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gecko-dev/image/SurfacePipe.cpp
Phil Ringnalda c7b01ecbda Backed out 5 changesets (bug 1290292, bug 1290293) for gfx assertions 
CLOSED TREE

Backed out changeset 652c909b75ad (bug 1290293)
Backed out changeset 90a284ea19e3 (bug 1290292)
Backed out changeset 8401d12fe936 (bug 1290293)
Backed out changeset d87488b69c18 (bug 1290293)
Backed out changeset 7368aa665fae (bug 1290293)
2017-02-13 19:28:45 -08:00

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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 "SurfacePipe.h"
#include <utility>
#include "mozilla/ClearOnShutdown.h"
#include "mozilla/DebugOnly.h"
#include "Decoder.h"
namespace mozilla {
namespace image {
using namespace gfx;
using std::min;
/* static */ UniquePtr<NullSurfaceSink> NullSurfaceSink::sSingleton;
/* static */ NullSurfaceSink*
NullSurfaceSink::Singleton()
{
if (!sSingleton) {
MOZ_ASSERT(NS_IsMainThread());
sSingleton = MakeUnique<NullSurfaceSink>();
ClearOnShutdown(&sSingleton);
DebugOnly<nsresult> rv = sSingleton->Configure(NullSurfaceConfig { });
MOZ_ASSERT(NS_SUCCEEDED(rv), "Couldn't configure a NullSurfaceSink?");
}
return sSingleton.get();
}
nsresult
NullSurfaceSink::Configure(const NullSurfaceConfig& aConfig)
{
// Note that the choice of uint32_t as the pixel size here is more or less
// arbitrary, since you cannot write to a NullSurfaceSink anyway, but uint32_t
// is a natural choice since most SurfacePipes will be for BGRA/BGRX surfaces.
ConfigureFilter(IntSize(), sizeof(uint32_t));
return NS_OK;
}
Maybe<SurfaceInvalidRect>
AbstractSurfaceSink::TakeInvalidRect()
{
if (mInvalidRect.IsEmpty()) {
return Nothing();
}
SurfaceInvalidRect invalidRect;
invalidRect.mInputSpaceRect = invalidRect.mOutputSpaceRect = mInvalidRect;
// Forget about the invalid rect we're returning.
mInvalidRect = IntRect();
return Some(invalidRect);
}
uint8_t*
AbstractSurfaceSink::DoResetToFirstRow()
{
mRow = 0;
return GetRowPointer();
}
uint8_t*
AbstractSurfaceSink::DoAdvanceRow()
{
if (mRow >= uint32_t(InputSize().height)) {
return nullptr;
}
// If we're vertically flipping the output, we need to flip the invalid rect. Since we're
// dealing with an axis-aligned rect, only the y coordinate needs to change.
int32_t invalidY = mFlipVertically
? InputSize().height - (mRow + 1)
: mRow;
mInvalidRect.UnionRect(mInvalidRect,
IntRect(0, invalidY, InputSize().width, 1));
mRow = min(uint32_t(InputSize().height), mRow + 1);
return mRow < uint32_t(InputSize().height) ? GetRowPointer()
: nullptr;
}
nsresult
SurfaceSink::Configure(const SurfaceConfig& aConfig)
{
// For non-paletted surfaces, the surface size is just the output size.
IntSize surfaceSize = aConfig.mOutputSize;
// Non-paletted surfaces should not have frame rects, so we just pass
// AllocateFrame() a frame rect which covers the entire surface.
IntRect frameRect(0, 0, surfaceSize.width, surfaceSize.height);
// Allocate the frame.
// XXX(seth): Once every Decoder subclass uses SurfacePipe, we probably want
// to allocate the frame directly here and get rid of Decoder::AllocateFrame
// altogether.
nsresult rv = aConfig.mDecoder->AllocateFrame(aConfig.mFrameNum,
surfaceSize,
frameRect,
aConfig.mFormat);
if (NS_FAILED(rv)) {
return rv;
}
mImageData = aConfig.mDecoder->mImageData;
mImageDataLength = aConfig.mDecoder->mImageDataLength;
mFlipVertically = aConfig.mFlipVertically;
MOZ_ASSERT(mImageData);
MOZ_ASSERT(mImageDataLength ==
uint32_t(surfaceSize.width * surfaceSize.height * sizeof(uint32_t)));
ConfigureFilter(surfaceSize, sizeof(uint32_t));
return NS_OK;
}
uint8_t*
SurfaceSink::GetRowPointer() const
{
// If we're flipping vertically, reverse the order in which we traverse the
// rows.
uint32_t row = mFlipVertically
? InputSize().height - (mRow + 1)
: mRow;
uint8_t* rowPtr = mImageData + row * InputSize().width * sizeof(uint32_t);
MOZ_ASSERT(rowPtr >= mImageData);
MOZ_ASSERT(rowPtr < mImageData + mImageDataLength);
MOZ_ASSERT(rowPtr + InputSize().width * sizeof(uint32_t) <=
mImageData + mImageDataLength);
return rowPtr;
}
nsresult
PalettedSurfaceSink::Configure(const PalettedSurfaceConfig& aConfig)
{
MOZ_ASSERT(aConfig.mFormat == SurfaceFormat::B8G8R8A8);
// For paletted surfaces, the surface size is the size of the frame rect.
IntSize surfaceSize = aConfig.mFrameRect.Size();
// Allocate the frame.
// XXX(seth): Once every Decoder subclass uses SurfacePipe, we probably want
// to allocate the frame directly here and get rid of Decoder::AllocateFrame
// altogether.
nsresult rv = aConfig.mDecoder->AllocateFrame(aConfig.mFrameNum,
aConfig.mOutputSize,
aConfig.mFrameRect,
aConfig.mFormat,
aConfig.mPaletteDepth);
if (NS_FAILED(rv)) {
return rv;
}
mImageData = aConfig.mDecoder->mImageData;
mImageDataLength = aConfig.mDecoder->mImageDataLength;
mFlipVertically = aConfig.mFlipVertically;
mFrameRect = aConfig.mFrameRect;
MOZ_ASSERT(mImageData);
MOZ_ASSERT(mImageDataLength ==
uint32_t(mFrameRect.width * mFrameRect.height * sizeof(uint8_t)));
ConfigureFilter(surfaceSize, sizeof(uint8_t));
return NS_OK;
}
uint8_t*
PalettedSurfaceSink::GetRowPointer() const
{
// If we're flipping vertically, reverse the order in which we traverse the
// rows.
uint32_t row = mFlipVertically
? InputSize().height - (mRow + 1)
: mRow;
uint8_t* rowPtr = mImageData + row * InputSize().width * sizeof(uint8_t);
MOZ_ASSERT(rowPtr >= mImageData);
MOZ_ASSERT(rowPtr < mImageData + mImageDataLength);
MOZ_ASSERT(rowPtr + InputSize().width * sizeof(uint8_t) <=
mImageData + mImageDataLength);
return rowPtr;
}
} // namespace image
} // namespace mozilla
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