE_SKIA)
case NativeFontType::GDI_FONT_FACE:
{
return MakeAndAddRef<ScaledFontWin>(static_cast<LOGFONT*>(aNativeFont.mFont), aSize);
}
#endif
#endif
#ifdef XP_DARWIN
case NativeFontType::MAC_FONT_FACE:
{
return MakeAndAddRef<ScaledFontMac>(static_cast<CGFontRef>(aNativeFont.mFont), aSize);
}
#endif
#if defined(USE_CAIRO) || defined(USE_SKIA_FREETYPE)
case NativeFontType::CAIRO_FONT_FACE:
{
return MakeAndAddRef<ScaledFontCairo>(static_cast<cairo_scaled_font_t*>(aNativeFont.mFont), aSize);
}
#endif
default:
gfxWarning() << "Invalid native font type specified.";
return nullptr;
}
}
already_AddRefed<NativeFontResource>
Factory::CreateNativeFontResource(uint8_t *aData, uint32_t aSize,
FontType aType)
{
switch (aType) {
#ifdef WIN32
case FontType::DWRITE:
{
return NativeFontResourceDWrite::Create(aData, aSize,
/* aNeedsCairo = */ false);
}
#endif
case FontType::CAIRO:
{
#ifdef WIN32
if (GetDirect3D11Device()) {
return NativeFontResourceDWrite::Create(aData, aSize,
/* aNeedsCairo = */ true);
} else {
return NativeFontResourceGDI::Create(aData, aSize,
/* aNeedsCairo = */ true);
}
#elif XP_DARWIN
return NativeFontResourceMac::Create(aData, aSize);
#else
gfxWarning() << "Unable to create cairo scaled font from truetype data";
return nullptr;
#endif
}
default:
gfxWarning() << "Unable to create requested font resource from truetype data";
return nullptr;
}
}
already_AddRefed<ScaledFont>
Factory::CreateScaledFontWithCairo(const NativeFont& aNativeFont, Float aSize, cairo_scaled_font_t* aScaledFont)
{
#ifdef USE_CAIRO
// In theory, we could pull the NativeFont out of the cairo_scaled_font_t*,
// but that would require a lot of code that would be otherwise repeated in
// various backends.
// Therefore, we just reuse CreateScaledFontForNativeFont's implementation.
RefPtr<ScaledFont> font = CreateScaledFontForNativeFont(aNativeFont, aSize);
static_cast<ScaledFontBase*>(font.get())->SetCairoScaledFont(aScaledFont);
return font.forget();
#else
return nullptr;
#endif
}
#ifdef MOZ_WIDGET_GTK
already_AddRefed<ScaledFont>
Factory::CreateScaledFontForFontconfigFont(cairo_scaled_font_t* aScaledFont, FcPattern* aPattern, Float aSize)
{
return MakeAndAddRef<ScaledFontFontconfig>(aScaledFont, aPattern, aSize);
}
#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 DrawTargetRecording(mRecorder, retVal);
}
return retVal.forget();
}
#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 DrawTargetRecording(mRecorder, retVal, true);
}
return retVal.forget();
}
gfxWarning() << "Failed to create draw target for D3D11 texture.";
// Failed
return nullptr;
}
bool
Factory::SetDirect3D11Device(ID3D11Device *aDevice)
{
mD3D11Device = aDevice;
if (mD2D1Device) {
mD2D1Device->Release();
mD2D1Device = nullptr;
}
if (!aDevice) {
return true;
}
RefPtr<ID2D1Factory1> factory = D2DFactory1();
RefPtr<IDXGIDevice> device;
aDevice->QueryInterface((IDXGIDevice**)getter_AddRefs(device));
HRESULT hr = factory->CreateDevice(device, &mD2D1Device);
if (FAILED(hr)) {
gfxCriticalError() << "[D2D1] Failed to create gfx factory's D2D1 device, code: " << hexa(hr);
mD3D11Device = nullptr;
return false;
}
return true;
}
ID3D11Device*
Factory::GetDirect3D11Device()
{
return mD3D11Device;
}
ID2D1Device*
Factory::GetD2D1Device()
{
return mD2D1Device;
}
bool
Factory::SupportsD2D1()
{
return !!D2DFactory1();
}
already_AddRefed<GlyphRenderingOptions>
Factory::CreateDWriteGlyphRenderingOptions(IDWriteRenderingParams *aParams)
{
return MakeAndAddRef<GlyphRenderingOptionsDWrite>(aParams);
}
uint64_t
Factory::GetD2DVRAMUsageDrawTarget()
{
return DrawTargetD2D1::mVRAMUsageDT;
}
uint64_t
Factory::GetD2DVRAMUsageSourceSurface()
{
return DrawTargetD2D1::mVRAMUsageSS;
}
void
Factory::D2DCleanup()
{
if (mD2D1Device) {
mD2D1Device->Release();
mD2D1Device = nullptr;
}
DrawTargetD2D1::CleanupD2D();
}
already_AddRefed<ScaledFont>
Factory::CreateScaledFontForDWriteFont(IDWriteFont* aFont,
IDWriteFontFamily* aFontFamily,
IDWriteFontFace* aFontFace,
float aSize,
bool aUseEmbeddedBitmap,
bool aForceGDIMode)
{
return MakeAndAddRef<ScaledFontDWrite>(aFont, aFontFamily, aFontFace,
