| /* |
| * Copyright (C) 2006-2017 Apple Inc. All rights reserved. |
| * |
| * Portions are Copyright (C) 1998 Netscape Communications Corporation. |
| * |
| * Other contributors: |
| * Robert O'Callahan <roc+@cs.cmu.edu> |
| * David Baron <dbaron@fas.harvard.edu> |
| * Christian Biesinger <cbiesinger@web.de> |
| * Randall Jesup <rjesup@wgate.com> |
| * Roland Mainz <roland.mainz@informatik.med.uni-giessen.de> |
| * Josh Soref <timeless@mac.com> |
| * Boris Zbarsky <bzbarsky@mit.edu> |
| * |
| * This library is free software; you can redistribute it and/or |
| * modify it under the terms of the GNU Lesser General Public |
| * License as published by the Free Software Foundation; either |
| * version 2.1 of the License, or (at your option) any later version. |
| * |
| * This library is distributed in the hope that it will be useful, |
| * but WITHOUT ANY WARRANTY; without even the implied warranty of |
| * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU |
| * Lesser General Public License for more details. |
| * |
| * You should have received a copy of the GNU Lesser General Public |
| * License along with this library; if not, write to the Free Software |
| * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA |
| * |
| * Alternatively, the contents of this file may be used under the terms |
| * of either the Mozilla Public License Version 1.1, found at |
| * http://www.mozilla.org/MPL/ (the "MPL") or the GNU General Public |
| * License Version 2.0, found at http://www.fsf.org/copyleft/gpl.html |
| * (the "GPL"), in which case the provisions of the MPL or the GPL are |
| * applicable instead of those above. If you wish to allow use of your |
| * version of this file only under the terms of one of those two |
| * licenses (the MPL or the GPL) and not to allow others to use your |
| * version of this file under the LGPL, indicate your decision by |
| * deletingthe provisions above and replace them with the notice and |
| * other provisions required by the MPL or the GPL, as the case may be. |
| * If you do not delete the provisions above, a recipient may use your |
| * version of this file under any of the LGPL, the MPL or the GPL. |
| */ |
| |
| #include "config.h" |
| #include "RenderLayer.h" |
| |
| #include "BoxShape.h" |
| #include "CSSAnimationController.h" |
| #include "CSSFilter.h" |
| #include "CSSPropertyNames.h" |
| #include "Chrome.h" |
| #include "DebugPageOverlays.h" |
| #include "DeprecatedGlobalSettings.h" |
| #include "Document.h" |
| #include "DocumentEventQueue.h" |
| #include "DocumentMarkerController.h" |
| #include "DocumentTimeline.h" |
| #include "Editor.h" |
| #include "Element.h" |
| #include "EventHandler.h" |
| #include "FEColorMatrix.h" |
| #include "FEMerge.h" |
| #include "FloatConversion.h" |
| #include "FloatPoint3D.h" |
| #include "FloatRect.h" |
| #include "FloatRoundedRect.h" |
| #include "FocusController.h" |
| #include "Frame.h" |
| #include "FrameLoader.h" |
| #include "FrameLoaderClient.h" |
| #include "FrameSelection.h" |
| #include "FrameTree.h" |
| #include "FrameView.h" |
| #include "Gradient.h" |
| #include "GraphicsContext.h" |
| #include "HTMLFormControlElement.h" |
| #include "HTMLFrameElement.h" |
| #include "HTMLFrameOwnerElement.h" |
| #include "HTMLIFrameElement.h" |
| #include "HTMLNames.h" |
| #include "HTMLParserIdioms.h" |
| #include "HitTestRequest.h" |
| #include "HitTestResult.h" |
| #include "HitTestingTransformState.h" |
| #include "Logging.h" |
| #include "OverflowEvent.h" |
| #include "OverlapTestRequestClient.h" |
| #include "Page.h" |
| #include "PlatformMouseEvent.h" |
| #include "RenderFlexibleBox.h" |
| #include "RenderFragmentContainer.h" |
| #include "RenderFragmentedFlow.h" |
| #include "RenderGeometryMap.h" |
| #include "RenderImage.h" |
| #include "RenderInline.h" |
| #include "RenderIterator.h" |
| #include "RenderLayerBacking.h" |
| #include "RenderLayerCompositor.h" |
| #include "RenderLayerFilters.h" |
| #include "RenderMarquee.h" |
| #include "RenderMultiColumnFlow.h" |
| #include "RenderReplica.h" |
| #include "RenderSVGResourceClipper.h" |
| #include "RenderSVGRoot.h" |
| #include "RenderScrollbar.h" |
| #include "RenderScrollbarPart.h" |
| #include "RenderTableCell.h" |
| #include "RenderTableRow.h" |
| #include "RenderText.h" |
| #include "RenderTheme.h" |
| #include "RenderTreeAsText.h" |
| #include "RenderView.h" |
| #include "RuntimeEnabledFeatures.h" |
| #include "SVGNames.h" |
| #include "ScaleTransformOperation.h" |
| #include "ScriptDisallowedScope.h" |
| #include "ScrollAnimator.h" |
| #include "Scrollbar.h" |
| #include "ScrollbarTheme.h" |
| #include "ScrollingCoordinator.h" |
| #include "Settings.h" |
| #include "ShadowRoot.h" |
| #include "SourceGraphic.h" |
| #include "StyleProperties.h" |
| #include "StyleResolver.h" |
| #include "TransformationMatrix.h" |
| #include "TranslateTransformOperation.h" |
| #include "WheelEventTestMonitor.h" |
| #include <stdio.h> |
| #include <wtf/MonotonicTime.h> |
| #include <wtf/StdLibExtras.h> |
| #include <wtf/text/CString.h> |
| #include <wtf/text/TextStream.h> |
| |
| #if ENABLE(CSS_SCROLL_SNAP) |
| #include "AxisScrollSnapOffsets.h" |
| #endif |
| |
| #define MIN_INTERSECT_FOR_REVEAL 32 |
| |
| namespace WebCore { |
| |
| using namespace HTMLNames; |
| |
| class ClipRects : public RefCounted<ClipRects> { |
| WTF_MAKE_FAST_ALLOCATED; |
| public: |
| static Ref<ClipRects> create() |
| { |
| return adoptRef(*new ClipRects); |
| } |
| |
| static Ref<ClipRects> create(const ClipRects& other) |
| { |
| return adoptRef(*new ClipRects(other)); |
| } |
| |
| void reset() |
| { |
| m_overflowClipRect.reset(); |
| m_fixedClipRect.reset(); |
| m_posClipRect.reset(); |
| m_fixed = false; |
| } |
| |
| const ClipRect& overflowClipRect() const { return m_overflowClipRect; } |
| void setOverflowClipRect(const ClipRect& clipRect) { m_overflowClipRect = clipRect; } |
| |
| const ClipRect& fixedClipRect() const { return m_fixedClipRect; } |
| void setFixedClipRect(const ClipRect& clipRect) { m_fixedClipRect = clipRect; } |
| |
| const ClipRect& posClipRect() const { return m_posClipRect; } |
| void setPosClipRect(const ClipRect& clipRect) { m_posClipRect = clipRect; } |
| |
| bool fixed() const { return m_fixed; } |
| void setFixed(bool fixed) { m_fixed = fixed; } |
| |
| bool operator==(const ClipRects& other) const |
| { |
| return m_overflowClipRect == other.overflowClipRect() |
| && m_fixedClipRect == other.fixedClipRect() |
| && m_posClipRect == other.posClipRect() |
| && m_fixed == other.fixed(); |
| } |
| |
| ClipRects& operator=(const ClipRects& other) |
| { |
| m_overflowClipRect = other.overflowClipRect(); |
| m_fixedClipRect = other.fixedClipRect(); |
| m_posClipRect = other.posClipRect(); |
| m_fixed = other.fixed(); |
| return *this; |
| } |
| |
| private: |
| ClipRects() = default; |
| |
| ClipRects(const LayoutRect& clipRect) |
| : m_overflowClipRect(clipRect) |
| , m_fixedClipRect(clipRect) |
| , m_posClipRect(clipRect) |
| { |
| } |
| |
| ClipRects(const ClipRects& other) |
| : RefCounted() |
| , m_fixed(other.fixed()) |
| , m_overflowClipRect(other.overflowClipRect()) |
| , m_fixedClipRect(other.fixedClipRect()) |
| , m_posClipRect(other.posClipRect()) |
| { |
| } |
| |
| bool m_fixed { false }; |
| ClipRect m_overflowClipRect; |
| ClipRect m_fixedClipRect; |
| ClipRect m_posClipRect; |
| }; |
| |
| class ClipRectsCache { |
| WTF_MAKE_FAST_ALLOCATED; |
| public: |
| ClipRectsCache() |
| { |
| #ifndef NDEBUG |
| for (int i = 0; i < NumCachedClipRectsTypes; ++i) { |
| m_clipRectsRoot[i] = 0; |
| m_scrollbarRelevancy[i] = IgnoreOverlayScrollbarSize; |
| } |
| #endif |
| } |
| |
| ClipRects* getClipRects(ClipRectsType clipRectsType, ShouldRespectOverflowClip respectOverflow) const |
| { |
| return m_clipRects[getIndex(clipRectsType, respectOverflow)].get(); |
| } |
| |
| void setClipRects(ClipRectsType clipRectsType, ShouldRespectOverflowClip respectOverflow, RefPtr<ClipRects>&& clipRects) |
| { |
| m_clipRects[getIndex(clipRectsType, respectOverflow)] = WTFMove(clipRects); |
| } |
| |
| #ifndef NDEBUG |
| const RenderLayer* m_clipRectsRoot[NumCachedClipRectsTypes]; |
| OverlayScrollbarSizeRelevancy m_scrollbarRelevancy[NumCachedClipRectsTypes]; |
| #endif |
| |
| private: |
| unsigned getIndex(ClipRectsType clipRectsType, ShouldRespectOverflowClip respectOverflow) const |
| { |
| unsigned index = static_cast<unsigned>(clipRectsType); |
| if (respectOverflow == RespectOverflowClip) |
| index += static_cast<unsigned>(NumCachedClipRectsTypes); |
| ASSERT_WITH_SECURITY_IMPLICATION(index < NumCachedClipRectsTypes * 2); |
| return index; |
| } |
| |
| RefPtr<ClipRects> m_clipRects[NumCachedClipRectsTypes * 2]; |
| }; |
| |
| void makeMatrixRenderable(TransformationMatrix& matrix, bool has3DRendering) |
| { |
| #if !ENABLE(3D_TRANSFORMS) |
| UNUSED_PARAM(has3DRendering); |
| matrix.makeAffine(); |
| #else |
| if (!has3DRendering) |
| matrix.makeAffine(); |
| #endif |
| } |
| |
| #if !LOG_DISABLED |
| static TextStream& operator<<(TextStream& ts, const ClipRects& clipRects) |
| { |
| TextStream::GroupScope scope(ts); |
| ts << indent << "ClipRects\n"; |
| ts << indent << " overflow : " << clipRects.overflowClipRect() << "\n"; |
| ts << indent << " fixed : " << clipRects.fixedClipRect() << "\n"; |
| ts << indent << " positioned: " << clipRects.posClipRect() << "\n"; |
| |
| return ts; |
| } |
| |
| #endif |
| |
| RenderLayer::RenderLayer(RenderLayerModelObject& rendererLayerModelObject) |
| : m_isRenderViewLayer(rendererLayerModelObject.isRenderView()) |
| , m_forcedStackingContext(rendererLayerModelObject.isMedia()) |
| , m_isOpportunisticStackingContext(false) |
| , m_zOrderListsDirty(false) |
| , m_normalFlowListDirty(true) |
| , m_hadNegativeZOrderList(false) |
| , m_inResizeMode(false) |
| , m_scrollDimensionsDirty(true) |
| , m_hasSelfPaintingLayerDescendant(false) |
| , m_hasSelfPaintingLayerDescendantDirty(false) |
| , m_usedTransparency(false) |
| , m_paintingInsideReflection(false) |
| , m_inOverflowRelayout(false) |
| , m_repaintStatus(NeedsNormalRepaint) |
| , m_visibleContentStatusDirty(true) |
| , m_hasVisibleContent(false) |
| , m_visibleDescendantStatusDirty(false) |
| , m_hasVisibleDescendant(false) |
| , m_registeredScrollableArea(false) |
| , m_isFixedIntersectingViewport(false) |
| , m_behavesAsFixed(false) |
| , m_3DTransformedDescendantStatusDirty(true) |
| , m_has3DTransformedDescendant(false) |
| , m_hasCompositingDescendant(false) |
| , m_hasCompositedScrollingAncestor(false) |
| , m_hasCompositedScrollableOverflow(false) |
| , m_hasTransformedAncestor(false) |
| , m_has3DTransformedAncestor(false) |
| , m_indirectCompositingReason(static_cast<unsigned>(IndirectCompositingReason::None)) |
| , m_viewportConstrainedNotCompositedReason(NoNotCompositedReason) |
| #if PLATFORM(IOS_FAMILY) |
| #if ENABLE(IOS_TOUCH_EVENTS) |
| , m_registeredAsTouchEventListenerForScrolling(false) |
| #endif |
| , m_adjustForIOSCaretWhenScrolling(false) |
| #endif |
| , m_requiresScrollPositionReconciliation(false) |
| , m_containsDirtyOverlayScrollbars(false) |
| , m_updatingMarqueePosition(false) |
| #if !ASSERT_DISABLED |
| , m_layerListMutationAllowed(true) |
| #endif |
| #if ENABLE(CSS_COMPOSITING) |
| , m_blendMode(static_cast<unsigned>(BlendMode::Normal)) |
| , m_hasNotIsolatedCompositedBlendingDescendants(false) |
| , m_hasNotIsolatedBlendingDescendants(false) |
| , m_hasNotIsolatedBlendingDescendantsStatusDirty(false) |
| #endif |
| , m_renderer(rendererLayerModelObject) |
| { |
| setIsNormalFlowOnly(shouldBeNormalFlowOnly()); |
| setIsCSSStackingContext(shouldBeCSSStackingContext()); |
| |
| m_isSelfPaintingLayer = shouldBeSelfPaintingLayer(); |
| |
| if (!renderer().firstChild()) { |
| m_visibleContentStatusDirty = false; |
| m_hasVisibleContent = renderer().style().visibility() == Visibility::Visible; |
| } |
| |
| if (Element* element = renderer().element()) { |
| // We save and restore only the scrollOffset as the other scroll values are recalculated. |
| m_scrollPosition = element->savedLayerScrollPosition(); |
| if (!m_scrollPosition.isZero()) |
| scrollAnimator().setCurrentPosition(m_scrollPosition); |
| element->setSavedLayerScrollPosition(IntPoint()); |
| } |
| } |
| |
| RenderLayer::~RenderLayer() |
| { |
| if (inResizeMode()) |
| renderer().frame().eventHandler().resizeLayerDestroyed(); |
| |
| ASSERT(m_registeredScrollableArea == renderer().view().frameView().containsScrollableArea(this)); |
| |
| if (m_registeredScrollableArea) |
| renderer().view().frameView().removeScrollableArea(this); |
| |
| #if ENABLE(IOS_TOUCH_EVENTS) |
| unregisterAsTouchEventListenerForScrolling(); |
| #endif |
| if (Element* element = renderer().element()) |
| element->setSavedLayerScrollPosition(m_scrollPosition); |
| |
| destroyScrollbar(HorizontalScrollbar); |
| destroyScrollbar(VerticalScrollbar); |
| |
| if (auto* scrollingCoordinator = renderer().page().scrollingCoordinator()) |
| scrollingCoordinator->willDestroyScrollableArea(*this); |
| |
| if (m_reflection) |
| removeReflection(); |
| |
| clearScrollCorner(); |
| clearResizer(); |
| |
| clearLayerFilters(); |
| |
| if (paintsIntoProvidedBacking()) { |
| auto* backingProviderLayer = this->backingProviderLayer(); |
| if (backingProviderLayer->backing()) |
| backingProviderLayer->backing()->removeBackingSharingLayer(*this); |
| } |
| |
| // Child layers will be deleted by their corresponding render objects, so |
| // we don't need to delete them ourselves. |
| |
| clearBacking(true); |
| |
| // Layer and all its children should be removed from the tree before destruction. |
| RELEASE_ASSERT_WITH_SECURITY_IMPLICATION(renderer().renderTreeBeingDestroyed() || !parent()); |
| RELEASE_ASSERT_WITH_SECURITY_IMPLICATION(renderer().renderTreeBeingDestroyed() || !firstChild()); |
| } |
| |
| void RenderLayer::addChild(RenderLayer& child, RenderLayer* beforeChild) |
| { |
| RenderLayer* prevSibling = beforeChild ? beforeChild->previousSibling() : lastChild(); |
| if (prevSibling) { |
| child.setPreviousSibling(prevSibling); |
| prevSibling->setNextSibling(&child); |
| ASSERT(prevSibling != &child); |
| } else |
| setFirstChild(&child); |
| |
| if (beforeChild) { |
| beforeChild->setPreviousSibling(&child); |
| child.setNextSibling(beforeChild); |
| ASSERT(beforeChild != &child); |
| } else |
| setLastChild(&child); |
| |
| child.setParent(this); |
| |
| dirtyPaintOrderListsOnChildChange(child); |
| |
| child.updateDescendantDependentFlags(); |
| if (child.m_hasVisibleContent || child.m_hasVisibleDescendant) |
| setAncestorChainHasVisibleDescendant(); |
| |
| if (child.isSelfPaintingLayer() || child.hasSelfPaintingLayerDescendant()) |
| setAncestorChainHasSelfPaintingLayerDescendant(); |
| |
| if (compositor().hasContentCompositingLayers()) |
| setDescendantsNeedCompositingRequirementsTraversal(); |
| |
| if (child.hasDescendantNeedingCompositingRequirementsTraversal() || child.needsCompositingRequirementsTraversal()) |
| child.setAncestorsHaveCompositingDirtyFlag(Compositing::HasDescendantNeedingRequirementsTraversal); |
| |
| if (child.hasDescendantNeedingUpdateBackingOrHierarchyTraversal() || child.needsUpdateBackingOrHierarchyTraversal()) |
| child.setAncestorsHaveCompositingDirtyFlag(Compositing::HasDescendantNeedingBackingOrHierarchyTraversal); |
| |
| #if ENABLE(CSS_COMPOSITING) |
| if (child.hasBlendMode() || (child.hasNotIsolatedBlendingDescendants() && !child.isolatesBlending())) |
| updateAncestorChainHasBlendingDescendants(); // Why not just dirty? |
| #endif |
| |
| compositor().layerWasAdded(*this, child); |
| } |
| |
| void RenderLayer::removeChild(RenderLayer& oldChild) |
| { |
| if (!renderer().renderTreeBeingDestroyed()) |
| compositor().layerWillBeRemoved(*this, oldChild); |
| |
| // remove the child |
| if (oldChild.previousSibling()) |
| oldChild.previousSibling()->setNextSibling(oldChild.nextSibling()); |
| if (oldChild.nextSibling()) |
| oldChild.nextSibling()->setPreviousSibling(oldChild.previousSibling()); |
| |
| if (m_first == &oldChild) |
| m_first = oldChild.nextSibling(); |
| if (m_last == &oldChild) |
| m_last = oldChild.previousSibling(); |
| |
| dirtyPaintOrderListsOnChildChange(oldChild); |
| |
| oldChild.setPreviousSibling(nullptr); |
| oldChild.setNextSibling(nullptr); |
| oldChild.setParent(nullptr); |
| |
| oldChild.updateDescendantDependentFlags(); |
| if (oldChild.m_hasVisibleContent || oldChild.m_hasVisibleDescendant) |
| dirtyAncestorChainVisibleDescendantStatus(); |
| |
| if (oldChild.isSelfPaintingLayer() || oldChild.hasSelfPaintingLayerDescendant()) |
| dirtyAncestorChainHasSelfPaintingLayerDescendantStatus(); |
| |
| if (compositor().hasContentCompositingLayers()) |
| setDescendantsNeedCompositingRequirementsTraversal(); |
| |
| #if ENABLE(CSS_COMPOSITING) |
| if (oldChild.hasBlendMode() || (oldChild.hasNotIsolatedBlendingDescendants() && !oldChild.isolatesBlending())) |
| dirtyAncestorChainHasBlendingDescendants(); |
| #endif |
| } |
| |
| void RenderLayer::dirtyPaintOrderListsOnChildChange(RenderLayer& child) |
| { |
| if (child.isNormalFlowOnly()) |
| dirtyNormalFlowList(); |
| |
| if (!child.isNormalFlowOnly() || child.firstChild()) { |
| // Dirty the z-order list in which we are contained. The stackingContext() can be null in the |
| // case where we're building up generated content layers. This is ok, since the lists will start |
| // off dirty in that case anyway. |
| child.dirtyStackingContextZOrderLists(); |
| } |
| } |
| |
| void RenderLayer::insertOnlyThisLayer() |
| { |
| if (!m_parent && renderer().parent()) { |
| // We need to connect ourselves when our renderer() has a parent. |
| // Find our enclosingLayer and add ourselves. |
| RenderLayer* parentLayer = renderer().parent()->enclosingLayer(); |
| ASSERT(parentLayer); |
| RenderLayer* beforeChild = parentLayer->reflectionLayer() != this ? renderer().parent()->findNextLayer(parentLayer, &renderer()) : nullptr; |
| parentLayer->addChild(*this, beforeChild); |
| } |
| |
| // Remove all descendant layers from the hierarchy and add them to the new position. |
| for (auto& child : childrenOfType<RenderElement>(renderer())) |
| child.moveLayers(m_parent, this); |
| |
| // Clear out all the clip rects. |
| clearClipRectsIncludingDescendants(); |
| } |
| |
| void RenderLayer::removeOnlyThisLayer() |
| { |
| if (!m_parent) |
| return; |
| |
| // Mark that we are about to lose our layer. This makes render tree |
| // walks ignore this layer while we're removing it. |
| renderer().setHasLayer(false); |
| |
| compositor().layerWillBeRemoved(*m_parent, *this); |
| |
| // Dirty the clip rects. |
| clearClipRectsIncludingDescendants(); |
| |
| RenderLayer* nextSib = nextSibling(); |
| |
| // Remove the child reflection layer before moving other child layers. |
| // The reflection layer should not be moved to the parent. |
| if (reflection()) |
| removeChild(*reflectionLayer()); |
| |
| // Now walk our kids and reattach them to our parent. |
| RenderLayer* current = m_first; |
| while (current) { |
| RenderLayer* next = current->nextSibling(); |
| removeChild(*current); |
| m_parent->addChild(*current, nextSib); |
| current->setRepaintStatus(NeedsFullRepaint); |
| current = next; |
| } |
| |
| // Remove us from the parent. |
| m_parent->removeChild(*this); |
| renderer().destroyLayer(); |
| } |
| |
| static bool canCreateStackingContext(const RenderLayer& layer) |
| { |
| auto& renderer = layer.renderer(); |
| return renderer.hasTransformRelatedProperty() |
| || renderer.hasClipPath() |
| || renderer.hasFilter() |
| || renderer.hasMask() |
| || renderer.hasBackdropFilter() |
| #if ENABLE(CSS_COMPOSITING) |
| || renderer.hasBlendMode() |
| #endif |
| || renderer.isTransparent() |
| || renderer.isPositioned() // Note that this only creates stacking context in conjunction with explicit z-index. |
| || renderer.hasReflection() |
| || renderer.style().hasIsolation() |
| || !renderer.style().hasAutoZIndex() |
| || (renderer.style().willChange() && renderer.style().willChange()->canCreateStackingContext()); |
| } |
| |
| bool RenderLayer::shouldBeNormalFlowOnly() const |
| { |
| if (canCreateStackingContext(*this)) |
| return false; |
| |
| return renderer().hasOverflowClip() |
| || renderer().isCanvas() |
| || renderer().isVideo() |
| || renderer().isEmbeddedObject() |
| || renderer().isRenderIFrame() |
| || (renderer().isRenderImage() && downcast<RenderImage>(renderer()).isEditableImage()) |
| || (renderer().style().specifiesColumns() && !isRenderViewLayer()) |
| || renderer().isInFlowRenderFragmentedFlow(); |
| } |
| |
| bool RenderLayer::shouldBeCSSStackingContext() const |
| { |
| return !renderer().style().hasAutoZIndex() || isRenderViewLayer(); |
| } |
| |
| bool RenderLayer::setIsNormalFlowOnly(bool isNormalFlowOnly) |
| { |
| if (isNormalFlowOnly == m_isNormalFlowOnly) |
| return false; |
| |
| m_isNormalFlowOnly = isNormalFlowOnly; |
| |
| if (auto* p = parent()) |
| p->dirtyNormalFlowList(); |
| dirtyStackingContextZOrderLists(); |
| return true; |
| } |
| |
| void RenderLayer::isStackingContextChanged() |
| { |
| dirtyStackingContextZOrderLists(); |
| if (isStackingContext()) |
| dirtyZOrderLists(); |
| else |
| clearZOrderLists(); |
| } |
| |
| bool RenderLayer::setIsOpportunisticStackingContext(bool isStacking) |
| { |
| bool wasStacking = isStackingContext(); |
| m_isOpportunisticStackingContext = isStacking; |
| if (wasStacking == isStackingContext()) |
| return false; |
| |
| isStackingContextChanged(); |
| return true; |
| } |
| |
| bool RenderLayer::setIsCSSStackingContext(bool isCSSStackingContext) |
| { |
| bool wasStacking = isStackingContext(); |
| m_isCSSStackingContext = isCSSStackingContext; |
| if (wasStacking == isStackingContext()) |
| return false; |
| |
| isStackingContextChanged(); |
| return true; |
| } |
| |
| void RenderLayer::setParent(RenderLayer* parent) |
| { |
| if (parent == m_parent) |
| return; |
| |
| if (m_parent && !renderer().renderTreeBeingDestroyed()) |
| compositor().layerWillBeRemoved(*m_parent, *this); |
| |
| m_parent = parent; |
| |
| if (m_parent && !renderer().renderTreeBeingDestroyed()) |
| compositor().layerWasAdded(*m_parent, *this); |
| } |
| |
| RenderLayer* RenderLayer::stackingContext() const |
| { |
| auto* layer = parent(); |
| while (layer && !layer->isStackingContext()) |
| layer = layer->parent(); |
| |
| ASSERT(!layer || layer->isStackingContext()); |
| return layer; |
| } |
| |
| void RenderLayer::dirtyZOrderLists() |
| { |
| ASSERT(layerListMutationAllowed()); |
| ASSERT(isStackingContext()); |
| |
| if (m_posZOrderList) |
| m_posZOrderList->clear(); |
| if (m_negZOrderList) |
| m_negZOrderList->clear(); |
| m_zOrderListsDirty = true; |
| |
| // FIXME: Ideally, we'd only dirty if the lists changed. |
| if (hasCompositingDescendant()) |
| setNeedsCompositingPaintOrderChildrenUpdate(); |
| } |
| |
| void RenderLayer::dirtyStackingContextZOrderLists() |
| { |
| if (auto* sc = stackingContext()) |
| sc->dirtyZOrderLists(); |
| } |
| |
| void RenderLayer::dirtyNormalFlowList() |
| { |
| ASSERT(layerListMutationAllowed()); |
| |
| if (m_normalFlowList) |
| m_normalFlowList->clear(); |
| m_normalFlowListDirty = true; |
| |
| if (hasCompositingDescendant()) |
| setNeedsCompositingPaintOrderChildrenUpdate(); |
| } |
| |
| void RenderLayer::updateNormalFlowList() |
| { |
| if (!m_normalFlowListDirty) |
| return; |
| |
| ASSERT(layerListMutationAllowed()); |
| |
| for (RenderLayer* child = firstChild(); child; child = child->nextSibling()) { |
| // Ignore non-overflow layers and reflections. |
| if (child->isNormalFlowOnly() && !isReflectionLayer(*child)) { |
| if (!m_normalFlowList) |
| m_normalFlowList = makeUnique<Vector<RenderLayer*>>(); |
| m_normalFlowList->append(child); |
| } |
| } |
| |
| m_normalFlowListDirty = false; |
| } |
| |
| void RenderLayer::rebuildZOrderLists() |
| { |
| ASSERT(layerListMutationAllowed()); |
| ASSERT(isDirtyStackingContext()); |
| rebuildZOrderLists(m_posZOrderList, m_negZOrderList); |
| m_zOrderListsDirty = false; |
| |
| bool hasNegativeZOrderList = m_negZOrderList && m_negZOrderList->size(); |
| // Having negative z-order lists affect whether a compositing layer needs a foreground layer. |
| // Ideally we'd only trigger this when having z-order children changes, but we blow away the old z-order |
| // lists on dirtying so we don't know the old state. |
| if (hasNegativeZOrderList != m_hadNegativeZOrderList) { |
| m_hadNegativeZOrderList = hasNegativeZOrderList; |
| if (isComposited()) |
| setNeedsCompositingConfigurationUpdate(); |
| } |
| } |
| |
| void RenderLayer::rebuildZOrderLists(std::unique_ptr<Vector<RenderLayer*>>& posZOrderList, std::unique_ptr<Vector<RenderLayer*>>& negZOrderList) |
| { |
| bool includeHiddenLayers = compositor().usesCompositing(); |
| for (RenderLayer* child = firstChild(); child; child = child->nextSibling()) { |
| if (!isReflectionLayer(*child)) |
| child->collectLayers(includeHiddenLayers, posZOrderList, negZOrderList); |
| } |
| |
| auto compareZIndex = [] (const RenderLayer* first, const RenderLayer* second) -> bool { |
| return first->zIndex() < second->zIndex(); |
| }; |
| |
| // Sort the two lists. |
| if (posZOrderList) |
| std::stable_sort(posZOrderList->begin(), posZOrderList->end(), compareZIndex); |
| |
| if (negZOrderList) |
| std::stable_sort(negZOrderList->begin(), negZOrderList->end(), compareZIndex); |
| } |
| |
| void RenderLayer::collectLayers(bool includeHiddenLayers, std::unique_ptr<Vector<RenderLayer*>>& positiveZOrderList, std::unique_ptr<Vector<RenderLayer*>>& negativeZOrderList) |
| { |
| updateDescendantDependentFlags(); |
| |
| bool isStacking = isStackingContext(); |
| // Overflow layers are just painted by their enclosing layers, so they don't get put in zorder lists. |
| bool includeHiddenLayer = includeHiddenLayers || (m_hasVisibleContent || (m_hasVisibleDescendant && isStacking)); |
| if (includeHiddenLayer && !isNormalFlowOnly()) { |
| auto& layerList = (zIndex() >= 0) ? positiveZOrderList : negativeZOrderList; |
| if (!layerList) |
| layerList = makeUnique<Vector<RenderLayer*>>(); |
| layerList->append(this); |
| } |
| |
| // Recur into our children to collect more layers, but only if we don't establish |
| // a stacking context/container. |
| if ((includeHiddenLayers || m_hasVisibleDescendant) && !isStacking) { |
| for (RenderLayer* child = firstChild(); child; child = child->nextSibling()) { |
| // Ignore reflections. |
| if (!isReflectionLayer(*child)) |
| child->collectLayers(includeHiddenLayers, positiveZOrderList, negativeZOrderList); |
| } |
| } |
| } |
| |
| void RenderLayer::setAncestorsHaveCompositingDirtyFlag(Compositing flag) |
| { |
| for (auto* layer = paintOrderParent(); layer; layer = layer->paintOrderParent()) { |
| if (layer->m_compositingDirtyBits.contains(flag)) |
| break; |
| layer->m_compositingDirtyBits.add(flag); |
| } |
| } |
| |
| void RenderLayer::updateLayerListsIfNeeded() |
| { |
| updateZOrderLists(); |
| updateNormalFlowList(); |
| |
| if (RenderLayer* reflectionLayer = this->reflectionLayer()) { |
| reflectionLayer->updateZOrderLists(); |
| reflectionLayer->updateNormalFlowList(); |
| } |
| } |
| |
| String RenderLayer::name() const |
| { |
| StringBuilder name; |
| |
| if (Element* element = renderer().element()) { |
| name.append(" <"); |
| name.append(element->tagName().convertToLowercaseWithoutLocale()); |
| name.append('>'); |
| |
| if (element->hasID()) { |
| name.appendLiteral(" id=\'"); |
| name.append(element->getIdAttribute()); |
| name.append('\''); |
| } |
| |
| if (element->hasClass()) { |
| name.appendLiteral(" class=\'"); |
| size_t classNamesToDump = element->classNames().size(); |
| const size_t maxNumClassNames = 7; |
| bool addEllipsis = false; |
| if (classNamesToDump > maxNumClassNames) { |
| classNamesToDump = maxNumClassNames; |
| addEllipsis = true; |
| } |
| |
| for (size_t i = 0; i < classNamesToDump; ++i) { |
| if (i > 0) |
| name.append(' '); |
| name.append(element->classNames()[i]); |
| } |
| if (addEllipsis) |
| name.append("..."); |
| name.append('\''); |
| } |
| } else |
| name.append(renderer().renderName()); |
| |
| if (isReflection()) |
| name.appendLiteral(" (reflection)"); |
| |
| return name.toString(); |
| } |
| |
| RenderLayerCompositor& RenderLayer::compositor() const |
| { |
| return renderer().view().compositor(); |
| } |
| |
| void RenderLayer::contentChanged(ContentChangeType changeType) |
| { |
| if (changeType == CanvasChanged || changeType == VideoChanged || changeType == FullScreenChanged || (isComposited() && changeType == ImageChanged)) { |
| setNeedsPostLayoutCompositingUpdate(); |
| setNeedsCompositingConfigurationUpdate(); |
| } |
| |
| if (auto* backing = this->backing()) |
| backing->contentChanged(changeType); |
| } |
| |
| bool RenderLayer::canRender3DTransforms() const |
| { |
| return compositor().canRender3DTransforms(); |
| } |
| |
| bool RenderLayer::paintsWithFilters() const |
| { |
| if (!renderer().hasFilter()) |
| return false; |
| |
| if (!isComposited()) |
| return true; |
| |
| return !m_backing->canCompositeFilters(); |
| } |
| |
| bool RenderLayer::requiresFullLayerImageForFilters() const |
| { |
| if (!paintsWithFilters()) |
| return false; |
| |
| return m_filters && m_filters->hasFilterThatMovesPixels(); |
| } |
| |
| OptionSet<RenderLayer::UpdateLayerPositionsFlag> RenderLayer::flagsForUpdateLayerPositions(RenderLayer& startingLayer) |
| { |
| OptionSet<UpdateLayerPositionsFlag> flags = { CheckForRepaint }; |
| |
| if (auto* parent = startingLayer.parent()) { |
| if (parent->hasTransformedAncestor() || parent->transform()) |
| flags.add(SeenTransformedLayer); |
| |
| if (parent->has3DTransformedAncestor() || (parent->transform() && !parent->transform()->isAffine())) |
| flags.add(Seen3DTransformedLayer); |
| |
| if (parent->behavesAsFixed() || (parent->renderer().isFixedPositioned() && !parent->hasTransformedAncestor())) |
| flags.add(SeenFixedLayer); |
| |
| if (parent->hasCompositedScrollingAncestor() || parent->hasCompositedScrollableOverflow()) |
| flags.add(SeenCompositedScrollingLayer); |
| } |
| |
| return flags; |
| } |
| |
| void RenderLayer::updateLayerPositionsAfterStyleChange() |
| { |
| updateLayerPositions(nullptr, flagsForUpdateLayerPositions(*this)); |
| } |
| |
| void RenderLayer::updateLayerPositionsAfterLayout(bool isRelayoutingSubtree, bool didFullRepaint) |
| { |
| auto updateLayerPositionFlags = [&](bool isRelayoutingSubtree, bool didFullRepaint) { |
| auto flags = flagsForUpdateLayerPositions(*this); |
| if (didFullRepaint) { |
| flags.remove(RenderLayer::CheckForRepaint); |
| flags.add(RenderLayer::NeedsFullRepaintInBacking); |
| } |
| if (isRelayoutingSubtree && enclosingPaginationLayer(RenderLayer::IncludeCompositedPaginatedLayers)) |
| flags.add(RenderLayer::UpdatePagination); |
| return flags; |
| }; |
| |
| LOG(Compositing, "RenderLayer %p updateLayerPositionsAfterLayout", this); |
| RenderGeometryMap geometryMap(UseTransforms); |
| if (!isRenderViewLayer()) |
| geometryMap.pushMappingsToAncestor(parent(), nullptr); |
| |
| updateLayerPositions(&geometryMap, updateLayerPositionFlags(isRelayoutingSubtree, didFullRepaint)); |
| } |
| |
| void RenderLayer::updateLayerPositions(RenderGeometryMap* geometryMap, OptionSet<UpdateLayerPositionsFlag> flags) |
| { |
| updateLayerPosition(&flags); |
| applyPostLayoutScrollPositionIfNeeded(); |
| |
| if (geometryMap) |
| geometryMap->pushMappingsToAncestor(this, parent()); |
| |
| // Clear our cached clip rect information. |
| clearClipRects(); |
| |
| if (hasOverflowControls()) { |
| LayoutSize offsetFromRoot; |
| if (geometryMap) |
| offsetFromRoot = LayoutSize(toFloatSize(geometryMap->absolutePoint(FloatPoint()))); |
| else { |
| // FIXME: It looks suspicious to call convertToLayerCoords here |
| // as canUseOffsetFromAncestor may be true for an ancestor layer. |
| offsetFromRoot = offsetFromAncestor(root()); |
| } |
| positionOverflowControls(roundedIntSize(offsetFromRoot)); |
| } |
| |
| updateDescendantDependentFlags(); |
| |
| if (flags & UpdatePagination) |
| updatePagination(); |
| else |
| m_enclosingPaginationLayer = nullptr; |
| |
| if (m_hasVisibleContent) { |
| // FIXME: Paint offset cache does not work with RenderLayers as there is not a 1-to-1 |
| // mapping between them and the RenderObjects. It would be neat to enable |
| // LayoutState outside the layout() phase and use it here. |
| ASSERT(!renderer().view().frameView().layoutContext().isPaintOffsetCacheEnabled()); |
| |
| RenderLayerModelObject* repaintContainer = renderer().containerForRepaint(); |
| |
| auto hadRepaintLayoutRects = renderer().hasRepaintLayoutRects(); |
| RepaintLayoutRects oldRects = hadRepaintLayoutRects ? renderer().repaintLayoutRects() : RepaintLayoutRects(); |
| computeRepaintRects(repaintContainer, geometryMap); |
| |
| auto hasRepaintLayoutRects = renderer().hasRepaintLayoutRects(); |
| RepaintLayoutRects newRects = hasRepaintLayoutRects ? renderer().repaintLayoutRects() : RepaintLayoutRects(); |
| // FIXME: Should ASSERT that value calculated for m_outlineBox using the cached offset is the same |
| // as the value not using the cached offset, but we can't due to https://bugs.webkit.org/show_bug.cgi?id=37048 |
| if ((flags & CheckForRepaint) && hasRepaintLayoutRects) { |
| if (!renderer().view().printing()) { |
| if (m_repaintStatus & NeedsFullRepaint) { |
| if (hadRepaintLayoutRects) |
| renderer().repaintUsingContainer(repaintContainer, oldRects.m_repaintRect); |
| if (!hadRepaintLayoutRects || newRects.m_repaintRect != oldRects.m_repaintRect) |
| renderer().repaintUsingContainer(repaintContainer, newRects.m_repaintRect); |
| } else if (shouldRepaintAfterLayout()) { |
| // FIXME: We will convert this to just take the old and new RepaintLayoutRects once |
| // we change other callers to use RepaintLayoutRects. |
| renderer().repaintAfterLayoutIfNeeded(repaintContainer, oldRects.m_repaintRect, oldRects.m_outlineBox, &newRects.m_repaintRect, &newRects.m_outlineBox); |
| } |
| } |
| } |
| } else |
| clearRepaintRects(); |
| |
| m_repaintStatus = NeedsNormalRepaint; |
| m_hasTransformedAncestor = flags.contains(SeenTransformedLayer); |
| m_has3DTransformedAncestor = flags.contains(Seen3DTransformedLayer); |
| m_behavesAsFixed = flags.contains(SeenFixedLayer); |
| setHasCompositedScrollingAncestor(flags.contains(SeenCompositedScrollingLayer)); |
| |
| // Update the reflection's position and size. |
| if (m_reflection) |
| m_reflection->layout(); |
| |
| if (renderer().isInFlowRenderFragmentedFlow()) { |
| updatePagination(); |
| flags.add(UpdatePagination); |
| } |
| |
| if (transform()) { |
| flags.add(SeenTransformedLayer); |
| if (!transform()->isAffine()) |
| flags.add(Seen3DTransformedLayer); |
| } |
| |
| // Fixed inside transform behaves like absolute (per spec). |
| if (renderer().isFixedPositioned() && !m_hasTransformedAncestor) { |
| m_behavesAsFixed = true; |
| flags.add(SeenFixedLayer); |
| } |
| |
| if (hasCompositedScrollableOverflow()) |
| flags.add(SeenCompositedScrollingLayer); |
| |
| for (RenderLayer* child = firstChild(); child; child = child->nextSibling()) |
| child->updateLayerPositions(geometryMap, flags); |
| |
| // With all our children positioned, now update our marquee if we need to. |
| if (m_marquee) { |
| // FIXME: would like to use SetForScope<> but it doesn't work with bitfields. |
| bool oldUpdatingMarqueePosition = m_updatingMarqueePosition; |
| m_updatingMarqueePosition = true; |
| m_marquee->updateMarqueePosition(); |
| m_updatingMarqueePosition = oldUpdatingMarqueePosition; |
| } |
| |
| if (renderer().isFixedPositioned() && renderer().settings().acceleratedCompositingForFixedPositionEnabled()) { |
| bool intersectsViewport = compositor().fixedLayerIntersectsViewport(*this); |
| if (intersectsViewport != m_isFixedIntersectingViewport) { |
| m_isFixedIntersectingViewport = intersectsViewport; |
| setNeedsPostLayoutCompositingUpdate(); |
| } |
| } |
| |
| if (isComposited()) |
| backing()->updateAfterLayout(flags.contains(ContainingClippingLayerChangedSize), flags.contains(NeedsFullRepaintInBacking)); |
| |
| if (geometryMap) |
| geometryMap->popMappingsToAncestor(parent()); |
| |
| renderer().document().markers().invalidateRectsForAllMarkers(); |
| } |
| |
| LayoutRect RenderLayer::repaintRectIncludingNonCompositingDescendants() const |
| { |
| LayoutRect repaintRect = renderer().repaintLayoutRects().m_repaintRect; |
| for (RenderLayer* child = firstChild(); child; child = child->nextSibling()) { |
| // Don't include repaint rects for composited child layers; they will paint themselves and have a different origin. |
| if (child->isComposited()) |
| continue; |
| |
| repaintRect.uniteIfNonZero(child->repaintRectIncludingNonCompositingDescendants()); |
| } |
| return repaintRect; |
| } |
| |
| void RenderLayer::setAncestorChainHasSelfPaintingLayerDescendant() |
| { |
| for (RenderLayer* layer = this; layer; layer = layer->parent()) { |
| if (!layer->m_hasSelfPaintingLayerDescendantDirty && layer->hasSelfPaintingLayerDescendant()) |
