RenderLayerCompositor.cpp [plain text]
#include "config.h"
#if USE(ACCELERATED_COMPOSITING)
#include "RenderLayerCompositor.h"
#include "AnimationController.h"
#include "CanvasRenderingContext.h"
#include "CSSPropertyNames.h"
#include "Chrome.h"
#include "ChromeClient.h"
#include "Frame.h"
#include "FrameView.h"
#include "GraphicsLayer.h"
#include "HTMLCanvasElement.h"
#include "HTMLIFrameElement.h"
#include "HTMLNames.h"
#include "HitTestResult.h"
#include "NodeList.h"
#include "Page.h"
#include "RenderApplet.h"
#include "RenderEmbeddedObject.h"
#include "RenderFullScreen.h"
#include "RenderGeometryMap.h"
#include "RenderIFrame.h"
#include "RenderLayerBacking.h"
#include "RenderReplica.h"
#include "RenderVideo.h"
#include "RenderView.h"
#include "ScrollbarTheme.h"
#include "ScrollingCoordinator.h"
#include "Settings.h"
#include "TiledBacking.h"
#include "TransformState.h"
#include "Region.h"
#include "RenderScrollbar.h"
#if ENABLE(PLUGIN_PROXY_FOR_VIDEO)
#include "HTMLMediaElement.h"
#endif
#if !LOG_DISABLED
#include <wtf/CurrentTime.h>
#endif
#ifndef NDEBUG
#include "RenderTreeAsText.h"
#endif
#if ENABLE(3D_RENDERING)
bool WebCoreHas3DRendering = true;
#endif
namespace WebCore {
using namespace HTMLNames;
class RenderLayerCompositor::OverlapMap {
WTF_MAKE_NONCOPYABLE(OverlapMap);
public:
OverlapMap()
{
pushCompositingContainer();
}
void add(const RenderLayer* layer, const IntRect& bounds)
{
ASSERT(m_overlapStack.size() >= 2);
m_overlapStack[m_overlapStack.size() - 2].unite(bounds);
m_layers.add(layer);
}
bool contains(const RenderLayer* layer)
{
return m_layers.contains(layer);
}
bool overlapsLayers(const IntRect& bounds) const
{
return m_overlapStack.last().intersects(bounds);
}
bool isEmpty()
{
return m_layers.isEmpty();
}
void pushCompositingContainer()
{
m_overlapStack.append(Region());
}
void popCompositingContainer()
{
m_overlapStack[m_overlapStack.size() - 2].unite(m_overlapStack.last());
m_overlapStack.removeLast();
}
RenderGeometryMap& geometryMap() { return m_geometryMap; }
private:
Vector<Region> m_overlapStack;
HashSet<const RenderLayer*> m_layers;
RenderGeometryMap m_geometryMap;
};
struct CompositingState {
CompositingState(RenderLayer* compAncestor, bool testOverlap)
: m_compositingAncestor(compAncestor)
, m_subtreeIsCompositing(false)
, m_testingOverlap(testOverlap)
#ifndef NDEBUG
, m_depth(0)
#endif
{
}
CompositingState(const CompositingState& other)
: m_compositingAncestor(other.m_compositingAncestor)
, m_subtreeIsCompositing(other.m_subtreeIsCompositing)
, m_testingOverlap(other.m_testingOverlap)
#ifndef NDEBUG
, m_depth(other.m_depth + 1)
#endif
{
}
RenderLayer* m_compositingAncestor;
bool m_subtreeIsCompositing;
bool m_testingOverlap;
#ifndef NDEBUG
int m_depth;
#endif
};
static inline bool compositingLogEnabled()
{
#if !LOG_DISABLED
return LogCompositing.state == WTFLogChannelOn;
#else
return false;
#endif
}
RenderLayerCompositor::RenderLayerCompositor(RenderView* renderView)
: m_renderView(renderView)
, m_updateCompositingLayersTimer(this, &RenderLayerCompositor::updateCompositingLayersTimerFired)
, m_hasAcceleratedCompositing(true)
, m_compositingTriggers(static_cast<ChromeClient::CompositingTriggerFlags>(ChromeClient::AllTriggers))
, m_compositedLayerCount(0)
, m_showDebugBorders(false)
, m_showRepaintCounter(false)
, m_acceleratedDrawingEnabled(false)
, m_compositingConsultsOverlap(true)
, m_reevaluateCompositingAfterLayout(false)
, m_compositing(false)
, m_compositingLayersNeedRebuild(false)
, m_flushingLayers(false)
, m_forceCompositingMode(false)
, m_rootLayerAttachment(RootLayerUnattached)
#if !LOG_DISABLED
, m_rootLayerUpdateCount(0)
, m_obligateCompositedLayerCount(0)
, m_secondaryCompositedLayerCount(0)
, m_obligatoryBackingStoreBytes(0)
, m_secondaryBackingStoreBytes(0)
#endif
{
}
RenderLayerCompositor::~RenderLayerCompositor()
{
ASSERT(m_rootLayerAttachment == RootLayerUnattached);
}
void RenderLayerCompositor::enableCompositingMode(bool enable )
{
if (enable != m_compositing) {
m_compositing = enable;
if (m_compositing) {
ensureRootLayer();
notifyIFramesOfCompositingChange();
} else
destroyRootLayer();
}
}
void RenderLayerCompositor::cacheAcceleratedCompositingFlags()
{
bool hasAcceleratedCompositing = false;
bool showDebugBorders = false;
bool showRepaintCounter = false;
bool forceCompositingMode = false;
bool acceleratedDrawingEnabled = false;
if (Settings* settings = m_renderView->document()->settings()) {
hasAcceleratedCompositing = settings->acceleratedCompositingEnabled();
if (hasAcceleratedCompositing) {
Frame* frame = m_renderView->frameView()->frame();
Page* page = frame ? frame->page() : 0;
if (page) {
ChromeClient* chromeClient = page->chrome()->client();
m_compositingTriggers = chromeClient->allowedCompositingTriggers();
hasAcceleratedCompositing = m_compositingTriggers;
}
}
showDebugBorders = settings->showDebugBorders();
showRepaintCounter = settings->showRepaintCounter();
forceCompositingMode = settings->forceCompositingMode() && hasAcceleratedCompositing;
if (forceCompositingMode && m_renderView->document()->ownerElement())
forceCompositingMode = settings->acceleratedCompositingForScrollableFramesEnabled() && requiresCompositingForScrollableFrame();
acceleratedDrawingEnabled = settings->acceleratedDrawingEnabled();
}
if (hasAcceleratedCompositing != m_hasAcceleratedCompositing || showDebugBorders != m_showDebugBorders || showRepaintCounter != m_showRepaintCounter || forceCompositingMode != m_forceCompositingMode)
setCompositingLayersNeedRebuild();
m_hasAcceleratedCompositing = hasAcceleratedCompositing;
m_showDebugBorders = showDebugBorders;
m_showRepaintCounter = showRepaintCounter;
m_forceCompositingMode = forceCompositingMode;
m_acceleratedDrawingEnabled = acceleratedDrawingEnabled;
}
bool RenderLayerCompositor::canRender3DTransforms() const
{
return hasAcceleratedCompositing() && (m_compositingTriggers & ChromeClient::ThreeDTransformTrigger);
}
void RenderLayerCompositor::setCompositingLayersNeedRebuild(bool needRebuild)
{
if (inCompositingMode())
m_compositingLayersNeedRebuild = needRebuild;
}
void RenderLayerCompositor::scheduleLayerFlush()
{
Frame* frame = m_renderView->frameView()->frame();
Page* page = frame ? frame->page() : 0;
if (!page)
return;
page->chrome()->client()->scheduleCompositingLayerSync();
}
ChromeClient* RenderLayerCompositor::chromeClient() const
{
Frame* frame = m_renderView->frameView()->frame();
Page* page = frame ? frame->page() : 0;
if (!page)
return 0;
return page->chrome()->client();
}
void RenderLayerCompositor::flushPendingLayerChanges(bool isFlushRoot)
{
if (!isFlushRoot && rootLayerAttachment() == RootLayerAttachedViaEnclosingFrame)
return;
ChromeClient* chromeClient = this->chromeClient();
if (chromeClient && isFlushRoot)
chromeClient->willSyncCompositingLayers();
ASSERT(!m_flushingLayers);
m_flushingLayers = true;
if (GraphicsLayer* rootLayer = rootGraphicsLayer()) {
FrameView* frameView = m_renderView ? m_renderView->frameView() : 0;
if (frameView) {
rootLayer->syncCompositingState(frameView->actualVisibleContentRect());
}
}
ASSERT(m_flushingLayers);
m_flushingLayers = false;
if (chromeClient && isFlushRoot)
chromeClient->didSyncCompositingLayers();
if (!m_fixedPositionLayersNeedingUpdate.isEmpty()) {
HashSet<RenderLayer*>::const_iterator end = m_fixedPositionLayersNeedingUpdate.end();
for (HashSet<RenderLayer*>::const_iterator it = m_fixedPositionLayersNeedingUpdate.begin(); it != end; ++it)
registerOrUpdateFixedPositionLayer(*it);
m_fixedPositionLayersNeedingUpdate.clear();
}
}
void RenderLayerCompositor::didFlushChangesForLayer(RenderLayer* layer)
{
if (m_fixedPositionLayers.contains(layer))
m_fixedPositionLayersNeedingUpdate.add(layer);
}
RenderLayerCompositor* RenderLayerCompositor::enclosingCompositorFlushingLayers() const
{
if (!m_renderView->frameView())
return 0;
for (Frame* frame = m_renderView->frameView()->frame(); frame; frame = frame->tree()->parent()) {
RenderLayerCompositor* compositor = frame->contentRenderer() ? frame->contentRenderer()->compositor() : 0;
if (compositor->isFlushingLayers())
return compositor;
}
return 0;
}
void RenderLayerCompositor::scheduleCompositingLayerUpdate()
{
if (!m_updateCompositingLayersTimer.isActive())
m_updateCompositingLayersTimer.startOneShot(0);
}
void RenderLayerCompositor::updateCompositingLayersTimerFired(Timer<RenderLayerCompositor>*)
{
updateCompositingLayers(CompositingUpdateAfterLayout);
}
bool RenderLayerCompositor::hasAnyAdditionalCompositedLayers(const RenderLayer* rootLayer) const
{
return m_compositedLayerCount > (rootLayer->isComposited() ? 1 : 0);
}
void RenderLayerCompositor::updateCompositingLayers(CompositingUpdateType updateType, RenderLayer* updateRoot)
{
m_updateCompositingLayersTimer.stop();
if (!m_renderView->document()->visualUpdatesAllowed())
return;
if (m_forceCompositingMode && !m_compositing)
enableCompositingMode(true);
if (!m_reevaluateCompositingAfterLayout && !m_compositing)
return;
AnimationUpdateBlock animationUpdateBlock(m_renderView->frameView()->frame()->animation());
bool checkForHierarchyUpdate = m_reevaluateCompositingAfterLayout;
bool needGeometryUpdate = false;
switch (updateType) {
case CompositingUpdateAfterStyleChange:
case CompositingUpdateAfterLayout:
case CompositingUpdateOnHitTest:
checkForHierarchyUpdate = true;
break;
