mirror of
https://github.com/mozilla/gecko-dev.git
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598 lines
15 KiB
C++
598 lines
15 KiB
C++
/* -*- Mode: C++; tab-width: 20; indent-tabs-mode: nil; c-basic-offset: 2 -*-
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* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#include "ImageContainer.h"
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#include <string.h> // for memcpy, memset
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#include "SharedTextureImage.h" // for SharedTextureImage
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#include "gfx2DGlue.h"
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#include "gfxImageSurface.h" // for gfxImageSurface
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#include "gfxPlatform.h" // for gfxPlatform
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#include "gfxUtils.h" // for gfxUtils
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#include "mozilla/RefPtr.h" // for TemporaryRef
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#include "mozilla/ipc/CrossProcessMutex.h" // for CrossProcessMutex, etc
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#include "mozilla/layers/CompositorTypes.h"
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#include "mozilla/layers/ImageBridgeChild.h" // for ImageBridgeChild
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#include "mozilla/layers/ImageClient.h" // for ImageClient
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#include "nsISupportsUtils.h" // for NS_IF_ADDREF
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#include "YCbCrUtils.h" // for YCbCr conversions
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#ifdef MOZ_WIDGET_GONK
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#include "GrallocImages.h"
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#endif
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#ifdef XP_MACOSX
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#include "mozilla/gfx/QuartzSupport.h"
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#include "MacIOSurfaceImage.h"
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#endif
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#ifdef XP_WIN
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#include "gfxD2DSurface.h"
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#include "gfxWindowsPlatform.h"
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#include <d3d10_1.h>
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#include "d3d10/ImageLayerD3D10.h"
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#include "D3D9SurfaceImage.h"
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#endif
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using namespace mozilla::ipc;
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using namespace android;
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using mozilla::gfx::DataSourceSurface;
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using mozilla::gfx::SourceSurface;
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namespace mozilla {
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namespace layers {
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class DataSourceSurface;
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class SourceSurface;
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Atomic<int32_t> Image::sSerialCounter(0);
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already_AddRefed<Image>
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ImageFactory::CreateImage(const ImageFormat *aFormats,
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uint32_t aNumFormats,
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const gfx::IntSize &,
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BufferRecycleBin *aRecycleBin)
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{
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if (!aNumFormats) {
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return nullptr;
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}
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nsRefPtr<Image> img;
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#ifdef MOZ_WIDGET_GONK
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if (FormatInList(aFormats, aNumFormats, GRALLOC_PLANAR_YCBCR)) {
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img = new GrallocImage();
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return img.forget();
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}
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#endif
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if (FormatInList(aFormats, aNumFormats, PLANAR_YCBCR)) {
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img = new PlanarYCbCrImage(aRecycleBin);
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return img.forget();
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}
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if (FormatInList(aFormats, aNumFormats, CAIRO_SURFACE)) {
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img = new CairoImage();
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return img.forget();
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}
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if (FormatInList(aFormats, aNumFormats, SHARED_TEXTURE)) {
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img = new SharedTextureImage();
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return img.forget();
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}
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#ifdef XP_MACOSX
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if (FormatInList(aFormats, aNumFormats, MAC_IOSURFACE)) {
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img = new MacIOSurfaceImage();
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return img.forget();
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}
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#endif
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#ifdef XP_WIN
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if (FormatInList(aFormats, aNumFormats, D3D9_RGB32_TEXTURE)) {
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img = new D3D9SurfaceImage();
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return img.forget();
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}
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#endif
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return nullptr;
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}
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BufferRecycleBin::BufferRecycleBin()
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: mLock("mozilla.layers.BufferRecycleBin.mLock")
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{
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}
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void
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BufferRecycleBin::RecycleBuffer(uint8_t* aBuffer, uint32_t aSize)
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{
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MutexAutoLock lock(mLock);
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if (!mRecycledBuffers.IsEmpty() && aSize != mRecycledBufferSize) {
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mRecycledBuffers.Clear();
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}
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mRecycledBufferSize = aSize;
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mRecycledBuffers.AppendElement(aBuffer);
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}
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uint8_t*
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BufferRecycleBin::GetBuffer(uint32_t aSize)
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{
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MutexAutoLock lock(mLock);
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if (mRecycledBuffers.IsEmpty() || mRecycledBufferSize != aSize)
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return new uint8_t[aSize];
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uint32_t last = mRecycledBuffers.Length() - 1;
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uint8_t* result = mRecycledBuffers[last].forget();
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mRecycledBuffers.RemoveElementAt(last);
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return result;
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}
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ImageContainer::ImageContainer(int flag)
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: mReentrantMonitor("ImageContainer.mReentrantMonitor"),
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mPaintCount(0),
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mPreviousImagePainted(false),
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mImageFactory(new ImageFactory()),
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mRecycleBin(new BufferRecycleBin()),
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mRemoteData(nullptr),
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mRemoteDataMutex(nullptr),
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mCompositionNotifySink(nullptr),
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mImageClient(nullptr)
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{
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if (flag == ENABLE_ASYNC && ImageBridgeChild::IsCreated()) {
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// the refcount of this ImageClient is 1. we don't use a RefPtr here because the refcount
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// of this class must be done on the ImageBridge thread.
