Source/core/rendering/RenderLayerCompositor.h - platform/external/chromium_org/third_party/WebKit - Git at Google

 /*
  * Copyright (C) 2009 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 COMPUTER, 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.
  */

 #ifndef RenderLayerCompositor_h
 #define RenderLayerCompositor_h

 #include "core/page/ChromeClient.h"
 #include "core/platform/graphics/GraphicsLayerClient.h"
 #include "core/rendering/RenderLayer.h"
 #include "wtf/HashMap.h"

 namespace WebCore {

 class FixedPositionViewportConstraints;
 class GraphicsLayer;
 class RenderEmbeddedObject;
 class RenderPart;
 class RenderVideo;
 class ScrollingCoordinator;
 class StickyPositionViewportConstraints;


 enum CompositingUpdateType {
     CompositingUpdateAfterStyleChange,
     CompositingUpdateAfterLayout,
     CompositingUpdateOnScroll,
     CompositingUpdateOnCompositedScroll
 };

 // RenderLayerCompositor manages the hierarchy of
 // composited RenderLayers. It determines which RenderLayers
 // become compositing, and creates and maintains a hierarchy of
 // GraphicsLayers based on the RenderLayer painting order.
 //
 // There is one RenderLayerCompositor per RenderView.

 class RenderLayerCompositor : public GraphicsLayerClient {
     WTF_MAKE_FAST_ALLOCATED;
 public:
     explicit RenderLayerCompositor(RenderView*);
     ~RenderLayerCompositor();

     // Return true if this RenderView is in "compositing mode" (i.e. has one or more
     // composited RenderLayers)
     bool inCompositingMode() const { return m_compositing; }
     // This will make a compositing layer at the root automatically, and hook up to
     // the native view/window system.
     void enableCompositingMode(bool enable = true);

     bool inForcedCompositingMode() const { return m_forceCompositingMode; }

     // Returns true if the accelerated compositing is enabled
     bool hasAcceleratedCompositing() const { return m_hasAcceleratedCompositing; }

     bool canRender3DTransforms() const;

     // Copy the accelerated compositing related flags from Settings
     void cacheAcceleratedCompositingFlags();

     // Called when the layer hierarchy needs to be updated (compositing layers have been
     // created, destroyed or re-parented).
     void setCompositingLayersNeedRebuild(bool needRebuild = true);
     bool compositingLayersNeedRebuild() const { return m_compositingLayersNeedRebuild; }

     // Called when something outside WebKit affects the visible rect (e.g. delegated scrolling). Might schedule a layer flush.
     void didChangeVisibleRect();

     // Updating properties required for determining if compositing is necessary.
     void updateCompositingRequirementsState();
     void setNeedsUpdateCompositingRequirementsState() { m_needsUpdateCompositingRequirementsState = true; }

     // Rebuild the tree of compositing layers
     void updateCompositingLayers(CompositingUpdateType, RenderLayer* updateRoot = 0);

     // Update the compositing state of the given layer. Returns true if that state changed.
     enum CompositingChangeRepaint { CompositingChangeRepaintNow, CompositingChangeWillRepaintLater };
     bool updateLayerCompositingState(RenderLayer*, CompositingChangeRepaint = CompositingChangeRepaintNow);

     // Update the geometry for compositing children of compositingAncestor.
     void updateCompositingDescendantGeometry(RenderLayer* compositingAncestor, RenderLayer*, bool compositedChildrenOnly);

     // Whether layer's compositedLayerMapping needs a GraphicsLayer to do clipping by an ancestor (non-stacking-context parent with overflow).
     bool clippedByAncestor(const RenderLayer*) const;
     // Whether layer's compositedLayerMapping needs a GraphicsLayer to clip z-order children of the given RenderLayer.
     bool clipsCompositingDescendants(const RenderLayer*) const;

     // Whether the given layer needs an extra 'contents' layer.
     bool needsContentsCompositingLayer(const RenderLayer*) const;

     bool supportsFixedRootBackgroundCompositing() const;
     bool needsFixedRootBackgroundLayer(const RenderLayer*) const;
     GraphicsLayer* fixedRootBackgroundLayer() const;

