mirror of
https://gitlab.winehq.org/wine/wine-gecko.git
synced 2024-09-13 09:24:08 -07:00
dd13abdce5
--HG-- extra : rebase_source : ab24a2f8e9eddcf33ea39344abb7afbf400bf6e0
674 lines
25 KiB
C++
674 lines
25 KiB
C++
/* -*- Mode: C++; tab-width: 20; indent-tabs-mode: nil; c-basic-offset: 2 -*-
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* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#ifndef FRAMELAYERBUILDER_H_
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#define FRAMELAYERBUILDER_H_
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#include "nsTHashtable.h"
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#include "nsHashKeys.h"
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#include "nsTArray.h"
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#include "nsRegion.h"
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#include "nsIFrame.h"
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class nsDisplayListBuilder;
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class nsDisplayList;
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class nsDisplayItem;
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class gfxContext;
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class nsRootPresContext;
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namespace mozilla {
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namespace layers {
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class ContainerLayer;
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class LayerManager;
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class ThebesLayer;
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}
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class FrameLayerBuilder;
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enum LayerState {
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LAYER_NONE,
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LAYER_INACTIVE,
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LAYER_ACTIVE,
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// Force an active layer even if it causes incorrect rendering, e.g.
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// when the layer has rounded rect clips.
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LAYER_ACTIVE_FORCE,
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// Special layer that is metadata only.
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LAYER_ACTIVE_EMPTY,
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// Inactive style layer for rendering SVG effects.
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LAYER_SVG_EFFECTS
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};
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class RefCountedRegion : public RefCounted<RefCountedRegion> {
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public:
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RefCountedRegion() : mIsInfinite(false) {}
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nsRegion mRegion;
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bool mIsInfinite;
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};
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/**
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* The FrameLayerBuilder belongs to an nsDisplayListBuilder and is
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* responsible for converting display lists into layer trees.
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*
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* The most important API in this class is BuildContainerLayerFor. This
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* method takes a display list as input and constructs a ContainerLayer
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* with child layers that render the contents of the display list. It
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* also updates userdata for the retained layer manager, and
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* DisplayItemDataProperty data for frames, to record the relationship
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* between frames and layers.
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*
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* That data enables us to retain layer trees. When constructing a
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* ContainerLayer, we first check to see if there's an existing
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* ContainerLayer for the same frame that can be recycled. If we recycle
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* it, we also try to reuse its existing ThebesLayer children to render
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* the display items without layers of their own. The idea is that by
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* recycling layers deterministically, we can ensure that when nothing
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* changes in a display list, we will reuse the existing layers without
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* changes.
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*
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* We expose a GetLeafLayerFor method that can be called by display items
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* that make their own layers (e.g. canvas and video); this method
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* locates the last layer used to render the display item, if any, and
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* return it as a candidate for recycling.
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*
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* FrameLayerBuilder sets up ThebesLayers so that 0,0 in the Thebes layer
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* corresponds to the (pixel-snapped) top-left of the aActiveScrolledRoot.
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* It sets up ContainerLayers so that 0,0 in the container layer
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* corresponds to the snapped top-left of the display list reference frame.
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*
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* When we construct a container layer, we know the transform that will be
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* applied to the layer. If the transform scales the content, we can get
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* better results when intermediate buffers are used by pushing some scale
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* from the container's transform down to the children. For ThebesLayer
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* children, the scaling can be achieved by changing the size of the layer
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* and drawing into it with increased or decreased resolution. By convention,
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* integer types (nsIntPoint/nsIntSize/nsIntRect/nsIntRegion) are all in layer
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* coordinates, post-scaling, whereas appunit types are all pre-scaling.
