Source/WebCore/rendering/RenderLayerBacking.h - WebKit - Git at Google

 /*
  * Copyright (C) 2009, 2010, 2011 Apple Inc. All rights reserved.
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions
  * are met:
  * 1. Redistributions of source code must retain the above copyright
  *    notice, this list of conditions and the following disclaimer.
  * 2. Redistributions in binary form must reproduce the above copyright
  *    notice, this list of conditions and the following disclaimer in the
  *    documentation and/or other materials provided with the distribution.
  *
  * THIS SOFTWARE IS PROVIDED BY APPLE INC. ``AS IS'' AND ANY
  * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL APPLE INC. OR
  * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
  * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
  * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
  * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
  * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
  * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  */

 #pragma once

 #include "FloatPoint.h"
 #include "FloatPoint3D.h"
 #include "GraphicsLayer.h"
 #include "GraphicsLayerClient.h"
 #include "RenderLayer.h"
 #include "ScrollingCoordinator.h"

 namespace WebCore {

 class KeyframeList;
 class PaintedContentsInfo;
 class RenderLayerCompositor;
 class TiledBacking;
 class TransformationMatrix;

 enum CompositingLayerType {
     NormalCompositingLayer, // non-tiled layer with backing store
     TiledCompositingLayer, // tiled layer (always has backing store)
     MediaCompositingLayer, // layer that contains an image, video, webGL or plugin
     ContainerCompositingLayer // layer with no backing store
 };

 // RenderLayerBacking controls the compositing behavior for a single RenderLayer.
 // It holds the various GraphicsLayers, and makes decisions about intra-layer rendering
 // optimizations.
 //
 // There is one RenderLayerBacking for each RenderLayer that is composited.

 class RenderLayerBacking final : public GraphicsLayerClient {
     WTF_MAKE_NONCOPYABLE(RenderLayerBacking); WTF_MAKE_FAST_ALLOCATED;
 public:
     explicit RenderLayerBacking(RenderLayer&);
     ~RenderLayerBacking();

 #if PLATFORM(IOS)
     void layerWillBeDestroyed();
 #endif

     RenderLayer& owningLayer() const { return m_owningLayer; }

     enum class UpdateAfterLayoutFlags {
         NeedsFullRepaint    = 1 << 0,
         IsUpdateRoot        = 1 << 1
     };
     void updateAfterLayout(OptionSet<UpdateAfterLayoutFlags>);

     // Returns true if layer configuration changed.
     bool updateConfiguration();

     // Update graphics layer position and bounds.
     void updateGeometry();

     // Update state the requires that descendant layers have been updated.
     void updateAfterDescendants();

     // Update contents and clipping structure.
     void updateDrawsContent();

     GraphicsLayer* graphicsLayer() const { return m_graphicsLayer.get(); }

     // Layer to clip children
     bool hasClippingLayer() const { return (m_childContainmentLayer && !m_isFrameLayerWithTiledBacking); }
     GraphicsLayer* clippingLayer() const { return !m_isFrameLayerWithTiledBacking ? m_childContainmentLayer.get() : nullptr; }

     // Layer to get clipped by ancestor
     bool hasAncestorClippingLayer() const { return m_ancestorClippingLayer != nullptr; }
     GraphicsLayer* ancestorClippingLayer() const { return m_ancestorClippingLayer.get(); }

     GraphicsLayer* contentsContainmentLayer() const { return m_contentsContainmentLayer.get(); }

     GraphicsLayer* foregroundLayer() const { return m_foregroundLayer.get(); }
     GraphicsLayer* backgroundLayer() const { return m_backgroundLayer.get(); }
     bool backgroundLayerPaintsFixedRootBackground() const { return m_backgroundLayerPaintsFixedRootBackground; }

     bool hasScrollingLayer() const { return m_scrollingLayer != nullptr; }
     GraphicsLayer* scrollingLayer() const { return m_scrollingLayer.get(); }
     GraphicsLayer* scrollingContentsLayer() const { return m_scrollingContentsLayer.get(); }

     void detachFromScrollingCoordinator(LayerScrollCoordinationRoles);

     ScrollingNodeID scrollingNodeIDForRole(LayerScrollCoordinationRole role) const
     {
         switch (role) {
         case Scrolling:
             return m_scrollingNodeID;
         case ViewportConstrained:
             return m_viewportConstrainedNodeID;
         }
         return 0;
     }

     void setScrollingNodeIDForRole(ScrollingNodeID nodeID, LayerScrollCoordinationRole role)
     {
         switch (role) {
         case Scrolling:
             m_scrollingNodeID = nodeID;
             break;
         case ViewportConstrained:
             m_viewportConstrainedNodeID = nodeID;
             setIsScrollCoordinatedWithViewportConstrainedRole(nodeID);
             break;
         }
     }