     // Return the bounding box required for compositing layer and its childern, relative to ancestorLayer.
     // If layerBoundingBox is not 0, on return it contains the bounding box of this layer only.
     IntRect calculateCompositedBounds(const RenderLayer*, const RenderLayer* ancestorLayer) const;

     // Repaint the appropriate layers when the given RenderLayer starts or stops being composited.
     void repaintOnCompositingChange(RenderLayer*);

     void repaintInCompositedAncestor(RenderLayer*, const LayoutRect&);

     // Notify us that a layer has been added or removed
     void layerWasAdded(RenderLayer* parent, RenderLayer* child);
     void layerWillBeRemoved(RenderLayer* parent, RenderLayer* child);

     // Get the nearest ancestor layer that has overflow or clip, but is not a stacking context
     RenderLayer* enclosingNonStackingClippingLayer(const RenderLayer* layer) const;

     // Repaint parts of all composited layers that intersect the given absolute rectangle (or the entire layer if the pointer is null).
     void repaintCompositedLayers(const IntRect* = 0);

     // Returns true if the given layer needs it own backing store.
     bool requiresOwnBackingStore(const RenderLayer*, const RenderLayer* compositingAncestorLayer) const;

     RenderLayer* rootRenderLayer() const;
     GraphicsLayer* rootGraphicsLayer() const;
     GraphicsLayer* scrollLayer() const;

     enum RootLayerAttachment {
         RootLayerUnattached,
         RootLayerAttachedViaChromeClient,
         RootLayerAttachedViaEnclosingFrame
     };

     RootLayerAttachment rootLayerAttachment() const { return m_rootLayerAttachment; }
     void updateRootLayerAttachment();
     void updateRootLayerPosition();

     void setIsInWindow(bool);

     void clearMappingForAllRenderLayers();

     void layerBecameComposited(const RenderLayer*) { ++m_compositedLayerCount; }
     void layerBecameNonComposited(const RenderLayer*);

     // Use by RenderVideo to ask if it should try to use accelerated compositing.
     bool canAccelerateVideoRendering(RenderVideo*) const;

     // Walk the tree looking for layers with 3d transforms. Useful in case you need
     // to know if there is non-affine content, e.g. for drawing into an image.
     bool has3DContent() const;

     static RenderLayerCompositor* frameContentsCompositor(RenderPart*);
     // Return true if the layers changed.
     static bool parentFrameContentLayers(RenderPart*);

     // Update the geometry of the layers used for clipping and scrolling in frames.
     void frameViewDidChangeLocation(const IntPoint& contentsOffset);
     void frameViewDidChangeSize();
     void frameViewDidScroll();
     void frameViewDidLayout();
     void rootFixedBackgroundsChanged();

     bool scrollingLayerDidChange(RenderLayer*);

     String layerTreeAsText(LayerTreeFlags);

     virtual void didCommitChangesForLayer(const GraphicsLayer*) const OVERRIDE;

     GraphicsLayer* layerForHorizontalScrollbar() const { return m_layerForHorizontalScrollbar.get(); }
     GraphicsLayer* layerForVerticalScrollbar() const { return m_layerForVerticalScrollbar.get(); }
     GraphicsLayer* layerForScrollCorner() const { return m_layerForScrollCorner.get(); }
 #if USE(RUBBER_BANDING)
     GraphicsLayer* layerForOverhangAreas() const { return m_layerForOverhangAreas.get(); }

     GraphicsLayer* updateLayerForTopOverhangArea(bool wantsLayer);
     GraphicsLayer* updateLayerForBottomOverhangArea(bool wantsLayer);
 #endif

     void updateViewportConstraintStatus(RenderLayer*);
     void removeViewportConstrainedLayer(RenderLayer*);

     void addOutOfFlowPositionedLayer(RenderLayer*);
     void removeOutOfFlowPositionedLayer(RenderLayer*);

     void resetTrackedRepaintRects();
     void setTracksRepaints(bool);

     void setShouldReevaluateCompositingAfterLayout() { m_reevaluateCompositingAfterLayout = true; }