case CompositingUpdateOnScroll:
if (m_compositingConsultsOverlap)
checkForHierarchyUpdate = true;
needGeometryUpdate = true;
break;
}
if (!checkForHierarchyUpdate && !needGeometryUpdate)
return;
bool needHierarchyUpdate = m_compositingLayersNeedRebuild;
bool isFullUpdate = !updateRoot;
if (!updateRoot || m_compositingConsultsOverlap) {
m_compositingLayersNeedRebuild = false;
updateRoot = rootRenderLayer();
}
if (isFullUpdate && updateType == CompositingUpdateAfterLayout)
m_reevaluateCompositingAfterLayout = false;
#if !LOG_DISABLED
double startTime = 0;
if (compositingLogEnabled()) {
++m_rootLayerUpdateCount;
startTime = currentTime();
}
#endif
if (checkForHierarchyUpdate) {
if (ChromeClient* chromeClient = this->chromeClient())
chromeClient->removeAllFixedPositionLayers();
CompositingState compState(updateRoot, m_compositingConsultsOverlap);
bool layersChanged = false;
bool saw3DTransform = false;
if (m_compositingConsultsOverlap) {
OverlapMap overlapTestRequestMap;
computeCompositingRequirements(0, updateRoot, &overlapTestRequestMap, compState, layersChanged, saw3DTransform);
} else
computeCompositingRequirements(0, updateRoot, 0, compState, layersChanged, saw3DTransform);
needHierarchyUpdate |= layersChanged;
}
#if !LOG_DISABLED
if (compositingLogEnabled() && isFullUpdate && (needHierarchyUpdate || needGeometryUpdate)) {
m_obligateCompositedLayerCount = 0;
m_secondaryCompositedLayerCount = 0;
m_obligatoryBackingStoreBytes = 0;
m_secondaryBackingStoreBytes = 0;
Frame* frame = m_renderView->frameView()->frame();
bool isMainFrame = !m_renderView->document()->ownerElement();
LOG(Compositing, "\nUpdate %d of %s. Overlap testing is %s\n", m_rootLayerUpdateCount, isMainFrame ? "main frame" : frame->tree()->uniqueName().string().utf8().data(),
m_compositingConsultsOverlap ? "on" : "off");
}
#endif
if (needHierarchyUpdate) {
Vector<GraphicsLayer*> childList;
rebuildCompositingLayerTree(updateRoot, childList, 0);
if (isFullUpdate) {
if (childList.isEmpty() && !hasAnyAdditionalCompositedLayers(updateRoot))
destroyRootLayer();
else
m_rootContentLayer->setChildren(childList);
}
} else if (needGeometryUpdate) {
updateLayerTreeGeometry(updateRoot, 0);
}
#if !LOG_DISABLED
if (compositingLogEnabled() && isFullUpdate && (needHierarchyUpdate || needGeometryUpdate)) {
double endTime = currentTime();
LOG(Compositing, "Total layers primary secondary obligatory backing (KB) secondary backing(KB) total backing (KB) update time (ms)\n");
LOG(Compositing, "%8d %11d %9d %20.2f %22.2f %22.2f %18.2f\n",
m_obligateCompositedLayerCount + m_secondaryCompositedLayerCount, m_obligateCompositedLayerCount,
m_secondaryCompositedLayerCount, m_obligatoryBackingStoreBytes / 1024, m_secondaryBackingStoreBytes / 1024, (m_obligatoryBackingStoreBytes + m_secondaryBackingStoreBytes) / 1024, 1000.0 * (endTime - startTime));
}
#endif
ASSERT(updateRoot || !m_compositingLayersNeedRebuild);
if (!hasAcceleratedCompositing())
enableCompositingMode(false);
}
#if !LOG_DISABLED
void RenderLayerCompositor::logLayerInfo(const RenderLayer* layer, int depth)
{
if (!compositingLogEnabled())
return;
RenderLayerBacking* backing = layer->backing();
if (requiresCompositingLayer(layer) || layer->isRootLayer()) {
++m_obligateCompositedLayerCount;
m_obligatoryBackingStoreBytes += backing->backingStoreMemoryEstimate();
} else {
++m_secondaryCompositedLayerCount;
m_secondaryBackingStoreBytes += backing->backingStoreMemoryEstimate();
}
LOG(Compositing, "%*p %dx%d %.2fKB (%s) %s\n", 12 + depth * 2, layer, backing->compositedBounds().width(), backing->compositedBounds().height(),
backing->backingStoreMemoryEstimate() / 1024,
reasonForCompositing(layer), layer->backing()->nameForLayer().utf8().data());
}
#endif
bool RenderLayerCompositor::updateBacking(RenderLayer* layer, CompositingChangeRepaint shouldRepaint)
{
bool layerChanged = false;
if (needsToBeComposited(layer)) {
enableCompositingMode();
if (!layer->backing()) {
if (shouldRepaint == CompositingChangeRepaintNow)
repaintOnCompositingChange(layer);
layer->ensureBacking();
if (layer->parent())
layer->computeRepaintRects();
layerChanged = true;
}
updateFixedPositionStatus(layer);
} else {
if (layer->backing()) {
if (layer->isReflection()) {
RenderLayer* sourceLayer = toRenderBoxModelObject(layer->renderer()->parent())->layer();
if (RenderLayerBacking* backing = sourceLayer->backing()) {
ASSERT(backing->graphicsLayer()->replicaLayer() == layer->backing()->graphicsLayer());
backing->graphicsLayer()->setReplicatedByLayer(0);
}
}
removeFixedPositionLayer(layer);
layer->clearBacking();
layerChanged = true;
layer->computeRepaintRects();
if (shouldRepaint == CompositingChangeRepaintNow)
repaintOnCompositingChange(layer);
}
}
#if ENABLE(VIDEO)
if (layerChanged && layer->renderer()->isVideo()) {
RenderVideo* video = toRenderVideo(layer->renderer());
video->acceleratedRenderingStateChanged();
}
#endif
if (layerChanged && layer->renderer()->isRenderPart()) {
RenderLayerCompositor* innerCompositor = frameContentsCompositor(toRenderPart(layer->renderer()));
if (innerCompositor && innerCompositor->inCompositingMode())
innerCompositor->updateRootLayerAttachment();
}
if (layerChanged)
layer->clearClipRectsIncludingDescendants(PaintingClipRects);
return layerChanged;
}
bool RenderLayerCompositor::updateLayerCompositingState(RenderLayer* layer, CompositingChangeRepaint shouldRepaint)
{
bool layerChanged = updateBacking(layer, shouldRepaint);
if (layer->backing() && layer->backing()->updateGraphicsLayerConfiguration())
layerChanged = true;
return layerChanged;
}
void RenderLayerCompositor::repaintOnCompositingChange(RenderLayer* layer)
{
if (layer->renderer() != m_renderView && !layer->renderer()->parent())
return;
RenderBoxModelObject* repaintContainer = layer->renderer()->containerForRepaint();
if (!repaintContainer)
repaintContainer = m_renderView;
layer->repaintIncludingNonCompositingDescendants(repaintContainer);
if (repaintContainer == m_renderView) {
m_renderView->frameView()->setNeedsOneShotDrawingSynchronization();
}
}
void RenderLayerCompositor::repaintInCompositedAncestor(RenderLayer* layer, const LayoutRect& rect)
{
RenderLayer* compositedAncestor = layer->enclosingCompositingLayerForRepaint(false );
if (compositedAncestor) {
ASSERT(compositedAncestor->backing());
LayoutPoint offset;
layer->convertToLayerCoords(compositedAncestor, offset);
LayoutRect repaintRect = rect;
repaintRect.moveBy(offset);
compositedAncestor->setBackingNeedsRepaintInRect(repaintRect);
}
if (compositedAncestor == m_renderView->layer())
m_renderView->frameView()->setNeedsOneShotDrawingSynchronization();
}
IntRect RenderLayerCompositor::calculateCompositedBounds(const RenderLayer* layer, const RenderLayer* ancestorLayer)
{
if (!canBeComposited(layer))
return IntRect();
return pixelSnappedIntRect(RenderLayer::calculateLayerBounds(layer, ancestorLayer, RenderLayer::DefaultCalculateLayerBoundsFlags | RenderLayer::ExcludeHiddenDescendants));
}
void RenderLayerCompositor::layerWasAdded(RenderLayer* , RenderLayer* )
{
setCompositingLayersNeedRebuild();
}
void RenderLayerCompositor::layerWillBeRemoved(RenderLayer* parent, RenderLayer* child)
{
if (!child->isComposited() || parent->renderer()->documentBeingDestroyed())
return;
removeFixedPositionLayer(child);
repaintInCompositedAncestor(child, child->backing()->compositedBounds());
setCompositingParent(child, 0);
setCompositingLayersNeedRebuild();
}
RenderLayer* RenderLayerCompositor::enclosingNonStackingClippingLayer(const RenderLayer* layer) const
{
for (RenderLayer* curr = layer->parent(); curr != 0; curr = curr->parent()) {
if (curr->isStackingContext())
return 0;
if (curr->renderer()->hasOverflowClip() || curr->renderer()->hasClip())
return curr;
}
return 0;
}
void RenderLayerCompositor::addToOverlapMap(OverlapMap& overlapMap, RenderLayer* layer, IntRect& layerBounds, bool& boundsComputed)
{
if (layer->isRootLayer())
return;
if (!boundsComputed) {
layerBounds = enclosingIntRect(overlapMap.geometryMap().absoluteRect(layer->localBoundingBox()));
if (layerBounds.isEmpty())
layerBounds.setSize(IntSize(1, 1));
boundsComputed = true;
}
IntRect clipRect = pixelSnappedIntRect(layer->backgroundClipRect(rootRenderLayer(), 0, AbsoluteClipRects).rect()); clipRect.intersect(layerBounds);
overlapMap.add(layer, clipRect);
}
void RenderLayerCompositor::addToOverlapMapRecursive(OverlapMap& overlapMap, RenderLayer* layer, RenderLayer* ancestorLayer)
{
if (!canBeComposited(layer) || overlapMap.contains(layer))
return;
if (ancestorLayer)
overlapMap.geometryMap().pushMappingsToAncestor(layer, ancestorLayer);
IntRect bounds;
bool haveComputedBounds = false;
addToOverlapMap(overlapMap, layer, bounds, haveComputedBounds);
#if !ASSERT_DISABLED
LayerListMutationDetector mutationChecker(layer);
#endif
if (layer->isStackingContext()) {
if (Vector<RenderLayer*>* negZOrderList = layer->negZOrderList()) {
size_t listSize = negZOrderList->size();
for (size_t i = 0; i < listSize; ++i) {
RenderLayer* curLayer = negZOrderList->at(i);
addToOverlapMapRecursive(overlapMap, curLayer, layer);
}
}
}
if (Vector<RenderLayer*>* normalFlowList = layer->normalFlowList()) {
size_t listSize = normalFlowList->size();
for (size_t i = 0; i < listSize; ++i) {
RenderLayer* curLayer = normalFlowList->at(i);
addToOverlapMapRecursive(overlapMap, curLayer, layer);
}
}