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*/
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class FrameLayerBuilder {
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public:
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typedef layers::ContainerLayer ContainerLayer;
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typedef layers::Layer Layer;
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typedef layers::ThebesLayer ThebesLayer;
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typedef layers::LayerManager LayerManager;
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FrameLayerBuilder() :
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mRetainingManager(nullptr),
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mDetectedDOMModification(false),
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mInvalidateAllLayers(false),
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mContainerLayerGeneration(0),
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mMaxContainerLayerGeneration(0)
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{
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MOZ_COUNT_CTOR(FrameLayerBuilder);
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mNewDisplayItemData.Init();
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mThebesLayerItems.Init();
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}
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~FrameLayerBuilder()
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{
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MOZ_COUNT_DTOR(FrameLayerBuilder);
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}
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static void Shutdown();
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void Init(nsDisplayListBuilder* aBuilder, LayerManager* aManager);
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/**
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* Call this to notify that we have just started a transaction on the
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* retained layer manager aManager.
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*/
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void DidBeginRetainedLayerTransaction(LayerManager* aManager);
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/**
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* Call this just before we end a transaction on aManager. If aManager
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* is not the retained layer manager then it must be a temporary layer
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* manager that will not be used again.
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*/
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void WillEndTransaction(LayerManager* aManager);
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/**
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* Call this after we end a transaction on aManager. If aManager
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* is not the retained layer manager then it must be a temporary layer
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* manager that will not be used again.
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*/
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void DidEndTransaction(LayerManager* aManager);
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struct ContainerParameters {
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ContainerParameters() :
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mXScale(1), mYScale(1),
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mInTransformedSubtree(false), mInActiveTransformedSubtree(false),
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mDisableSubpixelAntialiasingInDescendants(false)
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{}
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ContainerParameters(float aXScale, float aYScale) :
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mXScale(aXScale), mYScale(aYScale),
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mInTransformedSubtree(false), mInActiveTransformedSubtree(false),
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mDisableSubpixelAntialiasingInDescendants(false)
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{}
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ContainerParameters(float aXScale, float aYScale,
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const nsIntPoint& aOffset,
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const ContainerParameters& aParent) :
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mXScale(aXScale), mYScale(aYScale),
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mOffset(aOffset),
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mInTransformedSubtree(aParent.mInTransformedSubtree),
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mInActiveTransformedSubtree(aParent.mInActiveTransformedSubtree),
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mDisableSubpixelAntialiasingInDescendants(aParent.mDisableSubpixelAntialiasingInDescendants)
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{}
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float mXScale, mYScale;
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/**
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* An offset to append to the transform set on all child layers created.
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*/
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nsIntPoint mOffset;
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bool mInTransformedSubtree;
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bool mInActiveTransformedSubtree;
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bool mDisableSubpixelAntialiasingInDescendants;
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/**
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* When this is false, ThebesLayer coordinates are drawn to with an integer
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* translation and the scale in mXScale/mYScale.
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*/
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bool AllowResidualTranslation()
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{
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// If we're in a transformed subtree, but no ancestor transform is actively
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// changing, we'll use the residual translation when drawing into the
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// ThebesLayer to ensure that snapping exactly matches the ideal transform.
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return mInTransformedSubtree && !mInActiveTransformedSubtree;
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}
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};
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/**
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* Build a container layer for a display item that contains a child
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* list, either reusing an existing one or creating a new one. It
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* sets the container layer children to layers which together render
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* the contents of the display list. It reuses existing layers from
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* the retained layer manager if possible.
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* aContainer may be null, in which case we construct a root layer.
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* This gets called by display list code. It calls BuildLayer on the
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* items in the display list, making items with their own layers
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* children of the new container, and assigning all other items to
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* ThebesLayer children created and managed by the FrameLayerBuilder.
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* Returns a layer with clip rect cleared; it is the
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* caller's responsibility to add any clip rect. The visible region
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* is set based on what's in the layer.
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* The container layer is transformed by aTransform (if non-null), and
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* the result is transformed by the scale factors in aContainerParameters.