     // Returns all reasons (direct, indirectly due to subtree, and indirectly due to overlap) that a layer should be composited.
     CompositingReasons reasonsForCompositing(const RenderLayer*) const;

     virtual String debugName(const GraphicsLayer*) OVERRIDE;

 private:
     class OverlapMap;

     // GraphicsLayerClient implementation
     virtual void notifyAnimationStarted(const GraphicsLayer*, double) OVERRIDE { }
     virtual void paintContents(const GraphicsLayer*, GraphicsContext&, GraphicsLayerPaintingPhase, const IntRect&) OVERRIDE;

     virtual bool isTrackingRepaints() const OVERRIDE;

     // Whether the given RL needs a compositing layer.
     bool needsToBeComposited(const RenderLayer*) const;
     // Whether the layer could ever be composited.
     bool canBeComposited(const RenderLayer*) const;

     // Returns all direct reasons that a layer should be composited.
     CompositingReasons directReasonsForCompositing(const RenderLayer*) const;

     // Returns indirect reasons that a layer should be composited because of something in its subtree.
     CompositingReasons subtreeReasonsForCompositing(RenderObject*, bool hasCompositedDescendants, bool has3DTransformedDescendants) const;

     // Make or destroy the CompositedLayerMapping for this layer; returns true if the compositedLayerMapping changed.
     bool allocateOrClearCompositedLayerMapping(RenderLayer*, CompositingChangeRepaint shouldRepaint);

     void clearMappingForRenderLayerIncludingDescendants(RenderLayer*);

     // Repaint the given rect (which is layer's coords), and regions of child layers that intersect that rect.
     void recursiveRepaintLayer(RenderLayer*, const IntRect* = 0);

     void addToOverlapMap(OverlapMap&, RenderLayer*, IntRect& layerBounds, bool& boundsComputed);
     void addToOverlapMapRecursive(OverlapMap&, RenderLayer*, RenderLayer* ancestorLayer = 0);

     // Returns true if any layer's compositing changed
     void computeCompositingRequirements(RenderLayer* ancestorLayer, RenderLayer*, OverlapMap*, struct CompositingRecursionData&, bool& layersChanged, bool& descendantHas3DTransform, Vector<RenderLayer*>& unclippedDescendants);

     // Recurses down the tree, parenting descendant compositing layers and collecting an array of child layers for the current compositing layer.
     void rebuildCompositingLayerTree(RenderLayer*, Vector<GraphicsLayer*>& childGraphicsLayersOfEnclosingLayer, int depth);

     // Recurses down the tree, updating layer geometry only.
     void updateLayerTreeGeometry(RenderLayer*, int depth);

     // Hook compositing layers together
     void setCompositingParent(RenderLayer* childLayer, RenderLayer* parentLayer);
     void removeCompositedChildren(RenderLayer*);

     bool layerHas3DContent(const RenderLayer*) const;
     bool isRunningAcceleratedTransformAnimation(RenderObject*) const;

     bool hasAnyAdditionalCompositedLayers(const RenderLayer* rootLayer) const;

     void ensureRootLayer();
     void destroyRootLayer();

     void attachRootLayer(RootLayerAttachment);
     void detachRootLayer();

     bool isMainFrame() const;

     void updateOverflowControlsLayers();

     void notifyIFramesOfCompositingChange();

     Page* page() const;

     GraphicsLayerFactory* graphicsLayerFactory() const;
     ScrollingCoordinator* scrollingCoordinator() const;