     ScrollingNodeID scrollingNodeIDForChildren() const { return m_scrollingNodeID ? m_scrollingNodeID : m_viewportConstrainedNodeID; }

     void setIsScrollCoordinatedWithViewportConstrainedRole(bool);

     bool hasMaskLayer() const { return m_maskLayer != 0; }
     bool hasChildClippingMaskLayer() const { return m_childClippingMaskLayer != nullptr; }

     GraphicsLayer* parentForSublayers() const;
     GraphicsLayer* childForSuperlayers() const;

     // RenderLayers with backing normally short-circuit paintLayer() because
     // their content is rendered via callbacks from GraphicsLayer. However, the document
     // layer is special, because it has a GraphicsLayer to act as a container for the GraphicsLayers
     // for descendants, but its contents usually render into the window (in which case this returns true).
     // This returns false for other layers, and when the document layer actually needs to paint into its backing store
     // for some reason.
     bool paintsIntoWindow() const;

     // Returns true for a composited layer that has no backing store of its own, so
     // paints into some ancestor layer.
     bool paintsIntoCompositedAncestor() const { return !m_requiresOwnBackingStore; }

     void setRequiresOwnBackingStore(bool);

     void setContentsNeedDisplay(GraphicsLayer::ShouldClipToLayer = GraphicsLayer::ClipToLayer);
     // r is in the coordinate space of the layer's render object
     void setContentsNeedDisplayInRect(const LayoutRect&, GraphicsLayer::ShouldClipToLayer = GraphicsLayer::ClipToLayer);

     // Notification from the renderer that its content changed.
     void contentChanged(ContentChangeType);

     // Interface to start, finish, suspend and resume animations and transitions
     bool startTransition(double, CSSPropertyID, const RenderStyle* fromStyle, const RenderStyle* toStyle);
     void transitionPaused(double timeOffset, CSSPropertyID);
     void transitionFinished(CSSPropertyID);

     bool startAnimation(double timeOffset, const Animation* anim, const KeyframeList& keyframes);
     void animationPaused(double timeOffset, const String& name);
     void animationSeeked(double timeOffset, const String& name);
     void animationFinished(const String& name);

     void suspendAnimations(MonotonicTime = MonotonicTime());
     void resumeAnimations();

     LayoutRect compositedBounds() const;
     void setCompositedBounds(const LayoutRect&);
     void updateCompositedBounds();

     void updateAfterWidgetResize();
     void positionOverflowControlsLayers();
     bool hasUnpositionedOverflowControlsLayers() const;

     bool isFrameLayerWithTiledBacking() const { return m_isFrameLayerWithTiledBacking; }

     WEBCORE_EXPORT TiledBacking* tiledBacking() const;
     void adjustTiledBackingCoverage();
     void setTiledBackingHasMargins(bool hasExtendedBackgroundOnLeftAndRight, bool hasExtendedBackgroundOnTopAndBottom);

     void updateDebugIndicators(bool showBorder, bool showRepaintCounter);
     bool paintsSubpixelAntialiasedText() const { return m_paintsSubpixelAntialiasedText; }

     // GraphicsLayerClient interface
     void tiledBackingUsageChanged(const GraphicsLayer*, bool /*usingTiledBacking*/) override;
     void notifyAnimationStarted(const GraphicsLayer*, const String& animationKey, MonotonicTime startTime) override;
     void notifyFlushRequired(const GraphicsLayer*) override;
     void notifyFlushBeforeDisplayRefresh(const GraphicsLayer*) override;

     void paintContents(const GraphicsLayer*, GraphicsContext&, GraphicsLayerPaintingPhase, const FloatRect& clip, GraphicsLayerPaintBehavior) override;

     float deviceScaleFactor() const override;
     float contentsScaleMultiplierForNewTiles(const GraphicsLayer*) const override;

     bool paintsOpaquelyAtNonIntegralScales(const GraphicsLayer*) const override;

     float pageScaleFactor() const override;
     float zoomedOutPageScaleFactor() const override;
     void didCommitChangesForLayer(const GraphicsLayer*) const override;
     bool getCurrentTransform(const GraphicsLayer*, TransformationMatrix&) const override;

     bool isTrackingRepaints() const override;
     bool shouldSkipLayerInDump(const GraphicsLayer*, LayerTreeAsTextBehavior) const override;
     bool shouldDumpPropertyForLayer(const GraphicsLayer*, const char* propertyName) const override;

     bool shouldAggressivelyRetainTiles(const GraphicsLayer*) const override;
     bool shouldTemporarilyRetainTileCohorts(const GraphicsLayer*) const override;
     bool useGiantTiles() const override;
     void logFilledVisibleFreshTile(unsigned) override;
     bool needsPixelAligment() const override { return !m_isMainFrameRenderViewLayer; }