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*/
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already_AddRefed<ContainerLayer>
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BuildContainerLayerFor(nsDisplayListBuilder* aBuilder,
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LayerManager* aManager,
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nsIFrame* aContainerFrame,
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nsDisplayItem* aContainerItem,
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const nsDisplayList& aChildren,
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const ContainerParameters& aContainerParameters,
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const gfx3DMatrix* aTransform);
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/**
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* Get a retained layer for a display item that needs to create its own
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* layer for rendering (i.e. under nsDisplayItem::BuildLayer). Returns
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* null if no retained layer is available, which usually means that this
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* display item didn't have a layer before so the caller will
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* need to create one.
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* Returns a layer with clip rect cleared; it is the
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* caller's responsibility to add any clip rect and set the visible
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* region.
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*/
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Layer* GetLeafLayerFor(nsDisplayListBuilder* aBuilder,
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LayerManager* aManager,
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nsDisplayItem* aItem);
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/**
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* Call this during invalidation if aFrame has
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* the NS_FRAME_HAS_CONTAINER_LAYER state bit. Only the nearest
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* ancestor frame of the damaged frame that has
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* NS_FRAME_HAS_CONTAINER_LAYER needs to be invalidated this way.
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* It is assumed that aRect does NOT have the frame's transforms applied.
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*/
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static void InvalidateThebesLayerContents(nsIFrame* aFrame,
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const nsRect& aRect);
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/**
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* For any descendant frame of aFrame (including across documents) that
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* has an associated container layer, invalidate all the contents of
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* all ThebesLayer children of the container. Useful when aFrame is
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* being moved and we need to invalidate everything in aFrame's subtree.
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*/
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static void InvalidateThebesLayersInSubtree(nsIFrame* aFrame);
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/**
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* As InvalidateThebesLayersInSubtree, but don't trust frame geometry
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* (e.g. because appunits-per-dev-pixel changed).
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*/
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static void InvalidateThebesLayersInSubtreeWithUntrustedFrameGeometry(nsIFrame* aFrame);
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/**
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* Call this to force all retained layers to be discarded and recreated at
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* the next paint.
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*/
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static void InvalidateAllLayers(LayerManager* aManager);
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/**
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* Call this to determine if a frame has a dedicated (non-Thebes) layer
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* for the given display item key. If there isn't one, we return null,
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* otherwise we return the layer.
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*/
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static Layer* GetDedicatedLayer(nsIFrame* aFrame, uint32_t aDisplayItemKey);
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/**
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* This callback must be provided to EndTransaction. The callback data
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* must be the nsDisplayListBuilder containing this FrameLayerBuilder.
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* This function can be called multiple times in a row to draw
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* different regions.
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*/
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static void DrawThebesLayer(ThebesLayer* aLayer,
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gfxContext* aContext,
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const nsIntRegion& aRegionToDraw,
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const nsIntRegion& aRegionToInvalidate,
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void* aCallbackData);
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#ifdef MOZ_DUMP_PAINTING
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/**
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* Dumps this FrameLayerBuilder's retained layer manager's retained
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* layer tree. Defaults to dumping to stdout in non-HTML format.
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*/
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static void DumpRetainedLayerTree(LayerManager* aManager, FILE* aFile = stdout, bool aDumpHtml = false);
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#endif
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/******* PRIVATE METHODS to FrameLayerBuilder.cpp ********/
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/* These are only in the public section because they need
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* to be called by file-scope helper functions in FrameLayerBuilder.cpp.
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*/
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/**
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* Record aItem as a display item that is rendered by aLayer.
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*/
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void AddLayerDisplayItem(Layer* aLayer,
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nsDisplayItem* aItem,
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LayerState aLayerState);
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/**
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* Record aFrame as a frame that is rendered by an item on aLayer.
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*/
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void AddLayerDisplayItemForFrame(Layer* aLayer,
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nsIFrame* aFrame,
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uint32_t aDisplayItemKey,
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LayerState aLayerState);
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/**
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* Record aItem as a display item that is rendered by the ThebesLayer
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* aLayer, with aClipRect, where aContainerLayerFrame is the frame
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* for the container layer this ThebesItem belongs to.
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* aItem must have an underlying frame.