     // Whether a running transition or animation enforces the need for a compositing layer.
     bool requiresCompositingForAnimation(RenderObject*) const;
     // Whether a (not necessarily running) transition enforces the need for a compositing layer.
     bool requiresCompositingForTransition(RenderObject*) const;
     bool requiresCompositingForTransform(RenderObject*) const;
     bool requiresCompositingForVideo(RenderObject*) const;
     bool requiresCompositingForCanvas(RenderObject*) const;
     bool requiresCompositingForPlugin(RenderObject*) const;
     bool requiresCompositingForFrame(RenderObject*) const;
     bool requiresCompositingForBackfaceVisibilityHidden(RenderObject*) const;
     bool requiresCompositingForFilters(RenderObject*) const;
     bool requiresCompositingForBlending(RenderObject* renderer) const;
     bool requiresCompositingForOverflowScrollingParent(const RenderLayer*) const;
     bool requiresCompositingForOutOfFlowClipping(const RenderLayer*) const;
     bool requiresCompositingForScrollableFrame() const;
     bool requiresCompositingForPosition(RenderObject*, const RenderLayer*, RenderLayer::ViewportConstrainedNotCompositedReason* = 0) const;
     bool requiresCompositingForOverflowScrolling(const RenderLayer*) const;

     void addViewportConstrainedLayer(RenderLayer*);

     FixedPositionViewportConstraints computeFixedViewportConstraints(RenderLayer*) const;
     StickyPositionViewportConstraints computeStickyViewportConstraints(RenderLayer*) const;

     bool requiresHorizontalScrollbarLayer() const;
     bool requiresVerticalScrollbarLayer() const;
     bool requiresScrollCornerLayer() const;
 #if USE(RUBBER_BANDING)
     bool requiresOverhangLayers() const;
 #endif

 #if !LOG_DISABLED
     const char* logReasonsForCompositing(const RenderLayer*);
     void logLayerInfo(const RenderLayer*, int depth);
 #endif

 private:
     RenderView* m_renderView;
     OwnPtr<GraphicsLayer> m_rootContentLayer;

     bool m_hasAcceleratedCompositing;
     ChromeClient::CompositingTriggerFlags m_compositingTriggers;

     int m_compositedLayerCount;
     bool m_showRepaintCounter;

     // When true, we have to wait until layout has happened before we can decide whether to enter compositing mode,
     // because only then do we know the final size of plugins and iframes.
     mutable bool m_reevaluateCompositingAfterLayout;

     bool m_compositing;
     bool m_compositingLayersNeedRebuild;
     bool m_forceCompositingMode;
     bool m_inPostLayoutUpdate; // true when it's OK to trust layout information (e.g. layer sizes and positions)
     bool m_needsUpdateCompositingRequirementsState;

     bool m_isTrackingRepaints; // Used for testing.

     RootLayerAttachment m_rootLayerAttachment;

     // Enclosing container layer, which clips for iframe content
     OwnPtr<GraphicsLayer> m_containerLayer;
     OwnPtr<GraphicsLayer> m_scrollLayer;

     HashSet<RenderLayer*> m_viewportConstrainedLayers;
     HashSet<RenderLayer*> m_viewportConstrainedLayersNeedingUpdate;

     // This is used in updateCompositingRequirementsState to avoid full tree
     // walks while determining if layers have unclipped descendants.
     HashSet<RenderLayer*> m_outOfFlowPositionedLayers;

     // Enclosing layer for overflow controls and the clipping layer
     OwnPtr<GraphicsLayer> m_overflowControlsHostLayer;

     // Layers for overflow controls
     OwnPtr<GraphicsLayer> m_layerForHorizontalScrollbar;
     OwnPtr<GraphicsLayer> m_layerForVerticalScrollbar;
     OwnPtr<GraphicsLayer> m_layerForScrollCorner;
 #if USE(RUBBER_BANDING)
     OwnPtr<GraphicsLayer> m_layerForOverhangAreas;
     OwnPtr<GraphicsLayer> m_layerForOverhangShadow;
 #endif

 #if !LOG_DISABLED
     int m_rootLayerUpdateCount;
     int m_obligateCompositedLayerCount; // count of layer that have to be composited.
     int m_secondaryCompositedLayerCount; // count of layers that have to be composited because of stacking or overlap.
     double m_obligatoryBackingStoreBytes;
     double m_secondaryBackingStoreBytes;
 #endif
 };