     LayoutSize subpixelOffsetFromRenderer() const { return m_subpixelOffsetFromRenderer; }

 #if PLATFORM(IOS)
     bool needsIOSDumpRenderTreeMainFrameRenderViewLayerIsAlwaysOpaqueHack(const GraphicsLayer&) const override;
 #endif

 #ifndef NDEBUG
     void verifyNotPainting() override;
 #endif

     WEBCORE_EXPORT LayoutRect contentsBox() const;

     // For informative purposes only.
     WEBCORE_EXPORT CompositingLayerType compositingLayerType() const;

     GraphicsLayer* layerForHorizontalScrollbar() const { return m_layerForHorizontalScrollbar.get(); }
     GraphicsLayer* layerForVerticalScrollbar() const { return m_layerForVerticalScrollbar.get(); }
     GraphicsLayer* layerForScrollCorner() const { return m_layerForScrollCorner.get(); }

     bool canCompositeFilters() const { return m_canCompositeFilters; }
 #if ENABLE(FILTERS_LEVEL_2)
     bool canCompositeBackdropFilters() const { return m_canCompositeBackdropFilters; }
 #endif

     // Return an estimate of the backing store area (in pixels) allocated by this object's GraphicsLayers.
     WEBCORE_EXPORT double backingStoreMemoryEstimate() const;

     // For testing only.
     WEBCORE_EXPORT void setUsesDisplayListDrawing(bool);
     WEBCORE_EXPORT String displayListAsText(DisplayList::AsTextFlags) const;

     WEBCORE_EXPORT void setIsTrackingDisplayListReplay(bool);
     WEBCORE_EXPORT String replayDisplayListAsText(DisplayList::AsTextFlags) const;

 private:
     friend class PaintedContentsInfo;

     FloatRect backgroundBoxForSimpleContainerPainting() const;

     void createPrimaryGraphicsLayer();
     void destroyGraphicsLayers();

     void willDestroyLayer(const GraphicsLayer*);

     LayoutRect compositedBoundsIncludingMargin() const;

     std::unique_ptr<GraphicsLayer> createGraphicsLayer(const String&, GraphicsLayer::Type = GraphicsLayer::Type::Normal);

     RenderLayerModelObject& renderer() const { return m_owningLayer.renderer(); }
     RenderBox* renderBox() const { return m_owningLayer.renderBox(); }
     RenderLayerCompositor& compositor() const { return m_owningLayer.compositor(); }

     void updateInternalHierarchy();
     bool updateAncestorClippingLayer(bool needsAncestorClip);
     bool updateDescendantClippingLayer(bool needsDescendantClip);
     bool updateOverflowControlsLayers(bool needsHorizontalScrollbarLayer, bool needsVerticalScrollbarLayer, bool needsScrollCornerLayer);
     bool updateForegroundLayer(bool needsForegroundLayer);
     bool updateBackgroundLayer(bool needsBackgroundLayer);
     void updateMaskingLayer(bool hasMask, bool hasClipPath);
     bool requiresHorizontalScrollbarLayer() const;
     bool requiresVerticalScrollbarLayer() const;
     bool requiresScrollCornerLayer() const;
     bool updateScrollingLayers(bool scrollingLayers);

     void updateChildClippingStrategy(bool needsDescendantsClippingLayer);

     void updateMaskingLayerGeometry();

     void updateRootLayerConfiguration();

     void setBackgroundLayerPaintsFixedRootBackground(bool);

     GraphicsLayerPaintingPhase paintingPhaseForPrimaryLayer() const;

     LayoutSize contentOffsetInCompostingLayer() const;
     // Result is transform origin in device pixels.
     FloatPoint3D computeTransformOriginForPainting(const LayoutRect& borderBox) const;

     void updateOpacity(const RenderStyle&);
     void updateTransform(const RenderStyle&);
     void updateFilters(const RenderStyle&);
 #if ENABLE(FILTERS_LEVEL_2)
     void updateBackdropFilters(const RenderStyle&);
     void updateBackdropFiltersGeometry();
 #endif
 #if ENABLE(CSS_COMPOSITING)
     void updateBlendMode(const RenderStyle&);
 #endif
     void updateCustomAppearance(const RenderStyle&);

     // Return the opacity value that this layer should use for compositing.
     float compositingOpacity(float rendererOpacity) const;
     Color rendererBackgroundColor() const;

     bool isMainFrameRenderViewLayer() const;

     bool paintsBoxDecorations() const;
     bool paintsContent(RenderLayer::PaintedContentRequest&) const;

     void updateDrawsContent(PaintedContentsInfo&);