| break; |
| |
| layer->m_hasSelfPaintingLayerDescendantDirty = false; |
| layer->m_hasSelfPaintingLayerDescendant = true; |
| } |
| } |
| |
| void RenderLayer::dirtyAncestorChainHasSelfPaintingLayerDescendantStatus() |
| { |
| for (RenderLayer* layer = this; layer; layer = layer->parent()) { |
| layer->m_hasSelfPaintingLayerDescendantDirty = true; |
| // If we have reached a self-painting layer, we know our parent should have a self-painting descendant |
| // in this case, there is no need to dirty our ancestors further. |
| if (layer->isSelfPaintingLayer()) { |
| ASSERT(!parent() || parent()->m_hasSelfPaintingLayerDescendantDirty || parent()->hasSelfPaintingLayerDescendant()); |
| break; |
| } |
| } |
| } |
| |
| void RenderLayer::computeRepaintRects(const RenderLayerModelObject* repaintContainer, const RenderGeometryMap* geometryMap) |
| { |
| ASSERT(!m_visibleContentStatusDirty); |
| renderer().computeRepaintLayoutRects(repaintContainer, geometryMap); |
| } |
| |
| void RenderLayer::computeRepaintRectsIncludingDescendants() |
| { |
| // FIXME: computeRepaintRects() has to walk up the parent chain for every layer to compute the rects. |
| // We should make this more efficient. |
| // FIXME: it's wrong to call this when layout is not up-to-date, which we do. |
| computeRepaintRects(renderer().containerForRepaint()); |
| |
| for (RenderLayer* layer = firstChild(); layer; layer = layer->nextSibling()) |
| layer->computeRepaintRectsIncludingDescendants(); |
| } |
| |
| void RenderLayer::clearRepaintRects() |
| { |
| ASSERT(!m_visibleContentStatusDirty); |
| |
| renderer().clearRepaintLayoutRects(); |
| } |
| |
| void RenderLayer::updateLayerPositionsAfterDocumentScroll() |
| { |
| ASSERT(this == renderer().view().layer()); |
| |
| LOG(Scrolling, "RenderLayer::updateLayerPositionsAfterDocumentScroll"); |
| |
| RenderGeometryMap geometryMap(UseTransforms); |
| updateLayerPositionsAfterScroll(&geometryMap); |
| } |
| |
| void RenderLayer::updateLayerPositionsAfterOverflowScroll() |
| { |
| RenderGeometryMap geometryMap(UseTransforms); |
| if (this != renderer().view().layer()) |
| geometryMap.pushMappingsToAncestor(parent(), nullptr); |
| |
| // FIXME: why is it OK to not check the ancestors of this layer in order to |
| // initialize the HasSeenViewportConstrainedAncestor and HasSeenAncestorWithOverflowClip flags? |
| updateLayerPositionsAfterScroll(&geometryMap, IsOverflowScroll); |
| } |
| |
| void RenderLayer::updateLayerPositionsAfterScroll(RenderGeometryMap* geometryMap, OptionSet<UpdateLayerPositionsAfterScrollFlag> flags) |
| { |
| // FIXME: This shouldn't be needed, but there are some corner cases where |
| // these flags are still dirty. Update so that the check below is valid. |
| updateDescendantDependentFlags(); |
| |
| // If we have no visible content and no visible descendants, there is no point recomputing |
| // our rectangles as they will be empty. If our visibility changes, we are expected to |
| // recompute all our positions anyway. |
| if (!m_hasVisibleDescendant && !m_hasVisibleContent) |
| return; |
| |
| bool positionChanged = updateLayerPosition(); |
| if (positionChanged) |
| flags.add(HasChangedAncestor); |
| |
| if (flags.containsAny({ HasChangedAncestor, HasSeenViewportConstrainedAncestor, IsOverflowScroll })) |
| clearClipRects(); |
| |
| if (renderer().style().hasViewportConstrainedPosition()) |
| flags.add(HasSeenViewportConstrainedAncestor); |
| |
| if (renderer().hasOverflowClip()) |
| flags.add(HasSeenAncestorWithOverflowClip); |
| |
| bool shouldComputeRepaintRects = (flags.contains(HasSeenViewportConstrainedAncestor) || flags.containsAll({ IsOverflowScroll, HasSeenAncestorWithOverflowClip })) && isSelfPaintingLayer(); |
| bool isVisuallyEmpty = !isVisuallyNonEmpty(); |
| bool shouldPushAndPopMappings = geometryMap && ((shouldComputeRepaintRects && !isVisuallyEmpty) || firstChild()); |
| if (shouldPushAndPopMappings) |
| geometryMap->pushMappingsToAncestor(this, parent()); |
| |
| if (shouldComputeRepaintRects) { |
| // When scrolling, we don't compute repaint rects for visually non-empty layers. |
| if (isVisuallyEmpty) |
| clearRepaintRects(); |
| else // FIXME: We could track the repaint container as we walk down the tree. |
| computeRepaintRects(renderer().containerForRepaint(), geometryMap); |
| } else if (!renderer().view().frameView().platformWidget()) { |
| // When ScrollView's m_paintsEntireContents flag flips due to layer backing changes, the repaint area transitions from |
| // visual to layout overflow. When this happens the cached repaint rects become invalid and they need to be recomputed (see webkit.org/b/188121). |
| // Check that our cached rects are correct. |
| ASSERT(!renderer().hasRepaintLayoutRects() || renderer().repaintLayoutRects().m_repaintRect == renderer().clippedOverflowRectForRepaint(renderer().containerForRepaint())); |
| ASSERT(!renderer().hasRepaintLayoutRects() || renderer().repaintLayoutRects().m_outlineBox == renderer().outlineBoundsForRepaint(renderer().containerForRepaint())); |
| } |
| |
| for (RenderLayer* child = firstChild(); child; child = child->nextSibling()) |
| child->updateLayerPositionsAfterScroll(geometryMap, flags); |
| |
| // We don't update our reflection as scrolling is a translation which does not change the size() |
| // of an object, thus RenderReplica will still repaint itself properly as the layer position was |
| // updated above. |
| |
| if (m_marquee) { |
| bool oldUpdatingMarqueePosition = m_updatingMarqueePosition; |
| m_updatingMarqueePosition = true; |
| m_marquee->updateMarqueePosition(); |
| m_updatingMarqueePosition = oldUpdatingMarqueePosition; |
| } |
| |
| if (shouldPushAndPopMappings) |
| geometryMap->popMappingsToAncestor(parent()); |
| |
| renderer().document().markers().invalidateRectsForAllMarkers(); |
| } |
| |
| #if ENABLE(CSS_COMPOSITING) |
| |
| void RenderLayer::updateBlendMode() |
| { |
| bool hadBlendMode = static_cast<BlendMode>(m_blendMode) != BlendMode::Normal; |
| if (parent() && hadBlendMode != hasBlendMode()) { |
| if (hasBlendMode()) |
| parent()->updateAncestorChainHasBlendingDescendants(); |
| else |
| parent()->dirtyAncestorChainHasBlendingDescendants(); |
| } |
| |
| BlendMode newBlendMode = renderer().style().blendMode(); |
| if (newBlendMode != static_cast<BlendMode>(m_blendMode)) |
| m_blendMode = static_cast<unsigned>(newBlendMode); |
| } |
| |
| void RenderLayer::willRemoveChildWithBlendMode() |
| { |
| parent()->dirtyAncestorChainHasBlendingDescendants(); |
| } |
| |
| void RenderLayer::updateAncestorChainHasBlendingDescendants() |
| { |
| for (auto* layer = this; layer; layer = layer->parent()) { |
| if (!layer->hasNotIsolatedBlendingDescendantsStatusDirty() && layer->hasNotIsolatedBlendingDescendants()) |
| break; |
| layer->m_hasNotIsolatedBlendingDescendants = true; |
| layer->m_hasNotIsolatedBlendingDescendantsStatusDirty = false; |
| |
| layer->updateSelfPaintingLayer(); |
| |
| if (layer->isCSSStackingContext()) |
| break; |
| } |
| } |
| |
| void RenderLayer::dirtyAncestorChainHasBlendingDescendants() |
| { |
| for (auto* layer = this; layer; layer = layer->parent()) { |
| if (layer->hasNotIsolatedBlendingDescendantsStatusDirty()) |
| break; |
| |
| layer->m_hasNotIsolatedBlendingDescendantsStatusDirty = true; |
| |
| if (layer->isCSSStackingContext()) |
| break; |
| } |
| } |
| #endif |
| |
| void RenderLayer::updateTransform() |
| { |
| bool hasTransform = renderer().hasTransform(); |
| bool had3DTransform = has3DTransform(); |
| |
| bool hadTransform = !!m_transform; |
| if (hasTransform != hadTransform) { |
| if (hasTransform) |
| m_transform = makeUnique<TransformationMatrix>(); |
| else |
| m_transform = nullptr; |
| |
| // Layers with transforms act as clip rects roots, so clear the cached clip rects here. |
| clearClipRectsIncludingDescendants(); |
| } |
| |
| if (hasTransform) { |
| RenderBox* box = renderBox(); |
| ASSERT(box); |
| m_transform->makeIdentity(); |
| box->style().applyTransform(*m_transform, snapRectToDevicePixels(box->borderBoxRect(), box->document().deviceScaleFactor()), RenderStyle::IncludeTransformOrigin); |
| makeMatrixRenderable(*m_transform, canRender3DTransforms()); |
| } |
| |
| if (had3DTransform != has3DTransform()) { |
| dirty3DTransformedDescendantStatus(); |
| // Having a 3D transform affects whether enclosing perspective and preserve-3d layers composite, so trigger an update. |
| setNeedsPostLayoutCompositingUpdateOnAncestors(); |
| } |
| } |
| |
| TransformationMatrix RenderLayer::currentTransform(RenderStyle::ApplyTransformOrigin applyOrigin) const |
| { |
| if (!m_transform) |
| return TransformationMatrix(); |
| |
| RenderBox* box = renderBox(); |
| |
| if (RuntimeEnabledFeatures::sharedFeatures().webAnimationsCSSIntegrationEnabled()) { |
| if (auto* timeline = renderer().documentTimeline()) { |
| if (timeline->isRunningAcceleratedAnimationOnRenderer(renderer(), CSSPropertyTransform)) { |
| TransformationMatrix currTransform; |
| FloatRect pixelSnappedBorderRect = snapRectToDevicePixels(box->borderBoxRect(), box->document().deviceScaleFactor()); |
| std::unique_ptr<RenderStyle> style = timeline->animatedStyleForRenderer(renderer()); |
| style->applyTransform(currTransform, pixelSnappedBorderRect, applyOrigin); |
| makeMatrixRenderable(currTransform, canRender3DTransforms()); |
| return currTransform; |
| } |
| } |
| } else { |
| if (renderer().animation().isRunningAcceleratedAnimationOnRenderer(renderer(), CSSPropertyTransform)) { |
| TransformationMatrix currTransform; |
| FloatRect pixelSnappedBorderRect = snapRectToDevicePixels(box->borderBoxRect(), box->document().deviceScaleFactor()); |
| std::unique_ptr<RenderStyle> style = renderer().animation().animatedStyleForRenderer(renderer()); |
| style->applyTransform(currTransform, pixelSnappedBorderRect, applyOrigin); |
| makeMatrixRenderable(currTransform, canRender3DTransforms()); |
| return currTransform; |
| } |
| } |
| |
| |
| // m_transform includes transform-origin, so we need to recompute the transform here. |
| if (applyOrigin == RenderStyle::ExcludeTransformOrigin) { |
| TransformationMatrix currTransform; |
| FloatRect pixelSnappedBorderRect = snapRectToDevicePixels(box->borderBoxRect(), box->document().deviceScaleFactor()); |
| box->style().applyTransform(currTransform, pixelSnappedBorderRect, RenderStyle::ExcludeTransformOrigin); |
| makeMatrixRenderable(currTransform, canRender3DTransforms()); |
| return currTransform; |
| } |
| |
| return *m_transform; |
| } |
| |
| TransformationMatrix RenderLayer::renderableTransform(OptionSet<PaintBehavior> paintBehavior) const |
| { |
| if (!m_transform) |
| return TransformationMatrix(); |
| |
| if (paintBehavior & PaintBehavior::FlattenCompositingLayers) { |
| TransformationMatrix matrix = *m_transform; |
| makeMatrixRenderable(matrix, false /* flatten 3d */); |
| return matrix; |
| } |
| |
| return *m_transform; |
| } |
| |
| RenderLayer* RenderLayer::enclosingOverflowClipLayer(IncludeSelfOrNot includeSelf) const |
| { |
| const RenderLayer* layer = (includeSelf == IncludeSelf) ? this : parent(); |
| while (layer) { |
| if (layer->renderer().hasOverflowClip()) |
| return const_cast<RenderLayer*>(layer); |
| |
| layer = layer->parent(); |
| } |
| return nullptr; |
| } |
| |
| // FIXME: This is terrible. Bring back a cached bit for this someday. This crawl is going to slow down all |
| // painting of content inside paginated layers. |
| bool RenderLayer::hasCompositedLayerInEnclosingPaginationChain() const |
| { |
| // No enclosing layer means no compositing in the chain. |
| if (!m_enclosingPaginationLayer) |
| return false; |
| |
| // If the enclosing layer is composited, we don't have to check anything in between us and that |
| // layer. |
| if (m_enclosingPaginationLayer->isComposited()) |
| return true; |
| |
| // If we are the enclosing pagination layer, then we can't be composited or we'd have passed the |
| // previous check. |
| if (m_enclosingPaginationLayer == this) |
| return false; |
| |
| // The enclosing paginated layer is our ancestor and is not composited, so we have to check |
| // intermediate layers between us and the enclosing pagination layer. Start with our own layer. |
| if (isComposited()) |
| return true; |
| |
| // For normal flow layers, we can recur up the layer tree. |
| if (isNormalFlowOnly()) |
| return parent()->hasCompositedLayerInEnclosingPaginationChain(); |
| |
| // Otherwise we have to go up the containing block chain. Find the first enclosing |
| // containing block layer ancestor, and check that. |
| for (const auto* containingBlock = renderer().containingBlock(); containingBlock && !is<RenderView>(*containingBlock); containingBlock = containingBlock->containingBlock()) { |
| if (containingBlock->hasLayer()) |
| return containingBlock->layer()->hasCompositedLayerInEnclosingPaginationChain(); |
| } |
| return false; |
| } |
| |
| void RenderLayer::updatePagination() |
| { |
| m_enclosingPaginationLayer = nullptr; |
| |
| if (!parent()) |
| return; |
| |
| // Each layer that is inside a multicolumn flow thread has to be checked individually and |
| // genuinely know if it is going to have to split itself up when painting only its contents (and not any other descendant |
| // layers). We track an enclosingPaginationLayer instead of using a simple bit, since we want to be able to get back |
| // to that layer easily. |
| if (renderer().isInFlowRenderFragmentedFlow()) { |
| m_enclosingPaginationLayer = makeWeakPtr(*this); |
| return; |
| } |
| |
| if (isNormalFlowOnly()) { |
| // Content inside a transform is not considered to be paginated, since we simply |
| // paint the transform multiple times in each column, so we don't have to use |
| // fragments for the transformed content. |
| if (parent()->hasTransform()) |
| m_enclosingPaginationLayer = nullptr; |
| else |
| m_enclosingPaginationLayer = makeWeakPtr(parent()->enclosingPaginationLayer(IncludeCompositedPaginatedLayers)); |
| return; |
| } |
| |
| // For the new columns code, we want to walk up our containing block chain looking for an enclosing layer. Once |
| // we find one, then we just check its pagination status. |
| for (const auto* containingBlock = renderer().containingBlock(); containingBlock && !is<RenderView>(*containingBlock); containingBlock = containingBlock->containingBlock()) { |
| if (containingBlock->hasLayer()) { |
| // Content inside a transform is not considered to be paginated, since we simply |
| // paint the transform multiple times in each column, so we don't have to use |
| // fragments for the transformed content. |
| if (containingBlock->layer()->hasTransform()) |
| m_enclosingPaginationLayer = nullptr; |
| else |
| m_enclosingPaginationLayer = makeWeakPtr(containingBlock->layer()->enclosingPaginationLayer(IncludeCompositedPaginatedLayers)); |
| return; |
| } |
| } |
| } |
| |
| void RenderLayer::setHasVisibleContent() |
| { |
| if (m_hasVisibleContent && !m_visibleContentStatusDirty) { |
| ASSERT(!parent() || parent()->hasVisibleDescendant()); |
| return; |
| } |
| |
| m_visibleContentStatusDirty = false; |
| m_hasVisibleContent = true; |
| computeRepaintRects(renderer().containerForRepaint()); |
| if (!isNormalFlowOnly()) { |
| // We don't collect invisible layers in z-order lists if we are not in compositing mode. |
| // As we became visible, we need to dirty our stacking containers ancestors to be properly |
| // collected. FIXME: When compositing, we could skip this dirtying phase. |
| for (RenderLayer* sc = stackingContext(); sc; sc = sc->stackingContext()) { |
| sc->dirtyZOrderLists(); |
| if (sc->hasVisibleContent()) |
| break; |
| } |
| } |
| |
| if (parent()) |
| parent()->setAncestorChainHasVisibleDescendant(); |
| } |
| |
| void RenderLayer::dirtyVisibleContentStatus() |
| { |
| m_visibleContentStatusDirty = true; |
| if (parent()) |
| parent()->dirtyAncestorChainVisibleDescendantStatus(); |
| } |
| |
| void RenderLayer::dirtyAncestorChainVisibleDescendantStatus() |
| { |
| for (RenderLayer* layer = this; layer; layer = layer->parent()) { |
| if (layer->m_visibleDescendantStatusDirty) |
| break; |
| |
| layer->m_visibleDescendantStatusDirty = true; |
| } |
| } |
| |
| void RenderLayer::setAncestorChainHasVisibleDescendant() |
| { |
| for (RenderLayer* layer = this; layer; layer = layer->parent()) { |
| if (!layer->m_visibleDescendantStatusDirty && layer->hasVisibleDescendant()) |
| break; |
| |
| layer->m_hasVisibleDescendant = true; |
| layer->m_visibleDescendantStatusDirty = false; |
| } |
| } |
| |
| void RenderLayer::updateDescendantDependentFlags() |
| { |
| if (m_visibleDescendantStatusDirty || m_hasSelfPaintingLayerDescendantDirty || hasNotIsolatedBlendingDescendantsStatusDirty()) { |
| bool hasVisibleDescendant = false; |
| bool hasSelfPaintingLayerDescendant = false; |
| #if ENABLE(CSS_COMPOSITING) |
| bool hasNotIsolatedBlendingDescendants = false; |
| #endif |
| |
| for (RenderLayer* child = firstChild(); child; child = child->nextSibling()) { |
| child->updateDescendantDependentFlags(); |
| |
| hasVisibleDescendant |= child->m_hasVisibleContent || child->m_hasVisibleDescendant; |
| hasSelfPaintingLayerDescendant |= child->isSelfPaintingLayer() || child->hasSelfPaintingLayerDescendant(); |
| #if ENABLE(CSS_COMPOSITING) |
| hasNotIsolatedBlendingDescendants |= child->hasBlendMode() || (child->hasNotIsolatedBlendingDescendants() && !child->isolatesBlending()); |
| #endif |
| |
| bool allFlagsSet = hasVisibleDescendant && hasSelfPaintingLayerDescendant; |
| #if ENABLE(CSS_COMPOSITING) |
| allFlagsSet &= hasNotIsolatedBlendingDescendants; |
| #endif |
| if (allFlagsSet) |
| break; |
| } |
| |
| m_hasVisibleDescendant = hasVisibleDescendant; |
| m_visibleDescendantStatusDirty = false; |
| m_hasSelfPaintingLayerDescendant = hasSelfPaintingLayerDescendant; |
| m_hasSelfPaintingLayerDescendantDirty = false; |
| |
| #if ENABLE(CSS_COMPOSITING) |
| m_hasNotIsolatedBlendingDescendants = hasNotIsolatedBlendingDescendants; |
| if (m_hasNotIsolatedBlendingDescendantsStatusDirty) { |
| m_hasNotIsolatedBlendingDescendantsStatusDirty = false; |
| updateSelfPaintingLayer(); |
| } |
| #endif |
| } |
| |
| if (m_visibleContentStatusDirty) { |
| if (renderer().style().visibility() == Visibility::Visible) |
| m_hasVisibleContent = true; |
| else { |
| // layer may be hidden but still have some visible content, check for this |
| m_hasVisibleContent = false; |
| RenderObject* r = renderer().firstChild(); |
| while (r) { |
| if (r->style().visibility() == Visibility::Visible && !r->hasLayer()) { |
| m_hasVisibleContent = true; |
| break; |
| } |
| RenderObject* child = nullptr; |
| if (!r->hasLayer() && (child = r->firstChildSlow())) |
| r = child; |
| else if (r->nextSibling()) |
| r = r->nextSibling(); |
| else { |
| do { |
| r = r->parent(); |
| if (r == &renderer()) |
| r = nullptr; |
| } while (r && !r->nextSibling()); |
| if (r) |
| r = r->nextSibling(); |
| } |
| } |
| } |
| m_visibleContentStatusDirty = false; |
| } |
| } |
| |
| void RenderLayer::dirty3DTransformedDescendantStatus() |
| { |
| RenderLayer* curr = stackingContext(); |
| if (curr) |
| curr->m_3DTransformedDescendantStatusDirty = true; |
| |
| // This propagates up through preserve-3d hierarchies to the enclosing flattening layer. |
| // Note that preserves3D() creates stacking context, so we can just run up the stacking containers. |
| while (curr && curr->preserves3D()) { |
| curr->m_3DTransformedDescendantStatusDirty = true; |
| curr = curr->stackingContext(); |
| } |
| } |
| |
| // Return true if this layer or any preserve-3d descendants have 3d. |
| bool RenderLayer::update3DTransformedDescendantStatus() |
| { |
| if (m_3DTransformedDescendantStatusDirty) { |
| m_has3DTransformedDescendant = false; |
| |
| updateZOrderLists(); |
| |
| // Transformed or preserve-3d descendants can only be in the z-order lists, not |
| // in the normal flow list, so we only need to check those. |
| for (auto* layer : positiveZOrderLayers()) |
| m_has3DTransformedDescendant |= layer->update3DTransformedDescendantStatus(); |
| |
| // Now check our negative z-index children. |
| for (auto* layer : negativeZOrderLayers()) |
| m_has3DTransformedDescendant |= layer->update3DTransformedDescendantStatus(); |
| |
| m_3DTransformedDescendantStatusDirty = false; |
| } |
| |
| // If we live in a 3d hierarchy, then the layer at the root of that hierarchy needs |
| // the m_has3DTransformedDescendant set. |
| if (preserves3D()) |
| return has3DTransform() || m_has3DTransformedDescendant; |
| |
| return has3DTransform(); |
| } |
| |
| bool RenderLayer::updateLayerPosition(OptionSet<UpdateLayerPositionsFlag>* flags) |
| { |
| LayoutPoint localPoint; |
| LayoutSize inlineBoundingBoxOffset; // We don't put this into the RenderLayer x/y for inlines, so we need to subtract it out when done. |
| if (renderer().isInline() && is<RenderInline>(renderer())) { |
| auto& inlineFlow = downcast<RenderInline>(renderer()); |
| IntRect lineBox = inlineFlow.linesBoundingBox(); |
| setSize(lineBox.size()); |
| inlineBoundingBoxOffset = toLayoutSize(lineBox.location()); |
| localPoint += inlineBoundingBoxOffset; |
| } else if (RenderBox* box = renderBox()) { |
| // FIXME: Is snapping the size really needed here for the RenderBox case? |
| auto newSize = snappedIntRect(box->frameRect()).size(); |
| if (newSize != size()) { |
| if (is<RenderWidget>(*box) && downcast<RenderWidget>(*box).requiresAcceleratedCompositing()) { |
| // Trigger RenderLayerCompositor::requiresCompositingForFrame() which depends on the contentBoxRect size. |
| setNeedsPostLayoutCompositingUpdate(); |
| } |
| |
| if (flags && renderer().hasOverflowClip()) |
| flags->add(ContainingClippingLayerChangedSize); |
| |
| setSize(newSize); |
| } |
| |
| box->applyTopLeftLocationOffset(localPoint); |
| } |
| |
| if (!renderer().isOutOfFlowPositioned()) { |
| auto* ancestor = renderer().parent(); |
| // We must adjust our position by walking up the render tree looking for the |
| // nearest enclosing object with a layer. |
| while (ancestor && !ancestor->hasLayer()) { |
| if (is<RenderBox>(*ancestor) && !is<RenderTableRow>(*ancestor)) { |
| // Rows and cells share the same coordinate space (that of the section). |
| // Omit them when computing our xpos/ypos. |
| localPoint += downcast<RenderBox>(*ancestor).topLeftLocationOffset(); |
| } |
| ancestor = ancestor->parent(); |
| } |
| if (is<RenderTableRow>(ancestor)) { |
| // Put ourselves into the row coordinate space. |
| localPoint -= downcast<RenderTableRow>(*ancestor).topLeftLocationOffset(); |
| } |
| } |
| |
| // Subtract our parent's scroll offset. |
| RenderLayer* positionedParent; |
| if (renderer().isOutOfFlowPositioned() && (positionedParent = enclosingAncestorForPosition(renderer().style().position()))) { |
| // For positioned layers, we subtract out the enclosing positioned layer's scroll offset. |
| if (positionedParent->renderer().hasOverflowClip()) |
| localPoint -= toLayoutSize(positionedParent->scrollPosition()); |
| |
| if (renderer().isOutOfFlowPositioned() && positionedParent->renderer().isInFlowPositioned() && is<RenderInline>(positionedParent->renderer())) { |
| LayoutSize offset = downcast<RenderInline>(positionedParent->renderer()).offsetForInFlowPositionedInline(&downcast<RenderBox>(renderer())); |
| localPoint += offset; |
| } |
| } else if (parent()) { |
| if (parent()->renderer().hasOverflowClip()) |
| localPoint -= toLayoutSize(parent()->scrollPosition()); |
| } |
| |
| bool positionOrOffsetChanged = false; |
| if (renderer().isInFlowPositioned()) { |
| LayoutSize newOffset = downcast<RenderBoxModelObject>(renderer()).offsetForInFlowPosition(); |
| positionOrOffsetChanged = newOffset != m_offsetForInFlowPosition; |
| m_offsetForInFlowPosition = newOffset; |
| localPoint.move(m_offsetForInFlowPosition); |
| } else { |
| m_offsetForInFlowPosition = LayoutSize(); |
| } |
| |
| // FIXME: We'd really like to just get rid of the concept of a layer rectangle and rely on the renderers. |
| localPoint -= inlineBoundingBoxOffset; |
| |
| positionOrOffsetChanged |= location() != localPoint; |
| setLocation(localPoint); |
| |
| if (positionOrOffsetChanged && compositor().hasContentCompositingLayers()) { |
| if (isComposited()) |
| setNeedsCompositingGeometryUpdate(); |
| // This layer's position can affect the location of a composited descendant (which may be a sibling in z-order), |
| // so trigger a descendant walk from the paint-order parent. |
| if (auto* paintParent = paintOrderParent()) |
| paintParent->setDescendantsNeedUpdateBackingAndHierarchyTraversal(); |
| } |
| |
| return positionOrOffsetChanged; |
| } |
| |
| TransformationMatrix RenderLayer::perspectiveTransform() const |
| { |
| RenderBox* box = renderBox(); |
| if (!box) |
| return TransformationMatrix(); |
| |
| if (!box->hasTransformRelatedProperty()) |
| return TransformationMatrix(); |
| |
| const RenderStyle& style = box->style(); |
| if (!style.hasPerspective()) |
| return TransformationMatrix(); |
| |
| // Maybe fetch the perspective from the backing? |
| const FloatRect borderBox = snapRectToDevicePixels(box->borderBoxRect(), box->document().deviceScaleFactor()); |
| float perspectiveOriginX = floatValueForLength(style.perspectiveOriginX(), borderBox.width()); |
| float perspectiveOriginY = floatValueForLength(style.perspectiveOriginY(), borderBox.height()); |
| |
| // A perspective origin of 0,0 makes the vanishing point in the center of the element. |
| // We want it to be in the top-left, so subtract half the height and width. |
| perspectiveOriginX -= borderBox.width() / 2.0f; |
| perspectiveOriginY -= borderBox.height() / 2.0f; |
| |
| TransformationMatrix t; |
| t.translate(perspectiveOriginX, perspectiveOriginY); |
| t.applyPerspective(style.perspective()); |
| t.translate(-perspectiveOriginX, -perspectiveOriginY); |
| |
| return t; |
| } |
| |
| FloatPoint RenderLayer::perspectiveOrigin() const |
| { |
| if (!renderer().hasTransformRelatedProperty()) |
| return FloatPoint(); |
| |
| const LayoutRect borderBox = downcast<RenderBox>(renderer()).borderBoxRect(); |
| const RenderStyle& style = renderer().style(); |
| |
| return FloatPoint(floatValueForLength(style.perspectiveOriginX(), borderBox.width()), |
| floatValueForLength(style.perspectiveOriginY(), borderBox.height())); |
| } |
| |
| static inline bool isContainerForPositioned(RenderLayer& layer, PositionType position) |
| { |
| switch (position) { |
| case PositionType::Fixed: |
| return layer.renderer().canContainFixedPositionObjects(); |
| |
| case PositionType::Absolute: |
| return layer.renderer().canContainAbsolutelyPositionedObjects(); |
| |
| default: |
| ASSERT_NOT_REACHED(); |
| return false; |
| } |
| } |
| |
| bool RenderLayer::ancestorLayerIsInContainingBlockChain(const RenderLayer& ancestor, const RenderLayer* checkLimit) const |
| { |
| if (&ancestor == this) |
| return true; |
| |
| for (const auto* currentBlock = renderer().containingBlock(); currentBlock && !is<RenderView>(*currentBlock); currentBlock = currentBlock->containingBlock()) { |
| auto* currLayer = currentBlock->layer(); |
| if (currLayer == &ancestor) |
| return true; |
| |
| if (currLayer && currLayer == checkLimit) |
| return false; |
| } |
| |
| return false; |
| } |
| |
| RenderLayer* RenderLayer::enclosingAncestorForPosition(PositionType position) const |
| { |
| RenderLayer* curr = parent(); |
| while (curr && !isContainerForPositioned(*curr, position)) |
| curr = curr->parent(); |
| |
| return curr; |
| } |
| |
| static RenderLayer* enclosingFrameRenderLayer(const RenderLayer& layer) |
| { |
| auto* ownerElement = layer.renderer().document().ownerElement(); |
| if (!ownerElement) |
| return nullptr; |
| |
| auto* ownerRenderer = ownerElement->renderer(); |
| if (!ownerRenderer) |
| return nullptr; |
| |
| return ownerRenderer->enclosingLayer(); |
| } |
| |
| static RenderLayer* parentLayerCrossFrame(const RenderLayer& layer) |
| { |
| if (auto* parent = layer.parent()) |
| return parent; |
| |
| return enclosingFrameRenderLayer(layer); |
| } |
| |
| RenderLayer* RenderLayer::enclosingScrollableLayer() const |
| { |
| for (RenderLayer* nextLayer = parentLayerCrossFrame(*this); nextLayer; nextLayer = parentLayerCrossFrame(*nextLayer)) { |
| if (is<RenderBox>(nextLayer->renderer()) && downcast<RenderBox>(nextLayer->renderer()).canBeScrolledAndHasScrollableArea()) |
| return nextLayer; |
| } |
| |
| return nullptr; |
| } |
| |
| IntRect RenderLayer::scrollableAreaBoundingBox(bool* isInsideFixed) const |
| { |
| return renderer().absoluteBoundingBoxRect(/* useTransforms */ true, isInsideFixed); |
| } |
| |
| bool RenderLayer::isRubberBandInProgress() const |
| { |
| #if ENABLE(RUBBER_BANDING) |
| if (!scrollsOverflow()) |
| return false; |
| |
| if (ScrollAnimator* scrollAnimator = existingScrollAnimator()) |
| return scrollAnimator->isRubberBandInProgress(); |
| #endif |
| |
| return false; |
| } |
| |
| bool RenderLayer::forceUpdateScrollbarsOnMainThreadForPerformanceTesting() const |
| { |
| return renderer().settings().forceUpdateScrollbarsOnMainThreadForPerformanceTesting(); |
| } |
| |
| RenderLayer* RenderLayer::enclosingTransformedAncestor() const |
| { |
| RenderLayer* curr = parent(); |
| while (curr && !curr->isRenderViewLayer() && !curr->transform()) |
| curr = curr->parent(); |
| |
| return curr; |
| } |
| |
| inline bool RenderLayer::shouldRepaintAfterLayout() const |
| { |
| if (m_repaintStatus == NeedsNormalRepaint) |
| return true; |
| |
| // Composited layers that were moved during a positioned movement only |
| // layout, don't need to be repainted. They just need to be recomposited. |
| ASSERT(m_repaintStatus == NeedsFullRepaintForPositionedMovementLayout); |
| return !isComposited() || backing()->paintsIntoCompositedAncestor(); |
| } |
| |
| void RenderLayer::setBackingProviderLayer(RenderLayer* backingProvider) |
| { |
| if (backingProvider == m_backingProviderLayer) |
| return; |
| |
| if (!renderer().renderTreeBeingDestroyed()) |
| clearClipRectsIncludingDescendants(); |
| |
| m_backingProviderLayer = makeWeakPtr(backingProvider); |
| } |
| |
| void RenderLayer::disconnectFromBackingProviderLayer() |
| { |
| if (!m_backingProviderLayer) |
| return; |
| |
| ASSERT(m_backingProviderLayer->isComposited()); |
| if (m_backingProviderLayer->isComposited()) |
| m_backingProviderLayer->backing()->removeBackingSharingLayer(*this); |
| } |
| |
| bool compositedWithOwnBackingStore(const RenderLayer& layer) |
| { |
| return layer.isComposited() && !layer.backing()->paintsIntoCompositedAncestor(); |
| } |
| |
| RenderLayer* RenderLayer::enclosingCompositingLayer(IncludeSelfOrNot includeSelf) const |
| { |
| if (includeSelf == IncludeSelf && isComposited()) |
| return const_cast<RenderLayer*>(this); |
| |
| for (const RenderLayer* curr = paintOrderParent(); curr; curr = curr->paintOrderParent()) { |
| if (curr->isComposited()) |
| return const_cast<RenderLayer*>(curr); |
| } |
| |
| return nullptr; |
| } |
| |
| RenderLayer* RenderLayer::enclosingCompositingLayerForRepaint(IncludeSelfOrNot includeSelf) const |
| { |
| auto repaintTargetForLayer = [](const RenderLayer& layer) -> RenderLayer* { |
| if (compositedWithOwnBackingStore(layer)) |
| return const_cast<RenderLayer*>(&layer); |
| |
| if (layer.paintsIntoProvidedBacking()) |
| return layer.backingProviderLayer(); |
| |
| return nullptr; |
| }; |
| |
| RenderLayer* repaintTarget = nullptr; |
| if (includeSelf == IncludeSelf && (repaintTarget = repaintTargetForLayer(*this))) |
| return repaintTarget; |
| |
| for (const RenderLayer* curr = paintOrderParent(); curr; curr = curr->paintOrderParent()) { |
| if ((repaintTarget = repaintTargetForLayer(*curr))) |
| return repaintTarget; |
| } |
| |
| return nullptr; |
| } |
| |
| RenderLayer* RenderLayer::enclosingFilterLayer(IncludeSelfOrNot includeSelf) const |
| { |
| const RenderLayer* curr = (includeSelf == IncludeSelf) ? this : parent(); |
| for (; curr; curr = curr->parent()) { |
| if (curr->requiresFullLayerImageForFilters()) |
| return const_cast<RenderLayer*>(curr); |
| } |
| |
| return nullptr; |
| } |
| |
| RenderLayer* RenderLayer::enclosingFilterRepaintLayer() const |
| { |
| for (const RenderLayer* curr = this; curr; curr = curr->parent()) { |
| if ((curr != this && curr->requiresFullLayerImageForFilters()) || compositedWithOwnBackingStore(*curr) || curr->isRenderViewLayer()) |
| return const_cast<RenderLayer*>(curr); |
| } |
| return nullptr; |
| } |
| |
| // FIXME: This neeeds a better name. |
| void RenderLayer::setFilterBackendNeedsRepaintingInRect(const LayoutRect& rect) |
| { |
| ASSERT(requiresFullLayerImageForFilters()); |
| ASSERT(m_filters); |
| |
| if (rect.isEmpty()) |
| return; |
| |
| LayoutRect rectForRepaint = rect; |
| renderer().style().filterOutsets().expandRect(rectForRepaint); |
| |
| m_filters->expandDirtySourceRect(rectForRepaint); |
| |
| RenderLayer* parentLayer = enclosingFilterRepaintLayer(); |
| ASSERT(parentLayer); |
| FloatQuad repaintQuad(rectForRepaint); |
| LayoutRect parentLayerRect = renderer().localToContainerQuad(repaintQuad, &parentLayer->renderer()).enclosingBoundingBox(); |
| |
| if (parentLayer->isComposited()) { |
| if (!parentLayer->backing()->paintsIntoWindow()) { |
| parentLayer->setBackingNeedsRepaintInRect(parentLayerRect); |
| return; |
| } |
| // If the painting goes to window, redirect the painting to the parent RenderView. |
| parentLayer = renderer().view().layer(); |
| parentLayerRect = renderer().localToContainerQuad(repaintQuad, &parentLayer->renderer()).enclosingBoundingBox(); |
| } |
| |
| if (parentLayer->paintsWithFilters()) { |
| parentLayer->setFilterBackendNeedsRepaintingInRect(parentLayerRect); |
| return; |
| } |
| |
| if (parentLayer->isRenderViewLayer()) { |
| downcast<RenderView>(parentLayer->renderer()).repaintViewRectangle(parentLayerRect); |
| return; |
| } |
| |
| ASSERT_NOT_REACHED(); |
| } |
| |
| bool RenderLayer::hasAncestorWithFilterOutsets() const |
| { |
| for (const RenderLayer* curr = this; curr; curr = curr->parent()) { |
| if (curr->renderer().style().hasFilterOutsets()) |
| return true; |
| } |
| return false; |
| } |
| |
| RenderLayer* RenderLayer::clippingRootForPainting() const |
| { |
| if (isComposited()) |
| return const_cast<RenderLayer*>(this); |
| |
| if (paintsIntoProvidedBacking()) |
| return backingProviderLayer(); |
| |
| const RenderLayer* current = this; |
| while (current) { |
| if (current->isRenderViewLayer()) |
| return const_cast<RenderLayer*>(current); |
| |
| current = current->paintOrderParent(); |
| ASSERT(current); |
| if (current->transform() || compositedWithOwnBackingStore(*current)) |
| return const_cast<RenderLayer*>(current); |
| |
| if (current->paintsIntoProvidedBacking()) |
| return current->backingProviderLayer(); |
| } |
| |
| ASSERT_NOT_REACHED(); |
| return nullptr; |
| } |
| |
| LayoutPoint RenderLayer::absoluteToContents(const LayoutPoint& absolutePoint) const |
| { |
| // We don't use convertToLayerCoords because it doesn't know about transforms |
| return LayoutPoint(renderer().absoluteToLocal(absolutePoint, UseTransforms)); |
| } |
| |
| bool RenderLayer::cannotBlitToWindow() const |
| { |
| if (isTransparent() || hasReflection() || hasTransform()) |
| return true; |
| if (!parent()) |
| return false; |
| return parent()->cannotBlitToWindow(); |
| } |
| |
| RenderLayer* RenderLayer::transparentPaintingAncestor() |
| { |
| if (isComposited()) |
| return nullptr; |
| |
| for (RenderLayer* curr = parent(); curr; curr = curr->parent()) { |
| if (curr->isComposited()) |
| return nullptr; |
| if (curr->isTransparent()) |
| return curr; |
| } |
| return nullptr; |
| } |
| |
| enum TransparencyClipBoxBehavior { |
| PaintingTransparencyClipBox, |
| HitTestingTransparencyClipBox |
| }; |
| |
| enum TransparencyClipBoxMode { |
| DescendantsOfTransparencyClipBox, |
| RootOfTransparencyClipBox |
| }; |
| |
| static LayoutRect transparencyClipBox(const RenderLayer&, const RenderLayer* rootLayer, TransparencyClipBoxBehavior, TransparencyClipBoxMode, OptionSet<PaintBehavior> = { }); |
| |
| static void expandClipRectForDescendantsAndReflection(LayoutRect& clipRect, const RenderLayer& layer, const RenderLayer* rootLayer, |
| TransparencyClipBoxBehavior transparencyBehavior, OptionSet<PaintBehavior> paintBehavior) |
| { |
| // If we have a mask, then the clip is limited to the border box area (and there is |
| // no need to examine child layers). |
| if (!layer.renderer().hasMask()) { |
| // Note: we don't have to walk z-order lists since transparent elements always establish |
| // a stacking container. This means we can just walk the layer tree directly. |
| for (RenderLayer* curr = layer.firstChild(); curr; curr = curr->nextSibling()) { |
| if (!layer.isReflectionLayer(*curr)) |
| clipRect.unite(transparencyClipBox(*curr, rootLayer, transparencyBehavior, DescendantsOfTransparencyClipBox, paintBehavior)); |
| } |
| } |
| |
