зеркало из https://github.com/mozilla/gecko-dev.git
457 строки
19 KiB
Objective-C
457 строки
19 KiB
Objective-C
/* -*- Mode: C++; tab-width: 2; 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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#ifndef mozilla_layers_NativeLayerCA_h
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#define mozilla_layers_NativeLayerCA_h
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#include <IOSurface/IOSurface.h>
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#include <deque>
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#include <unordered_map>
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#include <ostream>
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#include "mozilla/Mutex.h"
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#include "mozilla/TimeStamp.h"
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#include "mozilla/gfx/MacIOSurface.h"
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#include "mozilla/layers/NativeLayer.h"
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#include "CFTypeRefPtr.h"
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#include "nsRegion.h"
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#include "nsISupportsImpl.h"
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#ifdef __OBJC__
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@class CALayer;
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#else
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typedef void CALayer;
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#endif
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namespace mozilla {
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namespace gl {
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class GLContextCGL;
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class MozFramebuffer;
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} // namespace gl
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namespace wr {
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class RenderMacIOSurfaceTextureHost;
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} // namespace wr
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namespace layers {
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class NativeLayerRootSnapshotterCA;
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class SurfacePoolHandleCA;
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// NativeLayerRootCA is the CoreAnimation implementation of the NativeLayerRoot
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// interface. A NativeLayerRootCA is created by the widget around an existing
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// CALayer with a call to CreateForCALayer - this CALayer is the root of the
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// "onscreen" representation of this layer tree.
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// All methods can be called from any thread, there is internal locking.
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// All effects from mutating methods are buffered locally and don't modify the
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// underlying CoreAnimation layers until CommitToScreen() is called. This
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// ensures that the modifications happen on the right thread.
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//
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// More specifically: During normal operation, screen updates are driven from a
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// compositing thread. On this thread, the layers are created / destroyed, their
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// contents are painted, and the result is committed to the screen. However,
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// there are some scenarios that need to involve the main thread, most notably
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// window resizing: During a window resize, we still need the drawing part to
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// happen on the compositing thread, but the modifications to the underlying
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// CALayers need to happen on the main thread, once compositing is done.
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//
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// NativeLayerRootCA + NativeLayerCA create and maintain *two* CALayer tree
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// representations: An "onscreen" representation and an "offscreen"
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// representation. These representations are updated via calls to
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// CommitToScreen() and CommitOffscreen(), respectively. The reason for having
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// two representations is the following: Our implementation of the snapshotter
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// API uses CARenderer, which lets us render the composited result of our layer
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// tree into a GPU buffer. But CARenderer requires "ownership" of the rendered
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// CALayers in the sense that it associates the CALayers with a local
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// "CAContext". A CALayer can only be associated with one CAContext at any time.
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// If we wanted te render our *onscreen* CALayers with CARenderer, we would need
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// to remove them from the window, reparent them to the CARenderer, render them,
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// and then put them back into the window. This would lead to a visible flashing
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// effect. To solve this problem, we build two CALayer representations, so that
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// one representation can stay inside the window and the other can stay attached
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// to the CARenderer.
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class NativeLayerRootCA : public NativeLayerRoot {
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public:
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static already_AddRefed<NativeLayerRootCA> CreateForCALayer(CALayer* aLayer);
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virtual NativeLayerRootCA* AsNativeLayerRootCA() override { return this; }
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// Can be called on any thread at any point. Returns whether comitting was
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// successful. Will return false if called off the main thread while
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// off-main-thread commits are suspended.
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bool CommitToScreen() override;
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void CommitOffscreen();
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void OnNativeLayerRootSnapshotterDestroyed(
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NativeLayerRootSnapshotterCA* aNativeLayerRootSnapshotter);
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// Enters a mode during which CommitToScreen(), when called on a non-main
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// thread, will not apply any updates to the CALayer tree.
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void SuspendOffMainThreadCommits();
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// Exits the mode entered by SuspendOffMainThreadCommits().
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// Returns true if the last CommitToScreen() was canceled due to suspension,
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// indicating that another call to CommitToScreen() is needed.