     // Returns true if this compositing layer has no visible content.
     bool isSimpleContainerCompositingLayer(PaintedContentsInfo&) const;
     // Returns true if this layer has content that needs to be rendered by painting into the backing store.
     bool containsPaintedContent(PaintedContentsInfo&) const;
     // Returns true if the RenderLayer just contains an image that we can composite directly.
     bool isDirectlyCompositedImage() const;
     void updateImageContents(PaintedContentsInfo&);

     void updateDirectlyCompositedBoxDecorations(PaintedContentsInfo&, bool& didUpdateContentsRect);
     void updateDirectlyCompositedBackgroundColor(PaintedContentsInfo&, bool& didUpdateContentsRect);
     void updateDirectlyCompositedBackgroundImage(PaintedContentsInfo&, bool& didUpdateContentsRect);

     void resetContentsRect();

     bool isPaintDestinationForDescendantLayers(RenderLayer::PaintedContentRequest&) const;
     bool hasVisibleNonCompositedDescendants() const;

     bool shouldClipCompositedBounds() const;

     bool hasTiledBackingFlatteningLayer() const { return (m_childContainmentLayer && m_isFrameLayerWithTiledBacking); }
     GraphicsLayer* tileCacheFlatteningLayer() const { return m_isFrameLayerWithTiledBacking ? m_childContainmentLayer.get() : nullptr; }

     void paintIntoLayer(const GraphicsLayer*, GraphicsContext&, const IntRect& paintDirtyRect, PaintBehavior, GraphicsLayerPaintingPhase);

     static CSSPropertyID graphicsLayerToCSSProperty(AnimatedPropertyID);
     static AnimatedPropertyID cssToGraphicsLayerProperty(CSSPropertyID);

     bool canIssueSetNeedsDisplay() const { return !paintsIntoWindow() && !paintsIntoCompositedAncestor(); }
     LayoutRect computeParentGraphicsLayerRect(RenderLayer* compositedAncestor, LayoutSize& ancestorClippingLayerOffset) const;
     LayoutRect computePrimaryGraphicsLayerRect(const LayoutRect& parentGraphicsLayerRect) const;

     RenderLayer& m_owningLayer;

     std::unique_ptr<GraphicsLayer> m_ancestorClippingLayer; // Only used if we are clipped by an ancestor which is not a stacking context.
     std::unique_ptr<GraphicsLayer> m_contentsContainmentLayer; // Only used if we have a background layer; takes the transform.
     std::unique_ptr<GraphicsLayer> m_graphicsLayer;
     std::unique_ptr<GraphicsLayer> m_foregroundLayer; // Only used in cases where we need to draw the foreground separately.
     std::unique_ptr<GraphicsLayer> m_backgroundLayer; // Only used in cases where we need to draw the background separately.
     std::unique_ptr<GraphicsLayer> m_childContainmentLayer; // Only used if we have clipping on a stacking context with compositing children, or if the layer has a tile cache.
     std::unique_ptr<GraphicsLayer> m_maskLayer; // Only used if we have a mask and/or clip-path.
     std::unique_ptr<GraphicsLayer> m_childClippingMaskLayer; // Only used if we have to clip child layers or accelerated contents with border radius or clip-path.

     std::unique_ptr<GraphicsLayer> m_layerForHorizontalScrollbar;
     std::unique_ptr<GraphicsLayer> m_layerForVerticalScrollbar;
     std::unique_ptr<GraphicsLayer> m_layerForScrollCorner;

     std::unique_ptr<GraphicsLayer> m_scrollingLayer; // Only used if the layer is using composited scrolling.
     std::unique_ptr<GraphicsLayer> m_scrollingContentsLayer; // Only used if the layer is using composited scrolling.

     LayoutRect m_compositedBounds;
     LayoutSize m_subpixelOffsetFromRenderer; // This is the subpixel distance between the primary graphics layer and the associated renderer's bounds.
     LayoutSize m_compositedBoundsOffsetFromGraphicsLayer; // This is the subpixel distance between the primary graphics layer and the render layer bounds.

     ScrollingNodeID m_viewportConstrainedNodeID { 0 };
     ScrollingNodeID m_scrollingNodeID { 0 };

     bool m_artificiallyInflatedBounds { false }; // bounds had to be made non-zero to make transform-origin work
     bool m_isMainFrameRenderViewLayer { false };
     bool m_isFrameLayerWithTiledBacking { false };
     bool m_requiresOwnBackingStore { true };
     bool m_canCompositeFilters { false };
 #if ENABLE(FILTERS_LEVEL_2)
     bool m_canCompositeBackdropFilters { false };
 #endif
     bool m_backgroundLayerPaintsFixedRootBackground { false };
     bool m_paintsSubpixelAntialiasedText { false }; // This is for logging only.
 };

 enum CanvasCompositingStrategy {
     UnacceleratedCanvas,
     CanvasPaintedToLayer,
     CanvasAsLayerContents
 };
 CanvasCompositingStrategy canvasCompositingStrategy(const RenderObject&);

 WTF::TextStream& operator<<(WTF::TextStream&, const RenderLayerBacking&);