| // If we have a reflection, then we need to account for that when we push the clip. Reflect our entire |
| // current transparencyClipBox to catch all child layers. |
| // FIXME: Accelerated compositing will eventually want to do something smart here to avoid incorporating this |
| // size into the parent layer. |
| if (layer.renderer().hasReflection()) { |
| LayoutSize delta = layer.offsetFromAncestor(rootLayer); |
| clipRect.move(-delta); |
| clipRect.unite(layer.renderBox()->reflectedRect(clipRect)); |
| clipRect.move(delta); |
| } |
| } |
| |
| static LayoutRect transparencyClipBox(const RenderLayer& layer, const RenderLayer* rootLayer, TransparencyClipBoxBehavior transparencyBehavior, |
| TransparencyClipBoxMode transparencyMode, OptionSet<PaintBehavior> paintBehavior) |
| { |
| // FIXME: Although this function completely ignores CSS-imposed clipping, we did already intersect with the |
| // paintDirtyRect, and that should cut down on the amount we have to paint. Still it |
| // would be better to respect clips. |
| |
| if (rootLayer != &layer && ((transparencyBehavior == PaintingTransparencyClipBox && layer.paintsWithTransform(paintBehavior)) |
| || (transparencyBehavior == HitTestingTransparencyClipBox && layer.hasTransform()))) { |
| // The best we can do here is to use enclosed bounding boxes to establish a "fuzzy" enough clip to encompass |
| // the transformed layer and all of its children. |
| RenderLayer::PaginationInclusionMode mode = transparencyBehavior == HitTestingTransparencyClipBox ? RenderLayer::IncludeCompositedPaginatedLayers : RenderLayer::ExcludeCompositedPaginatedLayers; |
| const RenderLayer* paginationLayer = transparencyMode == DescendantsOfTransparencyClipBox ? layer.enclosingPaginationLayer(mode) : nullptr; |
| const RenderLayer* rootLayerForTransform = paginationLayer ? paginationLayer : rootLayer; |
| LayoutSize delta = layer.offsetFromAncestor(rootLayerForTransform); |
| |
| TransformationMatrix transform; |
| transform.translate(delta.width(), delta.height()); |
| transform.multiply(*layer.transform()); |
| |
| // We don't use fragment boxes when collecting a transformed layer's bounding box, since it always |
| // paints unfragmented. |
| LayoutRect clipRect = layer.boundingBox(&layer); |
| expandClipRectForDescendantsAndReflection(clipRect, layer, &layer, transparencyBehavior, paintBehavior); |
| layer.renderer().style().filterOutsets().expandRect(clipRect); |
| LayoutRect result = transform.mapRect(clipRect); |
| if (!paginationLayer) |
| return result; |
| |
| // We have to break up the transformed extent across our columns. |
| // Split our box up into the actual fragment boxes that render in the columns/pages and unite those together to |
| // get our true bounding box. |
| auto& enclosingFragmentedFlow = downcast<RenderFragmentedFlow>(paginationLayer->renderer()); |
| result = enclosingFragmentedFlow.fragmentsBoundingBox(result); |
| result.move(paginationLayer->offsetFromAncestor(rootLayer)); |
| return result; |
| } |
| |
| LayoutRect clipRect = layer.boundingBox(rootLayer, layer.offsetFromAncestor(rootLayer), transparencyBehavior == HitTestingTransparencyClipBox ? RenderLayer::UseFragmentBoxesIncludingCompositing : RenderLayer::UseFragmentBoxesExcludingCompositing); |
| expandClipRectForDescendantsAndReflection(clipRect, layer, rootLayer, transparencyBehavior, paintBehavior); |
| layer.renderer().style().filterOutsets().expandRect(clipRect); |
| |
| return clipRect; |
| } |
| |
| static LayoutRect paintingExtent(const RenderLayer& currentLayer, const RenderLayer* rootLayer, const LayoutRect& paintDirtyRect, OptionSet<PaintBehavior> paintBehavior) |
| { |
| return intersection(transparencyClipBox(currentLayer, rootLayer, PaintingTransparencyClipBox, RootOfTransparencyClipBox, paintBehavior), paintDirtyRect); |
| } |
| |
| void RenderLayer::beginTransparencyLayers(GraphicsContext& context, const LayerPaintingInfo& paintingInfo, const LayoutRect& dirtyRect) |
| { |
| if (context.paintingDisabled() || (paintsWithTransparency(paintingInfo.paintBehavior) && m_usedTransparency)) |
| return; |
| |
| RenderLayer* ancestor = transparentPaintingAncestor(); |
| if (ancestor) |
| ancestor->beginTransparencyLayers(context, paintingInfo, dirtyRect); |
| |
| if (paintsWithTransparency(paintingInfo.paintBehavior)) { |
| ASSERT(isCSSStackingContext()); |
| m_usedTransparency = true; |
| context.save(); |
| LayoutRect adjustedClipRect = paintingExtent(*this, paintingInfo.rootLayer, dirtyRect, paintingInfo.paintBehavior); |
| adjustedClipRect.move(paintingInfo.subpixelOffset); |
| FloatRect pixelSnappedClipRect = snapRectToDevicePixels(adjustedClipRect, renderer().document().deviceScaleFactor()); |
| context.clip(pixelSnappedClipRect); |
| |
| #if ENABLE(CSS_COMPOSITING) |
| bool usesCompositeOperation = hasBlendMode() && !(renderer().isSVGRoot() && parent() && parent()->isRenderViewLayer()); |
| if (usesCompositeOperation) |
| context.setCompositeOperation(context.compositeOperation(), blendMode()); |
| #endif |
| |
| context.beginTransparencyLayer(renderer().opacity()); |
| |
| #if ENABLE(CSS_COMPOSITING) |
| if (usesCompositeOperation) |
| context.setCompositeOperation(context.compositeOperation(), BlendMode::Normal); |
| #endif |
| |
| #ifdef REVEAL_TRANSPARENCY_LAYERS |
| context.setFillColor(Color(0.0f, 0.0f, 0.5f, 0.2f)); |
| context.fillRect(pixelSnappedClipRect); |
| #endif |
| } |
| } |
| |
| #if PLATFORM(IOS_FAMILY) |
| void RenderLayer::willBeDestroyed() |
| { |
| if (RenderLayerBacking* layerBacking = backing()) |
| layerBacking->layerWillBeDestroyed(); |
| } |
| #endif |
| |
| bool RenderLayer::isDescendantOf(const RenderLayer& layer) const |
| { |
| for (auto* ancestor = this; ancestor; ancestor = ancestor->parent()) { |
| if (&layer == ancestor) |
| return true; |
| } |
| return false; |
| } |
| |
| void RenderLayer::convertToPixelSnappedLayerCoords(const RenderLayer* ancestorLayer, IntPoint& roundedLocation, ColumnOffsetAdjustment adjustForColumns) const |
| { |
| LayoutPoint location = convertToLayerCoords(ancestorLayer, roundedLocation, adjustForColumns); |
| roundedLocation = roundedIntPoint(location); |
| } |
| |
| // Returns the layer reached on the walk up towards the ancestor. |
| static inline const RenderLayer* accumulateOffsetTowardsAncestor(const RenderLayer* layer, const RenderLayer* ancestorLayer, LayoutPoint& location, RenderLayer::ColumnOffsetAdjustment adjustForColumns) |
| { |
| ASSERT(ancestorLayer != layer); |
| |
| const RenderLayerModelObject& renderer = layer->renderer(); |
| auto position = renderer.style().position(); |
| |
| // FIXME: Special casing RenderFragmentedFlow so much for fixed positioning here is not great. |
| RenderFragmentedFlow* fixedFragmentedFlowContainer = position == PositionType::Fixed ? renderer.enclosingFragmentedFlow() : nullptr; |
| if (fixedFragmentedFlowContainer && !fixedFragmentedFlowContainer->isOutOfFlowPositioned()) |
| fixedFragmentedFlowContainer = nullptr; |
| |
| // FIXME: Positioning of out-of-flow(fixed, absolute) elements collected in a RenderFragmentedFlow |
| // may need to be revisited in a future patch. |
| // If the fixed renderer is inside a RenderFragmentedFlow, we should not compute location using localToAbsolute, |
| // since localToAbsolute maps the coordinates from named flow to regions coordinates and regions can be |
| // positioned in a completely different place in the viewport (RenderView). |
| if (position == PositionType::Fixed && !fixedFragmentedFlowContainer && (!ancestorLayer || ancestorLayer == renderer.view().layer())) { |
| // If the fixed layer's container is the root, just add in the offset of the view. We can obtain this by calling |
| // localToAbsolute() on the RenderView. |
| FloatPoint absPos = renderer.localToAbsolute(FloatPoint(), IsFixed); |
| location += LayoutSize(absPos.x(), absPos.y()); |
| return ancestorLayer; |
| } |
| |
| // For the fixed positioned elements inside a render flow thread, we should also skip the code path below |
| // Otherwise, for the case of ancestorLayer == rootLayer and fixed positioned element child of a transformed |
| // element in render flow thread, we will hit the fixed positioned container before hitting the ancestor layer. |
| if (position == PositionType::Fixed && !fixedFragmentedFlowContainer) { |
| // For a fixed layers, we need to walk up to the root to see if there's a fixed position container |
| // (e.g. a transformed layer). It's an error to call offsetFromAncestor() across a layer with a transform, |
| // so we should always find the ancestor at or before we find the fixed position container. |
| RenderLayer* fixedPositionContainerLayer = nullptr; |
| bool foundAncestor = false; |
| for (RenderLayer* currLayer = layer->parent(); currLayer; currLayer = currLayer->parent()) { |
| if (currLayer == ancestorLayer) |
| foundAncestor = true; |
| |
| if (isContainerForPositioned(*currLayer, PositionType::Fixed)) { |
| fixedPositionContainerLayer = currLayer; |
| ASSERT_UNUSED(foundAncestor, foundAncestor); |
| break; |
| } |
| } |
| |
| ASSERT(fixedPositionContainerLayer); // We should have hit the RenderView's layer at least. |
| |
| if (fixedPositionContainerLayer != ancestorLayer) { |
| LayoutSize fixedContainerCoords = layer->offsetFromAncestor(fixedPositionContainerLayer); |
| LayoutSize ancestorCoords = ancestorLayer->offsetFromAncestor(fixedPositionContainerLayer); |
| location += (fixedContainerCoords - ancestorCoords); |
| return ancestorLayer; |
| } |
| } |
| |
| if (position == PositionType::Fixed && fixedFragmentedFlowContainer) { |
| ASSERT(ancestorLayer); |
| if (ancestorLayer->isOutOfFlowRenderFragmentedFlow()) { |
| location += toLayoutSize(layer->location()); |
| return ancestorLayer; |
| } |
| |
| if (ancestorLayer == renderer.view().layer()) { |
| // Add location in flow thread coordinates. |
| location += toLayoutSize(layer->location()); |
| |
| // Add flow thread offset in view coordinates since the view may be scrolled. |
| FloatPoint absPos = renderer.view().localToAbsolute(FloatPoint(), IsFixed); |
| location += LayoutSize(absPos.x(), absPos.y()); |
| return ancestorLayer; |
| } |
| } |
| |
| RenderLayer* parentLayer; |
| if (position == PositionType::Absolute || position == PositionType::Fixed) { |
| // Do what enclosingAncestorForPosition() does, but check for ancestorLayer along the way. |
| parentLayer = layer->parent(); |
| bool foundAncestorFirst = false; |
| while (parentLayer) { |
| // RenderFragmentedFlow is a positioned container, child of RenderView, positioned at (0,0). |
| // This implies that, for out-of-flow positioned elements inside a RenderFragmentedFlow, |
| // we are bailing out before reaching root layer. |
| if (isContainerForPositioned(*parentLayer, position)) |
| break; |
| |
| if (parentLayer == ancestorLayer) { |
| foundAncestorFirst = true; |
| break; |
| } |
| |
| parentLayer = parentLayer->parent(); |
| } |
| |
| // We should not reach RenderView layer past the RenderFragmentedFlow layer for any |
| // children of the RenderFragmentedFlow. |
| if (renderer.enclosingFragmentedFlow() && !layer->isOutOfFlowRenderFragmentedFlow()) |
| ASSERT(parentLayer != renderer.view().layer()); |
| |
| if (foundAncestorFirst) { |
| // Found ancestorLayer before the abs. positioned container, so compute offset of both relative |
| // to enclosingAncestorForPosition and subtract. |
| RenderLayer* positionedAncestor = parentLayer->enclosingAncestorForPosition(position); |
| LayoutSize thisCoords = layer->offsetFromAncestor(positionedAncestor); |
| LayoutSize ancestorCoords = ancestorLayer->offsetFromAncestor(positionedAncestor); |
| location += (thisCoords - ancestorCoords); |
| return ancestorLayer; |
| } |
| } else |
| parentLayer = layer->parent(); |
| |
| if (!parentLayer) |
| return nullptr; |
| |
| location += toLayoutSize(layer->location()); |
| |
| if (adjustForColumns == RenderLayer::AdjustForColumns) { |
| if (RenderLayer* parentLayer = layer->parent()) { |
| if (is<RenderMultiColumnFlow>(parentLayer->renderer())) { |
| RenderFragmentContainer* fragment = downcast<RenderMultiColumnFlow>(parentLayer->renderer()).physicalTranslationFromFlowToFragment(location); |
| if (fragment) |
| location.moveBy(fragment->topLeftLocation() + -parentLayer->renderBox()->topLeftLocation()); |
| } |
| } |
| } |
| |
| return parentLayer; |
| } |
| |
| LayoutPoint RenderLayer::convertToLayerCoords(const RenderLayer* ancestorLayer, const LayoutPoint& location, ColumnOffsetAdjustment adjustForColumns) const |
| { |
| if (ancestorLayer == this) |
| return location; |
| |
| const RenderLayer* currLayer = this; |
| LayoutPoint locationInLayerCoords = location; |
| while (currLayer && currLayer != ancestorLayer) |
| currLayer = accumulateOffsetTowardsAncestor(currLayer, ancestorLayer, locationInLayerCoords, adjustForColumns); |
| return locationInLayerCoords; |
| } |
| |
| LayoutSize RenderLayer::offsetFromAncestor(const RenderLayer* ancestorLayer, ColumnOffsetAdjustment adjustForColumns) const |
| { |
| return toLayoutSize(convertToLayerCoords(ancestorLayer, LayoutPoint(), adjustForColumns)); |
| } |
| |
| bool RenderLayer::canUseCompositedScrolling() const |
| { |
| bool isVisible = renderer().style().visibility() == Visibility::Visible; |
| if (renderer().settings().asyncOverflowScrollingEnabled()) |
| return isVisible && scrollsOverflow(); |
| |
| #if PLATFORM(IOS_FAMILY) && ENABLE(OVERFLOW_SCROLLING_TOUCH) |
| return isVisible && scrollsOverflow() && (renderer().style().useTouchOverflowScrolling() || renderer().settings().alwaysUseAcceleratedOverflowScroll()); |
| #else |
| return false; |
| #endif |
| } |
| |
| #if ENABLE(IOS_TOUCH_EVENTS) |
| bool RenderLayer::handleTouchEvent(const PlatformTouchEvent& touchEvent) |
| { |
| // If we have accelerated scrolling, let the scrolling be handled outside of WebKit. |
| if (hasCompositedScrollableOverflow()) |
| return false; |
| |
| return ScrollableArea::handleTouchEvent(touchEvent); |
| } |
| |
| void RenderLayer::registerAsTouchEventListenerForScrolling() |
| { |
| if (!renderer().element() || m_registeredAsTouchEventListenerForScrolling) |
| return; |
| |
| renderer().document().addTouchEventHandler(*renderer().element()); |
| m_registeredAsTouchEventListenerForScrolling = true; |
| } |
| |
| void RenderLayer::unregisterAsTouchEventListenerForScrolling() |
| { |
| if (!renderer().element() || !m_registeredAsTouchEventListenerForScrolling) |
| return; |
| |
| renderer().document().removeTouchEventHandler(*renderer().element()); |
| m_registeredAsTouchEventListenerForScrolling = false; |
| } |
| #endif // ENABLE(IOS_TOUCH_EVENTS) |
| |
| // FIXME: this is only valid after we've made layers. |
| bool RenderLayer::usesCompositedScrolling() const |
| { |
| return isComposited() && backing()->hasScrollingLayer(); |
| } |
| |
| // FIXME: this is only valid after we've made layers. |
| bool RenderLayer::usesAsyncScrolling() const |
| { |
| return compositor().useCoordinatedScrollingForLayer(*this); |
| } |
| |
| static inline int adjustedScrollDelta(int beginningDelta) |
| { |
| // This implemention matches Firefox's. |
| // http://mxr.mozilla.org/firefox/source/toolkit/content/widgets/browser.xml#856. |
| const int speedReducer = 12; |
| |
| int adjustedDelta = beginningDelta / speedReducer; |
| if (adjustedDelta > 1) |
| adjustedDelta = static_cast<int>(adjustedDelta * sqrt(static_cast<double>(adjustedDelta))) - 1; |
| else if (adjustedDelta < -1) |
| adjustedDelta = static_cast<int>(adjustedDelta * sqrt(static_cast<double>(-adjustedDelta))) + 1; |
| |
| return adjustedDelta; |
| } |
| |
| static inline IntSize adjustedScrollDelta(const IntSize& delta) |
| { |
| return IntSize(adjustedScrollDelta(delta.width()), adjustedScrollDelta(delta.height())); |
| } |
| |
| void RenderLayer::panScrollFromPoint(const IntPoint& sourcePoint) |
| { |
| IntPoint lastKnownMousePosition = renderer().frame().eventHandler().lastKnownMousePosition(); |
| |
| // We need to check if the last known mouse position is out of the window. When the mouse is out of the window, the position is incoherent |
| static IntPoint previousMousePosition; |
| if (lastKnownMousePosition.x() < 0 || lastKnownMousePosition.y() < 0) |
| lastKnownMousePosition = previousMousePosition; |
| else |
| previousMousePosition = lastKnownMousePosition; |
| |
| IntSize delta = lastKnownMousePosition - sourcePoint; |
| |
| if (abs(delta.width()) <= ScrollView::noPanScrollRadius) // at the center we let the space for the icon |
| delta.setWidth(0); |
| if (abs(delta.height()) <= ScrollView::noPanScrollRadius) |
| delta.setHeight(0); |
| |
| scrollByRecursively(adjustedScrollDelta(delta)); |
| } |
| |
| // FIXME: unify with the scrollRectToVisible() code below. |
| void RenderLayer::scrollByRecursively(const IntSize& delta, ScrollableArea** scrolledArea) |
| { |
| if (delta.isZero()) |
| return; |
| |
| bool restrictedByLineClamp = false; |
| if (renderer().parent()) |
| restrictedByLineClamp = !renderer().parent()->style().lineClamp().isNone(); |
| |
| if (renderer().hasOverflowClip() && !restrictedByLineClamp) { |
| ScrollOffset newScrollOffset = scrollOffset() + delta; |
| scrollToOffset(newScrollOffset); |
| if (scrolledArea) |
| *scrolledArea = this; |
| |
| // If this layer can't do the scroll we ask the next layer up that can scroll to try |
| IntSize remainingScrollOffset = newScrollOffset - scrollOffset(); |
| if (!remainingScrollOffset.isZero() && renderer().parent()) { |
| if (RenderLayer* scrollableLayer = enclosingScrollableLayer()) |
| scrollableLayer->scrollByRecursively(remainingScrollOffset, scrolledArea); |
| |
| renderer().frame().eventHandler().updateAutoscrollRenderer(); |
| } |
| } else { |
| // If we are here, we were called on a renderer that can be programmatically scrolled, but doesn't |
| // have an overflow clip. Which means that it is a document node that can be scrolled. |
| renderer().view().frameView().scrollBy(delta); |
| if (scrolledArea) |
| *scrolledArea = &renderer().view().frameView(); |
| |
| // FIXME: If we didn't scroll the whole way, do we want to try looking at the frames ownerElement? |
| // https://bugs.webkit.org/show_bug.cgi?id=28237 |
| } |
| } |
| |
| void RenderLayer::setPostLayoutScrollPosition(Optional<ScrollPosition> position) |
| { |
| m_postLayoutScrollPosition = position; |
| } |
| |
| void RenderLayer::applyPostLayoutScrollPositionIfNeeded() |
| { |
| if (!m_postLayoutScrollPosition) |
| return; |
| |
| scrollToOffset(scrollOffsetFromPosition(m_postLayoutScrollPosition.value())); |
| m_postLayoutScrollPosition = WTF::nullopt; |
| } |
| |
| void RenderLayer::scrollToXPosition(int x, ScrollType scrollType, ScrollClamping clamping) |
| { |
| ScrollPosition position(x, m_scrollPosition.y()); |
| scrollToOffset(scrollOffsetFromPosition(position), scrollType, clamping); |
| } |
| |
| void RenderLayer::scrollToYPosition(int y, ScrollType scrollType, ScrollClamping clamping) |
| { |
| ScrollPosition position(m_scrollPosition.x(), y); |
| scrollToOffset(scrollOffsetFromPosition(position), scrollType, clamping); |
| } |
| |
| ScrollOffset RenderLayer::clampScrollOffset(const ScrollOffset& scrollOffset) const |
| { |
| return scrollOffset.constrainedBetween(IntPoint(), maximumScrollOffset()); |
| } |
| |
| void RenderLayer::scrollToOffset(const ScrollOffset& scrollOffset, ScrollType scrollType, ScrollClamping clamping) |
| { |
| ScrollOffset clampedScrollOffset = clamping == ScrollClamping::Clamped ? clampScrollOffset(scrollOffset) : scrollOffset; |
| if (clampedScrollOffset == this->scrollOffset()) |
| return; |
| |
| auto previousScrollType = currentScrollType(); |
| setCurrentScrollType(scrollType); |
| |
| bool handled = false; |
| #if ENABLE(ASYNC_SCROLLING) |
| if (ScrollingCoordinator* scrollingCoordinator = page().scrollingCoordinator()) |
| handled = scrollingCoordinator->requestScrollPositionUpdate(*this, scrollPositionFromOffset(clampedScrollOffset)); |
| #endif |
| |
| if (!handled) |
| scrollToOffsetWithoutAnimation(clampedScrollOffset, clamping); |
| |
| setCurrentScrollType(previousScrollType); |
| } |
| |
| void RenderLayer::scrollTo(const ScrollPosition& position) |
| { |
| RenderBox* box = renderBox(); |
| if (!box) |
| return; |
| |
| LOG_WITH_STREAM(Scrolling, stream << "RenderLayer::scrollTo " << position << " from " << m_scrollPosition << " (is user scroll " << (currentScrollType() == ScrollType::User) << ")"); |
| |
| ScrollPosition newPosition = position; |
| if (!box->isHTMLMarquee()) { |
| // Ensure that the dimensions will be computed if they need to be (for overflow:hidden blocks). |
| if (m_scrollDimensionsDirty) |
| computeScrollDimensions(); |
| #if PLATFORM(IOS_FAMILY) |
| if (adjustForIOSCaretWhenScrolling()) { |
| // FIXME: It's not clear what this code is trying to do. Behavior seems reasonable with it removed. |
| int maxOffset = scrollWidth() - roundToInt(box->clientWidth()); |
| ScrollOffset newOffset = scrollOffsetFromPosition(newPosition); |
| int scrollXOffset = newOffset.x(); |
| if (scrollXOffset > maxOffset - caretWidth) { |
| scrollXOffset += caretWidth; |
| if (scrollXOffset <= caretWidth) |
| scrollXOffset = 0; |
| } else if (scrollXOffset < m_scrollPosition.x() - caretWidth) |
| scrollXOffset -= caretWidth; |
| |
| newOffset.setX(scrollXOffset); |
| newPosition = scrollPositionFromOffset(newOffset); |
| } |
| #endif |
| } |
| |
| if (m_scrollPosition == newPosition) { |
| // FIXME: Nothing guarantees we get a scrollTo() with an unchanged position at the end of a user gesture. |
| // The ScrollingCoordinator probably needs to message the main thread when a gesture ends. |
| if (requiresScrollPositionReconciliation()) { |
| setNeedsCompositingGeometryUpdate(); |
| updateCompositingLayersAfterScroll(); |
| } |
| return; |
| } |
| |
| m_scrollPosition = newPosition; |
| |
| RenderView& view = renderer().view(); |
| |
| // Update the positions of our child layers (if needed as only fixed layers should be impacted by a scroll). |
| // We don't update compositing layers, because we need to do a deep update from the compositing ancestor. |
| if (!view.frameView().layoutContext().isInRenderTreeLayout()) { |
| // If we're in the middle of layout, we'll just update layers once layout has finished. |
| updateLayerPositionsAfterOverflowScroll(); |
| |
| view.frameView().scheduleUpdateWidgetPositions(); |
| |
| if (!m_updatingMarqueePosition) { |
| // Avoid updating compositing layers if, higher on the stack, we're already updating layer |
| // positions. Updating layer positions requires a full walk of up-to-date RenderLayers, and |
| // in this case we're still updating their positions; we'll update compositing layers later |
| // when that completes. |
| if (usesCompositedScrolling()) { |
| setNeedsCompositingGeometryUpdate(); |
| |
| // Scroll position can affect the location of a composited descendant (which may be a sibling in z-order), |
| // so trigger a descendant walk from the paint-order parent. |
| if (auto* paintParent = paintOrderParent()) |
| paintParent->setDescendantsNeedUpdateBackingAndHierarchyTraversal(); |
| } |
| |
| updateCompositingLayersAfterScroll(); |
| } |
| |
| // Update regions, scrolling may change the clip of a particular region. |
| renderer().document().invalidateRenderingDependentRegions(); |
| DebugPageOverlays::didLayout(renderer().frame()); |
| } |
| |
| Frame& frame = renderer().frame(); |
| RenderLayerModelObject* repaintContainer = renderer().containerForRepaint(); |
| // The caret rect needs to be invalidated after scrolling |
| frame.selection().setCaretRectNeedsUpdate(); |
| |
| LayoutRect rectForRepaint = renderer().hasRepaintLayoutRects() ? renderer().repaintLayoutRects().m_repaintRect : renderer().clippedOverflowRectForRepaint(repaintContainer); |
| |
| FloatQuad quadForFakeMouseMoveEvent = FloatQuad(rectForRepaint); |
| if (repaintContainer) |
| quadForFakeMouseMoveEvent = repaintContainer->localToAbsoluteQuad(quadForFakeMouseMoveEvent); |
| frame.eventHandler().dispatchFakeMouseMoveEventSoonInQuad(quadForFakeMouseMoveEvent); |
| |
| bool requiresRepaint = true; |
| if (usesCompositedScrolling()) { |
| setNeedsCompositingGeometryUpdate(); |
| setDescendantsNeedUpdateBackingAndHierarchyTraversal(); |
| requiresRepaint = false; |
| } |
| |
| // Just schedule a full repaint of our object. |
| if (requiresRepaint) |
| renderer().repaintUsingContainer(repaintContainer, rectForRepaint); |
| |
| // Schedule the scroll and scroll-related DOM events. |
| if (Element* element = renderer().element()) |
| element->document().eventQueue().enqueueOrDispatchScrollEvent(*element); |
| |
| if (scrollsOverflow()) |
| view.frameView().didChangeScrollOffset(); |
| |
| view.frameView().viewportContentsChanged(); |
| frame.editor().renderLayerDidScroll(*this); |
| } |
| |
| static inline bool frameElementAndViewPermitScroll(HTMLFrameElementBase* frameElementBase, FrameView& frameView) |
| { |
| // If scrollbars aren't explicitly forbidden, permit scrolling. |
| if (frameElementBase && frameElementBase->scrollingMode() != ScrollbarAlwaysOff) |
| return true; |
| |
| // If scrollbars are forbidden, user initiated scrolls should obviously be ignored. |
| if (frameView.wasScrolledByUser()) |
| return false; |
| |
| // Forbid autoscrolls when scrollbars are off, but permits other programmatic scrolls, |
| // like navigation to an anchor. |
| return !frameView.frame().eventHandler().autoscrollInProgress(); |
| } |
| |
| bool RenderLayer::allowsCurrentScroll() const |
| { |
| if (!renderer().hasOverflowClip()) |
| return false; |
| |
| // Don't scroll to reveal an overflow layer that is restricted by the -webkit-line-clamp property. |
| // FIXME: Is this still needed? It used to be relevant for Safari RSS. |
| if (renderer().parent() && !renderer().parent()->style().lineClamp().isNone()) |
| return false; |
| |
| RenderBox* box = renderBox(); |
| ASSERT(box); // Only boxes can have overflowClip set. |
| |
| if (renderer().frame().eventHandler().autoscrollInProgress()) { |
| // The "programmatically" here is misleading; this asks whether the box has scrollable overflow, |
| // or is a special case like a form control. |
| return box->canBeProgramaticallyScrolled(); |
| } |
| |
| // Programmatic scrolls can scroll overflow:hidden. |
| return box->hasHorizontalOverflow() || box->hasVerticalOverflow(); |
| } |
| |
| void RenderLayer::scrollRectToVisible(const LayoutRect& absoluteRect, bool insideFixed, const ScrollRectToVisibleOptions& options) |
| { |
| LOG_WITH_STREAM(Scrolling, stream << "Layer " << this << " scrollRectToVisible " << absoluteRect); |
| |
| RenderLayer* parentLayer = nullptr; |
| LayoutRect newRect = absoluteRect; |
| |
| // We may end up propagating a scroll event. It is important that we suspend events until |
| // the end of the function since they could delete the layer or the layer's renderer(). |
| FrameView& frameView = renderer().view().frameView(); |
| |
| if (renderer().parent()) |
| parentLayer = renderer().parent()->enclosingLayer(); |
| |
| if (allowsCurrentScroll()) { |
| // Don't scroll to reveal an overflow layer that is restricted by the -webkit-line-clamp property. |
| // This will prevent us from revealing text hidden by the slider in Safari RSS. |
| RenderBox* box = renderBox(); |
| ASSERT(box); |
| LayoutRect localExposeRect(box->absoluteToLocalQuad(FloatQuad(FloatRect(absoluteRect))).boundingBox()); |
| if (shouldPlaceBlockDirectionScrollbarOnLeft()) { |
| // For direction: rtl; writing-mode: horizontal-tb box, the scroll bar is on the left side. The visible rect |
| // starts from the right side of scroll bar. So the x of localExposeRect should start from the same position too. |
| localExposeRect.moveBy(LayoutPoint(-verticalScrollbarWidth(), 0)); |
| } |
| LayoutRect layerBounds(0_lu, 0_lu, box->clientWidth(), box->clientHeight()); |
| LayoutRect revealRect = getRectToExpose(layerBounds, localExposeRect, insideFixed, options.alignX, options.alignY); |
| |
| ScrollOffset clampedScrollOffset = clampScrollOffset(scrollOffset() + toIntSize(roundedIntRect(revealRect).location())); |
| if (clampedScrollOffset != scrollOffset()) { |
| ScrollOffset oldScrollOffset = scrollOffset(); |
| scrollToOffset(clampedScrollOffset); |
| IntSize scrollOffsetDifference = scrollOffset() - oldScrollOffset; |
| localExposeRect.move(-scrollOffsetDifference); |
| newRect = LayoutRect(box->localToAbsoluteQuad(FloatQuad(FloatRect(localExposeRect)), UseTransforms).boundingBox()); |
| } |
| } else if (!parentLayer && renderer().isRenderView()) { |
| HTMLFrameOwnerElement* ownerElement = renderer().document().ownerElement(); |
| |
| if (ownerElement && ownerElement->renderer()) { |
| HTMLFrameElementBase* frameElementBase = nullptr; |
| |
| if (is<HTMLFrameElementBase>(*ownerElement)) |
| frameElementBase = downcast<HTMLFrameElementBase>(ownerElement); |
| |
| if (frameElementAndViewPermitScroll(frameElementBase, frameView)) { |
| // If this assertion fires we need to protect the ownerElement from being destroyed. |
| ScriptDisallowedScope::InMainThread scriptDisallowedScope; |
| |
| LayoutRect viewRect = frameView.visibleContentRect(LegacyIOSDocumentVisibleRect); |
| LayoutRect exposeRect = getRectToExpose(viewRect, absoluteRect, insideFixed, options.alignX, options.alignY); |
| |
| IntPoint scrollOffset(roundedIntPoint(exposeRect.location())); |
| // Adjust offsets if they're outside of the allowable range. |
| scrollOffset = scrollOffset.constrainedBetween(IntPoint(), IntPoint(frameView.contentsSize())); |
| frameView.setScrollPosition(scrollOffset); |
| |
| if (options.shouldAllowCrossOriginScrolling == ShouldAllowCrossOriginScrolling::Yes || frameView.safeToPropagateScrollToParent()) { |
| parentLayer = ownerElement->renderer()->enclosingLayer(); |
| // Convert the rect into the coordinate space of the parent frame's document. |
| newRect = frameView.contentsToContainingViewContents(enclosingIntRect(newRect)); |
| insideFixed = false; // FIXME: ideally need to determine if this <iframe> is inside position:fixed. |
| } else |
| parentLayer = nullptr; |
| } |
| } else { |
| if (options.revealMode == SelectionRevealMode::RevealUpToMainFrame && frameView.frame().isMainFrame()) |
| return; |
| |
| auto minScrollPosition = frameView.minimumScrollPosition(); |
| auto maxScrollPosition = frameView.maximumScrollPosition(); |
| |
| #if !PLATFORM(IOS_FAMILY) |
| LayoutRect viewRect = frameView.visibleContentRect(); |
| #else |
| // FIXME: ContentInsets should be taken care of in UI process side. webkit.org/b/199682 |
| // To do that, getRectToExpose needs to return the additional scrolling to do beyond content rect. |
| LayoutRect viewRect = frameView.viewRectExpandedByContentInsets(); |
| |
| // FIXME: webkit.org/b/199683 FrameView::visibleContentRect is wrong when content insets are present |
| maxScrollPosition = frameView.scrollPositionFromOffset(ScrollPosition(frameView.totalContentsSize() - flooredIntSize(viewRect.size()))); |
| |
| auto contentInsets = page().contentInsets(); |
| minScrollPosition.move(-contentInsets.left(), -contentInsets.top()); |
| maxScrollPosition.move(contentInsets.right(), contentInsets.bottom()); |
| #endif |
| // Move the target rect into "scrollView contents" coordinates. |
| LayoutRect targetRect = absoluteRect; |
| targetRect.move(0, frameView.headerHeight()); |
| |
| LayoutRect revealRect = getRectToExpose(viewRect, targetRect, insideFixed, options.alignX, options.alignY); |
| // Avoid scrolling to the rounded value of revealRect.location() if we don't actually need to scroll |
| if (revealRect != viewRect) { |
| ScrollOffset clampedScrollPosition = roundedIntPoint(revealRect.location()).constrainedBetween(minScrollPosition, maxScrollPosition); |
| frameView.setScrollPosition(clampedScrollPosition); |
| } |
| |
| // This is the outermost view of a web page, so after scrolling this view we |
| // scroll its container by calling Page::scrollRectIntoView. |
| // This only has an effect on the Mac platform in applications |
| // that put web views into scrolling containers, such as Mac OS X Mail. |
| // The canAutoscroll function in EventHandler also knows about this. |
| page().chrome().scrollRectIntoView(snappedIntRect(absoluteRect)); |
| } |
| } |
| |
| if (parentLayer) |
| parentLayer->scrollRectToVisible(newRect, insideFixed, options); |
| } |
| |
| void RenderLayer::updateCompositingLayersAfterScroll() |
| { |
| if (compositor().hasContentCompositingLayers()) { |
| // Our stacking container is guaranteed to contain all of our descendants that may need |
| // repositioning, so update compositing layers from there. |
| if (RenderLayer* compositingAncestor = stackingContext()->enclosingCompositingLayer()) { |
| if (usesCompositedScrolling()) |
| compositor().updateCompositingLayers(CompositingUpdateType::OnCompositedScroll, compositingAncestor); |
| else { |
| // FIXME: would be nice to only dirty layers whose positions were affected by scrolling. |
| compositingAncestor->setDescendantsNeedUpdateBackingAndHierarchyTraversal(); |
| compositor().updateCompositingLayers(CompositingUpdateType::OnScroll, compositingAncestor); |
| } |
| } |
| } |
| } |
| |
| LayoutRect RenderLayer::getRectToExpose(const LayoutRect& visibleRect, const LayoutRect& exposeRect, bool insideFixed, const ScrollAlignment& alignX, const ScrollAlignment& alignY) const |
| { |
| FrameView& frameView = renderer().view().frameView(); |
| if (renderer().isRenderView() && insideFixed) { |
| // If the element is inside position:fixed and we're not scaled, no amount of scrolling is going to move things around. |
| if (frameView.frameScaleFactor() == 1) |
| return visibleRect; |
| |
| if (renderer().settings().visualViewportEnabled()) { |
| // exposeRect is in absolute coords, affected by page scale. Unscale it. |
| LayoutRect unscaledExposeRect = exposeRect; |
| unscaledExposeRect.scale(1 / frameView.frameScaleFactor()); |
| unscaledExposeRect.move(0, -frameView.headerHeight()); |
| |
| // These are both in unscaled coordinates. |
| LayoutRect layoutViewport = frameView.layoutViewportRect(); |
| LayoutRect visualViewport = frameView.visualViewportRect(); |
| |
| // The rect to expose may be partially offscreen, which we can't do anything about with position:fixed. |
| unscaledExposeRect.intersect(layoutViewport); |
| // Make sure it's not larger than the visual viewport; if so, we'll just move to the top left. |
| unscaledExposeRect.setSize(unscaledExposeRect.size().shrunkTo(visualViewport.size())); |
| |
| // Compute how much we have to move the visualViewport to reveal the part of the layoutViewport that contains exposeRect. |
| LayoutRect requiredVisualViewport = getRectToExpose(visualViewport, unscaledExposeRect, false, alignX, alignY); |
| // Scale it back up. |
| requiredVisualViewport.scale(frameView.frameScaleFactor()); |
| requiredVisualViewport.move(0, frameView.headerHeight()); |
| return requiredVisualViewport; |
| } |
| } |
| |
| // Determine the appropriate X behavior. |
| ScrollAlignment::Behavior scrollX; |
| LayoutRect exposeRectX(exposeRect.x(), visibleRect.y(), exposeRect.width(), visibleRect.height()); |
| LayoutUnit intersectWidth = intersection(visibleRect, exposeRectX).width(); |
| if (intersectWidth == exposeRect.width() || intersectWidth >= MIN_INTERSECT_FOR_REVEAL) |
| // If the rectangle is fully visible, use the specified visible behavior. |
| // If the rectangle is partially visible, but over a certain threshold, |
| // then treat it as fully visible to avoid unnecessary horizontal scrolling |
| scrollX = ScrollAlignment::getVisibleBehavior(alignX); |
| else if (intersectWidth == visibleRect.width()) { |
| // If the rect is bigger than the visible area, don't bother trying to center. Other alignments will work. |
| scrollX = ScrollAlignment::getVisibleBehavior(alignX); |
| if (scrollX == ScrollAlignment::Behavior::AlignCenter) |
| scrollX = ScrollAlignment::Behavior::NoScroll; |
| } else if (intersectWidth > 0) |
| // If the rectangle is partially visible, but not above the minimum threshold, use the specified partial behavior |
| scrollX = ScrollAlignment::getPartialBehavior(alignX); |
| else |
| scrollX = ScrollAlignment::getHiddenBehavior(alignX); |
| // If we're trying to align to the closest edge, and the exposeRect is further right |
| // than the visibleRect, and not bigger than the visible area, then align with the right. |
| if (scrollX == ScrollAlignment::Behavior::AlignToClosestEdge && exposeRect.maxX() > visibleRect.maxX() && exposeRect.width() < visibleRect.width()) |
| scrollX = ScrollAlignment::Behavior::AlignRight; |
| |
| // Given the X behavior, compute the X coordinate. |
| LayoutUnit x; |
| if (scrollX == ScrollAlignment::Behavior::NoScroll) |
| x = visibleRect.x(); |
| else if (scrollX == ScrollAlignment::Behavior::AlignRight) |
| x = exposeRect.maxX() - visibleRect.width(); |
| else if (scrollX == ScrollAlignment::Behavior::AlignCenter) |
| x = exposeRect.x() + (exposeRect.width() - visibleRect.width()) / 2; |
