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gecko-dev/gfx/layers/ImageDataSerializer.cpp
Jean-Yves Avenard 3ae43eb506 Bug 1493898 - P6. Move YUVColorSpace definition in the gfx namespace. r=mattwoodrow. 
YUVColorSpace is inseparable from the bit depth as the matrix coefficients to be calculated need the bit depth information.

So let's put the two types together. gfx namespace also makes more sense as that's where we find IntRect, IntSize and other.

The extent of the changes highlight how much similar data structures are duplicated across the code, to the point it's scary.

Differential Revision: https://phabricator.services.mozilla.com/D25347

--HG--
extra : moz-landing-system : lando
2019-04-11 12:41:33 +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 "ImageDataSerializer.h"
#include "gfx2DGlue.h" // for SurfaceFormatToImageFormat
#include "mozilla/gfx/Point.h" // for IntSize
#include "mozilla/Assertions.h" // for MOZ_ASSERT, etc
#include "mozilla/gfx/2D.h" // for DataSourceSurface, Factory
#include "mozilla/gfx/Logging.h" // for gfxDebug
#include "mozilla/gfx/Tools.h" // for GetAlignedStride, etc
#include "mozilla/gfx/Types.h"
#include "mozilla/mozalloc.h" // for operator delete, etc
#include "YCbCrUtils.h" // for YCbCr conversions
namespace mozilla {
namespace layers {
namespace ImageDataSerializer {
using namespace gfx;
int32_t ComputeRGBStride(SurfaceFormat aFormat, int32_t aWidth) {
#ifdef XP_MACOSX
// Some drivers require an alignment of 32 bytes for efficient texture upload.
return GetAlignedStride<32>(aWidth, BytesPerPixel(aFormat));
#else
return GetAlignedStride<4>(aWidth, BytesPerPixel(aFormat));
#endif
}
int32_t GetRGBStride(const RGBDescriptor& aDescriptor) {
return ComputeRGBStride(aDescriptor.format(), aDescriptor.size().width);
}
uint32_t ComputeRGBBufferSize(IntSize aSize, SurfaceFormat aFormat) {
MOZ_ASSERT(aSize.height >= 0 && aSize.width >= 0);
// This takes care of checking whether there could be overflow
// with enough margin for the metadata.
if (!gfx::Factory::AllowedSurfaceSize(aSize)) {
return 0;
}
// Note we're passing height instad of the bpp parameter, but the end
// result is the same - and the bpp was already taken care of in the
// ComputeRGBStride function.
int32_t bufsize = GetAlignedStride<16>(ComputeRGBStride(aFormat, aSize.width),
aSize.height);
if (bufsize < 0) {
// This should not be possible thanks to Factory::AllowedSurfaceSize
return 0;
}
return bufsize;
}
// Minimum required shmem size in bytes
uint32_t ComputeYCbCrBufferSize(const gfx::IntSize& aYSize, int32_t aYStride,
const gfx::IntSize& aCbCrSize,
int32_t aCbCrStride) {
MOZ_ASSERT(aYSize.height >= 0 && aYSize.width >= 0);
if (aYSize.height < 0 || aYSize.width < 0 || aCbCrSize.height < 0 ||
aCbCrSize.width < 0 ||
!gfx::Factory::AllowedSurfaceSize(IntSize(aYStride, aYSize.height)) ||
!gfx::Factory::AllowedSurfaceSize(
IntSize(aCbCrStride, aCbCrSize.height))) {
return 0;
}
// Overflow checks are performed in AllowedSurfaceSize
return GetAlignedStride<4>(aYSize.height, aYStride) +
2 * GetAlignedStride<4>(aCbCrSize.height, aCbCrStride);
}
