/* -*- Mode: C++; tab-width: 20; indent-tabs-mode: nil; c-basic-offset: 2 -*- * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "mozilla/DebugOnly.h" #include "FrameLayerBuilder.h" #include "nsDisplayList.h" #include "nsPresContext.h" #include "nsLayoutUtils.h" #include "Layers.h" #include "BasicLayers.h" #include "gfxUtils.h" #include "nsRenderingContext.h" #include "MaskLayerImageCache.h" #include "nsIScrollableFrame.h" #include "nsPrintfCString.h" #include "LayerTreeInvalidation.h" #include "nsSVGIntegrationUtils.h" #include "GeckoProfiler.h" #include "mozilla/gfx/Tools.h" #include using namespace mozilla::layers; using namespace mozilla::gfx; namespace mozilla { FrameLayerBuilder::DisplayItemData::DisplayItemData(LayerManagerData* aParent, uint32_t aKey, Layer* aLayer, LayerState aLayerState, uint32_t aGeneration) : mParent(aParent) , mLayer(aLayer) , mDisplayItemKey(aKey) , mContainerLayerGeneration(aGeneration) , mLayerState(aLayerState) , mUsed(true) , mIsInvalid(false) { } FrameLayerBuilder::DisplayItemData::DisplayItemData(DisplayItemData &toCopy) { // This isn't actually a copy-constructor; notice that it steals toCopy's // mGeometry pointer. Be careful. mParent = toCopy.mParent; mLayer = toCopy.mLayer; mInactiveManager = toCopy.mInactiveManager; mFrameList = toCopy.mFrameList; mGeometry = toCopy.mGeometry; mDisplayItemKey = toCopy.mDisplayItemKey; mClip = toCopy.mClip; mContainerLayerGeneration = toCopy.mContainerLayerGeneration; mLayerState = toCopy.mLayerState; mUsed = toCopy.mUsed; } void FrameLayerBuilder::DisplayItemData::AddFrame(nsIFrame* aFrame) { mFrameList.AppendElement(aFrame); nsTArray *array = reinterpret_cast*>(aFrame->Properties().Get(FrameLayerBuilder::LayerManagerDataProperty())); if (!array) { array = new nsTArray(); aFrame->Properties().Set(FrameLayerBuilder::LayerManagerDataProperty(), array); } array->AppendElement(this); } void FrameLayerBuilder::DisplayItemData::RemoveFrame(nsIFrame* aFrame) { DebugOnly result = mFrameList.RemoveElement(aFrame); NS_ASSERTION(result, "Can't remove a frame that wasn't added!"); nsTArray *array = reinterpret_cast*>(aFrame->Properties().Get(FrameLayerBuilder::LayerManagerDataProperty())); NS_ASSERTION(array, "Must be already stored on the frame!"); array->RemoveElement(this); } void FrameLayerBuilder::DisplayItemData::UpdateContents(Layer* aLayer, LayerState aState, uint32_t aContainerLayerGeneration, nsDisplayItem* aItem /* = nullptr */) { mLayer = aLayer; mOptLayer = nullptr; mInactiveManager = nullptr; mLayerState = aState; mContainerLayerGeneration = aContainerLayerGeneration; mGeometry = nullptr; mClip = DisplayItemClip(); mUsed = true; if (!aItem) { return; } nsAutoTArray copy(mFrameList); if (!copy.RemoveElement(aItem->Frame())) { AddFrame(aItem->Frame()); } nsAutoTArray mergedFrames; aItem->GetMergedFrames(&mergedFrames); for (uint32_t i = 0; i < mergedFrames.Length(); ++i) { if (!copy.RemoveElement(mergedFrames[i])) { AddFrame(mergedFrames[i]); } } for (uint32_t i = 0; i < copy.Length(); i++) { RemoveFrame(copy[i]); } } static nsIFrame* sDestroyedFrame = NULL; FrameLayerBuilder::DisplayItemData::~DisplayItemData() { for (uint32_t i = 0; i < mFrameList.Length(); i++) { nsIFrame* frame = mFrameList[i]; if (frame == sDestroyedFrame) { continue; } nsTArray *array = reinterpret_cast*>(frame->Properties().Get(LayerManagerDataProperty())); array->RemoveElement(this); } } void FrameLayerBuilder::DisplayItemData::GetFrameListChanges(nsDisplayItem* aOther, nsTArray& aOut) { aOut = mFrameList; nsAutoTArray added; if (!aOut.RemoveElement(aOther->Frame())) { added.AppendElement(aOther->Frame()); } nsAutoTArray mergedFrames; aOther->GetMergedFrames(&mergedFrames); for (uint32_t i = 0; i < mergedFrames.Length(); ++i) { if (!aOut.RemoveElement(mergedFrames[i])) { added.AppendElement(mergedFrames[i]); } } aOut.AppendElements(added); } /** * This is the userdata we associate with a layer manager. */ class LayerManagerData : public LayerUserData { public: LayerManagerData(LayerManager *aManager) : mLayerManager(aManager) #ifdef DEBUG_DISPLAY_ITEM_DATA , mParent(nullptr) #endif , mInvalidateAllLayers(false) { MOZ_COUNT_CTOR(LayerManagerData); } ~LayerManagerData() { MOZ_COUNT_DTOR(LayerManagerData); } #ifdef DEBUG_DISPLAY_ITEM_DATA void Dump(const char *aPrefix = "") { printf("%sLayerManagerData %p\n", aPrefix, this); nsAutoCString prefix; prefix += aPrefix; prefix += " "; mDisplayItems.EnumerateEntries( FrameLayerBuilder::DumpDisplayItemDataForFrame, (void*)prefix.get()); } #endif /** * Tracks which frames have layers associated with them. */ LayerManager *mLayerManager; #ifdef DEBUG_DISPLAY_ITEM_DATA LayerManagerData *mParent; #endif nsTHashtable > mDisplayItems; bool mInvalidateAllLayers; }; /* static */ void FrameLayerBuilder::DestroyDisplayItemDataFor(nsIFrame* aFrame) { FrameProperties props = aFrame->Properties(); props.Delete(LayerManagerDataProperty()); } namespace { // a global cache of image containers used for mask layers static MaskLayerImageCache* gMaskLayerImageCache = nullptr; static inline MaskLayerImageCache* GetMaskLayerImageCache() { if (!gMaskLayerImageCache) { gMaskLayerImageCache = new MaskLayerImageCache(); } return gMaskLayerImageCache; } /** * This is a helper object used to build up the layer children for * a ContainerLayer. */ class ContainerState { public: ContainerState(nsDisplayListBuilder* aBuilder, LayerManager* aManager, FrameLayerBuilder* aLayerBuilder, nsIFrame* aContainerFrame, nsDisplayItem* aContainerItem, ContainerLayer* aContainerLayer, const FrameLayerBuilder::ContainerParameters& aParameters) : mBuilder(aBuilder), mManager(aManager), mLayerBuilder(aLayerBuilder), mContainerFrame(aContainerFrame), mContainerLayer(aContainerLayer), mParameters(aParameters), mNextFreeRecycledThebesLayer(0) { nsPresContext* presContext = aContainerFrame->PresContext(); mAppUnitsPerDevPixel = presContext->AppUnitsPerDevPixel(); mContainerReferenceFrame = aContainerItem ? aContainerItem->ReferenceFrameForChildren() : mBuilder->FindReferenceFrameFor(mContainerFrame); // When AllowResidualTranslation is false, display items will be drawn // scaled with a translation by integer pixels, so we know how the snapping // will work. mSnappingEnabled = aManager->IsSnappingEffectiveTransforms() && !mParameters.AllowResidualTranslation(); CollectOldLayers(); } enum ProcessDisplayItemsFlags { NO_COMPONENT_ALPHA = 0x01, }; /** * This is the method that actually walks a display list and builds * the child layers. */ void ProcessDisplayItems(const nsDisplayList& aList, uint32_t aFlags); /** * This finalizes all the open ThebesLayers by popping every element off * mThebesLayerDataStack, then sets the children of the container layer * to be all the layers in mNewChildLayers in that order and removes any * layers as children of the container that aren't in mNewChildLayers. * @param aTextContentFlags if any child layer has CONTENT_COMPONENT_ALPHA, * set *aTextContentFlags to CONTENT_COMPONENT_ALPHA */ void Finish(uint32_t *aTextContentFlags, LayerManagerData* aData); nsRect GetChildrenBounds() { return mBounds; } nscoord GetAppUnitsPerDevPixel() { return mAppUnitsPerDevPixel; } nsIntRect ScaleToNearestPixels(const nsRect& aRect) { return aRect.ScaleToNearestPixels(mParameters.mXScale, mParameters.mYScale, mAppUnitsPerDevPixel); } nsIntRegion ScaleRegionToNearestPixels(const nsRegion& aRegion) { return aRegion.ScaleToNearestPixels(mParameters.mXScale, mParameters.mYScale, mAppUnitsPerDevPixel); } nsIntRect ScaleToOutsidePixels(const nsRect& aRect, bool aSnap) { if (aSnap && mSnappingEnabled) { return ScaleToNearestPixels(aRect); } return aRect.ScaleToOutsidePixels(mParameters.mXScale, mParameters.mYScale, mAppUnitsPerDevPixel); } nsIntRect ScaleToInsidePixels(const nsRect& aRect, bool aSnap) { if (aSnap && mSnappingEnabled) { return ScaleToNearestPixels(aRect); } return aRect.ScaleToInsidePixels(mParameters.mXScale, mParameters.mYScale, mAppUnitsPerDevPixel); } nsIntRegion ScaleRegionToInsidePixels(const nsRegion& aRegion, bool aSnap) { if (aSnap && mSnappingEnabled) { return ScaleRegionToNearestPixels(aRegion); } return aRegion.ScaleToInsidePixels(mParameters.mXScale, mParameters.mYScale, mAppUnitsPerDevPixel); } protected: /** * We keep a stack of these to represent the ThebesLayers that are * currently available to have display items added to. * We use a stack here because as much as possible we want to * assign display items to existing ThebesLayers, and to the lowest * ThebesLayer in z-order. This reduces the number of layers and * makes it more likely a display item will be rendered to an opaque * layer, giving us the best chance of getting subpixel AA. */ class ThebesLayerData { public: ThebesLayerData() : mActiveScrolledRoot(nullptr), mLayer(nullptr), mIsSolidColorInVisibleRegion(false), mNeedComponentAlpha(false), mForceTransparentSurface(false), mImage(nullptr), mCommonClipCount(-1) {} /** * Record that an item has been added to the ThebesLayer, so we * need to update our regions. * @param aVisibleRect the area of the item that's visible * @param aDrawRect the area of the item that would be drawn if it * was completely visible * @param aOpaqueRect if non-null, the area of the item that's opaque. * We pass in a separate opaque rect because the opaque rect can be * bigger than the visible rect, and we want to have the biggest * opaque rect that we can. * @param aSolidColor if non-null, the visible area of the item is * a constant color given by *aSolidColor */ void Accumulate(ContainerState* aState, nsDisplayItem* aItem, const nsIntRect& aVisibleRect, const nsIntRect& aDrawRect, const DisplayItemClip& aClip); const nsIFrame* GetActiveScrolledRoot() { return mActiveScrolledRoot; } /** * If this represents only a nsDisplayImage, and the image type * supports being optimized to an ImageLayer (TYPE_RASTER only) returns * an ImageContainer for the image. */ already_AddRefed CanOptimizeImageLayer(nsDisplayListBuilder* aBuilder); /** * The region of visible content in the layer, relative to the * container layer (which is at the snapped top-left of the display * list reference frame). */ nsIntRegion mVisibleRegion; /** * The region of visible content above the layer and below the * next ThebesLayerData currently in the stack, if any. Note that not * all ThebesLayers for the container are in the ThebesLayerData stack. * Same coordinate system as mVisibleRegion. * This is a conservative approximation: it contains the true region. */ nsIntRegion mVisibleAboveRegion; /** * The region containing the bounds of all display items in the layer, * regardless of visbility. * Same coordinate system as mVisibleRegion. * This is a conservative approximation: it contains the true region. */ nsIntRegion mDrawRegion; /** * The region containing the bounds of all display items (regardless * of visibility) in the layer and below the next ThebesLayerData * currently in the stack, if any. * Note that not all ThebesLayers for the container are in the * ThebesLayerData stack. * Same coordinate system as mVisibleRegion. */ nsIntRegion mDrawAboveRegion; /** * The region of visible content in the layer that is opaque. * Same coordinate system as mVisibleRegion. */ nsIntRegion mOpaqueRegion; /** * The "active scrolled root" for all content in the layer. Must * be non-null; all content in a ThebesLayer must have the same * active scrolled root. */ const nsIFrame* mActiveScrolledRoot; ThebesLayer* mLayer; /** * If mIsSolidColorInVisibleRegion is true, this is the color of the visible * region. */ nscolor mSolidColor; /** * True if every pixel in mVisibleRegion will have color mSolidColor. */ bool mIsSolidColorInVisibleRegion; /** * True if there is any text visible in the layer that's over * transparent pixels in the layer. */ bool mNeedComponentAlpha; /** * Set if the layer should be treated as transparent, even if its entire * area is covered by opaque display items. For example, this needs to * be set if something is going to "punch holes" in the layer by clearing * part of its surface. */ bool mForceTransparentSurface; /** * Stores the pointer to the nsDisplayImage if we want to * convert this to an ImageLayer. */ nsDisplayImageContainer* mImage; /** * Stores the clip that we need to apply to the image or, if there is no * image, a clip for SOME item in the layer. There is no guarantee which * item's clip will be stored here and mItemClip should not be used to clip * the whole layer - only some part of the clip should be used, as determined * by ThebesDisplayItemLayerUserData::GetCommonClipCount() - which may even be * no part at all. */ DisplayItemClip mItemClip; /** * The first mCommonClipCount rounded rectangle clips are identical for * all items in the layer. * -1 if there are no items in the layer; must be >=0 by the time that this * data is popped from the stack. */ int32_t mCommonClipCount; /* * Updates mCommonClipCount by checking for rounded rect clips in common * between the clip on a new item (aCurrentClip) and the common clips * on items already in the layer (the first mCommonClipCount rounded rects * in mItemClip). */ void UpdateCommonClipCount(const DisplayItemClip& aCurrentClip); }; friend class ThebesLayerData; /** * Grab the next recyclable ThebesLayer, or create one if there are no * more recyclable ThebesLayers. Does any necessary invalidation of * a recycled ThebesLayer, and sets up the transform on the ThebesLayer * to account for scrolling. */ already_AddRefed CreateOrRecycleThebesLayer(const nsIFrame* aActiveScrolledRoot, const nsIFrame *aReferenceFrame, const nsPoint& aTopLeft); /** * Grab the next recyclable ColorLayer, or create one if there are no * more recyclable ColorLayers. */ already_AddRefed CreateOrRecycleColorLayer(ThebesLayer* aThebes); /** * Grab the next recyclable ImageLayer, or create one if there are no * more recyclable ImageLayers. */ already_AddRefed CreateOrRecycleImageLayer(ThebesLayer* aThebes); /** * Grab