| else |
| x = exposeRect.x(); |
| |
| // Determine the appropriate Y behavior. |
| ScrollAlignment::Behavior scrollY; |
| LayoutRect exposeRectY(visibleRect.x(), exposeRect.y(), visibleRect.width(), exposeRect.height()); |
| LayoutUnit intersectHeight = intersection(visibleRect, exposeRectY).height(); |
| if (intersectHeight == exposeRect.height()) |
| // If the rectangle is fully visible, use the specified visible behavior. |
| scrollY = ScrollAlignment::getVisibleBehavior(alignY); |
| else if (intersectHeight == visibleRect.height()) { |
| // If the rect is bigger than the visible area, don't bother trying to center. Other alignments will work. |
| scrollY = ScrollAlignment::getVisibleBehavior(alignY); |
| if (scrollY == ScrollAlignment::Behavior::AlignCenter) |
| scrollY = ScrollAlignment::Behavior::NoScroll; |
| } else if (intersectHeight > 0) |
| // If the rectangle is partially visible, use the specified partial behavior |
| scrollY = ScrollAlignment::getPartialBehavior(alignY); |
| else |
| scrollY = ScrollAlignment::getHiddenBehavior(alignY); |
| // If we're trying to align to the closest edge, and the exposeRect is further down |
| // than the visibleRect, and not bigger than the visible area, then align with the bottom. |
| if (scrollY == ScrollAlignment::Behavior::AlignToClosestEdge && exposeRect.maxY() > visibleRect.maxY() && exposeRect.height() < visibleRect.height()) |
| scrollY = ScrollAlignment::Behavior::AlignBottom; |
| |
| // Given the Y behavior, compute the Y coordinate. |
| LayoutUnit y; |
| if (scrollY == ScrollAlignment::Behavior::NoScroll) |
| y = visibleRect.y(); |
| else if (scrollY == ScrollAlignment::Behavior::AlignBottom) |
| y = exposeRect.maxY() - visibleRect.height(); |
| else if (scrollY == ScrollAlignment::Behavior::AlignCenter) |
| y = exposeRect.y() + (exposeRect.height() - visibleRect.height()) / 2; |
| else |
| y = exposeRect.y(); |
| |
| return LayoutRect(LayoutPoint(x, y), visibleRect.size()); |
| } |
| |
| void RenderLayer::autoscroll(const IntPoint& positionInWindow) |
| { |
| IntPoint currentDocumentPosition = renderer().view().frameView().windowToContents(positionInWindow); |
| scrollRectToVisible(LayoutRect(currentDocumentPosition, LayoutSize(1, 1)), false, { SelectionRevealMode::Reveal, ScrollAlignment::alignToEdgeIfNeeded, ScrollAlignment::alignToEdgeIfNeeded, ShouldAllowCrossOriginScrolling::Yes }); |
| } |
| |
| bool RenderLayer::canResize() const |
| { |
| // We need a special case for <iframe> because they never have |
| // hasOverflowClip(). However, they do "implicitly" clip their contents, so |
| // we want to allow resizing them also. |
| return (renderer().hasOverflowClip() || renderer().isRenderIFrame()) && renderer().style().resize() != Resize::None; |
| } |
| |
| void RenderLayer::resize(const PlatformMouseEvent& evt, const LayoutSize& oldOffset) |
| { |
| // FIXME: This should be possible on generated content but is not right now. |
| if (!inResizeMode() || !canResize() || !renderer().element()) |
| return; |
| |
| // FIXME: The only case where renderer->element()->renderer() != renderer is with continuations. Do they matter here? |
| // If they do it would still be better to deal with them explicitly. |
| Element* element = renderer().element(); |
| auto* renderer = downcast<RenderBox>(element->renderer()); |
| |
| Document& document = element->document(); |
| if (!document.frame()->eventHandler().mousePressed()) |
| return; |
| |
| float zoomFactor = renderer->style().effectiveZoom(); |
| |
| LayoutSize newOffset = offsetFromResizeCorner(document.view()->windowToContents(evt.position())); |
| newOffset.setWidth(newOffset.width() / zoomFactor); |
| newOffset.setHeight(newOffset.height() / zoomFactor); |
| |
| LayoutSize currentSize = LayoutSize(renderer->width() / zoomFactor, renderer->height() / zoomFactor); |
| LayoutSize minimumSize = element->minimumSizeForResizing().shrunkTo(currentSize); |
| element->setMinimumSizeForResizing(minimumSize); |
| |
| LayoutSize adjustedOldOffset = LayoutSize(oldOffset.width() / zoomFactor, oldOffset.height() / zoomFactor); |
| if (shouldPlaceBlockDirectionScrollbarOnLeft()) { |
| newOffset.setWidth(-newOffset.width()); |
| adjustedOldOffset.setWidth(-adjustedOldOffset.width()); |
| } |
| |
| LayoutSize difference = (currentSize + newOffset - adjustedOldOffset).expandedTo(minimumSize) - currentSize; |
| |
| StyledElement* styledElement = downcast<StyledElement>(element); |
| bool isBoxSizingBorder = renderer->style().boxSizing() == BoxSizing::BorderBox; |
| |
| Resize resize = renderer->style().resize(); |
| if (resize != Resize::Vertical && difference.width()) { |
| if (is<HTMLFormControlElement>(*element)) { |
| // Make implicit margins from the theme explicit (see <http://bugs.webkit.org/show_bug.cgi?id=9547>). |
| styledElement->setInlineStyleProperty(CSSPropertyMarginLeft, renderer->marginLeft() / zoomFactor, CSSPrimitiveValue::CSS_PX); |
| styledElement->setInlineStyleProperty(CSSPropertyMarginRight, renderer->marginRight() / zoomFactor, CSSPrimitiveValue::CSS_PX); |
| } |
| LayoutUnit baseWidth = renderer->width() - (isBoxSizingBorder ? 0_lu : renderer->horizontalBorderAndPaddingExtent()); |
| baseWidth = baseWidth / zoomFactor; |
| styledElement->setInlineStyleProperty(CSSPropertyWidth, roundToInt(baseWidth + difference.width()), CSSPrimitiveValue::CSS_PX); |
| } |
| |
| if (resize != Resize::Horizontal && difference.height()) { |
| if (is<HTMLFormControlElement>(*element)) { |
| // Make implicit margins from the theme explicit (see <http://bugs.webkit.org/show_bug.cgi?id=9547>). |
| styledElement->setInlineStyleProperty(CSSPropertyMarginTop, renderer->marginTop() / zoomFactor, CSSPrimitiveValue::CSS_PX); |
| styledElement->setInlineStyleProperty(CSSPropertyMarginBottom, renderer->marginBottom() / zoomFactor, CSSPrimitiveValue::CSS_PX); |
| } |
| LayoutUnit baseHeight = renderer->height() - (isBoxSizingBorder ? 0_lu : renderer->verticalBorderAndPaddingExtent()); |
| baseHeight = baseHeight / zoomFactor; |
| styledElement->setInlineStyleProperty(CSSPropertyHeight, roundToInt(baseHeight + difference.height()), CSSPrimitiveValue::CSS_PX); |
| } |
| |
| document.updateLayout(); |
| |
| // FIXME (Radar 4118564): We should also autoscroll the window as necessary to keep the point under the cursor in view. |
| } |
| |
| void RenderLayer::setScrollOffset(const ScrollOffset& offset) |
| { |
| scrollTo(scrollPositionFromOffset(offset)); |
| } |
| |
| ScrollingNodeID RenderLayer::scrollingNodeID() const |
| { |
| if (!isComposited()) |
| return 0; |
| |
| return backing()->scrollingNodeIDForRole(ScrollCoordinationRole::Scrolling); |
| } |
| |
| IntRect RenderLayer::visibleContentRectInternal(VisibleContentRectIncludesScrollbars scrollbarInclusion, VisibleContentRectBehavior) const |
| { |
| IntSize scrollbarSpace; |
| if (showsOverflowControls() && scrollbarInclusion == IncludeScrollbars) |
| scrollbarSpace = scrollbarIntrusion(); |
| |
| auto visibleSize = this->visibleSize(); |
| return { scrollPosition(), { std::max(0, visibleSize.width() - scrollbarSpace.width()), std::max(0, visibleSize.height() - scrollbarSpace.height()) } }; |
| } |
| |
| IntSize RenderLayer::overhangAmount() const |
| { |
| #if ENABLE(RUBBER_BANDING) |
| if (!renderer().settings().rubberBandingForSubScrollableRegionsEnabled()) |
| return IntSize(); |
| |
| IntSize stretch; |
| |
| // FIXME: use maximumScrollOffset(), or just move this to ScrollableArea. |
| ScrollOffset scrollOffset = scrollOffsetFromPosition(scrollPosition()); |
| auto reachableSize = reachableTotalContentsSize(); |
| if (scrollOffset.y() < 0) |
| stretch.setHeight(scrollOffset.y()); |
| else if (reachableSize.height() && scrollOffset.y() > reachableSize.height() - visibleHeight()) |
| stretch.setHeight(scrollOffset.y() - (reachableSize.height() - visibleHeight())); |
| |
| if (scrollOffset.x() < 0) |
| stretch.setWidth(scrollOffset.x()); |
| else if (reachableSize.width() && scrollOffset.x() > reachableSize.width() - visibleWidth()) |
| stretch.setWidth(scrollOffset.x() - (reachableSize.width() - visibleWidth())); |
| |
| return stretch; |
| #else |
| return IntSize(); |
| #endif |
| } |
| |
| bool RenderLayer::isActive() const |
| { |
| return page().focusController().isActive(); |
| } |
| |
| static int cornerStart(const RenderLayer& layer, int minX, int maxX, int thickness) |
| { |
| if (layer.shouldPlaceBlockDirectionScrollbarOnLeft()) |
| return minX + layer.renderer().style().borderLeftWidth(); |
| return maxX - thickness - layer.renderer().style().borderRightWidth(); |
| } |
| |
| static LayoutRect cornerRect(const RenderLayer& layer, const LayoutRect& bounds) |
| { |
| int horizontalThickness; |
| int verticalThickness; |
| if (!layer.verticalScrollbar() && !layer.horizontalScrollbar()) { |
| // FIXME: This isn't right. We need to know the thickness of custom scrollbars |
| // even when they don't exist in order to set the resizer square size properly. |
| horizontalThickness = ScrollbarTheme::theme().scrollbarThickness(); |
| verticalThickness = horizontalThickness; |
| } else if (layer.verticalScrollbar() && !layer.horizontalScrollbar()) { |
| horizontalThickness = layer.verticalScrollbar()->width(); |
| verticalThickness = horizontalThickness; |
| } else if (layer.horizontalScrollbar() && !layer.verticalScrollbar()) { |
| verticalThickness = layer.horizontalScrollbar()->height(); |
| horizontalThickness = verticalThickness; |
| } else { |
| horizontalThickness = layer.verticalScrollbar()->width(); |
| verticalThickness = layer.horizontalScrollbar()->height(); |
| } |
| return LayoutRect(cornerStart(layer, bounds.x(), bounds.maxX(), horizontalThickness), |
| bounds.maxY() - verticalThickness - layer.renderer().style().borderBottomWidth(), |
| horizontalThickness, verticalThickness); |
| } |
| |
| IntRect RenderLayer::scrollCornerRect() const |
| { |
| // We have a scrollbar corner when a non overlay scrollbar is visible and not filling the entire length of the box. |
| // This happens when: |
| // (a) A resizer is present and at least one non overlay scrollbar is present |
| // (b) Both non overlay scrollbars are present. |
| // Overlay scrollbars always fill the entire length of the box so we never have scroll corner in that case. |
| bool hasHorizontalBar = m_hBar && !m_hBar->isOverlayScrollbar(); |
| bool hasVerticalBar = m_vBar && !m_vBar->isOverlayScrollbar(); |
| bool hasResizer = renderer().style().resize() != Resize::None; |
| if ((hasHorizontalBar && hasVerticalBar) || (hasResizer && (hasHorizontalBar || hasVerticalBar))) |
| return snappedIntRect(cornerRect(*this, renderBox()->borderBoxRect())); |
| return IntRect(); |
| } |
| |
| static LayoutRect resizerCornerRect(const RenderLayer& layer, const LayoutRect& bounds) |
| { |
| ASSERT(layer.renderer().isBox()); |
| if (layer.renderer().style().resize() == Resize::None) |
| return LayoutRect(); |
| return cornerRect(layer, bounds); |
| } |
| |
| LayoutRect RenderLayer::scrollCornerAndResizerRect() const |
| { |
| RenderBox* box = renderBox(); |
| if (!box) |
| return LayoutRect(); |
| LayoutRect scrollCornerAndResizer = scrollCornerRect(); |
| if (scrollCornerAndResizer.isEmpty()) |
| scrollCornerAndResizer = resizerCornerRect(*this, box->borderBoxRect()); |
| return scrollCornerAndResizer; |
| } |
| |
| bool RenderLayer::isScrollCornerVisible() const |
| { |
| ASSERT(renderer().isBox()); |
| return !scrollCornerRect().isEmpty(); |
| } |
| |
| IntRect RenderLayer::convertFromScrollbarToContainingView(const Scrollbar& scrollbar, const IntRect& scrollbarRect) const |
| { |
| IntRect rect = scrollbarRect; |
| rect.move(scrollbarOffset(scrollbar)); |
| |
| return renderer().view().frameView().convertFromRendererToContainingView(&renderer(), rect); |
| } |
| |
| IntRect RenderLayer::convertFromContainingViewToScrollbar(const Scrollbar& scrollbar, const IntRect& parentRect) const |
| { |
| IntRect rect = renderer().view().frameView().convertFromContainingViewToRenderer(&renderer(), parentRect); |
| rect.move(-scrollbarOffset(scrollbar)); |
| return rect; |
| } |
| |
| IntPoint RenderLayer::convertFromScrollbarToContainingView(const Scrollbar& scrollbar, const IntPoint& scrollbarPoint) const |
| { |
| IntPoint point = scrollbarPoint; |
| point.move(scrollbarOffset(scrollbar)); |
| return renderer().view().frameView().convertFromRendererToContainingView(&renderer(), point); |
| } |
| |
| IntPoint RenderLayer::convertFromContainingViewToScrollbar(const Scrollbar& scrollbar, const IntPoint& parentPoint) const |
| { |
| IntPoint point = renderer().view().frameView().convertFromContainingViewToRenderer(&renderer(), parentPoint); |
| point.move(-scrollbarOffset(scrollbar)); |
| return point; |
| } |
| |
| IntSize RenderLayer::visibleSize() const |
| { |
| RenderBox* box = renderBox(); |
| if (!box) |
| return IntSize(); |
| |
| return IntSize(roundToInt(box->clientWidth()), roundToInt(box->clientHeight())); |
| } |
| |
| IntSize RenderLayer::contentsSize() const |
| { |
| return IntSize(scrollWidth(), scrollHeight()); |
| } |
| |
| IntSize RenderLayer::reachableTotalContentsSize() const |
| { |
| IntSize contentsSize = this->contentsSize(); |
| |
| if (!hasScrollableHorizontalOverflow()) |
| contentsSize.setWidth(std::min(contentsSize.width(), visibleSize().width())); |
| |
| if (!hasScrollableVerticalOverflow()) |
| contentsSize.setHeight(std::min(contentsSize.height(), visibleSize().height())); |
| |
| return contentsSize; |
| } |
| |
| void RenderLayer::availableContentSizeChanged(AvailableSizeChangeReason reason) |
| { |
| ScrollableArea::availableContentSizeChanged(reason); |
| |
| if (reason == AvailableSizeChangeReason::ScrollbarsChanged) { |
| if (is<RenderBlock>(renderer())) |
| downcast<RenderBlock>(renderer()).setShouldForceRelayoutChildren(true); |
| renderer().setNeedsLayout(); |
| } |
| } |
| |
| bool RenderLayer::shouldSuspendScrollAnimations() const |
| { |
| return renderer().view().frameView().shouldSuspendScrollAnimations(); |
| } |
| |
| #if PLATFORM(IOS_FAMILY) |
| void RenderLayer::didStartScroll() |
| { |
| page().chrome().client().didStartOverflowScroll(); |
| } |
| |
| void RenderLayer::didEndScroll() |
| { |
| page().chrome().client().didEndOverflowScroll(); |
| } |
| |
| void RenderLayer::didUpdateScroll() |
| { |
| // Send this notification when we scroll, since this is how we keep selection updated. |
| page().chrome().client().didLayout(ChromeClient::Scroll); |
| } |
| #endif |
| |
| IntPoint RenderLayer::lastKnownMousePosition() const |
| { |
| return renderer().frame().eventHandler().lastKnownMousePosition(); |
| } |
| |
| bool RenderLayer::isHandlingWheelEvent() const |
| { |
| return renderer().frame().eventHandler().isHandlingWheelEvent(); |
| } |
| |
| IntRect RenderLayer::rectForHorizontalScrollbar(const IntRect& borderBoxRect) const |
| { |
| if (!m_hBar) |
| return IntRect(); |
| |
| const RenderBox* box = renderBox(); |
| const IntRect& scrollCorner = scrollCornerRect(); |
| |
| return IntRect(horizontalScrollbarStart(borderBoxRect.x()), |
| borderBoxRect.maxY() - box->borderBottom() - m_hBar->height(), |
| borderBoxRect.width() - (box->borderLeft() + box->borderRight()) - scrollCorner.width(), |
| m_hBar->height()); |
| } |
| |
| IntRect RenderLayer::rectForVerticalScrollbar(const IntRect& borderBoxRect) const |
| { |
| if (!m_vBar) |
| return IntRect(); |
| |
| const RenderBox* box = renderBox(); |
| const IntRect& scrollCorner = scrollCornerRect(); |
| |
| return IntRect(verticalScrollbarStart(borderBoxRect.x(), borderBoxRect.maxX()), |
| borderBoxRect.y() + box->borderTop(), |
| m_vBar->width(), |
| borderBoxRect.height() - (box->borderTop() + box->borderBottom()) - scrollCorner.height()); |
| } |
| |
| LayoutUnit RenderLayer::verticalScrollbarStart(int minX, int maxX) const |
| { |
| const RenderBox* box = renderBox(); |
| if (shouldPlaceBlockDirectionScrollbarOnLeft()) |
| return minX + box->borderLeft(); |
| return maxX - box->borderRight() - m_vBar->width(); |
| } |
| |
| LayoutUnit RenderLayer::horizontalScrollbarStart(int minX) const |
| { |
| const RenderBox* box = renderBox(); |
| int x = minX + box->borderLeft(); |
| if (shouldPlaceBlockDirectionScrollbarOnLeft()) |
| x += m_vBar ? m_vBar->width() : roundToInt(resizerCornerRect(*this, box->borderBoxRect()).width()); |
| return x; |
| } |
| |
| IntSize RenderLayer::scrollbarOffset(const Scrollbar& scrollbar) const |
| { |
| RenderBox* box = renderBox(); |
| |
| if (&scrollbar == m_vBar.get()) |
| return IntSize(verticalScrollbarStart(0, box->width()), box->borderTop()); |
| |
| if (&scrollbar == m_hBar.get()) |
| return IntSize(horizontalScrollbarStart(0), box->height() - box->borderBottom() - scrollbar.height()); |
| |
| ASSERT_NOT_REACHED(); |
| return IntSize(); |
| } |
| |
| void RenderLayer::invalidateScrollbarRect(Scrollbar& scrollbar, const IntRect& rect) |
| { |
| if (!showsOverflowControls()) |
| return; |
| |
| if (&scrollbar == m_vBar.get()) { |
| if (GraphicsLayer* layer = layerForVerticalScrollbar()) { |
| layer->setNeedsDisplayInRect(rect); |
| return; |
| } |
| } else { |
| if (GraphicsLayer* layer = layerForHorizontalScrollbar()) { |
| layer->setNeedsDisplayInRect(rect); |
| return; |
| } |
| } |
| |
| IntRect scrollRect = rect; |
| RenderBox* box = renderBox(); |
| ASSERT(box); |
| // If we are not yet inserted into the tree, there is no need to repaint. |
| if (!box->parent()) |
| return; |
| |
| if (&scrollbar == m_vBar.get()) |
| scrollRect.move(verticalScrollbarStart(0, box->width()), box->borderTop()); |
| else |
| scrollRect.move(horizontalScrollbarStart(0), box->height() - box->borderBottom() - scrollbar.height()); |
| LayoutRect repaintRect = scrollRect; |
| renderBox()->flipForWritingMode(repaintRect); |
| renderer().repaintRectangle(repaintRect); |
| } |
| |
| void RenderLayer::invalidateScrollCornerRect(const IntRect& rect) |
| { |
| if (!showsOverflowControls()) |
| return; |
| |
| if (GraphicsLayer* layer = layerForScrollCorner()) { |
| layer->setNeedsDisplayInRect(rect); |
| return; |
| } |
| |
| if (m_scrollCorner) |
| m_scrollCorner->repaintRectangle(rect); |
| if (m_resizer) |
| m_resizer->repaintRectangle(rect); |
| } |
| |
| static bool scrollbarHiddenByStyle(Scrollbar* scrollbar) |
| { |
| if (!scrollbar || !scrollbar->isCustomScrollbar()) |
| return false; |
| |
| std::unique_ptr<RenderStyle> scrollbarStyle = static_cast<RenderScrollbar*>(scrollbar)->getScrollbarPseudoStyle(ScrollbarBGPart, PseudoId::Scrollbar); |
| |
| return scrollbarStyle && scrollbarStyle->display() == DisplayType::None; |
| } |
| |
| bool RenderLayer::horizontalScrollbarHiddenByStyle() const |
| { |
| return scrollbarHiddenByStyle(horizontalScrollbar()); |
| } |
| |
| bool RenderLayer::verticalScrollbarHiddenByStyle() const |
| { |
| return scrollbarHiddenByStyle(verticalScrollbar()); |
| } |
| |
| static inline RenderElement* rendererForScrollbar(RenderLayerModelObject& renderer) |
| { |
| if (Element* element = renderer.element()) { |
| if (ShadowRoot* shadowRoot = element->containingShadowRoot()) { |
| if (shadowRoot->mode() == ShadowRootMode::UserAgent) |
| return shadowRoot->host()->renderer(); |
| } |
| } |
| |
| return &renderer; |
| } |
| |
| Ref<Scrollbar> RenderLayer::createScrollbar(ScrollbarOrientation orientation) |
| { |
| RefPtr<Scrollbar> widget; |
| ASSERT(rendererForScrollbar(renderer())); |
| auto& actualRenderer = *rendererForScrollbar(renderer()); |
| bool hasCustomScrollbarStyle = is<RenderBox>(actualRenderer) && downcast<RenderBox>(actualRenderer).style().hasPseudoStyle(PseudoId::Scrollbar); |
| if (hasCustomScrollbarStyle) |
| widget = RenderScrollbar::createCustomScrollbar(*this, orientation, downcast<RenderBox>(actualRenderer).element()); |
| else { |
| widget = Scrollbar::createNativeScrollbar(*this, orientation, RegularScrollbar); |
| didAddScrollbar(widget.get(), orientation); |
| if (page().isMonitoringWheelEvents()) |
| scrollAnimator().setWheelEventTestMonitor(page().wheelEventTestMonitor()); |
| } |
| renderer().view().frameView().addChild(*widget); |
| return widget.releaseNonNull(); |
| } |
| |
| void RenderLayer::destroyScrollbar(ScrollbarOrientation orientation) |
| { |
| RefPtr<Scrollbar>& scrollbar = orientation == HorizontalScrollbar ? m_hBar : m_vBar; |
| if (!scrollbar) |
| return; |
| |
| if (!scrollbar->isCustomScrollbar()) |
| willRemoveScrollbar(scrollbar.get(), orientation); |
| |
| scrollbar->removeFromParent(); |
| scrollbar = nullptr; |
| } |
| |
| bool RenderLayer::scrollsOverflow() const |
| { |
| if (!is<RenderBox>(renderer())) |
| return false; |
| |
| return downcast<RenderBox>(renderer()).scrollsOverflow(); |
| } |
| |
| void RenderLayer::setHasHorizontalScrollbar(bool hasScrollbar) |
| { |
| if (hasScrollbar == hasHorizontalScrollbar()) |
| return; |
| |
| if (hasScrollbar) { |
| m_hBar = createScrollbar(HorizontalScrollbar); |
| #if ENABLE(RUBBER_BANDING) |
| ScrollElasticity elasticity = scrollsOverflow() && renderer().settings().rubberBandingForSubScrollableRegionsEnabled() ? ScrollElasticityAutomatic : ScrollElasticityNone; |
| ScrollableArea::setHorizontalScrollElasticity(elasticity); |
| #endif |
| } else { |
| destroyScrollbar(HorizontalScrollbar); |
| #if ENABLE(RUBBER_BANDING) |
| ScrollableArea::setHorizontalScrollElasticity(ScrollElasticityNone); |
| #endif |
| } |
| |
| // Destroying or creating one bar can cause our scrollbar corner to come and go. We need to update the opposite scrollbar's style. |
| if (m_hBar) |
| m_hBar->styleChanged(); |
| if (m_vBar) |
| m_vBar->styleChanged(); |
| } |
| |
| void RenderLayer::setHasVerticalScrollbar(bool hasScrollbar) |
| { |
| if (hasScrollbar == hasVerticalScrollbar()) |
| return; |
| |
| if (hasScrollbar) { |
| m_vBar = createScrollbar(VerticalScrollbar); |
| #if ENABLE(RUBBER_BANDING) |
| ScrollElasticity elasticity = scrollsOverflow() && renderer().settings().rubberBandingForSubScrollableRegionsEnabled() ? ScrollElasticityAutomatic : ScrollElasticityNone; |
| ScrollableArea::setVerticalScrollElasticity(elasticity); |
| #endif |
| } else { |
| destroyScrollbar(VerticalScrollbar); |
| #if ENABLE(RUBBER_BANDING) |
| ScrollableArea::setVerticalScrollElasticity(ScrollElasticityNone); |
| #endif |
| } |
| |
| // Destroying or creating one bar can cause our scrollbar corner to come and go. We need to update the opposite scrollbar's style. |
| if (m_hBar) |
| m_hBar->styleChanged(); |
| if (m_vBar) |
| m_vBar->styleChanged(); |
| } |
| |
| ScrollableArea* RenderLayer::enclosingScrollableArea() const |
| { |
| if (RenderLayer* scrollableLayer = enclosingScrollableLayer()) |
| return scrollableLayer; |
| |
| // FIXME: We should return the frame view here (or possibly an ancestor frame view, |
| // if the frame view isn't scrollable. |
| return nullptr; |
| } |
| |
| bool RenderLayer::isScrollableOrRubberbandable() |
| { |
| return renderer().isScrollableOrRubberbandableBox(); |
| } |
| |
| bool RenderLayer::hasScrollableOrRubberbandableAncestor() |
| { |
| for (RenderLayer* nextLayer = parentLayerCrossFrame(*this); nextLayer; nextLayer = parentLayerCrossFrame(*nextLayer)) { |
| if (nextLayer->isScrollableOrRubberbandable()) |
| return true; |
| } |
| |
| return false; |
| } |
| |
| bool RenderLayer::useDarkAppearance() const |
| { |
| return renderer().useDarkAppearance(); |
| } |
| |
| #if ENABLE(CSS_SCROLL_SNAP) |
| void RenderLayer::updateSnapOffsets() |
| { |
| // FIXME: Extend support beyond HTMLElements. |
| if (!is<HTMLElement>(enclosingElement()) || !enclosingElement()->renderBox()) |
| return; |
| |
| RenderBox* box = enclosingElement()->renderBox(); |
| updateSnapOffsetsForScrollableArea(*this, *downcast<HTMLElement>(enclosingElement()), *box, box->style()); |
| } |
| |
| bool RenderLayer::isScrollSnapInProgress() const |
| { |
| if (!scrollsOverflow()) |
| return false; |
| |
| if (ScrollAnimator* scrollAnimator = existingScrollAnimator()) |
| return scrollAnimator->isScrollSnapInProgress(); |
| |
| return false; |
| } |
| #endif |
| |
| bool RenderLayer::usesMockScrollAnimator() const |
| { |
| return DeprecatedGlobalSettings::usesMockScrollAnimator(); |
| } |
| |
| void RenderLayer::logMockScrollAnimatorMessage(const String& message) const |
| { |
| renderer().document().addConsoleMessage(MessageSource::Other, MessageLevel::Debug, "RenderLayer: " + message); |
| } |
| |
| int RenderLayer::verticalScrollbarWidth(OverlayScrollbarSizeRelevancy relevancy) const |
| { |
| if (!m_vBar |
| || !showsOverflowControls() |
| || (m_vBar->isOverlayScrollbar() && (relevancy == IgnoreOverlayScrollbarSize || !m_vBar->shouldParticipateInHitTesting()))) |
| return 0; |
| |
| return m_vBar->width(); |
| } |
| |
| int RenderLayer::horizontalScrollbarHeight(OverlayScrollbarSizeRelevancy relevancy) const |
| { |
| if (!m_hBar |
| || !showsOverflowControls() |
| || (m_hBar->isOverlayScrollbar() && (relevancy == IgnoreOverlayScrollbarSize || !m_hBar->shouldParticipateInHitTesting()))) |
| return 0; |
| |
| return m_hBar->height(); |
| } |
| |
| IntSize RenderLayer::offsetFromResizeCorner(const IntPoint& absolutePoint) const |
| { |
| // Currently the resize corner is either the bottom right corner or the bottom left corner. |
| // FIXME: This assumes the location is 0, 0. Is this guaranteed to always be the case? |
| IntSize elementSize = size(); |
| if (shouldPlaceBlockDirectionScrollbarOnLeft()) |
| elementSize.setWidth(0); |
| IntPoint resizerPoint = IntPoint(elementSize); |
| IntPoint localPoint = roundedIntPoint(absoluteToContents(absolutePoint)); |
| return localPoint - resizerPoint; |
| } |
| |
| bool RenderLayer::hasOverflowControls() const |
| { |
| return m_hBar || m_vBar || m_scrollCorner || renderer().style().resize() != Resize::None; |
| } |
| |
| void RenderLayer::positionOverflowControls(const IntSize& offsetFromRoot) |
| { |
| if (!m_hBar && !m_vBar && !canResize()) |
| return; |
| |
| RenderBox* box = renderBox(); |
| if (!box) |
| return; |
| |
| const IntRect borderBox = snappedIntRect(box->borderBoxRect()); |
| const IntRect& scrollCorner = scrollCornerRect(); |
| IntRect absBounds(borderBox.location() + offsetFromRoot, borderBox.size()); |
| if (m_vBar) { |
| IntRect vBarRect = rectForVerticalScrollbar(borderBox); |
| vBarRect.move(offsetFromRoot); |
| m_vBar->setFrameRect(vBarRect); |
| } |
| |
| if (m_hBar) { |
| IntRect hBarRect = rectForHorizontalScrollbar(borderBox); |
| hBarRect.move(offsetFromRoot); |
| m_hBar->setFrameRect(hBarRect); |
| } |
| |
| if (m_scrollCorner) |
| m_scrollCorner->setFrameRect(scrollCorner); |
| if (m_resizer) |
| m_resizer->setFrameRect(resizerCornerRect(*this, borderBox)); |
| |
| if (isComposited()) |
| backing()->positionOverflowControlsLayers(); |
| } |
| |
| int RenderLayer::scrollWidth() const |
| { |
| ASSERT(renderBox()); |
| if (m_scrollDimensionsDirty) |
| const_cast<RenderLayer*>(this)->computeScrollDimensions(); |
| // FIXME: This should use snappedIntSize() instead with absolute coordinates. |
| return m_scrollSize.width(); |
| } |
| |
| int RenderLayer::scrollHeight() const |
| { |
| ASSERT(renderBox()); |
| if (m_scrollDimensionsDirty) |
| const_cast<RenderLayer*>(this)->computeScrollDimensions(); |
| // FIXME: This should use snappedIntSize() instead with absolute coordinates. |
| return m_scrollSize.height(); |
| } |
| |
| LayoutUnit RenderLayer::overflowTop() const |
| { |
| RenderBox* box = renderBox(); |
| LayoutRect overflowRect(box->layoutOverflowRect()); |
| box->flipForWritingMode(overflowRect); |
| return overflowRect.y(); |
| } |
| |
| LayoutUnit RenderLayer::overflowBottom() const |
| { |
| RenderBox* box = renderBox(); |
| LayoutRect overflowRect(box->layoutOverflowRect()); |
| box->flipForWritingMode(overflowRect); |
| return overflowRect.maxY(); |
| } |
| |
| LayoutUnit RenderLayer::overflowLeft() const |
| { |
| RenderBox* box = renderBox(); |
| LayoutRect overflowRect(box->layoutOverflowRect()); |
| box->flipForWritingMode(overflowRect); |
| return overflowRect.x(); |
| } |
| |
| LayoutUnit RenderLayer::overflowRight() const |
| { |
| RenderBox* box = renderBox(); |
| LayoutRect overflowRect(box->layoutOverflowRect()); |
| box->flipForWritingMode(overflowRect); |
| return overflowRect.maxX(); |
| } |
| |
| void RenderLayer::computeScrollDimensions() |
| { |
| RenderBox* box = renderBox(); |
| ASSERT(box); |
| |
| m_scrollDimensionsDirty = false; |
| |
| m_scrollSize.setWidth(roundToInt(overflowRight() - overflowLeft())); |
| m_scrollSize.setHeight(roundToInt(overflowBottom() - overflowTop())); |
| |
| int scrollableLeftOverflow = roundToInt(overflowLeft() - box->borderLeft()); |
| if (shouldPlaceBlockDirectionScrollbarOnLeft()) |
| scrollableLeftOverflow -= verticalScrollbarWidth(); |
| int scrollableTopOverflow = roundToInt(overflowTop() - box->borderTop()); |
| setScrollOrigin(IntPoint(-scrollableLeftOverflow, -scrollableTopOverflow)); |
| |
| m_hasCompositedScrollableOverflow = canUseCompositedScrolling() && (hasScrollableHorizontalOverflow() || hasScrollableVerticalOverflow()); |
| } |
| |
| bool RenderLayer::hasScrollableHorizontalOverflow() const |
| { |
| return hasHorizontalOverflow() && renderBox()->scrollsOverflowX(); |
| } |
| |
| bool RenderLayer::hasScrollableVerticalOverflow() const |
| { |
| return hasVerticalOverflow() && renderBox()->scrollsOverflowY(); |
| } |
| |
| bool RenderLayer::hasHorizontalOverflow() const |
| { |
| ASSERT(!m_scrollDimensionsDirty); |
| |
| return scrollWidth() > roundToInt(renderBox()->clientWidth()); |
| } |
| |
| bool RenderLayer::hasVerticalOverflow() const |
| { |
| ASSERT(!m_scrollDimensionsDirty); |
| |
| return scrollHeight() > roundToInt(renderBox()->clientHeight()); |
| } |
| |
| static bool styleRequiresScrollbar(const RenderStyle& style, ScrollbarOrientation axis) |
| { |
| Overflow overflow = axis == ScrollbarOrientation::HorizontalScrollbar ? style.overflowX() : style.overflowY(); |
| bool overflowScrollActsLikeAuto = overflow == Overflow::Scroll && !style.hasPseudoStyle(PseudoId::Scrollbar) && ScrollbarTheme::theme().usesOverlayScrollbars(); |
| return overflow == Overflow::Scroll && !overflowScrollActsLikeAuto; |
| } |
| |
| static bool styleDefinesAutomaticScrollbar(const RenderStyle& style, ScrollbarOrientation axis) |
| { |
| Overflow overflow = axis == ScrollbarOrientation::HorizontalScrollbar ? style.overflowX() : style.overflowY(); |
| bool overflowScrollActsLikeAuto = overflow == Overflow::Scroll && !style.hasPseudoStyle(PseudoId::Scrollbar) && ScrollbarTheme::theme().usesOverlayScrollbars(); |
| return overflow == Overflow::Auto || overflowScrollActsLikeAuto; |
| } |
| |
| void RenderLayer::updateScrollbarsAfterLayout() |
| { |
| RenderBox* box = renderBox(); |
| ASSERT(box); |
| |
| // List box parts handle the scrollbars by themselves so we have nothing to do. |
| if (box->style().appearance() == ListboxPart) |
| return; |
| |
| bool hasHorizontalOverflow = this->hasHorizontalOverflow(); |
| bool hasVerticalOverflow = this->hasVerticalOverflow(); |
| |
| // If overflow requires a scrollbar, then we just need to enable or disable. |
| if (m_hBar && styleRequiresScrollbar(renderer().style(), HorizontalScrollbar)) |
| m_hBar->setEnabled(hasHorizontalOverflow); |
| if (m_vBar && styleRequiresScrollbar(renderer().style(), VerticalScrollbar)) |
| m_vBar->setEnabled(hasVerticalOverflow); |
| |
| // Scrollbars with auto behavior may need to lay out again if scrollbars got added or removed. |
| bool autoHorizontalScrollBarChanged = box->hasHorizontalScrollbarWithAutoBehavior() && (hasHorizontalScrollbar() != hasHorizontalOverflow); |
| bool autoVerticalScrollBarChanged = box->hasVerticalScrollbarWithAutoBehavior() && (hasVerticalScrollbar() != hasVerticalOverflow); |
| |
| if (autoHorizontalScrollBarChanged || autoVerticalScrollBarChanged) { |
| if (box->hasHorizontalScrollbarWithAutoBehavior()) |
| setHasHorizontalScrollbar(hasHorizontalOverflow); |
| if (box->hasVerticalScrollbarWithAutoBehavior()) |
| setHasVerticalScrollbar(hasVerticalOverflow); |
| |
| updateSelfPaintingLayer(); |
| |
| renderer().repaint(); |
| |
| if (renderer().style().overflowX() == Overflow::Auto || renderer().style().overflowY() == Overflow::Auto) { |
| if (!m_inOverflowRelayout) { |
| m_inOverflowRelayout = true; |
| renderer().setNeedsLayout(MarkOnlyThis); |
| if (is<RenderBlock>(renderer())) { |
| RenderBlock& block = downcast<RenderBlock>(renderer()); |
| block.scrollbarsChanged(autoHorizontalScrollBarChanged, autoVerticalScrollBarChanged); |
| block.layoutBlock(true); |
| } else |
| renderer().layout(); |
| m_inOverflowRelayout = false; |
| } |
| } |
| |
| RenderObject* parent = renderer().parent(); |
| if (parent && parent->isFlexibleBox() && renderer().isBox()) |
| downcast<RenderFlexibleBox>(parent)->clearCachedMainSizeForChild(*renderBox()); |
| } |
| |
| // Set up the range (and page step/line step). |
| if (m_hBar) { |
| int clientWidth = roundToInt(box->clientWidth()); |
| int pageStep = Scrollbar::pageStep(clientWidth); |
| m_hBar->setSteps(Scrollbar::pixelsPerLineStep(), pageStep); |
| m_hBar->setProportion(clientWidth, m_scrollSize.width()); |
| } |
| if (m_vBar) { |
| int clientHeight = roundToInt(box->clientHeight()); |
| int pageStep = Scrollbar::pageStep(clientHeight); |
| m_vBar->setSteps(Scrollbar::pixelsPerLineStep(), pageStep); |
| m_vBar->setProportion(clientHeight, m_scrollSize.height()); |
| } |
| |
| updateScrollableAreaSet(hasScrollableHorizontalOverflow() || hasScrollableVerticalOverflow()); |
| } |
| |
| // This is called from layout code (before updateLayerPositions). |
| void RenderLayer::updateScrollInfoAfterLayout() |
| { |
| RenderBox* box = renderBox(); |
| if (!box) |
| return; |
| |
| m_scrollDimensionsDirty = true; |
| ScrollOffset originalScrollOffset = scrollOffset(); |
| |
| computeScrollDimensions(); |
| |
| #if ENABLE(CSS_SCROLL_SNAP) |
| // FIXME: Ensure that offsets are also updated in case of programmatic style changes. |
| // https://bugs.webkit.org/show_bug.cgi?id=135964 |
| updateSnapOffsets(); |
| #endif |
| |
| if (!box->isHTMLMarquee() && !isRubberBandInProgress()) { |
| // Layout may cause us to be at an invalid scroll position. In this case we need |
| // to pull our scroll offsets back to the max (or push them up to the min). |
| ScrollOffset clampedScrollOffset = clampScrollOffset(scrollOffset()); |
| #if PLATFORM(IOS_FAMILY) |
| // FIXME: This looks wrong. The caret adjust mode should only be enabled on editing related entry points. |
| // This code was added to fix an issue where the text insertion point would always be drawn on the right edge |
| // of a text field whose content overflowed its bounds. See <rdar://problem/15579797> for more details. |
| setAdjustForIOSCaretWhenScrolling(true); |
| #endif |
| if (clampedScrollOffset != scrollOffset()) |
| scrollToOffset(clampedScrollOffset); |
| |
| #if PLATFORM(IOS_FAMILY) |
| setAdjustForIOSCaretWhenScrolling(false); |
| #endif |
| } |
| |
| updateScrollbarsAfterLayout(); |
| |
| if (originalScrollOffset != scrollOffset()) |
| scrollToOffsetWithoutAnimation(IntPoint(scrollOffset())); |
| |
| if (isComposited()) { |
| setNeedsCompositingGeometryUpdate(); |
| setNeedsCompositingConfigurationUpdate(); |
| } |
| |
| if (canUseCompositedScrolling()) |
| setNeedsPostLayoutCompositingUpdate(); |
| |
| updateScrollSnapState(); |
| } |
| |
| bool RenderLayer::overflowControlsIntersectRect(const IntRect& localRect) const |
| { |
| const IntRect borderBox = snappedIntRect(renderBox()->borderBoxRect()); |
| |
| if (rectForHorizontalScrollbar(borderBox).intersects(localRect)) |
| return true; |
| |
| if (rectForVerticalScrollbar(borderBox).intersects(localRect)) |
| return true; |
| |
| if (scrollCornerRect().intersects(localRect)) |
| return true; |
| |
| if (resizerCornerRect(*this, borderBox).intersects(localRect)) |
| return true; |
| |
| return false; |
| } |
| |
| bool RenderLayer::showsOverflowControls() const |
| { |
| #if PLATFORM(IOS_FAMILY) |
| // On iOS, the scrollbars are made in the UI process. |
| return !canUseCompositedScrolling(); |
| #endif |
| |
| return true; |
| } |
| |
| void RenderLayer::paintOverflowControls(GraphicsContext& context, const IntPoint& paintOffset, const IntRect& damageRect, bool paintingOverlayControls) |
| { |
| // Don't do anything if we have no overflow. |
| if (!renderer().hasOverflowClip()) |
| return; |
| |
| if (!showsOverflowControls()) |
| return; |
| |
| // Overlay scrollbars paint in a second pass through the layer tree so that they will paint |
| // on top of everything else. If this is the normal painting pass, paintingOverlayControls |
| // will be false, and we should just tell the root layer that there are overlay scrollbars |
| // that need to be painted. That will cause the second pass through the layer tree to run, |
| // and we'll paint the scrollbars then. In the meantime, cache tx and ty so that the |
| // second pass doesn't need to re-enter the RenderTree to get it right. |
| if (hasOverlayScrollbars() && !paintingOverlayControls) { |