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*/
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struct Clip;
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void AddThebesDisplayItem(ThebesLayer* aLayer,
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nsDisplayItem* aItem,
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const Clip& aClip,
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nsIFrame* aContainerLayerFrame,
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LayerState aLayerState);
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/**
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* Given a frame and a display item key that uniquely identifies a
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* display item for the frame, find the layer that was last used to
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* render that display item. Returns null if there is no such layer.
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* This could be a dedicated layer for the display item, or a ThebesLayer
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* that renders many display items.
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*/
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Layer* GetOldLayerForFrame(nsIFrame* aFrame, uint32_t aDisplayItemKey);
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/**
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* Calls GetOldLayerForFrame on the underlying frame of the display item,
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* and each subsequent merged frame if no layer is found for the underlying
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* frame.
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*/
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Layer* GetOldLayerFor(nsDisplayItem* aItem);
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static Layer* GetDebugOldLayerFor(nsIFrame* aFrame, uint32_t aDisplayItemKey);
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/**
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* Try to determine whether the ThebesLayer aLayer paints an opaque
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* single color everywhere it's visible in aRect.
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* If successful, return that color, otherwise return NS_RGBA(0,0,0,0).
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*/
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nscolor FindOpaqueColorCovering(nsDisplayListBuilder* aBuilder,
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ThebesLayer* aLayer, const nsRect& aRect);
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/**
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* Destroy any stored LayerManagerDataProperty and the associated data for
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* aFrame.
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*/
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static void DestroyDisplayItemDataFor(nsIFrame* aFrame)
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{
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aFrame->Properties().Delete(LayerManagerDataProperty());
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}
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LayerManager* GetRetainingLayerManager() { return mRetainingManager; }
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/**
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* Returns true if the given item (which we assume here is
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* background-attachment:fixed) needs to be repainted as we scroll in its
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* document.
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* Returns false if it doesn't need to be repainted because the layer system
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* is ensuring its fixed-ness for us.
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*/
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static bool NeedToInvalidateFixedDisplayItem(nsDisplayListBuilder* aBuilder,
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nsDisplayItem* aItem);
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/**
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* Returns true if the given display item was rendered directly
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* into a retained layer.
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* Returns false if it was rendered into a temporary layer manager and then
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* into a retained layer.
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*/
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static bool HasRetainedLayerFor(nsIFrame* aFrame, uint32_t aDisplayItemKey);
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/**
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* Save transform that was in aLayer when we last painted. It must be an integer
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* translation.
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*/
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void SaveLastPaintOffset(ThebesLayer* aLayer);
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/**
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* Get the translation transform that was in aLayer when we last painted. It's either
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* the transform saved by SaveLastPaintTransform, or else the transform
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* that's currently in the layer (which must be an integer translation).
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*/
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nsIntPoint GetLastPaintOffset(ThebesLayer* aLayer);
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/**
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* Return the resolution at which we expect to render aFrame's contents,
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* assuming they are being painted to retained layers. This takes into account
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* the resolution the contents of the ContainerLayer containing aFrame are
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* being rendered at, as well as any currently-inactive transforms between
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* aFrame and that container layer.
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*/
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static gfxSize GetThebesLayerScaleForFrame(nsIFrame* aFrame);
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/**
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* Clip represents the intersection of an optional rectangle with a
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* list of rounded rectangles.
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*/
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struct Clip {
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struct RoundedRect {
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nsRect mRect;
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// Indices into mRadii are the NS_CORNER_* constants in nsStyleConsts.h
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nscoord mRadii[8];
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bool operator==(const RoundedRect& aOther) const {
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if (!mRect.IsEqualInterior(aOther.mRect)) {
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return false;
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}
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NS_FOR_CSS_HALF_CORNERS(corner) {
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if (mRadii[corner] != aOther.mRadii[corner]) {
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return false;
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}
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}
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return true;
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}
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bool operator!=(const RoundedRect& aOther) const {
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return !(*this == aOther);
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}
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};
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nsRect mClipRect;
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nsTArray<RoundedRect> mRoundedClipRects;
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bool mHaveClipRect;
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Clip() : mHaveClipRect(false) {}
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// Construct as the intersection of aOther and aClipItem.
