зеркало из https://github.com/mozilla/gecko-dev.git
324 строки
10 KiB
C++
324 строки
10 KiB
C++
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
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/* vim: set ts=8 sts=2 et sw=2 tw=80: */
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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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#ifndef MOZILLA_GFX_DCLAYER_TREE_H
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#define MOZILLA_GFX_DCLAYER_TREE_H
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#include <dxgiformat.h>
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#include <unordered_map>
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#include <vector>
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#include <windows.h>
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#include "GLTypes.h"
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#include "mozilla/HashFunctions.h"
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#include "mozilla/layers/OverlayInfo.h"
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#include "mozilla/Maybe.h"
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#include "mozilla/RefPtr.h"
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#include "mozilla/UniquePtr.h"
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#include "mozilla/webrender/WebRenderTypes.h"
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struct ID3D11Device;
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struct ID3D11DeviceContext;
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struct ID3D11VideoDevice;
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struct ID3D11VideoContext;
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struct ID3D11VideoProcessor;
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struct ID3D11VideoProcessorEnumerator;
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struct ID3D11VideoProcessorOutputView;
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struct IDCompositionDevice2;
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struct IDCompositionSurface;
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struct IDCompositionTarget;
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struct IDCompositionVisual2;
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struct IDXGIDecodeSwapChain;
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struct IDXGIResource;
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struct IDXGISwapChain1;
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struct IDCompositionVirtualSurface;
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namespace mozilla {
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namespace gl {
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class GLContext;
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}
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namespace wr {
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// The size of the virtual surface. This is large enough such that we
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// will never render a surface larger than this.
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#define VIRTUAL_SURFACE_SIZE (1024 * 1024)
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class DCTile;
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class DCSurface;
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class DCSurfaceVideo;
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class RenderTextureHost;
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struct GpuOverlayInfo {
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bool mSupportsOverlays = false;
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bool mSupportsHardwareOverlays = false;
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DXGI_FORMAT mOverlayFormatUsed = DXGI_FORMAT_B8G8R8A8_UNORM;
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DXGI_FORMAT mOverlayFormatUsedHdr = DXGI_FORMAT_R10G10B10A2_UNORM;
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UINT mNv12OverlaySupportFlags = 0;
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UINT mYuy2OverlaySupportFlags = 0;
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UINT mBgra8OverlaySupportFlags = 0;
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UINT mRgb10a2OverlaySupportFlags = 0;
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};
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/**
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* DCLayerTree manages direct composition layers.
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* It does not manage gecko's layers::Layer.
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*/
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class DCLayerTree {
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public:
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static UniquePtr<DCLayerTree> Create(gl::GLContext* aGL, EGLConfig aEGLConfig,
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ID3D11Device* aDevice,
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ID3D11DeviceContext* aCtx, HWND aHwnd,
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nsACString& aError);
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static void Shutdown();
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explicit DCLayerTree(gl::GLContext* aGL, EGLConfig aEGLConfig,
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ID3D11Device* aDevice, ID3D11DeviceContext* aCtx,
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IDCompositionDevice2* aCompositionDevice);
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~DCLayerTree();
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void SetDefaultSwapChain(IDXGISwapChain1* aSwapChain);
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void MaybeUpdateDebug();
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void MaybeCommit();
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void WaitForCommitCompletion();
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void DisableNativeCompositor();
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// Interface for wr::Compositor
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void CompositorBeginFrame();
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void CompositorEndFrame();
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void Bind(wr::NativeTileId aId, wr::DeviceIntPoint* aOffset, uint32_t* aFboId,
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wr::DeviceIntRect aDirtyRect, wr::DeviceIntRect aValidRect);
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void Unbind();
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void CreateSurface(wr::NativeSurfaceId aId, wr::DeviceIntPoint aVirtualOffset,
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wr::DeviceIntSize aTileSize, bool aIsOpaque);
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void CreateExternalSurface(wr::NativeSurfaceId aId, bool aIsOpaque);
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void DestroySurface(NativeSurfaceId aId);
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void CreateTile(wr::NativeSurfaceId aId, int32_t aX, int32_t aY);
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void DestroyTile(wr::NativeSurfaceId aId, int32_t aX, int32_t aY);
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void AttachExternalImage(wr::NativeSurfaceId aId,