| m_cachedOverlayScrollbarOffset = paintOffset; |
| |
| // It's not necessary to do the second pass if the scrollbars paint into layers. |
| if ((m_hBar && layerForHorizontalScrollbar()) || (m_vBar && layerForVerticalScrollbar())) |
| return; |
| IntRect localDamgeRect = damageRect; |
| localDamgeRect.moveBy(-paintOffset); |
| if (!overflowControlsIntersectRect(localDamgeRect)) |
| return; |
| |
| RenderLayer* paintingRoot = enclosingCompositingLayer(); |
| if (!paintingRoot) |
| paintingRoot = renderer().view().layer(); |
| |
| paintingRoot->setContainsDirtyOverlayScrollbars(true); |
| return; |
| } |
| |
| // This check is required to avoid painting custom CSS scrollbars twice. |
| if (paintingOverlayControls && !hasOverlayScrollbars()) |
| return; |
| |
| IntPoint adjustedPaintOffset = paintOffset; |
| if (paintingOverlayControls) |
| adjustedPaintOffset = m_cachedOverlayScrollbarOffset; |
| |
| // Move the scrollbar widgets if necessary. We normally move and resize widgets during layout, but sometimes |
| // widgets can move without layout occurring (most notably when you scroll a document that |
| // contains fixed positioned elements). |
| positionOverflowControls(toIntSize(adjustedPaintOffset)); |
| |
| // Now that we're sure the scrollbars are in the right place, paint them. |
| if (m_hBar && !layerForHorizontalScrollbar()) |
| m_hBar->paint(context, damageRect); |
| if (m_vBar && !layerForVerticalScrollbar()) |
| m_vBar->paint(context, damageRect); |
| |
| if (layerForScrollCorner()) |
| return; |
| |
| // We fill our scroll corner with white if we have a scrollbar that doesn't run all the way up to the |
| // edge of the box. |
| paintScrollCorner(context, adjustedPaintOffset, damageRect); |
| |
| // Paint our resizer last, since it sits on top of the scroll corner. |
| paintResizer(context, adjustedPaintOffset, damageRect); |
| } |
| |
| void RenderLayer::paintScrollCorner(GraphicsContext& context, const IntPoint& paintOffset, const IntRect& damageRect) |
| { |
| IntRect absRect = scrollCornerRect(); |
| absRect.moveBy(paintOffset); |
| if (!absRect.intersects(damageRect)) |
| return; |
| |
| if (context.invalidatingControlTints()) { |
| updateScrollCornerStyle(); |
| return; |
| } |
| |
| if (m_scrollCorner) { |
| m_scrollCorner->paintIntoRect(context, paintOffset, absRect); |
| return; |
| } |
| |
| // We don't want to paint a corner if we have overlay scrollbars, since we need |
| // to see what is behind it. |
| if (!hasOverlayScrollbars()) |
| ScrollbarTheme::theme().paintScrollCorner(context, absRect); |
| } |
| |
| void RenderLayer::drawPlatformResizerImage(GraphicsContext& context, const LayoutRect& resizerCornerRect) |
| { |
| RefPtr<Image> resizeCornerImage; |
| FloatSize cornerResizerSize; |
| if (renderer().document().deviceScaleFactor() >= 2) { |
| static NeverDestroyed<Image*> resizeCornerImageHiRes(&Image::loadPlatformResource("textAreaResizeCorner@2x").leakRef()); |
| resizeCornerImage = resizeCornerImageHiRes; |
| cornerResizerSize = resizeCornerImage->size(); |
| cornerResizerSize.scale(0.5f); |
| } else { |
| static NeverDestroyed<Image*> resizeCornerImageLoRes(&Image::loadPlatformResource("textAreaResizeCorner").leakRef()); |
| resizeCornerImage = resizeCornerImageLoRes; |
| cornerResizerSize = resizeCornerImage->size(); |
| } |
| |
| if (shouldPlaceBlockDirectionScrollbarOnLeft()) { |
| context.save(); |
| context.translate(resizerCornerRect.x() + cornerResizerSize.width(), resizerCornerRect.y() + resizerCornerRect.height() - cornerResizerSize.height()); |
| context.scale(FloatSize(-1.0, 1.0)); |
| if (resizeCornerImage) |
| context.drawImage(*resizeCornerImage, FloatRect(FloatPoint(), cornerResizerSize)); |
| context.restore(); |
| return; |
| } |
| |
| if (!resizeCornerImage) |
| return; |
| FloatRect imageRect = snapRectToDevicePixels(LayoutRect(resizerCornerRect.maxXMaxYCorner() - cornerResizerSize, cornerResizerSize), renderer().document().deviceScaleFactor()); |
| context.drawImage(*resizeCornerImage, imageRect); |
| } |
| |
| void RenderLayer::paintResizer(GraphicsContext& context, const LayoutPoint& paintOffset, const LayoutRect& damageRect) |
| { |
| if (renderer().style().resize() == Resize::None) |
| return; |
| |
| RenderBox* box = renderBox(); |
| ASSERT(box); |
| |
| LayoutRect absRect = resizerCornerRect(*this, box->borderBoxRect()); |
| absRect.moveBy(paintOffset); |
| if (!absRect.intersects(damageRect)) |
| return; |
| |
| if (context.invalidatingControlTints()) { |
| updateResizerStyle(); |
| return; |
| } |
| |
| if (m_resizer) { |
| m_resizer->paintIntoRect(context, paintOffset, absRect); |
| return; |
| } |
| |
| drawPlatformResizerImage(context, absRect); |
| |
| // Draw a frame around the resizer (1px grey line) if there are any scrollbars present. |
| // Clipping will exclude the right and bottom edges of this frame. |
| if (!hasOverlayScrollbars() && (m_vBar || m_hBar)) { |
| GraphicsContextStateSaver stateSaver(context); |
| context.clip(absRect); |
| LayoutRect largerCorner = absRect; |
| largerCorner.setSize(LayoutSize(largerCorner.width() + 1_lu, largerCorner.height() + 1_lu)); |
| context.setStrokeColor(Color(makeRGB(217, 217, 217))); |
| context.setStrokeThickness(1.0f); |
| context.setFillColor(Color::transparent); |
| context.drawRect(snappedIntRect(largerCorner)); |
| } |
| } |
| |
| bool RenderLayer::isPointInResizeControl(const IntPoint& absolutePoint) const |
| { |
| if (!canResize()) |
| return false; |
| |
| RenderBox* box = renderBox(); |
| ASSERT(box); |
| |
| IntPoint localPoint = roundedIntPoint(absoluteToContents(absolutePoint)); |
| |
| IntRect localBounds(IntPoint(), snappedIntRect(box->frameRect()).size()); |
| return resizerCornerRect(*this, localBounds).contains(localPoint); |
| } |
| |
| bool RenderLayer::hitTestOverflowControls(HitTestResult& result, const IntPoint& localPoint) |
| { |
| if (!m_hBar && !m_vBar && !canResize()) |
| return false; |
| |
| RenderBox* box = renderBox(); |
| ASSERT(box); |
| |
| IntRect resizeControlRect; |
| if (renderer().style().resize() != Resize::None) { |
| resizeControlRect = snappedIntRect(resizerCornerRect(*this, box->borderBoxRect())); |
| if (resizeControlRect.contains(localPoint)) |
| return true; |
| } |
| |
| int resizeControlSize = std::max(resizeControlRect.height(), 0); |
| |
| // FIXME: We should hit test the m_scrollCorner and pass it back through the result. |
| |
| if (m_vBar && m_vBar->shouldParticipateInHitTesting()) { |
| LayoutRect vBarRect(verticalScrollbarStart(0, box->width()), |
| box->borderTop(), |
| m_vBar->width(), |
| box->height() - (box->borderTop() + box->borderBottom()) - (m_hBar ? m_hBar->height() : resizeControlSize)); |
| if (vBarRect.contains(localPoint)) { |
| result.setScrollbar(m_vBar.get()); |
| return true; |
| } |
| } |
| |
| resizeControlSize = std::max(resizeControlRect.width(), 0); |
| if (m_hBar && m_hBar->shouldParticipateInHitTesting()) { |
| LayoutRect hBarRect(horizontalScrollbarStart(0), |
| box->height() - box->borderBottom() - m_hBar->height(), |
| box->width() - (box->borderLeft() + box->borderRight()) - (m_vBar ? m_vBar->width() : resizeControlSize), |
| m_hBar->height()); |
| if (hBarRect.contains(localPoint)) { |
| result.setScrollbar(m_hBar.get()); |
| return true; |
| } |
| } |
| |
| return false; |
| } |
| |
| bool RenderLayer::scroll(ScrollDirection direction, ScrollGranularity granularity, float multiplier) |
| { |
| return ScrollableArea::scroll(direction, granularity, multiplier); |
| } |
| |
| void RenderLayer::paint(GraphicsContext& context, const LayoutRect& damageRect, const LayoutSize& subpixelOffset, OptionSet<PaintBehavior> paintBehavior, RenderObject* subtreePaintRoot, OptionSet<PaintLayerFlag> paintFlags, SecurityOriginPaintPolicy paintPolicy) |
| { |
| OverlapTestRequestMap overlapTestRequests; |
| |
| LayerPaintingInfo paintingInfo(this, enclosingIntRect(damageRect), paintBehavior, subpixelOffset, subtreePaintRoot, &overlapTestRequests, paintPolicy == SecurityOriginPaintPolicy::AccessibleOriginOnly); |
| paintLayer(context, paintingInfo, paintFlags); |
| |
| for (auto& widget : overlapTestRequests.keys()) |
| widget->setOverlapTestResult(false); |
| } |
| |
| void RenderLayer::paintOverlayScrollbars(GraphicsContext& context, const LayoutRect& damageRect, OptionSet<PaintBehavior> paintBehavior, RenderObject* subtreePaintRoot) |
| { |
| if (!m_containsDirtyOverlayScrollbars) |
| return; |
| |
| LayerPaintingInfo paintingInfo(this, enclosingIntRect(damageRect), paintBehavior, LayoutSize(), subtreePaintRoot); |
| paintLayer(context, paintingInfo, PaintLayerPaintingOverlayScrollbars); |
| |
| m_containsDirtyOverlayScrollbars = false; |
| } |
| |
| void RenderLayer::clipToRect(GraphicsContext& context, const LayerPaintingInfo& paintingInfo, const ClipRect& clipRect, BorderRadiusClippingRule rule) |
| { |
| float deviceScaleFactor = renderer().document().deviceScaleFactor(); |
| bool needsClipping = !clipRect.isInfinite() && clipRect.rect() != paintingInfo.paintDirtyRect; |
| if (needsClipping || clipRect.affectedByRadius()) |
| context.save(); |
| |
| if (needsClipping) { |
| LayoutRect adjustedClipRect = clipRect.rect(); |
| adjustedClipRect.move(paintingInfo.subpixelOffset); |
| auto snappedClipRect = snapRectToDevicePixels(adjustedClipRect, deviceScaleFactor); |
| context.clip(snappedClipRect); |
| |
| if (paintingInfo.eventRegionContext) |
| paintingInfo.eventRegionContext->pushClip(enclosingIntRect(snappedClipRect)); |
| } |
| |
| if (clipRect.affectedByRadius()) { |
| // If the clip rect has been tainted by a border radius, then we have to walk up our layer chain applying the clips from |
| // any layers with overflow. The condition for being able to apply these clips is that the overflow object be in our |
| // containing block chain so we check that also. |
| for (RenderLayer* layer = rule == IncludeSelfForBorderRadius ? this : parent(); layer; layer = layer->parent()) { |
| if (layer->renderer().hasOverflowClip() && layer->renderer().style().hasBorderRadius() && ancestorLayerIsInContainingBlockChain(*layer)) { |
| LayoutRect adjustedClipRect = LayoutRect(toLayoutPoint(layer->offsetFromAncestor(paintingInfo.rootLayer, AdjustForColumns)), layer->size()); |
| adjustedClipRect.move(paintingInfo.subpixelOffset); |
| FloatRoundedRect roundedRect = layer->renderer().style().getRoundedInnerBorderFor(adjustedClipRect).pixelSnappedRoundedRectForPainting(deviceScaleFactor); |
| if (roundedRect.intersectionIsRectangular(paintingInfo.paintDirtyRect)) |
| context.clip(snapRectToDevicePixels(intersection(paintingInfo.paintDirtyRect, adjustedClipRect), deviceScaleFactor)); |
| else |
| context.clipRoundedRect(roundedRect); |
| } |
| |
| if (layer == paintingInfo.rootLayer) |
| break; |
| } |
| } |
| } |
| |
| void RenderLayer::restoreClip(GraphicsContext& context, const LayerPaintingInfo& paintingInfo, const ClipRect& clipRect) |
| { |
| if ((!clipRect.isInfinite() && clipRect.rect() != paintingInfo.paintDirtyRect) || clipRect.affectedByRadius()) { |
| context.restore(); |
| |
| if (paintingInfo.eventRegionContext) |
| paintingInfo.eventRegionContext->popClip(); |
| } |
| } |
| |
| static void performOverlapTests(OverlapTestRequestMap& overlapTestRequests, const RenderLayer* rootLayer, const RenderLayer* layer) |
| { |
| if (overlapTestRequests.isEmpty()) |
| return; |
| |
| Vector<OverlapTestRequestClient*> overlappedRequestClients; |
| LayoutRect boundingBox = layer->boundingBox(rootLayer, layer->offsetFromAncestor(rootLayer)); |
| for (auto& request : overlapTestRequests) { |
| if (!boundingBox.intersects(request.value)) |
| continue; |
| |
| request.key->setOverlapTestResult(true); |
| overlappedRequestClients.append(request.key); |
| } |
| for (auto* client : overlappedRequestClients) |
| overlapTestRequests.remove(client); |
| } |
| |
| static inline bool shouldDoSoftwarePaint(const RenderLayer* layer, bool paintingReflection) |
| { |
| return paintingReflection && !layer->has3DTransform(); |
| } |
| |
| static inline bool shouldSuppressPaintingLayer(RenderLayer* layer) |
| { |
| if (layer->renderer().style().isNotFinal() && !layer->isRenderViewLayer() && !layer->renderer().isDocumentElementRenderer()) |
| return true; |
| |
| // Avoid painting all layers if the document is in a state where visual updates aren't allowed. |
| // A full repaint will occur in Document::setVisualUpdatesAllowed(bool) if painting is suppressed here. |
| if (!layer->renderer().document().visualUpdatesAllowed()) |
| return true; |
| |
| return false; |
| } |
| |
| static inline bool paintForFixedRootBackground(const RenderLayer* layer, OptionSet<RenderLayer::PaintLayerFlag> paintFlags) |
| { |
| return layer->renderer().isDocumentElementRenderer() && (paintFlags & RenderLayer::PaintLayerPaintingRootBackgroundOnly); |
| } |
| |
| void RenderLayer::paintLayer(GraphicsContext& context, const LayerPaintingInfo& paintingInfo, OptionSet<PaintLayerFlag> paintFlags) |
| { |
| auto shouldContinuePaint = [&] () { |
| return backing()->paintsIntoWindow() |
| || backing()->paintsIntoCompositedAncestor() |
| || shouldDoSoftwarePaint(this, paintFlags.contains(PaintLayerPaintingReflection)) |
| || paintForFixedRootBackground(this, paintFlags); |
| }; |
| |
| auto paintsIntoDifferentCompositedDestination = [&]() { |
| if (paintsIntoProvidedBacking()) |
| return true; |
| |
| if (isComposited() && !shouldContinuePaint()) |
| return true; |
| |
| return false; |
| }; |
| |
| if (paintsIntoDifferentCompositedDestination()) { |
| if (!context.performingPaintInvalidation() && !(paintingInfo.paintBehavior & PaintBehavior::FlattenCompositingLayers)) |
| return; |
| |
| paintFlags.add(PaintLayerTemporaryClipRects); |
| } |
| |
| if (viewportConstrainedNotCompositedReason() == NotCompositedForBoundsOutOfView) { |
| // Don't paint out-of-view viewport constrained layers (when doing prepainting) because they will never be visible |
| // unless their position or viewport size is changed. |
| ASSERT(renderer().isFixedPositioned()); |
| return; |
| } |
| |
| paintLayerWithEffects(context, paintingInfo, paintFlags); |
| } |
| |
| void RenderLayer::paintLayerWithEffects(GraphicsContext& context, const LayerPaintingInfo& paintingInfo, OptionSet<PaintLayerFlag> paintFlags) |
| { |
| // Non self-painting leaf layers don't need to be painted as their renderer() should properly paint itself. |
| if (!isSelfPaintingLayer() && !hasSelfPaintingLayerDescendant()) |
| return; |
| |
| if (shouldSuppressPaintingLayer(this)) |
| return; |
| |
| // If this layer is totally invisible then there is nothing to paint. |
| if (!renderer().opacity()) |
| return; |
| |
| if (paintsWithTransparency(paintingInfo.paintBehavior)) |
| paintFlags.add(PaintLayerHaveTransparency); |
| |
| // PaintLayerAppliedTransform is used in RenderReplica, to avoid applying the transform twice. |
| if (paintsWithTransform(paintingInfo.paintBehavior) && !(paintFlags & PaintLayerAppliedTransform)) { |
| TransformationMatrix layerTransform = renderableTransform(paintingInfo.paintBehavior); |
| // If the transform can't be inverted, then don't paint anything. |
| if (!layerTransform.isInvertible()) |
| return; |
| |
| // If we have a transparency layer enclosing us and we are the root of a transform, then we need to establish the transparency |
| // layer from the parent now, assuming there is a parent |
| if (paintFlags & PaintLayerHaveTransparency) { |
| if (parent()) |
| parent()->beginTransparencyLayers(context, paintingInfo, paintingInfo.paintDirtyRect); |
| else |
| beginTransparencyLayers(context, paintingInfo, paintingInfo.paintDirtyRect); |
| } |
| |
| if (enclosingPaginationLayer(ExcludeCompositedPaginatedLayers)) { |
| paintTransformedLayerIntoFragments(context, paintingInfo, paintFlags); |
| return; |
| } |
| |
| // Make sure the parent's clip rects have been calculated. |
| ClipRect clipRect = paintingInfo.paintDirtyRect; |
| if (parent()) { |
| ClipRectsContext clipRectsContext(paintingInfo.rootLayer, (paintFlags & PaintLayerTemporaryClipRects) ? TemporaryClipRects : PaintingClipRects, |
| IgnoreOverlayScrollbarSize, (paintFlags & PaintLayerPaintingOverflowContents) ? IgnoreOverflowClip : RespectOverflowClip); |
| clipRect = backgroundClipRect(clipRectsContext); |
| clipRect.intersect(paintingInfo.paintDirtyRect); |
| |
| // Push the parent coordinate space's clip. |
| parent()->clipToRect(context, paintingInfo, clipRect); |
| } |
| |
| paintLayerByApplyingTransform(context, paintingInfo, paintFlags); |
| |
| // Restore the clip. |
| if (parent()) |
| parent()->restoreClip(context, paintingInfo, clipRect); |
| |
| return; |
| } |
| |
| paintLayerContentsAndReflection(context, paintingInfo, paintFlags); |
| } |
| |
| void RenderLayer::paintLayerContentsAndReflection(GraphicsContext& context, const LayerPaintingInfo& paintingInfo, OptionSet<PaintLayerFlag> paintFlags) |
| { |
| ASSERT(isSelfPaintingLayer() || hasSelfPaintingLayerDescendant()); |
| |
| auto localPaintFlags = paintFlags - PaintLayerAppliedTransform; |
| |
| // Paint the reflection first if we have one. |
| if (m_reflection && !m_paintingInsideReflection) { |
| // Mark that we are now inside replica painting. |
| m_paintingInsideReflection = true; |
| reflectionLayer()->paintLayer(context, paintingInfo, localPaintFlags | PaintLayerPaintingReflection); |
| m_paintingInsideReflection = false; |
| } |
| |
| localPaintFlags.add(paintLayerPaintingCompositingAllPhasesFlags()); |
| paintLayerContents(context, paintingInfo, localPaintFlags); |
| } |
| |
| bool RenderLayer::setupFontSubpixelQuantization(GraphicsContext& context, bool& didQuantizeFonts) |
| { |
| if (context.paintingDisabled()) |
| return false; |
| |
| bool scrollingOnMainThread = true; |
| #if ENABLE(ASYNC_SCROLLING) |
| if (ScrollingCoordinator* scrollingCoordinator = page().scrollingCoordinator()) |
| scrollingOnMainThread = scrollingCoordinator->shouldUpdateScrollLayerPositionSynchronously(renderer().view().frameView()); |
| #endif |
| |
| // FIXME: We shouldn't have to disable subpixel quantization for overflow clips or subframes once we scroll those |
| // things on the scrolling thread. |
| bool contentsScrollByPainting = (renderer().hasOverflowClip() && !usesCompositedScrolling()) || (renderer().frame().ownerElement()); |
| bool isZooming = !page().chrome().client().hasStablePageScaleFactor(); |
| if (scrollingOnMainThread || contentsScrollByPainting || isZooming) { |
| didQuantizeFonts = context.shouldSubpixelQuantizeFonts(); |
| context.setShouldSubpixelQuantizeFonts(false); |
| return true; |
| } |
| return false; |
| } |
| |
| static inline LayoutRect computeReferenceBox(const RenderObject& renderer, const CSSBoxType& boxType, const LayoutSize& offsetFromRoot, const LayoutRect& rootRelativeBounds) |
| { |
| // FIXME: Support different reference boxes for inline content. |
| // https://bugs.webkit.org/show_bug.cgi?id=129047 |
| if (!renderer.isBox()) |
| return rootRelativeBounds; |
| |
| LayoutRect referenceBox; |
| const auto& box = downcast<RenderBox>(renderer); |
| switch (boxType) { |
| case CSSBoxType::ContentBox: |
| case CSSBoxType::FillBox: |
| referenceBox = box.contentBoxRect(); |
| referenceBox.move(offsetFromRoot); |
| break; |
| case CSSBoxType::PaddingBox: |
| referenceBox = box.paddingBoxRect(); |
| referenceBox.move(offsetFromRoot); |
| break; |
| case CSSBoxType::MarginBox: |
| referenceBox = box.marginBoxRect(); |
| referenceBox.move(offsetFromRoot); |
| break; |
| // stroke-box, view-box compute to border-box for HTML elements. |
| case CSSBoxType::StrokeBox: |
| case CSSBoxType::ViewBox: |
| case CSSBoxType::BorderBox: |
| case CSSBoxType::BoxMissing: |
| referenceBox = box.borderBoxRect(); |
| referenceBox.move(offsetFromRoot); |
| break; |
| } |
| |
| return referenceBox; |
| } |
| |
| Path RenderLayer::computeClipPath(const LayoutSize& offsetFromRoot, LayoutRect& rootRelativeBounds, WindRule& windRule) const |
| { |
| const RenderStyle& style = renderer().style(); |
| float deviceSaleFactor = renderer().document().deviceScaleFactor(); |
| |
| if (is<ShapeClipPathOperation>(*style.clipPath())) { |
| auto& clipPath = downcast<ShapeClipPathOperation>(*style.clipPath()); |
| FloatRect referenceBox = snapRectToDevicePixels(computeReferenceBox(renderer(), clipPath.referenceBox(), offsetFromRoot, rootRelativeBounds), deviceSaleFactor); |
| |
| windRule = clipPath.windRule(); |
| return clipPath.pathForReferenceRect(referenceBox); |
| } |
| |
| if (is<BoxClipPathOperation>(*style.clipPath()) && is<RenderBox>(renderer())) { |
| |
| auto& clipPath = downcast<BoxClipPathOperation>(*style.clipPath()); |
| |
| FloatRoundedRect shapeRect = computeRoundedRectForBoxShape(clipPath.referenceBox(), downcast<RenderBox>(renderer())).pixelSnappedRoundedRectForPainting(deviceSaleFactor); |
| shapeRect.move(offsetFromRoot); |
| |
| windRule = WindRule::NonZero; |
| return clipPath.pathForReferenceRect(shapeRect); |
| } |
| |
| return Path(); |
| } |
| |
| bool RenderLayer::setupClipPath(GraphicsContext& context, const LayerPaintingInfo& paintingInfo, const LayoutSize& offsetFromRoot, LayoutRect& rootRelativeBounds, bool& rootRelativeBoundsComputed) |
| { |
| if (!renderer().hasClipPath() || context.paintingDisabled()) |
| return false; |
| |
| if (!rootRelativeBoundsComputed) { |
| rootRelativeBounds = calculateLayerBounds(paintingInfo.rootLayer, offsetFromRoot, { }); |
| rootRelativeBoundsComputed = true; |
| } |
| |
| // SVG elements get clipped in SVG code. |
| if (is<RenderSVGRoot>(renderer())) |
| return false; |
| |
| auto& style = renderer().style(); |
| LayoutSize paintingOffsetFromRoot = LayoutSize(snapSizeToDevicePixel(offsetFromRoot + paintingInfo.subpixelOffset, LayoutPoint(), renderer().document().deviceScaleFactor())); |
| ASSERT(style.clipPath()); |
| if (is<ShapeClipPathOperation>(*style.clipPath()) || (is<BoxClipPathOperation>(*style.clipPath()) && is<RenderBox>(renderer()))) { |
| WindRule windRule; |
| Path path = computeClipPath(paintingOffsetFromRoot, rootRelativeBounds, windRule); |
| context.save(); |
| context.clipPath(path, windRule); |
| return true; |
| } |
| |
| if (style.clipPath()->type() == ClipPathOperation::Reference) { |
| ReferenceClipPathOperation* referenceClipPathOperation = static_cast<ReferenceClipPathOperation*>(style.clipPath()); |
| Element* element = renderer().document().getElementById(referenceClipPathOperation->fragment()); |
| if (element && element->renderer() && is<RenderSVGResourceClipper>(element->renderer())) { |
| context.save(); |
| float deviceSaleFactor = renderer().document().deviceScaleFactor(); |
| FloatRect referenceBox = snapRectToDevicePixels(computeReferenceBox(renderer(), CSSBoxType::ContentBox, paintingOffsetFromRoot, rootRelativeBounds), deviceSaleFactor); |
| FloatPoint offset {referenceBox.location()}; |
| context.translate(offset); |
| FloatRect svgReferenceBox {FloatPoint(), referenceBox.size()}; |
| downcast<RenderSVGResourceClipper>(*element->renderer()).applyClippingToContext(renderer(), svgReferenceBox, paintingInfo.paintDirtyRect, context); |
| context.translate(FloatPoint(-offset.x(), -offset.y())); |
| return true; |
| } |
| } |
| |
| return false; |
| } |
| |
| RenderLayerFilters* RenderLayer::filtersForPainting(GraphicsContext& context, OptionSet<PaintLayerFlag> paintFlags) const |
| { |
| if (context.paintingDisabled()) |
| return nullptr; |
| |
| if (paintFlags & PaintLayerPaintingOverlayScrollbars) |
| return nullptr; |
| |
| if (!paintsWithFilters()) |
| return nullptr; |
| |
| if (m_filters && m_filters->filter()) |
| return m_filters.get(); |
| |
| return nullptr; |
| } |
| |
| GraphicsContext* RenderLayer::setupFilters(GraphicsContext& destinationContext, LayerPaintingInfo& paintingInfo, OptionSet<PaintLayerFlag> paintFlags, const LayoutSize& offsetFromRoot, LayoutRect& rootRelativeBounds, bool& rootRelativeBoundsComputed) |
| { |
| auto* paintingFilters = filtersForPainting(destinationContext, paintFlags); |
| if (!paintingFilters) |
| return nullptr; |
| |
| LayoutRect filterRepaintRect = paintingFilters->dirtySourceRect(); |
| filterRepaintRect.move(offsetFromRoot); |
| |
| if (!rootRelativeBoundsComputed) { |
| rootRelativeBounds = calculateLayerBounds(paintingInfo.rootLayer, offsetFromRoot, { }); |
| rootRelativeBoundsComputed = true; |
| } |
| |
| GraphicsContext* filterContext = paintingFilters->beginFilterEffect(destinationContext, enclosingIntRect(rootRelativeBounds), enclosingIntRect(paintingInfo.paintDirtyRect), enclosingIntRect(filterRepaintRect)); |
| if (!filterContext) |
| return nullptr; |
| |
| paintingInfo.paintDirtyRect = paintingFilters->repaintRect(); |
| |
| // If the filter needs the full source image, we need to avoid using the clip rectangles. |
| // Otherwise, if for example this layer has overflow:hidden, a drop shadow will not compute correctly. |
| // Note that we will still apply the clipping on the final rendering of the filter. |
| paintingInfo.clipToDirtyRect = !paintingFilters->hasFilterThatMovesPixels(); |
| |
| paintingInfo.requireSecurityOriginAccessForWidgets = paintingFilters->hasFilterThatShouldBeRestrictedBySecurityOrigin(); |
| |
| return filterContext; |
| } |
| |
| void RenderLayer::applyFilters(GraphicsContext& originalContext, const LayerPaintingInfo& paintingInfo, const LayerFragments& layerFragments) |
| { |
| // FIXME: Handle more than one fragment. |
| ClipRect backgroundRect = layerFragments.isEmpty() ? ClipRect() : layerFragments[0].backgroundRect; |
| clipToRect(originalContext, paintingInfo, backgroundRect); |
| m_filters->applyFilterEffect(originalContext); |
| restoreClip(originalContext, paintingInfo, backgroundRect); |
| } |
| |
| void RenderLayer::paintLayerContents(GraphicsContext& context, const LayerPaintingInfo& paintingInfo, OptionSet<PaintLayerFlag> paintFlags) |
| { |
| ASSERT(isSelfPaintingLayer() || hasSelfPaintingLayerDescendant()); |
| |
| auto localPaintFlags = paintFlags - PaintLayerAppliedTransform; |
| bool haveTransparency = localPaintFlags.contains(PaintLayerHaveTransparency); |
| bool isSelfPaintingLayer = this->isSelfPaintingLayer(); |
| bool isPaintingOverlayScrollbars = paintFlags.contains(PaintLayerPaintingOverlayScrollbars); |
| bool isPaintingScrollingContent = paintFlags.contains(PaintLayerPaintingCompositingScrollingPhase); |
| bool isPaintingCompositedForeground = paintFlags.contains(PaintLayerPaintingCompositingForegroundPhase); |
| bool isPaintingCompositedBackground = paintFlags.contains(PaintLayerPaintingCompositingBackgroundPhase); |
| bool isPaintingOverflowContents = paintFlags.contains(PaintLayerPaintingOverflowContents); |
| bool isCollectingEventRegion = paintFlags.contains(PaintLayerCollectingEventRegion); |
| // Outline always needs to be painted even if we have no visible content. Also, |
| // the outline is painted in the background phase during composited scrolling. |
| // If it were painted in the foreground phase, it would move with the scrolled |
| // content. When not composited scrolling, the outline is painted in the |
| // foreground phase. Since scrolled contents are moved by repainting in this |
| // case, the outline won't get 'dragged along'. |
| bool shouldPaintOutline = isSelfPaintingLayer && !isPaintingOverlayScrollbars && !isCollectingEventRegion |
| && (renderer().view().printing() || renderer().view().hasRenderersWithOutline()) |
| && ((isPaintingScrollingContent && isPaintingCompositedBackground) |
| || (!isPaintingScrollingContent && isPaintingCompositedForeground)); |
| bool shouldPaintContent = m_hasVisibleContent && isSelfPaintingLayer && !isPaintingOverlayScrollbars && !isCollectingEventRegion; |
| |
| if (localPaintFlags & PaintLayerPaintingRootBackgroundOnly && !renderer().isRenderView() && !renderer().isDocumentElementRenderer()) |
| return; |
| |
| updateLayerListsIfNeeded(); |
| |
| LayoutSize offsetFromRoot = offsetFromAncestor(paintingInfo.rootLayer); |
| LayoutRect rootRelativeBounds; |
| bool rootRelativeBoundsComputed = false; |
| |
| // FIXME: We shouldn't have to disable subpixel quantization for overflow clips or subframes once we scroll those |
| // things on the scrolling thread. |
| bool didQuantizeFonts = true; |
| bool needToAdjustSubpixelQuantization = setupFontSubpixelQuantization(context, didQuantizeFonts); |
| |
| // Apply clip-path to context. |
| LayoutSize columnAwareOffsetFromRoot = offsetFromRoot; |
| if (renderer().enclosingFragmentedFlow() && (renderer().hasClipPath() || filtersForPainting(context, paintFlags))) |
| columnAwareOffsetFromRoot = toLayoutSize(convertToLayerCoords(paintingInfo.rootLayer, LayoutPoint(), AdjustForColumns)); |
| |
| bool hasClipPath = false; |
| if (shouldApplyClipPath(paintingInfo.paintBehavior, localPaintFlags)) |
| hasClipPath = setupClipPath(context, paintingInfo, columnAwareOffsetFromRoot, rootRelativeBounds, rootRelativeBoundsComputed); |
| |
| bool selectionAndBackgroundsOnly = paintingInfo.paintBehavior.contains(PaintBehavior::SelectionAndBackgroundsOnly); |
| bool selectionOnly = paintingInfo.paintBehavior.contains(PaintBehavior::SelectionOnly); |
| |
| SinglePaintFrequencyTracking singlePaintFrequencyTracking(m_paintFrequencyTracker, shouldPaintContent); |
| |
| LayerFragments layerFragments; |
| RenderObject* subtreePaintRootForRenderer = nullptr; |
| |
| { // Scope for filter-related state changes. |
| LayerPaintingInfo localPaintingInfo(paintingInfo); |
| GraphicsContext* filterContext = setupFilters(context, localPaintingInfo, paintFlags, columnAwareOffsetFromRoot, rootRelativeBounds, rootRelativeBoundsComputed); |
| if (filterContext && haveTransparency) { |
| // If we have a filter and transparency, we have to eagerly start a transparency layer here, rather than risk a child layer lazily starts one with the wrong context. |
| beginTransparencyLayers(context, localPaintingInfo, paintingInfo.paintDirtyRect); |
| } |
| GraphicsContext& currentContext = filterContext ? *filterContext : context; |
| |
| // If this layer's renderer is a child of the subtreePaintRoot, we render unconditionally, which |
| // is done by passing a nil subtreePaintRoot down to our renderer (as if no subtreePaintRoot was ever set). |
| // Otherwise, our renderer tree may or may not contain the subtreePaintRoot root, so we pass that root along |
| // so it will be tested against as we descend through the renderers. |
| if (localPaintingInfo.subtreePaintRoot && !renderer().isDescendantOf(localPaintingInfo.subtreePaintRoot)) |
| subtreePaintRootForRenderer = localPaintingInfo.subtreePaintRoot; |
| |
| if (localPaintingInfo.overlapTestRequests && isSelfPaintingLayer) |
| performOverlapTests(*localPaintingInfo.overlapTestRequests, localPaintingInfo.rootLayer, this); |
| |
| OptionSet<PaintBehavior> paintBehavior = PaintBehavior::Normal; |
| if (localPaintFlags & PaintLayerPaintingSkipRootBackground) |
| paintBehavior.add(PaintBehavior::SkipRootBackground); |
| else if (localPaintFlags & PaintLayerPaintingRootBackgroundOnly) |
| paintBehavior.add(PaintBehavior::RootBackgroundOnly); |
| |
| if (paintingInfo.paintBehavior & PaintBehavior::FlattenCompositingLayers) |
| paintBehavior.add(PaintBehavior::FlattenCompositingLayers); |
| |
| if (paintingInfo.paintBehavior & PaintBehavior::Snapshotting) |
| paintBehavior.add(PaintBehavior::Snapshotting); |
| |
| if ((paintingInfo.paintBehavior & PaintBehavior::TileFirstPaint) && isRenderViewLayer()) |
| paintBehavior.add(PaintBehavior::TileFirstPaint); |
| |
| if (paintingInfo.paintBehavior & PaintBehavior::ExcludeSelection) |
| paintBehavior.add(PaintBehavior::ExcludeSelection); |
| |
| LayoutRect paintDirtyRect = localPaintingInfo.paintDirtyRect; |
| if (shouldPaintContent || shouldPaintOutline || isPaintingOverlayScrollbars || isCollectingEventRegion) { |
| // Collect the fragments. This will compute the clip rectangles and paint offsets for each layer fragment, as well as whether or not the content of each |
| // fragment should paint. If the parent's filter dictates full repaint to ensure proper filter effect, |
| // use the overflow clip as dirty rect, instead of no clipping. It maintains proper clipping for overflow::scroll. |
| if (!localPaintingInfo.clipToDirtyRect && renderer().hasOverflowClip()) { |
| // We can turn clipping back by requesting full repaint for the overflow area. |
| localPaintingInfo.clipToDirtyRect = true; |
| paintDirtyRect = clipRectRelativeToAncestor(localPaintingInfo.rootLayer, offsetFromRoot, LayoutRect::infiniteRect()); |
| } |
| collectFragments(layerFragments, localPaintingInfo.rootLayer, paintDirtyRect, ExcludeCompositedPaginatedLayers, |
| (localPaintFlags & PaintLayerTemporaryClipRects) ? TemporaryClipRects : PaintingClipRects, IgnoreOverlayScrollbarSize, |
| (isPaintingOverflowContents) ? IgnoreOverflowClip : RespectOverflowClip, offsetFromRoot); |
| updatePaintingInfoForFragments(layerFragments, localPaintingInfo, localPaintFlags, shouldPaintContent, offsetFromRoot); |
| } |
| |
| if (isPaintingCompositedBackground) { |
| // Paint only the backgrounds for all of the fragments of the layer. |
| if (shouldPaintContent && !selectionOnly) { |
| paintBackgroundForFragments(layerFragments, currentContext, context, paintingInfo.paintDirtyRect, haveTransparency, |
| localPaintingInfo, paintBehavior, subtreePaintRootForRenderer); |
| } |
| } |
| |
| // Now walk the sorted list of children with negative z-indices. |
| if ((isPaintingScrollingContent && isPaintingOverflowContents) || (!isPaintingScrollingContent && isPaintingCompositedBackground)) |
| paintList(negativeZOrderLayers(), currentContext, localPaintingInfo, localPaintFlags); |
| |
| if (isPaintingCompositedForeground) { |
| if (shouldPaintContent) { |
| paintForegroundForFragments(layerFragments, currentContext, context, paintingInfo.paintDirtyRect, haveTransparency, |
| localPaintingInfo, paintBehavior, subtreePaintRootForRenderer); |
| } |
| } |
| |
| if (isCollectingEventRegion) |
| collectEventRegionForFragments(layerFragments, currentContext, localPaintingInfo); |
| |
| if (shouldPaintOutline) |
| paintOutlineForFragments(layerFragments, currentContext, localPaintingInfo, paintBehavior, subtreePaintRootForRenderer); |
| |
| if (isPaintingCompositedForeground) { |
| // Paint any child layers that have overflow. |
| paintList(normalFlowLayers(), currentContext, localPaintingInfo, localPaintFlags); |
| |
| // Now walk the sorted list of children with positive z-indices. |
| paintList(positiveZOrderLayers(), currentContext, localPaintingInfo, localPaintFlags); |
| } |
| |
| if (isPaintingOverlayScrollbars && hasScrollbars()) |
| paintOverflowControlsForFragments(layerFragments, currentContext, localPaintingInfo); |
| |
| if (filterContext) { |
| // When we called collectFragments() last time, paintDirtyRect was reset to represent the filter bounds. |
| // Now we need to compute the backgroundRect uncontaminated by filters, in order to clip the filtered result. |
| // Note that we also use paintingInfo here, not localPaintingInfo which filters also contaminated. |
| LayerFragments layerFragments; |
| collectFragments(layerFragments, paintingInfo.rootLayer, paintingInfo.paintDirtyRect, ExcludeCompositedPaginatedLayers, |
| (localPaintFlags & PaintLayerTemporaryClipRects) ? TemporaryClipRects : PaintingClipRects, IgnoreOverlayScrollbarSize, |
| (isPaintingOverflowContents) ? IgnoreOverflowClip : RespectOverflowClip, offsetFromRoot); |
| updatePaintingInfoForFragments(layerFragments, paintingInfo, localPaintFlags, shouldPaintContent, offsetFromRoot); |
| |
| applyFilters(context, paintingInfo, layerFragments); |
| } |
| } |
| |
| if (shouldPaintContent && !(selectionOnly || selectionAndBackgroundsOnly)) { |
| OptionSet<PaintBehavior> paintBehavior = PaintBehavior::Normal; |
| if (paintingInfo.paintBehavior & PaintBehavior::FlattenCompositingLayers) |
| paintBehavior.add(PaintBehavior::FlattenCompositingLayers); |
| |
| if (paintingInfo.paintBehavior & PaintBehavior::Snapshotting) |
| paintBehavior.add(PaintBehavior::Snapshotting); |
| |
| if (paintingInfo.paintBehavior & PaintBehavior::TileFirstPaint) |
| paintBehavior.add(PaintBehavior::TileFirstPaint); |
| |
| if (shouldPaintMask(paintingInfo.paintBehavior, localPaintFlags)) { |
| // Paint the mask for the fragments. |
| paintMaskForFragments(layerFragments, context, paintingInfo, paintBehavior, subtreePaintRootForRenderer); |
| } |
| |
| if (!(paintFlags & PaintLayerPaintingCompositingMaskPhase) && (paintFlags & PaintLayerPaintingCompositingClipPathPhase)) { |
| // Re-use paintChildClippingMaskForFragments to paint black for the compositing clipping mask. |
| paintChildClippingMaskForFragments(layerFragments, context, paintingInfo, paintBehavior, subtreePaintRootForRenderer); |
| } |
| |
| if (localPaintFlags & PaintLayerPaintingChildClippingMaskPhase) { |
| // Paint the border radius mask for the fragments. |
| paintChildClippingMaskForFragments(layerFragments, context, paintingInfo, paintBehavior, subtreePaintRootForRenderer); |
| } |