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Clip(const Clip& aOther, nsDisplayItem* aClipItem);
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// Apply this |Clip| to the given gfxContext. Any saving of state
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// or clearing of other clips must be done by the caller.
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// See aBegin/aEnd note on ApplyRoundedRectsTo.
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void ApplyTo(gfxContext* aContext, nsPresContext* aPresContext,
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uint32_t aBegin = 0, uint32_t aEnd = PR_UINT32_MAX);
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void ApplyRectTo(gfxContext* aContext, int32_t A2D) const;
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// Applies the rounded rects in this Clip to aContext
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// Will only apply rounded rects from aBegin (inclusive) to aEnd
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// (exclusive) or the number of rounded rects, whichever is smaller.
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void ApplyRoundedRectsTo(gfxContext* aContext, int32_t A2DPRInt32,
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uint32_t aBegin, uint32_t aEnd) const;
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// Draw (fill) the rounded rects in this clip to aContext
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void DrawRoundedRectsTo(gfxContext* aContext, int32_t A2D,
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uint32_t aBegin, uint32_t aEnd) const;
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// 'Draw' (create as a path, does not stroke or fill) aRoundRect to aContext
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void AddRoundedRectPathTo(gfxContext* aContext, int32_t A2D,
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const RoundedRect &aRoundRect) const;
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// Return a rectangle contained in the intersection of aRect with this
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// clip region. Tries to return the largest possible rectangle, but may
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// not succeed.
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nsRect ApproximateIntersect(const nsRect& aRect) const;
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// Returns false if aRect is definitely not clipped by a rounded corner in
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// this clip. Returns true if aRect is clipped by a rounded corner in this
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// clip or it can not be quickly determined that it is not clipped by a
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// rounded corner in this clip.
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bool IsRectClippedByRoundedCorner(const nsRect& aRect) const;
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// Intersection of all rects in this clip ignoring any rounded corners.
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nsRect NonRoundedIntersection() const;
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// Gets rid of any rounded corners in this clip.
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void RemoveRoundedCorners();
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bool operator==(const Clip& aOther) const {
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return mHaveClipRect == aOther.mHaveClipRect &&
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(!mHaveClipRect || mClipRect.IsEqualInterior(aOther.mClipRect)) &&
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mRoundedClipRects == aOther.mRoundedClipRects;
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}
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bool operator!=(const Clip& aOther) const {
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return !(*this == aOther);
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}
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};
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protected:
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/**
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* We store an array of these for each frame that is associated with
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* one or more retained layers. Each DisplayItemData records the layer
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* used to render one of the frame's display items.
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*/
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class DisplayItemData {
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public:
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DisplayItemData(Layer* aLayer, uint32_t aKey, LayerState aLayerState, uint32_t aGeneration);
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~DisplayItemData();
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nsRefPtr<Layer> mLayer;
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uint32_t mDisplayItemKey;
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uint32_t mContainerLayerGeneration;
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LayerState mLayerState;
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};
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static void RemoveFrameFromLayerManager(nsIFrame* aFrame, void* aPropertyValue);
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NS_DECLARE_FRAME_PROPERTY_WITH_FRAME_IN_DTOR(LayerManagerDataProperty,
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RemoveFrameFromLayerManager)
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/**
|
|
* We accumulate DisplayItemData elements in a hashtable during
|
|
* the paint process, and store them in the frame property only when
|
|
* paint is complete. This is the hashentry for that hashtable.
|
|
*/
|
|
class DisplayItemDataEntry : public nsPtrHashKey<nsIFrame> {
|
|
public:
|
|
DisplayItemDataEntry(const nsIFrame *key)
|
|
: nsPtrHashKey<nsIFrame>(key)
|
|
, mIsSharingContainerLayer(false)
|
|
{}
|
|
DisplayItemDataEntry(DisplayItemDataEntry &toCopy)
|
|
: nsPtrHashKey<nsIFrame>(toCopy.mKey)
|
|
, mIsSharingContainerLayer(toCopy.mIsSharingContainerLayer)
|
|
{
|
|
// This isn't actually a copy-constructor; notice that it steals toCopy's
|
|
// array and invalid region. Be careful.