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bool UnsuspendOffMainThreadCommits();
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bool AreOffMainThreadCommitsSuspended();
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void DumpLayerTreeToFile(const char* aPath);
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enum class WhichRepresentation : uint8_t { ONSCREEN, OFFSCREEN };
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// Overridden methods
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already_AddRefed<NativeLayer> CreateLayer(
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const gfx::IntSize& aSize, bool aIsOpaque,
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SurfacePoolHandle* aSurfacePoolHandle) override;
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void AppendLayer(NativeLayer* aLayer) override;
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void RemoveLayer(NativeLayer* aLayer) override;
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void SetLayers(const nsTArray<RefPtr<NativeLayer>>& aLayers) override;
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UniquePtr<NativeLayerRootSnapshotter> CreateSnapshotter() override;
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void SetBackingScale(float aBackingScale);
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float BackingScale();
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already_AddRefed<NativeLayer> CreateLayerForExternalTexture(
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bool aIsOpaque) override;
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void SetWindowIsFullscreen(bool aFullscreen);
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void NoteMouseMoveAtTime(const TimeStamp& aTime);
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protected:
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explicit NativeLayerRootCA(CALayer* aLayer);
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~NativeLayerRootCA() override;
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struct Representation {
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explicit Representation(CALayer* aRootCALayer);
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~Representation();
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void Commit(WhichRepresentation aRepresentation,
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const nsTArray<RefPtr<NativeLayerCA>>& aSublayers,
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bool aWindowIsFullscreen, bool aMouseMovedRecently);
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CALayer* FindVideoLayerToIsolate(
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WhichRepresentation aRepresentation,
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const nsTArray<RefPtr<NativeLayerCA>>& aSublayers);
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CALayer* mRootCALayer = nullptr; // strong
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bool mIsIsolatingVideo = false;
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bool mMutatedLayerStructure = false;
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bool mMutatedMouseMovedRecently = false;
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};
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template <typename F>
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void ForAllRepresentations(F aFn);
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void UpdateMouseMovedRecently(const MutexAutoLock& aProofOfLock);
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Mutex mMutex MOZ_UNANNOTATED; // protects all other fields
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Representation mOnscreenRepresentation;
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Representation mOffscreenRepresentation;
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NativeLayerRootSnapshotterCA* mWeakSnapshotter = nullptr;
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nsTArray<RefPtr<NativeLayerCA>> mSublayers; // in z-order
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float mBackingScale = 1.0f;
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bool mMutated = false;
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// While mOffMainThreadCommitsSuspended is true, no commits
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// should happen on a non-main thread, because they might race with
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// main-thread driven updates such as window shape changes, and cause
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// glitches.
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bool mOffMainThreadCommitsSuspended = false;
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// Set to true if CommitToScreen() was aborted because of commit suspension.
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// Set to false when CommitToScreen() completes successfully. When true,
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// indicates that CommitToScreen() needs to be called at the next available
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// opportunity.
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bool mCommitPending = false;
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// Updated by the layer's view's window to match the fullscreen state
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// of that window.
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bool mWindowIsFullscreen = false;
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// Updated by the layer's view's window call to NoteMouseMoveAtTime().
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TimeStamp mLastMouseMoveTime;
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// Has the mouse recently moved?
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bool mMouseMovedRecently = false;
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};
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class RenderSourceNLRS;
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class NativeLayerRootSnapshotterCA final : public NativeLayerRootSnapshotter {
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public:
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static UniquePtr<NativeLayerRootSnapshotterCA> Create(
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NativeLayerRootCA* aLayerRoot, CALayer* aRootCALayer);
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virtual ~NativeLayerRootSnapshotterCA();
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bool ReadbackPixels(const gfx::IntSize& aReadbackSize,
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gfx::SurfaceFormat aReadbackFormat,
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const Range<uint8_t>& aReadbackBuffer) override;
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already_AddRefed<profiler_screenshots::RenderSource> GetWindowContents(
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const gfx::IntSize& aWindowSize) override;
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already_AddRefed<profiler_screenshots::DownscaleTarget> CreateDownscaleTarget(
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const gfx::IntSize& aSize) override;
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already_AddRefed<profiler_screenshots::AsyncReadbackBuffer>
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CreateAsyncReadbackBuffer(const gfx::IntSize& aSize) override;
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protected:
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NativeLayerRootSnapshotterCA(NativeLayerRootCA* aLayerRoot,
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RefPtr<gl::GLContext>&& aGL,
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CALayer* aRootCALayer);
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void UpdateSnapshot(const gfx::IntSize& aSize);
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RefPtr<NativeLayerRootCA> mLayerRoot;
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RefPtr<gl::GLContext> mGL;
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// Can be null. Created and updated in UpdateSnapshot.