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if (gfxPlatform::GetPlatform()->UseDeprecatedTextures()) {
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mImageClient = ImageBridgeChild::GetSingleton()->CreateImageClient(BUFFER_IMAGE_BUFFERED).drop();
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} else {
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mImageClient = ImageBridgeChild::GetSingleton()->CreateImageClient(BUFFER_IMAGE_SINGLE).drop();
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}
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MOZ_ASSERT(mImageClient);
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}
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}
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ImageContainer::~ImageContainer()
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{
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if (IsAsync()) {
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ImageBridgeChild::DispatchReleaseImageClient(mImageClient);
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}
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}
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already_AddRefed<Image>
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ImageContainer::CreateImage(const ImageFormat *aFormats,
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uint32_t aNumFormats)
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{
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ReentrantMonitorAutoEnter mon(mReentrantMonitor);
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if (mImageClient) {
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nsRefPtr<Image> img = mImageClient->CreateImage((uint32_t*)aFormats,
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aNumFormats);
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if (img) {
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return img.forget();
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}
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}
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return mImageFactory->CreateImage(aFormats, aNumFormats, mScaleHint, mRecycleBin);
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}
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void
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ImageContainer::SetCurrentImageInternal(Image *aImage)
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{
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ReentrantMonitorAutoEnter mon(mReentrantMonitor);
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if (mRemoteData) {
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NS_ASSERTION(mRemoteDataMutex, "Should have remote data mutex when having remote data!");
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mRemoteDataMutex->Lock();
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// This is important since it ensures we won't change the active image
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// when we currently have a locked image that depends on mRemoteData.
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}
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mActiveImage = aImage;
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CurrentImageChanged();
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if (mRemoteData) {
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mRemoteDataMutex->Unlock();
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}
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}
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void
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ImageContainer::ClearCurrentImage()
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{
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ReentrantMonitorAutoEnter mon(mReentrantMonitor);
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SetCurrentImageInternal(nullptr);
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}
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void
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ImageContainer::SetCurrentImage(Image *aImage)
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{
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if (!aImage) {
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ClearAllImages();
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return;
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}
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ReentrantMonitorAutoEnter mon(mReentrantMonitor);
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if (IsAsync()) {
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ImageBridgeChild::DispatchImageClientUpdate(mImageClient, this);
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}
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SetCurrentImageInternal(aImage);
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}
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void
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ImageContainer::ClearAllImages()
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{
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if (IsAsync()) {
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// Let ImageClient release all TextureClients.
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ImageBridgeChild::FlushAllImages(mImageClient, this, false);
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return;
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}
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ReentrantMonitorAutoEnter mon(mReentrantMonitor);
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SetCurrentImageInternal(nullptr);
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}
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void
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ImageContainer::ClearAllImagesExceptFront()
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{
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if (IsAsync()) {
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// Let ImageClient release all TextureClients except front one.