 } // namespace WebCore
	/*
	* Copyright (C) 2009, 2010, 2011 Apple Inc. All rights reserved.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions
	* are met:
	* 1. Redistributions of source code must retain the above copyright
	* notice, this list of conditions and the following disclaimer.
	* 2. Redistributions in binary form must reproduce the above copyright
	* notice, this list of conditions and the following disclaimer in the
	* documentation and/or other materials provided with the distribution.
	*
	* THIS SOFTWARE IS PROVIDED BY APPLE INC. ``AS IS'' AND ANY
	* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
	* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
	* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR
	* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
	* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
	* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
	* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
	* OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
	*/

	#pragma once

	#include "FloatPoint.h"
	#include "FloatPoint3D.h"
	#include "GraphicsLayer.h"
	#include "GraphicsLayerClient.h"
	#include "RenderLayer.h"
	#include "ScrollingCoordinator.h"

	namespace WebCore {

	class KeyframeList;
	class PaintedContentsInfo;
	class RenderLayerCompositor;
	class TiledBacking;
	class TransformationMatrix;

	enum CompositingLayerType {
	NormalCompositingLayer, // non-tiled layer with backing store
	TiledCompositingLayer, // tiled layer (always has backing store)
	MediaCompositingLayer, // layer that contains an image, video, webGL or plugin
	ContainerCompositingLayer // layer with no backing store
	};

	// RenderLayerBacking controls the compositing behavior for a single RenderLayer.
	// It holds the various GraphicsLayers, and makes decisions about intra-layer rendering
	// optimizations.
	//
	// There is one RenderLayerBacking for each RenderLayer that is composited.

	class RenderLayerBacking final : public GraphicsLayerClient {
	WTF_MAKE_NONCOPYABLE(RenderLayerBacking); WTF_MAKE_FAST_ALLOCATED;
	public:
	explicit RenderLayerBacking(RenderLayer&);
	~RenderLayerBacking();

	#if PLATFORM(IOS)
	void layerWillBeDestroyed();
	#endif

	RenderLayer& owningLayer() const { return m_owningLayer; }

	enum class UpdateAfterLayoutFlags {
	NeedsFullRepaint = 1 << 0,
	IsUpdateRoot = 1 << 1
	};
	void updateAfterLayout(OptionSet<UpdateAfterLayoutFlags>);

	// Returns true if layer configuration changed.
	bool updateConfiguration();

	// Update graphics layer position and bounds.
	void updateGeometry();

	// Update state the requires that descendant layers have been updated.
	void updateAfterDescendants();

	// Update contents and clipping structure.
	void updateDrawsContent();

	GraphicsLayer* graphicsLayer() const { return m_graphicsLayer.get(); }

	// Layer to clip children
	bool hasClippingLayer() const { return (m_childContainmentLayer && !m_isFrameLayerWithTiledBacking); }
	GraphicsLayer* clippingLayer() const { return !m_isFrameLayerWithTiledBacking ? m_childContainmentLayer.get() : nullptr; }

	// Layer to get clipped by ancestor
	bool hasAncestorClippingLayer() const { return m_ancestorClippingLayer != nullptr; }
	GraphicsLayer* ancestorClippingLayer() const { return m_ancestorClippingLayer.get(); }

	GraphicsLayer* contentsContainmentLayer() const { return m_contentsContainmentLayer.get(); }

	GraphicsLayer* foregroundLayer() const { return m_foregroundLayer.get(); }
	GraphicsLayer* backgroundLayer() const { return m_backgroundLayer.get(); }
	bool backgroundLayerPaintsFixedRootBackground() const { return m_backgroundLayerPaintsFixedRootBackground; }

	bool hasScrollingLayer() const { return m_scrollingLayer != nullptr; }
	GraphicsLayer* scrollingLayer() const { return m_scrollingLayer.get(); }
	GraphicsLayer* scrollingContentsLayer() const { return m_scrollingContentsLayer.get(); }

	void detachFromScrollingCoordinator(LayerScrollCoordinationRoles);

	ScrollingNodeID scrollingNodeIDForRole(LayerScrollCoordinationRole role) const
	{
	switch (role) {
	case Scrolling:
	return m_scrollingNodeID;
	case ViewportConstrained:
	return m_viewportConstrainedNodeID;
	}
	return 0;
	}

	void setScrollingNodeIDForRole(ScrollingNodeID nodeID, LayerScrollCoordinationRole role)
	{
	switch (role) {
	case Scrolling:
	m_scrollingNodeID = nodeID;
	break;
	case ViewportConstrained:
	m_viewportConstrainedNodeID = nodeID;
	setIsScrollCoordinatedWithViewportConstrainedRole(nodeID);
	break;
	}
	}