 } // namespace WebCore

 #endif // RenderLayerCompositor_h
	/*
	* Copyright (C) 2009 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 COMPUTER, 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.
	*/

	#ifndef RenderLayerCompositor_h
	#define RenderLayerCompositor_h

	#include "core/page/ChromeClient.h"
	#include "core/platform/graphics/GraphicsLayerClient.h"
	#include "core/rendering/RenderLayer.h"
	#include "wtf/HashMap.h"

	namespace WebCore {

	class FixedPositionViewportConstraints;
	class GraphicsLayer;
	class RenderEmbeddedObject;
	class RenderPart;
	class RenderVideo;
	class ScrollingCoordinator;
	class StickyPositionViewportConstraints;


	enum CompositingUpdateType {
	CompositingUpdateAfterStyleChange,
	CompositingUpdateAfterLayout,
	CompositingUpdateOnScroll,
	CompositingUpdateOnCompositedScroll
	};

	// RenderLayerCompositor manages the hierarchy of
	// composited RenderLayers. It determines which RenderLayers
	// become compositing, and creates and maintains a hierarchy of
	// GraphicsLayers based on the RenderLayer painting order.
	//
	// There is one RenderLayerCompositor per RenderView.

	class RenderLayerCompositor : public GraphicsLayerClient {
	WTF_MAKE_FAST_ALLOCATED;
	public:
	explicit RenderLayerCompositor(RenderView*);
	~RenderLayerCompositor();

	// Return true if this RenderView is in "compositing mode" (i.e. has one or more
	// composited RenderLayers)
	bool inCompositingMode() const { return m_compositing; }
	// This will make a compositing layer at the root automatically, and hook up to
	// the native view/window system.
	void enableCompositingMode(bool enable = true);

	bool inForcedCompositingMode() const { return m_forceCompositingMode; }

	// Returns true if the accelerated compositing is enabled
	bool hasAcceleratedCompositing() const { return m_hasAcceleratedCompositing; }

	bool canRender3DTransforms() const;

	// Copy the accelerated compositing related flags from Settings
	void cacheAcceleratedCompositingFlags();

	// Called when the layer hierarchy needs to be updated (compositing layers have been
	// created, destroyed or re-parented).
	void setCompositingLayersNeedRebuild(bool needRebuild = true);
	bool compositingLayersNeedRebuild() const { return m_compositingLayersNeedRebuild; }

	// Called when something outside WebKit affects the visible rect (e.g. delegated scrolling). Might schedule a layer flush.
	void didChangeVisibleRect();

	// Updating properties required for determining if compositing is necessary.
	void updateCompositingRequirementsState();
	void setNeedsUpdateCompositingRequirementsState() { m_needsUpdateCompositingRequirementsState = true; }

	// Rebuild the tree of compositing layers
	void updateCompositingLayers(CompositingUpdateType, RenderLayer* updateRoot = 0);

	// Update the compositing state of the given layer. Returns true if that state changed.
	enum CompositingChangeRepaint { CompositingChangeRepaintNow, CompositingChangeWillRepaintLater };
	bool updateLayerCompositingState(RenderLayer*, CompositingChangeRepaint = CompositingChangeRepaintNow);

	// Update the geometry for compositing children of compositingAncestor.
	void updateCompositingDescendantGeometry(RenderLayer* compositingAncestor, RenderLayer*, bool compositedChildrenOnly);

	// Whether layer's compositedLayerMapping needs a GraphicsLayer to do clipping by an ancestor (non-stacking-context parent with overflow).
	bool clippedByAncestor(const RenderLayer*) const;
	// Whether layer's compositedLayerMapping needs a GraphicsLayer to clip z-order children of the given RenderLayer.
	bool clipsCompositingDescendants(const RenderLayer*) const;

	// Whether the given layer needs an extra 'contents' layer.
	bool needsContentsCompositingLayer(const RenderLayer*) const;

	bool supportsFixedRootBackgroundCompositing() const;
	bool needsFixedRootBackgroundLayer(const RenderLayer*) const;
	GraphicsLayer* fixedRootBackgroundLayer() const;