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wr::ExternalImageId aExternalImage);
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void AddSurface(wr::NativeSurfaceId aId,
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const wr::CompositorSurfaceTransform& aTransform,
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wr::DeviceIntRect aClipRect,
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wr::ImageRendering aImageRendering);
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gl::GLContext* GetGLContext() const { return mGL; }
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EGLConfig GetEGLConfig() const { return mEGLConfig; }
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ID3D11Device* GetDevice() const { return mDevice; }
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IDCompositionDevice2* GetCompositionDevice() const {
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return mCompositionDevice;
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}
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ID3D11VideoDevice* GetVideoDevice() const { return mVideoDevice; }
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ID3D11VideoContext* GetVideoContext() const { return mVideoContext; }
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ID3D11VideoProcessor* GetVideoProcessor() const { return mVideoProcessor; }
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ID3D11VideoProcessorEnumerator* GetVideoProcessorEnumerator() const {
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return mVideoProcessorEnumerator;
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}
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bool EnsureVideoProcessor(const gfx::IntSize& aInputSize,
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const gfx::IntSize& aOutputSize);
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DCSurface* GetSurface(wr::NativeSurfaceId aId) const;
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// Get or create an FBO with depth buffer suitable for specified dimensions
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GLuint GetOrCreateFbo(int aWidth, int aHeight);
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bool SupportsHardwareOverlays();
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DXGI_FORMAT GetOverlayFormatForSDR();
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protected:
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bool Initialize(HWND aHwnd, nsACString& aError);
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bool InitializeVideoOverlaySupport();
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bool MaybeUpdateDebugCounter();
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bool MaybeUpdateDebugVisualRedrawRegions();
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void DestroyEGLSurface();
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GLuint CreateEGLSurfaceForCompositionSurface(
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wr::DeviceIntRect aDirtyRect, wr::DeviceIntPoint* aOffset,
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RefPtr<IDCompositionSurface> aCompositionSurface,
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wr::DeviceIntPoint aSurfaceOffset);
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void ReleaseNativeCompositorResources();
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layers::OverlayInfo GetOverlayInfo();
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RefPtr<gl::GLContext> mGL;
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EGLConfig mEGLConfig;
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RefPtr<ID3D11Device> mDevice;
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RefPtr<ID3D11DeviceContext> mCtx;
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RefPtr<IDCompositionDevice2> mCompositionDevice;
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RefPtr<IDCompositionTarget> mCompositionTarget;
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RefPtr<IDCompositionVisual2> mRootVisual;
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RefPtr<IDCompositionVisual2> mDefaultSwapChainVisual;
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RefPtr<ID3D11VideoDevice> mVideoDevice;
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RefPtr<ID3D11VideoContext> mVideoContext;
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RefPtr<ID3D11VideoProcessor> mVideoProcessor;
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RefPtr<ID3D11VideoProcessorEnumerator> mVideoProcessorEnumerator;
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gfx::IntSize mVideoInputSize;
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gfx::IntSize mVideoOutputSize;
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bool mDebugCounter;
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bool mDebugVisualRedrawRegions;
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Maybe<RefPtr<IDCompositionSurface>> mCurrentSurface;
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// The EGL image that is bound to the D3D texture provided by
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// DirectComposition.
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EGLImage mEGLImage;
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// The GL render buffer ID that maps the EGLImage to an RBO for attaching to
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// an FBO.
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GLuint mColorRBO;
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struct SurfaceIdHashFn {
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std::size_t operator()(const wr::NativeSurfaceId& aId) const {
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return HashGeneric(wr::AsUint64(aId));
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}
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};
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std::unordered_map<wr::NativeSurfaceId, UniquePtr<DCSurface>, SurfaceIdHashFn>
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mDCSurfaces;
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// A list of layer IDs as they are added to the visual tree this frame.
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std::vector<wr::NativeSurfaceId> mCurrentLayers;
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// The previous frame's list of layer IDs in visual order.
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std::vector<wr::NativeSurfaceId> mPrevLayers;
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// Information about a cached FBO that is retained between frames.
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struct CachedFrameBuffer {
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int width;
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int height;
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GLuint fboId;
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GLuint depthRboId;
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int lastFrameUsed;
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};
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// A cache of FBOs, containing a depth buffer allocated to a specific size.
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// TODO(gw): Might be faster as a hashmap? The length is typically much less
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// than 10.