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ImageBridgeChild::FlushAllImages(mImageClient, this, true);
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}
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}
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void
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ImageContainer::SetCurrentImageInTransaction(Image *aImage)
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{
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NS_ASSERTION(NS_IsMainThread(), "Should be on main thread.");
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NS_ASSERTION(!mImageClient, "Should use async image transfer with ImageBridge.");
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SetCurrentImageInternal(aImage);
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}
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bool ImageContainer::IsAsync() const {
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return mImageClient != nullptr;
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}
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uint64_t ImageContainer::GetAsyncContainerID() const
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{
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NS_ASSERTION(IsAsync(),"Shared image ID is only relevant to async ImageContainers");
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if (IsAsync()) {
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return mImageClient->GetAsyncID();
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} else {
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return 0; // zero is always an invalid AsyncID
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}
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}
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bool
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ImageContainer::HasCurrentImage()
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{
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ReentrantMonitorAutoEnter mon(mReentrantMonitor);
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if (mRemoteData) {
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CrossProcessMutexAutoLock autoLock(*mRemoteDataMutex);
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EnsureActiveImage();
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return !!mActiveImage.get();
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}
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return !!mActiveImage.get();
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}
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already_AddRefed<Image>
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ImageContainer::LockCurrentImage()
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{
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ReentrantMonitorAutoEnter mon(mReentrantMonitor);
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if (mRemoteData) {
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NS_ASSERTION(mRemoteDataMutex, "Should have remote data mutex when having remote data!");
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mRemoteDataMutex->Lock();
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}
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EnsureActiveImage();
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nsRefPtr<Image> retval = mActiveImage;
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return retval.forget();
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}
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already_AddRefed<gfxASurface>
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ImageContainer::LockCurrentAsSurface(gfx::IntSize *aSize, Image** aCurrentImage)
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{
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ReentrantMonitorAutoEnter mon(mReentrantMonitor);
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if (mRemoteData) {
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NS_ASSERTION(mRemoteDataMutex, "Should have remote data mutex when having remote data!");
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mRemoteDataMutex->Lock();
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EnsureActiveImage();
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if (aCurrentImage) {
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NS_IF_ADDREF(mActiveImage);
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*aCurrentImage = mActiveImage.get();
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}
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if (!mActiveImage) {
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return nullptr;
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}
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if (mActiveImage->GetFormat() == REMOTE_IMAGE_BITMAP) {
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nsRefPtr<gfxImageSurface> newSurf =
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new gfxImageSurface(mRemoteData->mBitmap.mData, mRemoteData->mSize, mRemoteData->mBitmap.mStride,
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mRemoteData->mFormat == RemoteImageData::BGRX32 ?
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gfxImageFormatARGB32 :
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gfxImageFormatRGB24);
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*aSize = newSurf->GetSize();
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return newSurf.forget();
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}
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*aSize = mActiveImage->GetSize();
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return mActiveImage->GetAsSurface();
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}
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if (aCurrentImage) {
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NS_IF_ADDREF(mActiveImage);
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*aCurrentImage = mActiveImage.get();
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}
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if (!mActiveImage) {
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return nullptr;
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}
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*aSize = mActiveImage->GetSize();
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return mActiveImage->GetAsSurface();
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}
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void
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ImageContainer::UnlockCurrentImage()
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{
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if (mRemoteData) {
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NS_ASSERTION(mRemoteDataMutex, "Should have remote data mutex when having remote data!");
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mRemoteDataMutex->Unlock();
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}
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}
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already_AddRefed<gfxASurface>
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ImageContainer::GetCurrentAsSurface(gfx::IntSize *aSize)
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{
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ReentrantMonitorAutoEnter mon(mReentrantMonitor);
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if (mRemoteData) {
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CrossProcessMutexAutoLock autoLock(*mRemoteDataMutex);
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EnsureActiveImage();
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if (!mActiveImage)
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return nullptr;
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*aSize = mRemoteData->mSize;
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} else {
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if (!mActiveImage)
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return nullptr;
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*aSize = mActiveImage->GetSize();
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}
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return mActiveImage->GetAsSurface();
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}
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gfx::IntSize
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ImageContainer::GetCurrentSize()
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{
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ReentrantMonitorAutoEnter mon(mReentrantMonitor);
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if (mRemoteData) {
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CrossProcessMutexAutoLock autoLock(*mRemoteDataMutex);
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// We don't need to ensure we have an active image here, as we need to
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// be in the mutex anyway, and this is easiest to return from there.