if (layer->isStackingContext()) {
if (Vector<RenderLayer*>* posZOrderList = layer->posZOrderList()) {
size_t listSize = posZOrderList->size();
for (size_t i = 0; i < listSize; ++i) {
RenderLayer* curLayer = posZOrderList->at(i);
addToOverlapMapRecursive(overlapMap, curLayer, layer);
}
}
}
if (ancestorLayer)
overlapMap.geometryMap().popMappingsToAncestor(ancestorLayer);
}
void RenderLayerCompositor::computeCompositingRequirements(RenderLayer* ancestorLayer, RenderLayer* layer, OverlapMap* overlapMap, CompositingState& compositingState, bool& layersChanged, bool& descendantHas3DTransform)
{
layer->updateLayerListsIfNeeded();
if (overlapMap)
overlapMap->geometryMap().pushMappingsToAncestor(layer, ancestorLayer);
layer->setHasCompositingDescendant(false);
bool mustOverlapCompositedLayers = compositingState.m_subtreeIsCompositing;
bool haveComputedBounds = false;
IntRect absBounds;
if (overlapMap && !overlapMap->isEmpty() && compositingState.m_testingOverlap) {
absBounds = enclosingIntRect(overlapMap->geometryMap().absoluteRect(layer->localBoundingBox()));
if (absBounds.isEmpty())
absBounds.setSize(IntSize(1, 1));
haveComputedBounds = true;
mustOverlapCompositedLayers = overlapMap->overlapsLayers(absBounds);
}
layer->setIndirectCompositingReason(mustOverlapCompositedLayers ? RenderLayer::IndirectCompositingForOverlap : RenderLayer::NoIndirectCompositingReason);
CompositingState childState(compositingState);
childState.m_subtreeIsCompositing = false;
bool willBeComposited = needsToBeComposited(layer);
if (willBeComposited) {
compositingState.m_subtreeIsCompositing = true;
childState.m_compositingAncestor = layer;
if (overlapMap)
overlapMap->pushCompositingContainer();
if (layer->has3DTransform()) {
childState.m_testingOverlap = false;
}
}
#if ENABLE(VIDEO)
if (willBeComposited && layer->renderer()->isVideo())
childState.m_subtreeIsCompositing = true;
#endif
#if !ASSERT_DISABLED
LayerListMutationDetector mutationChecker(layer);
#endif
bool anyDescendantHas3DTransform = false;
if (layer->isStackingContext()) {
if (Vector<RenderLayer*>* negZOrderList = layer->negZOrderList()) {
size_t listSize = negZOrderList->size();
for (size_t i = 0; i < listSize; ++i) {
RenderLayer* curLayer = negZOrderList->at(i);
computeCompositingRequirements(layer, curLayer, overlapMap, childState, layersChanged, anyDescendantHas3DTransform);
if (!willBeComposited && childState.m_subtreeIsCompositing) {
layer->setIndirectCompositingReason(RenderLayer::IndirectCompositingForBackgroundLayer);
childState.m_compositingAncestor = layer;
if (overlapMap)
overlapMap->pushCompositingContainer();
willBeComposited = true;
}
}
}
}
if (Vector<RenderLayer*>* normalFlowList = layer->normalFlowList()) {
size_t listSize = normalFlowList->size();
for (size_t i = 0; i < listSize; ++i) {
RenderLayer* curLayer = normalFlowList->at(i);
computeCompositingRequirements(layer, curLayer, overlapMap, childState, layersChanged, anyDescendantHas3DTransform);
}
}
if (layer->isStackingContext()) {
if (Vector<RenderLayer*>* posZOrderList = layer->posZOrderList()) {
size_t listSize = posZOrderList->size();
for (size_t i = 0; i < listSize; ++i) {
RenderLayer* curLayer = posZOrderList->at(i);
computeCompositingRequirements(layer, curLayer, overlapMap, childState, layersChanged, anyDescendantHas3DTransform);
}
}
}
if (layer->isRootLayer()) {
if (inCompositingMode() && m_hasAcceleratedCompositing)
willBeComposited = true;
}
ASSERT(willBeComposited == needsToBeComposited(layer));
if (overlapMap && childState.m_compositingAncestor && !childState.m_compositingAncestor->isRootLayer())
addToOverlapMap(*overlapMap, layer, absBounds, haveComputedBounds);
RenderLayer::IndirectCompositingReason indirectCompositingReason;
if (!willBeComposited && canBeComposited(layer)
&& requiresCompositingForIndirectReason(layer->renderer(), childState.m_subtreeIsCompositing, anyDescendantHas3DTransform, indirectCompositingReason)) {
layer->setIndirectCompositingReason(indirectCompositingReason);
childState.m_compositingAncestor = layer;
if (overlapMap) {
overlapMap->pushCompositingContainer();
addToOverlapMapRecursive(*overlapMap, layer);
}
willBeComposited = true;
}
ASSERT(willBeComposited == needsToBeComposited(layer));
if (layer->reflectionLayer()) {
layer->reflectionLayer()->setIndirectCompositingReason(willBeComposited ? RenderLayer::IndirectCompositingForOverlap : RenderLayer::NoIndirectCompositingReason);
}
if (childState.m_subtreeIsCompositing)
compositingState.m_subtreeIsCompositing = true;
if (!childState.m_testingOverlap || layer->has3DTransform() || isRunningAcceleratedTransformAnimation(layer->renderer()))
compositingState.m_testingOverlap = false;
layer->setHasCompositingDescendant(childState.m_subtreeIsCompositing);
if (canBeComposited(layer) && clipsCompositingDescendants(layer)) {
if (!willBeComposited) {
childState.m_compositingAncestor = layer;
if (overlapMap) {
overlapMap->pushCompositingContainer();
addToOverlapMapRecursive(*overlapMap, layer);
}
willBeComposited = true;
}
compositingState.m_testingOverlap = true;
}
if (overlapMap && childState.m_compositingAncestor == layer && !layer->isRootLayer())
overlapMap->popCompositingContainer();
if (layer->isRootLayer() && !childState.m_subtreeIsCompositing && !requiresCompositingLayer(layer) && !m_forceCompositingMode && !hasAnyAdditionalCompositedLayers(layer)) {
}
ASSERT(willBeComposited == needsToBeComposited(layer));
if (!layer->isComposited() && willBeComposited)
repaintOnCompositingChange(layer);
if (updateBacking(layer, CompositingChangeRepaintNow))
layersChanged = true;
if (layer->reflectionLayer() && updateLayerCompositingState(layer->reflectionLayer(), CompositingChangeRepaintNow))
layersChanged = true;
descendantHas3DTransform |= anyDescendantHas3DTransform || layer->has3DTransform();
if (overlapMap)
overlapMap->geometryMap().popMappingsToAncestor(ancestorLayer);
}
void RenderLayerCompositor::setCompositingParent(RenderLayer* childLayer, RenderLayer* parentLayer)
{
ASSERT(!parentLayer || childLayer->ancestorCompositingLayer() == parentLayer);
ASSERT(childLayer->isComposited());
if (!parentLayer || !parentLayer->isComposited())
return;
if (parentLayer) {
GraphicsLayer* hostingLayer = parentLayer->backing()->parentForSublayers();
GraphicsLayer* hostedLayer = childLayer->backing()->childForSuperlayers();
hostingLayer->addChild(hostedLayer);
} else
childLayer->backing()->childForSuperlayers()->removeFromParent();
}
void RenderLayerCompositor::removeCompositedChildren(RenderLayer* layer)
{
ASSERT(layer->isComposited());
GraphicsLayer* hostingLayer = layer->backing()->parentForSublayers();
hostingLayer->removeAllChildren();
}
#if ENABLE(VIDEO)
bool RenderLayerCompositor::canAccelerateVideoRendering(RenderVideo* o) const
{
if (!m_hasAcceleratedCompositing)
return false;
return o->supportsAcceleratedRendering();
}
#endif
void RenderLayerCompositor::rebuildCompositingLayerTree(RenderLayer* layer, Vector<GraphicsLayer*>& childLayersOfEnclosingLayer, int depth)
{
RenderLayerBacking* layerBacking = layer->backing();
if (layerBacking) {
layerBacking->updateCompositedBounds();
if (RenderLayer* reflection = layer->reflectionLayer()) {
if (reflection->backing())
reflection->backing()->updateCompositedBounds();
}
layerBacking->updateGraphicsLayerConfiguration();
layerBacking->updateGraphicsLayerGeometry();
if (!layer->parent())
updateRootLayerPosition();
#if !LOG_DISABLED
logLayerInfo(layer, depth);
#else
UNUSED_PARAM(depth);
#endif
}
Vector<GraphicsLayer*> layerChildren;
Vector<GraphicsLayer*>& childList = layerBacking ? layerChildren : childLayersOfEnclosingLayer;
#if !ASSERT_DISABLED
LayerListMutationDetector mutationChecker(layer);
#endif
if (layer->isStackingContext()) {
if (Vector<RenderLayer*>* negZOrderList = layer->negZOrderList()) {
size_t listSize = negZOrderList->size();
for (size_t i = 0; i < listSize; ++i) {
RenderLayer* curLayer = negZOrderList->at(i);
rebuildCompositingLayerTree(curLayer, childList, depth + 1);
}
}
if (layerBacking && layerBacking->foregroundLayer())
childList.append(layerBacking->foregroundLayer());
}
if (Vector<RenderLayer*>* normalFlowList = layer->normalFlowList()) {
size_t listSize = normalFlowList->size();
for (size_t i = 0; i < listSize; ++i) {
RenderLayer* curLayer = normalFlowList->at(i);
rebuildCompositingLayerTree(curLayer, childList, depth + 1);
}
}
if (layer->isStackingContext()) {
if (Vector<RenderLayer*>* posZOrderList = layer->posZOrderList()) {
size_t listSize = posZOrderList->size();
for (size_t i = 0; i < listSize; ++i) {
RenderLayer* curLayer = posZOrderList->at(i);
rebuildCompositingLayerTree(curLayer, childList, depth + 1);
}
}
}
if (layerBacking) {
bool parented = false;
if (layer->renderer()->isRenderPart())
parented = parentFrameContentLayers(toRenderPart(layer->renderer()));
if (!parented)
layerBacking->parentForSublayers()->setChildren(layerChildren);
if (!layerBacking->hasClippingLayer()) {
if (GraphicsLayer* overflowControlLayer = layerBacking->layerForHorizontalScrollbar()) {
overflowControlLayer->removeFromParent();
layerBacking->parentForSublayers()->addChild(overflowControlLayer);
}
if (GraphicsLayer* overflowControlLayer = layerBacking->layerForVerticalScrollbar()) {
overflowControlLayer->removeFromParent();
layerBacking->parentForSublayers()->addChild(overflowControlLayer);
}
