/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ /** * Code responsible for managing style changes: tracking what style * changes need to happen, scheduling them, and doing them. */ #include // For std::max #include "RestyleManager.h" #include "mozilla/EventStates.h" #include "nsLayoutUtils.h" #include "AnimationCommon.h" // For GetLayerAnimationInfo #include "FrameLayerBuilder.h" #include "GeckoProfiler.h" #include "nsStyleChangeList.h" #include "nsRuleProcessorData.h" #include "nsStyleUtil.h" #include "nsCSSFrameConstructor.h" #include "nsSVGEffects.h" #include "nsCSSRendering.h" #include "nsAnimationManager.h" #include "nsTransitionManager.h" #include "nsViewManager.h" #include "nsRenderingContext.h" #include "nsSVGIntegrationUtils.h" #include "nsCSSAnonBoxes.h" #include "nsContainerFrame.h" #include "nsPlaceholderFrame.h" #include "nsBlockFrame.h" #include "nsViewportFrame.h" #include "SVGTextFrame.h" #include "StickyScrollContainer.h" #include "nsIRootBox.h" #include "nsIDOMMutationEvent.h" #include "nsContentUtils.h" #include "nsIFrameInlines.h" #include "ActiveLayerTracker.h" #include "nsDisplayList.h" #include "RestyleTrackerInlines.h" #ifdef ACCESSIBILITY #include "nsAccessibilityService.h" #endif namespace mozilla { using namespace layers; #define LOG_RESTYLE_CONTINUE(reason_, ...) \ LOG_RESTYLE("continuing restyle since " reason_, ##__VA_ARGS__) #ifdef RESTYLE_LOGGING static nsCString FrameTagToString(const nsIFrame* aFrame) { nsCString result; aFrame->ListTag(result); return result; } #endif RestyleManager::RestyleManager(nsPresContext* aPresContext) : mPresContext(aPresContext) , mRebuildAllStyleData(false) , mObservingRefreshDriver(false) , mInStyleRefresh(false) , mSkipAnimationRules(false) , mPostAnimationRestyles(false) , mIsProcessingAnimationStyleChange(false) , mHoverGeneration(0) , mRebuildAllExtraHint(nsChangeHint(0)) , mRebuildAllRestyleHint(nsRestyleHint(0)) , mLastUpdateForThrottledAnimations(aPresContext->RefreshDriver()-> MostRecentRefresh()) , mAnimationGeneration(0) , mReframingStyleContexts(nullptr) , mPendingRestyles(ELEMENT_HAS_PENDING_RESTYLE | ELEMENT_IS_POTENTIAL_RESTYLE_ROOT) , mPendingAnimationRestyles(ELEMENT_HAS_PENDING_ANIMATION_RESTYLE | ELEMENT_IS_POTENTIAL_ANIMATION_RESTYLE_ROOT) #ifdef DEBUG , mIsProcessingRestyles(false) #endif #ifdef RESTYLE_LOGGING , mLoggingDepth(0) #endif { mPendingRestyles.Init(this); mPendingAnimationRestyles.Init(this); } void RestyleManager::NotifyDestroyingFrame(nsIFrame* aFrame) { mOverflowChangedTracker.RemoveFrame(aFrame); } #ifdef DEBUG // To ensure that the functions below are only called within // |ApplyRenderingChangeToTree|. static bool gInApplyRenderingChangeToTree = false; #endif static inline nsIFrame* GetNextBlockInInlineSibling(FramePropertyTable* aPropTable, nsIFrame* aFrame) { NS_ASSERTION(!aFrame->GetPrevContinuation(), "must start with the first continuation"); // Might we have ib-split siblings? if (!(aFrame->GetStateBits() & NS_FRAME_PART_OF_IBSPLIT)) { // nothing more to do here return nullptr; } return static_cast (aPropTable->Get(aFrame, nsIFrame::IBSplitSibling())); } static nsIFrame* GetNearestAncestorFrame(nsIContent* aContent) { nsIFrame* ancestorFrame = nullptr; for (nsIContent* ancestor = aContent->GetParent(); ancestor && !ancestorFrame; ancestor = ancestor->GetParent()) { ancestorFrame = ancestor->GetPrimaryFrame(); } return ancestorFrame; } static void DoApplyRenderingChangeToTree(nsIFrame* aFrame, nsChangeHint aChange); /** * Sync views on aFrame and all of aFrame's descendants (following placeholders), * if aChange has nsChangeHint_SyncFrameView. * Calls DoApplyRenderingChangeToTree on all aFrame's out-of-flow descendants * (following placeholders), if aChange has nsChangeHint_RepaintFrame. * aFrame should be some combination of nsChangeHint_SyncFrameView, * nsChangeHint_RepaintFrame, nsChangeHint_UpdateOpacityLayer and * nsChangeHint_SchedulePaint, nothing else. */ static void SyncViewsAndInvalidateDescendants(nsIFrame* aFrame, nsChangeHint aChange) { NS_PRECONDITION(gInApplyRenderingChangeToTree, "should only be called within ApplyRenderingChangeToTree"); NS_ASSERTION(aChange == (aChange & (nsChangeHint_RepaintFrame | nsChangeHint_SyncFrameView | nsChangeHint_UpdateOpacityLayer | nsChangeHint_SchedulePaint)), "Invalid change flag"); nsView* view = aFrame->GetView(); if (view) { if (aChange & nsChangeHint_SyncFrameView) { nsContainerFrame::SyncFrameViewProperties(aFrame->PresContext(), aFrame, nullptr, view); } } nsIFrame::ChildListIterator lists(aFrame); for (; !lists.IsDone(); lists.Next()) { nsFrameList::Enumerator childFrames(lists.CurrentList()); for (; !childFrames.AtEnd(); childFrames.Next()) { nsIFrame* child = childFrames.get(); if (!(child->GetStateBits() & NS_FRAME_OUT_OF_FLOW)) { // only do frames that don't have placeholders if (nsGkAtoms::placeholderFrame == child->GetType()) { // do the out-of-flow frame and its continuations nsIFrame* outOfFlowFrame = nsPlaceholderFrame::GetRealFrameForPlaceholder(child); DoApplyRenderingChangeToTree(outOfFlowFrame, aChange); } else if (lists.CurrentID() == nsIFrame::kPopupList) { DoApplyRenderingChangeToTree(child, aChange); } else { // regular frame SyncViewsAndInvalidateDescendants(child, aChange); } } } } } /** * To handle nsChangeHint_ChildrenOnlyTransform we must iterate over the child * frames of the SVG frame concerned. This helper function is used to find that * SVG frame when we encounter nsChangeHint_ChildrenOnlyTransform to ensure * that we iterate over the intended children, since sometimes we end up * handling that hint while processing hints for one of the SVG frame's * ancestor frames. * * The reason that we sometimes end up trying to process the hint for an * ancestor of the SVG frame that the hint is intended for is due to the way we * process restyle events. ApplyRenderingChangeToTree adjusts the frame from * the restyled element's principle frame to one of its ancestor frames based * on what nsCSSRendering::FindBackground returns, since the background style * may have been propagated up to an ancestor frame. Processing hints using an * ancestor frame is fine in general, but nsChangeHint_ChildrenOnlyTransform is * a special case since it is intended to update the children of a specific * frame. */ static nsIFrame* GetFrameForChildrenOnlyTransformHint(nsIFrame *aFrame) { if (aFrame->GetType() == nsGkAtoms::viewportFrame) { // This happens if the root- is fixed positioned, in which case we // can't use aFrame->GetContent() to find the primary frame, since // GetContent() returns nullptr for ViewportFrame. aFrame = aFrame->GetFirstPrincipalChild(); } // For an nsHTMLScrollFrame, this will get the SVG frame that has the // children-only transforms: aFrame = aFrame->GetContent()->GetPrimaryFrame(); if (aFrame->GetType() == nsGkAtoms::svgOuterSVGFrame) { aFrame = aFrame->GetFirstPrincipalChild(); NS_ABORT_IF_FALSE(aFrame->GetType() == nsGkAtoms::svgOuterSVGAnonChildFrame, "Where is the nsSVGOuterSVGFrame's anon child??"); } NS_ABORT_IF_FALSE(aFrame->IsFrameOfType(nsIFrame::eSVG | nsIFrame::eSVGContainer), "Children-only transforms only expected on SVG frames"); return aFrame; } static void DoApplyRenderingChangeToTree(nsIFrame* aFrame, nsChangeHint aChange) { NS_PRECONDITION(gInApplyRenderingChangeToTree, "should only be called within ApplyRenderingChangeToTree"); for ( ; aFrame; aFrame = nsLayoutUtils::GetNextContinuationOrIBSplitSibling(aFrame)) { // Invalidate and sync views on all descendant frames, following placeholders. // We don't need to update transforms in SyncViewsAndInvalidateDescendants, because // there can't be any out-of-flows or popups that need to be transformed; // all out-of-flow descendants of the transformed element must also be // descendants of the transformed frame. SyncViewsAndInvalidateDescendants(aFrame, nsChangeHint(aChange & (nsChangeHint_RepaintFrame | nsChangeHint_SyncFrameView | nsChangeHint_UpdateOpacityLayer | nsChangeHint_SchedulePaint))); // This must be set to true if the rendering change needs to // invalidate content. If it's false, a composite-only paint // (empty transaction) will be scheduled. bool needInvalidatingPaint = false; // if frame has view, will already be invalidated if (aChange & nsChangeHint_RepaintFrame) { // Note that this whole block will be skipped when painting is suppressed // (due to our caller ApplyRendingChangeToTree() discarding the // nsChangeHint_RepaintFrame hint). If you add handling for any other // hints within this block, be sure that they too should be ignored when // painting is suppressed. needInvalidatingPaint = true; aFrame->InvalidateFrameSubtree(); if (aChange & nsChangeHint_UpdateEffects && aFrame->IsFrameOfType(nsIFrame::eSVG) && !(aFrame->GetStateBits() & NS_STATE_IS_OUTER_SVG)) { // Need to update our overflow rects: nsSVGUtils::ScheduleReflowSVG(aFrame); } } if (aChange & nsChangeHint_UpdateTextPath) { if (aFrame->IsSVGText()) { // Invalidate and reflow the entire SVGTextFrame: NS_ASSERTION(aFrame->GetContent()->IsSVG(nsGkAtoms::textPath), "expected frame for a element"); nsIFrame* text = nsLayoutUtils::GetClosestFrameOfType( aFrame, nsGkAtoms::svgTextFrame); NS_ASSERTION(text, "expected to find an ancestor SVGTextFrame"); static_cast(text)->NotifyGlyphMetricsChange(); } else { NS_ABORT_IF_FALSE(false, "unexpected frame got " "nsChangeHint_UpdateTextPath"); } } if (aChange & nsChangeHint_UpdateOpacityLayer) { // FIXME/bug 796697: we can get away with empty transactions for // opacity updates in many cases. needInvalidatingPaint = true; ActiveLayerTracker::NotifyRestyle(aFrame, eCSSProperty_opacity); if (nsSVGIntegrationUtils::UsingEffectsForFrame(aFrame)) { // SVG effects paints the opacity without using // nsDisplayOpacity. We need to invalidate manually. aFrame->InvalidateFrameSubtree(); } } if ((aChange & nsChangeHint_UpdateTransformLayer) && aFrame->IsTransformed()) { ActiveLayerTracker::NotifyRestyle(aFrame, eCSSProperty_transform); // If we're not already going to do an invalidating paint, see // if we can get away with only updating the transform on a // layer for this frame, and not scheduling an invalidating // paint. if (!needInvalidatingPaint) { Layer* layer; needInvalidatingPaint |= !aFrame->TryUpdateTransformOnly(&layer); if (!needInvalidatingPaint) { // Since we're not going to paint, we need to resend animation // data to the layer. MOZ_ASSERT(layer, "this can't happen if there's no layer"); nsDisplayListBuilder::AddAnimationsAndTransitionsToLayer(layer, nullptr, nullptr, aFrame, eCSSProperty_transform); } } } if (aChange & nsChangeHint_ChildrenOnlyTransform) { needInvalidatingPaint = true; nsIFrame* childFrame = GetFrameForChildrenOnlyTransformHint(aFrame)->GetFirstPrincipalChild(); for ( ; childFrame; childFrame = childFrame->GetNextSibling()) { ActiveLayerTracker::NotifyRestyle(childFrame, eCSSProperty_transform); } } if (aChange & nsChangeHint_SchedulePaint) { needInvalidatingPaint = true; } aFrame->SchedulePaint(needInvalidatingPaint ? nsIFrame::PAINT_DEFAULT : nsIFrame::PAINT_COMPOSITE_ONLY); } } static void ApplyRenderingChangeToTree(nsPresContext* aPresContext, nsIFrame* aFrame, nsChangeHint aChange) { // We check StyleDisplay()->HasTransformStyle() in addition to checking // IsTransformed() since we can get here for some frames that don't support // CSS transforms. NS_ASSERTION(!(aChange & nsChangeHint_UpdateTransformLayer) || aFrame->IsTransformed() || aFrame->StyleDisplay()->HasTransformStyle(), "Unexpected UpdateTransformLayer hint"); nsIPresShell *shell = aPresContext->PresShell(); if (shell->IsPaintingSuppressed()) { // Don't allow synchronous rendering changes when painting is turned off. aChange = NS_SubtractHint(aChange, nsChangeHint_RepaintFrame); if (!aChange) { return; } } // Trigger rendering updates by damaging this frame and any // continuations of this frame. #ifdef DEBUG gInApplyRenderingChangeToTree = true; #endif if (aChange & nsChangeHint_RepaintFrame) { // If the frame's background is propagated to an ancestor, walk up to // that ancestor and apply the RepaintFrame change hint to it. nsStyleContext *bgSC; nsIFrame* propagatedFrame = aFrame; while (!nsCSSRendering::FindBackground(propagatedFrame, &bgSC)) { propagatedFrame = propagatedFrame->GetParent(); NS_ASSERTION(aFrame, "root frame must paint"); } if (propagatedFrame != aFrame) { DoApplyRenderingChangeToTree(propagatedFrame, nsChangeHint_RepaintFrame); aChange = NS_SubtractHint(aChange, nsChangeHint_RepaintFrame); if (!aChange) { return; } } } DoApplyRenderingChangeToTree(aFrame, aChange); #ifdef DEBUG gInApplyRenderingChangeToTree = false; #endif } bool RestyleManager::RecomputePosition(nsIFrame* aFrame) { // Don't process position changes on table frames, since we already handle // the dynamic position change on the outer table frame, and the reflow-based // fallback code path also ignores positions on inner table frames. if (aFrame->GetType() == nsGkAtoms::tableFrame) { return true; } const nsStyleDisplay* display = aFrame->StyleDisplay(); // Changes to the offsets of a non-positioned element can safely be ignored. if (display->mPosition == NS_STYLE_POSITION_STATIC) { return true; } // Don't process position changes on frames which have views or the ones which // have a view somewhere in their descendants, because the corresponding view // needs to be repositioned properly as well. if (aFrame->HasView() || (aFrame->GetStateBits() & NS_FRAME_HAS_CHILD_WITH_VIEW)) { StyleChangeReflow(aFrame, nsChangeHint_NeedReflow); return false; } aFrame->SchedulePaint(); // For relative positioning, we can simply update the frame rect if (display->IsRelativelyPositionedStyle()) { if (display->IsInnerTableStyle()) { // We don't currently support relative positioning of inner table // elements (bug 35168). If we apply offsets to things we haven't // previously offset, we'll get confused. So bail. return true; } // Move the frame if (display->mPosition == NS_STYLE_POSITION_STICKY) { // Update sticky positioning for an entire element at once, starting with // the first continuation or ib-split sibling. // It's rare that the frame we already have isn't already the first // continuation or ib-split sibling, but it can happen when styles