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return mRemoteData->mSize;
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}
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if (!mActiveImage) {
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return gfxIntSize(0,0);
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}
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return mActiveImage->GetSize();
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}
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void
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ImageContainer::SetRemoteImageData(RemoteImageData *aData, CrossProcessMutex *aMutex)
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{
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ReentrantMonitorAutoEnter mon(mReentrantMonitor);
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NS_ASSERTION(!mActiveImage || !aData, "No active image expected when SetRemoteImageData is called with non-NULL aData.");
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NS_ASSERTION(!mRemoteData || !aData, "No remote data expected when SetRemoteImageData is called with non-NULL aData.");
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mRemoteData = aData;
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if (aData) {
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memset(aData, 0, sizeof(RemoteImageData));
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} else {
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mActiveImage = nullptr;
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}
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mRemoteDataMutex = aMutex;
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}
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void
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ImageContainer::EnsureActiveImage()
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{
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if (mRemoteData) {
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if (mRemoteData->mWasUpdated) {
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mActiveImage = nullptr;
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}
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if (mRemoteData->mType == RemoteImageData::RAW_BITMAP &&
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mRemoteData->mBitmap.mData && !mActiveImage) {
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nsRefPtr<RemoteBitmapImage> newImg = new RemoteBitmapImage();
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newImg->mFormat = mRemoteData->mFormat;
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newImg->mData = mRemoteData->mBitmap.mData;
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newImg->mSize = mRemoteData->mSize;
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newImg->mStride = mRemoteData->mBitmap.mStride;
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mRemoteData->mWasUpdated = false;
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mActiveImage = newImg;
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}
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#ifdef XP_WIN
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else if (mRemoteData->mType == RemoteImageData::DXGI_TEXTURE_HANDLE &&
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mRemoteData->mTextureHandle && !mActiveImage) {
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nsRefPtr<RemoteDXGITextureImage> newImg = new RemoteDXGITextureImage();
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newImg->mSize = mRemoteData->mSize;
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newImg->mHandle = mRemoteData->mTextureHandle;
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newImg->mFormat = mRemoteData->mFormat;
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mRemoteData->mWasUpdated = false;
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mActiveImage = newImg;
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}
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#endif
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}
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}
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PlanarYCbCrImage::PlanarYCbCrImage(BufferRecycleBin *aRecycleBin)
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: Image(nullptr, PLANAR_YCBCR)
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, mBufferSize(0)
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, mOffscreenFormat(gfxImageFormatUnknown)
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, mRecycleBin(aRecycleBin)
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{
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}
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PlanarYCbCrImage::~PlanarYCbCrImage()
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{
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if (mBuffer) {
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mRecycleBin->RecycleBuffer(mBuffer.forget(), mBufferSize);
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}
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}
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uint8_t*
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PlanarYCbCrImage::AllocateBuffer(uint32_t aSize)
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{
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return mRecycleBin->GetBuffer(aSize);
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}
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static void
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CopyPlane(uint8_t *aDst, const uint8_t *aSrc,
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const gfxIntSize &aSize, int32_t aStride, int32_t aSkip)
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{
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if (!aSkip) {
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// Fast path: planar input.