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RefPtr<RenderSourceNLRS> mSnapshot;
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CARenderer* mRenderer = nullptr; // strong
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};
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// NativeLayerCA wraps a CALayer and lets you draw to it. It ensures that only
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// fully-drawn frames make their way to the screen, by maintaining a swap chain
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// of IOSurfaces.
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// All calls to mutating methods are buffered, and don't take effect on the
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// underlying CoreAnimation layers until ApplyChanges() is called.
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// The two most important methods are NextSurface and NotifySurfaceReady:
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// NextSurface takes an available surface from the swap chain or creates a new
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// surface if necessary. This surface can then be drawn to. Once drawing is
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// finished, NotifySurfaceReady marks the surface as ready. This surface is
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// committed to the layer during the next call to ApplyChanges().
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// The swap chain keeps track of invalid areas within the surfaces.
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class NativeLayerCA : public NativeLayer {
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public:
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virtual NativeLayerCA* AsNativeLayerCA() override { return this; }
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// Overridden methods
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gfx::IntSize GetSize() override;
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void SetPosition(const gfx::IntPoint& aPosition) override;
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gfx::IntPoint GetPosition() override;
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void SetTransform(const gfx::Matrix4x4& aTransform) override;
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gfx::Matrix4x4 GetTransform() override;
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gfx::IntRect GetRect() override;
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void SetSamplingFilter(gfx::SamplingFilter aSamplingFilter) override;
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RefPtr<gfx::DrawTarget> NextSurfaceAsDrawTarget(
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const gfx::IntRect& aDisplayRect, const gfx::IntRegion& aUpdateRegion,
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gfx::BackendType aBackendType) override;
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Maybe<GLuint> NextSurfaceAsFramebuffer(const gfx::IntRect& aDisplayRect,
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const gfx::IntRegion& aUpdateRegion,
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bool aNeedsDepth) override;
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void NotifySurfaceReady() override;
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void DiscardBackbuffers() override;
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bool IsOpaque() override;
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void SetClipRect(const Maybe<gfx::IntRect>& aClipRect) override;
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Maybe<gfx::IntRect> ClipRect() override;
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gfx::IntRect CurrentSurfaceDisplayRect() override;
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void SetSurfaceIsFlipped(bool aIsFlipped) override;
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bool SurfaceIsFlipped() override;
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void DumpLayer(std::ostream& aOutputStream);
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void AttachExternalImage(wr::RenderTextureHost* aExternalImage) override;
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void SetRootWindowIsFullscreen(bool aFullscreen);
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protected:
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friend class NativeLayerRootCA;
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NativeLayerCA(const gfx::IntSize& aSize, bool aIsOpaque,
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SurfacePoolHandleCA* aSurfacePoolHandle);
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explicit NativeLayerCA(bool aIsOpaque);
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~NativeLayerCA() override;
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// Gets the next surface for drawing from our swap chain and stores it in
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// mInProgressSurface. Returns whether this was successful.
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// mInProgressSurface is guaranteed to be not in use by the window server.
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// After a call to NextSurface, NextSurface must not be called again until
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// after NotifySurfaceReady has been called. Can be called on any thread. When
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// used from multiple threads, callers need to make sure that they still only
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// call NextSurface and NotifySurfaceReady alternatingly and not in any other
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// order.
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bool NextSurface(const MutexAutoLock& aProofOfLock);
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// To be called by NativeLayerRootCA:
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typedef NativeLayerRootCA::WhichRepresentation WhichRepresentation;
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CALayer* UnderlyingCALayer(WhichRepresentation aRepresentation);
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enum class UpdateType {
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None, // Order is important. Each enum must fully encompass the
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OnlyVideo, // work implied by the previous enums.