if (GraphicsLayer* overflowControlLayer = layerBacking->layerForScrollCorner()) {
overflowControlLayer->removeFromParent();
layerBacking->parentForSublayers()->addChild(overflowControlLayer);
}
}
childLayersOfEnclosingLayer.append(layerBacking->childForSuperlayers());
}
}
void RenderLayerCompositor::frameViewDidChangeLocation(const IntPoint& contentsOffset)
{
if (m_overflowControlsHostLayer)
m_overflowControlsHostLayer->setPosition(contentsOffset);
}
void RenderLayerCompositor::frameViewDidChangeSize()
{
if (m_clipLayer) {
FrameView* frameView = m_renderView->frameView();
m_clipLayer->setSize(frameView->visibleContentRect(false ).size());
frameViewDidScroll();
updateOverflowControlsLayers();
#if ENABLE(RUBBER_BANDING)
if (m_layerForOverhangAreas)
m_layerForOverhangAreas->setSize(frameView->frameRect().size());
#endif
}
}
void RenderLayerCompositor::frameViewDidScroll()
{
FrameView* frameView = m_renderView->frameView();
IntPoint scrollPosition = frameView->scrollPosition();
if (TiledBacking* tiledBacking = frameView->tiledBacking()) {
IntRect visibleContentRect = frameView->visibleContentRect(false );
visibleContentRect.move(toSize(frameView->scrollOrigin()));
tiledBacking->visibleRectChanged(visibleContentRect);
}
if (!m_scrollLayer)
return;
if (ScrollingCoordinator* scrollingCoordinator = this->scrollingCoordinator()) {
if (scrollingCoordinator->coordinatesScrollingForFrameView(frameView))
return;
}
m_scrollLayer->setPosition(FloatPoint(-scrollPosition.x(), -scrollPosition.y()));
}
String RenderLayerCompositor::layerTreeAsText(bool showDebugInfo)
{
updateCompositingLayers(CompositingUpdateAfterLayout);
if (!m_rootContentLayer)
return String();
return m_rootContentLayer->layerTreeAsText(showDebugInfo ? LayerTreeAsTextDebug : LayerTreeAsTextBehaviorNormal);
}
RenderLayerCompositor* RenderLayerCompositor::frameContentsCompositor(RenderPart* renderer)
{
if (!renderer->node()->isFrameOwnerElement())
return 0;
HTMLFrameOwnerElement* element = static_cast<HTMLFrameOwnerElement*>(renderer->node());
if (Document* contentDocument = element->contentDocument()) {
if (RenderView* view = contentDocument->renderView())
return view->compositor();
}
return 0;
}
bool RenderLayerCompositor::parentFrameContentLayers(RenderPart* renderer)
{
RenderLayerCompositor* innerCompositor = frameContentsCompositor(renderer);
if (!innerCompositor || !innerCompositor->inCompositingMode() || innerCompositor->rootLayerAttachment() != RootLayerAttachedViaEnclosingFrame)
return false;
RenderLayer* layer = renderer->layer();
if (!layer->isComposited())
return false;
RenderLayerBacking* backing = layer->backing();
GraphicsLayer* hostingLayer = backing->parentForSublayers();
GraphicsLayer* rootLayer = innerCompositor->rootGraphicsLayer();
if (hostingLayer->children().size() != 1 || hostingLayer->children()[0] != rootLayer) {
hostingLayer->removeAllChildren();
hostingLayer->addChild(rootLayer);
}
return true;
}
void RenderLayerCompositor::updateLayerTreeGeometry(RenderLayer* layer, int depth)
{
if (RenderLayerBacking* layerBacking = layer->backing()) {
layerBacking->updateCompositedBounds();
if (RenderLayer* reflection = layer->reflectionLayer()) {
if (reflection->backing())
reflection->backing()->updateCompositedBounds();
}
layerBacking->updateGraphicsLayerConfiguration();
layerBacking->updateGraphicsLayerGeometry();
if (!layer->parent())
updateRootLayerPosition();
#if !LOG_DISABLED
logLayerInfo(layer, depth);
#else
UNUSED_PARAM(depth);
#endif
}
#if !ASSERT_DISABLED
LayerListMutationDetector mutationChecker(layer);
#endif
if (layer->isStackingContext()) {
if (Vector<RenderLayer*>* negZOrderList = layer->negZOrderList()) {
size_t listSize = negZOrderList->size();
for (size_t i = 0; i < listSize; ++i)
updateLayerTreeGeometry(negZOrderList->at(i), depth + 1);
}
}
if (Vector<RenderLayer*>* normalFlowList = layer->normalFlowList()) {
size_t listSize = normalFlowList->size();
for (size_t i = 0; i < listSize; ++i)
updateLayerTreeGeometry(normalFlowList->at(i), depth + 1);
}
if (layer->isStackingContext()) {
if (Vector<RenderLayer*>* posZOrderList = layer->posZOrderList()) {
size_t listSize = posZOrderList->size();
for (size_t i = 0; i < listSize; ++i)
updateLayerTreeGeometry(posZOrderList->at(i), depth + 1);
}
}
}
void RenderLayerCompositor::updateCompositingDescendantGeometry(RenderLayer* compositingAncestor, RenderLayer* layer, RenderLayerBacking::UpdateDepth updateDepth)
{
if (layer != compositingAncestor) {
if (RenderLayerBacking* layerBacking = layer->backing()) {
layerBacking->updateCompositedBounds();
if (RenderLayer* reflection = layer->reflectionLayer()) {
if (reflection->backing())
reflection->backing()->updateCompositedBounds();
}
layerBacking->updateGraphicsLayerGeometry();
if (updateDepth == RenderLayerBacking::CompositingChildren)
return;
}
}
if (layer->reflectionLayer())
updateCompositingDescendantGeometry(compositingAncestor, layer->reflectionLayer(), updateDepth);
if (!layer->hasCompositingDescendant())
return;
#if !ASSERT_DISABLED
LayerListMutationDetector mutationChecker(layer);
#endif
if (layer->isStackingContext()) {
if (Vector<RenderLayer*>* negZOrderList = layer->negZOrderList()) {
size_t listSize = negZOrderList->size();
for (size_t i = 0; i < listSize; ++i)
updateCompositingDescendantGeometry(compositingAncestor, negZOrderList->at(i), updateDepth);
}
}
if (Vector<RenderLayer*>* normalFlowList = layer->normalFlowList()) {
size_t listSize = normalFlowList->size();
for (size_t i = 0; i < listSize; ++i)
updateCompositingDescendantGeometry(compositingAncestor, normalFlowList->at(i), updateDepth);
}
if (layer->isStackingContext()) {
if (Vector<RenderLayer*>* posZOrderList = layer->posZOrderList()) {
size_t listSize = posZOrderList->size();
for (size_t i = 0; i < listSize; ++i)
updateCompositingDescendantGeometry(compositingAncestor, posZOrderList->at(i), updateDepth);
}
}
}
void RenderLayerCompositor::repaintCompositedLayersAbsoluteRect(const IntRect& absRect)
{
recursiveRepaintLayerRect(rootRenderLayer(), absRect);
}
void RenderLayerCompositor::recursiveRepaintLayerRect(RenderLayer* layer, const IntRect& rect)
{
if (layer->isComposited() && !layer->backing()->paintsIntoCompositedAncestor())
layer->setBackingNeedsRepaintInRect(rect);
#if !ASSERT_DISABLED
LayerListMutationDetector mutationChecker(layer);
#endif
if (layer->hasCompositingDescendant()) {
if (Vector<RenderLayer*>* negZOrderList = layer->negZOrderList()) {
size_t listSize = negZOrderList->size();
for (size_t i = 0; i < listSize; ++i) {
RenderLayer* curLayer = negZOrderList->at(i);
IntRect childRect(rect);
curLayer->convertToPixelSnappedLayerCoords(layer, childRect);
recursiveRepaintLayerRect(curLayer, childRect);
}
}
if (Vector<RenderLayer*>* posZOrderList = layer->posZOrderList()) {
size_t listSize = posZOrderList->size();
for (size_t i = 0; i < listSize; ++i) {
RenderLayer* curLayer = posZOrderList->at(i);
IntRect childRect(rect);
curLayer->convertToPixelSnappedLayerCoords(layer, childRect);
recursiveRepaintLayerRect(curLayer, childRect);
}
}
}
if (Vector<RenderLayer*>* normalFlowList = layer->normalFlowList()) {
size_t listSize = normalFlowList->size();
for (size_t i = 0; i < listSize; ++i) {
RenderLayer* curLayer = normalFlowList->at(i);
IntRect childRect(rect);
curLayer->convertToPixelSnappedLayerCoords(layer, childRect);
recursiveRepaintLayerRect(curLayer, childRect);
}
}
}
RenderLayer* RenderLayerCompositor::rootRenderLayer() const
{
return m_renderView->layer();
}
GraphicsLayer* RenderLayerCompositor::rootGraphicsLayer() const
{
if (m_overflowControlsHostLayer)
return m_overflowControlsHostLayer.get();
return m_rootContentLayer.get();
}
GraphicsLayer* RenderLayerCompositor::scrollLayer() const
{
return m_scrollLayer.get();
}
void RenderLayerCompositor::didMoveOnscreen()
{
if (!inCompositingMode() || m_rootLayerAttachment != RootLayerUnattached)
return;
RootLayerAttachment attachment = shouldPropagateCompositingToEnclosingFrame() ? RootLayerAttachedViaEnclosingFrame : RootLayerAttachedViaChromeClient;
attachRootLayer(attachment);
registerAllFixedPositionLayers();
registerAllScrollingLayers();
}
void RenderLayerCompositor::willMoveOffscreen()
{
if (!inCompositingMode() || m_rootLayerAttachment == RootLayerUnattached)
return;
detachRootLayer();
unregisterAllFixedPositionLayers();
unregisterAllScrollingLayers();
}
void RenderLayerCompositor::clearBackingForLayerIncludingDescendants(RenderLayer* layer)
{
if (!layer)
return;
if (layer->isComposited()) {
removeFixedPositionLayer(layer);
layer->clearBacking();
}
for (RenderLayer* currLayer = layer->firstChild(); currLayer; currLayer = currLayer->nextSibling())
clearBackingForLayerIncludingDescendants(currLayer);
}
void RenderLayerCompositor::clearBackingForAllLayers()
{
clearBackingForLayerIncludingDescendants(m_renderView->layer());
}
void RenderLayerCompositor::updateRootLayerPosition()
{
if (m_rootContentLayer) {
const IntRect& documentRect = m_renderView->documentRect();
m_rootContentLayer->setSize(documentRect.size());
m_rootContentLayer->setPosition(documentRect.location());
}
if (m_clipLayer) {
FrameView* frameView = m_renderView->frameView();
m_clipLayer->setSize(frameView->visibleContentRect(false ).size());
}
#if ENABLE(RUBBER_BANDING)
if (m_contentShadowLayer) {
m_contentShadowLayer->setPosition(m_rootContentLayer->position());