| } |
| |
| // End our transparency layer |
| if (haveTransparency && m_usedTransparency && !m_paintingInsideReflection) { |
| context.endTransparencyLayer(); |
| context.restore(); |
| m_usedTransparency = false; |
| } |
| |
| // Re-set this to whatever it was before we painted the layer. |
| if (needToAdjustSubpixelQuantization) |
| context.setShouldSubpixelQuantizeFonts(didQuantizeFonts); |
| |
| if (hasClipPath) |
| context.restore(); |
| } |
| |
| void RenderLayer::paintLayerByApplyingTransform(GraphicsContext& context, const LayerPaintingInfo& paintingInfo, OptionSet<PaintLayerFlag> paintFlags, const LayoutSize& translationOffset) |
| { |
| // This involves subtracting out the position of the layer in our current coordinate space, but preserving |
| // the accumulated error for sub-pixel layout. |
| float deviceScaleFactor = renderer().document().deviceScaleFactor(); |
| LayoutSize offsetFromParent = offsetFromAncestor(paintingInfo.rootLayer); |
| offsetFromParent += translationOffset; |
| TransformationMatrix transform(renderableTransform(paintingInfo.paintBehavior)); |
| // Add the subpixel accumulation to the current layer's offset so that we can always snap the translateRight value to where the renderer() is supposed to be painting. |
| LayoutSize offsetForThisLayer = offsetFromParent + paintingInfo.subpixelOffset; |
| FloatSize devicePixelSnappedOffsetForThisLayer = toFloatSize(roundPointToDevicePixels(toLayoutPoint(offsetForThisLayer), deviceScaleFactor)); |
| // We handle accumulated subpixels through nested layers here. Since the context gets translated to device pixels, |
| // all we need to do is add the delta to the accumulated pixels coming from ancestor layers. |
| // Translate the graphics context to the snapping position to avoid off-device-pixel positing. |
| transform.translateRight(devicePixelSnappedOffsetForThisLayer.width(), devicePixelSnappedOffsetForThisLayer.height()); |
| // Apply the transform. |
| auto oldTransform = context.getCTM(); |
| auto affineTransform = transform.toAffineTransform(); |
| context.concatCTM(affineTransform); |
| |
| if (paintingInfo.eventRegionContext) |
| paintingInfo.eventRegionContext->pushTransform(affineTransform); |
| |
| // Now do a paint with the root layer shifted to be us. |
| LayoutSize adjustedSubpixelOffset = offsetForThisLayer - LayoutSize(devicePixelSnappedOffsetForThisLayer); |
| LayerPaintingInfo transformedPaintingInfo(paintingInfo); |
| transformedPaintingInfo.rootLayer = this; |
| transformedPaintingInfo.paintDirtyRect = LayoutRect(encloseRectToDevicePixels(transform.inverse().valueOr(AffineTransform()).mapRect(paintingInfo.paintDirtyRect), deviceScaleFactor)); |
| transformedPaintingInfo.subpixelOffset = adjustedSubpixelOffset; |
| paintLayerContentsAndReflection(context, transformedPaintingInfo, paintFlags); |
| |
| if (paintingInfo.eventRegionContext) |
| paintingInfo.eventRegionContext->popTransform(); |
| |
| context.setCTM(oldTransform); |
| } |
| |
| void RenderLayer::paintList(LayerList layerIterator, GraphicsContext& context, const LayerPaintingInfo& paintingInfo, OptionSet<PaintLayerFlag> paintFlags) |
| { |
| if (layerIterator.begin() == layerIterator.end()) |
| return; |
| |
| if (!hasSelfPaintingLayerDescendant()) |
| return; |
| |
| #if !ASSERT_DISABLED |
| LayerListMutationDetector mutationChecker(*this); |
| #endif |
| |
| for (auto* childLayer : layerIterator) |
| childLayer->paintLayer(context, paintingInfo, paintFlags); |
| } |
| |
| RenderLayer* RenderLayer::enclosingPaginationLayerInSubtree(const RenderLayer* rootLayer, PaginationInclusionMode mode) const |
| { |
| // If we don't have an enclosing layer, or if the root layer is the same as the enclosing layer, |
| // then just return the enclosing pagination layer (it will be 0 in the former case and the rootLayer in the latter case). |
| RenderLayer* paginationLayer = enclosingPaginationLayer(mode); |
| if (!paginationLayer || rootLayer == paginationLayer) |
| return paginationLayer; |
| |
| // Walk up the layer tree and see which layer we hit first. If it's the root, then the enclosing pagination |
| // layer isn't in our subtree and we return nullptr. If we hit the enclosing pagination layer first, then |
| // we can return it. |
| for (const RenderLayer* layer = this; layer; layer = layer->parent()) { |
| if (layer == rootLayer) |
| return nullptr; |
| if (layer == paginationLayer) |
| return paginationLayer; |
| } |
| |
| // This should never be reached, since an enclosing layer should always either be the rootLayer or be |
| // our enclosing pagination layer. |
| ASSERT_NOT_REACHED(); |
| return nullptr; |
| } |
| |
| void RenderLayer::collectFragments(LayerFragments& fragments, const RenderLayer* rootLayer, const LayoutRect& dirtyRect, PaginationInclusionMode inclusionMode, |
| ClipRectsType clipRectsType, OverlayScrollbarSizeRelevancy inOverlayScrollbarSizeRelevancy, ShouldRespectOverflowClip respectOverflowClip, const LayoutSize& offsetFromRoot, |
| const LayoutRect* layerBoundingBox, ShouldApplyRootOffsetToFragments applyRootOffsetToFragments) |
| { |
| RenderLayer* paginationLayer = enclosingPaginationLayerInSubtree(rootLayer, inclusionMode); |
| if (!paginationLayer || hasTransform()) { |
| // For unpaginated layers, there is only one fragment. |
| LayerFragment fragment; |
| ClipRectsContext clipRectsContext(rootLayer, clipRectsType, inOverlayScrollbarSizeRelevancy, respectOverflowClip); |
| calculateRects(clipRectsContext, dirtyRect, fragment.layerBounds, fragment.backgroundRect, fragment.foregroundRect, offsetFromRoot); |
| fragments.append(fragment); |
| return; |
| } |
| |
| // Compute our offset within the enclosing pagination layer. |
| LayoutSize offsetWithinPaginatedLayer = offsetFromAncestor(paginationLayer); |
| |
| // Calculate clip rects relative to the enclosingPaginationLayer. The purpose of this call is to determine our bounds clipped to intermediate |
| // layers between us and the pagination context. It's important to minimize the number of fragments we need to create and this helps with that. |
| ClipRectsContext paginationClipRectsContext(paginationLayer, clipRectsType, inOverlayScrollbarSizeRelevancy, respectOverflowClip); |
| LayoutRect layerBoundsInFragmentedFlow; |
| ClipRect backgroundRectInFragmentedFlow; |
| ClipRect foregroundRectInFragmentedFlow; |
| calculateRects(paginationClipRectsContext, LayoutRect::infiniteRect(), layerBoundsInFragmentedFlow, backgroundRectInFragmentedFlow, foregroundRectInFragmentedFlow, |
| offsetWithinPaginatedLayer); |
| |
| // Take our bounding box within the flow thread and clip it. |
| LayoutRect layerBoundingBoxInFragmentedFlow = layerBoundingBox ? *layerBoundingBox : boundingBox(paginationLayer, offsetWithinPaginatedLayer); |
| layerBoundingBoxInFragmentedFlow.intersect(backgroundRectInFragmentedFlow.rect()); |
| |
| auto& enclosingFragmentedFlow = downcast<RenderFragmentedFlow>(paginationLayer->renderer()); |
| RenderLayer* parentPaginationLayer = paginationLayer->parent()->enclosingPaginationLayerInSubtree(rootLayer, inclusionMode); |
| LayerFragments ancestorFragments; |
| if (parentPaginationLayer) { |
| // Compute a bounding box accounting for fragments. |
| LayoutRect layerFragmentBoundingBoxInParentPaginationLayer = enclosingFragmentedFlow.fragmentsBoundingBox(layerBoundingBoxInFragmentedFlow); |
| |
| // Convert to be in the ancestor pagination context's coordinate space. |
| LayoutSize offsetWithinParentPaginatedLayer = paginationLayer->offsetFromAncestor(parentPaginationLayer); |
| layerFragmentBoundingBoxInParentPaginationLayer.move(offsetWithinParentPaginatedLayer); |
| |
| // Now collect ancestor fragments. |
| parentPaginationLayer->collectFragments(ancestorFragments, rootLayer, dirtyRect, inclusionMode, clipRectsType, inOverlayScrollbarSizeRelevancy, respectOverflowClip, |
| offsetFromAncestor(rootLayer), &layerFragmentBoundingBoxInParentPaginationLayer, ApplyRootOffsetToFragments); |
| |
| if (ancestorFragments.isEmpty()) |
| return; |
| |
| for (auto& ancestorFragment : ancestorFragments) { |
| // Shift the dirty rect into flow thread coordinates. |
| LayoutRect dirtyRectInFragmentedFlow(dirtyRect); |
| dirtyRectInFragmentedFlow.move(-offsetWithinParentPaginatedLayer - ancestorFragment.paginationOffset); |
| |
| size_t oldSize = fragments.size(); |
| |
| // Tell the flow thread to collect the fragments. We pass enough information to create a minimal number of fragments based off the pages/columns |
| // that intersect the actual dirtyRect as well as the pages/columns that intersect our layer's bounding box. |
| enclosingFragmentedFlow.collectLayerFragments(fragments, layerBoundingBoxInFragmentedFlow, dirtyRectInFragmentedFlow); |
| |
| size_t newSize = fragments.size(); |
| |
| if (oldSize == newSize) |
| continue; |
| |
| for (size_t i = oldSize; i < newSize; ++i) { |
| LayerFragment& fragment = fragments.at(i); |
| |
| // Set our four rects with all clipping applied that was internal to the flow thread. |
| fragment.setRects(layerBoundsInFragmentedFlow, backgroundRectInFragmentedFlow, foregroundRectInFragmentedFlow, &layerBoundingBoxInFragmentedFlow); |
| |
| // Shift to the root-relative physical position used when painting the flow thread in this fragment. |
| fragment.moveBy(toLayoutPoint(ancestorFragment.paginationOffset + fragment.paginationOffset + offsetWithinParentPaginatedLayer)); |
| |
| // Intersect the fragment with our ancestor's background clip so that e.g., columns in an overflow:hidden block are |
| // properly clipped by the overflow. |
| fragment.intersect(ancestorFragment.paginationClip); |
| |
| // Now intersect with our pagination clip. This will typically mean we're just intersecting the dirty rect with the column |
| // clip, so the column clip ends up being all we apply. |
| fragment.intersect(fragment.paginationClip); |
| |
| if (applyRootOffsetToFragments == ApplyRootOffsetToFragments) |
| fragment.paginationOffset = fragment.paginationOffset + offsetWithinParentPaginatedLayer; |
| } |
| } |
| |
| return; |
| } |
| |
| // Shift the dirty rect into flow thread coordinates. |
| LayoutSize offsetOfPaginationLayerFromRoot = enclosingPaginationLayer(inclusionMode)->offsetFromAncestor(rootLayer); |
| LayoutRect dirtyRectInFragmentedFlow(dirtyRect); |
| dirtyRectInFragmentedFlow.move(-offsetOfPaginationLayerFromRoot); |
| |
| // Tell the flow thread to collect the fragments. We pass enough information to create a minimal number of fragments based off the pages/columns |
| // that intersect the actual dirtyRect as well as the pages/columns that intersect our layer's bounding box. |
| enclosingFragmentedFlow.collectLayerFragments(fragments, layerBoundingBoxInFragmentedFlow, dirtyRectInFragmentedFlow); |
| |
| if (fragments.isEmpty()) |
| return; |
| |
| // Get the parent clip rects of the pagination layer, since we need to intersect with that when painting column contents. |
| ClipRect ancestorClipRect = dirtyRect; |
| if (paginationLayer->parent()) { |
| ClipRectsContext clipRectsContext(rootLayer, clipRectsType, inOverlayScrollbarSizeRelevancy, respectOverflowClip); |
| ancestorClipRect = paginationLayer->backgroundClipRect(clipRectsContext); |
| ancestorClipRect.intersect(dirtyRect); |
| } |
| |
| for (auto& fragment : fragments) { |
| // Set our four rects with all clipping applied that was internal to the flow thread. |
| fragment.setRects(layerBoundsInFragmentedFlow, backgroundRectInFragmentedFlow, foregroundRectInFragmentedFlow, &layerBoundingBoxInFragmentedFlow); |
| |
| // Shift to the root-relative physical position used when painting the flow thread in this fragment. |
| fragment.moveBy(toLayoutPoint(fragment.paginationOffset + offsetOfPaginationLayerFromRoot)); |
| |
| // Intersect the fragment with our ancestor's background clip so that e.g., columns in an overflow:hidden block are |
| // properly clipped by the overflow. |
| fragment.intersect(ancestorClipRect); |
| |
| // Now intersect with our pagination clip. This will typically mean we're just intersecting the dirty rect with the column |
| // clip, so the column clip ends up being all we apply. |
| fragment.intersect(fragment.paginationClip); |
| |
| if (applyRootOffsetToFragments == ApplyRootOffsetToFragments) |
| fragment.paginationOffset = fragment.paginationOffset + offsetOfPaginationLayerFromRoot; |
| } |
| } |
| |
| void RenderLayer::updatePaintingInfoForFragments(LayerFragments& fragments, const LayerPaintingInfo& localPaintingInfo, OptionSet<PaintLayerFlag> localPaintFlags, |
| bool shouldPaintContent, const LayoutSize& offsetFromRoot) |
| { |
| for (auto& fragment : fragments) { |
| fragment.shouldPaintContent = shouldPaintContent; |
| if (this != localPaintingInfo.rootLayer || !(localPaintFlags & PaintLayerPaintingOverflowContents)) { |
| LayoutSize newOffsetFromRoot = offsetFromRoot + fragment.paginationOffset; |
| fragment.shouldPaintContent &= intersectsDamageRect(fragment.layerBounds, fragment.backgroundRect.rect(), localPaintingInfo.rootLayer, newOffsetFromRoot, fragment.hasBoundingBox ? &fragment.boundingBox : 0); |
| } |
| } |
| } |
| |
| void RenderLayer::paintTransformedLayerIntoFragments(GraphicsContext& context, const LayerPaintingInfo& paintingInfo, OptionSet<PaintLayerFlag> paintFlags) |
| { |
| LayerFragments enclosingPaginationFragments; |
| LayoutSize offsetOfPaginationLayerFromRoot; |
| RenderLayer* paginatedLayer = enclosingPaginationLayer(ExcludeCompositedPaginatedLayers); |
| LayoutRect transformedExtent = transparencyClipBox(*this, paginatedLayer, PaintingTransparencyClipBox, RootOfTransparencyClipBox, paintingInfo.paintBehavior); |
| paginatedLayer->collectFragments(enclosingPaginationFragments, paintingInfo.rootLayer, paintingInfo.paintDirtyRect, ExcludeCompositedPaginatedLayers, |
| (paintFlags & PaintLayerTemporaryClipRects) ? TemporaryClipRects : PaintingClipRects, IgnoreOverlayScrollbarSize, |
| (paintFlags & PaintLayerPaintingOverflowContents) ? IgnoreOverflowClip : RespectOverflowClip, offsetOfPaginationLayerFromRoot, &transformedExtent); |
| |
| for (const auto& fragment : enclosingPaginationFragments) { |
| // Apply the page/column clip for this fragment, as well as any clips established by layers in between us and |
| // the enclosing pagination layer. |
| LayoutRect clipRect = fragment.backgroundRect.rect(); |
| |
| // Now compute the clips within a given fragment |
| if (parent() != paginatedLayer) { |
| offsetOfPaginationLayerFromRoot = toLayoutSize(paginatedLayer->convertToLayerCoords(paintingInfo.rootLayer, toLayoutPoint(offsetOfPaginationLayerFromRoot))); |
| |
| ClipRectsContext clipRectsContext(paginatedLayer, (paintFlags & PaintLayerTemporaryClipRects) ? TemporaryClipRects : PaintingClipRects, |
| IgnoreOverlayScrollbarSize, (paintFlags & PaintLayerPaintingOverflowContents) ? IgnoreOverflowClip : RespectOverflowClip); |
| LayoutRect parentClipRect = backgroundClipRect(clipRectsContext).rect(); |
| parentClipRect.move(fragment.paginationOffset + offsetOfPaginationLayerFromRoot); |
| clipRect.intersect(parentClipRect); |
| } |
| |
| parent()->clipToRect(context, paintingInfo, clipRect); |
| paintLayerByApplyingTransform(context, paintingInfo, paintFlags, fragment.paginationOffset); |
| parent()->restoreClip(context, paintingInfo, clipRect); |
| } |
| } |
| |
| void RenderLayer::paintBackgroundForFragments(const LayerFragments& layerFragments, GraphicsContext& context, GraphicsContext& contextForTransparencyLayer, |
| const LayoutRect& transparencyPaintDirtyRect, bool haveTransparency, const LayerPaintingInfo& localPaintingInfo, OptionSet<PaintBehavior> paintBehavior, |
| RenderObject* subtreePaintRootForRenderer) |
| { |
| for (const auto& fragment : layerFragments) { |
| if (!fragment.shouldPaintContent) |
| continue; |
| |
| // Begin transparency layers lazily now that we know we have to paint something. |
| if (haveTransparency) |
| beginTransparencyLayers(contextForTransparencyLayer, localPaintingInfo, transparencyPaintDirtyRect); |
| |
| if (localPaintingInfo.clipToDirtyRect) { |
| // Paint our background first, before painting any child layers. |
| // Establish the clip used to paint our background. |
| clipToRect(context, localPaintingInfo, fragment.backgroundRect, DoNotIncludeSelfForBorderRadius); // Background painting will handle clipping to self. |
| } |
| |
| // Paint the background. |
| // FIXME: Eventually we will collect the region from the fragment itself instead of just from the paint info. |
| PaintInfo paintInfo(context, fragment.backgroundRect.rect(), PaintPhase::BlockBackground, paintBehavior, subtreePaintRootForRenderer, nullptr, nullptr, &localPaintingInfo.rootLayer->renderer(), this); |
| renderer().paint(paintInfo, toLayoutPoint(fragment.layerBounds.location() - renderBoxLocation() + localPaintingInfo.subpixelOffset)); |
| |
| if (localPaintingInfo.clipToDirtyRect) |
| restoreClip(context, localPaintingInfo, fragment.backgroundRect); |
| } |
| } |
| |
| void RenderLayer::paintForegroundForFragments(const LayerFragments& layerFragments, GraphicsContext& context, GraphicsContext& contextForTransparencyLayer, |
| const LayoutRect& transparencyPaintDirtyRect, bool haveTransparency, const LayerPaintingInfo& localPaintingInfo, OptionSet<PaintBehavior> paintBehavior, |
| RenderObject* subtreePaintRootForRenderer) |
| { |
| // Begin transparency if we have something to paint. |
| if (haveTransparency) { |
| for (const auto& fragment : layerFragments) { |
| if (fragment.shouldPaintContent && !fragment.foregroundRect.isEmpty()) { |
| beginTransparencyLayers(contextForTransparencyLayer, localPaintingInfo, transparencyPaintDirtyRect); |
| break; |
| } |
| } |
| } |
| |
| OptionSet<PaintBehavior> localPaintBehavior; |
| if (localPaintingInfo.paintBehavior & PaintBehavior::ForceBlackText) |
| localPaintBehavior = PaintBehavior::ForceBlackText; |
| else if (localPaintingInfo.paintBehavior & PaintBehavior::ForceWhiteText) |
| localPaintBehavior = PaintBehavior::ForceWhiteText; |
| else |
| localPaintBehavior = paintBehavior; |
| |
| if (localPaintingInfo.paintBehavior & PaintBehavior::ExcludeSelection) |
| localPaintBehavior.add(PaintBehavior::ExcludeSelection); |
| |
| if (localPaintingInfo.paintBehavior & PaintBehavior::Snapshotting) |
| localPaintBehavior.add(PaintBehavior::Snapshotting); |
| |
| if (localPaintingInfo.paintBehavior & PaintBehavior::TileFirstPaint) |
| localPaintBehavior.add(PaintBehavior::TileFirstPaint); |
| |
| // Optimize clipping for the single fragment case. |
| bool shouldClip = localPaintingInfo.clipToDirtyRect && layerFragments.size() == 1 && layerFragments[0].shouldPaintContent && !layerFragments[0].foregroundRect.isEmpty(); |
| ClipRect clippedRect; |
| if (shouldClip) { |
| clippedRect = layerFragments[0].foregroundRect; |
| clipToRect(context, localPaintingInfo, clippedRect); |
| } |
| |
| // We have to loop through every fragment multiple times, since we have to repaint in each specific phase in order for |
| // interleaving of the fragments to work properly. |
| bool selectionOnly = localPaintingInfo.paintBehavior.contains(PaintBehavior::SelectionOnly); |
| bool selectionAndBackgroundsOnly = localPaintingInfo.paintBehavior.contains(PaintBehavior::SelectionAndBackgroundsOnly); |
| |
| if (!selectionOnly) |
| paintForegroundForFragmentsWithPhase(PaintPhase::ChildBlockBackgrounds, layerFragments, context, localPaintingInfo, localPaintBehavior, subtreePaintRootForRenderer); |
| |
| if (selectionOnly || selectionAndBackgroundsOnly) |
| paintForegroundForFragmentsWithPhase(PaintPhase::Selection, layerFragments, context, localPaintingInfo, localPaintBehavior, subtreePaintRootForRenderer); |
| else { |
| paintForegroundForFragmentsWithPhase(PaintPhase::Float, layerFragments, context, localPaintingInfo, localPaintBehavior, subtreePaintRootForRenderer); |
| paintForegroundForFragmentsWithPhase(PaintPhase::Foreground, layerFragments, context, localPaintingInfo, localPaintBehavior, subtreePaintRootForRenderer); |
| paintForegroundForFragmentsWithPhase(PaintPhase::ChildOutlines, layerFragments, context, localPaintingInfo, localPaintBehavior, subtreePaintRootForRenderer); |
| } |
| |
| if (shouldClip) |
| restoreClip(context, localPaintingInfo, clippedRect); |
| } |
| |
| void RenderLayer::paintForegroundForFragmentsWithPhase(PaintPhase phase, const LayerFragments& layerFragments, GraphicsContext& context, |
| const LayerPaintingInfo& localPaintingInfo, OptionSet<PaintBehavior> paintBehavior, RenderObject* subtreePaintRootForRenderer) |
| { |
| bool shouldClip = localPaintingInfo.clipToDirtyRect && layerFragments.size() > 1; |
| |
| for (const auto& fragment : layerFragments) { |
| if (!fragment.shouldPaintContent || fragment.foregroundRect.isEmpty()) |
| continue; |
| |
| if (shouldClip) |
| clipToRect(context, localPaintingInfo, fragment.foregroundRect); |
| |
| PaintInfo paintInfo(context, fragment.foregroundRect.rect(), phase, paintBehavior, subtreePaintRootForRenderer, nullptr, nullptr, &localPaintingInfo.rootLayer->renderer(), this, localPaintingInfo.requireSecurityOriginAccessForWidgets); |
| if (phase == PaintPhase::Foreground) |
| paintInfo.overlapTestRequests = localPaintingInfo.overlapTestRequests; |
| renderer().paint(paintInfo, toLayoutPoint(fragment.layerBounds.location() - renderBoxLocation() + localPaintingInfo.subpixelOffset)); |
| |
| if (shouldClip) |
| restoreClip(context, localPaintingInfo, fragment.foregroundRect); |
| } |
| } |
| |
| void RenderLayer::paintOutlineForFragments(const LayerFragments& layerFragments, GraphicsContext& context, const LayerPaintingInfo& localPaintingInfo, |
| OptionSet<PaintBehavior> paintBehavior, RenderObject* subtreePaintRootForRenderer) |
| { |
| for (const auto& fragment : layerFragments) { |
| if (fragment.backgroundRect.isEmpty()) |
| continue; |
| |
| // Paint our own outline |
| PaintInfo paintInfo(context, fragment.backgroundRect.rect(), PaintPhase::SelfOutline, paintBehavior, subtreePaintRootForRenderer, nullptr, nullptr, &localPaintingInfo.rootLayer->renderer(), this); |
| clipToRect(context, localPaintingInfo, fragment.backgroundRect, DoNotIncludeSelfForBorderRadius); |
| renderer().paint(paintInfo, toLayoutPoint(fragment.layerBounds.location() - renderBoxLocation() + localPaintingInfo.subpixelOffset)); |
| restoreClip(context, localPaintingInfo, fragment.backgroundRect); |
| } |
| } |
| |
| void RenderLayer::paintMaskForFragments(const LayerFragments& layerFragments, GraphicsContext& context, const LayerPaintingInfo& localPaintingInfo, |
| OptionSet<PaintBehavior> paintBehavior, RenderObject* subtreePaintRootForRenderer) |
| { |
| for (const auto& fragment : layerFragments) { |
| if (!fragment.shouldPaintContent) |
| continue; |
| |
| if (localPaintingInfo.clipToDirtyRect) |
| clipToRect(context, localPaintingInfo, fragment.backgroundRect, DoNotIncludeSelfForBorderRadius); // Mask painting will handle clipping to self. |
| |
| // Paint the mask. |
| // FIXME: Eventually we will collect the region from the fragment itself instead of just from the paint info. |
| PaintInfo paintInfo(context, fragment.backgroundRect.rect(), PaintPhase::Mask, paintBehavior, subtreePaintRootForRenderer, nullptr, nullptr, &localPaintingInfo.rootLayer->renderer(), this); |
| renderer().paint(paintInfo, toLayoutPoint(fragment.layerBounds.location() - renderBoxLocation() + localPaintingInfo.subpixelOffset)); |
| |
| if (localPaintingInfo.clipToDirtyRect) |
| restoreClip(context, localPaintingInfo, fragment.backgroundRect); |
| } |
| } |
| |
| void RenderLayer::paintChildClippingMaskForFragments(const LayerFragments& layerFragments, GraphicsContext& context, const LayerPaintingInfo& localPaintingInfo, OptionSet<PaintBehavior> paintBehavior, RenderObject* subtreePaintRootForRenderer) |
| { |
| for (const auto& fragment : layerFragments) { |
| if (!fragment.shouldPaintContent) |
| continue; |
| |
| if (localPaintingInfo.clipToDirtyRect) |
| clipToRect(context, localPaintingInfo, fragment.foregroundRect, IncludeSelfForBorderRadius); // Child clipping mask painting will handle clipping to self. |
| |
| // Paint the clipped mask. |
| PaintInfo paintInfo(context, fragment.backgroundRect.rect(), PaintPhase::ClippingMask, paintBehavior, subtreePaintRootForRenderer, nullptr, nullptr, &localPaintingInfo.rootLayer->renderer(), this); |
| renderer().paint(paintInfo, toLayoutPoint(fragment.layerBounds.location() - renderBoxLocation() + localPaintingInfo.subpixelOffset)); |
| |
| if (localPaintingInfo.clipToDirtyRect) |
| restoreClip(context, localPaintingInfo, fragment.foregroundRect); |
| } |
| } |
| |
| void RenderLayer::paintOverflowControlsForFragments(const LayerFragments& layerFragments, GraphicsContext& context, const LayerPaintingInfo& localPaintingInfo) |
| { |
| for (const auto& fragment : layerFragments) { |
| if (fragment.backgroundRect.isEmpty()) |
| continue; |
| clipToRect(context, localPaintingInfo, fragment.backgroundRect); |
| paintOverflowControls(context, roundedIntPoint(toLayoutPoint(fragment.layerBounds.location() - renderBoxLocation() + localPaintingInfo.subpixelOffset)), |
| snappedIntRect(fragment.backgroundRect.rect()), true); |
| restoreClip(context, localPaintingInfo, fragment.backgroundRect); |
| } |
| } |
| |
| void RenderLayer::collectEventRegionForFragments(const LayerFragments& layerFragments, GraphicsContext& context, const LayerPaintingInfo& localPaintingInfo) |
| { |
| ASSERT(localPaintingInfo.eventRegionContext); |
| |
| for (const auto& fragment : layerFragments) { |
| PaintInfo paintInfo(context, fragment.foregroundRect.rect(), PaintPhase::EventRegion, { }); |
| paintInfo.eventRegionContext = localPaintingInfo.eventRegionContext; |
| renderer().paint(paintInfo, toLayoutPoint(fragment.layerBounds.location() - renderBoxLocation() + localPaintingInfo.subpixelOffset)); |
| } |
| } |
| |
| bool RenderLayer::hitTest(const HitTestRequest& request, HitTestResult& result) |
| { |
| return hitTest(request, result.hitTestLocation(), result); |
| } |
| |
| bool RenderLayer::hitTest(const HitTestRequest& request, const HitTestLocation& hitTestLocation, HitTestResult& result) |
| { |
| ASSERT(isSelfPaintingLayer() || hasSelfPaintingLayerDescendant()); |
| ASSERT(!renderer().view().needsLayout()); |
| |
| ASSERT(!isRenderFragmentedFlow()); |
| LayoutRect hitTestArea = renderer().view().documentRect(); |
| if (!request.ignoreClipping()) { |
| const auto& settings = renderer().settings(); |
| if (settings.visualViewportEnabled() && settings.clientCoordinatesRelativeToLayoutViewport()) { |
| auto& frameView = renderer().view().frameView(); |
| LayoutRect absoluteLayoutViewportRect = frameView.layoutViewportRect(); |
| auto scaleFactor = frameView.frame().frameScaleFactor(); |
| if (scaleFactor > 1) |
| absoluteLayoutViewportRect.scale(scaleFactor); |
| hitTestArea.intersect(absoluteLayoutViewportRect); |
| } else |
| hitTestArea.intersect(renderer().view().frameView().visibleContentRect(LegacyIOSDocumentVisibleRect)); |
| } |
| |
| RenderLayer* insideLayer = hitTestLayer(this, nullptr, request, result, hitTestArea, hitTestLocation, false); |
| if (!insideLayer) { |
| // We didn't hit any layer. If we are the root layer and the mouse is -- or just was -- down, |
| // return ourselves. We do this so mouse events continue getting delivered after a drag has |
| // exited the WebView, and so hit testing over a scrollbar hits the content document. |
| if (!request.isChildFrameHitTest() && (request.active() || request.release()) && isRenderViewLayer()) { |
| renderer().updateHitTestResult(result, downcast<RenderView>(renderer()).flipForWritingMode(hitTestLocation.point())); |
| insideLayer = this; |
| } |
| } |
| |
| // Now determine if the result is inside an anchor - if the urlElement isn't already set. |
| Node* node = result.innerNode(); |
| if (node && !result.URLElement()) |
| result.setURLElement(node->enclosingLinkEventParentOrSelf()); |
| |
| // Now return whether we were inside this layer (this will always be true for the root |
| // layer). |
| return insideLayer; |
| } |
| |
| Element* RenderLayer::enclosingElement() const |
| { |
| for (RenderElement* r = &renderer(); r; r = r->parent()) { |
| if (Element* e = r->element()) |
| return e; |
| } |
| return nullptr; |
| } |
| |
| RenderLayer* RenderLayer::enclosingFragmentedFlowAncestor() const |
| { |
| RenderLayer* curr = parent(); |
| for (; curr && !curr->isRenderFragmentedFlow(); curr = curr->parent()) { |
| if (curr->isStackingContext() && curr->isComposited()) { |
| // We only adjust the position of the first level of layers. |
| return nullptr; |
| } |
| } |
| return curr; |
| } |
| |
| // Compute the z-offset of the point in the transformState. |
| // This is effectively projecting a ray normal to the plane of ancestor, finding where that |
| // ray intersects target, and computing the z delta between those two points. |
| static double computeZOffset(const HitTestingTransformState& transformState) |
| { |
| // We got an affine transform, so no z-offset |
| if (transformState.m_accumulatedTransform.isAffine()) |
| return 0; |
| |
| // Flatten the point into the target plane |
| FloatPoint targetPoint = transformState.mappedPoint(); |
| |
| // Now map the point back through the transform, which computes Z. |
| FloatPoint3D backmappedPoint = transformState.m_accumulatedTransform.mapPoint(FloatPoint3D(targetPoint)); |
| return backmappedPoint.z(); |
| } |
| |
| Ref<HitTestingTransformState> RenderLayer::createLocalTransformState(RenderLayer* rootLayer, RenderLayer* containerLayer, |
| const LayoutRect& hitTestRect, const HitTestLocation& hitTestLocation, |
| const HitTestingTransformState* containerTransformState, |
| const LayoutSize& translationOffset) const |
| { |
| RefPtr<HitTestingTransformState> transformState; |
| LayoutSize offset; |
| if (containerTransformState) { |
| // If we're already computing transform state, then it's relative to the container (which we know is non-null). |
| transformState = HitTestingTransformState::create(*containerTransformState); |
| offset = offsetFromAncestor(containerLayer); |
| } else { |
| // If this is the first time we need to make transform state, then base it off of hitTestLocation, |
| // which is relative to rootLayer. |
| transformState = HitTestingTransformState::create(hitTestLocation.transformedPoint(), hitTestLocation.transformedRect(), FloatQuad(hitTestRect)); |
| offset = offsetFromAncestor(rootLayer); |
| } |
| offset += translationOffset; |
| |
| RenderObject* containerRenderer = containerLayer ? &containerLayer->renderer() : nullptr; |
| if (renderer().shouldUseTransformFromContainer(containerRenderer)) { |
| TransformationMatrix containerTransform; |
| renderer().getTransformFromContainer(containerRenderer, offset, containerTransform); |
| transformState->applyTransform(containerTransform, HitTestingTransformState::AccumulateTransform); |
| } else { |
| transformState->translate(offset.width(), offset.height(), HitTestingTransformState::AccumulateTransform); |
| } |
| |
| return transformState.releaseNonNull(); |
| } |
| |
| |
| static bool isHitCandidate(const RenderLayer* hitLayer, bool canDepthSort, double* zOffset, const HitTestingTransformState* transformState) |
| { |
| if (!hitLayer) |
| return false; |
| |
| // The hit layer is depth-sorting with other layers, so just say that it was hit. |
| if (canDepthSort) |
| return true; |
| |
| // We need to look at z-depth to decide if this layer was hit. |
| if (zOffset) { |
| ASSERT(transformState); |
| // This is actually computing our z, but that's OK because the hitLayer is coplanar with us. |
| double childZOffset = computeZOffset(*transformState); |
| if (childZOffset > *zOffset) { |
| *zOffset = childZOffset; |
| return true; |
| } |
| return false; |
| } |
| |
| return true; |
| } |
| |
| // hitTestLocation and hitTestRect are relative to rootLayer. |
| // A 'flattening' layer is one preserves3D() == false. |
| // transformState.m_accumulatedTransform holds the transform from the containing flattening layer. |
| // transformState.m_lastPlanarPoint is the hitTestLocation in the plane of the containing flattening layer. |
| // transformState.m_lastPlanarQuad is the hitTestRect as a quad in the plane of the containing flattening layer. |
| // |
| // If zOffset is non-null (which indicates that the caller wants z offset information), |
| // *zOffset on return is the z offset of the hit point relative to the containing flattening layer. |
| RenderLayer* RenderLayer::hitTestLayer(RenderLayer* rootLayer, RenderLayer* containerLayer, const HitTestRequest& request, HitTestResult& result, |
| const LayoutRect& hitTestRect, const HitTestLocation& hitTestLocation, bool appliedTransform, |
| const HitTestingTransformState* transformState, double* zOffset) |
| { |
| updateLayerListsIfNeeded(); |
| |
| if (!isSelfPaintingLayer() && !hasSelfPaintingLayerDescendant()) |
| return nullptr; |
| |
| // The natural thing would be to keep HitTestingTransformState on the stack, but it's big, so we heap-allocate. |
| |
| // Apply a transform if we have one. |
| if (transform() && !appliedTransform) { |
| if (enclosingPaginationLayer(IncludeCompositedPaginatedLayers)) |
| return hitTestTransformedLayerInFragments(rootLayer, containerLayer, request, result, hitTestRect, hitTestLocation, transformState, zOffset); |
| |
| // Make sure the parent's clip rects have been calculated. |
| if (parent()) { |
| ClipRectsContext clipRectsContext(rootLayer, RootRelativeClipRects, IncludeOverlayScrollbarSize); |
| ClipRect clipRect = backgroundClipRect(clipRectsContext); |
| // Test the enclosing clip now. |
| if (!clipRect.intersects(hitTestLocation)) |
| return nullptr; |
| } |
| |
| return hitTestLayerByApplyingTransform(rootLayer, containerLayer, request, result, hitTestRect, hitTestLocation, transformState, zOffset); |
| } |
| |
| // Ensure our lists and 3d status are up-to-date. |
| update3DTransformedDescendantStatus(); |
| |
| RefPtr<HitTestingTransformState> localTransformState; |
| if (appliedTransform) { |
| // We computed the correct state in the caller (above code), so just reference it. |
| ASSERT(transformState); |
| localTransformState = const_cast<HitTestingTransformState*>(transformState); |
| } else if (transformState || has3DTransformedDescendant() || preserves3D()) { |
| // We need transform state for the first time, or to offset the container state, so create it here. |
| localTransformState = createLocalTransformState(rootLayer, containerLayer, hitTestRect, hitTestLocation, transformState); |
| } |
| |
| // Check for hit test on backface if backface-visibility is 'hidden' |
| if (localTransformState && renderer().style().backfaceVisibility() == BackfaceVisibility::Hidden) { |
| Optional<TransformationMatrix> invertedMatrix = localTransformState->m_accumulatedTransform.inverse(); |
| // If the z-vector of the matrix is negative, the back is facing towards the viewer. |
| if (invertedMatrix && invertedMatrix.value().m33() < 0) |
| return nullptr; |
| } |
| |
| RefPtr<HitTestingTransformState> unflattenedTransformState = localTransformState; |
| if (localTransformState && !preserves3D()) { |
| // Keep a copy of the pre-flattening state, for computing z-offsets for the container |
| unflattenedTransformState = HitTestingTransformState::create(*localTransformState); |
| // This layer is flattening, so flatten the state passed to descendants. |
| localTransformState->flatten(); |
| } |
| |
| // The following are used for keeping track of the z-depth of the hit point of 3d-transformed |
| // descendants. |
| double localZOffset = -std::numeric_limits<double>::infinity(); |
| double* zOffsetForDescendantsPtr = nullptr; |
| double* zOffsetForContentsPtr = nullptr; |
| |
| bool depthSortDescendants = false; |
| if (preserves3D()) { |
| depthSortDescendants = true; |
| // Our layers can depth-test with our container, so share the z depth pointer with the container, if it passed one down. |
| zOffsetForDescendantsPtr = zOffset ? zOffset : &localZOffset; |
| zOffsetForContentsPtr = zOffset ? zOffset : &localZOffset; |
| } else if (zOffset) { |
| zOffsetForDescendantsPtr = nullptr; |
| // Container needs us to give back a z offset for the hit layer. |
| zOffsetForContentsPtr = zOffset; |
| } |
| |
| // This variable tracks which layer the mouse ends up being inside. |
| RenderLayer* candidateLayer = nullptr; |
| #if !ASSERT_DISABLED |
| LayerListMutationDetector mutationChecker(*this); |
| #endif |
| |
| // Begin by walking our list of positive layers from highest z-index down to the lowest z-index. |
| auto* hitLayer = hitTestList(positiveZOrderLayers(), rootLayer, request, result, hitTestRect, hitTestLocation, |
| localTransformState.get(), zOffsetForDescendantsPtr, zOffset, unflattenedTransformState.get(), depthSortDescendants); |
| if (hitLayer) { |
| if (!depthSortDescendants) |
| return hitLayer; |
| candidateLayer = hitLayer; |
| } |
| |
| // Now check our overflow objects. |