aSize, aUseEmbeddedBitmap, aForceGDIMode);
}
#endif // XP_WIN
#ifdef USE_SKIA_GPU
already_AddRefed<DrawTarget>
Factory::CreateDrawTargetSkiaWithGrContext(GrContext* aGrContext,
const IntSize &aSize,
SurfaceFormat aFormat)
{
RefPtr<DrawTarget> newTarget = new DrawTargetSkia();
if (!newTarget->InitWithGrContext(aGrContext, aSize, aFormat)) {
return nullptr;
}
return newTarget.forget();
}
#endif // USE_SKIA_GPU
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<DrawTargetRecording>(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
}
#ifdef XP_DARWIN
already_AddRefed<DrawTarget>
Factory::CreateDrawTargetForCairoCGContext(CGContextRef cg, const IntSize& aSize)
{
if (!AllowedSurfaceSize(aSize)) {
gfxCriticalError(LoggerOptionsBasedOnSize(aSize)) << "Failed to allocate a surface due to invalid size (CG) " << aSize;
return nullptr;
}
RefPtr<DrawTarget> retVal;
RefPtr<DrawTargetCG> newTarget = new DrawTargetCG();
if (newTarget->Init(cg, aSize)) {
retVal = newTarget;
}
if (mRecorder && retVal) {
return MakeAndAddRef<DrawTargetRecording>(mRecorder, retVal);
}
return retVal.forget();
}
already_AddRefed<GlyphRenderingOptions>
Factory::CreateCGGlyphRenderingOptions(const Color &aFontSmoothingBackgroundColor)
{
return MakeAndAddRef<GlyphRenderingOptionsCG>(aFontSmoothingBackgroundColor);
}
#endif
already_AddRefed<DataSourceSurface>
Factory::CreateWrappingDataSourceSurface(uint8_t *aData,
int32_t aStride,
const IntSize &aSize,
SurfaceFormat aFormat,
SourceSurfaceDeallocator aDeallocator /* = nullptr */,
void* aClosure /* = nullptr */)
{
if (!AllowedSurfaceSize(aSize)) {
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;
}
static uint16_t
PackRGB565(uint8_t r, uint8_t g, uint8_t b)
{
uint16_t pixel = ((r << 11) & 0xf800) |
((g << 5) & 0x07e0) |
((b ) & 0x001f);
return pixel;
}
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);
const bool isSrcBGR = aSource->GetFormat() == SurfaceFormat::B8G8R8A8 ||
aSource->GetFormat() == SurfaceFormat::B8G8R8X8;
const bool isDestBGR = aDest->GetFormat() == SurfaceFormat::B8G8R8A8 ||
aDest->GetFormat() == SurfaceFormat::B8G8R8X8;
const bool needsSwap02 = isSrcBGR != isDestBGR;
const bool srcHasAlpha = aSource->GetFormat() == SurfaceFormat::R8G8B8A8 ||
aSource->GetFormat() == SurfaceFormat::B8G8R8A8;
const bool destHasAlpha = aDest->GetFormat() == SurfaceFormat::R8G8B8A8 ||
aDest->GetFormat() == SurfaceFormat::B8G8R8A8;
const bool needsAlphaMask = !srcHasAlpha && destHasAlpha;
const bool needsConvertTo16Bits = 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;
}
MOZ_ASSERT(srcMap.mStride >= 0);
MOZ_ASSERT(destMap.mStride >= 0);
const size_t srcBPP = BytesPerPixel(aSource->GetFormat());
const size_t srcRowBytes = aSource->GetSize().width * srcBPP;
const size_t srcRowHole = srcMap.mStride - srcRowBytes;
const size_t destBPP = BytesPerPixel(aDest->GetFormat());
const size_t destRowBytes = aDest->GetSize().width * destBPP;
const size_t destRowHole = destMap.mStride - destRowBytes;
uint8_t* srcRow = srcMap.mData;
uint8_t* destRow = destMap.mData;
const size_t rows = aSource->GetSize().height;
for (size_t i = 0; i < rows; i++) {
const uint8_t* srcRowEnd = srcRow + srcRowBytes;
while (srcRow != srcRowEnd) {
uint8_t d0 = needsSwap02 ? srcRow[2] : srcRow[0];
uint8_t d1 = srcRow[1];
uint8_t d2 = needsSwap02 ? srcRow[0] : srcRow[2];
uint8_t d3 = needsAlphaMask ? 0xff : srcRow[3];
if (needsConvertTo16Bits) {
*(uint16_t*)destRow = PackRGB565(d0, d1, d2);
} else {
destRow[0] = d0;
destRow[1] = d1;
destRow[2] = d2;
destRow[3] = d3;
}
srcRow += srcBPP;
destRow += destBPP;
}
srcRow += srcRowHole;
destRow += destRowHole;
}
aSource->Unmap();
aDest->Unmap();
}
already_AddRefed<DrawEventRecorder>
Factory::CreateEventRecorderForFile(const char *aFilename)
{
return MakeAndAddRef<DrawEventRecorderFile>(aFilename);
}
void
Factory::SetGlobalEventRecorder(DrawEventRecorder *aRecorder)
{
mRecorder = aRecorder;
}
// static
void
Factory::SetLogForwarder(LogForwarder* aLogFwd) {
sConfig->mLogForwarder = aLogFwd;
}
// 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);
}
}
} // namespace gfx
} // namespace mozilla