differ // across continuations such as ::first-line or ::first-letter, and in // those cases we will generally (but maybe not always) do the work twice. nsIFrame *firstContinuation = nsLayoutUtils::FirstContinuationOrIBSplitSibling(aFrame); StickyScrollContainer::ComputeStickyOffsets(firstContinuation); StickyScrollContainer* ssc = StickyScrollContainer::GetStickyScrollContainerForFrame(firstContinuation); if (ssc) { ssc->PositionContinuations(firstContinuation); } } else { MOZ_ASSERT(NS_STYLE_POSITION_RELATIVE == display->mPosition, "Unexpected type of positioning"); for (nsIFrame *cont = aFrame; cont; cont = nsLayoutUtils::GetNextContinuationOrIBSplitSibling(cont)) { nsIFrame* cb = cont->GetContainingBlock(); nsMargin newOffsets; const nsSize size = cb->GetContentRectRelativeToSelf().Size(); nsHTMLReflowState::ComputeRelativeOffsets( cb->StyleVisibility()->mDirection, cont, size.width, size.height, newOffsets); NS_ASSERTION(newOffsets.left == -newOffsets.right && newOffsets.top == -newOffsets.bottom, "ComputeRelativeOffsets should return valid results"); // nsHTMLReflowState::ApplyRelativePositioning would work here, but // since we've already checked mPosition and aren't changing the frame's // normal position, go ahead and add the offsets directly. cont->SetPosition(cont->GetNormalPosition() + nsPoint(newOffsets.left, newOffsets.top)); } } return true; } // For the absolute positioning case, set up a fake HTML reflow state for // the frame, and then get the offsets and size from it. If the frame's size // doesn't need to change, we can simply update the frame position. Otherwise // we fall back to a reflow. nsRenderingContext rc( aFrame->PresContext()->PresShell()->CreateReferenceRenderingContext()); // Construct a bogus parent reflow state so that there's a usable // containing block reflow state. nsIFrame* parentFrame = aFrame->GetParent(); WritingMode parentWM = parentFrame->GetWritingMode(); WritingMode frameWM = aFrame->GetWritingMode(); LogicalSize parentSize = parentFrame->GetLogicalSize(); nsFrameState savedState = parentFrame->GetStateBits(); nsHTMLReflowState parentReflowState(aFrame->PresContext(), parentFrame, &rc, parentSize); parentFrame->RemoveStateBits(~nsFrameState(0)); parentFrame->AddStateBits(savedState); NS_WARN_IF_FALSE(parentSize.ISize(parentWM) != NS_INTRINSICSIZE && parentSize.BSize(parentWM) != NS_INTRINSICSIZE, "parentSize should be valid"); parentReflowState.SetComputedISize(std::max(parentSize.ISize(parentWM), 0)); parentReflowState.SetComputedBSize(std::max(parentSize.BSize(parentWM), 0)); parentReflowState.ComputedPhysicalMargin().SizeTo(0, 0, 0, 0); parentReflowState.ComputedPhysicalPadding() = parentFrame->GetUsedPadding(); parentReflowState.ComputedPhysicalBorderPadding() = parentFrame->GetUsedBorderAndPadding(); LogicalSize availSize = parentSize.ConvertTo(frameWM, parentWM); availSize.BSize(frameWM) = NS_INTRINSICSIZE; ViewportFrame* viewport = do_QueryFrame(parentFrame); nsSize cbSize = viewport ? viewport->AdjustReflowStateAsContainingBlock(&parentReflowState).Size() : aFrame->GetContainingBlock()->GetSize(); const nsMargin& parentBorder = parentReflowState.mStyleBorder->GetComputedBorder(); cbSize -= nsSize(parentBorder.LeftRight(), parentBorder.TopBottom()); nsHTMLReflowState reflowState(aFrame->PresContext(), parentReflowState, aFrame, availSize, cbSize.width, cbSize.height); nsSize computedSize(reflowState.ComputedWidth(), reflowState.ComputedHeight()); computedSize.width += reflowState.ComputedPhysicalBorderPadding().LeftRight(); if (computedSize.height != NS_INTRINSICSIZE) { computedSize.height += reflowState.ComputedPhysicalBorderPadding().TopBottom(); } nsSize size = aFrame->GetSize(); // The RecomputePosition hint is not used if any offset changed between auto // and non-auto. If computedSize.height == NS_INTRINSICSIZE then the new // element height will be its intrinsic height, and since 'top' and 'bottom''s // auto-ness hasn't changed, the old height must also be its intrinsic // height, which we can assume hasn't changed (or reflow would have // been triggered). if (computedSize.width == size.width && (computedSize.height == NS_INTRINSICSIZE || computedSize.height == size.height)) { // If we're solving for 'left' or 'top', then compute it here, in order to // match the reflow code path. if (NS_AUTOOFFSET == reflowState.ComputedPhysicalOffsets().left) { reflowState.ComputedPhysicalOffsets().left = cbSize.width - reflowState.ComputedPhysicalOffsets().right - reflowState.ComputedPhysicalMargin().right - size.width - reflowState.ComputedPhysicalMargin().left; } if (NS_AUTOOFFSET == reflowState.ComputedPhysicalOffsets().top) { reflowState.ComputedPhysicalOffsets().top = cbSize.height - reflowState.ComputedPhysicalOffsets().bottom - reflowState.ComputedPhysicalMargin().bottom - size.height - reflowState.ComputedPhysicalMargin().top; } // Move the frame nsPoint pos(parentBorder.left + reflowState.ComputedPhysicalOffsets().left + reflowState.ComputedPhysicalMargin().left, parentBorder.top + reflowState.ComputedPhysicalOffsets().top + reflowState.ComputedPhysicalMargin().top); aFrame->SetPosition(pos); return true; } // Fall back to a reflow StyleChangeReflow(aFrame, nsChangeHint_NeedReflow); return false; } void RestyleManager::StyleChangeReflow(nsIFrame* aFrame, nsChangeHint aHint) { nsIPresShell::IntrinsicDirty dirtyType; if (aHint & nsChangeHint_ClearDescendantIntrinsics) { NS_ASSERTION(aHint & nsChangeHint_ClearAncestorIntrinsics, "Please read the comments in nsChangeHint.h"); dirtyType = nsIPresShell::eStyleChange; } else if (aHint & nsChangeHint_ClearAncestorIntrinsics) { dirtyType = nsIPresShell::eTreeChange; } else { dirtyType = nsIPresShell::eResize; } nsFrameState dirtyBits; if (aFrame->GetStateBits() & NS_FRAME_FIRST_REFLOW) { dirtyBits = nsFrameState(0); } else if (aHint & nsChangeHint_NeedDirtyReflow) { dirtyBits = NS_FRAME_IS_DIRTY; } else { dirtyBits = NS_FRAME_HAS_DIRTY_CHILDREN; } // If we're not going to clear any intrinsic sizes on the frames, and // there are no dirty bits to set, then there's nothing to do. if (dirtyType == nsIPresShell::eResize && !dirtyBits) return; do { mPresContext->PresShell()->FrameNeedsReflow(aFrame, dirtyType, dirtyBits); aFrame = nsLayoutUtils::GetNextContinuationOrIBSplitSibling(aFrame); } while (aFrame); } void RestyleManager::AddSubtreeToOverflowTracker(nsIFrame* aFrame) { mOverflowChangedTracker.AddFrame( aFrame, OverflowChangedTracker::CHILDREN_AND_PARENT_CHANGED); nsIFrame::ChildListIterator lists(aFrame); for (; !lists.IsDone(); lists.Next()) { nsFrameList::Enumerator childFrames(lists.CurrentList()); for (; !childFrames.AtEnd(); childFrames.Next()) { nsIFrame* child = childFrames.get(); AddSubtreeToOverflowTracker(child); } } } NS_DECLARE_FRAME_PROPERTY(ChangeListProperty, nullptr) /** * Return true if aFrame's subtree has placeholders for out-of-flow content * whose 'position' style's bit in aPositionMask is set. */ static bool FrameHasPositionedPlaceholderDescendants(nsIFrame* aFrame, uint32_t aPositionMask) { const nsIFrame::ChildListIDs skip(nsIFrame::kAbsoluteList | nsIFrame::kFixedList); for (nsIFrame::ChildListIterator lists(aFrame); !lists.IsDone(); lists.Next()) { if (!skip.Contains(lists.CurrentID())) { for (nsFrameList::Enumerator childFrames(lists.CurrentList()); !childFrames.AtEnd(); childFrames.Next()) { nsIFrame* f = childFrames.get(); if (f->GetType() == nsGkAtoms::placeholderFrame) { nsIFrame* outOfFlow = nsPlaceholderFrame::GetRealFrameForPlaceholder(f); // If SVG text frames could appear here, they could confuse us since // they ignore their position style ... but they can't. NS_ASSERTION(!outOfFlow->IsSVGText(), "SVG text frames can't be out of flow"); if (aPositionMask & (1 << outOfFlow->StyleDisplay()->mPosition)) { return true; } } if (FrameHasPositionedPlaceholderDescendants(f, aPositionMask)) { return true; } } } } return false; } static bool NeedToReframeForAddingOrRemovingTransform(nsIFrame* aFrame) { static_assert(0 <= NS_STYLE_POSITION_ABSOLUTE && NS_STYLE_POSITION_ABSOLUTE < 32, "Style constant out of range"); static_assert(0 <= NS_STYLE_POSITION_FIXED && NS_STYLE_POSITION_FIXED < 32, "Style constant out of range"); uint32_t positionMask; // Don't call aFrame->IsPositioned here, since that returns true if // the frame already has a transform, and we want to ignore that here if (aFrame->IsAbsolutelyPositioned() || aFrame->IsRelativelyPositioned()) { // This frame is a container for abs-pos descendants whether or not it // has a transform. // So abs-pos descendants are no problem; we only need to reframe if // we have fixed-pos descendants. positionMask = 1 << NS_STYLE_POSITION_FIXED; } else { // This frame may not be a container for abs-pos descendants already. // So reframe if we have abs-pos or fixed-pos descendants. positionMask = (1 << NS_STYLE_POSITION_FIXED) | (1 << NS_STYLE_POSITION_ABSOLUTE); } for (nsIFrame* f = aFrame; f; f = nsLayoutUtils::GetNextContinuationOrIBSplitSibling(f)) { if (FrameHasPositionedPlaceholderDescendants(f, positionMask)) { return true; } } return false; } nsresult RestyleManager::ProcessRestyledFrames(nsStyleChangeList& aChangeList) { NS_ASSERTION(!nsContentUtils::IsSafeToRunScript(), "Someone forgot a script blocker"); int32_t count = aChangeList.Count(); if (!count) return NS_OK; PROFILER_LABEL("RestyleManager", "ProcessRestyledFrames", js::ProfileEntry::Category::CSS); // Make sure to not rebuild quote or counter lists while we're // processing restyles FrameConstructor()->BeginUpdate(); FramePropertyTable* propTable = mPresContext->PropertyTable(); // Mark frames so that we skip frames that die along the way, bug 123049. // A frame can be in the list multiple times with different hints. Further // optmization is possible if nsStyleChangeList::AppendChange could coalesce int32_t index = count; while (0 <= --index) { const nsStyleChangeData* changeData; aChangeList.ChangeAt(index, &changeData); if (changeData->mFrame) { propTable->Set(changeData->mFrame, ChangeListProperty(), NS_INT32_TO_PTR(1)); } } index = count; bool didUpdateCursor = false; while (0 <= --index) { nsIFrame* frame; nsIContent* content; bool didReflowThisFrame = false; nsChangeHint hint; aChangeList.ChangeAt(index, frame, content, hint); NS_ASSERTION(!(hint & nsChangeHint_AllReflowHints) || (hint & nsChangeHint_NeedReflow), "Reflow hint bits set without actually asking for a reflow"); // skip any frame that has been destroyed due to a ripple effect if (frame && !propTable->Get(frame, ChangeListProperty())) { continue; } if (frame && frame->GetContent() != content) { // XXXbz this is due to image maps messing with the primary frame of // s. See bug 135040. Remove this block once that's fixed. frame = nullptr; if (!(hint & nsChangeHint_ReconstructFrame)) { continue; } } if ((hint & nsChangeHint_AddOrRemoveTransform) && frame && !(hint & nsChangeHint_ReconstructFrame)) { if (NeedToReframeForAddingOrRemovingTransform(frame) || frame->GetType() == nsGkAtoms::fieldSetFrame || frame->GetContentInsertionFrame() != frame) { // The frame has positioned children that need to be reparented, or // it can't easily be converted to/from being an abs-pos container correctly. NS_UpdateHint(hint, nsChangeHint_ReconstructFrame); } else { for (nsIFrame *cont = frame; cont; cont = nsLayoutUtils::GetNextContinuationOrIBSplitSibling(cont)) { // Normally frame construction would set state bits as needed, // but we're not going to reconstruct the frame so we need to set them. // It's because we need to set this state on each affected frame // that we can't coalesce nsChangeHint_AddOrRemoveTransform hints up // to ancestors (i.e. it can't be an inherited change hint). if (cont->IsPositioned()) { // If a transform has been added, we'll be taking this path, // but we may be taking this path even if a transform has been // removed. It's OK to add the bit even if it's not needed. cont->AddStateBits(NS_FRAME_MAY_BE_TRANSFORMED); if (!cont->IsAbsoluteContainer() && (cont->GetStateBits() & NS_FRAME_CAN_HAVE_ABSPOS_CHILDREN)) { cont->MarkAsAbsoluteContainingBlock(); } } else { // Don't remove NS_FRAME_MAY_BE_TRANSFORMED since it may still by // transformed by other means. It's OK to have the bit even if it's // not needed. if (cont->IsAbsoluteContainer()) { cont->MarkAsNotAbsoluteContainingBlock(); } } } } } if (hint & nsChangeHint_ReconstructFrame) { // If we ever start passing true here, be careful of restyles // that involve a reframe and animations. In particular, if the // restyle we're processing here is an animation restyle, but // the style resolution we will do for the frame construction // happens async when we're not in an animation restyle already, // problems could arise. // We could also have problems with triggering of CSS transitions // on elements whose frames are reconstructed, since we depend on // the reconstruction happening synchronously. FrameConstructor()->RecreateFramesForContent(content, false, nsCSSFrameConstructor::REMOVE_FOR_RECONSTRUCTION, nullptr); } else { NS_ASSERTION(frame, "This shouldn't happen"); if ((frame->GetStateBits() & NS_FRAME_SVG_LAYOUT) && (frame->GetStateBits() & NS_FRAME_IS_NONDISPLAY)) { // frame does not maintain overflow rects, so avoid calling // FinishAndStoreOverflow on it: hint = NS_SubtractHint(hint, NS_CombineHint(nsChangeHint_UpdateOverflow, NS_CombineHint(nsChangeHint_ChildrenOnlyTransform, nsChangeHint_UpdatePostTransformOverflow))); } if (!(frame->GetStateBits() & NS_FRAME_MAY_BE_TRANSFORMED)) { // Frame can not be transformed, and thus a change in transform will // have no effect and we should not use the // nsChangeHint_UpdatePostTransformOverflow hint. hint = NS_SubtractHint(hint, nsChangeHint_UpdatePostTransformOverflow); } if (hint & nsChangeHint_UpdateEffects) { for (nsIFrame *cont = frame; cont; cont = nsLayoutUtils::GetNextContinuationOrIBSplitSibling(cont)) { nsSVGEffects::UpdateEffects(cont); } } if (hint & nsChangeHint_InvalidateRenderingObservers) { nsSVGEffects::InvalidateRenderingObservers(frame); } if (hint & nsChangeHint_NeedReflow) { StyleChangeReflow(frame, hint); didReflowThisFrame = true; } if (hint & (nsChangeHint_RepaintFrame | nsChangeHint_SyncFrameView | nsChangeHint_UpdateOpacityLayer | nsChangeHint_UpdateTransformLayer | nsChangeHint_ChildrenOnlyTransform | nsChangeHint_SchedulePaint)) { ApplyRenderingChangeToTree(mPresContext, frame, hint); } if ((hint & nsChangeHint_RecomputePosition) && !didReflowThisFrame) { ActiveLayerTracker::NotifyOffsetRestyle(frame); // It is possible for this to fall back to a reflow if (!RecomputePosition(frame)) { didReflowThisFrame = true; } } NS_ASSERTION(!