uint32_t ComputeYCbCrBufferSize(const gfx::IntSize& aYSize, int32_t aYStride,
const gfx::IntSize& aCbCrSize,
int32_t aCbCrStride, uint32_t aYOffset,
uint32_t aCbOffset, uint32_t aCrOffset) {
MOZ_ASSERT(aYSize.height >= 0 && aYSize.width >= 0);
if (aYSize.height < 0 || aYSize.width < 0 || aCbCrSize.height < 0 ||
aCbCrSize.width < 0 ||
!gfx::Factory::AllowedSurfaceSize(IntSize(aYStride, aYSize.height)) ||
!gfx::Factory::AllowedSurfaceSize(
IntSize(aCbCrStride, aCbCrSize.height))) {
return 0;
}
uint32_t yLength = GetAlignedStride<4>(aYStride, aYSize.height);
uint32_t cbCrLength = GetAlignedStride<4>(aCbCrStride, aCbCrSize.height);
if (yLength == 0 || cbCrLength == 0) {
return 0;
}
CheckedInt<uint32_t> yEnd = aYOffset;
yEnd += yLength;
CheckedInt<uint32_t> cbEnd = aCbOffset;
cbEnd += cbCrLength;
CheckedInt<uint32_t> crEnd = aCrOffset;
crEnd += cbCrLength;
if (!yEnd.isValid() || !cbEnd.isValid() || !crEnd.isValid() ||
yEnd.value() > aCbOffset || cbEnd.value() > aCrOffset) {
return 0;
}
return crEnd.value();
}
uint32_t ComputeYCbCrBufferSize(uint32_t aBufferSize) {
return GetAlignedStride<4>(aBufferSize, 1);
}
void ComputeYCbCrOffsets(int32_t yStride, int32_t yHeight, int32_t cbCrStride,
int32_t cbCrHeight, uint32_t& outYOffset,
uint32_t& outCbOffset, uint32_t& outCrOffset) {
outYOffset = 0;
outCbOffset = outYOffset + GetAlignedStride<4>(yStride, yHeight);
outCrOffset = outCbOffset + GetAlignedStride<4>(cbCrStride, cbCrHeight);
}
gfx::SurfaceFormat FormatFromBufferDescriptor(
const BufferDescriptor& aDescriptor) {
switch (aDescriptor.type()) {
case BufferDescriptor::TRGBDescriptor:
return aDescriptor.get_RGBDescriptor().format();
case BufferDescriptor::TYCbCrDescriptor:
return gfx::SurfaceFormat::YUV;
default:
MOZ_CRASH("GFX: FormatFromBufferDescriptor");
}
}
gfx::IntSize SizeFromBufferDescriptor(const BufferDescriptor& aDescriptor) {
switch (aDescriptor.type()) {
case BufferDescriptor::TRGBDescriptor:
return aDescriptor.get_RGBDescriptor().size();
case BufferDescriptor::TYCbCrDescriptor:
return aDescriptor.get_YCbCrDescriptor().ySize();
default:
MOZ_CRASH("GFX: SizeFromBufferDescriptor");
}
}
Maybe<gfx::IntSize> CbCrSizeFromBufferDescriptor(
const BufferDescriptor& aDescriptor) {
switch (aDescriptor.type()) {
case BufferDescriptor::TRGBDescriptor:
return Nothing();
case BufferDescriptor::TYCbCrDescriptor:
return Some(aDescriptor.get_YCbCrDescriptor().cbCrSize());
default:
MOZ_CRASH("GFX: CbCrSizeFromBufferDescriptor");
}
}
Maybe<gfx::YUVColorSpace> YUVColorSpaceFromBufferDescriptor(
const BufferDescriptor& aDescriptor) {
switch (aDescriptor.type()) {
case BufferDescriptor::TRGBDescriptor:
return Nothing();
case BufferDescriptor::TYCbCrDescriptor:
return Some(aDescriptor.get_YCbCrDescriptor().yUVColorSpace());
default:
MOZ_CRASH("GFX: YUVColorSpaceFromBufferDescriptor");
}
}
Maybe<gfx::ColorDepth> ColorDepthFromBufferDescriptor(
const BufferDescriptor& aDescriptor) {
switch (aDescriptor.type()) {
case BufferDescriptor::TRGBDescriptor:
return Nothing();
case BufferDescriptor::TYCbCrDescriptor:
return Some(aDescriptor.get_YCbCrDescriptor().colorDepth());
default:
MOZ_CRASH("GFX: ColorDepthFromBufferDescriptor");
}
}
Maybe<StereoMode> StereoModeFromBufferDescriptor(
const BufferDescriptor& aDescriptor) {
switch (aDescriptor.type()) {
case BufferDescriptor::TRGBDescriptor:
return Nothing();
case BufferDescriptor::TYCbCrDescriptor:
return Some(aDescriptor.get_YCbCrDescriptor().stereoMode());
default:
MOZ_CRASH("GFX: StereoModeFromBufferDescriptor");
}
}
uint8_t* GetYChannel(uint8_t* aBuffer, const YCbCrDescriptor& aDescriptor) {
return aBuffer + aDescriptor.yOffset();
}
uint8_t* GetCbChannel(uint8_t* aBuffer, const YCbCrDescriptor& aDescriptor) {
return aBuffer + aDescriptor.cbOffset();
}
uint8_t* GetCrChannel(uint8_t* aBuffer, const YCbCrDescriptor& aDescriptor) {
return aBuffer + aDescriptor.crOffset();
}
already_AddRefed<DataSourceSurface> DataSourceSurfaceFromYCbCrDescriptor(
uint8_t* aBuffer, const YCbCrDescriptor& aDescriptor,
gfx::DataSourceSurface* aSurface) {
gfx::IntSize ySize = aDescriptor.ySize();
RefPtr<DataSourceSurface> result;
if (aSurface) {
MOZ_ASSERT(aSurface->GetSize() == ySize);
MOZ_ASSERT(aSurface->GetFormat() == gfx::SurfaceFormat::B8G8R8X8);
if (aSurface->GetSize() == ySize &&
aSurface->GetFormat() == gfx::SurfaceFormat::B8G8R8X8) {
result = aSurface;
}
}
if (!result) {
result =
Factory::CreateDataSourceSurface(ySize, gfx::SurfaceFormat::B8G8R8X8);
}
if (NS_WARN_IF(!result)) {
return nullptr;
}
DataSourceSurface::MappedSurface map;
if (NS_WARN_IF(!result->Map(DataSourceSurface::MapType::WRITE, &map))) {
return nullptr;
}
layers::PlanarYCbCrData ycbcrData;
ycbcrData.mYChannel = GetYChannel(aBuffer, aDescriptor);
ycbcrData.mYStride = aDescriptor.yStride();
ycbcrData.mYSize = ySize;
ycbcrData.mCbChannel = GetCbChannel(aBuffer, aDescriptor);
ycbcrData.mCrChannel = GetCrChannel(aBuffer, aDescriptor);
ycbcrData.mCbCrStride = aDescriptor.cbCrStride();
ycbcrData.mCbCrSize = aDescriptor.cbCrSize();
ycbcrData.mPicSize = ySize;
ycbcrData.mYUVColorSpace = aDescriptor.yUVColorSpace();
ycbcrData.mColorDepth = aDescriptor.colorDepth();
gfx::ConvertYCbCrToRGB(ycbcrData, gfx::SurfaceFormat::B8G8R8X8, ySize,
map.mData, map.mStride);
result->Unmap();
return result.forget();
}
void ConvertAndScaleFromYCbCrDescriptor(uint8_t* aBuffer,
const YCbCrDescriptor& aDescriptor,
const gfx::SurfaceFormat& aDestFormat,
const gfx::IntSize& aDestSize,
unsigned char* aDestBuffer,
int32_t aStride) {
MOZ_ASSERT(aBuffer);
layers::PlanarYCbCrData ycbcrData;
ycbcrData.mYChannel = GetYChannel(aBuffer, aDescriptor);
ycbcrData.mYStride = aDescriptor.yStride();
;
ycbcrData.mYSize = aDescriptor.ySize();
ycbcrData.mCbChannel = GetCbChannel(aBuffer, aDescriptor);
ycbcrData.mCrChannel = GetCrChannel(aBuffer, aDescriptor);
ycbcrData.mCbCrStride = aDescriptor.cbCrStride();
ycbcrData.mCbCrSize = aDescriptor.cbCrSize();
ycbcrData.mPicSize = aDescriptor.ySize();
ycbcrData.mYUVColorSpace = aDescriptor.yUVColorSpace();
ycbcrData.mColorDepth = aDescriptor.colorDepth();
gfx::ConvertYCbCrToRGB(ycbcrData, aDestFormat, aDestSize, aDestBuffer,
aStride);
}
} // namespace ImageDataSerializer
} // namespace layers
} // namespace mozilla
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