| hitLayer = hitTestList(normalFlowLayers(), rootLayer, request, result, hitTestRect, hitTestLocation, |
| localTransformState.get(), zOffsetForDescendantsPtr, zOffset, unflattenedTransformState.get(), depthSortDescendants); |
| if (hitLayer) { |
| if (!depthSortDescendants) |
| return hitLayer; |
| candidateLayer = hitLayer; |
| } |
| |
| // Collect the fragments. This will compute the clip rectangles for each layer fragment. |
| LayerFragments layerFragments; |
| collectFragments(layerFragments, rootLayer, hitTestRect, IncludeCompositedPaginatedLayers, RootRelativeClipRects, IncludeOverlayScrollbarSize, RespectOverflowClip, |
| offsetFromAncestor(rootLayer)); |
| |
| if (canResize() && hitTestResizerInFragments(layerFragments, hitTestLocation)) { |
| renderer().updateHitTestResult(result, hitTestLocation.point()); |
| return this; |
| } |
| |
| // Next we want to see if the mouse pos is inside the child RenderObjects of the layer. Check |
| // every fragment in reverse order. |
| if (isSelfPaintingLayer()) { |
| // Hit test with a temporary HitTestResult, because we only want to commit to 'result' if we know we're frontmost. |
| HitTestResult tempResult(result.hitTestLocation()); |
| bool insideFragmentForegroundRect = false; |
| if (hitTestContentsForFragments(layerFragments, request, tempResult, hitTestLocation, HitTestDescendants, insideFragmentForegroundRect) |
| && isHitCandidate(this, false, zOffsetForContentsPtr, unflattenedTransformState.get())) { |
| if (request.resultIsElementList()) |
| result.append(tempResult, request); |
| else |
| result = tempResult; |
| if (!depthSortDescendants) |
| return this; |
| // Foreground can depth-sort with descendant layers, so keep this as a candidate. |
| candidateLayer = this; |
| } else if (insideFragmentForegroundRect && request.resultIsElementList()) |
| result.append(tempResult, request); |
| } |
| |
| // Now check our negative z-index children. |
| hitLayer = hitTestList(negativeZOrderLayers(), rootLayer, request, result, hitTestRect, hitTestLocation, |
| localTransformState.get(), zOffsetForDescendantsPtr, zOffset, unflattenedTransformState.get(), depthSortDescendants); |
| if (hitLayer) { |
| if (!depthSortDescendants) |
| return hitLayer; |
| candidateLayer = hitLayer; |
| } |
| |
| // If we found a layer, return. Child layers, and foreground always render in front of background. |
| if (candidateLayer) |
| return candidateLayer; |
| |
| if (isSelfPaintingLayer()) { |
| HitTestResult tempResult(result.hitTestLocation()); |
| bool insideFragmentBackgroundRect = false; |
| if (hitTestContentsForFragments(layerFragments, request, tempResult, hitTestLocation, HitTestSelf, insideFragmentBackgroundRect) |
| && isHitCandidate(this, false, zOffsetForContentsPtr, unflattenedTransformState.get())) { |
| if (request.resultIsElementList()) |
| result.append(tempResult, request); |
| else |
| result = tempResult; |
| return this; |
| } |
| if (insideFragmentBackgroundRect && request.resultIsElementList()) |
| result.append(tempResult, request); |
| } |
| |
| return nullptr; |
| } |
| |
| bool RenderLayer::hitTestContentsForFragments(const LayerFragments& layerFragments, const HitTestRequest& request, HitTestResult& result, |
| const HitTestLocation& hitTestLocation, HitTestFilter hitTestFilter, bool& insideClipRect) const |
| { |
| if (layerFragments.isEmpty()) |
| return false; |
| |
| for (int i = layerFragments.size() - 1; i >= 0; --i) { |
| const LayerFragment& fragment = layerFragments.at(i); |
| if ((hitTestFilter == HitTestSelf && !fragment.backgroundRect.intersects(hitTestLocation)) |
| || (hitTestFilter == HitTestDescendants && !fragment.foregroundRect.intersects(hitTestLocation))) |
| continue; |
| insideClipRect = true; |
| if (hitTestContents(request, result, fragment.layerBounds, hitTestLocation, hitTestFilter)) |
| return true; |
| } |
| |
| return false; |
| } |
| |
| bool RenderLayer::hitTestResizerInFragments(const LayerFragments& layerFragments, const HitTestLocation& hitTestLocation) const |
| { |
| if (layerFragments.isEmpty()) |
| return false; |
| |
| for (int i = layerFragments.size() - 1; i >= 0; --i) { |
| const LayerFragment& fragment = layerFragments.at(i); |
| if (fragment.backgroundRect.intersects(hitTestLocation) && resizerCornerRect(*this, snappedIntRect(fragment.layerBounds)).contains(hitTestLocation.roundedPoint())) |
| return true; |
| } |
| |
| return false; |
| } |
| |
| RenderLayer* RenderLayer::hitTestTransformedLayerInFragments(RenderLayer* rootLayer, RenderLayer* containerLayer, const HitTestRequest& request, HitTestResult& result, |
| const LayoutRect& hitTestRect, const HitTestLocation& hitTestLocation, const HitTestingTransformState* transformState, double* zOffset) |
| { |
| LayerFragments enclosingPaginationFragments; |
| LayoutSize offsetOfPaginationLayerFromRoot; |
| RenderLayer* paginatedLayer = enclosingPaginationLayer(IncludeCompositedPaginatedLayers); |
| LayoutRect transformedExtent = transparencyClipBox(*this, paginatedLayer, HitTestingTransparencyClipBox, RootOfTransparencyClipBox); |
| paginatedLayer->collectFragments(enclosingPaginationFragments, rootLayer, hitTestRect, IncludeCompositedPaginatedLayers, |
| RootRelativeClipRects, IncludeOverlayScrollbarSize, RespectOverflowClip, offsetOfPaginationLayerFromRoot, &transformedExtent); |
| |
| for (int i = enclosingPaginationFragments.size() - 1; i >= 0; --i) { |
| const LayerFragment& fragment = enclosingPaginationFragments.at(i); |
| |
| // Apply the page/column clip for this fragment, as well as any clips established by layers in between us and |
| // the enclosing pagination layer. |
| LayoutRect clipRect = fragment.backgroundRect.rect(); |
| |
| // Now compute the clips within a given fragment |
| if (parent() != paginatedLayer) { |
| offsetOfPaginationLayerFromRoot = toLayoutSize(paginatedLayer->convertToLayerCoords(rootLayer, toLayoutPoint(offsetOfPaginationLayerFromRoot))); |
| |
| ClipRectsContext clipRectsContext(paginatedLayer, RootRelativeClipRects, IncludeOverlayScrollbarSize); |
| LayoutRect parentClipRect = backgroundClipRect(clipRectsContext).rect(); |
| parentClipRect.move(fragment.paginationOffset + offsetOfPaginationLayerFromRoot); |
| clipRect.intersect(parentClipRect); |
| } |
| |
| if (!hitTestLocation.intersects(clipRect)) |
| continue; |
| |
| RenderLayer* hitLayer = hitTestLayerByApplyingTransform(rootLayer, containerLayer, request, result, hitTestRect, hitTestLocation, |
| transformState, zOffset, fragment.paginationOffset); |
| if (hitLayer) |
| return hitLayer; |
| } |
| |
| return nullptr; |
| } |
| |
| RenderLayer* RenderLayer::hitTestLayerByApplyingTransform(RenderLayer* rootLayer, RenderLayer* containerLayer, const HitTestRequest& request, HitTestResult& result, |
| const LayoutRect& hitTestRect, const HitTestLocation& hitTestLocation, const HitTestingTransformState* transformState, double* zOffset, |
| const LayoutSize& translationOffset) |
| { |
| // Create a transform state to accumulate this transform. |
| Ref<HitTestingTransformState> newTransformState = createLocalTransformState(rootLayer, containerLayer, hitTestRect, hitTestLocation, transformState, translationOffset); |
| |
| // If the transform can't be inverted, then don't hit test this layer at all. |
| if (!newTransformState->m_accumulatedTransform.isInvertible()) |
| return nullptr; |
| |
| // Compute the point and the hit test rect in the coords of this layer by using the values |
| // from the transformState, which store the point and quad in the coords of the last flattened |
| // layer, and the accumulated transform which lets up map through preserve-3d layers. |
| // |
| // We can't just map hitTestLocation and hitTestRect because they may have been flattened (losing z) |
| // by our container. |
| FloatPoint localPoint = newTransformState->mappedPoint(); |
| FloatQuad localPointQuad = newTransformState->mappedQuad(); |
| LayoutRect localHitTestRect = newTransformState->boundsOfMappedArea(); |
| HitTestLocation newHitTestLocation; |
| if (hitTestLocation.isRectBasedTest()) |
| newHitTestLocation = HitTestLocation(localPoint, localPointQuad); |
| else |
| newHitTestLocation = HitTestLocation(localPoint); |
| |
| // Now do a hit test with the root layer shifted to be us. |
| return hitTestLayer(this, containerLayer, request, result, localHitTestRect, newHitTestLocation, true, newTransformState.ptr(), zOffset); |
| } |
| |
| bool RenderLayer::hitTestContents(const HitTestRequest& request, HitTestResult& result, const LayoutRect& layerBounds, const HitTestLocation& hitTestLocation, HitTestFilter hitTestFilter) const |
| { |
| ASSERT(isSelfPaintingLayer() || hasSelfPaintingLayerDescendant()); |
| |
| if (!renderer().hitTest(request, result, hitTestLocation, toLayoutPoint(layerBounds.location() - renderBoxLocation()), hitTestFilter)) { |
| // It's wrong to set innerNode, but then claim that you didn't hit anything, unless it is |
| // a rect-based test. |
| ASSERT(!result.innerNode() || (request.resultIsElementList() && result.listBasedTestResult().size())); |
| return false; |
| } |
| |
| // For positioned generated content, we might still not have a |
| // node by the time we get to the layer level, since none of |
| // the content in the layer has an element. So just walk up |
| // the tree. |
| if (!result.innerNode() || !result.innerNonSharedNode()) { |
| if (isOutOfFlowRenderFragmentedFlow()) { |
| // The flowthread doesn't have an enclosing element, so when hitting the layer of the |
| // flowthread (e.g. the descent area of the RootInlineBox for the image flowed alone |
| // inside the flow thread) we're letting the hit testing continue so it will hit the region. |
| return false; |
| } |
| |
| Element* e = enclosingElement(); |
| if (!result.innerNode()) |
| result.setInnerNode(e); |
| if (!result.innerNonSharedNode()) |
| result.setInnerNonSharedNode(e); |
| } |
| |
| return true; |
| } |
| |
| RenderLayer* RenderLayer::hitTestList(LayerList layerIterator, RenderLayer* rootLayer, |
| const HitTestRequest& request, HitTestResult& result, |
| const LayoutRect& hitTestRect, const HitTestLocation& hitTestLocation, |
| const HitTestingTransformState* transformState, |
| double* zOffsetForDescendants, double* zOffset, |
| const HitTestingTransformState* unflattenedTransformState, |
| bool depthSortDescendants) |
| { |
| if (layerIterator.begin() == layerIterator.end()) |
| return nullptr; |
| |
| if (!hasSelfPaintingLayerDescendant()) |
| return nullptr; |
| |
| RenderLayer* resultLayer = nullptr; |
| |
| for (auto iter = layerIterator.rbegin(); iter != layerIterator.rend(); ++iter) { |
| auto* childLayer = *iter; |
| |
| HitTestResult tempResult(result.hitTestLocation()); |
| auto* hitLayer = childLayer->hitTestLayer(rootLayer, this, request, tempResult, hitTestRect, hitTestLocation, false, transformState, zOffsetForDescendants); |
| |
| // If it is a list-based test, we can safely append the temporary result since it might had hit |
| // nodes but not necesserily had hitLayer set. |
| ASSERT(!result.isRectBasedTest() || request.resultIsElementList()); |
| if (request.resultIsElementList()) |
| result.append(tempResult, request); |
| |
| if (isHitCandidate(hitLayer, depthSortDescendants, zOffset, unflattenedTransformState)) { |
| resultLayer = hitLayer; |
| if (!request.resultIsElementList()) |
| result = tempResult; |
| if (!depthSortDescendants) |
| break; |
| } |
| } |
| |
| return resultLayer; |
| } |
| |
| Ref<ClipRects> RenderLayer::updateClipRects(const ClipRectsContext& clipRectsContext) |
| { |
| ClipRectsType clipRectsType = clipRectsContext.clipRectsType; |
| ASSERT(clipRectsType < NumCachedClipRectsTypes); |
| if (m_clipRectsCache) { |
| if (auto* clipRects = m_clipRectsCache->getClipRects(clipRectsType, clipRectsContext.respectOverflowClip)) { |
| ASSERT(clipRectsContext.rootLayer == m_clipRectsCache->m_clipRectsRoot[clipRectsType]); |
| ASSERT(m_clipRectsCache->m_scrollbarRelevancy[clipRectsType] == clipRectsContext.overlayScrollbarSizeRelevancy); |
| |
| #ifdef CHECK_CACHED_CLIP_RECTS |
| // This code is useful to check cached clip rects, but is too expensive to leave enabled in debug builds by default. |
| ClipRectsContext tempContext(clipRectsContext); |
| tempContext.clipRectsType = TemporaryClipRects; |
| Ref<ClipRects> tempClipRects = ClipRects::create(); |
| calculateClipRects(tempContext, tempClipRects); |
| ASSERT(tempClipRects.get() == *clipRects); |
| #endif |
| return *clipRects; // We have the correct cached value. |
| } |
| } |
| |
| if (!m_clipRectsCache) |
| m_clipRectsCache = makeUnique<ClipRectsCache>(); |
| #ifndef NDEBUG |
| m_clipRectsCache->m_clipRectsRoot[clipRectsType] = clipRectsContext.rootLayer; |
| m_clipRectsCache->m_scrollbarRelevancy[clipRectsType] = clipRectsContext.overlayScrollbarSizeRelevancy; |
| #endif |
| |
| RefPtr<ClipRects> parentClipRects; |
| // For transformed layers, the root layer was shifted to be us, so there is no need to |
| // examine the parent. We want to cache clip rects with us as the root. |
| if (clipRectsContext.rootLayer != this && parent()) |
| parentClipRects = this->parentClipRects(clipRectsContext); |
| |
| auto clipRects = ClipRects::create(); |
| calculateClipRects(clipRectsContext, clipRects); |
| |
| if (parentClipRects && *parentClipRects == clipRects) { |
| m_clipRectsCache->setClipRects(clipRectsType, clipRectsContext.respectOverflowClip, parentClipRects.copyRef()); |
| return parentClipRects.releaseNonNull(); |
| } |
| m_clipRectsCache->setClipRects(clipRectsType, clipRectsContext.respectOverflowClip, clipRects.copyRef()); |
| return clipRects; |
| } |
| |
| ClipRects* RenderLayer::clipRects(const ClipRectsContext& context) const |
| { |
| ASSERT(context.clipRectsType < NumCachedClipRectsTypes); |
| if (!m_clipRectsCache) |
| return nullptr; |
| return m_clipRectsCache->getClipRects(context.clipRectsType, context.respectOverflowClip); |
| } |
| |
| bool RenderLayer::clipCrossesPaintingBoundary() const |
| { |
| return parent()->enclosingPaginationLayer(IncludeCompositedPaginatedLayers) != enclosingPaginationLayer(IncludeCompositedPaginatedLayers) |
| || parent()->enclosingCompositingLayerForRepaint() != enclosingCompositingLayerForRepaint(); |
| } |
| |
| void RenderLayer::calculateClipRects(const ClipRectsContext& clipRectsContext, ClipRects& clipRects) const |
| { |
| if (!parent()) { |
| // The root layer's clip rect is always infinite. |
| clipRects.reset(); |
| return; |
| } |
| |
| ClipRectsType clipRectsType = clipRectsContext.clipRectsType; |
| bool useCached = clipRectsType != TemporaryClipRects; |
| |
| // For transformed layers, the root layer was shifted to be us, so there is no need to |
| // examine the parent. We want to cache clip rects with us as the root. |
| RenderLayer* parentLayer = clipRectsContext.rootLayer != this ? parent() : nullptr; |
| |
| // Ensure that our parent's clip has been calculated so that we can examine the values. |
| if (parentLayer) { |
| if (useCached && parentLayer->clipRects(clipRectsContext)) |
| clipRects = *parentLayer->clipRects(clipRectsContext); |
| else { |
| ClipRectsContext parentContext(clipRectsContext); |
| parentContext.overlayScrollbarSizeRelevancy = IgnoreOverlayScrollbarSize; // FIXME: why? |
| |
| if ((parentContext.clipRectsType != TemporaryClipRects && parentContext.clipRectsType != AbsoluteClipRects) && clipCrossesPaintingBoundary()) |
| parentContext.clipRectsType = TemporaryClipRects; |
| |
| parentLayer->calculateClipRects(parentContext, clipRects); |
| } |
| } else |
| clipRects.reset(); |
| |
| // A fixed object is essentially the root of its containing block hierarchy, so when |
| // we encounter such an object, we reset our clip rects to the fixedClipRect. |
| if (renderer().isFixedPositioned()) { |
| clipRects.setPosClipRect(clipRects.fixedClipRect()); |
| clipRects.setOverflowClipRect(clipRects.fixedClipRect()); |
| clipRects.setFixed(true); |
| } else if (renderer().isInFlowPositioned()) |
| clipRects.setPosClipRect(clipRects.overflowClipRect()); |
| else if (renderer().isAbsolutelyPositioned()) |
| clipRects.setOverflowClipRect(clipRects.posClipRect()); |
| |
| // Update the clip rects that will be passed to child layers. |
| #if PLATFORM(IOS_FAMILY) |
| if (renderer().hasClipOrOverflowClip() && (clipRectsContext.respectOverflowClip == RespectOverflowClip || this != clipRectsContext.rootLayer)) { |
| #else |
| if ((renderer().hasOverflowClip() && (clipRectsContext.respectOverflowClip == RespectOverflowClip || this != clipRectsContext.rootLayer)) || renderer().hasClip()) { |
| #endif |
| // This layer establishes a clip of some kind. |
| LayoutPoint offset; |
| if (!m_hasTransformedAncestor && canUseOffsetFromAncestor()) |
| offset = toLayoutPoint(offsetFromAncestor(clipRectsContext.rootLayer, AdjustForColumns)); |
| else |
| offset = LayoutPoint(renderer().localToContainerPoint(FloatPoint(), &clipRectsContext.rootLayer->renderer())); |
| |
| if (clipRects.fixed() && &clipRectsContext.rootLayer->renderer() == &renderer().view()) |
| offset -= toLayoutSize(renderer().view().frameView().scrollPositionForFixedPosition()); |
| |
| if (renderer().hasOverflowClip()) { |
| ClipRect newOverflowClip = downcast<RenderBox>(renderer()).overflowClipRectForChildLayers(offset, nullptr, clipRectsContext.overlayScrollbarSizeRelevancy); |
| newOverflowClip.setAffectedByRadius(renderer().style().hasBorderRadius()); |
| clipRects.setOverflowClipRect(intersection(newOverflowClip, clipRects.overflowClipRect())); |
| if (renderer().isPositioned()) |
| clipRects.setPosClipRect(intersection(newOverflowClip, clipRects.posClipRect())); |
| } |
| if (renderer().hasClip()) { |
| LayoutRect newPosClip = downcast<RenderBox>(renderer()).clipRect(offset, nullptr); |
| clipRects.setPosClipRect(intersection(newPosClip, clipRects.posClipRect())); |
| clipRects.setOverflowClipRect(intersection(newPosClip, clipRects.overflowClipRect())); |
| clipRects.setFixedClipRect(intersection(newPosClip, clipRects.fixedClipRect())); |
| } |
| } |
| |
| LOG_WITH_STREAM(ClipRects, stream << "RenderLayer " << this << " calculateClipRects " << clipRects); |
| } |
| |
| Ref<ClipRects> RenderLayer::parentClipRects(const ClipRectsContext& clipRectsContext) const |
| { |
| ASSERT(parent()); |
| |
| auto temporaryParentClipRects = [&](const ClipRectsContext& clipContext) { |
| auto parentClipRects = ClipRects::create(); |
| parent()->calculateClipRects(clipContext, parentClipRects); |
| return parentClipRects; |
| }; |
| |
| if (clipRectsContext.clipRectsType == TemporaryClipRects) |
| return temporaryParentClipRects(clipRectsContext); |
| |
| if (clipRectsContext.clipRectsType != AbsoluteClipRects && clipCrossesPaintingBoundary()) { |
| ClipRectsContext tempClipRectsContext(clipRectsContext); |
| tempClipRectsContext.clipRectsType = TemporaryClipRects; |
| return temporaryParentClipRects(tempClipRectsContext); |
| } |
| |
| return parent()->updateClipRects(clipRectsContext); |
| } |
| |
| static inline ClipRect backgroundClipRectForPosition(const ClipRects& parentRects, PositionType position) |
| { |
| if (position == PositionType::Fixed) |
| return parentRects.fixedClipRect(); |
| |
| if (position == PositionType::Absolute) |
| return parentRects.posClipRect(); |
| |
| return parentRects.overflowClipRect(); |
| } |
| |
| ClipRect RenderLayer::backgroundClipRect(const ClipRectsContext& clipRectsContext) const |
| { |
| ASSERT(parent()); |
| auto parentRects = parentClipRects(clipRectsContext); |
| ClipRect backgroundClipRect = backgroundClipRectForPosition(parentRects, renderer().style().position()); |
| RenderView& view = renderer().view(); |
| // Note: infinite clipRects should not be scrolled here, otherwise they will accidentally no longer be considered infinite. |
| if (parentRects->fixed() && &clipRectsContext.rootLayer->renderer() == &view && !backgroundClipRect.isInfinite()) |
| backgroundClipRect.moveBy(view.frameView().scrollPositionForFixedPosition()); |
| |
| LOG_WITH_STREAM(ClipRects, stream << "RenderLayer " << this << " backgroundClipRect with context " << clipRectsContext << " returning " << backgroundClipRect); |
| return backgroundClipRect; |
| } |
| |
| void RenderLayer::calculateRects(const ClipRectsContext& clipRectsContext, const LayoutRect& paintDirtyRect, LayoutRect& layerBounds, |
| ClipRect& backgroundRect, ClipRect& foregroundRect, const LayoutSize& offsetFromRoot) const |
| { |
| if (clipRectsContext.rootLayer != this && parent()) { |
| backgroundRect = backgroundClipRect(clipRectsContext); |
| backgroundRect.intersect(paintDirtyRect); |
| } else |
| backgroundRect = paintDirtyRect; |
| |
| LayoutSize offsetFromRootLocal = offsetFromRoot; |
| |
| if (clipRectsContext.rootLayer->isOutOfFlowRenderFragmentedFlow()) { |
| LayoutPoint absPos = LayoutPoint(renderer().view().localToAbsolute(FloatPoint(), IsFixed)); |
| offsetFromRootLocal += toLayoutSize(absPos); |
| } |
| |
| layerBounds = LayoutRect(toLayoutPoint(offsetFromRootLocal), size()); |
| |
| foregroundRect = backgroundRect; |
| |
| // Update the clip rects that will be passed to child layers. |
| if (renderer().hasClipOrOverflowClip()) { |
| // This layer establishes a clip of some kind. |
| if (renderer().hasOverflowClip() && (this != clipRectsContext.rootLayer || clipRectsContext.respectOverflowClip == RespectOverflowClip)) { |
| foregroundRect.intersect(downcast<RenderBox>(renderer()).overflowClipRect(toLayoutPoint(offsetFromRootLocal), nullptr, clipRectsContext.overlayScrollbarSizeRelevancy)); |
| if (renderer().style().hasBorderRadius()) |
| foregroundRect.setAffectedByRadius(true); |
| } |
| |
| if (renderer().hasClip()) { |
| // Clip applies to *us* as well, so update the damageRect. |
| LayoutRect newPosClip = downcast<RenderBox>(renderer()).clipRect(toLayoutPoint(offsetFromRootLocal), nullptr); |
| backgroundRect.intersect(newPosClip); |
| foregroundRect.intersect(newPosClip); |
| } |
| |
| // If we establish a clip at all, then make sure our background rect is intersected with our layer's bounds including our visual overflow, |
| // since any visual overflow like box-shadow or border-outset is not clipped by overflow:auto/hidden. |
| if (renderBox()->hasVisualOverflow()) { |
| // FIXME: Does not do the right thing with CSS regions yet, since we don't yet factor in the |
| // individual region boxes as overflow. |
| LayoutRect layerBoundsWithVisualOverflow = renderBox()->visualOverflowRect(); |
| renderBox()->flipForWritingMode(layerBoundsWithVisualOverflow); // Layers are in physical coordinates, so the overflow has to be flipped. |
| layerBoundsWithVisualOverflow.move(offsetFromRootLocal); |
| if (this != clipRectsContext.rootLayer || clipRectsContext.respectOverflowClip == RespectOverflowClip) |
| backgroundRect.intersect(layerBoundsWithVisualOverflow); |
| } else { |
| // Shift the bounds to be for our region only. |
| LayoutRect bounds = renderBox()->borderBoxRectInFragment(nullptr); |
| |
| bounds.move(offsetFromRootLocal); |
| if (this != clipRectsContext.rootLayer || clipRectsContext.respectOverflowClip == RespectOverflowClip) |
| backgroundRect.intersect(bounds); |
| } |
| } |
| } |
| |
| LayoutRect RenderLayer::childrenClipRect() const |
| { |
| // FIXME: border-radius not accounted for. |
| // FIXME: Regions not accounted for. |
| RenderLayer* clippingRootLayer = clippingRootForPainting(); |
| LayoutRect layerBounds; |
| ClipRect backgroundRect; |
| ClipRect foregroundRect; |
| ClipRectsContext clipRectsContext(clippingRootLayer, TemporaryClipRects); |
| // Need to use temporary clip rects, because the value of 'dontClipToOverflow' may be different from the painting path (<rdar://problem/11844909>). |
| calculateRects(clipRectsContext, LayoutRect::infiniteRect(), layerBounds, backgroundRect, foregroundRect, offsetFromAncestor(clipRectsContext.rootLayer)); |
| if (foregroundRect.rect().isInfinite()) |
| return renderer().view().unscaledDocumentRect(); |
| |
| auto absoluteClippingRect = clippingRootLayer->renderer().localToAbsoluteQuad(FloatQuad(foregroundRect.rect())).enclosingBoundingBox(); |
| return intersection(absoluteClippingRect, renderer().view().unscaledDocumentRect()); |
| } |
| |
| LayoutRect RenderLayer::clipRectRelativeToAncestor(RenderLayer* ancestor, LayoutSize offsetFromAncestor, const LayoutRect& constrainingRect) const |
| { |
| LayoutRect layerBounds; |
| ClipRect backgroundRect; |
| ClipRect foregroundRect; |
| auto clipRectType = !m_enclosingPaginationLayer || m_enclosingPaginationLayer == ancestor ? PaintingClipRects : TemporaryClipRects; |
| ClipRectsContext clipRectsContext(ancestor, clipRectType); |
| calculateRects(clipRectsContext, constrainingRect, layerBounds, backgroundRect, foregroundRect, offsetFromAncestor); |
| return backgroundRect.rect(); |
| } |
| |
| LayoutRect RenderLayer::selfClipRect() const |
| { |
| // FIXME: border-radius not accounted for. |
| // FIXME: Regions not accounted for. |
| RenderLayer* clippingRootLayer = clippingRootForPainting(); |
| LayoutRect clipRect = clipRectRelativeToAncestor(clippingRootLayer, offsetFromAncestor(clippingRootLayer), renderer().view().documentRect()); |
| return clippingRootLayer->renderer().localToAbsoluteQuad(FloatQuad(clipRect)).enclosingBoundingBox(); |
| } |
| |
| LayoutRect RenderLayer::localClipRect(bool& clipExceedsBounds) const |
| { |
| clipExceedsBounds = false; |
| // FIXME: border-radius not accounted for. |
| // FIXME: Regions not accounted for. |
| RenderLayer* clippingRootLayer = clippingRootForPainting(); |
| LayoutSize offsetFromRoot = offsetFromAncestor(clippingRootLayer); |
| LayoutRect clipRect = clipRectRelativeToAncestor(clippingRootLayer, offsetFromRoot, LayoutRect::infiniteRect()); |
| if (clipRect.isInfinite()) |
| return clipRect; |
| |
| if (renderer().hasClip()) { |
| // CSS clip may be larger than our border box. |
| LayoutRect cssClipRect = downcast<RenderBox>(renderer()).clipRect(toLayoutPoint(offsetFromRoot), nullptr); |
| clipExceedsBounds = !clipRect.contains(cssClipRect); |
| } |
| |
| clipRect.move(-offsetFromRoot); |
| return clipRect; |
| } |
| |
| void RenderLayer::addBlockSelectionGapsBounds(const LayoutRect& bounds) |
| { |
| m_blockSelectionGapsBounds.unite(enclosingIntRect(bounds)); |
| } |
| |
| void RenderLayer::clearBlockSelectionGapsBounds() |
| { |
| m_blockSelectionGapsBounds = IntRect(); |
| for (RenderLayer* child = firstChild(); child; child = child->nextSibling()) |
| child->clearBlockSelectionGapsBounds(); |
| } |
| |
| void RenderLayer::repaintBlockSelectionGaps() |
| { |
| for (RenderLayer* child = firstChild(); child; child = child->nextSibling()) |
| child->repaintBlockSelectionGaps(); |
| |
| if (m_blockSelectionGapsBounds.isEmpty()) |
| return; |
| |
| LayoutRect rect = m_blockSelectionGapsBounds; |
| rect.moveBy(-scrollPosition()); |
| if (renderer().hasOverflowClip() && !usesCompositedScrolling()) |
| rect.intersect(downcast<RenderBox>(renderer()).overflowClipRect(LayoutPoint(), nullptr)); // FIXME: Regions not accounted for. |
| if (renderer().hasClip()) |
| rect.intersect(downcast<RenderBox>(renderer()).clipRect(LayoutPoint(), nullptr)); // FIXME: Regions not accounted for. |
| if (!rect.isEmpty()) |
| renderer().repaintRectangle(rect); |
| } |
| |
| bool RenderLayer::intersectsDamageRect(const LayoutRect& layerBounds, const LayoutRect& damageRect, const RenderLayer* rootLayer, const LayoutSize& offsetFromRoot, const LayoutRect* cachedBoundingBox) const |
| { |
| // Always examine the canvas and the root. |
| // FIXME: Could eliminate the isDocumentElementRenderer() check if we fix background painting so that the RenderView |
| // paints the root's background. |
| if (isRenderViewLayer() || renderer().isDocumentElementRenderer()) |
| return true; |
| |
| if (damageRect.isInfinite()) |
| return true; |
| |
| if (damageRect.isEmpty()) |
| return false; |
| |
| // If we aren't an inline flow, and our layer bounds do intersect the damage rect, then we can return true. |
| if (!renderer().isRenderInline() && layerBounds.intersects(damageRect)) |
| return true; |
| |
| // Otherwise we need to compute the bounding box of this single layer and see if it intersects |
| // the damage rect. It's possible the fragment computed the bounding box already, in which case we |
| // can use the cached value. |
| if (cachedBoundingBox) |
| return cachedBoundingBox->intersects(damageRect); |
| |
| return boundingBox(rootLayer, offsetFromRoot).intersects(damageRect); |
| } |
| |
| LayoutRect RenderLayer::localBoundingBox(OptionSet<CalculateLayerBoundsFlag> flags) const |
| { |
| // There are three special cases we need to consider. |
| // (1) Inline Flows. For inline flows we will create a bounding box that fully encompasses all of the lines occupied by the |
| // inline. In other words, if some <span> wraps to three lines, we'll create a bounding box that fully encloses the |
| // line boxes of all three lines (including overflow on those lines). |
| // (2) Left/Top Overflow. The width/height of layers already includes right/bottom overflow. However, in the case of left/top |
| // overflow, we have to create a bounding box that will extend to include this overflow. |
| // (3) Floats. When a layer has overhanging floats that it paints, we need to make sure to include these overhanging floats |
| // as part of our bounding box. We do this because we are the responsible layer for both hit testing and painting those |
| // floats. |
| LayoutRect result; |
| if (renderer().isInline() && is<RenderInline>(renderer())) |
| result = downcast<RenderInline>(renderer()).linesVisualOverflowBoundingBox(); |
| else if (is<RenderTableRow>(renderer())) { |
| auto& tableRow = downcast<RenderTableRow>(renderer()); |
| // Our bounding box is just the union of all of our cells' border/overflow rects. |
| for (RenderTableCell* cell = tableRow.firstCell(); cell; cell = cell->nextCell()) { |
| LayoutRect bbox = cell->borderBoxRect(); |
| result.unite(bbox); |
| LayoutRect overflowRect = tableRow.visualOverflowRect(); |
| if (bbox != overflowRect) |
| result.unite(overflowRect); |
| } |
| } else { |
| RenderBox* box = renderBox(); |
| ASSERT(box); |
| if (!(flags & DontConstrainForMask) && box->hasMask()) { |
| result = box->maskClipRect(LayoutPoint()); |
| box->flipForWritingMode(result); // The mask clip rect is in physical coordinates, so we have to flip, since localBoundingBox is not. |
| } else |
| result = box->visualOverflowRect(); |
| } |
| return result; |
| } |
| |
| LayoutRect RenderLayer::boundingBox(const RenderLayer* ancestorLayer, const LayoutSize& offsetFromRoot, OptionSet<CalculateLayerBoundsFlag> flags) const |
| { |
| LayoutRect result = localBoundingBox(flags); |
| if (renderer().view().frameView().hasFlippedBlockRenderers()) { |
| if (renderer().isBox()) |
| renderBox()->flipForWritingMode(result); |
| else |
| renderer().containingBlock()->flipForWritingMode(result); |
| } |
| |
| PaginationInclusionMode inclusionMode = ExcludeCompositedPaginatedLayers; |
| if (flags & UseFragmentBoxesIncludingCompositing) |
| inclusionMode = IncludeCompositedPaginatedLayers; |
| |
| const RenderLayer* paginationLayer = nullptr; |
| if (flags.containsAny({ UseFragmentBoxesExcludingCompositing, UseFragmentBoxesIncludingCompositing })) |
| paginationLayer = enclosingPaginationLayerInSubtree(ancestorLayer, inclusionMode); |
| |
| const RenderLayer* childLayer = this; |
| bool isPaginated = paginationLayer; |
| while (paginationLayer) { |
| // Split our box up into the actual fragment boxes that render in the columns/pages and unite those together to |
| // get our true bounding box. |
| result.move(childLayer->offsetFromAncestor(paginationLayer)); |
| |
| auto& enclosingFragmentedFlow = downcast<RenderFragmentedFlow>(paginationLayer->renderer()); |
| result = enclosingFragmentedFlow.fragmentsBoundingBox(result); |
| |
| childLayer = paginationLayer; |
| paginationLayer = paginationLayer->parent()->enclosingPaginationLayerInSubtree(ancestorLayer, inclusionMode); |
| } |
| |
| if (isPaginated) { |
| result.move(childLayer->offsetFromAncestor(ancestorLayer)); |
| return result; |
| } |
| |
| result.move(offsetFromRoot); |
| return result; |
| } |
| |
| bool RenderLayer::getOverlapBoundsIncludingChildrenAccountingForTransformAnimations(LayoutRect& bounds, OptionSet<CalculateLayerBoundsFlag> additionalFlags) const |
| { |
| // The animation will override the display transform, so don't include it. |
| auto boundsFlags = additionalFlags | (defaultCalculateLayerBoundsFlags() - IncludeSelfTransform); |
| |
| bounds = calculateLayerBounds(this, LayoutSize(), boundsFlags); |
| |
| LayoutRect animatedBounds = bounds; |
| if (RuntimeEnabledFeatures::sharedFeatures().webAnimationsCSSIntegrationEnabled()) { |
| if (auto* timeline = renderer().documentTimeline()) { |
| if (timeline->computeExtentOfAnimation(renderer(), animatedBounds)) { |
| bounds = animatedBounds; |
| return true; |
| } |
| } |
| } else { |
| if (renderer().animation().computeExtentOfAnimation(renderer(), animatedBounds)) { |
| bounds = animatedBounds; |
| return true; |
| } |
| } |
| |
| return false; |
| } |
| |
| IntRect RenderLayer::absoluteBoundingBox() const |
| { |
| const RenderLayer* rootLayer = root(); |
| return snappedIntRect(boundingBox(rootLayer, offsetFromAncestor(rootLayer))); |
| } |
| |
| FloatRect RenderLayer::absoluteBoundingBoxForPainting() const |
| { |
| const RenderLayer* rootLayer = root(); |
| return snapRectToDevicePixels(boundingBox(rootLayer, offsetFromAncestor(rootLayer)), renderer().document().deviceScaleFactor()); |
| } |
| |
| LayoutRect RenderLayer::overlapBounds() const |
| { |
| if (overlapBoundsIncludeChildren()) |
| return calculateLayerBounds(this, { }, defaultCalculateLayerBoundsFlags() | IncludeFilterOutsets); |
| |
| return localBoundingBox(); |
| } |
| |
| LayoutRect RenderLayer::calculateLayerBounds(const RenderLayer* ancestorLayer, const LayoutSize& offsetFromRoot, OptionSet<CalculateLayerBoundsFlag> flags) const |
| { |
| if (!isSelfPaintingLayer()) |
| return LayoutRect(); |
| |
| // FIXME: This could be improved to do a check like hasVisibleNonCompositingDescendantLayers() (bug 92580). |
| if ((flags & ExcludeHiddenDescendants) && this != ancestorLayer && !hasVisibleContent() && !hasVisibleDescendant()) |
| return LayoutRect(); |
| |
| if (isRenderViewLayer()) { |
| // The root layer is always just the size of the document. |
| return renderer().view().unscaledDocumentRect(); |
| } |
| |
| LayoutRect boundingBoxRect = localBoundingBox(flags); |
| if (renderer().view().frameView().hasFlippedBlockRenderers()) { |
| if (is<RenderBox>(renderer())) |
| downcast<RenderBox>(renderer()).flipForWritingMode(boundingBoxRect); |
| else |
| renderer().containingBlock()->flipForWritingMode(boundingBoxRect); |
| } |
| |
| if (renderer().isDocumentElementRenderer()) { |
| // If the root layer becomes composited (e.g. because some descendant with negative z-index is composited), |
| // then it has to be big enough to cover the viewport in order to display the background. This is akin |
| // to the code in RenderBox::paintRootBoxFillLayers(). |
| const FrameView& frameView = renderer().view().frameView(); |
| boundingBoxRect.setWidth(std::max(boundingBoxRect.width(), frameView.contentsWidth() - boundingBoxRect.x())); |
| boundingBoxRect.setHeight(std::max(boundingBoxRect.height(), frameView.contentsHeight() - boundingBoxRect.y())); |
| } |
| |
| LayoutRect unionBounds = boundingBoxRect; |
| |
| if (flags & UseLocalClipRectIfPossible) { |
| bool clipExceedsBounds = false; |
| LayoutRect localClipRect = this->localClipRect(clipExceedsBounds); |
| if (!localClipRect.isInfinite() && !clipExceedsBounds) { |
| if ((flags & IncludeSelfTransform) && paintsWithTransform(PaintBehavior::Normal)) |
| localClipRect = transform()->mapRect(localClipRect); |
| |
| localClipRect.move(offsetFromAncestor(ancestorLayer)); |
| return localClipRect; |
| } |
| } |
| |
| // FIXME: should probably just pass 'flags' down to descendants. |
| auto descendantFlags = defaultCalculateLayerBoundsFlags() | (flags & ExcludeHiddenDescendants) | (flags & IncludeCompositedDescendants); |
| |
| const_cast<RenderLayer*>(this)->updateLayerListsIfNeeded(); |
| |
| if (RenderLayer* reflection = reflectionLayer()) { |
| if (!reflection->isComposited()) { |
| LayoutRect childUnionBounds = reflection->calculateLayerBounds(this, reflection->offsetFromAncestor(this), descendantFlags); |
| unionBounds.unite(childUnionBounds); |
| } |
| } |
| |
| ASSERT(isStackingContext() || !positiveZOrderLayers().size()); |
| |
| #if !ASSERT_DISABLED |
| LayerListMutationDetector mutationChecker(const_cast<RenderLayer&>(*this)); |
| #endif |
| |
| auto computeLayersUnion = [this, &unionBounds, flags, descendantFlags] (const RenderLayer& childLayer) { |
| if (!(flags & IncludeCompositedDescendants) && (childLayer.isComposited() || childLayer.paintsIntoProvidedBacking())) |
| return; |
| LayoutRect childBounds = childLayer.calculateLayerBounds(this, childLayer.offsetFromAncestor(this), descendantFlags); |