a recyclable ImageLayer for use as a mask layer for aLayer (that is a * mask layer which has been used for aLayer before), or create one if such * a layer doesn't exist. */ already_AddRefed CreateOrRecycleMaskImageLayerFor(Layer* aLayer); /** * Grabs all ThebesLayers and ColorLayers from the ContainerLayer and makes them * available for recycling. */ void CollectOldLayers(); /** * If aItem used to belong to a ThebesLayer, invalidates the area of * aItem in that layer. If aNewLayer is a ThebesLayer, invalidates the area of * aItem in that layer. */ void InvalidateForLayerChange(nsDisplayItem* aItem, Layer* aNewLayer, const DisplayItemClip& aClip, const nsPoint& aTopLeft, nsDisplayItemGeometry *aGeometry); /** * Try to determine whether the ThebesLayer at aThebesLayerIndex * has a single opaque color behind it, over the entire bounds of its visible * region. * If successful, return that color, otherwise return NS_RGBA(0,0,0,0). */ nscolor FindOpaqueBackgroundColorFor(int32_t aThebesLayerIndex); /** * Indicate that we are done adding items to the ThebesLayer at the top of * mThebesLayerDataStack. Set the final visible region and opaque-content * flag, and pop it off the stack. */ void PopThebesLayerData(); /** * Find the ThebesLayer to which we should assign the next display item. * We scan the ThebesLayerData stack to find the topmost ThebesLayer * that is compatible with the display item (i.e., has the same * active scrolled root), and that has no content from other layers above * it and intersecting the aVisibleRect. * Returns the layer, and also updates the ThebesLayerData. Will * push a new ThebesLayerData onto the stack if no suitable existing * layer is found. If we choose a ThebesLayer that's already on the * ThebesLayerData stack, later elements on the stack will be popped off. * @param aVisibleRect the area of the next display item that's visible * @param aActiveScrolledRoot the active scrolled root for the next * display item * @param aOpaqueRect if non-null, a region of the display item that is opaque * @param aSolidColor if non-null, indicates that every pixel in aVisibleRect * will be painted with aSolidColor by the item */ ThebesLayerData* FindThebesLayerFor(nsDisplayItem* aItem, const nsIntRect& aVisibleRect, const nsIntRect& aDrawRect, const DisplayItemClip& aClip, const nsIFrame* aActiveScrolledRoot, const nsPoint& aTopLeft); ThebesLayerData* GetTopThebesLayerData() { return mThebesLayerDataStack.IsEmpty() ? nullptr : mThebesLayerDataStack[mThebesLayerDataStack.Length() - 1].get(); } /* Build a mask layer to represent the clipping region. Will return null if * there is no clipping specified or a mask layer cannot be built. * Builds an ImageLayer for the appropriate backend; the mask is relative to * aLayer's visible region. * aLayer is the layer to be clipped. * aRoundedRectClipCount is used when building mask layers for ThebesLayers, * SetupMaskLayer will build a mask layer for only the first * aRoundedRectClipCount rounded rects in aClip */ void SetupMaskLayer(Layer *aLayer, const DisplayItemClip& aClip, uint32_t aRoundedRectClipCount = UINT32_MAX); bool ChooseActiveScrolledRoot(const nsDisplayList& aList, const nsIFrame **aActiveScrolledRoot); nsDisplayListBuilder* mBuilder; LayerManager* mManager; FrameLayerBuilder* mLayerBuilder; nsIFrame* mContainerFrame; const nsIFrame* mContainerReferenceFrame; ContainerLayer* mContainerLayer; FrameLayerBuilder::ContainerParameters mParameters; /** * The region of ThebesLayers that should be invalidated every time * we recycle one. */ nsIntRegion mInvalidThebesContent; nsRect mBounds; nsAutoTArray,1> mThebesLayerDataStack; /** * We collect the list of children in here. During ProcessDisplayItems, * the layers in this array either have mContainerLayer as their parent, * or no parent. */ typedef nsAutoTArray,1> AutoLayersArray; AutoLayersArray mNewChildLayers; nsTArray > mRecycledThebesLayers; nsDataHashtable, nsRefPtr > mRecycledMaskImageLayers; uint32_t mNextFreeRecycledThebesLayer; nscoord mAppUnitsPerDevPixel; bool mSnappingEnabled; }; class ThebesDisplayItemLayerUserData : public LayerUserData { public: ThebesDisplayItemLayerUserData() : mMaskClipCount(0), mForcedBackgroundColor(NS_RGBA(0,0,0,0)), mXScale(1.f), mYScale(1.f), mAppUnitsPerDevPixel(0), mTranslation(0, 0), mActiveScrolledRootPosition(0, 0) {} /** * Record the number of clips in the Thebes layer's mask layer. * Should not be reset when the layer is recycled since it is used to track * changes in the use of mask layers. */ uint32_t mMaskClipCount; /** * A color that should be painted over the bounds of the layer's visible * region before any other content is painted. */ nscolor mForcedBackgroundColor; /** * The resolution scale used. */ float mXScale, mYScale; /** * The appunits per dev pixel for the items in this layer. */ nscoord mAppUnitsPerDevPixel; /** * The offset from the ThebesLayer's 0,0 to the * reference frame. This isn't necessarily the same as the transform * set on the ThebesLayer since we might also be applying an extra * offset specified by the parent ContainerLayer/ */ nsIntPoint mTranslation; /** * We try to make 0,0 of the ThebesLayer be the top-left of the * border-box of the "active scrolled root" frame (i.e. the nearest ancestor * frame for the display items that is being actively scrolled). But * we force the ThebesLayer transform to be an integer translation, and we may * have a resolution scale, so we have to snap the ThebesLayer transform, so * 0,0 may not be exactly the top-left of the active scrolled root. Here we * store the coordinates in ThebesLayer space of the top-left of the * active scrolled root. */ gfxPoint mActiveScrolledRootPosition; nsIntRegion mRegionToInvalidate; // The offset between the active scrolled root of this layer // and the root of the container for the previous and current // paints respectively. nsPoint mLastActiveScrolledRootOrigin; nsPoint mActiveScrolledRootOrigin; nsRefPtr mColorLayer; nsRefPtr mImageLayer; }; /* * User data for layers which will be used as masks. */ struct MaskLayerUserData : public LayerUserData { MaskLayerUserData() : mImageKey(nullptr) {} bool operator== (const MaskLayerUserData& aOther) const { return mRoundedClipRects == aOther.mRoundedClipRects && mScaleX == aOther.mScaleX && mScaleY == aOther.mScaleY && mOffset == aOther.mOffset && mAppUnitsPerDevPixel == aOther.mAppUnitsPerDevPixel; } nsRefPtr mImageKey; // properties of the mask layer; the mask layer may be re-used if these // remain unchanged. nsTArray mRoundedClipRects; // scale from the masked layer which is applied to the mask float mScaleX, mScaleY; // The ContainerParameters offset which is applied to the mask's transform. nsIntPoint mOffset; int32_t mAppUnitsPerDevPixel; }; /** * The address of gThebesDisplayItemLayerUserData is used as the user * data key for ThebesLayers created by FrameLayerBuilder. * It identifies ThebesLayers used to draw non-layer content, which are * therefore eligible for recycling. We want display items to be able to * create their own dedicated ThebesLayers in BuildLayer, if necessary, * and we wouldn't want to accidentally recycle those. * The user data is a ThebesDisplayItemLayerUserData. */ uint8_t gThebesDisplayItemLayerUserData; /** * The address of gColorLayerUserData is used as the user * data key for ColorLayers created by FrameLayerBuilder. * The user data is null. */ uint8_t gColorLayerUserData; /** * The address of gImageLayerUserData is used as the user * data key for ImageLayers created by FrameLayerBuilder. * The user data is null. */ uint8_t gImageLayerUserData; /** * The address of gLayerManagerUserData is used as the user * data key for retained LayerManagers managed by FrameLayerBuilder. * The user data is a LayerManagerData. */ uint8_t gLayerManagerUserData; /** * The address of gMaskLayerUserData is used as the user * data key for mask layers managed by FrameLayerBuilder. * The user data is a MaskLayerUserData. */ uint8_t gMaskLayerUserData; /** * Helper functions for getting user data and casting it to the correct type. * aLayer is the layer where the user data is stored. */ MaskLayerUserData* GetMaskLayerUserData(Layer* aLayer) { return static_cast(aLayer->GetUserData(&gMaskLayerUserData)); } ThebesDisplayItemLayerUserData* GetThebesDisplayItemLayerUserData(Layer* aLayer) { return static_cast( aLayer->GetUserData(&gThebesDisplayItemLayerUserData)); } } // anonymous namespace /* static */ void FrameLayerBuilder::Shutdown() { if (gMaskLayerImageCache) { delete gMaskLayerImageCache; gMaskLayerImageCache = nullptr; } } void FrameLayerBuilder::Init(nsDisplayListBuilder* aBuilder, LayerManager* aManager) { mDisplayListBuilder = aBuilder; mRootPresContext = aBuilder->RootReferenceFrame()->PresContext()->GetRootPresContext(); if (mRootPresContext) { mInitialDOMGeneration = mRootPresContext->GetDOMGeneration(); } aManager->SetUserData(&gLayerManagerLayerBuilder, this); } void FrameLayerBuilder::FlashPaint(gfxContext *aContext) { float r = float(rand()) / RAND_MAX; float g = float(rand()) / RAND_MAX; float b = float(rand()) / RAND_MAX; aContext->SetColor(gfxRGBA(r, g, b, 0.4)); aContext->Paint(); } FrameLayerBuilder::DisplayItemData* FrameLayerBuilder::GetDisplayItemData(nsIFrame* aFrame, uint32_t aKey) { nsTArray *array = reinterpret_cast*>(aFrame->Properties().Get(LayerManagerDataProperty())); if (array) { for (uint32_t i = 0; i < array->Length(); i++) { DisplayItemData* item = array->ElementAt(i); if (item->mDisplayItemKey == aKey && item->mLayer->Manager() == mRetainingManager) { return item; } } } return nullptr; } nsACString& AppendToString(nsACString& s, const nsIntRect& r, const char* pfx="", const char* sfx="") { s += pfx; s += nsPrintfCString( "(x=%d, y=%d, w=%d, h=%d)", r.x, r.y, r.width, r.height); return s += sfx; } nsACString& AppendToString(nsACString& s, const nsIntRegion& r, const char* pfx="", const char* sfx="") { s += pfx; nsIntRegionRectIterator it(r); s += "< "; while (const nsIntRect* sr = it.Next()) { AppendToString(s, *sr) += "; "; } s += ">"; return s += sfx; } /** * Invalidate aRegion in aLayer. aLayer is in the coordinate system * *after* aTranslation has been applied, so we need to * apply the inverse of that transform before calling InvalidateRegion. */ static void InvalidatePostTransformRegion(ThebesLayer* aLayer, const nsIntRegion& aRegion, const nsIntPoint& aTranslation) { // Convert the region from the coordinates of the container layer // (relative to the snapped top-left of the display list reference frame) // to the ThebesLayer's own coordinates nsIntRegion rgn = aRegion; rgn.MoveBy(-aTranslation); aLayer->InvalidateRegion(rgn); #ifdef MOZ_DUMP_PAINTING if (nsLayoutUtils::InvalidationDebuggingIsEnabled()) { nsAutoCString str; AppendToString(str, rgn); printf("Invalidating layer %p: %s\n", aLayer, str.get()); } #endif } static void InvalidatePostTransformRegion(ThebesLayer* aLayer, const nsRect& aRect, const DisplayItemClip& aClip, const nsIntPoint& aTranslation) { ThebesDisplayItemLayerUserData* data = static_cast(aLayer->GetUserData(&gThebesDisplayItemLayerUserData)); nsRect rect = aClip.ApplyNonRoundedIntersection(aRect); nsIntRect pixelRect = rect.ScaleToOutsidePixels(data->mXScale, data->mYScale, data->mAppUnitsPerDevPixel); InvalidatePostTransformRegion(aLayer, pixelRect, aTranslation); } static nsIntPoint GetTranslationForThebesLayer(ThebesLayer* aLayer) { ThebesDisplayItemLayerUserData* data = static_cast (aLayer->GetUserData(&gThebesDisplayItemLayerUserData)); NS_ASSERTION(data, "Must be a tracked thebes layer!"); return data->mTranslation; } /** * Some frames can have multiple, nested, retaining layer managers * associated with them (normal manager, inactive managers, SVG effects). * In these cases we store the 'outermost' LayerManager data property * on the frame since we can walk down the chain from there. * * If one of these frames has just been destroyed, we will free the inner * layer manager when removing the entry from mFramesWithLayers. Destroying * the layer manager destroys the LayerManagerData and calls into * the DisplayItemData destructor. If the inner layer manager had any * items with the same frame, then we attempt to retrieve properties * from the deleted frame. * * Cache the destroyed frame pointer here so we can avoid crashing in this case. */ /* static */ void FrameLayerBuilder::RemoveFrameFromLayerManager(nsIFrame* aFrame, void* aPropertyValue) { sDestroyedFrame = aFrame; nsTArray *array = reinterpret_cast*>(aPropertyValue); // Hold a reference to all the items so that they don't get // deleted from under us. nsTArray > arrayCopy; for (uint32_t i = 0; i < array->Length(); ++i) { arrayCopy.AppendElement(array->ElementAt(i)); } #ifdef DEBUG_DISPLAY_ITEM_DATA if (array->Length()) { LayerManagerData *rootData = array->ElementAt(0)->mParent; while (rootData->mParent) { rootData = rootData->mParent; } printf("Removing frame %p - dumping display data\n", aFrame); rootData->Dump(); } #endif for (uint32_t i = 0; i < array->Length(); ++i) { DisplayItemData* data = array->ElementAt(i); ThebesLayer* t = data->mLayer->AsThebesLayer(); if (t) { ThebesDisplayItemLayerUserData* thebesData = static_cast(t->GetUserData(&gThebesDisplayItemLayerUserData)); if (thebesData) { nsRegion old = data->mGeometry->ComputeInvalidationRegion(); nsIntRegion rgn = old.ScaleToOutsidePixels(thebesData->mXScale, thebesData->mYScale, thebesData->mAppUnitsPerDevPixel); rgn.MoveBy(-GetTranslationForThebesLayer(t)); thebesData->mRegionToInvalidate.Or(thebesData->mRegionToInvalidate, rgn); thebesData->mRegionToInvalidate.SimplifyOutward(8); } } data->mParent->mDisplayItems.RemoveEntry(data); } arrayCopy.Clear(); delete array; sDestroyedFrame = NULL; } void FrameLayerBuilder::DidBeginRetainedLayerTransaction(LayerManager* aManager) { mRetainingManager = aManager; LayerManagerData* data = static_cast (aManager->GetUserData(&gLayerManagerUserData)); if (data) { mInvalidateAllLayers = data->mInvalidateAllLayers; } else { data = new LayerManagerData(aManager); aManager->SetUserData(&gLayerManagerUserData, data); } } void FrameLayerBuilder::StoreOptimizedLayerForFrame(nsDisplayItem* aItem, Layer* aLayer) { if (!mRetainingManager) { return; } DisplayItemData* data = GetDisplayItemDataForManager(aItem, aLayer->Manager()); NS_ASSERTION(data, "Must have already stored data for this item!"); data->mOptLayer = aLayer; } void FrameLayerBuilder::DidEndTransaction() { GetMaskLayerImageCache()->Sweep(); } void FrameLayerBuilder::WillEndTransaction() { if (!mRetainingManager) { return; } // We need to save the data we'll need to support retaining. LayerManagerData* data = static_cast (mRetainingManager->GetUserData(&gLayerManagerUserData)); NS_ASSERTION(data, "Must have data!"); // Update all the frames that used to have layers. data->mDisplayItems.EnumerateEntries(ProcessRemovedDisplayItems, this); data->mInvalidateAllLayers = false; } /* static */ PLDHashOperator FrameLayerBuilder::ProcessRemovedDisplayItems(nsRefPtrHashKey* aEntry, void* aUserArg) { DisplayItemData* data = aEntry->GetKey(); if (!data->mUsed) { // This item was visible, but isn't anymore. FrameLayerBuilder* layerBuilder = static_cast(aUserArg); ThebesLayer* t = data->mLayer->AsThebesLayer(); if (t) { #ifdef MOZ_DUMP_PAINTING if (nsLayoutUtils::InvalidationDebuggingIsEnabled()) { printf("Invalidating unused display item (%i) belonging to frame %p from layer %p\n", data->mDisplayItemKey, data->mFrameList[0], t); } #endif InvalidatePostTransformRegion(t, data->mGeometry->ComputeInvalidationRegion(), data->mClip, layerBuilder->GetLastPaintOffset(t)); } return PL_DHASH_REMOVE; } data->mUsed = false; data->mIsInvalid = false; return PL_DHASH_NEXT; } /* static */ PLDHashOperator FrameLayerBuilder::DumpDisplayItemDataForFrame(nsRefPtrHashKey* aEntry, void* aClosure) { #ifdef DEBUG_DISPLAY_ITEM_DATA DisplayItemData *data = aEntry->GetKey(); nsAutoCString prefix; prefix += static_cast(aClosure); const char *layerState; switch (data->mLayerState) { case LAYER_NONE: layerState = "LAYER_NONE"; break; case LAYER_INACTIVE: layerState = "LAYER_INACTIVE"; break; case LAYER_ACTIVE: layerState = "LAYER_ACTIVE"; break; case LAYER_ACTIVE_FORCE: layerState = "LAYER_ACTIVE_FORCE"; break; case LAYER_ACTIVE_EMPTY: layerState = "LAYER_ACTIVE_EMPTY"; break; case LAYER_SVG_EFFECTS: layerState = "LAYER_SVG_EFFECTS"; break; } uint32_t mask = (1 << nsDisplayItem::TYPE_BITS) - 1; nsAutoCString str; str += prefix; str += nsPrintfCString("Frame %p ", data->mFrameList[0]); str += nsDisplayItem::DisplayItemTypeName(static_cast(data->mDisplayItemKey & mask)); if ((data->mDisplayItemKey >> nsDisplayItem::TYPE_BITS)) { str += nsPrintfCString("(%i)", data->mDisplayItemKey >> nsDisplayItem::TYPE_BITS); } str += nsPrintfCString(", %s, Layer %p", layerState, data->mLayer.get()); if (data->mOptLayer) { str += nsPrintfCString(", OptLayer %p", data->mOptLayer.get()); } if (data->mInactiveManager) { str += nsPrintfCString(", InactiveLayerManager %p", data->mInactiveManager.get()); } str += "\n"; printf("%s", str.get()); if (data->mInactiveManager) { prefix += " "; printf("%sDumping inactive layer info:\n", prefix.get()); LayerManagerData* lmd = static_cast (data->mInactiveManager->GetUserData(&gLayerManagerUserData)); lmd->Dump(prefix.get()); } #endif return PL_DHASH_NEXT; } /* static */ FrameLayerBuilder::DisplayItemData* FrameLayerBuilder::GetDisplayItemDataForManager(nsDisplayItem* aItem, LayerManager* aManager) { nsTArray *array = reinterpret_cast*>(aItem->Frame()->Properties().Get(LayerManagerDataProperty())); if (array) { for (uint32_t i = 0; i < array->Length(); i++) { DisplayItemData* item = array->ElementAt(i); if (item->mDisplayItemKey == aItem->GetPerFrameKey() && item->mLayer->Manager() == aManager) { return item; } } } return nullptr; } bool FrameLayerBuilder::HasRetainedDataFor(nsIFrame* aFrame, uint32_t aDisplayItemKey) { nsTArray *array = reinterpret_cast*>(aFrame->Properties().Get(LayerManagerDataProperty())); if (array) { for (uint32_t i = 0; i < array->Length(); i++) { if (array->ElementAt(i)->mDisplayItemKey == aDisplayItemKey) { return true; } } } return false; } void FrameLayerBuilder::IterateRetainedDataFor(nsIFrame* aFrame, DisplayItemDataCallback aCallback) { nsTArray *array = reinterpret_cast*>(aFrame->Properties().Get(LayerManagerDataProperty())); if (!array) { return; } for (uint32_t i = 0; i < array->Length(); i++) { DisplayItemData* data = array->ElementAt(i); if (data->mDisplayItemKey != nsDisplayItem::TYPE_ZERO) { aCallback(aFrame, data); } } } FrameLayerBuilder::DisplayItemData* FrameLayerBuilder::GetOldLayerForFrame(nsIFrame* aFrame, uint32_t aDisplayItemKey) { // If we need to build a new layer tree, then just refuse to recycle // anything. if (!mRetainingManager || mInvalidateAllLayers) return nullptr; DisplayItemData *data = GetDisplayItemData(aFrame, aDisplayItemKey); if (data && data->mLayer->Manager() == mRetainingManager) { return data; } return nullptr; } Layer* FrameLayerBuilder::GetOldLayerFor(nsDisplayItem* aItem, nsDisplayItemGeometry** aOldGeometry, DisplayItemClip** aOldClip, nsTArray* aChangedFrames, bool *aIsInvalid) { uint32_t key = aItem->GetPerFrameKey(); nsIFrame* frame = aItem->Frame(); DisplayItemData* oldData = GetOldLayerForFrame(frame, key); if (oldData) { if (aOldGeometry) { *aOldGeometry = oldData->mGeometry.get(); } if (aOldClip) { *aOldClip = &oldData->mClip; } if (aChangedFrames) { oldData->GetFrameListChanges(aItem, *aChangedFrames); } if (aIsInvalid) { *aIsInvalid = oldData->mIsInvalid; } return oldData->mLayer; } return nullptr; } /* static */ Layer* FrameLayerBuilder::GetDebugOldLayerFor(nsIFrame* aFrame, uint32_t aDisplayItemKey) { nsTArray *array = reinterpret_cast*>(aFrame->Properties().Get(LayerManagerDataProperty())); if (!array) { return nullptr; } for (uint32_t i = 0; i < array->Length(); i++) { DisplayItemData *data = array->ElementAt(i); if (data->mDisplayItemKey == aDisplayItemKey) { return data->mLayer; } } return nullptr; } already_AddRefed ContainerState::CreateOrRecycleColorLayer(ThebesLayer *aThebes) { ThebesDisplayItemLayerUserData* data = static_cast(aThebes->GetUserData(&gThebesDisplayItemLayerUserData)); nsRefPtr layer = data->mColorLayer; if (layer) { layer->SetMaskLayer(nullptr); } else { // Create a new layer layer = mManager->CreateColorLayer(); if (!layer) return nullptr; // Mark this layer as being used for Thebes-painting display items data->mColorLayer = layer; layer->SetUserData(&gColorLayerUserData, nullptr); // Remove other layer types we might have stored for this ThebesLayer data->mImageLayer = nullptr; } return layer.forget(); } already_AddRefed ContainerState::CreateOrRecycleImageLayer(ThebesLayer *aThebes) { ThebesDisplayItemLayerUserData* data = static_cast(aThebes->GetUserData(&gThebesDisplayItemLayerUserData)); nsRefPtr layer = data->mImageLayer; if (layer) { layer->SetMaskLayer(nullptr); } else { // Create a new layer layer = mManager->CreateImageLayer(); if (!layer) return nullptr; // Mark this layer as being used for Thebes-painting display items data->mImageLayer = layer; layer->SetUserData(&gImageLayerUserData, nullptr); // Remove other layer types we might have stored for this ThebesLayer data->mColorLayer = nullptr; } return layer.forget(); } already_AddRefed ContainerState::CreateOrRecycleMaskImageLayerFor(Layer* aLayer) { nsRefPtr result = mRecycledMaskImageLayers.Get(aLayer); if (result) { mRecycledMaskImageLayers.Remove(aLayer); // XXX if we use clip on mask layers, null it out here } else { // Create a new layer result = mManager->CreateImageLayer(); if (!result) return nullptr; result->SetUserData(&gMaskLayerUserData, new MaskLayerUserData()); result->SetDisallowBigImage(true); } return result.forget(); } static const double SUBPIXEL_OFFSET_EPSILON = 0.02; /** * This normally computes NSToIntRoundUp(aValue). However, if that would * give a residual near 0.5 while aOldResidual is near -0.5, or * it would give a residual near -0.5 while aOldResidual is near 0.5, then * instead we return the integer in the other direction so that the residual * is close to aOldResidual. */ static int32_t RoundToMatchResidual(double aValue, double aOldResidual) { int32_t v = NSToIntRoundUp(aValue); double residual = aValue - v; if (aOldResidual < 0) { if (residual > 0 && fabs(residual - 1.0 - aOldResidual) < SUBPIXEL_OFFSET_EPSILON) { // Round up instead return int32_t(ceil(aValue)); } } else if (aOldResidual > 0) { if (residual < 0 && fabs(residual + 1.0 - aOldResidual) < SUBPIXEL_OFFSET_EPSILON) { // Round down instead return int32_t(floor(aValue)); } } return v; } static void ResetScrollPositionForLayerPixelAlignment(const nsIFrame* aActiveScrolledRoot) { nsIScrollableFrame* sf = nsLayoutUtils::GetScrollableFrameFor(aActiveScrolledRoot); if (sf) { sf->ResetScrollPositionForLayerPixelAlignment(); } } static void InvalidateEntireThebesLayer(ThebesLayer* aLayer, const nsIFrame* aActiveScrolledRoot) { #ifdef MOZ_DUMP_PAINTING if (nsLayoutUtils::InvalidationDebuggingIsEnabled()) { printf("Invalidating entire layer %p\n", aLayer); } #endif nsIntRect invalidate = aLayer->GetValidRegion().GetBounds(); aLayer->InvalidateRegion(invalidate); ResetScrollPositionForLayerPixelAlignment(aActiveScrolledRoot); } already_AddRefed ContainerState::CreateOrRecycleThebesLayer(const nsIFrame* aActiveScrolledRoot, const nsIFrame* aReferenceFrame, const nsPoint& aTopLeft) { // We need a new thebes layer nsRefPtr layer; ThebesDisplayItemLayerUserData* data; #ifndef MOZ_ANDROID_OMTC bool didResetScrollPositionForLayerPixelAlignment = false; #endif if (mNextFreeRecycledThebesLayer < mRecycledThebesLayers.Length()) { // Recycle a layer layer = mRecycledThebesLayers[mNextFreeRecycledThebesLayer]; ++mNextFreeRecycledThebesLayer; // Clear clip rect and mask layer so we don't accidentally stay clipped. // We will reapply any necessary clipping. layer->SetMaskLayer(nullptr); data = static_cast (layer->GetUserData(&gThebesDisplayItemLayerUserData)); NS_ASSERTION(data, "Recycled ThebesLayers must have user data"); // This gets called on recycled ThebesLayers that are going to be in the // final layer tree, so it's a convenient time to invalidate the // content that changed where we don't know what ThebesLayer it belonged // to, or if we need to invalidate the entire layer, we can do that. // This needs to be done before we update the ThebesLayer to its new // transform. See nsGfxScrollFrame::InvalidateInternal, where // we ensure that mInvalidThebesContent is updated according to the // scroll position as of the most recent paint. if (!FuzzyEqual(data->mXScale, mParameters.mXScale, 0.00001f) || !FuzzyEqual(data->mYScale, mParameters.mYScale, 0.00001f) || data->mAppUnitsPerDevPixel != mAppUnitsPerDevPixel) { InvalidateEntireThebesLayer(layer, aActiveScrolledRoot); #ifndef MOZ_ANDROID_OMTC didResetScrollPositionForLayerPixelAlignment = true; #endif } if (!data->mRegionToInvalidate.IsEmpty()) { #ifdef MOZ_DUMP_PAINTING if (nsLayoutUtils::InvalidationDebuggingIsEnabled()) { printf("Invalidating deleted frame content from layer %p\n", layer.get()); } #endif layer->InvalidateRegion(data->mRegionToInvalidate); #ifdef MOZ_DUMP_PAINTING if (nsLayoutUtils::InvalidationDebuggingIsEnabled()) { nsAutoCString str; AppendToString(str, data->mRegionToInvalidate); printf("Invalidating layer %p: %s\n", layer.get(), str.get()); } #endif data->mRegionToInvalidate.SetEmpty(); } // We do not need to Invalidate these areas in the widget because we // assume the caller of InvalidateThebesLayerContents has ensured // the area is invalidated in the widget. } else { // Create a new thebes layer layer = mManager->CreateThebesLayer(); if (!layer) return nullptr; // Mark this layer as being used for Thebes-painting display items data = new ThebesDisplayItemLayerUserData(); layer->SetUserData(&gThebesDisplayItemLayerUserData, data); ResetScrollPositionForLayerPixelAlignment(aActiveScrolledRoot); #ifndef MOZ_ANDROID_OMTC didResetScrollPositionForLayerPixelAlignment = true; #endif } data->mXScale = mParameters.mXScale; data->mYScale = mParameters.mYScale; data->mLastActiveScrolledRootOrigin = data->mActiveScrolledRootOrigin; data->mActiveScrolledRootOrigin = aTopLeft; data->mAppUnitsPerDevPixel = mAppUnitsPerDevPixel; layer->SetAllowResidualTranslation(mParameters.AllowResidualTranslation()); mLayerBuilder->SaveLastPaintOffset(layer); // Set up transform so that 0,0 in the Thebes layer corresponds to the // (pixel-snapped) top-left of the aActiveScrolledRoot. nsPoint offset = aActiveScrolledRoot->GetOffsetToCrossDoc(aReferenceFrame); nscoord appUnitsPerDevPixel = aActiveScrolledRoot->PresContext()->AppUnitsPerDevPixel(); gfxPoint scaledOffset( NSAppUnitsToDoublePixels(offset.x, appUnitsPerDevPixel)*mParameters.mXScale, NSAppUnitsToDoublePixels(offset.y, appUnitsPerDevPixel)*mParameters.mYScale); // We call RoundToMatchResidual here so that the residual after rounding // is close to data->mActiveScrolledRootPosition if possible. nsIntPoint pixOffset(RoundToMatchResidual(scaledOffset.x, data->mActiveScrolledRootPosition.x), RoundToMatchResidual(scaledOffset.y, data->mActiveScrolledRootPosition.y)); data->mTranslation = pixOffset; pixOffset += mParameters.mOffset; gfxMatrix matrix; matrix.Translate(gfxPoint(pixOffset.x, pixOffset.y)); layer->SetBaseTransform(gfx3DMatrix::From2D(matrix)); // FIXME: Temporary workaround for bug 681192 and bug 724786. #ifndef MOZ_ANDROID_OMTC // Calculate exact position of the top-left of the active scrolled root. // This might not be 0,0 due to the snapping in ScaleToNearestPixels. gfxPoint activeScrolledRootTopLeft = scaledOffset - matrix.GetTranslation() + mParameters.mOffset; // If it has changed, then we need to invalidate the entire layer since the // pixels in the layer buffer have the content at a (subpixel) offset // from what we need. if (!activeScrolledRootTopLeft.WithinEpsilonOf(data->mActiveScrolledRootPosition, SUBPIXEL_OFFSET_EPSILON)) { data->mActiveScrolledRootPosition = activeScrolledRootTopLeft; InvalidateEntireThebesLayer(layer, aActiveScrolledRoot); } else if (didResetScrollPositionForLayerPixelAlignment) { data->mActiveScrolledRootPosition = activeScrolledRootTopLeft; } #endif return layer.forget(); } #ifdef MOZ_DUMP_PAINTING /** * Returns the appunits per dev pixel for the item's frame */ static int32_t AppUnitsPerDevPixel(nsDisplayItem* aItem) { // The underlying frame for zoom items is the root frame of the subdocument. // But zoom display items report their bounds etc using the parent document's // APD because zoom items act as a conversion layer between the two different // APDs. if (aItem->GetType() == nsDisplayItem::TYPE_ZOOM) { return static_cast(aItem)->GetParentAppUnitsPerDevPixel(); } return aItem->Frame()->PresContext()->AppUnitsPerDevPixel(); } #endif /** * Restrict the visible region of aLayer to the region that is actually visible. * Because we only reduce the visible region here, we don't need to worry * about whether CONTENT_OPAQUE is set; if layer was opaque in the old * visible region, it will still be opaque in the new one. * @param aLayerVisibleRegion the visible region of the layer, in the layer's * coordinate space * @param aRestrictToRect the rect to restrict the visible region to, in the * parent's coordinate system */ static void SetVisibleRegionForLayer(Layer* aLayer, const nsIntRegion& aLayerVisibleRegion, const nsIntRect& aRestrictToRect) { gfx3DMatrix transform = aLayer->GetTransform(); // if 'transform' is not invertible, then nothing will be displayed // for the layer, so it doesn't really matter what we do here gfxRect itemVisible(aRestrictToRect.x, aRestrictToRect.y, aRestrictToRect.width, aRestrictToRect.height); gfxRect layerVisible = transform.Inverse().ProjectRectBounds(itemVisible); layerVisible.RoundOut(); nsIntRect visibleRect; if (!gfxUtils::GfxRectToIntRect(layerVisible, &visibleRect)) { aLayer->SetVisibleRegion(nsIntRegion()); } else { nsIntRegion rgn; rgn.And(aLayerVisibleRegion, visibleRect); aLayer->SetVisibleRegion(rgn); } } nscolor ContainerState::FindOpaqueBackgroundColorFor(int32_t aThebesLayerIndex) { ThebesLayerData* target = mThebesLayerDataStack[aThebesLayerIndex]; for (int32_t i = aThebesLayerIndex - 1; i >= 0; --i) { ThebesLayerData* candidate = mThebesLayerDataStack[i]; nsIntRegion visibleAboveIntersection; visibleAboveIntersection.And(candidate->mVisibleAboveRegion, target->mVisibleRegion); if (!visibleAboveIntersection.IsEmpty()) { // Some non-Thebes content between target and candidate; this is // hopeless break; } nsIntRegion intersection; intersection.And(candidate->mVisibleRegion, target->mVisibleRegion); if (intersection.IsEmpty()) { // The layer doesn't intersect our target, ignore it and move on continue; } // The candidate intersects our target. If any layer has a solid-color // area behind our target, this must be it. Scan its display items. nsIntRect deviceRect = target->mVisibleRegion.GetBounds(); nsRect appUnitRect = deviceRect.ToAppUnits(mAppUnitsPerDevPixel); appUnitRect.ScaleInverseRoundOut(mParameters.mXScale, mParameters.mYScale); FrameLayerBuilder::ThebesLayerItemsEntry* entry = mLayerBuilder->GetThebesLayerItemsEntry(candidate->mLayer); NS_ASSERTION(entry, "Must know about this layer!"); for (int32_t j = entry->mItems.Length() - 1; j >= 0; --j) { nsDisplayItem* item = entry->mItems[j].mItem; bool snap; nsRect bounds = item->GetBounds(mBuilder, &snap); if (snap && mSnappingEnabled) { nsIntRect snappedBounds = ScaleToNearestPixels(bounds); if (!snappedBounds.Intersects(deviceRect)) continue; if (!snappedBounds.Contains(deviceRect)) break; } else { // The layer's visible rect is already (close enough to) pixel // aligned, so no need to round out and in here. if (!bounds.Intersects(appUnitRect)) continue; if (!bounds.Contains(appUnitRect)) break; } nscolor color; if (item->IsUniform(mBuilder, &color) && NS_GET_A(color) == 255) return color; break; } break; } return NS_RGBA(0,0,0,0); } void ContainerState::ThebesLayerData::UpdateCommonClipCount( const DisplayItemClip& aCurrentClip) { if (mCommonClipCount >= 0) { mCommonClipCount = mItemClip.GetCommonRoundedRectCount(aCurrentClip, mCommonClipCount); } else { // first item in the layer mCommonClipCount = aCurrentClip.GetRoundedRectCount(); } } already_AddRefed ContainerState::ThebesLayerData::CanOptimizeImageLayer(nsDisplayListBuilder* aBuilder) { if (!mImage) { return nullptr; } return mImage->GetContainer(mLayer->Manager(), aBuilder); } void ContainerState::PopThebesLayerData() { NS_ASSERTION(!mThebesLayerDataStack.IsEmpty(), "Can't pop"); int32_t lastIndex = mThebesLayerDataStack.Length() - 1; ThebesLayerData* data = mThebesLayerDataStack[lastIndex]; nsRefPtr layer; nsRefPtr imageContainer = data->CanOptimizeImageLayer(mBuilder); if ((data->mIsSolidColorInVisibleRegion || imageContainer) && data->mLayer->GetValidRegion().IsEmpty()) { NS_ASSERTION(!(data->mIsSolidColorInVisibleRegion && imageContainer), "Can't be a solid color as well as an image!"); if (imageContainer) { nsRefPtr imageLayer = CreateOrRecycleImageLayer(data->mLayer); imageLayer->SetContainer(imageContainer); data->mImage->ConfigureLayer(imageLayer, mParameters.mOffset); imageLayer->SetPostScale(mParameters.mXScale, mParameters.mYScale); if (data->mItemClip.HasClip()) { nsIntRect clip = ScaleToNearestPixels(data->mItemClip.GetClipRect()); clip.MoveBy(mParameters.mOffset); imageLayer->SetClipRect(&clip); } else { imageLayer->SetClipRect(nullptr); } layer = imageLayer; mLayerBuilder->StoreOptimizedLayerForFrame(data->mImage, imageLayer); } else { nsRefPtr colorLayer = CreateOrRecycleColorLayer(data->mLayer); colorLayer->SetIsFixedPosition(data->mLayer->GetIsFixedPosition()); colorLayer->SetColor(data->mSolidColor); // Copy transform colorLayer->SetBaseTransform(data->mLayer->GetBaseTransform()); colorLayer->SetPostScale(data->mLayer->GetPostXScale(), data->mLayer->GetPostYScale()); nsIntRect visibleRect = data->mVisibleRegion.GetBounds(); visibleRect.MoveBy(-GetTranslationForThebesLayer(data->mLayer)); colorLayer->SetBounds(visibleRect); layer = colorLayer; } NS_ASSERTION(!mNewChildLayers.Contains(layer), "Layer already in list???"); AutoLayersArray::index_type index = mNewChildLayers.IndexOf(data->mLayer); NS_ASSERTION(index != AutoLayersArray::NoIndex, "Thebes layer not found?"); mNewChildLayers.InsertElementAt(index + 1, layer); // Hide the ThebesLayer. We leave it in the layer tree so that we // can find and recycle it later. nsIntRect emptyRect; data->mLayer->SetClipRect(&emptyRect); data->mLayer->SetVisibleRegion(nsIntRegion()); } else { layer = data->mLayer; imageContainer = nullptr; layer->SetClipRect(nullptr); } gfxMatrix transform; if (!layer->GetTransform().Is2D(&transform)) { NS_ERROR("Only 2D transformations currently supported"); } // ImageLayers are already configured with a visible region if (!imageContainer) { NS_ASSERTION(!transform.HasNonIntegerTranslation(), "Matrix not just an integer translation?"); // Convert from relative to the container to relative to the // ThebesLayer itself. nsIntRegion rgn = data->mVisibleRegion; rgn.MoveBy(-GetTranslationForThebesLayer(data->mLayer)); layer->SetVisibleRegion(rgn); } nsIntRegion transparentRegion; transparentRegion.Sub(data->mVisibleRegion, data->mOpaqueRegion); bool isOpaque = transparentRegion.IsEmpty(); // For translucent ThebesLayers, try to find an opaque background // color that covers the entire area beneath it so we can pull that // color into this layer to make it opaque. if (layer == data->mLayer) { nscolor backgroundColor = NS_RGBA(0,0,0,0); if (!isOpaque) { backgroundColor = FindOpaqueBackgroundColorFor(lastIndex); if (NS_GET_A(backgroundColor) == 255) { isOpaque = true; } } // Store the background color ThebesDisplayItemLayerUserData* userData = GetThebesDisplayItemLayerUserData(data->mLayer); NS_ASSERTION(userData, "where did our user data go?"); if (userData->mForcedBackgroundColor != backgroundColor) { // Invalidate the entire target ThebesLayer since we're changing // the background color data->mLayer->InvalidateRegion(data->mLayer->GetValidRegion()); } userData->mForcedBackgroundColor = backgroundColor; // use a mask layer for rounded rect clipping int32_t commonClipCount = data->mCommonClipCount; NS_ASSERTION(commonClipCount >= 0, "Inconsistent clip count."); SetupMaskLayer(layer, data->mItemClip, commonClipCount); // copy commonClipCount to the entry FrameLayerBuilder::ThebesLayerItemsEntry* entry = mLayerBuilder-> GetThebesLayerItemsEntry(static_cast(layer.get())); entry->mCommonClipCount = commonClipCount; } else { // mask layer for image and color layers SetupMaskLayer(layer, data->mItemClip); } uint32_t flags; if (isOpaque && !data->mForceTransparentSurface) { flags = Layer::CONTENT_OPAQUE; } else if (data->mNeedComponentAlpha) { flags = Layer::CONTENT_COMPONENT_ALPHA; } else { flags = 0; } layer->SetContentFlags(flags); if (lastIndex > 0) { // Since we're going to pop off the last ThebesLayerData, the // mVisibleAboveRegion of the second-to-last item will need to include // the regions of the last item. ThebesLayerData* nextData = mThebesLayerDataStack[lastIndex - 1]; nextData->mVisibleAboveRegion.Or(nextData->mVisibleAboveRegion, data->mVisibleAboveRegion); nextData->mVisibleAboveRegion.Or(nextData->mVisibleAboveRegion, data->mVisibleRegion); nextData->mVisibleAboveRegion.SimplifyOutward(4); nextData->mDrawAboveRegion.Or(nextData->mDrawAboveRegion, data->mDrawAboveRegion); nextData->mDrawAboveRegion.Or(nextData->mDrawAboveRegion, data->mDrawRegion); nextData->mDrawAboveRegion.SimplifyOutward(4); } mThebesLayerDataStack.RemoveElementAt(lastIndex); } static bool SuppressComponentAlpha(nsDisplayListBuilder* aBuilder, nsDisplayItem* aItem, const nsRect& aComponentAlphaBounds) { const nsRegion* windowTransparentRegion = aBuilder->GetFinalTransparentRegion(); if (!windowTransparentRegion || windowTransparentRegion->IsEmpty()) return false; // Suppress component alpha for items in the toplevel window that are over // the window translucent area nsIFrame* f = aItem->Frame(); nsIFrame* ref = aBuilder->RootReferenceFrame(); if (f->PresContext() != ref->PresContext()) return false; for (nsIFrame* t = f; t; t = t->GetParent()) { if (t->IsTransformed()) return false; } return windowTransparentRegion->Intersects(aComponentAlphaBounds); } static bool WindowHasTransparency(nsDisplayListBuilder* aBuilder) { const nsRegion* windowTransparentRegion = aBuilder->GetFinalTransparentRegion(); return windowTransparentRegion && !windowTransparentRegion->IsEmpty(); } void ContainerState::ThebesLayerData::Accumulate(ContainerState* aState, nsDisplayItem* aItem, const nsIntRect& aVisibleRect, const nsIntRect& aDrawRect, const DisplayItemClip& aClip) { if (aState->mBuilder->NeedToForceTransparentSurfaceForItem(aItem)) { mForceTransparentSurface = true; } if (aState->mParameters.mDisableSubpixelAntialiasingInDescendants) { // Disable component alpha. // Note that the transform (if any) on the ThebesLayer is always an integer translation so // we don't have to factor that in here. aItem->DisableComponentAlpha(); } /* Mark as available for conversion to image layer if this is a nsDisplayImage and * we are the first visible item in the ThebesLayerData object. */ if (mVisibleRegion.IsEmpty() && aItem->SupportsOptimizingToImage()) { mImage = static_cast(aItem); } else { mImage = nullptr; } mItemClip = aClip; if (!mIsSolidColorInVisibleRegion && mOpaqueRegion.Contains(aDrawRect) && mVisibleRegion.Contains(aVisibleRect)) { // A very common case! Most pages have a ThebesLayer with the page // background (opaque) visible and most or all of the page content over the // top of that background. // The rest of this method won't do anything. mVisibleRegion, mOpaqueRegion // and mDrawRegion don't need updating. mVisibleRegion contains aVisibleRect // already, mOpaqueRegion contains aDrawRect and therefore whatever // the opaque region of the item is. mDrawRegion must contain mOpaqueRegion // and therefore aDrawRect. NS_ASSERTION(mDrawRegion.Contains(aDrawRect), "Draw region not covered"); return; } nscolor uniformColor; bool isUniform = aItem->IsUniform(aState->mBuilder, &uniformColor); // Some display items have to exist (so they can set forceTransparentSurface // below) but don't draw anything. They'll return true for isUniform but // a color with opacity 0. if (!isUniform || NS_GET_A(uniformColor) > 0) { // Make sure that the visible area is covered by uniform pixels. In // particular this excludes cases where the edges of the item are not // pixel-aligned (thus the item will not be truly uniform). if (isUniform) { bool snap; nsRect bounds = aItem->GetBounds(aState->mBuilder, &snap); if (!aState->ScaleToInsidePixels(bounds, snap).Contains(aVisibleRect)) { isUniform = false; } } if (isUniform && aClip.GetRoundedRectCount() == 0) { if (mVisibleRegion.IsEmpty()) { // This color is all we have mSolidColor = uniformColor; mIsSolidColorInVisibleRegion = true; } else if (mIsSolidColorInVisibleRegion && mVisibleRegion.IsEqual(nsIntRegion(aVisibleRect))) { // we can just blend the colors together mSolidColor = NS_ComposeColors(mSolidColor, uniformColor); } else { mIsSolidColorInVisibleRegion = false; } } else { mIsSolidColorInVisibleRegion = false; } mVisibleRegion.Or(mVisibleRegion, aVisibleRect); mVisibleRegion.SimplifyOutward(4); mDrawRegion.Or(mDrawRegion, aDrawRect); mDrawRegion.SimplifyOutward(4); } bool snap; nsRegion opaque = aItem->GetOpaqueRegion(aState->mBuilder, &snap); if (!opaque.IsEmpty()) { nsRegion opaqueClipped; nsRegionRectIterator iter(opaque); for (const nsRect* r = iter.Next(); r; r = iter.Next()) { opaqueClipped.Or(opaqueClipped, aClip.ApproximateIntersectInward(*r)); } nsIntRegion opaquePixels = aState->ScaleRegionToInsidePixels(opaqueClipped, snap); nsIntRegionRectIterator