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memcpy(aDst, aSrc, aSize.height * aStride);
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} else {
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int32_t height = aSize.height;
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int32_t width = aSize.width;
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for (int y = 0; y < height; ++y) {
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const uint8_t *src = aSrc;
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uint8_t *dst = aDst;
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// Slow path
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for (int x = 0; x < width; ++x) {
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*dst++ = *src++;
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src += aSkip;
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}
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aSrc += aStride;
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aDst += aStride;
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}
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}
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}
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void
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PlanarYCbCrImage::CopyData(const Data& aData)
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{
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mData = aData;
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// update buffer size
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size_t size = mData.mCbCrStride * mData.mCbCrSize.height * 2 +
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mData.mYStride * mData.mYSize.height;
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// get new buffer
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mBuffer = AllocateBuffer(size);
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if (!mBuffer)
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return;
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// update buffer size
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mBufferSize = size;
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mData.mYChannel = mBuffer;
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mData.mCbChannel = mData.mYChannel + mData.mYStride * mData.mYSize.height;
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mData.mCrChannel = mData.mCbChannel + mData.mCbCrStride * mData.mCbCrSize.height;
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CopyPlane(mData.mYChannel, aData.mYChannel,
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mData.mYSize, mData.mYStride, mData.mYSkip);
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CopyPlane(mData.mCbChannel, aData.mCbChannel,
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mData.mCbCrSize, mData.mCbCrStride, mData.mCbSkip);
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CopyPlane(mData.mCrChannel, aData.mCrChannel,
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mData.mCbCrSize, mData.mCbCrStride, mData.mCrSkip);
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mSize = aData.mPicSize;
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}
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void
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PlanarYCbCrImage::SetData(const Data &aData)
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{
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CopyData(aData);
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}
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gfxImageFormat
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PlanarYCbCrImage::GetOffscreenFormat()
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{
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return mOffscreenFormat == gfxImageFormatUnknown ?
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gfxPlatform::GetPlatform()->GetOffscreenFormat() :
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mOffscreenFormat;
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}
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void
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PlanarYCbCrImage::SetDataNoCopy(const Data &aData)
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{
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mData = aData;
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mSize = aData.mPicSize;
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}
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uint8_t*
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PlanarYCbCrImage::AllocateAndGetNewBuffer(uint32_t aSize)
|
|
{
|
|
// get new buffer
|
|
mBuffer = AllocateBuffer(aSize);
|
|
if (mBuffer) {
|
|
// update buffer size
|
|
mBufferSize = aSize;
|
|
}
|
|
return mBuffer;
|
|
}
|
|
|
|
already_AddRefed<gfxASurface>
|
|
PlanarYCbCrImage::GetAsSurface()
|
|
{
|
|
if (mSurface) {
|
|
nsRefPtr<gfxASurface> result = mSurface.get();
|
|
return result.forget();
|
|
}
|
|
|
|
gfx::SurfaceFormat format = gfx::ImageFormatToSurfaceFormat(GetOffscreenFormat());
|
|
gfx::IntSize size(mSize);
|
|
gfx::GetYCbCrToRGBDestFormatAndSize(mData, format, size);
|
|
if (size.width > PlanarYCbCrImage::MAX_DIMENSION ||
|
|
size.height > PlanarYCbCrImage::MAX_DIMENSION) {
|
|
NS_ERROR("Illegal image dest width or height");
|
|
return nullptr;
|
|
}
|
|
|
|
nsRefPtr<gfxImageSurface> imageSurface =
|
|
new gfxImageSurface(gfx::ThebesIntSize(mSize), gfx::SurfaceFormatToImageFormat(format));
|
|
|
|
gfx::ConvertYCbCrToRGB(mData, format, mSize, imageSurface->Data(), imageSurface->Stride());
|
|
|
|
mSurface = imageSurface;
|
|
|
|
return imageSurface.forget();
|
|
}
|
|
|
|
already_AddRefed<gfxASurface>
|
|
RemoteBitmapImage::GetAsSurface()
|
|
{
|
|
nsRefPtr<gfxImageSurface> newSurf =
|
|
new gfxImageSurface(mSize,
|
|
mFormat == RemoteImageData::BGRX32 ? gfxImageFormatRGB24 : gfxImageFormatARGB32);
|
|
|
|
for (int y = 0; y < mSize.height; y++) {
|
|
memcpy(newSurf->Data() + newSurf->Stride() * y,
|
|
mData + mStride * y,
|
|
mSize.width * 4);
|
|
}
|
|
|
|
return newSurf.forget();
|
|
}
|
|
|
|
} // namespace
|
|
} // namespace
|