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All,
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};
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UpdateType HasUpdate(WhichRepresentation aRepresentation);
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bool WillUpdateAffectLayers(WhichRepresentation aRepresentation);
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bool ApplyChanges(WhichRepresentation aRepresentation, UpdateType aUpdate);
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void SetBackingScale(float aBackingScale);
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// Invalidates the specified region in all surfaces that are tracked by this
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// layer.
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void InvalidateRegionThroughoutSwapchain(const MutexAutoLock& aProofOfLock,
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const gfx::IntRegion& aRegion);
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// Invalidate aUpdateRegion and make sure that mInProgressSurface retains any
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// valid content from the previous surface outside of aUpdateRegion, so that
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// only aUpdateRegion needs to be drawn. If content needs to be copied,
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// aCopyFn is called to do the copying.
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// aCopyFn: Fn(CFTypeRefPtr<IOSurfaceRef> aValidSourceIOSurface,
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// const gfx::IntRegion& aCopyRegion) -> void
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template <typename F>
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void HandlePartialUpdate(const MutexAutoLock& aProofOfLock,
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const gfx::IntRect& aDisplayRect,
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const gfx::IntRegion& aUpdateRegion, F&& aCopyFn);
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struct SurfaceWithInvalidRegion {
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CFTypeRefPtr<IOSurfaceRef> mSurface;
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gfx::IntRegion mInvalidRegion;
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};
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struct SurfaceWithInvalidRegionAndCheckCount {
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SurfaceWithInvalidRegion mEntry;
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uint32_t mCheckCount; // The number of calls to IOSurfaceIsInUse
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};
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Maybe<SurfaceWithInvalidRegion> GetUnusedSurfaceAndCleanUp(
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const MutexAutoLock& aProofOfLock);
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bool IsVideo();
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bool IsVideoAndLocked(const MutexAutoLock& aProofOfLock);
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bool ShouldSpecializeVideo(const MutexAutoLock& aProofOfLock);
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// Wraps one CALayer representation of this NativeLayer.
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struct Representation {
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Representation();
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~Representation();
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CALayer* UnderlyingCALayer() { return mWrappingCALayer; }
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bool EnqueueSurface(IOSurfaceRef aSurfaceRef);
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// Applies buffered changes to the native CALayers. The contract with the
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// caller is as follows: If any of these values have changed since the last
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// call to ApplyChanges, mMutated[Field] needs to have been set to true
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// before the call. If aUpdate is not All, then a partial update will be
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// applied. In such a case, ApplyChanges may not make any changes that
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// require a CATransacation, because no transaction will be created. In a
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// a partial update, the return value will indicate if all the needed
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// changes were able to be applied under these restrictions. A false return
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// value indicates an All update is necessary.
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bool ApplyChanges(UpdateType aUpdate, const gfx::IntSize& aSize,
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bool aIsOpaque, const gfx::IntPoint& aPosition,
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const gfx::Matrix4x4& aTransform,
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const gfx::IntRect& aDisplayRect,
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const Maybe<gfx::IntRect>& aClipRect, float aBackingScale,
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bool aSurfaceIsFlipped,
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gfx::SamplingFilter aSamplingFilter,
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bool aSpecializeVideo,
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CFTypeRefPtr<IOSurfaceRef> aFrontSurface);
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// Return whether any aspects of this layer representation have been mutated
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// since the last call to ApplyChanges, i.e. whether ApplyChanges needs to
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// be called.
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// This is used to optimize away a CATransaction commit if no layers have
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// changed.
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UpdateType HasUpdate(bool aIsVideo);
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// Lazily initialized by first call to ApplyChanges. mWrappingLayer is the
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// layer that applies the intersection of mDisplayRect and mClipRect (if
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// set), and mContentCALayer is the layer that hosts the IOSurface. We do
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// not share clip layers between consecutive NativeLayerCA objects with the
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// same clip rect.