iter2(opaquePixels); for (const nsIntRect* r = iter2.Next(); r; r = iter2.Next()) { // We don't use SimplifyInward here since it's not defined exactly // what it will discard. For our purposes the most important case // is a large opaque background at the bottom of z-order (e.g., // a canvas background), so we need to make sure that the first rect // we see doesn't get discarded. nsIntRegion tmp; tmp.Or(mOpaqueRegion, *r); // Opaque display items in chrome documents whose window is partially // transparent are always added to the opaque region. This helps ensure // that we get as much subpixel-AA as possible in the chrome. if (tmp.GetNumRects() <= 4 || (WindowHasTransparency(aState->mBuilder) && aItem->Frame()->PresContext()->IsChrome())) { mOpaqueRegion = tmp; } } } if (!aState->mParameters.mDisableSubpixelAntialiasingInDescendants) { nsRect componentAlpha = aItem->GetComponentAlphaBounds(aState->mBuilder); if (!componentAlpha.IsEmpty()) { nsIntRect componentAlphaRect = aState->ScaleToOutsidePixels(componentAlpha, false).Intersect(aVisibleRect); if (!mOpaqueRegion.Contains(componentAlphaRect)) { if (SuppressComponentAlpha(aState->mBuilder, aItem, componentAlpha)) { aItem->DisableComponentAlpha(); } else { mNeedComponentAlpha = true; } } } } } ContainerState::ThebesLayerData* ContainerState::FindThebesLayerFor(nsDisplayItem* aItem, const nsIntRect& aVisibleRect, const nsIntRect& aDrawRect, const DisplayItemClip& aClip, const nsIFrame* aActiveScrolledRoot, const nsPoint& aTopLeft) { int32_t i; int32_t lowestUsableLayerWithScrolledRoot = -1; int32_t topmostLayerWithScrolledRoot = -1; for (i = mThebesLayerDataStack.Length() - 1; i >= 0; --i) { ThebesLayerData* data = mThebesLayerDataStack[i]; if (data->mDrawAboveRegion.Intersects(aVisibleRect)) { ++i; break; } if (data->mActiveScrolledRoot == aActiveScrolledRoot) { lowestUsableLayerWithScrolledRoot = i; if (topmostLayerWithScrolledRoot < 0) { topmostLayerWithScrolledRoot = i; } } if (data->mDrawRegion.Intersects(aVisibleRect)) break; } if (topmostLayerWithScrolledRoot < 0) { --i; for (; i >= 0; --i) { ThebesLayerData* data = mThebesLayerDataStack[i]; if (data->mActiveScrolledRoot == aActiveScrolledRoot) { topmostLayerWithScrolledRoot = i; break; } } } if (topmostLayerWithScrolledRoot >= 0) { while (uint32_t(topmostLayerWithScrolledRoot + 1) < mThebesLayerDataStack.Length()) { PopThebesLayerData(); } } nsRefPtr layer; ThebesLayerData* thebesLayerData = nullptr; if (lowestUsableLayerWithScrolledRoot < 0) { layer = CreateOrRecycleThebesLayer(aActiveScrolledRoot, aItem->ReferenceFrame(), aTopLeft); NS_ASSERTION(!mNewChildLayers.Contains(layer), "Layer already in list???"); mNewChildLayers.AppendElement(layer); thebesLayerData = new ThebesLayerData(); mThebesLayerDataStack.AppendElement(thebesLayerData); thebesLayerData->mLayer = layer; thebesLayerData->mActiveScrolledRoot = aActiveScrolledRoot; } else { thebesLayerData = mThebesLayerDataStack[lowestUsableLayerWithScrolledRoot]; layer = thebesLayerData->mLayer; } // check to see if the new item has rounded rect clips in common with // other items in the layer thebesLayerData->UpdateCommonClipCount(aClip); thebesLayerData->Accumulate(this, aItem, aVisibleRect, aDrawRect, aClip); return thebesLayerData; } #ifdef MOZ_DUMP_PAINTING static void DumpPaintedImage(nsDisplayItem* aItem, gfxASurface* aSurf) { nsCString string(aItem->Name()); string.Append("-"); string.AppendInt((uint64_t)aItem); fprintf(gfxUtils::sDumpPaintFile, "array[\"%s\"]=\"", string.BeginReading()); aSurf->DumpAsDataURL(gfxUtils::sDumpPaintFile); fprintf(gfxUtils::sDumpPaintFile, "\";"); } #endif static void PaintInactiveLayer(nsDisplayListBuilder* aBuilder, LayerManager* aManager, nsDisplayItem* aItem, gfxContext* aContext, nsRenderingContext* aCtx) { // This item has an inactive layer. Render it to a ThebesLayer // using a temporary BasicLayerManager. BasicLayerManager* basic = static_cast(aManager); nsRefPtr context = aContext; #ifdef MOZ_DUMP_PAINTING int32_t appUnitsPerDevPixel = AppUnitsPerDevPixel(aItem); nsIntRect itemVisibleRect = aItem->GetVisibleRect().ToOutsidePixels(appUnitsPerDevPixel); nsRefPtr surf; if (gfxUtils::sDumpPainting) { surf = gfxPlatform::GetPlatform()->CreateOffscreenSurface(itemVisibleRect.Size(), gfxASurface::CONTENT_COLOR_ALPHA); surf->SetDeviceOffset(-itemVisibleRect.TopLeft()); context = new gfxContext(surf); } #endif basic->SetTarget(context); if (aItem->GetType() == nsDisplayItem::TYPE_SVG_EFFECTS) { static_cast(aItem)->PaintAsLayer(aBuilder, aCtx, basic); if (basic->InTransaction()) { basic->AbortTransaction(); } } else { basic->EndTransaction(FrameLayerBuilder::DrawThebesLayer, aBuilder); } FrameLayerBuilder *builder = static_cast(basic->GetUserData(&gLayerManagerLayerBuilder)); if (builder) { builder->DidEndTransaction(); } basic->SetTarget(nullptr); #ifdef MOZ_DUMP_PAINTING if (gfxUtils::sDumpPainting) { DumpPaintedImage(aItem, surf); surf->SetDeviceOffset(gfxPoint(0, 0)); aContext->SetSource(surf, itemVisibleRect.TopLeft()); aContext->Rectangle(itemVisibleRect); aContext->Fill(); aItem->SetPainted(); } #endif } /** * Chooses a single active scrolled root for the entire display list, used * when we are flattening layers. */ bool ContainerState::ChooseActiveScrolledRoot(const nsDisplayList& aList, const nsIFrame **aActiveScrolledRoot) { for (nsDisplayItem* item = aList.GetBottom(); item; item = item->GetAbove()) { LayerState layerState = item->GetLayerState(mBuilder, mManager, mParameters); // Don't use an item that won't be part of any ThebesLayers to pick the // active scrolled root. if (layerState == LAYER_ACTIVE_FORCE) { continue; } // Try using the actual active scrolled root of the backmost item, as that // should result in the least invalidation when scrolling. mBuilder->IsFixedItem(item, aActiveScrolledRoot); if (*aActiveScrolledRoot) { return true; } } return false; } /* * Iterate through the non-clip items in aList and its descendants. * For each item we compute the effective clip rect. Each item is assigned * to a layer. We invalidate the areas in ThebesLayers where an item * has moved from one ThebesLayer to another. Also, * aState->mInvalidThebesContent is invalidated in every ThebesLayer. * We set the clip rect for items that generated their own layer, and * create a mask layer to do any rounded rect clipping. * (ThebesLayers don't need a clip rect on the layer, we clip the items * individually when we draw them.) * We set the visible rect for all layers, although the actual setting * of visible rects for some ThebesLayers is deferred until the calling * of ContainerState::Finish. */ void ContainerState::ProcessDisplayItems(const nsDisplayList& aList, uint32_t aFlags) { PROFILER_LABEL("ContainerState", "ProcessDisplayItems"); const nsIFrame* lastActiveScrolledRoot = nullptr; nsPoint topLeft; // When NO_COMPONENT_ALPHA is set, items will be flattened into a single // layer, so we need to choose which active scrolled root to use for all // items. if (aFlags & NO_COMPONENT_ALPHA) { if (!ChooseActiveScrolledRoot(aList, &lastActiveScrolledRoot)) { lastActiveScrolledRoot = mContainerReferenceFrame; } topLeft = lastActiveScrolledRoot->GetOffsetToCrossDoc(mContainerReferenceFrame); } int32_t maxLayers = nsDisplayItem::MaxActiveLayers(); int layerCount = 0; for (nsDisplayItem* item = aList.GetBottom(); item; item = item->GetAbove()) { NS_ASSERTION(mAppUnitsPerDevPixel == AppUnitsPerDevPixel(item), "items in a container layer should all have the same app units per dev pixel"); nsIntRect itemVisibleRect = ScaleToOutsidePixels(item->GetVisibleRect(), false); bool snap; nsRect itemContent = item->GetBounds(mBuilder, &snap); nsIntRect itemDrawRect = ScaleToOutsidePixels(itemContent, snap); nsIntRect clipRect; const DisplayItemClip& itemClip = item->GetClip(); if (itemClip.HasClip()) { itemContent.IntersectRect(itemContent, itemClip.GetClipRect()); clipRect = ScaleToNearestPixels(itemClip.GetClipRect()); itemDrawRect.IntersectRect(itemDrawRect, clipRect); clipRect.MoveBy(mParameters.mOffset); } mBounds.UnionRect(mBounds, itemContent); itemVisibleRect.IntersectRect(itemVisibleRect, itemDrawRect); LayerState layerState = item->GetLayerState(mBuilder, mManager, mParameters); if (layerState == LAYER_INACTIVE && nsDisplayItem::ForceActiveLayers()) { layerState = LAYER_ACTIVE; } bool isFixed; bool forceInactive; const nsIFrame* activeScrolledRoot; if (aFlags & NO_COMPONENT_ALPHA) { forceInactive = true; activeScrolledRoot = lastActiveScrolledRoot; isFixed = mBuilder->IsFixedItem(item, nullptr, activeScrolledRoot); } else { forceInactive = false; isFixed = mBuilder->IsFixedItem(item, &activeScrolledRoot); if (activeScrolledRoot != lastActiveScrolledRoot) { lastActiveScrolledRoot = activeScrolledRoot; topLeft = activeScrolledRoot->GetOffsetToCrossDoc(mContainerReferenceFrame); } } if (maxLayers != -1 && layerCount >= maxLayers) { forceInactive = true; } // Assign the item to a layer if (layerState == LAYER_ACTIVE_FORCE || (layerState == LAYER_INACTIVE && !mManager->IsWidgetLayerManager()) || (!forceInactive && (layerState == LAYER_ACTIVE_EMPTY || layerState == LAYER_ACTIVE))) { layerCount++; // LAYER_ACTIVE_EMPTY means the layer is created just for its metadata. // We should never see an empty layer with any visible content! NS_ASSERTION(layerState != LAYER_ACTIVE_EMPTY || itemVisibleRect.IsEmpty(), "State is LAYER_ACTIVE_EMPTY but visible rect is not."); // As long as the new layer isn't going to be a ThebesLayer, // InvalidateForLayerChange doesn't need the new layer pointer. // We also need to check the old data now, because BuildLayer // can overwrite it. InvalidateForLayerChange(item, nullptr, itemClip, topLeft, nullptr); // If the item would have its own layer but is invisible, just hide it. // Note that items without their own layers can't be skipped this // way, since their ThebesLayer may decide it wants to draw them // into its buffer even if they're currently covered. if (itemVisibleRect.IsEmpty() && !item->ShouldBuildLayerEvenIfInvisible(mBuilder)) { continue; } nsDisplayItem::Type type = item->GetType(); bool setVisibleRegion = type != nsDisplayItem::TYPE_TRANSFORM; if (setVisibleRegion) { mParameters.mAncestorClipRect = nullptr; } else { mParameters.mAncestorClipRect = itemClip.HasClip() ? &clipRect : nullptr; } // Just use its layer. nsRefPtr ownLayer = item->BuildLayer(mBuilder, mManager, mParameters); if (!ownLayer) { continue; } NS_ASSERTION(!ownLayer->AsThebesLayer(), "Should never have created a dedicated Thebes layer!"); nsRect invalid; if (item->IsInvalid(invalid)) { ownLayer->SetInvalidRectToVisibleRegion(); } // If it's not a ContainerLayer, we need to apply the scale transform // ourselves. if (!ownLayer->AsContainerLayer()) { ownLayer->SetPostScale(mParameters.mXScale, mParameters.mYScale); } ownLayer->SetIsFixedPosition(isFixed); // Update that layer's clip and visible rects. NS_ASSERTION(ownLayer->Manager() == mManager, "Wrong manager"); NS_ASSERTION(!ownLayer->HasUserData(&gLayerManagerUserData), "We shouldn't have a FrameLayerBuilder-managed layer here!"); NS_ASSERTION(itemClip.HasClip() || itemClip.GetRoundedRectCount() == 0, "If we have rounded rects, we must have a clip rect"); // It has its own layer. Update that layer's clip and visible rects. if (itemClip.HasClip()) { ownLayer->SetClipRect(&clipRect); } else { ownLayer->SetClipRect(nullptr); } ThebesLayerData* data = GetTopThebesLayerData(); if (data) { data->mVisibleAboveRegion.Or(data->mVisibleAboveRegion, itemVisibleRect); data->mVisibleAboveRegion.SimplifyOutward(4); // Add the entire bounds rect to the mDrawAboveRegion. // The visible region may be excluding opaque content above the // item, and we need to ensure that that content is not placed // in a ThebesLayer below the item! data->mDrawAboveRegion.Or(data->mDrawAboveRegion, itemDrawRect); data->mDrawAboveRegion.SimplifyOutward(4); } itemVisibleRect.MoveBy(mParameters.mOffset); if (setVisibleRegion) { SetVisibleRegionForLayer(ownLayer, ownLayer->GetVisibleRegion(), itemVisibleRect); } // rounded rectangle clipping using mask layers // (must be done after visible rect is set on layer) if (itemClip.IsRectClippedByRoundedCorner(itemContent)) { SetupMaskLayer(ownLayer, itemClip); } ContainerLayer* oldContainer = ownLayer->GetParent(); if (oldContainer && oldContainer != mContainerLayer) { oldContainer->RemoveChild(ownLayer); } NS_ASSERTION(!mNewChildLayers.Contains(ownLayer), "Layer already in list???"); mNewChildLayers.AppendElement(ownLayer); /** * No need to allocate geometry for items that aren't * part of a ThebesLayer. */ nsAutoPtr dummy; mLayerBuilder->AddLayerDisplayItem(ownLayer, item, itemClip, layerState, topLeft, nullptr, dummy); } else { ThebesLayerData* data = FindThebesLayerFor(item, itemVisibleRect, itemDrawRect, itemClip, activeScrolledRoot, topLeft); data->mLayer->SetIsFixedPosition(isFixed); nsAutoPtr geometry(item->AllocateGeometry(mBuilder)); InvalidateForLayerChange(item, data->mLayer, itemClip, topLeft, geometry); mLayerBuilder->AddThebesDisplayItem(data->mLayer, item, itemClip, mContainerFrame, layerState, topLeft, geometry); // check to see if the new item has rounded rect clips in common with // other items in the layer data->UpdateCommonClipCount(itemClip); } } } void ContainerState::InvalidateForLayerChange(nsDisplayItem* aItem, Layer* aNewLayer, const DisplayItemClip& aClip, const nsPoint& aTopLeft, nsDisplayItemGeometry *aGeometry) { NS_ASSERTION(aItem->GetPerFrameKey(), "Display items that render using Thebes must have a key"); nsDisplayItemGeometry *oldGeometry = NULL; DisplayItemClip* oldClip = NULL; nsAutoTArray changedFrames; bool isInvalid = false; Layer* oldLayer = mLayerBuilder->GetOldLayerFor(aItem, &oldGeometry, &oldClip, &changedFrames, &isInvalid); if (aNewLayer != oldLayer && oldLayer) { // The item has changed layers. // Invalidate the old bounds in the old layer and new bounds in the new layer. ThebesLayer* t = oldLayer->AsThebesLayer(); if (t) { // Note that whenever the layer's scale changes, we invalidate the whole thing, // so it doesn't matter whether we are using the old scale at last paint // or a new scale here #ifdef MOZ_DUMP_PAINTING if (nsLayoutUtils::InvalidationDebuggingIsEnabled()) { printf("Display item type %s(%p) changed layers %p to %p!