FloatSize rootContentLayerSize = m_rootContentLayer->size();
if (m_contentShadowLayer->size() != rootContentLayerSize) {
m_contentShadowLayer->setSize(rootContentLayerSize);
ScrollbarTheme::theme()->setUpContentShadowLayer(m_contentShadowLayer.get());
}
}
#endif
}
bool RenderLayerCompositor::has3DContent() const
{
return layerHas3DContent(rootRenderLayer());
}
bool RenderLayerCompositor::allowsIndependentlyCompositedFrames(const FrameView* view)
{
UNUSED_PARAM(view);
return false;
}
bool RenderLayerCompositor::shouldPropagateCompositingToEnclosingFrame() const
{
HTMLFrameOwnerElement* ownerElement = m_renderView->document()->ownerElement();
RenderObject* renderer = ownerElement ? ownerElement->renderer() : 0;
if (!ownerElement)
return false;
if (!allowsIndependentlyCompositedFrames(m_renderView->frameView()))
return true;
if (!renderer || !renderer->isRenderPart())
return false;
Frame* frame = m_renderView->frameView()->frame();
Page* page = frame ? frame->page() : 0;
if (page && page->pageScaleFactor() != 1)
return true;
RenderPart* frameRenderer = toRenderPart(renderer);
if (frameRenderer->widget()) {
ASSERT(frameRenderer->widget()->isFrameView());
FrameView* view = static_cast<FrameView*>(frameRenderer->widget());
if (view->isOverlappedIncludingAncestors() || view->hasCompositingAncestor())
return true;
}
return false;
}
bool RenderLayerCompositor::needsToBeComposited(const RenderLayer* layer) const
{
if (!canBeComposited(layer))
return false;
return requiresCompositingLayer(layer) || layer->mustCompositeForIndirectReasons() || (inCompositingMode() && layer->isRootLayer());
}
bool RenderLayerCompositor::requiresCompositingLayer(const RenderLayer* layer) const
{
RenderObject* renderer = layer->renderer();
if (layer->isReflection()) {
renderer = renderer->parent(); layer = toRenderBoxModelObject(renderer)->layer();
}
return requiresCompositingForTransform(renderer)
|| requiresCompositingForVideo(renderer)
|| requiresCompositingForCanvas(renderer)
|| requiresCompositingForPlugin(renderer)
|| requiresCompositingForFrame(renderer)
|| (canRender3DTransforms() && renderer->style()->backfaceVisibility() == BackfaceVisibilityHidden)
|| clipsCompositingDescendants(layer)
|| requiresCompositingForAnimation(renderer)
|| requiresCompositingForFilters(renderer)
|| requiresCompositingForPosition(renderer, layer)
|| requiresCompositingForScrolling(renderer)
;
}
bool RenderLayerCompositor::canBeComposited(const RenderLayer* layer) const
{
return m_hasAcceleratedCompositing && layer->isSelfPaintingLayer() && !layer->renderer()->inRenderFlowThread();
}
bool RenderLayerCompositor::requiresOwnBackingStore(const RenderLayer* layer, const RenderLayer* compositingAncestorLayer) const
{
RenderObject* renderer = layer->renderer();
if (compositingAncestorLayer
&& !(compositingAncestorLayer->backing()->graphicsLayer()->drawsContent()
|| compositingAncestorLayer->backing()->paintsIntoWindow()
|| compositingAncestorLayer->backing()->paintsIntoCompositedAncestor()))
return true;
if (layer->isRootLayer()
|| layer->transform() || requiresCompositingForVideo(renderer)
|| requiresCompositingForCanvas(renderer)
|| requiresCompositingForPlugin(renderer)
|| requiresCompositingForFrame(renderer)
|| (canRender3DTransforms() && renderer->style()->backfaceVisibility() == BackfaceVisibilityHidden)
|| requiresCompositingForAnimation(renderer)
|| requiresCompositingForFilters(renderer)
|| requiresCompositingForPosition(renderer, layer)
|| renderer->isTransparent()
|| renderer->hasMask()
|| renderer->hasReflection()
|| renderer->hasFilter()
|| requiresCompositingForScrolling(renderer)
)
return true;
if (layer->mustCompositeForIndirectReasons()) {
RenderLayer::IndirectCompositingReason reason = layer->indirectCompositingReason();
return reason == RenderLayer::IndirectCompositingForOverlap
|| reason == RenderLayer::IndirectCompositingForBackgroundLayer
|| reason == RenderLayer::IndirectCompositingForGraphicalEffect
|| reason == RenderLayer::IndirectCompositingForPreserve3D; }
return false;
}
#if !LOG_DISABLED
const char* RenderLayerCompositor::reasonForCompositing(const RenderLayer* layer)
{
RenderObject* renderer = layer->renderer();
if (layer->isReflection()) {
renderer = renderer->parent();
layer = toRenderBoxModelObject(renderer)->layer();
}
if (requiresCompositingForTransform(renderer))
return "3D transform";
if (requiresCompositingForVideo(renderer))
return "video";
if (requiresCompositingForCanvas(renderer))
return "canvas";
if (requiresCompositingForPlugin(renderer))
return "plugin";
if (requiresCompositingForFrame(renderer))
return "iframe";
if ((canRender3DTransforms() && renderer->style()->backfaceVisibility() == BackfaceVisibilityHidden))
return "backface-visibility: hidden";
if (clipsCompositingDescendants(layer))
return "clips compositing descendants";
if (requiresCompositingForAnimation(renderer))
return "animation";
if (requiresCompositingForFilters(renderer))
return "filters";
if (requiresCompositingForPosition(renderer, layer))
return "position: fixed";
if (layer->indirectCompositingReason() == RenderLayer::IndirectCompositingForOverlap)
return "overlap/stacking";
if (layer->indirectCompositingReason() == RenderLayer::IndirectCompositingForBackgroundLayer)
return "negative z-index children";
if (layer->indirectCompositingReason() == RenderLayer::IndirectCompositingForGraphicalEffect) {
if (layer->transform())
return "transform with composited descendants";
if (renderer->isTransparent())
return "opacity with composited descendants";
if (renderer->hasMask())
return "mask with composited descendants";
if (renderer->hasReflection())
return "reflection with composited descendants";
if (renderer->hasFilter())
return "filter with composited descendants";
}
if (layer->indirectCompositingReason() == RenderLayer::IndirectCompositingForPerspective)
return "perspective";
if (layer->indirectCompositingReason() == RenderLayer::IndirectCompositingForPreserve3D)
return "preserve-3d";
if (inCompositingMode() && layer->isRootLayer())
return "root";
return "";
}
#endif
bool RenderLayerCompositor::clippedByAncestor(RenderLayer* layer) const
{
if (!layer->isComposited() || !layer->parent())
return false;
RenderLayer* compositingAncestor = layer->ancestorCompositingLayer();
if (!compositingAncestor)
return false;
RenderLayer* computeClipRoot = 0;
RenderLayer* curr = layer;
while (curr) {
RenderLayer* next = curr->parent();
if (next == compositingAncestor) {
computeClipRoot = curr;
break;
}
curr = next;
}
if (!computeClipRoot || computeClipRoot == layer)
return false;
return layer->backgroundClipRect(computeClipRoot, 0, TemporaryClipRects).rect() != PaintInfo::infiniteRect(); }
bool RenderLayerCompositor::clipsCompositingDescendants(const RenderLayer* layer) const
{
return layer->hasCompositingDescendant() &&
(layer->renderer()->hasOverflowClip() || layer->renderer()->hasClip());
}
bool RenderLayerCompositor::requiresCompositingForScrollableFrame() const
{
ASSERT(!m_renderView->needsLayout());
ScrollView* scrollView = m_renderView->frameView();
return scrollView->verticalScrollbar() || scrollView->horizontalScrollbar();
}
bool RenderLayerCompositor::requiresCompositingForTransform(RenderObject* renderer) const
{
if (!(m_compositingTriggers & ChromeClient::ThreeDTransformTrigger))
return false;
RenderStyle* style = renderer->style();
return renderer->hasTransform() && style->transform().has3DOperation();
}
bool RenderLayerCompositor::requiresCompositingForVideo(RenderObject* renderer) const
{
if (!(m_compositingTriggers & ChromeClient::VideoTrigger))
return false;
#if ENABLE(VIDEO)
if (renderer->isVideo()) {
RenderVideo* video = toRenderVideo(renderer);
return video->shouldDisplayVideo() && canAccelerateVideoRendering(video);
}
#if ENABLE(PLUGIN_PROXY_FOR_VIDEO)
else if (renderer->isRenderPart()) {
if (!m_hasAcceleratedCompositing)
return false;
Node* node = renderer->node();
if (!node || (!node->hasTagName(HTMLNames::videoTag) && !node->hasTagName(HTMLNames::audioTag)))
return false;
HTMLMediaElement* mediaElement = static_cast<HTMLMediaElement*>(node);
return mediaElement->player() ? mediaElement->player()->supportsAcceleratedRendering() : false;
}
#endif // ENABLE(PLUGIN_PROXY_FOR_VIDEO)
#else
UNUSED_PARAM(renderer);
#endif
return false;
}
bool RenderLayerCompositor::requiresCompositingForCanvas(RenderObject* renderer) const
{
if (!(m_compositingTriggers & ChromeClient::CanvasTrigger))
return false;
if (renderer->isCanvas()) {
HTMLCanvasElement* canvas = static_cast<HTMLCanvasElement*>(renderer->node());
return canvas->renderingContext() && canvas->renderingContext()->isAccelerated();
}
return false;
}
bool RenderLayerCompositor::requiresCompositingForPlugin(RenderObject* renderer) const
{
if (!(m_compositingTriggers & ChromeClient::PluginTrigger))
return false;
bool composite = (renderer->isEmbeddedObject() && toRenderEmbeddedObject(renderer)->allowsAcceleratedCompositing())
|| (renderer->isApplet() && toRenderApplet(renderer)->allowsAcceleratedCompositing());
if (!composite)
return false;
m_reevaluateCompositingAfterLayout = true;
RenderWidget* pluginRenderer = toRenderWidget(renderer);
if (pluginRenderer->needsLayout())
return pluginRenderer->hasLayer() && pluginRenderer->layer()->isComposited();
IntRect contentBox = pixelSnappedIntRect(pluginRenderer->contentBoxRect());