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nsTArray<CachedFrameBuffer> mFrameBuffers;
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int mCurrentFrame = 0;
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bool mPendingCommit;
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static UniquePtr<GpuOverlayInfo> sGpuOverlayInfo;
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};
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/**
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Represents a single picture cache slice. Each surface contains some
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number of tiles. An implementation may choose to allocate individual
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tiles to render in to (as the current impl does), or allocate a large
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single virtual surface to draw into (e.g. the DirectComposition virtual
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surface API in future).
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*/
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class DCSurface {
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public:
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explicit DCSurface(wr::DeviceIntSize aTileSize,
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wr::DeviceIntPoint aVirtualOffset, bool aIsOpaque,
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DCLayerTree* aDCLayerTree);
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virtual ~DCSurface();
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bool Initialize();
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void CreateTile(int32_t aX, int32_t aY);
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void DestroyTile(int32_t aX, int32_t aY);
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IDCompositionVisual2* GetVisual() const { return mVisual; }
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DCTile* GetTile(int32_t aX, int32_t aY) const;
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struct TileKey {
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TileKey(int32_t aX, int32_t aY) : mX(aX), mY(aY) {}
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int32_t mX;
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int32_t mY;
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};
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wr::DeviceIntSize GetTileSize() const { return mTileSize; }
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wr::DeviceIntPoint GetVirtualOffset() const { return mVirtualOffset; }
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IDCompositionVirtualSurface* GetCompositionSurface() const {
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return mVirtualSurface;
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}
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void UpdateAllocatedRect();
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void DirtyAllocatedRect();
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virtual DCSurfaceVideo* AsDCSurfaceVideo() { return nullptr; }
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protected:
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DCLayerTree* mDCLayerTree;
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struct TileKeyHashFn {
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std::size_t operator()(const TileKey& aId) const {
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return HashGeneric(aId.mX, aId.mY);
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}
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};
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// The visual for this surface. No content is attached to here, but tiles
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// that belong to this surface are added as children. In this way, we can
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// set the clip and scroll offset once, on this visual, to affect all
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// children.
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RefPtr<IDCompositionVisual2> mVisual;
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wr::DeviceIntSize mTileSize;
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bool mIsOpaque;
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bool mAllocatedRectDirty;
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std::unordered_map<TileKey, UniquePtr<DCTile>, TileKeyHashFn> mDCTiles;
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wr::DeviceIntPoint mVirtualOffset;
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RefPtr<IDCompositionVirtualSurface> mVirtualSurface;
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};
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class DCSurfaceVideo : public DCSurface {
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public:
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DCSurfaceVideo(bool aIsOpaque, DCLayerTree* aDCLayerTree);
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void AttachExternalImage(wr::ExternalImageId aExternalImage);
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bool CalculateSwapChainSize(gfx::Matrix& aTransform);
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void PresentVideo();
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DCSurfaceVideo* AsDCSurfaceVideo() override { return this; }
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protected:
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DXGI_FORMAT GetSwapChainFormat();
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bool CreateVideoSwapChain();
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bool CallVideoProcessorBlt();
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void ReleaseDecodeSwapChainResources();
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RefPtr<ID3D11VideoProcessorOutputView> mOutputView;
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RefPtr<IDXGIResource> mDecodeResource;
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RefPtr<IDXGISwapChain1> mVideoSwapChain;
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RefPtr<IDXGIDecodeSwapChain> mDecodeSwapChain;
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HANDLE mSwapChainSurfaceHandle = 0;
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gfx::IntSize mVideoSize;
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gfx::IntSize mSwapChainSize;
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DXGI_FORMAT mSwapChainFormat = DXGI_FORMAT_B8G8R8A8_UNORM;
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bool mFailedYuvSwapChain = false;
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RefPtr<RenderTextureHost> mRenderTextureHost;
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RefPtr<RenderTextureHost> mPrevTexture;
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};
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class DCTile {
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public:
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explicit DCTile(DCLayerTree* aDCLayerTree);
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~DCTile();
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bool Initialize(int aX, int aY, wr::DeviceIntSize aSize, bool aIsOpaque);
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gfx::IntRect mValidRect;
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DCLayerTree* mDCLayerTree;
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};
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static inline bool operator==(const DCSurface::TileKey& a0,
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const DCSurface::TileKey& a1) {
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return a0.mX == a1.mX && a0.mY == a1.mY;
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}
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} // namespace wr
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} // namespace mozilla
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#endif
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