	ScrollingNodeID scrollingNodeIDForChildren() const { return m_scrollingNodeID ? m_scrollingNodeID : m_viewportConstrainedNodeID; }

	void setIsScrollCoordinatedWithViewportConstrainedRole(bool);

	bool hasMaskLayer() const { return m_maskLayer != 0; }
	bool hasChildClippingMaskLayer() const { return m_childClippingMaskLayer != nullptr; }

	GraphicsLayer* parentForSublayers() const;
	GraphicsLayer* childForSuperlayers() const;

	// RenderLayers with backing normally short-circuit paintLayer() because
	// their content is rendered via callbacks from GraphicsLayer. However, the document
	// layer is special, because it has a GraphicsLayer to act as a container for the GraphicsLayers
	// for descendants, but its contents usually render into the window (in which case this returns true).
	// This returns false for other layers, and when the document layer actually needs to paint into its backing store
	// for some reason.
	bool paintsIntoWindow() const;

	// Returns true for a composited layer that has no backing store of its own, so
	// paints into some ancestor layer.
	bool paintsIntoCompositedAncestor() const { return !m_requiresOwnBackingStore; }

	void setRequiresOwnBackingStore(bool);

	void setContentsNeedDisplay(GraphicsLayer::ShouldClipToLayer = GraphicsLayer::ClipToLayer);
	// r is in the coordinate space of the layer's render object
	void setContentsNeedDisplayInRect(const LayoutRect&, GraphicsLayer::ShouldClipToLayer = GraphicsLayer::ClipToLayer);

	// Notification from the renderer that its content changed.
	void contentChanged(ContentChangeType);

	// Interface to start, finish, suspend and resume animations and transitions
	bool startTransition(double, CSSPropertyID, const RenderStyle* fromStyle, const RenderStyle* toStyle);
	void transitionPaused(double timeOffset, CSSPropertyID);
	void transitionFinished(CSSPropertyID);

	bool startAnimation(double timeOffset, const Animation* anim, const KeyframeList& keyframes);
	void animationPaused(double timeOffset, const String& name);
	void animationSeeked(double timeOffset, const String& name);
	void animationFinished(const String& name);

	void suspendAnimations(MonotonicTime = MonotonicTime());
	void resumeAnimations();

	LayoutRect compositedBounds() const;
	void setCompositedBounds(const LayoutRect&);
	void updateCompositedBounds();

	void updateAfterWidgetResize();
	void positionOverflowControlsLayers();
	bool hasUnpositionedOverflowControlsLayers() const;

	bool isFrameLayerWithTiledBacking() const { return m_isFrameLayerWithTiledBacking; }

	WEBCORE_EXPORT TiledBacking* tiledBacking() const;
	void adjustTiledBackingCoverage();
	void setTiledBackingHasMargins(bool hasExtendedBackgroundOnLeftAndRight, bool hasExtendedBackgroundOnTopAndBottom);

	void updateDebugIndicators(bool showBorder, bool showRepaintCounter);
	bool paintsSubpixelAntialiasedText() const { return m_paintsSubpixelAntialiasedText; }

	// GraphicsLayerClient interface
	void tiledBackingUsageChanged(const GraphicsLayer, bool /usingTiledBacking*/) override;
	void notifyAnimationStarted(const GraphicsLayer*, const String& animationKey, MonotonicTime startTime) override;
	void notifyFlushRequired(const GraphicsLayer*) override;
	void notifyFlushBeforeDisplayRefresh(const GraphicsLayer*) override;

	void paintContents(const GraphicsLayer*, GraphicsContext&, GraphicsLayerPaintingPhase, const FloatRect& clip, GraphicsLayerPaintBehavior) override;

	float deviceScaleFactor() const override;
	float contentsScaleMultiplierForNewTiles(const GraphicsLayer*) const override;

	bool paintsOpaquelyAtNonIntegralScales(const GraphicsLayer*) const override;

	float pageScaleFactor() const override;
	float zoomedOutPageScaleFactor() const override;
	void didCommitChangesForLayer(const GraphicsLayer*) const override;
	bool getCurrentTransform(const GraphicsLayer*, TransformationMatrix&) const override;

	bool isTrackingRepaints() const override;
	bool shouldSkipLayerInDump(const GraphicsLayer*, LayerTreeAsTextBehavior) const override;
	bool shouldDumpPropertyForLayer(const GraphicsLayer, const char propertyName) const override;

	bool shouldAggressivelyRetainTiles(const GraphicsLayer*) const override;
	bool shouldTemporarilyRetainTileCohorts(const GraphicsLayer*) const override;
	bool useGiantTiles() const override;
	void logFilledVisibleFreshTile(unsigned) override;
	bool needsPixelAligment() const override { return !m_isMainFrameRenderViewLayer; }

	LayoutSize subpixelOffsetFromRenderer() const { return m_subpixelOffsetFromRenderer; }