return contentBox.height() * contentBox.width() > 1;
}
bool RenderLayerCompositor::requiresCompositingForFrame(RenderObject* renderer) const
{
if (!renderer->isRenderPart())
return false;
RenderPart* frameRenderer = toRenderPart(renderer);
if (!frameRenderer->requiresAcceleratedCompositing())
return false;
m_reevaluateCompositingAfterLayout = true;
RenderLayerCompositor* innerCompositor = frameContentsCompositor(frameRenderer);
if (!innerCompositor || !innerCompositor->shouldPropagateCompositingToEnclosingFrame())
return false;
if (renderer->needsLayout())
return frameRenderer->hasLayer() && frameRenderer->layer()->isComposited();
IntRect contentBox = pixelSnappedIntRect(frameRenderer->contentBoxRect());
return contentBox.height() * contentBox.width() > 0;
}
bool RenderLayerCompositor::requiresCompositingForAnimation(RenderObject* renderer) const
{
if (!(m_compositingTriggers & ChromeClient::AnimationTrigger))
return false;
if (AnimationController* animController = renderer->animation()) {
return (animController->isRunningAnimationOnRenderer(renderer, CSSPropertyOpacity)
)
#if ENABLE(CSS_FILTERS)
#if !defined(BUILDING_ON_SNOW_LEOPARD) && !defined(BUILDING_ON_LION)
|| animController->isRunningAnimationOnRenderer(renderer, CSSPropertyWebkitFilter)
#endif // !SNOW_LEOPARD && !LION
#endif // CSS_FILTERS
|| animController->isRunningAnimationOnRenderer(renderer, CSSPropertyWebkitTransform);
}
return false;
}
bool RenderLayerCompositor::requiresCompositingForIndirectReason(RenderObject* renderer, bool hasCompositedDescendants, bool has3DTransformedDescendants, RenderLayer::IndirectCompositingReason& reason) const
{
RenderLayer* layer = toRenderBoxModelObject(renderer)->layer();
if (hasCompositedDescendants && (layer->transform() || renderer->isTransparent() || renderer->hasMask() || renderer->hasReflection() || renderer->hasFilter())) {
reason = RenderLayer::IndirectCompositingForGraphicalEffect;
return true;
}
if (has3DTransformedDescendants) {
if (renderer->style()->transformStyle3D() == TransformStyle3DPreserve3D) {
reason = RenderLayer::IndirectCompositingForPreserve3D;
return true;
}
if (renderer->style()->hasPerspective()) {
reason = RenderLayer::IndirectCompositingForPerspective;
return true;
}
}
reason = RenderLayer::NoIndirectCompositingReason;
return false;
}
bool RenderLayerCompositor::requiresCompositingForScrolling(RenderObject* renderer) const
{
return renderer->hasLayer() && toRenderBoxModelObject(renderer)->layer()->hasAcceleratedTouchScrolling();
}
bool RenderLayerCompositor::requiresCompositingForFilters(RenderObject* renderer) const
{
#if ENABLE(CSS_FILTERS)
if (!(m_compositingTriggers & ChromeClient::FilterTrigger))
return false;
return renderer->hasFilter();
#else
UNUSED_PARAM(renderer);
return false;
#endif
}
bool RenderLayerCompositor::requiresCompositingForPosition(RenderObject* renderer, const RenderLayer* layer) const
{
if (!m_renderView->hasCustomFixedPosition(renderer, RenderView::CheckContainingBlock))
return false;
RenderObject* container = renderer->container();
if (!container) {
m_reevaluateCompositingAfterLayout = true;
return false;
}
if (container != m_renderView)
return false;
FrameView* frameView = m_renderView->frameView();
if (frameView && !layer->absoluteBoundingBox().intersects(frameView->customFixedPositionLayoutRect()))
return false;
return true;
}
bool RenderLayerCompositor::isRunningAcceleratedTransformAnimation(RenderObject* renderer) const
{
if (!(m_compositingTriggers & ChromeClient::AnimationTrigger))
return false;
if (AnimationController* animController = renderer->animation())
return animController->isRunningAnimationOnRenderer(renderer, CSSPropertyWebkitTransform);
return false;
}
bool RenderLayerCompositor::needsContentsCompositingLayer(const RenderLayer* layer) const
{
return (layer->m_negZOrderList && layer->m_negZOrderList->size() > 0);
}
bool RenderLayerCompositor::requiresScrollLayer(RootLayerAttachment attachment) const
{
if (m_renderView->frameView()->delegatesScrolling())
return false;
return !m_renderView->frameView()->platformWidget() || attachment == RootLayerAttachedViaEnclosingFrame; }
static void paintScrollbar(Scrollbar* scrollbar, GraphicsContext& context, const IntRect& clip)
{
if (!scrollbar)
return;
context.save();
const IntRect& scrollbarRect = scrollbar->frameRect();
context.translate(-scrollbarRect.x(), -scrollbarRect.y());
IntRect transformedClip = clip;
transformedClip.moveBy(scrollbarRect.location());
scrollbar->paint(&context, transformedClip);
context.restore();
}
void RenderLayerCompositor::paintContents(const GraphicsLayer* graphicsLayer, GraphicsContext& context, GraphicsLayerPaintingPhase, const IntRect& clip)
{
if (graphicsLayer == layerForHorizontalScrollbar())
paintScrollbar(m_renderView->frameView()->horizontalScrollbar(), context, clip);
else if (graphicsLayer == layerForVerticalScrollbar())
paintScrollbar(m_renderView->frameView()->verticalScrollbar(), context, clip);
else if (graphicsLayer == layerForScrollCorner()) {
const IntRect& scrollCorner = m_renderView->frameView()->scrollCornerRect();
context.save();
context.translate(-scrollCorner.x(), -scrollCorner.y());
IntRect transformedClip = clip;
transformedClip.moveBy(scrollCorner.location());
m_renderView->frameView()->paintScrollCorner(&context, transformedClip);
context.restore();
#if PLATFORM(CHROMIUM) && ENABLE(RUBBER_BANDING)
} else if (graphicsLayer == layerForOverhangAreas()) {
ScrollView* view = m_renderView->frameView();
view->calculateAndPaintOverhangAreas(&context, clip);
#endif
}
}
void RenderLayerCompositor::documentBackgroundColorDidChange()
{
RenderLayerBacking* backing = rootRenderLayer()->backing();
if (!backing)
return;
GraphicsLayer* graphicsLayer = backing->graphicsLayer();
if (!graphicsLayer->client()->shouldUseTileCache(graphicsLayer))
return;
Color backgroundColor = m_renderView->frameView()->documentBackgroundColor();
if (!backgroundColor.isValid() || backgroundColor.hasAlpha())
backgroundColor = Color::white;
graphicsLayer->setBackgroundColor(backgroundColor);
}
bool RenderLayerCompositor::showDebugBorders(const GraphicsLayer* layer) const
{
if (layer == m_layerForHorizontalScrollbar || layer == m_layerForVerticalScrollbar || layer == m_layerForScrollCorner)
return m_showDebugBorders;
return false;
}
bool RenderLayerCompositor::showRepaintCounter(const GraphicsLayer* layer) const
{
if (layer == m_layerForHorizontalScrollbar || layer == m_layerForVerticalScrollbar || layer == m_layerForScrollCorner)
return m_showDebugBorders;
return false;
}
float RenderLayerCompositor::minimumDocumentScale() const
{
Frame* frame = m_renderView->frameView()->frame();
return frame ? frame->minimumDocumentScale() : 1;
}
bool RenderLayerCompositor::allowCompositingLayerVisualDegradation() const
{
Frame* frame = m_renderView->frameView()->frame();
if (!frame)
return true;
Page* page = frame->page();
if (!page)
return true;
return page->settings()->allowCompositingLayerVisualDegradation();
}
float RenderLayerCompositor::deviceScaleFactor() const
{
Frame* frame = m_renderView->frameView()->frame();
if (!frame)
return 1;
return frame->deviceScaleFactor();
}
float RenderLayerCompositor::pageScaleFactor() const
{
Frame* frame = m_renderView->frameView()->frame();
if (!frame)
return 1;
return frame->documentScale();
}
void RenderLayerCompositor::didCommitChangesForLayer(const GraphicsLayer*) const
{
}
bool RenderLayerCompositor::keepLayersPixelAligned() const
{
return true;
}
static bool shouldCompositeOverflowControls(FrameView* view)
{
if (view->platformWidget())
return false;
if (Page* page = view->frame()->page()) {
if (ScrollingCoordinator* scrollingCoordinator = page->scrollingCoordinator())
if (scrollingCoordinator->coordinatesScrollingForFrameView(view))
return true;
}
#if !PLATFORM(CHROMIUM)
if (!view->hasOverlayScrollbars())
return false;
#endif
return true;
}
bool RenderLayerCompositor::requiresHorizontalScrollbarLayer() const
{
FrameView* view = m_renderView->frameView();
return shouldCompositeOverflowControls(view) && view->horizontalScrollbar();
}
bool RenderLayerCompositor::requiresVerticalScrollbarLayer() const
{
FrameView* view = m_renderView->frameView();
return shouldCompositeOverflowControls(view) && view->verticalScrollbar();
}
bool RenderLayerCompositor::requiresScrollCornerLayer() const
{
FrameView* view = m_renderView->frameView();
return shouldCompositeOverflowControls(view) && view->isScrollCornerVisible();
}
#if ENABLE(RUBBER_BANDING)
bool RenderLayerCompositor::requiresOverhangAreasLayer() const
{
if (m_renderView->document()->ownerElement())
return false;
if (scrollingCoordinator())
return true;
#if PLATFORM(CHROMIUM)
return true;
#endif
return false;
}
bool RenderLayerCompositor::requiresContentShadowLayer() const
{
if (m_renderView->document()->ownerElement())
return false;
#if PLATFORM(MAC)
if (scrollingCoordinator())
return true;
#endif
return false;
}
#endif
void RenderLayerCompositor::updateOverflowControlsLayers()
{
#if ENABLE(RUBBER_BANDING)
if (requiresOverhangAreasLayer()) {
if (!m_layerForOverhangAreas) {
m_layerForOverhangAreas = GraphicsLayer::create(this);
#ifndef NDEBUG
m_layerForOverhangAreas->setName("overhang areas");
#endif
m_layerForOverhangAreas->setDrawsContent(false);
m_layerForOverhangAreas->setSize(m_renderView->frameView()->frameRect().size());