(hint & nsChangeHint_ChildrenOnlyTransform) || (hint & nsChangeHint_UpdateOverflow), "nsChangeHint_UpdateOverflow should be passed too"); if (!didReflowThisFrame && (hint & (nsChangeHint_UpdateOverflow | nsChangeHint_UpdatePostTransformOverflow | nsChangeHint_UpdateSubtreeOverflow))) { if (hint & nsChangeHint_UpdateSubtreeOverflow) { AddSubtreeToOverflowTracker(frame); } OverflowChangedTracker::ChangeKind changeKind; if (hint & nsChangeHint_ChildrenOnlyTransform) { // The overflow areas of the child frames need to be updated: nsIFrame* hintFrame = GetFrameForChildrenOnlyTransformHint(frame); nsIFrame* childFrame = hintFrame->GetFirstPrincipalChild(); NS_ASSERTION(!nsLayoutUtils::GetNextContinuationOrIBSplitSibling(frame), "SVG frames should not have continuations " "or ib-split siblings"); NS_ASSERTION(!nsLayoutUtils::GetNextContinuationOrIBSplitSibling(hintFrame), "SVG frames should not have continuations " "or ib-split siblings"); for ( ; childFrame; childFrame = childFrame->GetNextSibling()) { NS_ABORT_IF_FALSE(childFrame->IsFrameOfType(nsIFrame::eSVG), "Not expecting non-SVG children"); // If |childFrame| is dirty or has dirty children, we don't bother // updating overflows since that will happen when it's reflowed. if (!(childFrame->GetStateBits() & (NS_FRAME_IS_DIRTY | NS_FRAME_HAS_DIRTY_CHILDREN))) { mOverflowChangedTracker.AddFrame(childFrame, OverflowChangedTracker::CHILDREN_AND_PARENT_CHANGED); } NS_ASSERTION(!nsLayoutUtils::GetNextContinuationOrIBSplitSibling(childFrame), "SVG frames should not have continuations " "or ib-split siblings"); NS_ASSERTION(childFrame->GetParent() == hintFrame, "SVG child frame not expected to have different parent"); } } // If |frame| is dirty or has dirty children, we don't bother updating // overflows since that will happen when it's reflowed. if (!(frame->GetStateBits() & (NS_FRAME_IS_DIRTY | NS_FRAME_HAS_DIRTY_CHILDREN))) { // If we have both nsChangeHint_UpdateOverflow and // nsChangeHint_UpdatePostTransformOverflow, CHILDREN_AND_PARENT_CHANGED // is selected as it is stronger. if (hint & (nsChangeHint_UpdateOverflow | nsChangeHint_UpdateSubtreeOverflow)) { changeKind = OverflowChangedTracker::CHILDREN_AND_PARENT_CHANGED; } else { changeKind = OverflowChangedTracker::TRANSFORM_CHANGED; } for (nsIFrame *cont = frame; cont; cont = nsLayoutUtils::GetNextContinuationOrIBSplitSibling(cont)) { mOverflowChangedTracker.AddFrame(cont, changeKind); } } } if ((hint & nsChangeHint_UpdateCursor) && !didUpdateCursor) { mPresContext->PresShell()->SynthesizeMouseMove(false); didUpdateCursor = true; } } } FrameConstructor()->EndUpdate(); // cleanup references and verify the style tree. Note that the latter needs // to happen once we've processed the whole list, since until then the tree // is not in fact in a consistent state. index = count; while (0 <= --index) { const nsStyleChangeData* changeData; aChangeList.ChangeAt(index, &changeData); if (changeData->mFrame) { propTable->Delete(changeData->mFrame, ChangeListProperty()); } #ifdef DEBUG // reget frame from content since it may have been regenerated... if (changeData->mContent) { if (!css::CommonAnimationManager::ContentOrAncestorHasAnimation(changeData->mContent)) { nsIFrame* frame = changeData->mContent->GetPrimaryFrame(); if (frame) { DebugVerifyStyleTree(frame); } } } else if (!changeData->mFrame || changeData->mFrame->GetType() != nsGkAtoms::viewportFrame) { NS_WARNING("Unable to test style tree integrity -- no content node " "(and not a viewport frame)"); } #endif } aChangeList.Clear(); return NS_OK; } void RestyleManager::RestyleElement(Element* aElement, nsIFrame* aPrimaryFrame, nsChangeHint aMinHint, RestyleTracker& aRestyleTracker, nsRestyleHint aRestyleHint) { NS_ASSERTION(aPrimaryFrame == aElement->GetPrimaryFrame(), "frame/content mismatch"); if (aPrimaryFrame && aPrimaryFrame->GetContent() != aElement) { // XXXbz this is due to image maps messing with the primary frame pointer // of s. See bug 135040. We can remove this block once that's fixed. aPrimaryFrame = nullptr; } NS_ASSERTION(!aPrimaryFrame || aPrimaryFrame->GetContent() == aElement, "frame/content mismatch"); // If we're restyling the root element and there are 'rem' units in // use, handle dynamic changes to the definition of a 'rem' here. if (mPresContext->UsesRootEMUnits() && aPrimaryFrame) { nsStyleContext *oldContext = aPrimaryFrame->StyleContext(); if (!oldContext->GetParent()) { // check that we're the root element nsRefPtr newContext = mPresContext->StyleSet()-> ResolveStyleFor(aElement, nullptr /* == oldContext->GetParent() */); if (oldContext->StyleFont()->mFont.size != newContext->StyleFont()->mFont.size) { // The basis for 'rem' units has changed. newContext = nullptr; DoRebuildAllStyleData(aRestyleTracker, nsChangeHint(0), aRestyleHint); if (aMinHint == 0) { return; } aPrimaryFrame = aElement->GetPrimaryFrame(); } } } if (aMinHint & nsChangeHint_ReconstructFrame) { FrameConstructor()->RecreateFramesForContent(aElement, false, nsCSSFrameConstructor::REMOVE_FOR_RECONSTRUCTION, nullptr); } else if (aPrimaryFrame) { ComputeAndProcessStyleChange(aPrimaryFrame, aMinHint, aRestyleTracker, aRestyleHint); } else if (aRestyleHint & ~eRestyle_LaterSiblings) { // We're restyling an element with no frame, so we should try to // make one if its new style says it should have one. But in order // to try to honor the restyle hint (which we'd like to do so that, // for example, an animation-only style flush doesn't flush other // buffered style changes), we only do this if the restyle hint says // we have *some* restyling for this frame. This means we'll // potentially get ahead of ourselves in that case, but not as much // as we would if we didn't check the restyle hint. nsStyleContext* newContext = FrameConstructor()->MaybeRecreateFramesForElement(aElement); if (newContext && newContext->StyleDisplay()->mDisplay == NS_STYLE_DISPLAY_CONTENTS) { // Style change for a display:contents node that did not recreate frames. ComputeAndProcessStyleChange(newContext, aElement, aMinHint, aRestyleTracker, aRestyleHint); } } } static inline dom::Element* ElementForStyleContext(nsIContent* aParentContent, nsIFrame* aFrame, nsCSSPseudoElements::Type aPseudoType); // Forwarded nsIDocumentObserver method, to handle restyling (and // passing the notification to the frame). nsresult RestyleManager::ContentStateChanged(nsIContent* aContent, EventStates aStateMask) { // XXXbz it would be good if this function only took Elements, but // we'd have to make ESM guarantee that usefully. if (!aContent->IsElement()) { return NS_OK; } Element* aElement = aContent->AsElement(); nsStyleSet* styleSet = mPresContext->StyleSet(); NS_ASSERTION(styleSet, "couldn't get style set"); nsChangeHint hint = NS_STYLE_HINT_NONE; // Any change to a content state that affects which frames we construct // must lead to a frame reconstruct here if we already have a frame. // Note that we never decide through non-CSS means to not create frames // based on content states, so if we already don't have a frame we don't // need to force a reframe -- if it's needed, the HasStateDependentStyle // call will handle things. nsIFrame* primaryFrame = aElement->GetPrimaryFrame(); nsCSSPseudoElements::Type pseudoType = nsCSSPseudoElements::ePseudo_NotPseudoElement; if (primaryFrame) { // If it's generated content, ignore LOADING/etc state changes on it. if (!primaryFrame->IsGeneratedContentFrame() && aStateMask.HasAtLeastOneOfStates(NS_EVENT_STATE_BROKEN | NS_EVENT_STATE_USERDISABLED | NS_EVENT_STATE_SUPPRESSED | NS_EVENT_STATE_LOADING)) { hint = nsChangeHint_ReconstructFrame; } else { uint8_t app = primaryFrame->StyleDisplay()->mAppearance; if (app) { nsITheme *theme = mPresContext->GetTheme(); if (theme && theme->ThemeSupportsWidget(mPresContext, primaryFrame, app)) { bool repaint = false; theme->WidgetStateChanged(primaryFrame, app, nullptr, &repaint); if (repaint) { NS_UpdateHint(hint, nsChangeHint_RepaintFrame); } } } } pseudoType = primaryFrame->StyleContext()->GetPseudoType(); primaryFrame->ContentStatesChanged(aStateMask); } nsRestyleHint rshint; if (pseudoType >= nsCSSPseudoElements::ePseudo_PseudoElementCount) { rshint = styleSet->HasStateDependentStyle(mPresContext, aElement, aStateMask); } else if (nsCSSPseudoElements::PseudoElementSupportsUserActionState( pseudoType)) { // If aElement is a pseudo-element, we want to check to see whether there // are any state-dependent rules applying to that pseudo. Element* ancestor = ElementForStyleContext(nullptr, primaryFrame, pseudoType); rshint = styleSet->HasStateDependentStyle(mPresContext, ancestor, pseudoType, aElement, aStateMask); } else { rshint = nsRestyleHint(0); } if (aStateMask.HasState(NS_EVENT_STATE_HOVER) && rshint != 0) { ++mHoverGeneration; } if (aStateMask.HasState(NS_EVENT_STATE_VISITED)) { // Exposing information to the page about whether the link is // visited or not isn't really something we can worry about here. // FIXME: We could probably do this a bit better. NS_UpdateHint(hint, nsChangeHint_RepaintFrame); } PostRestyleEvent(aElement, rshint, hint); return NS_OK; } // Forwarded nsIMutationObserver method, to handle restyling. void RestyleManager::AttributeWillChange(Element* aElement, int32_t aNameSpaceID, nsIAtom* aAttribute, int32_t aModType) { nsRestyleHint rshint = mPresContext->StyleSet()->HasAttributeDependentStyle(mPresContext, aElement, aAttribute, aModType, false); PostRestyleEvent(aElement, rshint, NS_STYLE_HINT_NONE); } // Forwarded nsIMutationObserver method, to handle restyling (and // passing the notification to the frame). void RestyleManager::AttributeChanged(Element* aElement, int32_t aNameSpaceID, nsIAtom* aAttribute, int32_t aModType) { // Hold onto the PresShell to prevent ourselves from being destroyed. // XXXbz how, exactly, would this attribute change cause us to be // destroyed from inside this function? nsCOMPtr shell = mPresContext->GetPresShell(); // Get the frame associated with the content which is the highest in the frame tree nsIFrame* primaryFrame = aElement->GetPrimaryFrame(); #if 0 NS_FRAME_LOG(NS_FRAME_TRACE_CALLS, ("RestyleManager::AttributeChanged: content=%p[%s] frame=%p", aContent, ContentTag(aElement, 0), frame)); #endif // the style tag has its own interpretation based on aHint nsChangeHint hint = aElement->GetAttributeChangeHint(aAttribute, aModType); bool reframe = (hint & nsChangeHint_ReconstructFrame) != 0; #ifdef MOZ_XUL // The following listbox widget trap prevents offscreen listbox widget // content from being removed and re-inserted (which is what would // happen otherwise). if (!primaryFrame && !reframe) { int32_t namespaceID; nsIAtom* tag = mPresContext->Document()->BindingManager()-> ResolveTag(aElement, &namespaceID); if (namespaceID == kNameSpaceID_XUL && (tag == nsGkAtoms::listitem || tag == nsGkAtoms::listcell)) return; } if (aAttribute == nsGkAtoms::tooltiptext || aAttribute == nsGkAtoms::tooltip) { nsIRootBox* rootBox = nsIRootBox::GetRootBox(mPresContext->GetPresShell()); if (rootBox) { if (aModType == nsIDOMMutationEvent::REMOVAL) rootBox->RemoveTooltipSupport(aElement); if (aModType == nsIDOMMutationEvent::ADDITION) rootBox->AddTooltipSupport(aElement); } } #endif // MOZ_XUL if (primaryFrame) { // See if we have appearance information for a theme. const nsStyleDisplay* disp = primaryFrame->StyleDisplay(); if (disp->mAppearance) { nsITheme *theme = mPresContext->GetTheme(); if (theme && theme->ThemeSupportsWidget(mPresContext, primaryFrame, disp->mAppearance)) { bool repaint = false; theme->WidgetStateChanged(primaryFrame, disp->mAppearance, aAttribute, &repaint); if (repaint) NS_UpdateHint(hint, nsChangeHint_RepaintFrame); } } // let the frame deal with it now, so we don't have to deal later primaryFrame->AttributeChanged(aNameSpaceID, aAttribute, aModType); // XXXwaterson should probably check for IB split siblings // here, and propagate the AttributeChanged notification to // them, as well. Currently, inline frames don't do anything on // this notification, so it's not that big a deal. } // See if we can optimize away the style re-resolution -- must be called after // the frame's AttributeChanged() in case it does something that affects the style nsRestyleHint rshint = mPresContext->StyleSet()->HasAttributeDependentStyle(mPresContext, aElement, aAttribute, aModType, true); PostRestyleEvent(aElement, rshint, hint); } /* static */ uint64_t RestyleManager::GetMaxAnimationGenerationForFrame(nsIFrame* aFrame) { nsIContent* content = aFrame->GetContent(); if (!content || !content->IsElement()) { return 0; } nsCSSPseudoElements::Type pseudoType = aFrame->StyleContext()->GetPseudoType(); AnimationPlayerCollection* transitions = aFrame->PresContext()->TransitionManager()->GetAnimationPlayers( content->AsElement(), pseudoType, false /* don't create */); AnimationPlayerCollection* animations = aFrame->PresContext()->AnimationManager()->GetAnimationPlayers( content->AsElement(), pseudoType, false /* don't create */); return std::max(transitions ? transitions->mAnimationGeneration : 0, animations ? animations->mAnimationGeneration : 0); } void RestyleManager::RestyleForEmptyChange(Element* aContainer) { // In some cases (:empty + E, :empty ~ E), a change if the content of // an element requires restyling its parent's siblings. nsRestyleHint hint = eRestyle_Subtree; nsIContent* grandparent = aContainer->GetParent(); if (grandparent && (grandparent->GetFlags() & NODE_HAS_SLOW_SELECTOR_LATER_SIBLINGS)) { hint = nsRestyleHint(hint | eRestyle_LaterSiblings); } PostRestyleEvent(aContainer, hint, NS_STYLE_HINT_NONE); } void RestyleManager::RestyleForAppend(Element* aContainer, nsIContent* aFirstNewContent) { NS_ASSERTION(aContainer, "must have container for append"); #ifdef DEBUG { for (nsIContent* cur = aFirstNewContent; cur; cur = cur->GetNextSibling()) { NS_ASSERTION(!cur->IsRootOfAnonymousSubtree(), "anonymous nodes should not be in child lists"); } } #endif uint32_t selectorFlags = aContainer->GetFlags() & (NODE_ALL_SELECTOR_FLAGS & ~NODE_HAS_SLOW_SELECTOR_LATER_SIBLINGS); if (selectorFlags == 0) return; if (selectorFlags & NODE_HAS_EMPTY_SELECTOR) { // see whether we need to restyle the container bool wasEmpty = true; // :empty or :-moz-only-whitespace for (nsIContent* cur = aContainer->GetFirstChild(); cur != aFirstNewContent; cur = cur->GetNextSibling()) { // We don't know whether we're testing :empty or :-moz-only-whitespace, // so be conservative and assume :-moz-only-whitespace (i.e., make // IsSignificantChild less likely to be true, and thus make us more // likely to restyle). if (nsStyleUtil::IsSignificantChild(cur, true, false)) { wasEmpty = false; break; } } if (wasEmpty) { RestyleForEmptyChange(aContainer); return; } } if (selectorFlags & NODE_HAS_SLOW_SELECTOR) { PostRestyleEvent(aContainer, eRestyle_Subtree, NS_STYLE_HINT_NONE); // Restyling the container is the most we can do here, so we're done. return; } if (selectorFlags & NODE_HAS_EDGE_CHILD_SELECTOR) { // restyle the last element child before this node for (nsIContent* cur = aFirstNewContent->GetPreviousSibling(); cur; cur = cur->GetPreviousSibling()) { if (cur->IsElement()) { PostRestyleEvent(cur->AsElement(), eRestyle_Subtree, NS_STYLE_HINT_NONE); break; } } } } // Needed since we can't use PostRestyleEvent on non-elements (with // eRestyle_LaterSiblings or nsRestyleHint(eRestyle_Subtree | // eRestyle_LaterSiblings) as appropriate). static void RestyleSiblingsStartingWith(RestyleManager* aRestyleManager, nsIContent* aStartingSibling /* may be null */) { for (nsIContent *sibling = aStartingSibling; sibling; sibling = sibling->GetNextSibling()) { if (sibling->IsElement()) { aRestyleManager-> PostRestyleEvent(sibling->AsElement(), nsRestyleHint(eRestyle_Subtree | eRestyle_LaterSiblings), NS_STYLE_HINT_NONE); break; } } } // Restyling for a ContentInserted or CharacterDataChanged notification. // This could be used for ContentRemoved as well if we got the // notification before the removal happened (and sometimes // CharacterDataChanged is more like a removal than an addition). // The comments are written and variables are named in terms of it being // a ContentInserted notification. void RestyleManager::RestyleForInsertOrChange(Element* aContainer, nsIContent* aChild) { NS_ASSERTION(!aChild->IsRootOfAnonymousSubtree(), "anonymous nodes should not be in child lists"); uint32_t selectorFlags = aContainer ? (aContainer->GetFlags() & NODE_ALL_SELECTOR_FLAGS) : 0; if (selectorFlags == 0) return; if (selectorFlags & NODE_HAS_EMPTY_SELECTOR) { // see whether we need to restyle the container bool wasEmpty = true; // :empty or :-moz-only-whitespace for (nsIContent* child = aContainer->GetFirstChild(); child; child = child->GetNextSibling()) { if (child == aChild) continue; // We don't know whether we're testing :empty or :-moz-only-whitespace, // so be conservative and assume :-moz-only-whitespace (i.e., make // IsSignificantChild less likely to be true, and thus make us more // likely to restyle). if (nsStyleUtil::IsSignificantChild(child, true, false)) { wasEmpty = false; break; } } if (wasEmpty) { RestyleForEmptyChange(aContainer); return; } } if (selectorFlags & NODE_HAS_SLOW_SELECTOR) { PostRestyleEvent(aContainer, eRestyle_Subtree, NS_STYLE_HINT_NONE); // Restyling the container is the most we can do here, so we're done. return; } if (selectorFlags & NODE_HAS_SLOW_SELECTOR_LATER_SIBLINGS) { // Restyle all later siblings. RestyleSiblingsStartingWith(this, aChild->GetNextSibling()); } if (selectorFlags & NODE_HAS_EDGE_CHILD_SELECTOR) { // restyle the previously-first element child if it is after this node bool passedChild = false; for (nsIContent* content = aContainer->GetFirstChild(); content; content = content->GetNextSibling()) { if (content == aChild) { passedChild = true; continue; } if (content->IsElement()) { if (passedChild) { PostRestyleEvent(content->AsElement(), eRestyle_Subtree, NS_STYLE_HINT_NONE); } break; } } // restyle the previously-last element child if it is before this node passedChild = false; for (nsIContent* content = aContainer->GetLastChild(); content; content = content->GetPreviousSibling()) { if (content == aChild) { passedChild = true; continue; } if (content->IsElement()) { if (passedChild) { PostRestyleEvent(content->AsElement(), eRestyle_Subtree, NS_STYLE_HINT_NONE); } break; } } } } void RestyleManager::RestyleForRemove(Element* aContainer, nsIContent* aOldChild, nsIContent* aFollowingSibling) { if (aOldChild->IsRootOfAnonymousSubtree()) { // This should be an assert, but this is called incorrectly in // nsHTMLEditor::DeleteRefToAnonymousNode and the assertions were clogging // up the logs. Make it an assert again when that's fixed. NS_WARNING("anonymous nodes should not be in child lists (bug 439258)"); } uint32_t selectorFlags = aContainer ? (aContainer->GetFlags() & NODE_ALL_SELECTOR_FLAGS) : 0; if (selectorFlags == 0) return; if (selectorFlags & NODE_HAS_EMPTY_SELECTOR) { // see whether we need to restyle the container bool isEmpty = true; // :empty or :-moz-only-whitespace for (nsIContent* child = aContainer->GetFirstChild(); child; child = child->GetNextSibling()) { // We don't know whether we're testing :empty or :-moz-only-whitespace, // so be conservative and assume :-moz-only-whitespace (i.e., make // IsSignificantChild less likely to be true, and thus make us more // likely to restyle). if (nsStyleUtil::IsSignificantChild(child, true, false)) { isEmpty = false; break; } } if (isEmpty) { RestyleForEmptyChange(aContainer); return; } } if (selectorFlags & NODE_HAS_SLOW_SELECTOR) { PostRestyleEvent(aContainer, eRestyle_Subtree, NS_STYLE_HINT_NONE); // Restyling the container is the most we can do here, so we're done. return; } if (selectorFlags & NODE_HAS_SLOW_SELECTOR_LATER_SIBLINGS) { // Restyle all later siblings. RestyleSiblingsStartingWith(this, aFollowingSibling); } if (selectorFlags & NODE_HAS_EDGE_CHILD_SELECTOR) { // restyle the now-first element child if it was after aOldChild bool reachedFollowingSibling = false; for (nsIContent* content = aContainer->GetFirstChild(); content; content = content->GetNextSibling()) { if (content == aFollowingSibling) { reachedFollowingSibling = true; // do NOT continue here; we might want to restyle this node } if (content->IsElement()) { if (reachedFollowingSibling) { PostRestyleEvent(content->AsElement(), eRestyle_Subtree, NS_STYLE_HINT_NONE); } break; } } // restyle the now-last element child if it was before aOldChild reachedFollowingSibling = (aFollowingSibling == nullptr); for (nsIContent* content = aContainer->GetLastChild(); content; content = content->GetPreviousSibling()) { if (content->IsElement()) { if (reachedFollowingSibling) { PostRestyleEvent(content->AsElement(), eRestyle_Subtree, NS_STYLE_HINT_NONE); } break; } if (content == aFollowingSibling) { reachedFollowingSibling = true; } } } } void RestyleManager::RebuildAllStyleData(nsChangeHint aExtraHint, nsRestyleHint aRestyleHint) { NS_ASSERTION(!(aExtraHint & nsChangeHint_ReconstructFrame), "Should not reconstruct the root of the frame tree. " "Use ReconstructDocElementHierarchy instead."); mRebuildAllStyleData = false; NS_UpdateHint(aExtraHint, mRebuildAllExtraHint); aRestyleHint |= mRebuildAllRestyleHint; mRebuildAllExtraHint = nsChangeHint(0); mRebuildAllRestyleHint = nsRestyleHint(0); nsIPresShell* presShell = mPresContext->GetPresShell(); if (!presShell || !presShell->GetRootFrame()) return; // Make sure that the viewmanager will outlive the presshell nsRefPtr vm = presShell->GetViewManager(); // Processing the style changes could cause a flush that propagates to // the parent frame and thus destroys the pres shell. nsCOMPtr kungFuDeathGrip(presShell); // We may reconstruct frames below and hence process anything that is in the // tree. We don't want to get notified to process those items again after. presShell->GetDocument()->FlushPendingNotifications(Flush_ContentAndNotify); nsAutoScriptBlocker scriptBlocker; MOZ_ASSERT(!mIsProcessingRestyles, "Nesting calls to processing restyles"); #ifdef DEBUG mIsProcessingRestyles = true; #endif // Until we get rid of these phases in bug 960465, we need to skip // animation restyles during the non-animation phase, and post // animation restyles so that we restyle those elements again in the // animation phase. Furthermore, we need to add // eRestyle_ChangeAnimationPhaseDescendants so that we actually honor // these booleans in all cases. mSkipAnimationRules = true; mPostAnimationRestyles = true; aRestyleHint |= eRestyle_ChangeAnimationPhaseDescendants; DoRebuildAllStyleData(mPendingRestyles, aExtraHint, aRestyleHint); mPostAnimationRestyles = false; mSkipAnimationRules = false; #ifdef DEBUG mIsProcessingRestyles = false; #endif // Make sure that we process any pending animation restyles from the // above style change. Note that we can *almost* implement the above // by just posting a style change -- except we really need to restyle // the root frame rather than the root element's primary frame. ProcessPendingRestyles(); } void RestyleManager::DoRebuildAllStyleData(RestyleTracker& aRestyleTracker, nsChangeHint aExtraHint, nsRestyleHint aRestyleHint) { // Tell the style set to get the old rule tree out of the way // so we can recalculate while maintaining rule tree immutability nsresult rv = mPresContext->StyleSet()->BeginReconstruct(); if (NS_FAILED(rv)) { return; } aRestyleHint = aRestyleHint | eRestyle_ForceDescendants; if (!(aRestyleHint & eRestyle_Subtree) && (aRestyleHint & ~(eRestyle_Force | eRestyle_ForceDescendants))) { // We want this hint to apply to the root node's primary frame // rather than the root frame, since it's the primary frame that has // the styles for the root element (rather than the ancestors of the // primary frame whose mContent is the root node but which have // different styles). If we use up the hint for one of the // ancestors that we hit first, then we'll fail to do the restyling // we need to do. Element* root = mPresContext->Document()->GetRootElement(); if (root) { // If the root element is gone, dropping the hint on the floor // should be fine. aRestyleTracker.AddPendingRestyle(root, aRestyleHint, nsChangeHint(0)); } aRestyleHint = nsRestyleHint(0); } // Recalculate all of the style contexts for the document // Note that we can ignore the return value of ComputeStyleChangeFor // because we never need to reframe the root frame // XXX This could be made faster by not rerunning rule matching // (but note that nsPresShell::SetPreferenceStyleRules currently depends // on us re-running rule matching here // XXX Does it matter that we're passing aExtraHint to the real root // frame and not the root node's primary frame? (We could do // roughly what we do for aRestyleHint above.) // Note: The restyle tracker we pass in here doesn't matter. ComputeAndProcessStyleChange(mPresContext->PresShell()->GetRootFrame(), aExtraHint, aRestyleTracker, aRestyleHint); FlushOverflowChangedTracker(); // Tell the style set it's safe to destroy the old rule tree. We // must do this after the ProcessRestyledFrames call in case the // change list has frame reconstructs in it (since frames to be // reconstructed will still have their old style context pointers // until they are destroyed). mPresContext->StyleSet()->EndReconstruct(); } void RestyleManager::ProcessPendingRestyles() { NS_PRECONDITION(mPresContext->Document(), "No document? Pshaw!"); NS_PRECONDITION(!nsContentUtils::IsSafeToRunScript(), "Missing a script blocker!"); if (mRebuildAllStyleData) { RebuildAllStyleData(nsChangeHint(0), nsRestyleHint(0)); MOZ_ASSERT(mPendingRestyles.Count() == 0); return; } // First do any queued-up frame creation. (We should really // merge this into the rest of the process, though; see bug 827239.) mPresContext->FrameConstructor()->CreateNeededFrames(); // Process non-animation restyles... NS_ABORT_IF_FALSE(!mIsProcessingRestyles, "Nesting calls to ProcessPendingRestyles?"); #ifdef DEBUG mIsProcessingRestyles = true; #endif // Before we process any restyles, we need to ensure that style // resulting from any throttled animations (animations that we're // running entirely on the compositor thread) is up-to-date, so that // if any style changes we cause trigger transitions, we have the // correct old style for starting the transition. if (nsLayoutUtils::AreAsyncAnimationsEnabled() && mPendingRestyles.Count() > 0) { IncrementAnimationGeneration(); UpdateOnlyAnimationStyles(); } // Until we get rid of these phases in bug 960465, we need to skip // animation restyles during the non-animation phase, and post // animation restyles so that we restyle those elements again in the // animation phase. mSkipAnimationRules = true; mPostAnimationRestyles = true; mPendingRestyles.ProcessRestyles(); mPostAnimationRestyles = false; mSkipAnimationRules = false; #ifdef DEBUG uint32_t oldPendingRestyleCount = mPendingRestyles.Count(); #endif // ...and then process animation restyles. This needs to happen // second because we need to start animations that resulted from the // first set of restyles (e.g., CSS transitions with negative // transition-delay), and because we need to immediately // restyle-with-animation any just-restyled elements that are // mid-transition (since processing the non-animation restyle ignores // the running transition so it can check for a new change on the same // property, and then posts an immediate animation style change). MOZ_ASSERT(!mIsProcessingAnimationStyleChange, "nesting forbidden"); mIsProcessingAnimationStyleChange = true; mPendingAnimationRestyles.ProcessRestyles(); MOZ_ASSERT(mIsProcessingAnimationStyleChange, "nesting forbidden"); mIsProcessingAnimationStyleChange = false; #ifdef DEBUG mIsProcessingRestyles = false; #endif NS_POSTCONDITION(mPendingRestyles.Count() == oldPendingRestyleCount, "We should not have posted new non-animation restyles while " "processing animation restyles"); if (mRebuildAllStyleData) { // We probably wasted a lot of work up above, but this seems safest // and it should be rarely used. // This might add us as a refresh