\n", aItem->Name(), aItem->Frame(), t, aNewLayer); } #endif InvalidatePostTransformRegion(t, oldGeometry->ComputeInvalidationRegion(), *oldClip, mLayerBuilder->GetLastPaintOffset(t)); } if (aNewLayer) { ThebesLayer* newThebesLayer = aNewLayer->AsThebesLayer(); if (newThebesLayer) { InvalidatePostTransformRegion(newThebesLayer, aGeometry->ComputeInvalidationRegion(), aClip, GetTranslationForThebesLayer(newThebesLayer)); } } aItem->NotifyRenderingChanged(); return; } if (!aNewLayer) { return; } ThebesLayer* newThebesLayer = aNewLayer->AsThebesLayer(); if (!newThebesLayer) { return; } ThebesDisplayItemLayerUserData* data = static_cast(newThebesLayer->GetUserData(&gThebesDisplayItemLayerUserData)); // If the frame is marked as invalidated, and didn't specify a rect to invalidate then we want to // invalidate both the old and new bounds, otherwise we only want to invalidate the changed areas. // If we do get an invalid rect, then we want to add this on top of the change areas. nsRect invalid; nsRegion combined; nsPoint shift = aTopLeft - data->mLastActiveScrolledRootOrigin; if (!oldLayer) { // This item is being added for the first time, invalidate its entire area. //TODO: We call GetGeometry again in AddThebesDisplayItem, we should reuse this. combined = aClip.ApplyNonRoundedIntersection(aGeometry->ComputeInvalidationRegion()); #ifdef MOZ_DUMP_PAINTING if (nsLayoutUtils::InvalidationDebuggingIsEnabled()) { printf("Display item type %s(%p) added to layer %p!\n", aItem->Name(), aItem->Frame(), aNewLayer); } #endif } else if (isInvalid || (aItem->IsInvalid(invalid) && invalid.IsEmpty())) { // Either layout marked item as needing repainting, invalidate the entire old and new areas. combined = oldClip->ApplyNonRoundedIntersection(oldGeometry->ComputeInvalidationRegion()); combined.MoveBy(shift); combined.Or(combined, aClip.ApplyNonRoundedIntersection(aGeometry->ComputeInvalidationRegion())); #ifdef MOZ_DUMP_PAINTING if (nsLayoutUtils::InvalidationDebuggingIsEnabled()) { printf("Display item type %s(%p) (in layer %p) belongs to an invalidated frame!\n", aItem->Name(), aItem->Frame(), aNewLayer); } #endif } else { // Let the display item check for geometry changes and decide what needs to be // repainted. oldGeometry->MoveBy(shift); aItem->ComputeInvalidationRegion(mBuilder, oldGeometry, &combined); oldClip->AddOffsetAndComputeDifference(shift, oldGeometry->ComputeInvalidationRegion(), aClip, aGeometry->ComputeInvalidationRegion(), &combined); // Add in any rect that the frame specified combined.Or(combined, invalid); for (uint32_t i = 0; i < changedFrames.Length(); i++) { combined.Or(combined, changedFrames[i]->GetVisualOverflowRect()); } // Restrict invalidation to the clipped region nsRegion clip; if (aClip.ComputeRegionInClips(oldClip, shift, &clip)) { combined.And(combined, clip); } #ifdef MOZ_DUMP_PAINTING if (nsLayoutUtils::InvalidationDebuggingIsEnabled()) { if (!combined.IsEmpty()) { printf("Display item type %s(%p) (in layer %p) changed geometry!\n", aItem->Name(), aItem->Frame(), aNewLayer); } } #endif } if (!combined.IsEmpty()) { aItem->NotifyRenderingChanged(); InvalidatePostTransformRegion(newThebesLayer, combined.ScaleToOutsidePixels(data->mXScale, data->mYScale, mAppUnitsPerDevPixel), GetTranslationForThebesLayer(newThebesLayer)); } } void FrameLayerBuilder::AddThebesDisplayItem(ThebesLayer* aLayer, nsDisplayItem* aItem, const DisplayItemClip& aClip, nsIFrame* aContainerLayerFrame, LayerState aLayerState, const nsPoint& aTopLeft, nsAutoPtr aGeometry) { ThebesDisplayItemLayerUserData* thebesData = static_cast(aLayer->GetUserData(&gThebesDisplayItemLayerUserData)); nsRefPtr tempManager; nsIntRect intClip; bool hasClip = false; if (aLayerState != LAYER_NONE) { DisplayItemData *data = GetDisplayItemDataForManager(aItem, aLayer->Manager()); if (data) { tempManager = data->mInactiveManager; } if (!tempManager) { tempManager = new BasicLayerManager(); } // We need to grab these before calling AddLayerDisplayItem because it will overwrite them. nsRegion clip; DisplayItemClip* oldClip = nullptr; GetOldLayerFor(aItem, nullptr, &oldClip); hasClip = aClip.ComputeRegionInClips(oldClip, aTopLeft - thebesData->mLastActiveScrolledRootOrigin, &clip); if (hasClip) { intClip = clip.GetBounds().ScaleToOutsidePixels(thebesData->mXScale, thebesData->mYScale, thebesData->mAppUnitsPerDevPixel); } } AddLayerDisplayItem(aLayer, aItem, aClip, aLayerState, aTopLeft, tempManager, aGeometry); ThebesLayerItemsEntry* entry = mThebesLayerItems.PutEntry(aLayer); if (entry) { entry->mContainerLayerFrame = aContainerLayerFrame; if (entry->mContainerLayerGeneration == 0) { entry->mContainerLayerGeneration = mContainerLayerGeneration; } if (tempManager) { FrameLayerBuilder* layerBuilder = new FrameLayerBuilder(); layerBuilder->Init(mDisplayListBuilder, tempManager); tempManager->BeginTransaction(); if (mRetainingManager) { layerBuilder->DidBeginRetainedLayerTransaction(tempManager); } nsAutoPtr props(LayerProperties::CloneFrom(tempManager->GetRoot())); nsRefPtr layer = aItem->BuildLayer(mDisplayListBuilder, tempManager, FrameLayerBuilder::ContainerParameters()); // We have no easy way of detecting if this transaction will ever actually get finished. // For now, I've just silenced the warning with nested transactions in BasicLayers.cpp if (!layer) { tempManager->EndTransaction(nullptr, nullptr); tempManager->SetUserData(&gLayerManagerLayerBuilder, nullptr); return; } // If BuildLayer didn't call BuildContainerLayerFor, then our new layer won't have been // stored in layerBuilder. Manually add it now. if (mRetainingManager) { #ifdef DEBUG_DISPLAY_ITEM_DATA LayerManagerData* parentLmd = static_cast (aLayer->Manager()->GetUserData(&gLayerManagerUserData)); LayerManagerData* lmd = static_cast (tempManager->GetUserData(&gLayerManagerUserData)); lmd->mParent = parentLmd; #endif layerBuilder->StoreDataForFrame(aItem, layer, LAYER_ACTIVE); } tempManager->SetRoot(layer); layerBuilder->WillEndTransaction(); nsIntPoint offset = GetLastPaintOffset(aLayer) - GetTranslationForThebesLayer(aLayer); props->MoveBy(-offset); nsIntRegion invalid = props->ComputeDifferences(layer, nullptr); if (aLayerState == LAYER_SVG_EFFECTS) { invalid = nsSVGIntegrationUtils::AdjustInvalidAreaForSVGEffects(aItem->Frame(), aItem->ToReferenceFrame(), invalid.GetBounds()); } if (!invalid.IsEmpty()) { #ifdef MOZ_DUMP_PAINTING if (nsLayoutUtils::InvalidationDebuggingIsEnabled()) { printf("Inactive LayerManager(%p) for display item %s(%p) has an invalid region - invalidating layer %p\n", tempManager.get(), aItem->Name(), aItem->Frame(), aLayer); } #endif if (hasClip) { invalid.And(invalid, intClip); } invalid.ScaleRoundOut(thebesData->mXScale, thebesData->mYScale); InvalidatePostTransformRegion(aLayer, invalid, GetTranslationForThebesLayer(aLayer)); } } ClippedDisplayItem* cdi = entry->mItems.AppendElement(ClippedDisplayItem(aItem, mContainerLayerGeneration)); cdi->mInactiveLayerManager = tempManager; } } FrameLayerBuilder::DisplayItemData* FrameLayerBuilder::StoreDataForFrame(nsDisplayItem* aItem, Layer* aLayer, LayerState aState) { DisplayItemData* oldData = GetDisplayItemDataForManager(aItem, mRetainingManager); if (oldData) { if (!oldData->mUsed) { oldData->UpdateContents(aLayer, aState, mContainerLayerGeneration, aItem); } return oldData; } LayerManagerData* lmd = static_cast (mRetainingManager->GetUserData(&gLayerManagerUserData)); nsRefPtr data = new DisplayItemData(lmd, aItem->GetPerFrameKey(), aLayer, aState, mContainerLayerGeneration); data->AddFrame(aItem->Frame()); nsAutoTArray mergedFrames; aItem->GetMergedFrames(&mergedFrames); for (uint32_t i = 0; i < mergedFrames.Length(); ++i) { data->AddFrame(mergedFrames[i]); } lmd->mDisplayItems.PutEntry(data); return data; } void FrameLayerBuilder::StoreDataForFrame(nsIFrame* aFrame, uint32_t aDisplayItemKey, Layer* aLayer, LayerState aState) { DisplayItemData* oldData = GetDisplayItemData(aFrame, aDisplayItemKey); if (oldData && oldData->mFrameList.Length() == 1) { oldData->UpdateContents(aLayer, aState, mContainerLayerGeneration); return; } LayerManagerData* lmd = static_cast (mRetainingManager->GetUserData(&gLayerManagerUserData)); nsRefPtr data = new DisplayItemData(lmd, aDisplayItemKey, aLayer, aState, mContainerLayerGeneration); data->AddFrame(aFrame); lmd->mDisplayItems.PutEntry(data); } FrameLayerBuilder::ClippedDisplayItem::~ClippedDisplayItem() { if (mInactiveLayerManager) { // We always start a transaction during layer construction for all inactive // layers, but we don't necessarily call EndTransaction during painting. // If the transaaction is still open, end it to avoid assertions. BasicLayerManager* basic = static_cast(mInactiveLayerManager.get()); if (basic->InTransaction()) { basic->EndTransaction(nullptr, nullptr); } basic->SetUserData(&gLayerManagerLayerBuilder, nullptr); } } void FrameLayerBuilder::AddLayerDisplayItem(Layer* aLayer, nsDisplayItem* aItem, const DisplayItemClip& aClip, LayerState aLayerState, const nsPoint& aTopLeft, LayerManager* aManager, nsAutoPtr aGeometry) { if (aLayer->Manager() != mRetainingManager) return; DisplayItemData *data = StoreDataForFrame(aItem, aLayer, aLayerState); ThebesLayer *t = aLayer->AsThebesLayer(); if (t) { data->mGeometry = aGeometry; data->mClip = aClip; } data->mInactiveManager = aManager; } nsIntPoint FrameLayerBuilder::GetLastPaintOffset(ThebesLayer* aLayer) { ThebesLayerItemsEntry* entry = mThebesLayerItems.PutEntry(aLayer); if (entry) { if (entry->mContainerLayerGeneration == 0) { entry->mContainerLayerGeneration = mContainerLayerGeneration; } if (entry->mHasExplicitLastPaintOffset) return entry->mLastPaintOffset; } return GetTranslationForThebesLayer(aLayer); } void FrameLayerBuilder::SaveLastPaintOffset(ThebesLayer* aLayer) { ThebesLayerItemsEntry* entry = mThebesLayerItems.PutEntry(aLayer); if (entry) { if (entry->mContainerLayerGeneration == 0) { entry->mContainerLayerGeneration = mContainerLayerGeneration; } entry->mLastPaintOffset = GetTranslationForThebesLayer(aLayer); entry->mHasExplicitLastPaintOffset = true; } } void ContainerState::CollectOldLayers() { for (Layer* layer = mContainerLayer->GetFirstChild(); layer; layer = layer->GetNextSibling()) { NS_ASSERTION(!layer->HasUserData(&gMaskLayerUserData), "Mask layer in layer tree; could not be recycled."); if (layer->HasUserData(&gThebesDisplayItemLayerUserData)) { NS_ASSERTION(layer->AsThebesLayer(), "Wrong layer type"); mRecycledThebesLayers.AppendElement(static_cast(layer)); } if (Layer* maskLayer = layer->GetMaskLayer()) { NS_ASSERTION(maskLayer->GetType() == Layer::TYPE_IMAGE, "Could not recycle mask layer, unsupported layer type."); mRecycledMaskImageLayers.Put(layer, static_cast(maskLayer)); } } } void ContainerState::Finish(uint32_t* aTextContentFlags, LayerManagerData* aData) { while (!mThebesLayerDataStack.IsEmpty()) { PopThebesLayerData(); } uint32_t textContentFlags = 0; // Make sure that current/existing layers are added to the parent and are // in the correct order. Layer* layer = nullptr; for (uint32_t i = 0; i < mNewChildLayers.Length(); ++i) { Layer* prevChild = i == 0 ? nullptr : mNewChildLayers[i - 1].get(); layer = mNewChildLayers[i]; if (!layer->GetVisibleRegion().IsEmpty()) { textContentFlags |= layer->GetContentFlags() & Layer::CONTENT_COMPONENT_ALPHA; } if (!layer->GetParent()) { // This is not currently a child of the container, so just add it // now. mContainerLayer->InsertAfter(layer, prevChild); continue; } NS_ASSERTION(layer->GetParent() == mContainerLayer, "Layer shouldn't be the child of some other container"); if (layer->GetPrevSibling() != prevChild) { mContainerLayer->RepositionChild(layer, prevChild); } } // Remove old layers that have become unused. if (!layer) { layer = mContainerLayer->GetFirstChild(); } else { layer = layer->GetNextSibling(); } while (layer) { Layer *layerToRemove = layer; layer = layer->GetNextSibling(); mContainerLayer->RemoveChild(layerToRemove); } *aTextContentFlags = textContentFlags; } static inline gfxSize RoundToFloatPrecision(const gfxSize& aSize) { return gfxSize(float(aSize.width), float(aSize.height)); } static bool ChooseScaleAndSetTransform(FrameLayerBuilder* aLayerBuilder, nsDisplayListBuilder* aDisplayListBuilder, nsIFrame* aContainerFrame, const gfx3DMatrix* aTransform, const FrameLayerBuilder::ContainerParameters& aIncomingScale, ContainerLayer* aLayer, LayerState aState, FrameLayerBuilder::ContainerParameters& aOutgoingScale) { nsIntPoint offset; gfx3DMatrix transform = gfx3DMatrix::ScalingMatrix(aIncomingScale.mXScale, aIncomingScale.mYScale, 1.0); if (aTransform) { // aTransform is applied first, then the scale is applied to the result transform = (*aTransform)*transform; // Set any matrix entries close to integers to be those exact integers. // This protects against floating-point inaccuracies causing problems // in the checks below. transform.NudgeToIntegers(); } gfxMatrix transform2d; if (aContainerFrame && (aState == LAYER_INACTIVE || aState == LAYER_SVG_EFFECTS) && (!aTransform || (aTransform->Is2D(&transform2d) && !transform2d.HasNonTranslation()))) { // When we have an inactive ContainerLayer, translate the container by the offset to the // reference frame (and offset all child layers by the reverse) so that the coordinate // space of the child layers isn't affected by scrolling. // This gets confusing for complicated transform (since we'd have to compute the scale // factors for the matrix), so we don't bother. Any frames that are building an nsDisplayTransform // for a css transform would have 0,0 as their offset to the reference frame, so this