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CALayer* mWrappingCALayer = nullptr; // strong
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CALayer* mContentCALayer = nullptr; // strong
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CALayer* mOpaquenessTintLayer = nullptr; // strong
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bool mMutatedPosition : 1;
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bool mMutatedTransform : 1;
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bool mMutatedDisplayRect : 1;
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bool mMutatedClipRect : 1;
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bool mMutatedBackingScale : 1;
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bool mMutatedSize : 1;
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bool mMutatedSurfaceIsFlipped : 1;
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bool mMutatedFrontSurface : 1;
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bool mMutatedSamplingFilter : 1;
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bool mMutatedSpecializeVideo : 1;
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};
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Representation& GetRepresentation(WhichRepresentation aRepresentation);
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template <typename F>
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void ForAllRepresentations(F aFn);
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// Controls access to all fields of this class.
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Mutex mMutex MOZ_UNANNOTATED;
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// Each IOSurface is initially created inside NextSurface.
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// The surface stays alive until the recycling mechanism in NextSurface
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// determines it is no longer needed (because the swap chain has grown too
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// long) or until DiscardBackbuffers() is called or the layer is destroyed.
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// During the surface's lifetime, it will continuously move through the fields
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// mInProgressSurface, mFrontSurface, and back to front through the mSurfaces
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// queue:
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//
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// mSurfaces.front()
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// ------[NextSurface()]-----> mInProgressSurface
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// --[NotifySurfaceReady()]--> mFrontSurface
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// --[NotifySurfaceReady()]--> mSurfaces.back() --> .... -->
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// mSurfaces.front()
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//
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// We mark an IOSurface as "in use" as long as it is either in
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// mInProgressSurface. When it is in mFrontSurface or in the mSurfaces queue,
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// it is not marked as "in use" by us - but it can be "in use" by the window
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// server. Consequently, IOSurfaceIsInUse on a surface from mSurfaces reflects
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// whether the window server is still reading from the surface, and we can use
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// this indicator to decide when to recycle the surface.
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//
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// Users of NativeLayerCA normally proceed in this order:
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// 1. Begin a frame by calling NextSurface to get the surface.
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// 2. Draw to the surface.
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// 3. Mark the surface as done by calling NotifySurfaceReady.
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// 4. Call NativeLayerRoot::CommitToScreen(), which calls ApplyChanges()
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// during a CATransaction.
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// The surface we returned from the most recent call to NextSurface, before
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// the matching call to NotifySurfaceReady.
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// Will only be Some() between calls to NextSurface and NotifySurfaceReady.
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Maybe<SurfaceWithInvalidRegion> mInProgressSurface;
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Maybe<gfx::IntRegion> mInProgressUpdateRegion;
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Maybe<gfx::IntRect> mInProgressDisplayRect;
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// The surface that the most recent call to NotifySurfaceReady was for.
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// Will be Some() after the first call to NotifySurfaceReady, for the rest of
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// the layer's life time.
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Maybe<SurfaceWithInvalidRegion> mFrontSurface;
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// The queue of surfaces which make up the rest of our "swap chain".
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// mSurfaces.front() is the next surface we'll attempt to use.
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// mSurfaces.back() is the one that was used most recently.
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std::vector<SurfaceWithInvalidRegionAndCheckCount> mSurfaces;
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// Non-null between calls to NextSurfaceAsDrawTarget and NotifySurfaceReady.
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RefPtr<MacIOSurface> mInProgressLockedIOSurface;
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RefPtr<SurfacePoolHandleCA> mSurfacePoolHandle;
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RefPtr<wr::RenderMacIOSurfaceTextureHost> mTextureHost;
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Representation mOnscreenRepresentation;
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Representation mOffscreenRepresentation;
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gfx::IntPoint mPosition;
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gfx::Matrix4x4 mTransform;
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gfx::IntRect mDisplayRect;
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gfx::IntSize mSize;
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Maybe<gfx::IntRect> mClipRect;
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gfx::SamplingFilter mSamplingFilter = gfx::SamplingFilter::POINT;
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float mBackingScale = 1.0f;
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bool mSurfaceIsFlipped = false;
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const bool mIsOpaque = false;
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bool mRootWindowIsFullscreen = false;
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bool mSpecializeVideo = false;
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};
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} // namespace layers
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} // namespace mozilla
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#endif // mozilla_layers_NativeLayerCA_h
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