	// Return the bounding box required for compositing layer and its childern, relative to ancestorLayer.
	// If layerBoundingBox is not 0, on return it contains the bounding box of this layer only.
	IntRect calculateCompositedBounds(const RenderLayer, const RenderLayer ancestorLayer) const;

	// Repaint the appropriate layers when the given RenderLayer starts or stops being composited.
	void repaintOnCompositingChange(RenderLayer*);

	void repaintInCompositedAncestor(RenderLayer*, const LayoutRect&);

	// Notify us that a layer has been added or removed
	void layerWasAdded(RenderLayer* parent, RenderLayer* child);
	void layerWillBeRemoved(RenderLayer* parent, RenderLayer* child);

	// Get the nearest ancestor layer that has overflow or clip, but is not a stacking context
	RenderLayer* enclosingNonStackingClippingLayer(const RenderLayer* layer) const;

	// Repaint parts of all composited layers that intersect the given absolute rectangle (or the entire layer if the pointer is null).
	void repaintCompositedLayers(const IntRect* = 0);

	// Returns true if the given layer needs it own backing store.
	bool requiresOwnBackingStore(const RenderLayer, const RenderLayer compositingAncestorLayer) const;

	RenderLayer* rootRenderLayer() const;
	GraphicsLayer* rootGraphicsLayer() const;
	GraphicsLayer* scrollLayer() const;

	enum RootLayerAttachment {
	RootLayerUnattached,
	RootLayerAttachedViaChromeClient,
	RootLayerAttachedViaEnclosingFrame
	};

	RootLayerAttachment rootLayerAttachment() const { return m_rootLayerAttachment; }
	void updateRootLayerAttachment();
	void updateRootLayerPosition();

	void setIsInWindow(bool);

	void clearMappingForAllRenderLayers();

	void layerBecameComposited(const RenderLayer*) { ++m_compositedLayerCount; }
	void layerBecameNonComposited(const RenderLayer*);

	// Use by RenderVideo to ask if it should try to use accelerated compositing.
	bool canAccelerateVideoRendering(RenderVideo*) const;

	// Walk the tree looking for layers with 3d transforms. Useful in case you need
	// to know if there is non-affine content, e.g. for drawing into an image.
	bool has3DContent() const;

	static RenderLayerCompositor* frameContentsCompositor(RenderPart*);
	// Return true if the layers changed.
	static bool parentFrameContentLayers(RenderPart*);

	// Update the geometry of the layers used for clipping and scrolling in frames.
	void frameViewDidChangeLocation(const IntPoint& contentsOffset);
	void frameViewDidChangeSize();
	void frameViewDidScroll();
	void frameViewDidLayout();
	void rootFixedBackgroundsChanged();

	bool scrollingLayerDidChange(RenderLayer*);

	String layerTreeAsText(LayerTreeFlags);

	virtual void didCommitChangesForLayer(const GraphicsLayer*) const OVERRIDE;

	GraphicsLayer* layerForHorizontalScrollbar() const { return m_layerForHorizontalScrollbar.get(); }
	GraphicsLayer* layerForVerticalScrollbar() const { return m_layerForVerticalScrollbar.get(); }
	GraphicsLayer* layerForScrollCorner() const { return m_layerForScrollCorner.get(); }
	#if USE(RUBBER_BANDING)
	GraphicsLayer* layerForOverhangAreas() const { return m_layerForOverhangAreas.get(); }

	GraphicsLayer* updateLayerForTopOverhangArea(bool wantsLayer);
	GraphicsLayer* updateLayerForBottomOverhangArea(bool wantsLayer);
	#endif

	void updateViewportConstraintStatus(RenderLayer*);
	void removeViewportConstrainedLayer(RenderLayer*);

	void addOutOfFlowPositionedLayer(RenderLayer*);
	void removeOutOfFlowPositionedLayer(RenderLayer*);

	void resetTrackedRepaintRects();
	void setTracksRepaints(bool);

	void setShouldReevaluateCompositingAfterLayout() { m_reevaluateCompositingAfterLayout = true; }