ScrollbarTheme::theme()->setUpOverhangAreasLayerContents(m_layerForOverhangAreas.get());
m_overflowControlsHostLayer->addChildBelow(m_layerForOverhangAreas.get(), m_clipLayer.get());
}
} else if (m_layerForOverhangAreas) {
m_layerForOverhangAreas->removeFromParent();
m_layerForOverhangAreas = nullptr;
}
if (requiresContentShadowLayer()) {
if (!m_contentShadowLayer) {
m_contentShadowLayer = GraphicsLayer::create(this);
#ifndef NDEBUG
m_contentShadowLayer->setName("content shadow");
#endif
m_contentShadowLayer->setSize(m_rootContentLayer->size());
m_contentShadowLayer->setPosition(m_rootContentLayer->position());
ScrollbarTheme::theme()->setUpContentShadowLayer(m_contentShadowLayer.get());
m_scrollLayer->addChildBelow(m_contentShadowLayer.get(), m_rootContentLayer.get());
}
} else if (m_contentShadowLayer) {
m_contentShadowLayer->removeFromParent();
m_contentShadowLayer = nullptr;
}
#endif
if (requiresHorizontalScrollbarLayer()) {
if (!m_layerForHorizontalScrollbar) {
m_layerForHorizontalScrollbar = GraphicsLayer::create(this);
#ifndef NDEBUG
m_layerForHorizontalScrollbar->setName("horizontal scrollbar");
#endif
#if PLATFORM(MAC) && USE(CA)
m_layerForHorizontalScrollbar->setAcceleratesDrawing(acceleratedDrawingEnabled());
#endif
m_overflowControlsHostLayer->addChild(m_layerForHorizontalScrollbar.get());
if (ScrollingCoordinator* scrollingCoordinator = this->scrollingCoordinator())
scrollingCoordinator->frameViewHorizontalScrollbarLayerDidChange(m_renderView->frameView(), m_layerForHorizontalScrollbar.get());
}
} else if (m_layerForHorizontalScrollbar) {
m_layerForHorizontalScrollbar->removeFromParent();
m_layerForHorizontalScrollbar = nullptr;
if (ScrollingCoordinator* scrollingCoordinator = this->scrollingCoordinator())
scrollingCoordinator->frameViewHorizontalScrollbarLayerDidChange(m_renderView->frameView(), 0);
}
if (requiresVerticalScrollbarLayer()) {
if (!m_layerForVerticalScrollbar) {
m_layerForVerticalScrollbar = GraphicsLayer::create(this);
#ifndef NDEBUG
m_layerForVerticalScrollbar->setName("vertical scrollbar");
#endif
#if PLATFORM(MAC) && USE(CA)
m_layerForVerticalScrollbar->setAcceleratesDrawing(acceleratedDrawingEnabled());
#endif
m_overflowControlsHostLayer->addChild(m_layerForVerticalScrollbar.get());
if (ScrollingCoordinator* scrollingCoordinator = this->scrollingCoordinator())
scrollingCoordinator->frameViewVerticalScrollbarLayerDidChange(m_renderView->frameView(), m_layerForVerticalScrollbar.get());
}
} else if (m_layerForVerticalScrollbar) {
m_layerForVerticalScrollbar->removeFromParent();
m_layerForVerticalScrollbar = nullptr;
if (ScrollingCoordinator* scrollingCoordinator = this->scrollingCoordinator())
scrollingCoordinator->frameViewVerticalScrollbarLayerDidChange(m_renderView->frameView(), 0);
}
if (requiresScrollCornerLayer()) {
if (!m_layerForScrollCorner) {
m_layerForScrollCorner = GraphicsLayer::create(this);
#ifndef NDEBUG
m_layerForScrollCorner->setName("scroll corner");
#endif
#if PLATFORM(MAC) && USE(CA)
m_layerForScrollCorner->setAcceleratesDrawing(acceleratedDrawingEnabled());
#endif
m_overflowControlsHostLayer->addChild(m_layerForScrollCorner.get());
}
} else if (m_layerForScrollCorner) {
m_layerForScrollCorner->removeFromParent();
m_layerForScrollCorner = nullptr;
}
m_renderView->frameView()->positionScrollbarLayers();
}
void RenderLayerCompositor::ensureRootLayer()
{
RootLayerAttachment expectedAttachment = shouldPropagateCompositingToEnclosingFrame() ? RootLayerAttachedViaEnclosingFrame : RootLayerAttachedViaChromeClient;
if (expectedAttachment == m_rootLayerAttachment)
return;
if (!m_rootContentLayer) {
m_rootContentLayer = GraphicsLayer::create(this);
#ifndef NDEBUG
m_rootContentLayer->setName("content root");
#endif
IntRect overflowRect = m_renderView->pixelSnappedLayoutOverflowRect();
m_rootContentLayer->setSize(FloatSize(overflowRect.maxX(), overflowRect.maxY()));
m_rootContentLayer->setPosition(FloatPoint());
Frame* frame = m_renderView->frameView()->frame();
Page* page = frame ? frame->page() : 0;
if (page && frame && page->mainFrame() == frame)
m_rootContentLayer->setAppliesPageScale();
m_rootContentLayer->setMasksToBounds(true);
}
if (requiresScrollLayer(expectedAttachment)) {
if (!m_overflowControlsHostLayer) {
ASSERT(!m_scrollLayer);
ASSERT(!m_clipLayer);
m_overflowControlsHostLayer = GraphicsLayer::create(this);
#ifndef NDEBUG
m_overflowControlsHostLayer->setName("overflow controls host");
#endif
m_clipLayer = GraphicsLayer::create(this);
#ifndef NDEBUG
m_clipLayer->setName("frame clipping");
#endif
m_clipLayer->setMasksToBounds(true);
m_scrollLayer = GraphicsLayer::create(this);
#ifndef NDEBUG
m_scrollLayer->setName("frame scrolling");
#endif
m_overflowControlsHostLayer->addChild(m_clipLayer.get());
m_clipLayer->addChild(m_scrollLayer.get());
m_scrollLayer->addChild(m_rootContentLayer.get());
frameViewDidChangeSize();
frameViewDidScroll();
}
} else {
if (m_overflowControlsHostLayer) {
m_overflowControlsHostLayer = nullptr;
m_clipLayer = nullptr;
m_scrollLayer = nullptr;
}
}
if (m_rootLayerAttachment != RootLayerUnattached)
detachRootLayer();
attachRootLayer(expectedAttachment);
}
void RenderLayerCompositor::destroyRootLayer()
{
if (!m_rootContentLayer)
return;
detachRootLayer();
#if ENABLE(RUBBER_BANDING)
if (m_layerForOverhangAreas) {
m_layerForOverhangAreas->removeFromParent();
m_layerForOverhangAreas = nullptr;
}
#endif
if (m_layerForHorizontalScrollbar) {
m_layerForHorizontalScrollbar->removeFromParent();
m_layerForHorizontalScrollbar = nullptr;
if (Scrollbar* horizontalScrollbar = m_renderView->frameView()->verticalScrollbar())
m_renderView->frameView()->invalidateScrollbar(horizontalScrollbar, IntRect(IntPoint(0, 0), horizontalScrollbar->frameRect().size()));
}
if (m_layerForVerticalScrollbar) {
m_layerForVerticalScrollbar->removeFromParent();
m_layerForVerticalScrollbar = nullptr;
if (Scrollbar* verticalScrollbar = m_renderView->frameView()->verticalScrollbar())
m_renderView->frameView()->invalidateScrollbar(verticalScrollbar, IntRect(IntPoint(0, 0), verticalScrollbar->frameRect().size()));
}
if (m_layerForScrollCorner) {
m_layerForScrollCorner = nullptr;
m_renderView->frameView()->invalidateScrollCorner(m_renderView->frameView()->scrollCornerRect());
}
if (m_overflowControlsHostLayer) {
m_overflowControlsHostLayer = nullptr;
m_clipLayer = nullptr;
m_scrollLayer = nullptr;
}
ASSERT(!m_scrollLayer);
m_rootContentLayer = nullptr;
}
void RenderLayerCompositor::attachRootLayer(RootLayerAttachment attachment)
{
if (!m_rootContentLayer)
return;
switch (attachment) {
case RootLayerUnattached:
ASSERT_NOT_REACHED();
break;
case RootLayerAttachedViaChromeClient: {
Frame* frame = m_renderView->frameView()->frame();
Page* page = frame ? frame->page() : 0;
if (!page)
return;
page->chrome()->client()->attachRootGraphicsLayer(frame, rootGraphicsLayer());
break;
}
case RootLayerAttachedViaEnclosingFrame: {
m_renderView->document()->ownerElement()->scheduleSetNeedsStyleRecalc(SyntheticStyleChange);
break;
}
}
if (ScrollingCoordinator* scrollingCoordinator = this->scrollingCoordinator())
scrollingCoordinator->frameViewRootLayerDidChange(m_renderView->frameView());
m_rootLayerAttachment = attachment;
rootLayerAttachmentChanged();
}
void RenderLayerCompositor::detachRootLayer()
{
if (!m_rootContentLayer || m_rootLayerAttachment == RootLayerUnattached)
return;
switch (m_rootLayerAttachment) {
case RootLayerAttachedViaEnclosingFrame: {
if (m_overflowControlsHostLayer)
m_overflowControlsHostLayer->removeFromParent();
else
m_rootContentLayer->removeFromParent();
if (HTMLFrameOwnerElement* ownerElement = m_renderView->document()->ownerElement())
ownerElement->scheduleSetNeedsStyleRecalc(SyntheticStyleChange);
break;
}
case RootLayerAttachedViaChromeClient: {
Frame* frame = m_renderView->frameView()->frame();
Page* page = frame ? frame->page() : 0;
if (!page)
return;
page->chrome()->client()->attachRootGraphicsLayer(frame, 0);
}
break;
case RootLayerUnattached:
break;
}
m_rootLayerAttachment = RootLayerUnattached;
rootLayerAttachmentChanged();
}
void RenderLayerCompositor::updateRootLayerAttachment()
{
ensureRootLayer();
}
void RenderLayerCompositor::rootLayerAttachmentChanged()
{
RenderLayer* layer = m_renderView->layer();
if (RenderLayerBacking* backing = layer ? layer->backing() : 0)
backing->updateDrawsContent();
}
void RenderLayerCompositor::notifyIFramesOfCompositingChange()
{
Frame* frame = m_renderView->frameView() ? m_renderView->frameView()->frame() : 0;
if (!frame)
return;
for (Frame* child = frame->tree()->firstChild(); child; child = child->tree()->traverseNext(frame)) {
if (child->document() && child->document()->ownerElement())
child->document()->ownerElement()->scheduleSetNeedsStyleRecalc(SyntheticStyleChange);
}
if (HTMLFrameOwnerElement* ownerElement = m_renderView->document()->ownerElement())
ownerElement->scheduleSetNeedsStyleRecalc(SyntheticStyleChange);
}
bool RenderLayerCompositor::layerHas3DContent(const RenderLayer* layer) const
{
const RenderStyle* style = layer->renderer()->style();
if (style &&
(style->transformStyle3D() == TransformStyle3DPreserve3D ||
style->hasPerspective() ||
style->transform().has3DOperation()))
return true;
const_cast<RenderLayer*>(layer)->updateLayerListsIfNeeded();
#if !ASSERT_DISABLED