|
|
mData.SwapElements(toCopy.mData);
|
|
mInvalidRegion.swap(toCopy.mInvalidRegion);
|
|
mContainerLayerGeneration = toCopy.mContainerLayerGeneration;
|
|
}
|
|
|
|
bool HasNonEmptyContainerLayer();
|
|
|
|
nsAutoTArray<DisplayItemData, 1> mData;
|
|
nsRefPtr<RefCountedRegion> mInvalidRegion;
|
|
uint32_t mContainerLayerGeneration;
|
|
bool mIsSharingContainerLayer;
|
|
|
|
enum { ALLOW_MEMMOVE = false };
|
|
};
|
|
|
|
// LayerManagerData needs to see DisplayItemDataEntry.
|
|
friend class LayerManagerData;
|
|
|
|
// Flash the area within the context clip if paint flashing is enabled.
|
|
static void FlashPaint(gfxContext *aContext);
|
|
|
|
/*
|
|
* Get the DisplayItemData array associated with this frame, or null if one
|
|
* doesn't exist.
|
|
*
|
|
* Note that the pointer returned here is only valid so long as you don't
|
|
* poke the LayerManagerData's mFramesWithLayers hashtable.
|
|
*/
|
|
static nsTArray<DisplayItemData>* GetDisplayItemDataArrayForFrame(nsIFrame *aFrame);
|
|
|
|
/**
|
|
* A useful hashtable iteration function that removes the
|
|
* DisplayItemData property for the frame, clears its
|
|
* NS_FRAME_HAS_CONTAINER_LAYER bit and returns PL_DHASH_REMOVE.
|
|
* aClosure is ignored.
|
|
*/
|
|
static PLDHashOperator RemoveDisplayItemDataForFrame(DisplayItemDataEntry* aEntry,
|
|
void* aClosure)
|
|
{
|
|
return UpdateDisplayItemDataForFrame(aEntry, nullptr);
|
|
}
|
|
|
|
/**
|
|
* We store one of these for each display item associated with a
|
|
* ThebesLayer, in a hashtable that maps each ThebesLayer to an array
|
|
* of ClippedDisplayItems. (ThebesLayerItemsEntry is the hash entry
|
|
* for that hashtable.)
|
|
* These are only stored during the paint process, so that the
|
|
* DrawThebesLayer callback can figure out which items to draw for the
|
|
* ThebesLayer.
|
|
* mItem always has an underlying frame.
|
|
*/
|
|
struct ClippedDisplayItem {
|
|
ClippedDisplayItem(nsDisplayItem* aItem, const Clip& aClip, uint32_t aGeneration)
|
|
: mItem(aItem), mClip(aClip), mContainerLayerGeneration(aGeneration)
|
|
{
|
|
}
|
|
|
|
nsDisplayItem* mItem;
|
|
Clip mClip;
|
|
uint32_t mContainerLayerGeneration;
|
|
bool mInactiveLayer;
|
|
};
|
|
|
|
/**
|
|
* We accumulate ClippedDisplayItem elements in a hashtable during
|
|
* the paint process. This is the hashentry for that hashtable.
|
|
*/
|
|
public:
|
|
class ThebesLayerItemsEntry : public nsPtrHashKey<ThebesLayer> {
|
|
public:
|
|
ThebesLayerItemsEntry(const ThebesLayer *key) :
|
|
nsPtrHashKey<ThebesLayer>(key), mContainerLayerFrame(nullptr),
|
|
mContainerLayerGeneration(0),
|
|
mHasExplicitLastPaintOffset(false), mCommonClipCount(0) {}
|
|
ThebesLayerItemsEntry(const ThebesLayerItemsEntry &toCopy) :
|
|
nsPtrHashKey<ThebesLayer>(toCopy.mKey), mItems(toCopy.mItems)
|
|
{
|
|
NS_ERROR("Should never be called, since we ALLOW_MEMMOVE");
|
|
}
|
|
|
|
nsTArray<ClippedDisplayItem> mItems;
|
|
nsIFrame* mContainerLayerFrame;
|
|
// The translation set on this ThebesLayer before we started updating the
|
|
// layer tree.