| // Ignore child layer (and behave as if we had overflow: hidden) when it is positioned off the parent layer so much |
| // that we hit the max LayoutUnit value. |
| unionBounds.checkedUnite(childBounds); |
| }; |
| |
| for (auto* childLayer : negativeZOrderLayers()) |
| computeLayersUnion(*childLayer); |
| |
| for (auto* childLayer : positiveZOrderLayers()) |
| computeLayersUnion(*childLayer); |
| |
| for (auto* childLayer : normalFlowLayers()) |
| computeLayersUnion(*childLayer); |
| |
| if (flags.contains(IncludeFilterOutsets) || (flags.contains(IncludePaintedFilterOutsets) && paintsWithFilters())) |
| renderer().style().filterOutsets().expandRect(unionBounds); |
| |
| if ((flags & IncludeSelfTransform) && paintsWithTransform(PaintBehavior::Normal)) { |
| TransformationMatrix* affineTrans = transform(); |
| boundingBoxRect = affineTrans->mapRect(boundingBoxRect); |
| unionBounds = affineTrans->mapRect(unionBounds); |
| } |
| unionBounds.move(offsetFromRoot); |
| return unionBounds; |
| } |
| |
| void RenderLayer::clearClipRectsIncludingDescendants(ClipRectsType typeToClear) |
| { |
| // FIXME: it's not clear how this layer not having clip rects guarantees that no descendants have any. |
| if (!m_clipRectsCache) |
| return; |
| |
| clearClipRects(typeToClear); |
| |
| for (RenderLayer* l = firstChild(); l; l = l->nextSibling()) |
| l->clearClipRectsIncludingDescendants(typeToClear); |
| } |
| |
| void RenderLayer::clearClipRects(ClipRectsType typeToClear) |
| { |
| if (typeToClear == AllClipRectTypes) |
| m_clipRectsCache = nullptr; |
| else { |
| ASSERT(typeToClear < NumCachedClipRectsTypes); |
| m_clipRectsCache->setClipRects(typeToClear, RespectOverflowClip, nullptr); |
| m_clipRectsCache->setClipRects(typeToClear, IgnoreOverflowClip, nullptr); |
| } |
| } |
| |
| RenderLayerBacking* RenderLayer::ensureBacking() |
| { |
| if (!m_backing) { |
| m_backing = makeUnique<RenderLayerBacking>(*this); |
| compositor().layerBecameComposited(*this); |
| |
| updateFilterPaintingStrategy(); |
| } |
| return m_backing.get(); |
| } |
| |
| void RenderLayer::clearBacking(bool layerBeingDestroyed) |
| { |
| if (!m_backing) |
| return; |
| |
| if (!renderer().renderTreeBeingDestroyed()) |
| compositor().layerBecameNonComposited(*this); |
| |
| m_backing->willBeDestroyed(); |
| m_backing = nullptr; |
| |
| if (!layerBeingDestroyed) |
| updateFilterPaintingStrategy(); |
| } |
| |
| bool RenderLayer::hasCompositedMask() const |
| { |
| return m_backing && m_backing->hasMaskLayer(); |
| } |
| |
| GraphicsLayer* RenderLayer::layerForHorizontalScrollbar() const |
| { |
| return m_backing ? m_backing->layerForHorizontalScrollbar() : nullptr; |
| } |
| |
| GraphicsLayer* RenderLayer::layerForVerticalScrollbar() const |
| { |
| return m_backing ? m_backing->layerForVerticalScrollbar() : nullptr; |
| } |
| |
| GraphicsLayer* RenderLayer::layerForScrollCorner() const |
| { |
| return m_backing ? m_backing->layerForScrollCorner() : nullptr; |
| } |
| |
| bool RenderLayer::paintsWithTransform(OptionSet<PaintBehavior> paintBehavior) const |
| { |
| bool paintsToWindow = !isComposited() || backing()->paintsIntoWindow(); |
| return transform() && ((paintBehavior & PaintBehavior::FlattenCompositingLayers) || paintsToWindow); |
| } |
| |
| bool RenderLayer::shouldPaintMask(OptionSet<PaintBehavior> paintBehavior, OptionSet<PaintLayerFlag> paintFlags) const |
| { |
| if (!renderer().hasMask()) |
| return false; |
| |
| bool paintsToWindow = !isComposited() || backing()->paintsIntoWindow(); |
| if (paintsToWindow || (paintBehavior & PaintBehavior::FlattenCompositingLayers)) |
| return true; |
| |
| return paintFlags.contains(PaintLayerPaintingCompositingMaskPhase); |
| } |
| |
| bool RenderLayer::shouldApplyClipPath(OptionSet<PaintBehavior> paintBehavior, OptionSet<PaintLayerFlag> paintFlags) const |
| { |
| if (!renderer().hasClipPath()) |
| return false; |
| |
| bool paintsToWindow = !isComposited() || backing()->paintsIntoWindow(); |
| if (paintsToWindow || (paintBehavior & PaintBehavior::FlattenCompositingLayers)) |
| return true; |
| |
| return paintFlags.contains(PaintLayerPaintingCompositingClipPathPhase); |
| } |
| |
| bool RenderLayer::scrollingMayRevealBackground() const |
| { |
| return scrollsOverflow() || usesCompositedScrolling(); |
| } |
| |
| bool RenderLayer::backgroundIsKnownToBeOpaqueInRect(const LayoutRect& localRect) const |
| { |
| if (!isSelfPaintingLayer() && !hasSelfPaintingLayerDescendant()) |
| return false; |
| |
| if (paintsWithTransparency(PaintBehavior::Normal)) |
| return false; |
| |
| if (renderer().isDocumentElementRenderer()) { |
| // Normally the document element doens't have a layer. If it does have a layer, its background propagates to the RenderView |
| // so this layer doesn't draw it. |
| return false; |
| } |
| |
| // We can't use hasVisibleContent(), because that will be true if our renderer is hidden, but some child |
| // is visible and that child doesn't cover the entire rect. |
| if (renderer().style().visibility() != Visibility::Visible) |
| return false; |
| |
| if (paintsWithFilters() && renderer().style().filter().hasFilterThatAffectsOpacity()) |
| return false; |
| |
| // FIXME: Handle simple transforms. |
| if (paintsWithTransform(PaintBehavior::Normal)) |
| return false; |
| |
| // FIXME: Remove this check. |
| // This function should not be called when layer-lists are dirty. |
| // It is somehow getting triggered during style update. |
| if (zOrderListsDirty() || normalFlowListDirty()) |
| return false; |
| |
| // Table painting is special; a table paints its sections. |
| if (renderer().isTablePart()) |
| return false; |
| |
| // FIXME: We currently only check the immediate renderer, |
| // which will miss many cases. |
| if (renderer().backgroundIsKnownToBeOpaqueInRect(localRect)) |
| return true; |
| |
| // We can't consult child layers if we clip, since they might cover |
| // parts of the rect that are clipped out. |
| if (renderer().hasOverflowClip()) |
| return false; |
| |
| return listBackgroundIsKnownToBeOpaqueInRect(positiveZOrderLayers(), localRect) |
| || listBackgroundIsKnownToBeOpaqueInRect(negativeZOrderLayers(), localRect) |
| || listBackgroundIsKnownToBeOpaqueInRect(normalFlowLayers(), localRect); |
| } |
| |
| bool RenderLayer::listBackgroundIsKnownToBeOpaqueInRect(const LayerList& list, const LayoutRect& localRect) const |
| { |
| if (list.begin() == list.end()) |
| return false; |
| |
| for (auto iter = list.rbegin(); iter != list.rend(); ++iter) { |
| const auto* childLayer = *iter; |
| if (childLayer->isComposited()) |
| continue; |
| |
| if (!childLayer->canUseOffsetFromAncestor()) |
| continue; |
| |
| LayoutRect childLocalRect(localRect); |
| childLocalRect.move(-childLayer->offsetFromAncestor(this)); |
| |
| if (childLayer->backgroundIsKnownToBeOpaqueInRect(childLocalRect)) |
| return true; |
| } |
| return false; |
| } |
| |
| void RenderLayer::repaintIncludingDescendants() |
| { |
| renderer().repaint(); |
| for (RenderLayer* current = firstChild(); current; current = current->nextSibling()) |
| current->repaintIncludingDescendants(); |
| } |
| |
| void RenderLayer::setBackingNeedsRepaint(GraphicsLayer::ShouldClipToLayer shouldClip) |
| { |
| ASSERT(isComposited()); |
| if (backing()->paintsIntoWindow()) { |
| // If we're trying to repaint the placeholder document layer, propagate the |
| // repaint to the native view system. |
| renderer().view().repaintViewRectangle(absoluteBoundingBox()); |
| } else |
| backing()->setContentsNeedDisplay(shouldClip); |
| } |
| |
| void RenderLayer::setBackingNeedsRepaintInRect(const LayoutRect& r, GraphicsLayer::ShouldClipToLayer shouldClip) |
| { |
| // https://bugs.webkit.org/show_bug.cgi?id=61159 describes an unreproducible crash here, |
| // so assert but check that the layer is composited. |
| ASSERT(isComposited()); |
| if (!isComposited() || backing()->paintsIntoWindow()) { |
| // If we're trying to repaint the placeholder document layer, propagate the |
| // repaint to the native view system. |
| LayoutRect absRect(r); |
| absRect.move(offsetFromAncestor(root())); |
| |
| renderer().view().repaintViewRectangle(absRect); |
| } else |
| backing()->setContentsNeedDisplayInRect(r, shouldClip); |
| } |
| |
| // Since we're only painting non-composited layers, we know that they all share the same repaintContainer. |
| void RenderLayer::repaintIncludingNonCompositingDescendants(RenderLayerModelObject* repaintContainer) |
| { |
| renderer().repaintUsingContainer(repaintContainer, renderer().clippedOverflowRectForRepaint(repaintContainer)); |
| |
| for (RenderLayer* curr = firstChild(); curr; curr = curr->nextSibling()) { |
| if (!curr->isComposited()) |
| curr->repaintIncludingNonCompositingDescendants(repaintContainer); |
| } |
| } |
| |
| bool RenderLayer::shouldBeSelfPaintingLayer() const |
| { |
| if (!isNormalFlowOnly()) |
| return true; |
| |
| return hasOverlayScrollbars() |
| || canUseCompositedScrolling() |
| || renderer().isTableRow() |
| || renderer().isCanvas() |
| || renderer().isVideo() |
| || renderer().isEmbeddedObject() |
| || (renderer().isRenderImage() && downcast<RenderImage>(renderer()).isEditableImage()) |
| || renderer().isRenderIFrame() |
| || renderer().isInFlowRenderFragmentedFlow(); |
| } |
| |
| void RenderLayer::updateSelfPaintingLayer() |
| { |
| bool isSelfPaintingLayer = shouldBeSelfPaintingLayer(); |
| if (m_isSelfPaintingLayer == isSelfPaintingLayer) |
| return; |
| |
| m_isSelfPaintingLayer = isSelfPaintingLayer; |
| if (!parent()) |
| return; |
| if (isSelfPaintingLayer) |
| parent()->setAncestorChainHasSelfPaintingLayerDescendant(); |
| else |
| parent()->dirtyAncestorChainHasSelfPaintingLayerDescendantStatus(); |
| } |
| |
| static bool hasVisibleBoxDecorationsOrBackground(const RenderElement& renderer) |
| { |
| return renderer.hasVisibleBoxDecorations() || renderer.style().hasOutline(); |
| } |
| |
| static bool styleHasSmoothingTextMode(const RenderStyle& style) |
| { |
| FontSmoothingMode smoothingMode = style.fontDescription().fontSmoothing(); |
| return smoothingMode == FontSmoothingMode::AutoSmoothing || smoothingMode == FontSmoothingMode::SubpixelAntialiased; |
| } |
| |
| // Constrain the depth and breadth of the search for performance. |
| static const unsigned maxRendererTraversalCount = 200; |
| |
| static void determineNonLayerDescendantsPaintedContent(const RenderElement& renderer, unsigned& renderersTraversed, RenderLayer::PaintedContentRequest& request) |
| { |
| for (const auto& child : childrenOfType<RenderObject>(renderer)) { |
| if (++renderersTraversed > maxRendererTraversalCount) { |
| request.makeStatesUndetermined(); |
| return; |
| } |
| |
| if (is<RenderText>(child)) { |
| const auto& renderText = downcast<RenderText>(child); |
| if (!renderText.hasRenderedText()) |
| continue; |
| |
| if (renderer.style().userSelect() != UserSelect::None) |
| request.setHasPaintedContent(); |
| |
| if (!renderText.text().isAllSpecialCharacters<isHTMLSpace>()) { |
| request.setHasPaintedContent(); |
| |
| if (request.needToDetermineSubpixelAntialiasedTextState() && styleHasSmoothingTextMode(child.style())) |
| request.setHasSubpixelAntialiasedText(); |
| } |
| |
| if (request.isSatisfied()) |
| return; |
| } |
| |
| if (!is<RenderElement>(child)) |
| continue; |
| |
| const RenderElement& renderElementChild = downcast<RenderElement>(child); |
| |
| if (is<RenderLayerModelObject>(renderElementChild) && downcast<RenderLayerModelObject>(renderElementChild).hasSelfPaintingLayer()) |
| continue; |
| |
| if (hasVisibleBoxDecorationsOrBackground(renderElementChild)) { |
| request.setHasPaintedContent(); |
| if (request.isSatisfied()) |
| return; |
| } |
| |
| if (is<RenderReplaced>(renderElementChild)) { |
| request.setHasPaintedContent(); |
| |
| if (is<RenderImage>(renderElementChild) && request.needToDetermineSubpixelAntialiasedTextState()) { |
| auto& imageRenderer = downcast<RenderImage>(renderElementChild); |
| // May draw text if showing alt text, or image is an SVG image or PDF image. |
| if ((imageRenderer.isShowingAltText() || imageRenderer.hasNonBitmapImage()) && styleHasSmoothingTextMode(child.style())) |
| request.setHasSubpixelAntialiasedText(); |
| } |
| |
| if (request.isSatisfied()) |
| return; |
| } |
| |
| determineNonLayerDescendantsPaintedContent(renderElementChild, renderersTraversed, request); |
| if (request.isSatisfied()) |
| return; |
| } |
| } |
| |
| bool RenderLayer::hasNonEmptyChildRenderers(PaintedContentRequest& request) const |
| { |
| unsigned renderersTraversed = 0; |
| determineNonLayerDescendantsPaintedContent(renderer(), renderersTraversed, request); |
| return request.probablyHasPaintedContent(); |
| } |
| |
| bool RenderLayer::hasVisibleBoxDecorationsOrBackground() const |
| { |
| return WebCore::hasVisibleBoxDecorationsOrBackground(renderer()); |
| } |
| |
| bool RenderLayer::hasVisibleBoxDecorations() const |
| { |
| if (!hasVisibleContent()) |
| return false; |
| |
| return hasVisibleBoxDecorationsOrBackground() || hasOverflowControls(); |
| } |
| |
| bool RenderLayer::isVisuallyNonEmpty(PaintedContentRequest* request) const |
| { |
| ASSERT(!m_visibleDescendantStatusDirty); |
| |
| if (!hasVisibleContent() || !renderer().style().opacity()) |
| return false; |
| |
| if (renderer().isRenderReplaced() || hasOverflowControls()) { |
| if (!request) |
| return true; |
| |
| request->setHasPaintedContent(); |
| if (request->isSatisfied()) |
| return true; |
| } |
| |
| if (hasVisibleBoxDecorationsOrBackground()) { |
| if (!request) |
| return true; |
| |
| request->setHasPaintedContent(); |
| if (request->isSatisfied()) |
| return true; |
| } |
| |
| PaintedContentRequest localRequest; |
| if (!request) |
| request = &localRequest; |
| |
| return hasNonEmptyChildRenderers(*request); |
| } |
| |
| void RenderLayer::updateScrollbarsAfterStyleChange(const RenderStyle* oldStyle) |
| { |
| // Overflow are a box concept. |
| RenderBox* box = renderBox(); |
| if (!box) |
| return; |
| |
| // List box parts handle the scrollbars by themselves so we have nothing to do. |
| if (box->style().appearance() == ListboxPart) |
| return; |
| |
| Overflow overflowX = box->style().overflowX(); |
| Overflow overflowY = box->style().overflowY(); |
| |
| // To avoid doing a relayout in updateScrollbarsAfterLayout, we try to keep any automatic scrollbar that was already present. |
| bool needsHorizontalScrollbar = box->hasOverflowClip() && ((hasHorizontalScrollbar() && styleDefinesAutomaticScrollbar(box->style(), HorizontalScrollbar)) || styleRequiresScrollbar(box->style(), HorizontalScrollbar)); |
| bool needsVerticalScrollbar = box->hasOverflowClip() && ((hasVerticalScrollbar() && styleDefinesAutomaticScrollbar(box->style(), VerticalScrollbar)) || styleRequiresScrollbar(box->style(), VerticalScrollbar)); |
| setHasHorizontalScrollbar(needsHorizontalScrollbar); |
| setHasVerticalScrollbar(needsVerticalScrollbar); |
| |
| // With non-overlay overflow:scroll, scrollbars are always visible but may be disabled. |
| // When switching to another value, we need to re-enable them (see bug 11985). |
| if (m_hBar && needsHorizontalScrollbar && oldStyle && oldStyle->overflowX() == Overflow::Scroll && overflowX != Overflow::Scroll) |
| m_hBar->setEnabled(true); |
| |
| if (m_vBar && needsVerticalScrollbar && oldStyle && oldStyle->overflowY() == Overflow::Scroll && overflowY != Overflow::Scroll) |
| m_vBar->setEnabled(true); |
| |
| if (!m_scrollDimensionsDirty) |
| updateScrollableAreaSet(hasScrollableHorizontalOverflow() || hasScrollableVerticalOverflow()); |
| } |
| |
| void RenderLayer::styleChanged(StyleDifference diff, const RenderStyle* oldStyle) |
| { |
| setIsNormalFlowOnly(shouldBeNormalFlowOnly()); |
| |
| if (setIsCSSStackingContext(shouldBeCSSStackingContext())) { |
| #if ENABLE(CSS_COMPOSITING) |
| if (parent()) { |
| if (isCSSStackingContext()) { |
| if (!hasNotIsolatedBlendingDescendantsStatusDirty() && hasNotIsolatedBlendingDescendants()) |
| parent()->dirtyAncestorChainHasBlendingDescendants(); |
| } else { |
| if (hasNotIsolatedBlendingDescendantsStatusDirty()) |
| parent()->dirtyAncestorChainHasBlendingDescendants(); |
| else if (hasNotIsolatedBlendingDescendants()) |
| parent()->updateAncestorChainHasBlendingDescendants(); |
| } |
| } |
| #endif |
| } |
| |
| // FIXME: RenderLayer already handles visibility changes through our visiblity dirty bits. This logic could |
| // likely be folded along with the rest. |
| if (oldStyle) { |
| if (oldStyle->zIndex() != renderer().style().zIndex() || oldStyle->visibility() != renderer().style().visibility()) { |
| dirtyStackingContextZOrderLists(); |
| if (isStackingContext()) |
| dirtyZOrderLists(); |
| } |
| } |
| |
| if (renderer().isHTMLMarquee() && renderer().style().marqueeBehavior() != MarqueeBehavior::None && renderer().isBox()) { |
| if (!m_marquee) |
| m_marquee = makeUnique<RenderMarquee>(this); |
| m_marquee->updateMarqueeStyle(); |
| } else if (m_marquee) |
| m_marquee = nullptr; |
| |
| updateScrollbarsAfterStyleChange(oldStyle); |
| // Overlay scrollbars can make this layer self-painting so we need |
| // to recompute the bit once scrollbars have been updated. |
| updateSelfPaintingLayer(); |
| |
| if (!hasReflection() && m_reflection) |
| removeReflection(); |
| else if (hasReflection()) { |
| if (!m_reflection) |
| createReflection(); |
| else |
| m_reflection->setStyle(createReflectionStyle()); |
| } |
| |
| // FIXME: Need to detect a swap from custom to native scrollbars (and vice versa). |
| if (m_hBar) |
| m_hBar->styleChanged(); |
| if (m_vBar) |
| m_vBar->styleChanged(); |
| |
| updateScrollCornerStyle(); |
| updateResizerStyle(); |
| |
| updateDescendantDependentFlags(); |
| updateTransform(); |
| #if ENABLE(CSS_COMPOSITING) |
| updateBlendMode(); |
| #endif |
| updateFiltersAfterStyleChange(); |
| |
| compositor().layerStyleChanged(diff, *this, oldStyle); |
| |
| updateFilterPaintingStrategy(); |
| |
| #if PLATFORM(IOS_FAMILY) && ENABLE(TOUCH_EVENTS) |
| if (diff == StyleDifference::RecompositeLayer || diff >= StyleDifference::LayoutPositionedMovementOnly) |
| renderer().document().invalidateRenderingDependentRegions(); |
| #else |
| UNUSED_PARAM(diff); |
| #endif |
| } |
| |
| void RenderLayer::updateScrollableAreaSet(bool hasOverflow) |
| { |
| FrameView& frameView = renderer().view().frameView(); |
| |
| bool isVisibleToHitTest = renderer().visibleToHitTesting(); |
| if (HTMLFrameOwnerElement* owner = frameView.frame().ownerElement()) |
| isVisibleToHitTest &= owner->renderer() && owner->renderer()->visibleToHitTesting(); |
| |
| bool isScrollable = hasOverflow && isVisibleToHitTest; |
| bool addedOrRemoved = false; |
| |
| ASSERT(m_registeredScrollableArea == frameView.containsScrollableArea(this)); |
| |
| if (isScrollable) { |
| if (!m_registeredScrollableArea) { |
| addedOrRemoved = frameView.addScrollableArea(this); |
| m_registeredScrollableArea = true; |
| } |
| } else if (m_registeredScrollableArea) { |
| addedOrRemoved = frameView.removeScrollableArea(this); |
| m_registeredScrollableArea = false; |
| } |
| |
| #if ENABLE(IOS_TOUCH_EVENTS) |
| if (addedOrRemoved) { |
| if (isScrollable && !canUseCompositedScrolling()) |
| registerAsTouchEventListenerForScrolling(); |
| else { |
| // We only need the touch listener for unaccelerated overflow scrolling, so if we became |
| // accelerated, remove ourselves as a touch event listener. |
| unregisterAsTouchEventListenerForScrolling(); |
| } |
| } |
| #else |
| UNUSED_VARIABLE(addedOrRemoved); |
| #endif |
| } |
| |
| void RenderLayer::updateScrollCornerStyle() |
| { |
| RenderElement* actualRenderer = rendererForScrollbar(renderer()); |
| auto corner = renderer().hasOverflowClip() ? actualRenderer->getUncachedPseudoStyle(PseudoStyleRequest(PseudoId::ScrollbarCorner), &actualRenderer->style()) : nullptr; |
| |
| if (!corner) { |
| clearScrollCorner(); |
| return; |
| } |
| |
| if (!m_scrollCorner) { |
| m_scrollCorner = createRenderer<RenderScrollbarPart>(renderer().document(), WTFMove(*corner)); |
| // FIXME: A renderer should be a child of its parent! |
| m_scrollCorner->setParent(&renderer()); |
| m_scrollCorner->initializeStyle(); |
| } else |
| m_scrollCorner->setStyle(WTFMove(*corner)); |
| } |
| |
| void RenderLayer::clearScrollCorner() |
| { |
| if (!m_scrollCorner) |
| return; |
| m_scrollCorner->setParent(nullptr); |
| m_scrollCorner = nullptr; |
| } |
| |
| void RenderLayer::updateResizerStyle() |
| { |
| RenderElement* actualRenderer = rendererForScrollbar(renderer()); |
| auto resizer = renderer().hasOverflowClip() ? actualRenderer->getUncachedPseudoStyle(PseudoStyleRequest(PseudoId::Resizer), &actualRenderer->style()) : nullptr; |
| |
| if (!resizer) { |
| clearResizer(); |
| return; |
| } |
| |
| if (!m_resizer) { |
| m_resizer = createRenderer<RenderScrollbarPart>(renderer().document(), WTFMove(*resizer)); |
| // FIXME: A renderer should be a child of its parent! |
| m_resizer->setParent(&renderer()); |
| m_resizer->initializeStyle(); |
| } else |
| m_resizer->setStyle(WTFMove(*resizer)); |
| } |
| |
| void RenderLayer::clearResizer() |
| { |
| if (!m_resizer) |
| return; |
| m_resizer->setParent(nullptr); |
| m_resizer = nullptr; |
| } |
| |
| RenderLayer* RenderLayer::reflectionLayer() const |
| { |
| return m_reflection ? m_reflection->layer() : nullptr; |
| } |
| |
| bool RenderLayer::isReflectionLayer(const RenderLayer& layer) const |
| { |
| return m_reflection ? &layer == m_reflection->layer() : false; |
| } |
| |
| void RenderLayer::createReflection() |
| { |
| ASSERT(!m_reflection); |
| m_reflection = createRenderer<RenderReplica>(renderer().document(), createReflectionStyle()); |
| // FIXME: A renderer should be a child of its parent! |
| m_reflection->setParent(&renderer()); // We create a 1-way connection. |
| m_reflection->initializeStyle(); |
| } |
| |
| void RenderLayer::removeReflection() |
| { |
| if (!m_reflection->renderTreeBeingDestroyed()) |
| m_reflection->removeLayers(this); |
| |
| m_reflection->setParent(nullptr); |
| m_reflection = nullptr; |
| } |
| |
| RenderStyle RenderLayer::createReflectionStyle() |
| { |
| auto newStyle = RenderStyle::create(); |
| newStyle.inheritFrom(renderer().style()); |
| |
| // Map in our transform. |
| TransformOperations transform; |
| switch (renderer().style().boxReflect()->direction()) { |
| case ReflectionDirection::Below: |
| transform.operations().append(TranslateTransformOperation::create(Length(0, Fixed), Length(100., Percent), TransformOperation::TRANSLATE)); |
| transform.operations().append(TranslateTransformOperation::create(Length(0, Fixed), renderer().style().boxReflect()->offset(), TransformOperation::TRANSLATE)); |
| transform.operations().append(ScaleTransformOperation::create(1.0, -1.0, ScaleTransformOperation::SCALE)); |
| break; |
| case ReflectionDirection::Above: |
| transform.operations().append(ScaleTransformOperation::create(1.0, -1.0, ScaleTransformOperation::SCALE)); |
| transform.operations().append(TranslateTransformOperation::create(Length(0, Fixed), Length(100., Percent), TransformOperation::TRANSLATE)); |
| transform.operations().append(TranslateTransformOperation::create(Length(0, Fixed), renderer().style().boxReflect()->offset(), TransformOperation::TRANSLATE)); |
| break; |
| case ReflectionDirection::Right: |
| transform.operations().append(TranslateTransformOperation::create(Length(100., Percent), Length(0, Fixed), TransformOperation::TRANSLATE)); |
| transform.operations().append(TranslateTransformOperation::create(renderer().style().boxReflect()->offset(), Length(0, Fixed), TransformOperation::TRANSLATE)); |
| transform.operations().append(ScaleTransformOperation::create(-1.0, 1.0, ScaleTransformOperation::SCALE)); |
| break; |
| case ReflectionDirection::Left: |
| transform.operations().append(ScaleTransformOperation::create(-1.0, 1.0, ScaleTransformOperation::SCALE)); |
| transform.operations().append(TranslateTransformOperation::create(Length(100., Percent), Length(0, Fixed), TransformOperation::TRANSLATE)); |
| transform.operations().append(TranslateTransformOperation::create(renderer().style().boxReflect()->offset(), Length(0, Fixed), TransformOperation::TRANSLATE)); |
| break; |
| } |
| newStyle.setTransform(transform); |
| |
| // Map in our mask. |
| newStyle.setMaskBoxImage(renderer().style().boxReflect()->mask()); |
| |
| // Style has transform and mask, so needs to be stacking context. |
| newStyle.setZIndex(0); |
| |
| return newStyle; |
| } |
| |
| void RenderLayer::ensureLayerFilters() |
| { |
| if (m_filters) |
| return; |
| |
| m_filters = makeUnique<RenderLayerFilters>(*this); |
| } |
| |
| void RenderLayer::clearLayerFilters() |
| { |
| m_filters = nullptr; |
| } |
| |
| void RenderLayer::updateFiltersAfterStyleChange() |
| { |
| if (!hasFilter()) { |
| clearLayerFilters(); |
| return; |
| } |
| |
| // Add the filter as a client to this renderer, unless we are a RenderLayer accommodating |
| // an SVG. In that case it takes care of its own resource management for filters. |
| if (renderer().style().filter().hasReferenceFilter() && !renderer().isSVGRoot()) { |
| ensureLayerFilters(); |
| m_filters->updateReferenceFilterClients(renderer().style().filter()); |
| } else if (m_filters) |
| m_filters->removeReferenceFilterClients(); |
| } |
| |
| void RenderLayer::updateFilterPaintingStrategy() |
| { |
| // RenderLayerFilters is only used to render the filters in software mode, |
| // so we always need to run updateFilterPaintingStrategy() after the composited |
| // mode might have changed for this layer. |
| if (!paintsWithFilters()) { |
| // Don't delete the whole filter info here, because we might use it |
| // for loading SVG reference filter files. |
| if (m_filters) |
| m_filters->setFilter(nullptr); |
| |
| // Early-return only if we *don't* have reference filters. |
| // For reference filters, we still want the FilterEffect graph built |
| // for us, even if we're composited. |
| if (!renderer().style().filter().hasReferenceFilter()) |
| return; |
| } |
| |
| ensureLayerFilters(); |
| m_filters->buildFilter(renderer(), page().deviceScaleFactor(), renderer().settings().acceleratedFiltersEnabled() ? Accelerated : Unaccelerated); |
| } |
| |
| void RenderLayer::filterNeedsRepaint() |
| { |
| // We use the enclosing element so that we recalculate style for the ancestor of an anonymous object. |
| if (Element* element = enclosingElement()) { |
| // FIXME: This really shouldn't have to invalidate layer composition, but tests like css3/filters/effect-reference-delete.html fail if that doesn't happen. |
| element->invalidateStyleAndLayerComposition(); |
| } |
| renderer().repaint(); |
| } |
| |
| bool RenderLayer::isTransparentRespectingParentFrames() const |
| { |
| static const double minimumVisibleOpacity = 0.01; |
| |
| float currentOpacity = 1; |
| for (auto* layer = this; layer; layer = parentLayerCrossFrame(*layer)) { |
| currentOpacity *= layer->renderer().style().opacity(); |
| if (currentOpacity < minimumVisibleOpacity) |
| return true; |
| } |
| |
| return false; |
| } |
| |
| void RenderLayer::invalidateEventRegion() |
| { |
| #if PLATFORM(IOS_FAMILY) |
| auto* compositingLayer = enclosingCompositingLayerForRepaint(); |
| if (!compositingLayer) |
| return; |
| |
| auto maintainsEventRegion = [&] { |
| // UI side scroll overlap testing. |
| if (!compositingLayer->isRenderViewLayer()) |
| return true; |
| #if ENABLE(POINTER_EVENTS) |
| // UI side touch-action resolution. |
| if (renderer().document().mayHaveElementsWithNonAutoTouchAction()) |
| return true; |
| #endif |
| return false; |
| }; |
| |
| if (!maintainsEventRegion()) |
| return; |
| |
| compositingLayer->setNeedsCompositingConfigurationUpdate(); |
| #endif |
| } |
| |
| TextStream& operator<<(WTF::TextStream& ts, ClipRectsType clipRectsType) |
| { |
| switch (clipRectsType) { |
| case PaintingClipRects: ts << "painting"; break; |
| case RootRelativeClipRects: ts << "root-relative"; break; |
| case AbsoluteClipRects: ts << "absolute"; break; |
| case TemporaryClipRects: ts << "temporary"; break; |
| case NumCachedClipRectsTypes: |
| case AllClipRectTypes: |
| ts << "?"; |
| break; |
| } |
| return ts; |
| } |
| |
| TextStream& operator<<(TextStream& ts, const RenderLayer& layer) |
| { |
| ts << "RenderLayer " << &layer << " " << layer.size(); |
| if (layer.transform()) |
| ts << " has transform"; |
| if (layer.hasFilter()) |
| ts << " has filter"; |
| if (layer.hasBackdropFilter()) |
| ts << " has backdrop filter"; |
| if (layer.hasBlendMode()) |
| ts << " has blend mode"; |
| if (layer.isolatesBlending()) |
| ts << " isolates blending"; |
| if (layer.isComposited()) |
| ts << " " << *layer.backing(); |
| return ts; |
| } |
| |
| TextStream& operator<<(TextStream& ts, const RenderLayer::ClipRectsContext& context) |
| { |
| ts.dumpProperty("root layer:", context.rootLayer); |
| ts.dumpProperty("type:", context.clipRectsType); |
| ts.dumpProperty("overflow-clip:", context.respectOverflowClip == IgnoreOverflowClip ? "ignore" : "respect"); |
| |
| return ts; |
| } |
| |
| TextStream& operator<<(TextStream& ts, IndirectCompositingReason reason) |
| { |
| switch (reason) { |
| case IndirectCompositingReason::None: ts << "none"; break; |
| case IndirectCompositingReason::Clipping: ts << "clipping"; break; |
| case IndirectCompositingReason::Stacking: ts << "stacking"; break; |
| case IndirectCompositingReason::OverflowScrollPositioning: ts << "overflow positioning"; break; |
| case IndirectCompositingReason::Overlap: ts << "overlap"; break; |
| case IndirectCompositingReason::BackgroundLayer: ts << "background layer"; break; |
| case IndirectCompositingReason::GraphicalEffect: ts << "graphical effect"; break; |
| case IndirectCompositingReason::Perspective: ts << "perspective"; break; |
| case IndirectCompositingReason::Preserve3D: ts << "preserve-3d"; break; |
| } |
| |
| return ts; |
| } |
| |
| } // namespace WebCore |
| |
| #if ENABLE(TREE_DEBUGGING) |
| |
| void showLayerTree(const WebCore::RenderLayer* layer) |
| { |
| if (!layer) |
| return; |
| |
| WTF::String output = externalRepresentation(&layer->renderer().frame(), { |
| WebCore::RenderAsTextFlag::ShowAllLayers, |
| WebCore::RenderAsTextFlag::ShowLayerNesting, |
| WebCore::RenderAsTextFlag::ShowCompositedLayers, |
| WebCore::RenderAsTextFlag::ShowOverflow, |
| WebCore::RenderAsTextFlag::ShowSVGGeometry, |
| WebCore::RenderAsTextFlag::ShowLayerFragments, |
| WebCore::RenderAsTextFlag::ShowAddresses, |
| WebCore::RenderAsTextFlag::ShowIDAndClass, |
| WebCore::RenderAsTextFlag::DontUpdateLayout, |
| WebCore::RenderAsTextFlag::ShowLayoutState, |
| }); |
| fprintf(stderr, "\n%s\n", output.utf8().data()); |
| } |
| |
| void showLayerTree(const WebCore::RenderObject* renderer) |
| { |
| if (!renderer) |
| return; |
| showLayerTree(renderer->enclosingLayer()); |
| } |
| |
| static void outputPaintOrderTreeLegend(TextStream& stream) |
| { |
| stream.nextLine(); |
| stream << "(S)tacking Context/(F)orced SC/O(P)portunistic SC, (N)ormal flow only, (O)verflow clip, (A)lpha (opacity or mask), has (B)lend mode, (I)solates blending, (T)ransform-ish, (F)ilter, Fi(X)ed position, Behaves as fi(x)ed, (C)omposited, (P)rovides backing/uses (p)rovided backing/paints to (a)ncestor, (c)omposited descendant, (s)scrolling ancestor, (t)transformed ancestor\n" |
| "Dirty (z)-lists, Dirty (n)ormal flow lists\n" |
| "Traversal needs: requirements (t)raversal on descendants, (b)acking or hierarchy traversal on descendants, (r)equirements traversal on all descendants, requirements traversal on all (s)ubsequent layers, (h)ierarchy traversal on all descendants, update of paint (o)rder children\n" |
| "Update needs: post-(l)ayout requirements, (g)eometry, (k)ids geometry, (c)onfig, layer conne(x)ion, (s)crolling tree\n"; |
| stream.nextLine(); |
| } |
| |
| static void outputIdent(TextStream& stream, unsigned depth) |
| { |
| unsigned i = 0; |
| while (++i <= depth * 2) |
| stream << " "; |
| } |
| |
| static void outputPaintOrderTreeRecursive(TextStream& stream, const WebCore::RenderLayer& layer, const char* prefix, unsigned depth = 0) |
| { |
| stream << (layer.isCSSStackingContext() ? "S" : (layer.isForcedStackingContext() ? "F" : (layer.isOpportunisticStackingContext() ? "P" : "-"))); |
| stream << (layer.isNormalFlowOnly() ? "N" : "-"); |
| stream << (layer.renderer().hasOverflowClip() ? "O" : "-"); |
| stream << (layer.isTransparent() ? "A" : "-"); |
| stream << (layer.hasBlendMode() ? "B" : "-"); |
| stream << (layer.isolatesBlending() ? "I" : "-"); |
| stream << (layer.renderer().hasTransformRelatedProperty() ? "T" : "-"); |
| stream << (layer.hasFilter() ? "F" : "-"); |
| stream << (layer.renderer().isFixedPositioned() ? "X" : "-"); |
| stream << (layer.behavesAsFixed() ? "x" : "-"); |
| stream << (layer.isComposited() ? "C" : "-"); |
| |
| auto compositedPaintingDestinationString = [&layer]() { |
| if (layer.paintsIntoProvidedBacking()) |
| return "p"; |
| |
| if (!layer.isComposited()) |
| return "-"; |
| |
| if (layer.backing()->hasBackingSharingLayers()) |
| return "P"; |
| |
| if (layer.backing()->paintsIntoCompositedAncestor()) |
| return "a"; |
| |
| return "-"; |
| }; |
| |
| stream << compositedPaintingDestinationString(); |
| stream << (layer.hasCompositingDescendant() ? "c" : "-"); |
| stream << (layer.hasCompositedScrollingAncestor() ? "s" : "-"); |
| stream << (layer.hasTransformedAncestor() ? "t" : "-"); |
| |
| stream << " "; |
| |
| stream << (layer.zOrderListsDirty() ? "z" : "-"); |
| stream << (layer.normalFlowListDirty() ? "n" : "-"); |
| |
| stream << " "; |
| |
| stream << (layer.hasDescendantNeedingCompositingRequirementsTraversal() ? "t" : "-"); |
| stream << (layer.hasDescendantNeedingUpdateBackingOrHierarchyTraversal() ? "b" : "-"); |
| stream << (layer.descendantsNeedCompositingRequirementsTraversal() ? "r" : "-"); |
| stream << (layer.subsequentLayersNeedCompositingRequirementsTraversal() ? "s" : "-"); |
| stream << (layer.descendantsNeedUpdateBackingAndHierarchyTraversal() ? "h" : "-"); |
| stream << (layer.needsCompositingPaintOrderChildrenUpdate() ? "o" : "-"); |
| |
| stream << " "; |
| |
| stream << (layer.needsPostLayoutCompositingUpdate() ? "l" : "-"); |
| stream << (layer.needsCompositingGeometryUpdate() ? "g" : "-"); |
| stream << (layer.childrenNeedCompositingGeometryUpdate() ? "k" : "-"); |
| stream << (layer.needsCompositingConfigurationUpdate() ? "c" : "-"); |
| stream << (layer.needsCompositingLayerConnection() ? "x" : "-"); |
| stream << (layer.needsScrollingTreeUpdate() ? "s" : "-"); |
| |
| stream << " "; |
| |
| outputIdent(stream, depth); |
| |
| stream << prefix; |
| |
| auto layerRect = layer.rect(); |
| |
| stream << &layer << " " << layerRect; |
| if (layer.isComposited()) { |
| auto& backing = *layer.backing(); |
| stream << " (layerID " << backing.graphicsLayer()->primaryLayerID() << ")"; |
| |
| if (layer.indirectCompositingReason() != WebCore::IndirectCompositingReason::None) |
| stream << " " << layer.indirectCompositingReason(); |
| |
| auto scrollingNodeID = backing.scrollingNodeIDForRole(WebCore::ScrollCoordinationRole::Scrolling); |
| auto frameHostingNodeID = backing.scrollingNodeIDForRole(WebCore::ScrollCoordinationRole::FrameHosting); |
| auto viewportConstrainedNodeID = backing.scrollingNodeIDForRole(WebCore::ScrollCoordinationRole::ViewportConstrained); |
| auto positionedNodeID = backing.scrollingNodeIDForRole(WebCore::ScrollCoordinationRole::Positioning); |
| |
| if (scrollingNodeID || frameHostingNodeID || viewportConstrainedNodeID || positionedNodeID) { |
| stream << " {"; |
| bool first = true; |
| if (scrollingNodeID) { |
| stream << "sc " << scrollingNodeID; |
| first = false; |
| } |
| |
| if (frameHostingNodeID) { |
| if (!first) |
| stream << ", "; |
| stream << "fh " << frameHostingNodeID; |
| first = false; |
| } |
| |
| if (viewportConstrainedNodeID) { |
| if (!first) |
| stream << ", "; |
| stream << "vc " << viewportConstrainedNodeID; |
| first = false; |
| } |
| |
| if (positionedNodeID) { |
| if (!first) |
| stream << ", "; |
| stream << "pos " << positionedNodeID; |
| } |
| |
| stream << "}"; |
| } |
| } |
| stream << " " << layer.name(); |
| stream.nextLine(); |
| |
| const_cast<WebCore::RenderLayer&>(layer).updateLayerListsIfNeeded(); |
| |
| for (auto* child : layer.negativeZOrderLayers()) |
| outputPaintOrderTreeRecursive(stream, *child, "- ", depth + 1); |
| |
| for (auto* child : layer.normalFlowLayers()) |
| outputPaintOrderTreeRecursive(stream, *child, "n ", depth + 1); |
| |
| for (auto* child : layer.positiveZOrderLayers()) |
| outputPaintOrderTreeRecursive(stream, *child, "+ ", depth + 1); |
| } |
| |
| void showPaintOrderTree(const WebCore::RenderLayer* layer) |
| { |
| TextStream stream; |
| outputPaintOrderTreeLegend(stream); |
| if (layer) |
| outputPaintOrderTreeRecursive(stream, *layer, ""); |
| |
| WTFLogAlways("%s", stream.release().utf8().data()); |
| } |
| |
| #endif |