LayerListMutationDetector mutationChecker(const_cast<RenderLayer*>(layer));
#endif
if (layer->isStackingContext()) {
if (Vector<RenderLayer*>* negZOrderList = layer->negZOrderList()) {
size_t listSize = negZOrderList->size();
for (size_t i = 0; i < listSize; ++i) {
RenderLayer* curLayer = negZOrderList->at(i);
if (layerHas3DContent(curLayer))
return true;
}
}
if (Vector<RenderLayer*>* posZOrderList = layer->posZOrderList()) {
size_t listSize = posZOrderList->size();
for (size_t i = 0; i < listSize; ++i) {
RenderLayer* curLayer = posZOrderList->at(i);
if (layerHas3DContent(curLayer))
return true;
}
}
}
if (Vector<RenderLayer*>* normalFlowList = layer->normalFlowList()) {
size_t listSize = normalFlowList->size();
for (size_t i = 0; i < listSize; ++i) {
RenderLayer* curLayer = normalFlowList->at(i);
if (layerHas3DContent(curLayer))
return true;
}
}
return false;
}
void RenderLayerCompositor::deviceOrPageScaleFactorChanged()
{
RenderLayer* viewLayer = m_renderView->layer();
if (!viewLayer->isComposited())
return;
if (GraphicsLayer* rootLayer = viewLayer->backing()->graphicsLayer())
rootLayer->noteDeviceOrPageScaleFactorChangedIncludingDescendants();
}
static bool isRootmostFixedLayer(RenderLayer* layer, RenderView* view)
{
if (!view->hasCustomFixedPosition(layer->renderer()))
return false;
for (RenderLayer* stackingContext = layer->stackingContext(); stackingContext; stackingContext = stackingContext->stackingContext()) {
if (stackingContext->isComposited() && stackingContext->renderer()->style()->position() == FixedPosition)
return false;
}
return true;
}
void RenderLayerCompositor::updateFixedPositionStatus(RenderLayer* layer)
{
if (isRootmostFixedLayer(layer, m_renderView))
addFixedPositionLayer(layer);
else
removeFixedPositionLayer(layer);
}
void RenderLayerCompositor::addFixedPositionLayer(RenderLayer* layer)
{
m_fixedPositionLayers.add(layer);
registerOrUpdateFixedPositionLayer(layer);
}
void RenderLayerCompositor::removeFixedPositionLayer(RenderLayer* layer)
{
if (!m_fixedPositionLayers.contains(layer))
return;
unregisterFixedPositionLayer(layer);
m_fixedPositionLayers.remove(layer);
}
void RenderLayerCompositor::platformLayerChanged(RenderLayer* renderLayer, PlatformLayer* oldLayer, PlatformLayer* newLayer)
{
if (m_fixedPositionLayers.contains(renderLayer)) {
if (ChromeClient* chromeClient = this->chromeClient()) {
bool isFlushing = enclosingCompositorFlushingLayers();
chromeClient->removeFixedPositionLayer(oldLayer, isFlushing);
ScrollingLayerSizing sizing;
FloatRect bounds;
FloatSize alignmentOffset;
getFixedPositionLayerSizing(renderLayer, sizing, bounds, alignmentOffset);
chromeClient->addOrUpdateFixedPositionLayer(newLayer, sizing, bounds, alignmentOffset, isFlushing);
}
}
if (m_scrollingLayers.contains(renderLayer)) {
RenderLayerBacking* backing = renderLayer->backing();
ASSERT(backing);
scrollingLayerAddedOrUpdated(renderLayer, backing->scrollingLayer()->platformLayer(), backing->scrollingContentsLayer()->platformLayer(), IntSize(renderLayer->scrollWidth(), renderLayer->scrollHeight()));
}
}
void RenderLayerCompositor::getFixedPositionLayerSizing(RenderLayer* layer, ScrollingLayerSizing& sizing, FloatRect& bounds, FloatSize& alignmentOffset)
{
ASSERT(layer->isComposited());
GraphicsLayer* graphicsLayer = layer->backing()->graphicsLayer();
FloatRect fixedOffsetBounds(graphicsLayer->position(), graphicsLayer->size());
alignmentOffset = graphicsLayer->pixelAlignmentOffset();
FrameView* frameView = m_renderView->frameView();
IntRect positionedObjectsRect = frameView->customFixedPositionLayoutRect();
RenderObject* renderer = layer->renderer();
Length left = renderer->style()->left();
Length right = renderer->style()->right();
Length top = renderer->style()->top();
Length bottom = renderer->style()->bottom();
bounds = FloatRect(FloatPoint(), fixedOffsetBounds.size());
sizing = ScrollingLayerSizingNone;
if (!left.isAuto()) {
sizing |= ScrollingLayerAnchorLeft;
bounds.setX(fixedOffsetBounds.x() - positionedObjectsRect.x());
}
if (!right.isAuto()) {
sizing |= ScrollingLayerAnchorRight;
if (!(sizing & ScrollingLayerAnchorLeft))
bounds.setX(positionedObjectsRect.maxX() - fixedOffsetBounds.maxX());
}
if (!top.isAuto()) {
sizing |= ScrollingLayerAnchorTop;
bounds.setY(fixedOffsetBounds.y() - positionedObjectsRect.y());
}
if (!bottom.isAuto()) {
sizing |= ScrollingLayerAnchorBottom;
if (!(sizing & ScrollingLayerAnchorTop))
bounds.setY(positionedObjectsRect.maxY() - fixedOffsetBounds.maxY());
}
if (!(sizing & (ScrollingLayerAnchorLeft | ScrollingLayerAnchorRight))) {
sizing |= ScrollingLayerAnchorLeft;
bounds.setX(fixedOffsetBounds.x() - positionedObjectsRect.x());
}
if (!(sizing & (ScrollingLayerAnchorTop | ScrollingLayerAnchorBottom))) {
sizing |= ScrollingLayerAnchorTop;
bounds.setY(fixedOffsetBounds.y() - positionedObjectsRect.y());
}
}
void RenderLayerCompositor::registerOrUpdateFixedPositionLayer(RenderLayer* layer)
{
ASSERT(m_renderView->hasCustomFixedPosition(layer->renderer()));
ASSERT(m_fixedPositionLayers.contains(layer));
ASSERT(layer->isComposited());
ChromeClient* chromeClient = this->chromeClient();
if (!chromeClient)
return;
ScrollingLayerSizing sizing;
FloatRect bounds;
FloatSize alignmentOffset;
getFixedPositionLayerSizing(layer, sizing, bounds, alignmentOffset);
chromeClient->addOrUpdateFixedPositionLayer(layer->backing()->graphicsLayer()->platformLayer(), sizing, bounds, alignmentOffset, enclosingCompositorFlushingLayers());
}
void RenderLayerCompositor::unregisterFixedPositionLayer(RenderLayer* layer)
{
ASSERT(m_fixedPositionLayers.contains(layer));
if (ChromeClient* chromeClient = this->chromeClient()) {
ASSERT(layer->isComposited());
chromeClient->removeFixedPositionLayer(layer->backing()->graphicsLayer()->platformLayer(), enclosingCompositorFlushingLayers());
}
}
void RenderLayerCompositor::registerAllFixedPositionLayers()
{
HashSet<RenderLayer*>::const_iterator end = m_fixedPositionLayers.end();
for (HashSet<RenderLayer*>::const_iterator it = m_fixedPositionLayers.begin(); it != end; ++it)
registerOrUpdateFixedPositionLayer(*it);
}
void RenderLayerCompositor::unregisterAllFixedPositionLayers()
{
HashSet<RenderLayer*>::const_iterator end = m_fixedPositionLayers.end();
for (HashSet<RenderLayer*>::const_iterator it = m_fixedPositionLayers.begin(); it != end; ++it)
unregisterFixedPositionLayer(*it);
}
static bool scrollbarHasDisplayNone(Scrollbar* scrollbar)
{
if (!scrollbar || !scrollbar->isCustomScrollbar())
return false;
RefPtr<RenderStyle> scrollbarStyle = static_cast<RenderScrollbar*>(scrollbar)->getScrollbarPseudoStyle(ScrollbarBGPart, SCROLLBAR);
return scrollbarStyle && scrollbarStyle->display() == NONE;
}
void RenderLayerCompositor::registerAllScrollingLayers()
{
ChromeClient* chromeClient = this->chromeClient();
if (!chromeClient)
return;
HashSet<RenderLayer*>::const_iterator end = m_scrollingLayers.end();
for (HashSet<RenderLayer*>::const_iterator it = m_scrollingLayers.begin(); it != end; ++it) {
RenderLayer* layer = *it;
RenderLayerBacking* backing = layer->backing();
ASSERT(backing);
bool allowHorizontalScrollbar = !scrollbarHasDisplayNone(layer->horizontalScrollbar());
bool allowVerticalScrollbar = !scrollbarHasDisplayNone(layer->verticalScrollbar());
chromeClient->addOrUpdateScrollingLayer(layer->renderer()->node(), backing->scrollingLayer()->platformLayer(), backing->scrollingContentsLayer()->platformLayer(), IntSize(layer->scrollWidth(), layer->scrollHeight()), allowHorizontalScrollbar, allowVerticalScrollbar);
}
}
void RenderLayerCompositor::unregisterAllScrollingLayers()
{
ChromeClient* chromeClient = this->chromeClient();
if (!chromeClient)
return;
HashSet<RenderLayer*>::const_iterator end = m_scrollingLayers.end();
for (HashSet<RenderLayer*>::const_iterator it = m_scrollingLayers.begin(); it != end; ++it) {
RenderLayer* layer = *it;
RenderLayerBacking* backing = layer->backing();
ASSERT(backing);
chromeClient->removeScrollingLayer(layer->renderer()->node(), backing->scrollingLayer()->platformLayer(), backing->scrollingContentsLayer()->platformLayer());
}
}
void RenderLayerCompositor::scrollingLayerAddedOrUpdated(RenderLayer* layer, PlatformLayer* scrollingLayer, PlatformLayer* contentsLayer, const IntSize& scrollSize)
{
m_scrollingLayers.add(layer);
ASSERT(!m_renderView->document()->inPageCache());
if (ChromeClient* chromeClient = this->chromeClient()) {
bool allowHorizontalScrollbar = !scrollbarHasDisplayNone(layer->horizontalScrollbar());
bool allowVerticalScrollbar = !scrollbarHasDisplayNone(layer->verticalScrollbar());
chromeClient->addOrUpdateScrollingLayer(layer->renderer()->node(), scrollingLayer, contentsLayer, scrollSize, allowHorizontalScrollbar, allowVerticalScrollbar);
}
}
void RenderLayerCompositor::scrollingLayerRemoved(RenderLayer* layer, PlatformLayer* scrollingLayer, PlatformLayer* contentsLayer)
{
m_scrollingLayers.remove(layer);
if (m_renderView->document()->inPageCache())
return;
if (ChromeClient* chromeClient = this->chromeClient())
chromeClient->removeScrollingLayer(layer->renderer()->node(), scrollingLayer, contentsLayer);
}
ScrollingCoordinator* RenderLayerCompositor::scrollingCoordinator() const
{
if (Frame* frame = m_renderView->frameView()->frame()) {
if (Page* page = frame->page())
return page->scrollingCoordinator();
}
return 0;
}
}
#endif // USE(ACCELERATED_COMPOSITING)