	#if PLATFORM(IOS)
	bool needsIOSDumpRenderTreeMainFrameRenderViewLayerIsAlwaysOpaqueHack(const GraphicsLayer&) const override;
	#endif

	#ifndef NDEBUG
	void verifyNotPainting() override;
	#endif

	WEBCORE_EXPORT LayoutRect contentsBox() const;

	// For informative purposes only.
	WEBCORE_EXPORT CompositingLayerType compositingLayerType() const;

	GraphicsLayer* layerForHorizontalScrollbar() const { return m_layerForHorizontalScrollbar.get(); }
	GraphicsLayer* layerForVerticalScrollbar() const { return m_layerForVerticalScrollbar.get(); }
	GraphicsLayer* layerForScrollCorner() const { return m_layerForScrollCorner.get(); }

	bool canCompositeFilters() const { return m_canCompositeFilters; }
	#if ENABLE(FILTERS_LEVEL_2)
	bool canCompositeBackdropFilters() const { return m_canCompositeBackdropFilters; }
	#endif

	// Return an estimate of the backing store area (in pixels) allocated by this object's GraphicsLayers.
	WEBCORE_EXPORT double backingStoreMemoryEstimate() const;

	// For testing only.
	WEBCORE_EXPORT void setUsesDisplayListDrawing(bool);
	WEBCORE_EXPORT String displayListAsText(DisplayList::AsTextFlags) const;

	WEBCORE_EXPORT void setIsTrackingDisplayListReplay(bool);
	WEBCORE_EXPORT String replayDisplayListAsText(DisplayList::AsTextFlags) const;

	private:
	friend class PaintedContentsInfo;

	FloatRect backgroundBoxForSimpleContainerPainting() const;

	void createPrimaryGraphicsLayer();
	void destroyGraphicsLayers();

	void willDestroyLayer(const GraphicsLayer*);

	LayoutRect compositedBoundsIncludingMargin() const;

	std::unique_ptr<GraphicsLayer> createGraphicsLayer(const String&, GraphicsLayer::Type = GraphicsLayer::Type::Normal);

	RenderLayerModelObject& renderer() const { return m_owningLayer.renderer(); }
	RenderBox* renderBox() const { return m_owningLayer.renderBox(); }
	RenderLayerCompositor& compositor() const { return m_owningLayer.compositor(); }

	void updateInternalHierarchy();
	bool updateAncestorClippingLayer(bool needsAncestorClip);
	bool updateDescendantClippingLayer(bool needsDescendantClip);
	bool updateOverflowControlsLayers(bool needsHorizontalScrollbarLayer, bool needsVerticalScrollbarLayer, bool needsScrollCornerLayer);
	bool updateForegroundLayer(bool needsForegroundLayer);
	bool updateBackgroundLayer(bool needsBackgroundLayer);
	void updateMaskingLayer(bool hasMask, bool hasClipPath);
	bool requiresHorizontalScrollbarLayer() const;
	bool requiresVerticalScrollbarLayer() const;
	bool requiresScrollCornerLayer() const;
	bool updateScrollingLayers(bool scrollingLayers);

	void updateChildClippingStrategy(bool needsDescendantsClippingLayer);

	void updateMaskingLayerGeometry();

	void updateRootLayerConfiguration();

	void setBackgroundLayerPaintsFixedRootBackground(bool);

	GraphicsLayerPaintingPhase paintingPhaseForPrimaryLayer() const;

	LayoutSize contentOffsetInCompostingLayer() const;
	// Result is transform origin in device pixels.
	FloatPoint3D computeTransformOriginForPainting(const LayoutRect& borderBox) const;

	void updateOpacity(const RenderStyle&);
	void updateTransform(const RenderStyle&);
	void updateFilters(const RenderStyle&);
	#if ENABLE(FILTERS_LEVEL_2)
	void updateBackdropFilters(const RenderStyle&);
	void updateBackdropFiltersGeometry();
	#endif
	#if ENABLE(CSS_COMPOSITING)
	void updateBlendMode(const RenderStyle&);
	#endif
	void updateCustomAppearance(const RenderStyle&);

	// Return the opacity value that this layer should use for compositing.
	float compositingOpacity(float rendererOpacity) const;
	Color rendererBackgroundColor() const;

	bool isMainFrameRenderViewLayer() const;

	bool paintsBoxDecorations() const;
	bool paintsContent(RenderLayer::PaintedContentRequest&) const;

	void updateDrawsContent(PaintedContentsInfo&);