observer again; that's ok. RebuildAllStyleData(nsChangeHint(0), nsRestyleHint(0)); } } void RestyleManager::BeginProcessingRestyles() { // Make sure to not rebuild quote or counter lists while we're // processing restyles mPresContext->FrameConstructor()->BeginUpdate(); mInStyleRefresh = true; } void RestyleManager::EndProcessingRestyles() { FlushOverflowChangedTracker(); // Set mInStyleRefresh to false now, since the EndUpdate call might // add more restyles. mInStyleRefresh = false; mPresContext->FrameConstructor()->EndUpdate(); #ifdef DEBUG mPresContext->PresShell()->VerifyStyleTree(); #endif } void RestyleManager::UpdateOnlyAnimationStyles() { TimeStamp now = mPresContext->RefreshDriver()->MostRecentRefresh(); if (mLastUpdateForThrottledAnimations == now) { return; } mLastUpdateForThrottledAnimations = now; nsTransitionManager* transitionManager = mPresContext->TransitionManager(); nsAnimationManager* animationManager = mPresContext->AnimationManager(); transitionManager->SetInAnimationOnlyStyleUpdate(true); RestyleTracker tracker(ELEMENT_HAS_PENDING_ANIMATION_ONLY_RESTYLE | ELEMENT_IS_POTENTIAL_ANIMATION_ONLY_RESTYLE_ROOT); tracker.Init(this); // FIXME: We should have the transition manager and animation manager // add only the elements for which animations are currently throttled // (i.e., animating on the compositor with main-thread style updates // suppressed). transitionManager->AddStyleUpdatesTo(tracker); animationManager->AddStyleUpdatesTo(tracker); tracker.ProcessRestyles(); transitionManager->SetInAnimationOnlyStyleUpdate(false); } void RestyleManager::PostRestyleEventCommon(Element* aElement, nsRestyleHint aRestyleHint, nsChangeHint aMinChangeHint, bool aForAnimation) { if (MOZ_UNLIKELY(mPresContext->PresShell()->IsDestroying())) { return; } if (aRestyleHint == 0 && !aMinChangeHint) { // Nothing to do here return; } RestyleTracker& tracker = aForAnimation ? mPendingAnimationRestyles : mPendingRestyles; tracker.AddPendingRestyle(aElement, aRestyleHint, aMinChangeHint); PostRestyleEventInternal(false); } void RestyleManager::PostRestyleEventInternal(bool aForLazyConstruction) { // Make sure we're not in a style refresh; if we are, we still have // a call to ProcessPendingRestyles coming and there's no need to // add ourselves as a refresh observer until then. bool inRefresh = !aForLazyConstruction && mInStyleRefresh; nsIPresShell* presShell = mPresContext->PresShell(); if (!mObservingRefreshDriver && !inRefresh) { mObservingRefreshDriver = mPresContext->RefreshDriver()-> AddStyleFlushObserver(presShell); } // Unconditionally flag our document as needing a flush. The other // option here would be a dedicated boolean to track whether we need // to do so (set here and unset in ProcessPendingRestyles). presShell->GetDocument()->SetNeedStyleFlush(); } void RestyleManager::PostRebuildAllStyleDataEvent(nsChangeHint aExtraHint, nsRestyleHint aRestyleHint) { NS_ASSERTION(!(aExtraHint & nsChangeHint_ReconstructFrame), "Should not reconstruct the root of the frame tree. " "Use ReconstructDocElementHierarchy instead."); mRebuildAllStyleData = true; NS_UpdateHint(mRebuildAllExtraHint, aExtraHint); mRebuildAllRestyleHint |= aRestyleHint; // Get a restyle event posted if necessary PostRestyleEventInternal(false); } #ifdef DEBUG static void DumpContext(nsIFrame* aFrame, nsStyleContext* aContext) { if (aFrame) { fputs("frame: ", stdout); nsAutoString name; aFrame->GetFrameName(name); fputs(NS_LossyConvertUTF16toASCII(name).get(), stdout); fprintf(stdout, " (%p)", static_cast(aFrame)); } if (aContext) { fprintf(stdout, " style: %p ", static_cast(aContext)); nsIAtom* pseudoTag = aContext->GetPseudo(); if (pseudoTag) { nsAutoString buffer; pseudoTag->ToString(buffer); fputs(NS_LossyConvertUTF16toASCII(buffer).get(), stdout); fputs(" ", stdout); } fputs("{}\n", stdout); } } static void VerifySameTree(nsStyleContext* aContext1, nsStyleContext* aContext2) { nsStyleContext* top1 = aContext1; nsStyleContext* top2 = aContext2; nsStyleContext* parent; for (;;) { parent = top1->GetParent(); if (!parent) break; top1 = parent; } for (;;) { parent = top2->GetParent(); if (!parent) break; top2 = parent; } NS_ASSERTION(top1 == top2, "Style contexts are not in the same style context tree"); } static void VerifyContextParent(nsPresContext* aPresContext, nsIFrame* aFrame, nsStyleContext* aContext, nsStyleContext* aParentContext) { // get the contexts not provided if (!aContext) { aContext = aFrame->StyleContext(); } if (!aParentContext) { nsIFrame* providerFrame; aParentContext = aFrame->GetParentStyleContext(&providerFrame); // aParentContext could still be null } NS_ASSERTION(aContext, "Failure to get required contexts"); nsStyleContext* actualParentContext = aContext->GetParent(); if (aParentContext) { if (aParentContext != actualParentContext) { DumpContext(aFrame, aContext); if (aContext == aParentContext) { NS_ERROR("Using parent's style context"); } else { NS_ERROR("Wrong parent style context"); fputs("Wrong parent style context: ", stdout); DumpContext(nullptr, actualParentContext); fputs("should be using: ", stdout); DumpContext(nullptr, aParentContext); VerifySameTree(actualParentContext, aParentContext); fputs("\n", stdout); } } } else { if (actualParentContext) { NS_ERROR("Have parent context and shouldn't"); DumpContext(aFrame, aContext); fputs("Has parent context: ", stdout); DumpContext(nullptr, actualParentContext); fputs("Should be null\n\n", stdout); } } nsStyleContext* childStyleIfVisited = aContext->GetStyleIfVisited(); // Either childStyleIfVisited has aContext->GetParent()->GetStyleIfVisited() // as the parent or it has a different rulenode from aContext _and_ has // aContext->GetParent() as the parent. if (childStyleIfVisited && !((childStyleIfVisited->RuleNode() != aContext->RuleNode() && childStyleIfVisited->GetParent() == aContext->GetParent()) || childStyleIfVisited->GetParent() == aContext->GetParent()->GetStyleIfVisited())) { NS_ERROR("Visited style has wrong parent"); DumpContext(aFrame, aContext); fputs("\n", stdout); } } static void VerifyStyleTree(nsPresContext* aPresContext, nsIFrame* aFrame, nsStyleContext* aParentContext) { nsStyleContext* context = aFrame->StyleContext(); VerifyContextParent(aPresContext, aFrame, context, nullptr); nsIFrame::ChildListIterator lists(aFrame); for (; !lists.IsDone(); lists.Next()) { nsFrameList::Enumerator childFrames(lists.CurrentList()); for (; !childFrames.AtEnd(); childFrames.Next()) { nsIFrame* child = childFrames.get(); if (!(child->GetStateBits() & NS_FRAME_OUT_OF_FLOW)) { // only do frames that are in flow if (nsGkAtoms::placeholderFrame == child->GetType()) { // placeholder: first recurse and verify the out of flow frame, // then verify the placeholder's context nsIFrame* outOfFlowFrame = nsPlaceholderFrame::GetRealFrameForPlaceholder(child); // recurse to out of flow frame, letting the parent context get resolved do { VerifyStyleTree(aPresContext, outOfFlowFrame, nullptr); } while ((outOfFlowFrame = outOfFlowFrame->GetNextContinuation())); // verify placeholder using the parent frame's context as // parent context VerifyContextParent(aPresContext, child, nullptr, nullptr); } else { // regular frame VerifyStyleTree(aPresContext, child, nullptr); } } } } // do additional contexts int32_t contextIndex = 0; for (nsStyleContext* extraContext; (extraContext = aFrame->GetAdditionalStyleContext(contextIndex)); ++contextIndex) { VerifyContextParent(aPresContext, aFrame, extraContext, context); } } void RestyleManager::DebugVerifyStyleTree(nsIFrame* aFrame) { if (aFrame) { nsStyleContext* context = aFrame->StyleContext(); nsStyleContext* parentContext = context->GetParent(); VerifyStyleTree(mPresContext, aFrame, parentContext); } } #endif // DEBUG // aContent must be the content for the frame in question, which may be // :before/:after content /* static */ void RestyleManager::TryStartingTransition(nsPresContext* aPresContext, nsIContent* aContent, nsStyleContext* aOldStyleContext, nsRefPtr* aNewStyleContext /* inout */) { if (!aContent || !aContent->IsElement()) { return; } // Notify the transition manager, and if it starts a transition, // it will give us back a transition-covering style rule which // we'll use to get *another* style context. We want to ignore // any already-running transitions, but cover up any that we're // currently starting with their start value so we don't start // them again for descendants that inherit that value. nsCOMPtr coverRule = aPresContext->TransitionManager()->StyleContextChanged( aContent->AsElement(), aOldStyleContext, *aNewStyleContext); if (coverRule) { nsCOMArray rules; rules.AppendObject(coverRule); *aNewStyleContext = aPresContext->StyleSet()-> ResolveStyleByAddingRules(*aNewStyleContext, rules); } } static inline dom::Element* ElementForStyleContext(nsIContent* aParentContent, nsIFrame* aFrame, nsCSSPseudoElements::Type aPseudoType) { // We don't expect XUL tree stuff here. NS_PRECONDITION(aPseudoType == nsCSSPseudoElements::ePseudo_NotPseudoElement || aPseudoType == nsCSSPseudoElements::ePseudo_AnonBox || aPseudoType < nsCSSPseudoElements::ePseudo_PseudoElementCount, "Unexpected pseudo"); // XXX see the comments about the various element confusion in // ElementRestyler::Restyle. if (aPseudoType == nsCSSPseudoElements::ePseudo_NotPseudoElement) { return aFrame->GetContent()->AsElement(); } if (aPseudoType == nsCSSPseudoElements::ePseudo_AnonBox) { return nullptr; } if (aPseudoType == nsCSSPseudoElements::ePseudo_firstLetter) { NS_ASSERTION(aFrame->GetType() == nsGkAtoms::letterFrame, "firstLetter pseudoTag without a nsFirstLetterFrame"); nsBlockFrame* block = nsBlockFrame::GetNearestAncestorBlock(aFrame); return block->GetContent()->AsElement(); } if (aPseudoType == nsCSSPseudoElements::ePseudo_mozColorSwatch) { MOZ_ASSERT(aFrame->GetParent() && aFrame->GetParent()->GetParent(), "Color swatch frame should have a parent & grandparent"); nsIFrame* grandparentFrame = aFrame->GetParent()->GetParent(); MOZ_ASSERT(grandparentFrame->GetType() == nsGkAtoms::colorControlFrame, "Color swatch's grandparent should be nsColorControlFrame"); return grandparentFrame->GetContent()->AsElement(); } if (aPseudoType == nsCSSPseudoElements::ePseudo_mozNumberText || aPseudoType == nsCSSPseudoElements::ePseudo_mozNumberWrapper || aPseudoType == nsCSSPseudoElements::ePseudo_mozNumberSpinBox || aPseudoType == nsCSSPseudoElements::ePseudo_mozNumberSpinUp || aPseudoType == nsCSSPseudoElements::ePseudo_mozNumberSpinDown) { // Get content for nearest nsNumberControlFrame: nsIFrame* f = aFrame->GetParent(); MOZ_ASSERT(f); while (f->GetType() != nsGkAtoms::numberControlFrame) { f = f->GetParent(); MOZ_ASSERT(f); } return f->GetContent()->AsElement(); } if (aParentContent) { return aParentContent->AsElement(); } MOZ_ASSERT(aFrame->GetContent()->GetParent(), "should not have got here for the root element"); return aFrame->GetContent()->GetParent()->AsElement(); } /** * FIXME: Temporary. Should merge with following function. */ static nsIFrame* GetPrevContinuationWithPossiblySameStyle(nsIFrame* aFrame) { // Account for {ib} splits when looking for "prevContinuation". In // particular, for the first-continuation of a part of an {ib} split // we want to use the previous ib-split sibling of the previous // ib-split sibling of aFrame, which should have the same style // context as aFrame itself. In particular, if aFrame is the first // continuation of an inline part of a block-in-inline split then its // previous ib-split sibling is a block, and the previous ib-split // sibling of _that_ is an inline, just like aFrame. Similarly, if // aFrame is the first continuation of a block part of an // block-in-inline split (a block-in-inline wrapper block), then its // previous ib-split sibling is an inline and the previous ib-split // sibling of that is either another block-in-inline wrapper block box // or null. nsIFrame *prevContinuation = aFrame->GetPrevContinuation(); if (!prevContinuation && (aFrame->GetStateBits() & NS_FRAME_PART_OF_IBSPLIT)) { // We're the first continuation, so we can just get the frame // property directly prevContinuation = static_cast( aFrame->Properties().Get(nsIFrame::IBSplitPrevSibling())); if (prevContinuation) { prevContinuation = static_cast( prevContinuation->Properties().Get(nsIFrame::IBSplitPrevSibling())); } } NS_ASSERTION(!prevContinuation || prevContinuation->GetContent() == aFrame->GetContent(), "unexpected content mismatch"); return prevContinuation; } /** * Get the previous continuation or similar ib-split sibling (assuming * block/inline alternation), conditionally on it having the same style. * This assumes that we're not between resolving the two (i.e., that * they're both already resolved. */ static nsIFrame* GetPrevContinuationWithSameStyle(nsIFrame* aFrame) { nsIFrame* prevContinuation = GetPrevContinuationWithPossiblySameStyle(aFrame); if (!prevContinuation) { return nullptr; } nsStyleContext* prevStyle = prevContinuation->StyleContext(); nsStyleContext* selfStyle = aFrame->StyleContext(); if (prevStyle != selfStyle) { NS_ASSERTION(prevStyle->GetPseudo() != selfStyle->GetPseudo() || prevStyle->GetParent() != selfStyle->GetParent(), "continuations should have the same style context"); prevContinuation = nullptr; } return prevContinuation; } /** * Get the next continuation or similar ib-split sibling (assuming * block/inline alternation), conditionally on it having the same style. * * Since this is used when deciding to copy the new style context, it * takes as an argument the old style context to check if the style is * the same. When it is used in other contexts (i.e., where the next * continuation would already have the new style context), the current * style context should be passed. */ static nsIFrame* GetNextContinuationWithSameStyle(nsIFrame* aFrame, nsStyleContext* aOldStyleContext, bool* aHaveMoreContinuations = nullptr) { // See GetPrevContinuationWithSameStyle about {ib} splits. nsIFrame *nextContinuation = aFrame->GetNextContinuation(); if (!nextContinuation && (aFrame->GetStateBits() & NS_FRAME_PART_OF_IBSPLIT)) { // We're the last continuation, so we have to hop back to the first // before getting the frame property nextContinuation = static_cast(aFrame->FirstContinuation()-> Properties().Get(nsIFrame::IBSplitSibling())); if (nextContinuation) { nextContinuation = static_cast( nextContinuation->Properties().Get(nsIFrame::IBSplitSibling())); } } if (!nextContinuation) { return nullptr; } NS_ASSERTION(nextContinuation->GetContent() == aFrame->GetContent(), "unexpected content mismatch"); nsStyleContext* nextStyle = nextContinuation->StyleContext(); if (nextStyle != aOldStyleContext) { NS_ASSERTION(aOldStyleContext->GetPseudo() != nextStyle->GetPseudo() || aOldStyleContext->GetParent() != nextStyle->GetParent(), "continuations should have the same style context"); nextContinuation = nullptr; if (aHaveMoreContinuations) { *aHaveMoreContinuations = true; } } return nextContinuation; } nsresult RestyleManager::ReparentStyleContext(nsIFrame* aFrame) { if (nsGkAtoms::placeholderFrame == aFrame->GetType()) { // Also reparent the out-of-flow and all its continuations. nsIFrame* outOfFlow = nsPlaceholderFrame::GetRealFrameForPlaceholder(aFrame); NS_ASSERTION(outOfFlow, "no out-of-flow frame"); do { ReparentStyleContext(outOfFlow); } while ((outOfFlow = outOfFlow->GetNextContinuation())); } // DO NOT verify the style tree before reparenting. The frame // tree has already been changed, so this check would just fail. nsStyleContext* oldContext = aFrame->StyleContext(); nsRefPtr newContext; nsIFrame* providerFrame; nsStyleContext* newParentContext = aFrame->GetParentStyleContext(&providerFrame); bool isChild = providerFrame && providerFrame->GetParent() == aFrame; nsIFrame* providerChild = nullptr; if (isChild) { ReparentStyleContext(providerFrame); // Get the style context again after ReparentStyleContext() which might have // changed it. newParentContext = providerFrame->StyleContext(); providerChild = providerFrame; } NS_ASSERTION(newParentContext, "Reparenting something that has no usable" " parent? Shouldn't happen!"); // XXX need to do something here to produce the correct style context for // an IB split whose first inline part is inside a first-line frame. // Currently the first IB anonymous block's style context takes the first // part's style context as parent, which is wrong since first-line style // should not apply to the anonymous block. #ifdef DEBUG { // Check that our assumption that continuations of the same // pseudo-type and with the same style context parent have the // same style context is valid before the reresolution. (We need // to check the pseudo-type and style context parent because of // :first-letter and :first-line, where we create styled and // unstyled letter/line frames distinguished by pseudo-type, and // then need to distinguish their descendants based on having // different parents.) nsIFrame *nextContinuation = aFrame->GetNextContinuation(); if (nextContinuation) { nsStyleContext *nextContinuationContext = nextContinuation->StyleContext(); NS_ASSERTION(oldContext == nextContinuationContext || oldContext->GetPseudo() != nextContinuationContext->GetPseudo() || oldContext->GetParent() != nextContinuationContext->GetParent(), "continuations should have the same style context"); } } #endif nsIFrame *prevContinuation = GetPrevContinuationWithPossiblySameStyle(aFrame); nsStyleContext *prevContinuationContext; bool copyFromContinuation = prevContinuation && (prevContinuationContext = prevContinuation->StyleContext()) ->GetPseudo() == oldContext->GetPseudo() && prevContinuationContext->GetParent() == newParentContext; if (copyFromContinuation) { // Just use the style context from the frame's previous // continuation (see assertion about aFrame->GetNextContinuation() // above, which we would have previously hit for aFrame's previous // continuation). newContext = prevContinuationContext; } else { nsIFrame* parentFrame = aFrame->GetParent(); Element* element = ElementForStyleContext(parentFrame ? parentFrame->GetContent() : nullptr, aFrame, oldContext->GetPseudoType()); nsIContent* pseudoElementContent = aFrame->GetContent(); Element* pseudoElement = (pseudoElementContent && pseudoElementContent->IsElement()) ? pseudoElementContent->AsElement() : nullptr; newContext = mPresContext->StyleSet()-> ReparentStyleContext(oldContext, newParentContext, element, pseudoElement); } if (newContext) { if (newContext != oldContext) { // We probably don't want to initiate transitions from // ReparentStyleContext, since we call it during frame // construction rather than in response to dynamic changes. // Also see the comment at the start of // nsTransitionManager::ConsiderStartingTransition. #if 0 if (!copyFromContinuation) { TryStartingTransition(mPresContext, aFrame->GetContent(), oldContext, &newContext); } #endif // Make sure to call CalcStyleDifference so that the new context ends // up resolving all the structs the old context resolved. if (!copyFromContinuation) { uint32_t equalStructs; DebugOnly styleChange = oldContext->CalcStyleDifference(newContext, nsChangeHint(0), &equalStructs); // The style change is always 0 because we have the same rulenode and // CalcStyleDifference optimizes us away. That's OK, though: // reparenting should never trigger a frame reconstruct, and whenever // it's happening we already plan to reflow and repaint the frames. NS_ASSERTION(!(styleChange & nsChangeHint_ReconstructFrame), "Our frame tree is likely to be bogus!"); } aFrame->SetStyleContext(newContext); nsIFrame::ChildListIterator lists(aFrame); for (; !lists.IsDone(); lists.Next()) { nsFrameList::Enumerator childFrames(lists.CurrentList()); for (; !childFrames.AtEnd(); childFrames.Next()) { nsIFrame* child = childFrames.get(); // only do frames that are in flow if (!(child->GetStateBits() & NS_FRAME_OUT_OF_FLOW) && child != providerChild) { #ifdef DEBUG if (nsGkAtoms::placeholderFrame == child->GetType()) { nsIFrame* outOfFlowFrame = nsPlaceholderFrame::GetRealFrameForPlaceholder(child); NS_ASSERTION(outOfFlowFrame, "no out-of-flow frame"); NS_ASSERTION(outOfFlowFrame != providerChild, "Out of flow provider?"); } #endif ReparentStyleContext(child); } } } // If this frame is part of an IB split, then the style context of // the next part of the split might be a child of our style context. // Reparent its style context just in case one of our ancestors // (split or not) hasn't done so already). It's not a problem to // reparent the same frame twice because the "if (newContext != // oldContext)" check will prevent us from redoing work. if ((aFrame->GetStateBits() & NS_FRAME_PART_OF_IBSPLIT) && !aFrame->GetPrevContinuation()) { nsIFrame* sib = static_cast (aFrame->Properties().Get(nsIFrame::IBSplitSibling())); if (sib) { ReparentStyleContext(sib); } } // do additional contexts int32_t contextIndex = 0; for (nsStyleContext* oldExtraContext; (oldExtraContext = aFrame->GetAdditionalStyleContext(contextIndex)); ++contextIndex) { nsRefPtr newExtraContext; newExtraContext = mPresContext->StyleSet()-> ReparentStyleContext(oldExtraContext, newContext, nullptr, nullptr); if (newExtraContext) { if (newExtraContext != oldExtraContext) { // Make sure to call CalcStyleDifference so that the new // context ends up resolving all the structs the old context // resolved. uint32_t equalStructs; DebugOnly styleChange = oldExtraContext->CalcStyleDifference(newExtraContext, nsChangeHint(0), &equalStructs); // The style change is always 0 because we have the same // rulenode and CalcStyleDifference optimizes us away. That's // OK, though: reparenting should never trigger a frame // reconstruct, and whenever it's happening we already plan to // reflow and repaint the frames. NS_ASSERTION(!(styleChange & nsChangeHint_ReconstructFrame), "Our frame tree is likely to be bogus!"); } aFrame->SetAdditionalStyleContext(contextIndex, newExtraContext); } } #ifdef DEBUG VerifyStyleTree(mPresContext, aFrame, newParentContext); #endif } } return NS_OK; } ElementRestyler::ElementRestyler(nsPresContext* aPresContext, nsIFrame* aFrame, nsStyleChangeList* aChangeList, nsChangeHint aHintsHandledByAncestors, RestyleTracker& aRestyleTracker, TreeMatchContext& aTreeMatchContext, nsTArray& aVisibleKidsOfHiddenElement) : mPresContext(aPresContext) , mFrame(aFrame) , mParentContent(nullptr) // XXXldb Why does it make sense to use aParentContent? (See // comment above assertion at start of ElementRestyler::Restyle.) , mContent(mFrame->GetContent() ? mFrame->GetContent() : mParentContent) , mChangeList(aChangeList) , mHintsHandled(NS_SubtractHint(aHintsHandledByAncestors, NS_HintsNotHandledForDescendantsIn(aHintsHandledByAncestors))) , mParentFrameHintsNotHandledForDescendants(nsChangeHint(0)) , mHintsNotHandledForDescendants(nsChangeHint(0)) , mRestyleTracker(aRestyleTracker) , mTreeMatchContext(aTreeMatchContext) , mResolvedChild(nullptr) #ifdef ACCESSIBILITY , mDesiredA11yNotifications(eSendAllNotifications) , mKidsDesiredA11yNotifications(mDesiredA11yNotifications) , mOurA11yNotification(eDontNotify) , mVisibleKidsOfHiddenElement(aVisibleKidsOfHiddenElement) #endif #ifdef RESTYLE_LOGGING , mLoggingDepth(aRestyleTracker.LoggingDepth() + 1) #endif { } ElementRestyler::ElementRestyler(const ElementRestyler& aParentRestyler, nsIFrame* aFrame, uint32_t aConstructorFlags) : mPresContext(aParentRestyler.mPresContext) , mFrame(aFrame) , mParentContent(aParentRestyler.mContent) // XXXldb Why does it make sense to use aParentContent? (See // comment above assertion at start of ElementRestyler::Restyle.) , mContent(mFrame->GetContent() ? mFrame->GetContent() : mParentContent) , mChangeList(aParentRestyler.mChangeList) , mHintsHandled(NS_SubtractHint(aParentRestyler.mHintsHandled, NS_HintsNotHandledForDescendantsIn(aParentRestyler.mHintsHandled))) , mParentFrameHintsNotHandledForDescendants( aParentRestyler.mHintsNotHandledForDescendants) , mHintsNotHandledForDescendants(nsChangeHint(0)) , mRestyleTracker(aParentRestyler.mRestyleTracker) , mTreeMatchContext(aParentRestyler.mTreeMatchContext) , mResolvedChild(nullptr) #ifdef ACCESSIBILITY , mDesiredA11yNotifications(aParentRestyler.mKidsDesiredA11yNotifications) , mKidsDesiredA11yNotifications(mDesiredA11yNotifications) , mOurA11yNotification(eDontNotify) , mVisibleKidsOfHiddenElement(aParentRestyler.mVisibleKidsOfHiddenElement) #endif #ifdef RESTYLE_LOGGING , mLoggingDepth(aParentRestyler.mLoggingDepth + 1) #endif { if (aConstructorFlags & FOR_OUT_OF_FLOW_CHILD) { // Note that the out-of-flow may not be a geometric descendant of // the frame where we started the reresolve. Therefore, even if // mHintsHandled already includes nsChangeHint_AllReflowHints we // don't want to pass that on to the out-of-flow reresolve, since // that can lead to the out-of-flow not getting reflowed when it // should be (eg a reresolve starting at that involves // reflowing the would miss reflowing fixed-pos nodes that // also need reflow). In the cases when the out-of-flow _is_ a // geometric descendant of a frame we already have a reflow hint // for, reflow coalescing should keep us from doing the work twice. mHintsHandled = NS_SubtractHint(mHintsHandled, nsChangeHint_AllReflowHints); } } ElementRestyler::ElementRestyler(ParentContextFromChildFrame, const ElementRestyler& aParentRestyler, nsIFrame* aFrame) : mPresContext(aParentRestyler.mPresContext) , mFrame(aFrame) , mParentContent(aParentRestyler.mParentContent) // XXXldb Why does it make sense to use aParentContent? (See // comment above assertion at start of ElementRestyler::Restyle.) , mContent(mFrame->GetContent() ? mFrame->GetContent() : mParentContent) , mChangeList(aParentRestyler.mChangeList) , mHintsHandled(NS_SubtractHint(aParentRestyler.mHintsHandled, NS_HintsNotHandledForDescendantsIn(aParentRestyler.mHintsHandled))) , mParentFrameHintsNotHandledForDescendants( // assume the worst nsChangeHint_Hints_NotHandledForDescendants) , mHintsNotHandledForDescendants(nsChangeHint(0)) , mRestyleTracker(aParentRestyler.mRestyleTracker) , mTreeMatchContext(aParentRestyler.mTreeMatchContext) , mResolvedChild(nullptr) #ifdef ACCESSIBILITY , mDesiredA11yNotifications(aParentRestyler.mDesiredA11yNotifications) , mKidsDesiredA11yNotifications(mDesiredA11yNotifications) , mOurA11yNotification(eDontNotify) , mVisibleKidsOfHiddenElement(aParentRestyler.mVisibleKidsOfHiddenElement) #endif #ifdef RESTYLE_LOGGING , mLoggingDepth(aParentRestyler.mLoggingDepth + 1) #endif { } ElementRestyler::ElementRestyler(nsPresContext* aPresContext, nsIContent* aContent, nsStyleChangeList* aChangeList, nsChangeHint aHintsHandledByAncestors, RestyleTracker& aRestyleTracker, TreeMatchContext& aTreeMatchContext, nsTArray& aVisibleKidsOfHiddenElement) : mPresContext(aPresContext) , mFrame(nullptr) , mParentContent(nullptr) , mContent(aContent) , mChangeList(aChangeList) , mHintsHandled(NS_SubtractHint(aHintsHandledByAncestors, NS_HintsNotHandledForDescendantsIn(aHintsHandledByAncestors))) , mParentFrameHintsNotHandledForDescendants(nsChangeHint(0)) , mHintsNotHandledForDescendants(nsChangeHint(0)) , mRestyleTracker(aRestyleTracker) , mTreeMatchContext(aTreeMatchContext) , mResolvedChild(nullptr) #ifdef ACCESSIBILITY , mDesiredA11yNotifications(eSendAllNotifications) , mKidsDesiredA11yNotifications(mDesiredA11yNotifications) , mOurA11yNotification(eDontNotify) , mVisibleKidsOfHiddenElement(aVisibleKidsOfHiddenElement) #endif { } void ElementRestyler::AddLayerChangesForAnimation() { // Bug 847286 - We should have separate animation generation counters // on layers for transitions and animations and use != comparison below // rather than a > comparison. uint64_t frameGeneration = RestyleManager::GetMaxAnimationGenerationForFrame(mFrame); nsChangeHint hint = nsChangeHint(0); const auto& layerInfo = css::CommonAnimationManager::sLayerAnimationInfo; for (size_t i = 0; i < ArrayLength(layerInfo); i++) { Layer* layer = FrameLayerBuilder::GetDedicatedLayer(mFrame, layerInfo[i].mLayerType); if (layer && frameGeneration > layer->GetAnimationGeneration()) { // If we have a transform layer but don't have any transform style, we // probably just removed the transform but haven't destroyed the layer // yet. In this case we will add the appropriate change hint // (nsChangeHint_AddOrRemoveTransform) when we compare style contexts // so we can skip adding any change hint here. (If we *were* to add // nsChangeHint_UpdateTransformLayer, ApplyRenderingChangeToTree would // complain that we're updating a transform layer without a transform). if (layerInfo[i].mLayerType == nsDisplayItem::TYPE_TRANSFORM && !mFrame->StyleDisplay()->HasTransformStyle()) { continue; } NS_UpdateHint(hint, layerInfo[i].mChangeHint); } } if (hint) { mChangeList->AppendChange(mFrame, mContent, hint); } } void ElementRestyler::CaptureChange(nsStyleContext* aOldContext, nsStyleContext* aNewContext, nsChangeHint aChangeToAssume, uint32_t* aEqualStructs) { static_assert(nsStyleStructID_Length <= 32, "aEqualStructs is not big enough"); // Check some invariants about replacing one style context with another. NS_ASSERTION(aOldContext->GetPseudo() == aNewContext->GetPseudo(), "old and new style contexts should have the same pseudo"); NS_ASSERTION(aOldContext->GetPseudoType() == aNewContext->GetPseudoType(), "old and new style contexts should have the same pseudo"); nsChangeHint ourChange = aOldContext->CalcStyleDifference(aNewContext, mParentFrameHintsNotHandledForDescendants, aEqualStructs); NS_ASSERTION(!