	// Returns all reasons (direct, indirectly due to subtree, and indirectly due to overlap) that a layer should be composited.
	CompositingReasons reasonsForCompositing(const RenderLayer*) const;

	virtual String debugName(const GraphicsLayer*) OVERRIDE;

	private:
	class OverlapMap;

	// GraphicsLayerClient implementation
	virtual void notifyAnimationStarted(const GraphicsLayer*, double) OVERRIDE { }
	virtual void paintContents(const GraphicsLayer*, GraphicsContext&, GraphicsLayerPaintingPhase, const IntRect&) OVERRIDE;

	virtual bool isTrackingRepaints() const OVERRIDE;

	// Whether the given RL needs a compositing layer.
	bool needsToBeComposited(const RenderLayer*) const;
	// Whether the layer could ever be composited.
	bool canBeComposited(const RenderLayer*) const;

	// Returns all direct reasons that a layer should be composited.
	CompositingReasons directReasonsForCompositing(const RenderLayer*) const;

	// Returns indirect reasons that a layer should be composited because of something in its subtree.
	CompositingReasons subtreeReasonsForCompositing(RenderObject*, bool hasCompositedDescendants, bool has3DTransformedDescendants) const;

	// Make or destroy the CompositedLayerMapping for this layer; returns true if the compositedLayerMapping changed.
	bool allocateOrClearCompositedLayerMapping(RenderLayer*, CompositingChangeRepaint shouldRepaint);

	void clearMappingForRenderLayerIncludingDescendants(RenderLayer*);

	// Repaint the given rect (which is layer's coords), and regions of child layers that intersect that rect.
	void recursiveRepaintLayer(RenderLayer, const IntRect = 0);

	void addToOverlapMap(OverlapMap&, RenderLayer*, IntRect& layerBounds, bool& boundsComputed);
	void addToOverlapMapRecursive(OverlapMap&, RenderLayer, RenderLayer ancestorLayer = 0);

	// Returns true if any layer's compositing changed
	void computeCompositingRequirements(RenderLayer* ancestorLayer, RenderLayer, OverlapMap, struct CompositingRecursionData&, bool& layersChanged, bool& descendantHas3DTransform, Vector<RenderLayer*>& unclippedDescendants);

	// Recurses down the tree, parenting descendant compositing layers and collecting an array of child layers for the current compositing layer.
	void rebuildCompositingLayerTree(RenderLayer, Vector<GraphicsLayer>& childGraphicsLayersOfEnclosingLayer, int depth);

	// Recurses down the tree, updating layer geometry only.
	void updateLayerTreeGeometry(RenderLayer*, int depth);

	// Hook compositing layers together
	void setCompositingParent(RenderLayer* childLayer, RenderLayer* parentLayer);
	void removeCompositedChildren(RenderLayer*);

	bool layerHas3DContent(const RenderLayer*) const;
	bool isRunningAcceleratedTransformAnimation(RenderObject*) const;

	bool hasAnyAdditionalCompositedLayers(const RenderLayer* rootLayer) const;

	void ensureRootLayer();
	void destroyRootLayer();

	void attachRootLayer(RootLayerAttachment);
	void detachRootLayer();

	bool isMainFrame() const;

	void updateOverflowControlsLayers();

	void notifyIFramesOfCompositingChange();

	Page* page() const;

	GraphicsLayerFactory* graphicsLayerFactory() const;
	ScrollingCoordinator* scrollingCoordinator() const;