doesn't // matter. nsPoint appUnitOffset = aDisplayListBuilder->ToReferenceFrame(aContainerFrame); nscoord appUnitsPerDevPixel = aContainerFrame->PresContext()->AppUnitsPerDevPixel(); offset = nsIntPoint( NS_lround(NSAppUnitsToDoublePixels(appUnitOffset.x, appUnitsPerDevPixel)*aIncomingScale.mXScale), NS_lround(NSAppUnitsToDoublePixels(appUnitOffset.y, appUnitsPerDevPixel)*aIncomingScale.mYScale)); } transform = transform * gfx3DMatrix::Translation(offset.x + aIncomingScale.mOffset.x, offset.y + aIncomingScale.mOffset.y, 0); if (transform.IsSingular()) { return false; } bool canDraw2D = transform.CanDraw2D(&transform2d); gfxSize scale; bool isRetained = aLayer->Manager()->IsWidgetLayerManager(); // Only fiddle with scale factors for the retaining layer manager, since // it only matters for retained layers // XXX Should we do something for 3D transforms? if (canDraw2D && isRetained) { // If the container's transform is animated off main thread, then use the // maximum scale. if (aContainerFrame->GetContent() && nsLayoutUtils::HasAnimationsForCompositor( aContainerFrame->GetContent(), eCSSProperty_transform)) { scale = nsLayoutUtils::GetMaximumAnimatedScale(aContainerFrame->GetContent()); } else { //Scale factors are normalized to a power of 2 to reduce the number of resolution changes scale = RoundToFloatPrecision(transform2d.ScaleFactors(true)); // For frames with a changing transform that's not just a translation, // round scale factors up to nearest power-of-2 boundary so that we don't // keep having to redraw the content as it scales up and down. Rounding up to nearest // power-of-2 boundary ensures we never scale up, only down --- avoiding // jaggies. It also ensures we never scale down by more than a factor of 2, // avoiding bad downscaling quality. gfxMatrix frameTransform; if (aContainerFrame->AreLayersMarkedActive(nsChangeHint_UpdateTransformLayer) && aTransform && (!aTransform->Is2D(&frameTransform) || frameTransform.HasNonTranslationOrFlip())) { // Don't clamp the scale factor when the new desired scale factor matches the old one // or it was previously unscaled. bool clamp = true; gfxMatrix oldFrameTransform2d; if (aLayer->GetBaseTransform().Is2D(&oldFrameTransform2d)) { gfxSize oldScale = RoundToFloatPrecision(oldFrameTransform2d.ScaleFactors(true)); if (oldScale == scale || oldScale == gfxSize(1.0, 1.0)) { clamp = false; } } if (clamp) { scale.width = gfxUtils::ClampToScaleFactor(scale.width); scale.height = gfxUtils::ClampToScaleFactor(scale.height); } } else { // XXX Do we need to move nearly-integer values to integers here? } } // If the scale factors are too small, just use 1.0. The content is being // scaled out of sight anyway. if (fabs(scale.width) < 1e-8 || fabs(scale.height) < 1e-8) { scale = gfxSize(1.0, 1.0); } } else { scale = gfxSize(1.0, 1.0); } // Store the inverse of our resolution-scale on the layer aLayer->SetBaseTransform(transform); aLayer->SetPreScale(1.0f/float(scale.width), 1.0f/float(scale.height)); aLayer->SetInheritedScale(aIncomingScale.mXScale, aIncomingScale.mYScale); aOutgoingScale = FrameLayerBuilder::ContainerParameters(scale.width, scale.height, -offset, aIncomingScale); if (aTransform) { aOutgoingScale.mInTransformedSubtree = true; if (aContainerFrame->AreLayersMarkedActive(nsChangeHint_UpdateTransformLayer)) { aOutgoingScale.mInActiveTransformedSubtree = true; } } if (isRetained && (!canDraw2D || transform2d.HasNonIntegerTranslation())) { aOutgoingScale.mDisableSubpixelAntialiasingInDescendants = true; } return true; } /* static */ PLDHashOperator FrameLayerBuilder::RestoreDisplayItemData(nsRefPtrHashKey* aEntry, void* aUserArg) { DisplayItemData* data = aEntry->GetKey(); uint32_t *generation = static_cast(aUserArg); if (data->mUsed && data->mContainerLayerGeneration >= *generation) { return PL_DHASH_REMOVE; } return PL_DHASH_NEXT; } /* static */ PLDHashOperator FrameLayerBuilder::RestoreThebesLayerItemEntries(ThebesLayerItemsEntry* aEntry, void* aUserArg) { uint32_t *generation = static_cast(aUserArg); if (aEntry->mContainerLayerGeneration >= *generation) { // We can just remove these items rather than attempting to revert them // because we're going to want to invalidate everything when transitioning // to component alpha flattening. return PL_DHASH_REMOVE; } for (uint32_t i = 0; i < aEntry->mItems.Length(); i++) { if (aEntry->mItems[i].mContainerLayerGeneration >= *generation) { aEntry->mItems.TruncateLength(i); return PL_DHASH_NEXT; } } return PL_DHASH_NEXT; } already_AddRefed FrameLayerBuilder::BuildContainerLayerFor(nsDisplayListBuilder* aBuilder, LayerManager* aManager, nsIFrame* aContainerFrame, nsDisplayItem* aContainerItem, const nsDisplayList& aChildren, const ContainerParameters& aParameters, const gfx3DMatrix* aTransform, uint32_t aFlags) { uint32_t containerDisplayItemKey = aContainerItem ? aContainerItem->GetPerFrameKey() : nsDisplayItem::TYPE_ZERO; NS_ASSERTION(aContainerFrame, "Container display items here should have a frame"); NS_ASSERTION(!aContainerItem || aContainerItem->Frame() == aContainerFrame, "Container display item must match given frame"); if (!aParameters.mXScale || !aParameters.mYScale) { return nullptr; } nsRefPtr containerLayer; if (aManager == mRetainingManager) { // Using GetOldLayerFor will search merged frames, as well as the underlying // frame. The underlying frame can change when a page scrolls, so this // avoids layer recreation in the situation that a new underlying frame is // picked for a layer. Layer* oldLayer = nullptr; if (aContainerItem) { oldLayer = GetOldLayerFor(aContainerItem); } else { DisplayItemData *data = GetOldLayerForFrame(aContainerFrame, containerDisplayItemKey); if (data) { oldLayer = data->mLayer; } } if (oldLayer) { NS_ASSERTION(oldLayer->Manager() == aManager, "Wrong manager"); if (oldLayer->HasUserData(&gThebesDisplayItemLayerUserData)) { // The old layer for this item is actually our ThebesLayer // because we rendered its layer into that ThebesLayer. So we // don't actually have a retained container layer. } else { NS_ASSERTION(oldLayer->GetType() == Layer::TYPE_CONTAINER, "Wrong layer type"); containerLayer = static_cast(oldLayer); containerLayer->SetMaskLayer(nullptr); } } } if (!containerLayer) { // No suitable existing layer was found. containerLayer = aManager->CreateContainerLayer(); if (!containerLayer) return nullptr; } LayerState state = aContainerItem ? aContainerItem->GetLayerState(aBuilder, aManager, aParameters) : LAYER_ACTIVE; if (state == LAYER_INACTIVE && nsDisplayItem::ForceActiveLayers()) { state = LAYER_ACTIVE; } if (aContainerItem && state == LAYER_ACTIVE_EMPTY) { // Empty layers only have metadata and should never have display items. We // early exit because later, invalidation will walk up the frame tree to // determine which thebes layer gets invalidated. Since an empty layer // should never have anything to paint, it should never be invalidated. NS_ASSERTION(aChildren.IsEmpty(), "Should have no children"); return containerLayer.forget(); } ContainerParameters scaleParameters; if (!ChooseScaleAndSetTransform(this, aBuilder, aContainerFrame, aTransform, aParameters, containerLayer, state, scaleParameters)) { return nullptr; } uint32_t oldGeneration = mContainerLayerGeneration; mContainerLayerGeneration = ++mMaxContainerLayerGeneration; nsRefPtr thebesLayerInvalidRegion = nullptr; if (mRetainingManager) { if (aContainerItem) { StoreDataForFrame(aContainerItem, containerLayer, LAYER_ACTIVE); } else { StoreDataForFrame(aContainerFrame, containerDisplayItemKey, containerLayer, LAYER_ACTIVE); } } LayerManagerData* data = static_cast (aManager->GetUserData(&gLayerManagerUserData)); nsRect bounds; nsIntRect pixBounds; int32_t appUnitsPerDevPixel; uint32_t stateFlags = 0; if ((aContainerFrame->GetStateBits() & NS_FRAME_NO_COMPONENT_ALPHA) && mRetainingManager && !mRetainingManager->AreComponentAlphaLayersEnabled()) { stateFlags = ContainerState::NO_COMPONENT_ALPHA; } uint32_t flags; while (true) { ContainerState state(aBuilder, aManager, aManager->GetLayerBuilder(), aContainerFrame, aContainerItem, containerLayer, scaleParameters); state.ProcessDisplayItems(aChildren, stateFlags); // Set CONTENT_COMPONENT_ALPHA if any of our children have it. // This is suboptimal ... a child could have text that's over transparent // pixels in its own layer, but over opaque parts of previous siblings. state.Finish(&flags, data); bounds = state.GetChildrenBounds(); pixBounds = state.ScaleToOutsidePixels(bounds, false); appUnitsPerDevPixel = state.GetAppUnitsPerDevPixel(); if ((flags & Layer::CONTENT_COMPONENT_ALPHA) && mRetainingManager && !mRetainingManager->AreComponentAlphaLayersEnabled() && !stateFlags) { // Since we don't want any component alpha layers on BasicLayers, we repeat // the layer building process with this explicitely forced off. // We restore the previous FrameLayerBuilder state since the first set // of layer building will have changed it. stateFlags = ContainerState::NO_COMPONENT_ALPHA; data->mDisplayItems.EnumerateEntries(RestoreDisplayItemData, &mContainerLayerGeneration); mThebesLayerItems.EnumerateEntries(RestoreThebesLayerItemEntries, &mContainerLayerGeneration); aContainerFrame->AddStateBits(NS_FRAME_NO_COMPONENT_ALPHA); continue; } break; } NS_ASSERTION(bounds.IsEqualInterior(aChildren.GetBounds(aBuilder)), "Wrong bounds"); pixBounds.MoveBy(nsIntPoint(scaleParameters.mOffset.x, scaleParameters.mOffset.y)); if (aParameters.mAncestorClipRect && !(aFlags & CONTAINER_NOT_CLIPPED_BY_ANCESTORS)) { SetVisibleRegionForLayer(containerLayer, nsIntRegion(pixBounds), *aParameters.mAncestorClipRect); } else { containerLayer->SetVisibleRegion(pixBounds); } // Make sure that rounding the visible region out didn't add any area // we won't paint if (aChildren.IsOpaque() && !aChildren.NeedsTransparentSurface()) { bounds.ScaleRoundIn(scaleParameters.mXScale, scaleParameters.mYScale); if (bounds.Contains(pixBounds.ToAppUnits(appUnitsPerDevPixel))) { // Clear CONTENT_COMPONENT_ALPHA flags = Layer::CONTENT_OPAQUE; } } containerLayer->SetContentFlags(flags); mContainerLayerGeneration = oldGeneration; nsPresContext::ClearNotifySubDocInvalidationData(containerLayer); return containerLayer.forget(); } Layer* FrameLayerBuilder::GetLeafLayerFor(nsDisplayListBuilder* aBuilder, nsDisplayItem* aItem) { Layer* layer = GetOldLayerFor(aItem); if (!layer) return nullptr; if (layer->HasUserData(&gThebesDisplayItemLayerUserData)) { // This layer was created to render Thebes-rendered content for this // display item. The display item should not use it for its own // layer rendering. return nullptr; } layer->SetMaskLayer(nullptr); return layer; } /* static */ void FrameLayerBuilder::InvalidateAllLayers(LayerManager* aManager) { LayerManagerData* data = static_cast (aManager->GetUserData(&gLayerManagerUserData)); if (data) { data->mInvalidateAllLayers = true; } } /* static */ void FrameLayerBuilder::InvalidateAllLayersForFrame(nsIFrame *aFrame) { nsTArray *array = reinterpret_cast*>(aFrame->Properties().Get(LayerManagerDataProperty())); if (array) { for (uint32_t i = 0; i < array->Length(); i++) { array->ElementAt(i)->mParent->mInvalidateAllLayers = true; } } } /* static */ Layer* FrameLayerBuilder::GetDedicatedLayer(nsIFrame* aFrame, uint32_t aDisplayItemKey) { //TODO: This isn't completely correct, since a frame could exist as a layer // in the normal widget manager, and as a different layer (or no layer) // in the secondary manager nsTArray *array = reinterpret_cast*>(aFrame->Properties().Get(LayerManagerDataProperty())); if (array) { for (uint32_t i = 0; i < array->Length(); i++) { DisplayItemData *element = array->ElementAt(i); if (!element->mParent->mLayerManager->IsWidgetLayerManager()) { continue; } if (element->mDisplayItemKey == aDisplayItemKey) { if (element->mOptLayer) { return element->mOptLayer; } Layer* layer = element->mLayer; if (!layer->HasUserData(&gColorLayerUserData) && !layer->HasUserData(&gImageLayerUserData) && !layer->HasUserData(&gThebesDisplayItemLayerUserData)) { return layer; } } } } return nullptr; } static gfxSize PredictScaleForContent(nsIFrame* aFrame, nsIFrame* aAncestorWithScale, const gfxSize& aScale) { gfx3DMatrix transform = gfx3DMatrix::ScalingMatrix(aScale.width, aScale.height, 1.0); if (aFrame != aAncestorWithScale) { // aTransform is applied first, then the scale is applied to the result transform = nsLayoutUtils::GetTransformToAncestor(aFrame, aAncestorWithScale)*transform; } gfxMatrix transform2d; if (transform.CanDraw2D(&transform2d)) { return transform2d.ScaleFactors(true); } return gfxSize(1.0, 1.0); } gfxSize FrameLayerBuilder::GetThebesLayerScaleForFrame(nsIFrame* aFrame) { nsIFrame* last; for (nsIFrame* f = aFrame; f; f = nsLayoutUtils::GetCrossDocParentFrame(f)) { last = f; if (nsLayoutUtils::IsPopup(f)) { // Don't examine ancestors of a popup. It won't make sense to check // the transform from some content inside the popup to some content // which is an ancestor of the popup. break; } nsTArray *array = reinterpret_cast*>(aFrame->Properties().Get(LayerManagerDataProperty())); if (!array) { continue; } for (uint32_t i = 0; i < array->Length(); i++) { Layer* layer = array->ElementAt(i)->mLayer; ContainerLayer* container = layer->AsContainerLayer(); if (!container || !layer->Manager()->IsWidgetLayerManager()) { continue; } for (Layer* l = container->GetFirstChild(); l; l = l->GetNextSibling()) { ThebesDisplayItemLayerUserData* data = static_cast (l->GetUserData(&gThebesDisplayItemLayerUserData)); if (data) { return PredictScaleForContent(aFrame, f, gfxSize(data->mXScale, data->mYScale)); } } } } return PredictScaleForContent(aFrame, last, last->PresContext()->PresShell()->GetResolution()); } #ifdef MOZ_DUMP_PAINTING static void DebugPaintItem(nsRenderingContext* aDest, nsDisplayItem *aItem, nsDisplayListBuilder* aBuilder) { bool snap; nsRect appUnitBounds = aItem->GetBounds(aBuilder, &snap); gfxRect