(ourChange & nsChangeHint_AllReflowHints) || (ourChange & nsChangeHint_NeedReflow), "Reflow hint bits set without actually asking for a reflow"); LOG_RESTYLE("CaptureChange, ourChange = %s, aChangeToAssume = %s", RestyleManager::ChangeHintToString(ourChange).get(), RestyleManager::ChangeHintToString(aChangeToAssume).get()); LOG_RESTYLE_INDENT(); // nsChangeHint_UpdateEffects is inherited, but it can be set due to changes // in inherited properties (fill and stroke). Avoid propagating it into // text nodes. if ((ourChange & nsChangeHint_UpdateEffects) && mContent && !mContent->IsElement()) { ourChange = NS_SubtractHint(ourChange, nsChangeHint_UpdateEffects); } NS_UpdateHint(ourChange, aChangeToAssume); if (NS_UpdateHint(mHintsHandled, ourChange)) { if (!(ourChange & nsChangeHint_ReconstructFrame) || mContent) { LOG_RESTYLE("appending change %s", RestyleManager::ChangeHintToString(ourChange).get()); mChangeList->AppendChange(mFrame, mContent, ourChange); } else { LOG_RESTYLE("change has already been handled"); } } NS_UpdateHint(mHintsNotHandledForDescendants, NS_HintsNotHandledForDescendantsIn(ourChange)); LOG_RESTYLE("mHintsNotHandledForDescendants = %s", RestyleManager::ChangeHintToString(mHintsNotHandledForDescendants).get()); } /** * Recompute style for mFrame (which should not have a prev continuation * with the same style), all of its next continuations with the same * style, and all ib-split siblings of the same type (either block or * inline, skipping the intermediates of the other type) and accumulate * changes into mChangeList given that mHintsHandled is already accumulated * for an ancestor. * mParentContent is the content node used to resolve the parent style * context. This means that, for pseudo-elements, it is the content * that should be used for selector matching (rather than the fake * content node attached to the frame). */ void ElementRestyler::Restyle(nsRestyleHint aRestyleHint) { // It would be nice if we could make stronger assertions here; they // would let us simplify the ?: expressions below setting |content| // and |pseudoContent| in sensible ways as well as making what // |content| and |pseudoContent| mean, and their relationship to // |mFrame->GetContent()|, make more sense. However, we can't, // because of frame trees like the one in // https://bugzilla.mozilla.org/show_bug.cgi?id=472353#c14 . Once we // fix bug 242277 we should be able to make this make more sense. NS_ASSERTION(mFrame->GetContent() || !mParentContent || !mParentContent->GetParent(), "frame must have content (unless at the top of the tree)"); NS_ASSERTION(!GetPrevContinuationWithSameStyle(mFrame), "should not be trying to restyle this frame separately"); MOZ_ASSERT(!(aRestyleHint & eRestyle_LaterSiblings), "eRestyle_LaterSiblings must not be part of aRestyleHint"); AutoDisplayContentsAncestorPusher adcp(mTreeMatchContext, mFrame->PresContext(), mFrame->GetContent() ? mFrame->GetContent()->GetParent() : nullptr); // List of descendant elements of mContent we know we will eventually need to // restyle. Before we return from this function, we call // RestyleTracker::AddRestyleRootsIfAwaitingRestyle to ensure they get // restyled in RestyleTracker::DoProcessRestyles. nsTArray> descendants; nsRestyleHint hintToRestore = nsRestyleHint(0); if (mContent && mContent->IsElement() && // If we're we're resolving from the root of the frame tree (which // we do in DoRebuildAllStyleData), we need to avoid getting the // root's restyle data until we get to its primary frame, since // it's the primary frame that has the styles for the root element // (rather than the ancestors of the primary frame whose mContent // is the root node but which have different styles). If we use // up the hint for one of the ancestors that we hit first, then // we'll fail to do the restyling we need to do. (mContent->GetParent() || mContent->GetPrimaryFrame() == mFrame)) { mContent->OwnerDoc()->FlushPendingLinkUpdates(); nsAutoPtr restyleData; if (mRestyleTracker.GetRestyleData(mContent->AsElement(), restyleData)) { if (NS_UpdateHint(mHintsHandled, restyleData->mChangeHint)) { mChangeList->AppendChange(mFrame, mContent, restyleData->mChangeHint); } hintToRestore = restyleData->mRestyleHint; aRestyleHint = nsRestyleHint(aRestyleHint | restyleData->mRestyleHint); descendants.SwapElements(restyleData->mDescendants); } } // Some changes to animations don't affect the computed style and yet still // require the layer to be updated. For example, pausing an animation via // the Web Animations API won't affect an element's style but still // requires us to pull the animation off the layer. AddLayerChangesForAnimation(); // If we are restyling this frame with eRestyle_Self or weaker hints, // we restyle children with nsRestyleHint(0). But we pass the // eRestyle_ChangeAnimationPhaseDescendants and eRestyle_ForceDescendants // flags down too. nsRestyleHint childRestyleHint = nsRestyleHint(aRestyleHint & (eRestyle_Subtree | eRestyle_ChangeAnimationPhaseDescendants | eRestyle_ForceDescendants)); nsRefPtr oldContext = mFrame->StyleContext(); // TEMPORARY (until bug 918064): Call RestyleSelf for each // continuation or block-in-inline sibling. // We must make a single decision on how to process this frame and // its descendants, yet RestyleSelf might return different RestyleResult // values for the different same-style continuations. |result| is our // overall decision. RestyleResult result = RestyleResult(0); uint32_t swappedStructs = 0; nsRestyleHint thisRestyleHint = aRestyleHint; bool haveMoreContinuations = false; for (nsIFrame* f = mFrame; f; ) { RestyleResult thisResult = RestyleSelf(f, thisRestyleHint, &swappedStructs); if (thisResult != eRestyleResult_Stop) { // Calls to RestyleSelf for later same-style continuations must not // return eRestyleResult_Stop, so pass eRestyle_Force in to them. thisRestyleHint = nsRestyleHint(thisRestyleHint | eRestyle_Force); if (result == eRestyleResult_Stop) { // We received eRestyleResult_Stop for earlier same-style // continuations, and eRestyleResult_Continue(AndForceDescendants) for // this one; go back and force-restyle the earlier continuations. result = thisResult; f = mFrame; continue; } } if (thisResult > result) { // We take the highest RestyleResult value when working out what to do // with this frame and its descendants. Higher RestyleResult values // represent a superset of the work done by lower values. result = thisResult; } f = GetNextContinuationWithSameStyle(f, oldContext, &haveMoreContinuations); } if (haveMoreContinuations && hintToRestore) { // If we have more continuations with different style (e.g., because // we're inside a ::first-letter or ::first-line), put the restyle // hint back. mRestyleTracker.AddPendingRestyleToTable(mContent->AsElement(), hintToRestore, nsChangeHint(0)); } if (result == eRestyleResult_Stop) { MOZ_ASSERT(mFrame->StyleContext() == oldContext, "frame should have been left with its old style context"); nsIFrame* unused; nsStyleContext* newParent = mFrame->GetParentStyleContext(&unused); if (oldContext->GetParent() != newParent) { // If we received eRestyleResult_Stop, then the old style context was // left on mFrame. Since we ended up restyling our parent, change // this old style context to point to its new parent. LOG_RESTYLE("moving style context %p from old parent %p to new parent %p", oldContext.get(), oldContext->GetParent(), newParent); oldContext->MoveTo(newParent); } // Send the accessibility notifications that RestyleChildren otherwise // would have sent. if (!(mHintsHandled & nsChangeHint_ReconstructFrame)) { InitializeAccessibilityNotifications(mFrame->StyleContext()); SendAccessibilityNotifications(); } mRestyleTracker.AddRestyleRootsIfAwaitingRestyle(descendants); return; } if (!swappedStructs) { // If we swapped any structs from the old context, then we need to keep // it alive until after the RestyleChildren call so that we can fix up // its descendants' cached structs. oldContext = nullptr; } if (result == eRestyleResult_ContinueAndForceDescendants) { childRestyleHint = nsRestyleHint(childRestyleHint | eRestyle_ForceDescendants); } // No need to do this if we're planning to reframe already. // It's also important to check mHintsHandled since we use // mFrame->StyleContext(), which is out of date if mHintsHandled // has a ReconstructFrame hint. Using an out of date style // context could trigger assertions about mismatched rule trees. if (!(mHintsHandled & nsChangeHint_ReconstructFrame)) { RestyleChildren(childRestyleHint); } if (oldContext && !oldContext->HasSingleReference()) { // If we swapped some structs out of oldContext in the RestyleSelf call // and after the RestyleChildren call we still have other strong references // to it, we need to make ensure its descendants don't cached any of the // structs that were swapped out. // // Most of the time we will not get in here; we do for example when the // style context is being held on to by an nsComputedDOMStyle object. // // Strictly we only have to do this if we have a child whose old or new // style context is shared (as in that case we would not have swapped that // child's structs and it would have kept its now out of date cached // structs). For now we don't bother tracking that. oldContext->ClearCachedInheritedStyleDataOnDescendants(swappedStructs); } mRestyleTracker.AddRestyleRootsIfAwaitingRestyle(descendants); } /** * Depending on the details of the frame we are restyling or its old style * context, we may or may not be able to stop restyling after this frame if * we find we had no style changes. * * This function returns eRestyleResult_Stop if it does not find any * conditions that would preclude stopping restyling, and * eRestyleResult_Continue if it does. */ ElementRestyler::RestyleResult ElementRestyler::ComputeRestyleResultFromFrame(nsIFrame* aSelf) { // We can't handle situations where the primary style context of a frame // has not had any style data changes, but its additional style contexts // have, so we don't considering stopping if this frame has any additional // style contexts. if (aSelf->GetAdditionalStyleContext(0)) { LOG_RESTYLE_CONTINUE("there are additional style contexts"); return eRestyleResult_Continue; } // Style changes might have moved children between the two nsLetterFrames // (the one matching ::first-letter and the one containing the rest of the // content). Continue restyling to the children of the nsLetterFrame so // that they get the correct style context parent. Similarly for // nsLineFrames. nsIAtom* type = aSelf->GetType(); if (type == nsGkAtoms::letterFrame) { LOG_RESTYLE_CONTINUE("frame is a letter frame"); return eRestyleResult_Continue; } if (type == nsGkAtoms::lineFrame) { LOG_RESTYLE_CONTINUE("frame is a line frame"); return eRestyleResult_Continue; } // Some style computations depend not on the parent's style, but a grandparent // or one the grandparent's ancestors. An example is an explicit 'inherit' // value for align-self, where if the parent frame's value for the property is // 'auto' we end up inheriting the computed value from the grandparent. We // can't stop the restyling process on this frame (the one with 'auto', in // this example), as the grandparent's computed value might have changed // and we need to recompute the child's 'inherit' to that new value. nsStyleContext* oldContext = aSelf->StyleContext(); if (oldContext->HasChildThatUsesGrandancestorStyle()) { LOG_RESTYLE_CONTINUE("the old context uses grandancestor style"); return eRestyleResult_Continue; } // We ignore all situations that involve :visited style. if (oldContext->GetStyleIfVisited()) { LOG_RESTYLE_CONTINUE("the old style context has StyleIfVisited"); return eRestyleResult_Continue; } nsStyleContext* parentContext = oldContext->GetParent(); if (parentContext && parentContext->GetStyleIfVisited()) { LOG_RESTYLE_CONTINUE("the old style context's parent has StyleIfVisited"); return eRestyleResult_Continue; } // We also ignore frames for pseudos, as their style contexts have // inheritance structures that do not match the frame inheritance // structure. To avoid enumerating and checking all of the cases // where we have this kind of inheritance, we keep restyling past // pseudos. nsIAtom* pseudoTag = oldContext->GetPseudo(); if (pseudoTag && pseudoTag != nsCSSAnonBoxes::mozNonElement) { LOG_RESTYLE_CONTINUE("the old style context is for a pseudo"); return eRestyleResult_Continue; } nsIFrame* parent = mFrame->GetParent(); if (parent) { // Also if the parent has a pseudo, as this frame's style context will // be inheriting from a grandparent frame's style context (or a further // ancestor). nsIAtom* parentPseudoTag = parent->StyleContext()->GetPseudo(); if (parentPseudoTag && parentPseudoTag != nsCSSAnonBoxes::mozNonElement) { LOG_RESTYLE_CONTINUE("the old style context's parent is for a pseudo"); return eRestyleResult_Continue; } } return eRestyleResult_Stop; } ElementRestyler::RestyleResult ElementRestyler::ComputeRestyleResultFromNewContext(nsIFrame* aSelf, nsStyleContext* aNewContext) { // Keep restyling if the new style context has any style-if-visted style, so // that we can avoid the style context tree surgery having to deal to deal // with visited styles. if (aNewContext->GetStyleIfVisited()) { LOG_RESTYLE_CONTINUE("the new style context has StyleIfVisited"); return eRestyleResult_Continue; } // If link-related information has changed, or the pseudo for the frame has // changed, or the new style context points to a different rule node, we can't // leave the old style context on the frame. nsStyleContext* oldContext = aSelf->StyleContext(); if (oldContext->IsLinkContext() != aNewContext->IsLinkContext() || oldContext->RelevantLinkVisited() != aNewContext->RelevantLinkVisited() || oldContext->GetPseudo() != aNewContext->GetPseudo() || oldContext->GetPseudoType() != aNewContext->GetPseudoType() || oldContext->RuleNode() != aNewContext->RuleNode()) { LOG_RESTYLE_CONTINUE("the old and new style contexts have different link/" "visited/pseudo/rulenodes"); return eRestyleResult_Continue; } // If the old and new style contexts differ in their // NS_STYLE_HAS_TEXT_DECORATION_LINES or NS_STYLE_HAS_PSEUDO_ELEMENT_DATA // bits, then we must keep restyling so that those new bit values are // propagated. if (oldContext->HasTextDecorationLines() != aNewContext->HasTextDecorationLines()) { LOG_RESTYLE_CONTINUE("NS_STYLE_HAS_TEXT_DECORATION_LINES differs between old" " and new style contexts"); return eRestyleResult_Continue; } if (oldContext->HasPseudoElementData() != aNewContext->HasPseudoElementData()) { LOG_RESTYLE_CONTINUE("NS_STYLE_HAS_PSEUDO_ELEMENT_DATA differs between old" " and new style contexts"); return eRestyleResult_Continue; } return eRestyleResult_Stop; } ElementRestyler::RestyleResult ElementRestyler::RestyleSelf(nsIFrame* aSelf, nsRestyleHint aRestyleHint, uint32_t* aSwappedStructs) { MOZ_ASSERT(!