	// Returns true if this compositing layer has no visible content.
	bool isSimpleContainerCompositingLayer(PaintedContentsInfo&) const;
	// Returns true if this layer has content that needs to be rendered by painting into the backing store.
	bool containsPaintedContent(PaintedContentsInfo&) const;
	// Returns true if the RenderLayer just contains an image that we can composite directly.
	bool isDirectlyCompositedImage() const;
	void updateImageContents(PaintedContentsInfo&);

	void updateDirectlyCompositedBoxDecorations(PaintedContentsInfo&, bool& didUpdateContentsRect);
	void updateDirectlyCompositedBackgroundColor(PaintedContentsInfo&, bool& didUpdateContentsRect);
	void updateDirectlyCompositedBackgroundImage(PaintedContentsInfo&, bool& didUpdateContentsRect);

	void resetContentsRect();

	bool isPaintDestinationForDescendantLayers(RenderLayer::PaintedContentRequest&) const;
	bool hasVisibleNonCompositedDescendants() const;

	bool shouldClipCompositedBounds() const;

	bool hasTiledBackingFlatteningLayer() const { return (m_childContainmentLayer && m_isFrameLayerWithTiledBacking); }
	GraphicsLayer* tileCacheFlatteningLayer() const { return m_isFrameLayerWithTiledBacking ? m_childContainmentLayer.get() : nullptr; }

	void paintIntoLayer(const GraphicsLayer*, GraphicsContext&, const IntRect& paintDirtyRect, PaintBehavior, GraphicsLayerPaintingPhase);

	static CSSPropertyID graphicsLayerToCSSProperty(AnimatedPropertyID);
	static AnimatedPropertyID cssToGraphicsLayerProperty(CSSPropertyID);

	bool canIssueSetNeedsDisplay() const { return !paintsIntoWindow() && !paintsIntoCompositedAncestor(); }
	LayoutRect computeParentGraphicsLayerRect(RenderLayer* compositedAncestor, LayoutSize& ancestorClippingLayerOffset) const;
	LayoutRect computePrimaryGraphicsLayerRect(const LayoutRect& parentGraphicsLayerRect) const;

	RenderLayer& m_owningLayer;

	std::unique_ptr<GraphicsLayer> m_ancestorClippingLayer; // Only used if we are clipped by an ancestor which is not a stacking context.
	std::unique_ptr<GraphicsLayer> m_contentsContainmentLayer; // Only used if we have a background layer; takes the transform.
	std::unique_ptr<GraphicsLayer> m_graphicsLayer;
	std::unique_ptr<GraphicsLayer> m_foregroundLayer; // Only used in cases where we need to draw the foreground separately.
	std::unique_ptr<GraphicsLayer> m_backgroundLayer; // Only used in cases where we need to draw the background separately.
	std::unique_ptr<GraphicsLayer> m_childContainmentLayer; // Only used if we have clipping on a stacking context with compositing children, or if the layer has a tile cache.
	std::unique_ptr<GraphicsLayer> m_maskLayer; // Only used if we have a mask and/or clip-path.
	std::unique_ptr<GraphicsLayer> m_childClippingMaskLayer; // Only used if we have to clip child layers or accelerated contents with border radius or clip-path.

	std::unique_ptr<GraphicsLayer> m_layerForHorizontalScrollbar;
	std::unique_ptr<GraphicsLayer> m_layerForVerticalScrollbar;
	std::unique_ptr<GraphicsLayer> m_layerForScrollCorner;

	std::unique_ptr<GraphicsLayer> m_scrollingLayer; // Only used if the layer is using composited scrolling.
	std::unique_ptr<GraphicsLayer> m_scrollingContentsLayer; // Only used if the layer is using composited scrolling.

	LayoutRect m_compositedBounds;
	LayoutSize m_subpixelOffsetFromRenderer; // This is the subpixel distance between the primary graphics layer and the associated renderer's bounds.
	LayoutSize m_compositedBoundsOffsetFromGraphicsLayer; // This is the subpixel distance between the primary graphics layer and the render layer bounds.

	ScrollingNodeID m_viewportConstrainedNodeID { 0 };
	ScrollingNodeID m_scrollingNodeID { 0 };

	bool m_artificiallyInflatedBounds { false }; // bounds had to be made non-zero to make transform-origin work
	bool m_isMainFrameRenderViewLayer { false };
	bool m_isFrameLayerWithTiledBacking { false };
	bool m_requiresOwnBackingStore { true };
	bool m_canCompositeFilters { false };
	#if ENABLE(FILTERS_LEVEL_2)
	bool m_canCompositeBackdropFilters { false };
	#endif
	bool m_backgroundLayerPaintsFixedRootBackground { false };
	bool m_paintsSubpixelAntialiasedText { false }; // This is for logging only.
	};

	enum CanvasCompositingStrategy {
	UnacceleratedCanvas,
	CanvasPaintedToLayer,
	CanvasAsLayerContents
	};
	CanvasCompositingStrategy canvasCompositingStrategy(const RenderObject&);

	WTF::TextStream& operator<<(WTF::TextStream&, const RenderLayerBacking&);

	} // namespace WebCore