	// Whether a running transition or animation enforces the need for a compositing layer.
	bool requiresCompositingForAnimation(RenderObject*) const;
	// Whether a (not necessarily running) transition enforces the need for a compositing layer.
	bool requiresCompositingForTransition(RenderObject*) const;
	bool requiresCompositingForTransform(RenderObject*) const;
	bool requiresCompositingForVideo(RenderObject*) const;
	bool requiresCompositingForCanvas(RenderObject*) const;
	bool requiresCompositingForPlugin(RenderObject*) const;
	bool requiresCompositingForFrame(RenderObject*) const;
	bool requiresCompositingForBackfaceVisibilityHidden(RenderObject*) const;
	bool requiresCompositingForFilters(RenderObject*) const;
	bool requiresCompositingForBlending(RenderObject* renderer) const;
	bool requiresCompositingForOverflowScrollingParent(const RenderLayer*) const;
	bool requiresCompositingForOutOfFlowClipping(const RenderLayer*) const;
	bool requiresCompositingForScrollableFrame() const;
	bool requiresCompositingForPosition(RenderObject, const RenderLayer, RenderLayer::ViewportConstrainedNotCompositedReason* = 0) const;
	bool requiresCompositingForOverflowScrolling(const RenderLayer*) const;

	void addViewportConstrainedLayer(RenderLayer*);

	FixedPositionViewportConstraints computeFixedViewportConstraints(RenderLayer*) const;
	StickyPositionViewportConstraints computeStickyViewportConstraints(RenderLayer*) const;

	bool requiresHorizontalScrollbarLayer() const;
	bool requiresVerticalScrollbarLayer() const;
	bool requiresScrollCornerLayer() const;
	#if USE(RUBBER_BANDING)
	bool requiresOverhangLayers() const;
	#endif

	#if !LOG_DISABLED
	const char* logReasonsForCompositing(const RenderLayer*);
	void logLayerInfo(const RenderLayer*, int depth);
	#endif

	private:
	RenderView* m_renderView;
	OwnPtr<GraphicsLayer> m_rootContentLayer;

	bool m_hasAcceleratedCompositing;
	ChromeClient::CompositingTriggerFlags m_compositingTriggers;

	int m_compositedLayerCount;
	bool m_showRepaintCounter;

	// When true, we have to wait until layout has happened before we can decide whether to enter compositing mode,
	// because only then do we know the final size of plugins and iframes.
	mutable bool m_reevaluateCompositingAfterLayout;

	bool m_compositing;
	bool m_compositingLayersNeedRebuild;
	bool m_forceCompositingMode;
	bool m_inPostLayoutUpdate; // true when it's OK to trust layout information (e.g. layer sizes and positions)
	bool m_needsUpdateCompositingRequirementsState;

	bool m_isTrackingRepaints; // Used for testing.

	RootLayerAttachment m_rootLayerAttachment;

	// Enclosing container layer, which clips for iframe content
	OwnPtr<GraphicsLayer> m_containerLayer;
	OwnPtr<GraphicsLayer> m_scrollLayer;

	HashSet<RenderLayer*> m_viewportConstrainedLayers;
	HashSet<RenderLayer*> m_viewportConstrainedLayersNeedingUpdate;

	// This is used in updateCompositingRequirementsState to avoid full tree
	// walks while determining if layers have unclipped descendants.
	HashSet<RenderLayer*> m_outOfFlowPositionedLayers;

	// Enclosing layer for overflow controls and the clipping layer
	OwnPtr<GraphicsLayer> m_overflowControlsHostLayer;

	// Layers for overflow controls
	OwnPtr<GraphicsLayer> m_layerForHorizontalScrollbar;
	OwnPtr<GraphicsLayer> m_layerForVerticalScrollbar;
	OwnPtr<GraphicsLayer> m_layerForScrollCorner;
	#if USE(RUBBER_BANDING)
	OwnPtr<GraphicsLayer> m_layerForOverhangAreas;
	OwnPtr<GraphicsLayer> m_layerForOverhangShadow;
	#endif

	#if !LOG_DISABLED
	int m_rootLayerUpdateCount;
	int m_obligateCompositedLayerCount; // count of layer that have to be composited.
	int m_secondaryCompositedLayerCount; // count of layers that have to be composited because of stacking or overlap.
	double m_obligatoryBackingStoreBytes;
	double m_secondaryBackingStoreBytes;
	#endif
	};


	} // namespace WebCore

	#endif // RenderLayerCompositor_h