bounds(appUnitBounds.x, appUnitBounds.y, appUnitBounds.width, appUnitBounds.height); bounds.ScaleInverse(aDest->AppUnitsPerDevPixel()); nsRefPtr surf = gfxPlatform::GetPlatform()->CreateOffscreenSurface(gfxIntSize(bounds.width, bounds.height), gfxASurface::CONTENT_COLOR_ALPHA); surf->SetDeviceOffset(-bounds.TopLeft()); nsRefPtr context = new gfxContext(surf); nsRefPtr ctx = new nsRenderingContext(); ctx->Init(aDest->DeviceContext(), context); aItem->Paint(aBuilder, ctx); DumpPaintedImage(aItem, surf); aItem->SetPainted(); surf->SetDeviceOffset(gfxPoint(0, 0)); aDest->ThebesContext()->SetSource(surf, bounds.TopLeft()); aDest->ThebesContext()->Rectangle(bounds); aDest->ThebesContext()->Fill(); } #endif /* * A note on residual transforms: * * In a transformed subtree we sometimes apply the ThebesLayer's * "residual transform" when drawing content into the ThebesLayer. * This is a translation by components in the range [-0.5,0.5) provided * by the layer system; applying the residual transform followed by the * transforms used by layer compositing ensures that the subpixel alignment * of the content of the ThebesLayer exactly matches what it would be if * we used cairo/Thebes to draw directly to the screen without going through * retained layer buffers. * * The visible and valid regions of the ThebesLayer are computed without * knowing the residual transform (because we don't know what the residual * transform is going to be until we've built the layer tree!). So we have to * consider whether content painted in the range [x, xmost) might be painted * outside the visible region we computed for that content. The visible region * would be [floor(x), ceil(xmost)). The content would be rendered at * [x + r, xmost + r), where -0.5 <= r < 0.5. So some half-rendered pixels could * indeed fall outside the computed visible region, which is not a big deal; * similar issues already arise when we snap cliprects to nearest pixels. * Note that if the rendering of the content is snapped to nearest pixels --- * which it often is --- then the content is actually rendered at * [snap(x + r), snap(xmost + r)). It turns out that floor(x) <= snap(x + r) * and ceil(xmost) >= snap(xmost + r), so the rendering of snapped content * always falls within the visible region we computed. */ /* static */ void FrameLayerBuilder::DrawThebesLayer(ThebesLayer* aLayer, gfxContext* aContext, const nsIntRegion& aRegionToDraw, const nsIntRegion& aRegionToInvalidate, void* aCallbackData) { PROFILER_LABEL("gfx", "DrawThebesLayer"); nsDisplayListBuilder* builder = static_cast (aCallbackData); FrameLayerBuilder *layerBuilder = aLayer->Manager()->GetLayerBuilder(); NS_ASSERTION(layerBuilder, "Unexpectedly null layer builder!"); if (layerBuilder->CheckDOMModified()) return; nsTArray items; uint32_t commonClipCount; nsIFrame* containerLayerFrame; { ThebesLayerItemsEntry* entry = layerBuilder->mThebesLayerItems.GetEntry(aLayer); NS_ASSERTION(entry, "We shouldn't be drawing into a layer with no items!"); items.SwapElements(entry->mItems); commonClipCount = entry->mCommonClipCount; containerLayerFrame = entry->mContainerLayerFrame; // Later after this point, due to calls to DidEndTransaction // for temporary layer managers, mThebesLayerItems can change, // so 'entry' could become invalid. } if (!containerLayerFrame) { return; } ThebesDisplayItemLayerUserData* userData = static_cast (aLayer->GetUserData(&gThebesDisplayItemLayerUserData)); NS_ASSERTION(userData, "where did our user data go?"); if (NS_GET_A(userData->mForcedBackgroundColor) > 0) { nsIntRect r = aLayer->GetVisibleRegion().GetBounds(); aContext->NewPath(); aContext->Rectangle(gfxRect(r.x, r.y, r.width, r.height)); aContext->SetColor(gfxRGBA(userData->mForcedBackgroundColor)); aContext->Fill(); } // make the origin of the context coincide with the origin of the // ThebesLayer gfxContextMatrixAutoSaveRestore saveMatrix(aContext); nsIntPoint offset = GetTranslationForThebesLayer(aLayer); // Apply the residual transform if it has been enabled, to ensure that // snapping when we draw into aContext exactly matches the ideal transform. // See above for why this is OK. aContext->Translate(aLayer->GetResidualTranslation() - gfxPoint(offset.x, offset.y)); aContext->Scale(userData->mXScale, userData->mYScale); nsPresContext* presContext = containerLayerFrame->PresContext(); int32_t appUnitsPerDevPixel = presContext->AppUnitsPerDevPixel(); uint32_t i; // Update visible regions. We need perform visibility analysis again // because we may be asked to draw into part of a ThebesLayer that // isn't actually visible in the window (e.g., because a ThebesLayer // expanded its visible region to a rectangle internally), in which // case the mVisibleRect stored in the display item may be wrong. nsRegion visible = aRegionToDraw.ToAppUnits(appUnitsPerDevPixel); visible.MoveBy(NSIntPixelsToAppUnits(offset.x, appUnitsPerDevPixel), NSIntPixelsToAppUnits(offset.y, appUnitsPerDevPixel)); visible.ScaleInverseRoundOut(userData->mXScale, userData->mYScale); for (i = items.Length(); i > 0; --i) { ClippedDisplayItem* cdi = &items[i - 1]; const DisplayItemClip& clip = cdi->mItem->GetClip(); NS_ASSERTION(AppUnitsPerDevPixel(cdi->mItem) == appUnitsPerDevPixel, "a thebes layer should contain items only at the same zoom"); NS_ABORT_IF_FALSE(clip.HasClip() || clip.GetRoundedRectCount() == 0, "If we have rounded rects, we must have a clip rect"); if (!clip.IsRectAffectedByClip(visible.GetBounds())) { cdi->mItem->RecomputeVisibility(builder, &visible); continue; } // Do a little dance to account for the fact that we're clipping // to cdi->mClipRect nsRegion clipped; clipped.And(visible, clip.NonRoundedIntersection()); nsRegion finalClipped = clipped; cdi->mItem->RecomputeVisibility(builder, &finalClipped); // If we have rounded clip rects, don't subtract from the visible // region since we aren't displaying everything inside the rect. if (clip.GetRoundedRectCount() == 0) { nsRegion removed; removed.Sub(clipped, finalClipped); nsRegion newVisible; newVisible.Sub(visible, removed); // Don't let the visible region get too complex. if (newVisible.GetNumRects() <= 15) { visible = newVisible; } } } nsRefPtr rc = new nsRenderingContext(); rc->Init(presContext->DeviceContext(), aContext); DisplayItemClip currentClip; bool currentClipIsSetInContext = false; DisplayItemClip tmpClip; for (i = 0; i < items.Length(); ++i) { ClippedDisplayItem* cdi = &items[i]; if (cdi->mItem->GetVisibleRect().IsEmpty()) continue; // If the new desired clip state is different from the current state, // update the clip. const DisplayItemClip* clip = &cdi->mItem->GetClip(); if (clip->GetRoundedRectCount() > 0 && !clip->IsRectClippedByRoundedCorner(cdi->mItem->GetVisibleRect())) { tmpClip = *clip; tmpClip.RemoveRoundedCorners(); clip = &tmpClip; } if (currentClipIsSetInContext != clip->HasClip() || (clip->HasClip() && *clip != currentClip)) { if (currentClipIsSetInContext) { aContext->Restore(); } currentClipIsSetInContext = clip->HasClip(); if (currentClipIsSetInContext) { currentClip = *clip; aContext->Save(); NS_ASSERTION(commonClipCount < 100, "Maybe you really do have more than a hundred clipping rounded rects, or maybe something has gone wrong."); currentClip.ApplyTo(aContext, presContext, commonClipCount); } } if (cdi->mInactiveLayerManager) { PaintInactiveLayer(builder, cdi->mInactiveLayerManager, cdi->mItem, aContext, rc); } else { nsIFrame* frame = cdi->mItem->Frame(); frame->AddStateBits(NS_FRAME_PAINTED_THEBES); #ifdef MOZ_DUMP_PAINTING if (gfxUtils::sDumpPainting) { DebugPaintItem(rc, cdi->mItem, builder); } else { #else { #endif cdi->mItem->Paint(builder, rc); } } if (layerBuilder->CheckDOMModified()) break; } { ThebesLayerItemsEntry* entry = layerBuilder->mThebesLayerItems.GetEntry(aLayer); items.SwapElements(entry->mItems); } if (currentClipIsSetInContext) { aContext->Restore(); } if (presContext->GetPaintFlashing()) { FlashPaint(aContext); } if (!aRegionToInvalidate.IsEmpty()) { aLayer->AddInvalidRect(aRegionToInvalidate.GetBounds()); } } bool FrameLayerBuilder::CheckDOMModified() { if (!mRootPresContext || mInitialDOMGeneration == mRootPresContext->GetDOMGeneration()) return false; if (mDetectedDOMModification) { // Don't spam the console with extra warnings return true; } mDetectedDOMModification = true; // Painting is not going to complete properly. There's not much // we can do here though. Invalidating the window to get another repaint // is likely to lead to an infinite repaint loop. NS_WARNING("Detected DOM modification during paint, bailing out!"); return true; } #ifdef MOZ_DUMP_PAINTING /* static */ void FrameLayerBuilder::DumpRetainedLayerTree(LayerManager* aManager, FILE* aFile, bool aDumpHtml) { aManager->Dump(aFile, "", aDumpHtml); } #endif gfxRect CalculateBounds(const nsTArray& aRects, int32_t A2D) { nsRect bounds = aRects[0].mRect; for (uint32_t i = 1; i < aRects.Length(); ++i) { bounds.UnionRect(bounds, aRects[i].mRect); } return nsLayoutUtils::RectToGfxRect(bounds, A2D); } static void SetClipCount(ThebesDisplayItemLayerUserData* aThebesData, uint32_t aClipCount) { if (aThebesData) { aThebesData->mMaskClipCount = aClipCount; } } void ContainerState::SetupMaskLayer(Layer *aLayer, const DisplayItemClip& aClip, uint32_t aRoundedRectClipCount) { // if the number of clips we are going to mask has decreased, then aLayer might have // cached graphics which assume the existence of a soon-to-be non-existent mask layer // in that case, invalidate the whole layer. ThebesDisplayItemLayerUserData* thebesData = GetThebesDisplayItemLayerUserData(aLayer); if (thebesData && aRoundedRectClipCount < thebesData->mMaskClipCount) { ThebesLayer* thebes = aLayer->AsThebesLayer(); thebes->InvalidateRegion(thebes->GetValidRegion().GetBounds()); } // don't build an unnecessary mask nsIntRect layerBounds = aLayer->GetVisibleRegion().GetBounds(); if (aClip.GetRoundedRectCount() == 0 || aRoundedRectClipCount == 0 || layerBounds.IsEmpty()) { SetClipCount(thebesData, 0); return; } // check if we can re-use the mask layer nsRefPtr maskLayer = CreateOrRecycleMaskImageLayerFor(aLayer); MaskLayerUserData* userData = GetMaskLayerUserData(maskLayer); MaskLayerUserData newData; aClip.AppendRoundedRects(&newData.mRoundedClipRects, aRoundedRectClipCount); newData.mScaleX = mParameters.mXScale; newData.mScaleY = mParameters.mYScale; newData.mOffset = mParameters.mOffset; newData.mAppUnitsPerDevPixel = mContainerFrame->PresContext()->AppUnitsPerDevPixel(); if (*userData == newData) { aLayer->SetMaskLayer(maskLayer); SetClipCount(thebesData, aRoundedRectClipCount); return; } // calculate a more precise bounding rect gfxRect boundingRect = CalculateBounds(newData.mRoundedClipRects, newData.mAppUnitsPerDevPixel); boundingRect.Scale(mParameters.mXScale, mParameters.mYScale); uint32_t maxSize = mManager->GetMaxTextureSize(); NS_ASSERTION(maxSize > 0, "Invalid max texture size"); gfxSize surfaceSize(std::min(boundingRect.Width(), maxSize), std::min(boundingRect.Height(), maxSize)); // maskTransform is applied to the clip when it is painted into the mask (as a // component of imageTransform), and its inverse used when the mask is used for // masking. // It is the transform from the masked layer's space to mask space gfxMatrix maskTransform; maskTransform.Scale(surfaceSize.width/boundingRect.Width(), surfaceSize.height/boundingRect.Height()); maskTransform.Translate(-boundingRect.TopLeft()); // imageTransform is only used when the clip is painted to the mask gfxMatrix imageTransform = maskTransform; imageTransform.Scale(mParameters.mXScale, mParameters.mYScale); nsAutoPtr newKey( new MaskLayerImageCache::MaskLayerImageKey()); // copy and transform the rounded rects for (uint32_t i = 0; i < newData.mRoundedClipRects.Length(); ++i) { newKey->mRoundedClipRects.AppendElement( MaskLayerImageCache::PixelRoundedRect(newData.mRoundedClipRects[i], mContainerFrame->PresContext())); newKey->mRoundedClipRects[i].ScaleAndTranslate(imageTransform); } const MaskLayerImageCache::MaskLayerImageKey* lookupKey = newKey; // check to see if we can reuse a mask image nsRefPtr container = GetMaskLayerImageCache()->FindImageFor(&lookupKey); if (!container) { nsIntSize surfaceSizeInt = nsIntSize(NSToIntCeil(surfaceSize.width), NSToIntCeil(surfaceSize.height)); // no existing mask image, so build a new one nsRefPtr surface = aLayer->Manager()->CreateOptimalMaskSurface(surfaceSizeInt); // fail if we can't get the right surface if (!surface || surface->CairoStatus()) { NS_WARNING("Could not create surface for mask layer."); SetClipCount(thebesData, 0); return; } nsRefPtr context = new gfxContext(surface); context->Multiply(imageTransform); // paint the clipping rects with alpha to create the mask context->SetColor(gfxRGBA(1, 1, 1, 1)); aClip.DrawRoundedRectsTo(context, newData.mAppUnitsPerDevPixel, 0, aRoundedRectClipCount); // build the image and container container = aLayer->Manager()->CreateImageContainer(); NS_ASSERTION(container, "Could not create image container for mask layer."); static const ImageFormat format = CAIRO_SURFACE; nsRefPtr image = container->CreateImage(&format, 1); NS_ASSERTION(image, "Could not create image container for mask layer."); CairoImage::Data data; data.mSurface = surface; data.mSize = surfaceSizeInt; static_cast(image.get())->SetData(data); container->SetCurrentImageInTransaction(image); GetMaskLayerImageCache()->PutImage(newKey.forget(), container); } maskLayer->SetContainer(container); gfx3DMatrix matrix = gfx3DMatrix::From2D(maskTransform.Invert()); matrix.Translate(gfxPoint3D(mParameters.mOffset.x, mParameters.mOffset.y, 0)); maskLayer->SetBaseTransform(matrix); // save the details of the clip in user data userData->mScaleX = newData.mScaleX; userData->mScaleY = newData.mScaleY; userData->mRoundedClipRects.SwapElements(newData.mRoundedClipRects); userData->mImageKey = lookupKey; aLayer->SetMaskLayer(maskLayer); SetClipCount(thebesData, aRoundedRectClipCount); return; } } // namespace mozilla