|
|
nsIntPoint mLastPaintOffset;
|
|
uint32_t mContainerLayerGeneration;
|
|
bool mHasExplicitLastPaintOffset;
|
|
/**
|
|
* The first mCommonClipCount rounded rectangle clips are identical for
|
|
* all items in the layer. Computed in ThebesLayerData.
|
|
*/
|
|
uint32_t mCommonClipCount;
|
|
|
|
enum { ALLOW_MEMMOVE = true };
|
|
};
|
|
|
|
/**
|
|
* Get the ThebesLayerItemsEntry object associated with aLayer in this
|
|
* FrameLayerBuilder
|
|
*/
|
|
ThebesLayerItemsEntry* GetThebesLayerItemsEntry(ThebesLayer* aLayer)
|
|
{
|
|
return mThebesLayerItems.GetEntry(aLayer);
|
|
}
|
|
|
|
protected:
|
|
void RemoveThebesItemsAndOwnerDataForLayerSubtree(Layer* aLayer,
|
|
bool aRemoveThebesItems,
|
|
bool aRemoveOwnerData);
|
|
|
|
static void SetAndClearInvalidRegion(DisplayItemDataEntry* aEntry);
|
|
static PLDHashOperator UpdateDisplayItemDataForFrame(DisplayItemDataEntry* aEntry,
|
|
void* aUserArg);
|
|
static PLDHashOperator StoreNewDisplayItemData(DisplayItemDataEntry* aEntry,
|
|
void* aUserArg);
|
|
static PLDHashOperator RestoreDisplayItemData(DisplayItemDataEntry* aEntry,
|
|
void *aUserArg);
|
|
|
|
static PLDHashOperator RestoreThebesLayerItemEntries(ThebesLayerItemsEntry* aEntry,
|
|
void *aUserArg);
|
|
|
|
/**
|
|
* Returns true if the DOM has been modified since we started painting,
|
|
* in which case we should bail out and not paint anymore. This should
|
|
* never happen, but plugins can trigger it in some cases.
|
|
*/
|
|
bool CheckDOMModified();
|
|
|
|
/**
|
|
* The layer manager belonging to the widget that is being retained
|
|
* across paints.
|
|
*/
|
|
LayerManager* mRetainingManager;
|
|
/**
|
|
* The root prescontext for the display list builder reference frame
|
|
*/
|
|
nsRootPresContext* mRootPresContext;
|
|
/**
|
|
* A map from frames to a list of (display item key, layer) pairs that
|
|
* describes what layers various parts of the frame are assigned to.
|
|
*/
|
|
nsTHashtable<DisplayItemDataEntry> mNewDisplayItemData;
|
|
/**
|
|
* A map from ThebesLayers to the list of display items (plus
|
|
* clipping data) to be rendered in the layer.
|
|
*/
|
|
nsTHashtable<ThebesLayerItemsEntry> mThebesLayerItems;
|
|
/**
|
|
* Saved generation counter so we can detect DOM changes.
|
|
*/
|
|
uint32_t mInitialDOMGeneration;
|
|
/**
|
|
* Set to true if we have detected and reported DOM modification during
|
|
* the current paint.
|
|
*/
|
|
bool mDetectedDOMModification;
|
|
/**
|
|
* Indicates that the entire layer tree should be rerendered
|
|
* during this paint.
|
|
*/
|
|
bool mInvalidateAllLayers;
|
|
|
|
uint32_t mContainerLayerGeneration;
|
|
uint32_t mMaxContainerLayerGeneration;
|
|
};
|
|
|
|
}
|
|
|
|
#endif /* FRAMELAYERBUILDER_H_ */
|