(aRestyleHint & eRestyle_LaterSiblings), "eRestyle_LaterSiblings must not be part of aRestyleHint"); // XXXldb get new context from prev-in-flow if possible, to avoid // duplication. (Or should we just let |GetContext| handle that?) // Getting the hint would be nice too, but that's harder. // XXXbryner we may be able to avoid some of the refcounting goop here. // We do need a reference to oldContext for the lifetime of this function, and it's possible // that the frame has the last reference to it, so AddRef it here. LOG_RESTYLE("RestyleSelf %s, aRestyleHint = %s", FrameTagToString(aSelf).get(), RestyleManager::RestyleHintToString(aRestyleHint).get()); LOG_RESTYLE_INDENT(); RestyleResult result; if (aRestyleHint) { result = eRestyleResult_Continue; } else { result = ComputeRestyleResultFromFrame(aSelf); } nsChangeHint assumeDifferenceHint = NS_STYLE_HINT_NONE; nsRefPtr oldContext = aSelf->StyleContext(); nsStyleSet* styleSet = mPresContext->StyleSet(); #ifdef ACCESSIBILITY mWasFrameVisible = nsIPresShell::IsAccessibilityActive() ? oldContext->StyleVisibility()->IsVisible() : false; #endif nsIAtom* const pseudoTag = oldContext->GetPseudo(); const nsCSSPseudoElements::Type pseudoType = oldContext->GetPseudoType(); // Get the frame providing the parent style context. If it is a // child, then resolve the provider first. nsIFrame* providerFrame; nsStyleContext* parentContext = aSelf->GetParentStyleContext(&providerFrame); bool isChild = providerFrame && providerFrame->GetParent() == aSelf; if (isChild) { MOZ_ASSERT(providerFrame->GetContent() == aSelf->GetContent(), "Postcondition for GetParentStyleContext() violated. " "That means we need to add the current element to the " "ancestor filter."); // resolve the provider here (before aSelf below). LOG_RESTYLE("resolving child provider frame"); // assumeDifferenceHint forces the parent's change to be also // applied to this frame, no matter what // nsStyleContext::CalcStyleDifference says. CalcStyleDifference // can't be trusted because it assumes any changes to the parent // style context provider will be automatically propagated to // the frame(s) with child style contexts. ElementRestyler providerRestyler(PARENT_CONTEXT_FROM_CHILD_FRAME, *this, providerFrame); providerRestyler.Restyle(aRestyleHint); assumeDifferenceHint = providerRestyler.HintsHandledForFrame(); // The provider's new context becomes the parent context of // aSelf's context. parentContext = providerFrame->StyleContext(); // Set |mResolvedChild| so we don't bother resolving the // provider again. mResolvedChild = providerFrame; LOG_RESTYLE_CONTINUE("we had a provider frame"); // Continue restyling past the odd style context inheritance. result = eRestyleResult_Continue; } if (providerFrame != aSelf->GetParent()) { // We don't actually know what the parent style context's // non-inherited hints were, so assume the worst. mParentFrameHintsNotHandledForDescendants = nsChangeHint_Hints_NotHandledForDescendants; } // We don't support using eRestyle_StyleAttribute when pseudo-elements // are involved. This is mostly irrelevant since style attribute // changes on pseudo-elements are very rare, though it does mean we // don't get the optimization for table elements. if (pseudoType != nsCSSPseudoElements::ePseudo_NotPseudoElement && (aRestyleHint & eRestyle_StyleAttribute)) { aRestyleHint = (aRestyleHint & ~eRestyle_StyleAttribute) | eRestyle_Self; } LOG_RESTYLE("parentContext = %p", parentContext); // do primary context nsRefPtr newContext; nsIFrame *prevContinuation = GetPrevContinuationWithPossiblySameStyle(aSelf); nsStyleContext *prevContinuationContext; bool copyFromContinuation = prevContinuation && (prevContinuationContext = prevContinuation->StyleContext()) ->GetPseudo() == oldContext->GetPseudo() && prevContinuationContext->GetParent() == parentContext; if (copyFromContinuation) { // Just use the style context from the frame's previous // continuation. LOG_RESTYLE("using previous continuation's context"); newContext = prevContinuationContext; } else if (pseudoTag == nsCSSAnonBoxes::mozNonElement) { NS_ASSERTION(aSelf->GetContent(), "non pseudo-element frame without content node"); newContext = styleSet->ResolveStyleForNonElement(parentContext); } else if (!(aRestyleHint & (eRestyle_Self | eRestyle_Subtree))) { Element* element = ElementForStyleContext(mParentContent, aSelf, pseudoType); if (!(aRestyleHint & ~(eRestyle_Force | eRestyle_ForceDescendants)) && !styleSet->IsInRuleTreeReconstruct()) { nsIContent* pseudoElementContent = aSelf->GetContent(); Element* pseudoElement = (pseudoElementContent && pseudoElementContent->IsElement()) ? pseudoElementContent->AsElement() : nullptr; LOG_RESTYLE("reparenting style context"); newContext = styleSet->ReparentStyleContext(oldContext, parentContext, element, pseudoElement); } else { // Use ResolveStyleWithReplacement either for actual replacements // or, with no replacements, as a substitute for // ReparentStyleContext that rebuilds the path in the rule tree // rather than reusing the rule node, as we need to do during a // rule tree reconstruct. LOG_RESTYLE("resolving style with replacement"); newContext = styleSet->ResolveStyleWithReplacement(element, parentContext, oldContext, aRestyleHint); } } else if (pseudoType == nsCSSPseudoElements::ePseudo_AnonBox) { newContext = styleSet->ResolveAnonymousBoxStyle(pseudoTag, parentContext); } else { Element* element = ElementForStyleContext(mParentContent, aSelf, pseudoType); if (pseudoTag) { if (pseudoTag == nsCSSPseudoElements::before || pseudoTag == nsCSSPseudoElements::after) { // XXX what other pseudos do we need to treat like this? newContext = styleSet->ProbePseudoElementStyle(element, pseudoType, parentContext, mTreeMatchContext); if (!newContext) { // This pseudo should no longer exist; gotta reframe NS_UpdateHint(mHintsHandled, nsChangeHint_ReconstructFrame); mChangeList->AppendChange(aSelf, element, nsChangeHint_ReconstructFrame); // We're reframing anyway; just keep the same context newContext = oldContext; #ifdef DEBUG // oldContext's parent might have had its style structs swapped out // with parentContext, so to avoid any assertions that might // otherwise trigger in oldContext's parent's destructor, we set a // flag on oldContext to skip it and its descendants in // nsStyleContext::AssertStructsNotUsedElsewhere. if (oldContext->GetParent() != parentContext) { oldContext->AddStyleBit(NS_STYLE_IS_GOING_AWAY); } #endif } } else { // Don't expect XUL tree stuff here, since it needs a comparator and // all. NS_ASSERTION(pseudoType < nsCSSPseudoElements::ePseudo_PseudoElementCount, "Unexpected pseudo type"); Element* pseudoElement = nsCSSPseudoElements::PseudoElementSupportsStyleAttribute(pseudoType) || nsCSSPseudoElements::PseudoElementSupportsUserActionState(pseudoType) ? aSelf->GetContent()->AsElement() : nullptr; MOZ_ASSERT(element != pseudoElement); newContext = styleSet->ResolvePseudoElementStyle(element, pseudoType, parentContext, pseudoElement); } } else { NS_ASSERTION(aSelf->GetContent(), "non pseudo-element frame without content node"); // Skip parent display based style fixup for anonymous subtrees: TreeMatchContext::AutoParentDisplayBasedStyleFixupSkipper parentDisplayBasedFixupSkipper(mTreeMatchContext, element->IsRootOfNativeAnonymousSubtree()); newContext = styleSet->ResolveStyleFor(element, parentContext, mTreeMatchContext); } } MOZ_ASSERT(newContext); if (!parentContext) { if (oldContext->RuleNode() == newContext->RuleNode() && oldContext->IsLinkContext() == newContext->IsLinkContext() && oldContext->RelevantLinkVisited() == newContext->RelevantLinkVisited()) { // We're the root of the style context tree and the new style // context returned has the same rule node. This means that // we can use FindChildWithRules to keep a lot of the old // style contexts around. However, we need to start from the // same root. LOG_RESTYLE("restyling root and keeping old context"); LOG_RESTYLE_IF(this, result != eRestyleResult_Continue, "continuing restyle since this is the root"); newContext = oldContext; // Never consider stopping restyling at the root. result = eRestyleResult_Continue; } } LOG_RESTYLE("oldContext = %p, newContext = %p%s", oldContext.get(), newContext.get(), oldContext == newContext ? (const char*) " (same)" : (const char*) ""); if (newContext != oldContext) { if (result == eRestyleResult_Stop) { if (oldContext->IsShared()) { // If the old style context was shared, then we can't return // eRestyleResult_Stop and patch its parent to point to the // new parent style context, as that change might not be valid // for the other frames sharing the style context. LOG_RESTYLE_CONTINUE("the old style context is shared"); result = eRestyleResult_Continue; } else { // Look at some details of the new style context to see if it would // be safe to stop restyling, if we discover it has the same style // data as the old style context. result = ComputeRestyleResultFromNewContext(aSelf, newContext); } } uint32_t equalStructs = 0; if (copyFromContinuation) { // In theory we should know whether there was any style data difference, // since we would have calculated that in the previous call to // RestyleSelf, so until we perform only one restyling per chain-of- // same-style continuations (bug 918064), we need to check again here to // determine whether it is safe to stop restyling. if (result == eRestyleResult_Stop) { oldContext->CalcStyleDifference(newContext, nsChangeHint(0), &equalStructs); if (equalStructs != NS_STYLE_INHERIT_MASK) { // At least one struct had different data in it, so we must // continue restyling children. LOG_RESTYLE_CONTINUE("there is different style data: %s", RestyleManager::StructNamesToString( ~equalStructs & NS_STYLE_INHERIT_MASK).get()); result = eRestyleResult_Continue; } } } else { RestyleManager::TryStartingTransition(mPresContext, aSelf->GetContent(), oldContext, &newContext); CaptureChange(oldContext, newContext, assumeDifferenceHint, &equalStructs); if (equalStructs != NS_STYLE_INHERIT_MASK) { // At least one struct had different data in it, so we must // continue restyling children. LOG_RESTYLE_CONTINUE("there is different style data: %s", RestyleManager::StructNamesToString( ~equalStructs & NS_STYLE_INHERIT_MASK).get()); result = eRestyleResult_Continue; } } if (result == eRestyleResult_Stop) { // Since we currently have eRestyleResult_Stop, we know at this // point that all of our style structs are equal in terms of styles. // However, some of them might be different pointers. Since our // descendants might share those pointers, we have to continue to // restyling our descendants. // // However, because of the swapping of equal structs we've done on // ancestors (later in this function), we've ensured that for structs // that cannot be stored in the rule tree, we keep the old equal structs // around rather than replacing them with new ones. This means that we // only time we hit this deoptimization is either // // (a) when at least one of the (old or new) equal structs could be stored // in the rule tree, and those structs are then inherited (by pointer // sharing) to descendant style contexts; or // // (b) when we were unable to swap the structs on the parent because // either or both of the old parent and new parent are shared. for (nsStyleStructID sid = nsStyleStructID(0); sid < nsStyleStructID_Length; sid = nsStyleStructID(sid + 1)) { if (oldContext->HasCachedInheritedStyleData(sid) && !oldContext->HasSameCachedStyleData(newContext, sid)) { LOG_RESTYLE_CONTINUE("there are different struct pointers"); result = eRestyleResult_Continue; break; } } } if (!(mHintsHandled & nsChangeHint_ReconstructFrame)) { // If the frame gets regenerated, let it keep its old context, // which is important to maintain various invariants about // frame types matching their style contexts. // Note that this check even makes sense if we didn't call // CaptureChange because of copyFromContinuation being true, // since we'll have copied the existing context from the // previous continuation, so newContext == oldContext. if (result != eRestyleResult_Stop) { if (copyFromContinuation) { LOG_RESTYLE("not swapping style structs, since we copied from a " "continuation"); } else if (oldContext->IsShared() && newContext->IsShared()) { LOG_RESTYLE("not swapping style structs, since both old and contexts " "are shared"); } else if (oldContext->IsShared()) { LOG_RESTYLE("not swapping style structs, since the old context is " "shared"); } else if (newContext->IsShared()) { LOG_RESTYLE("not swapping style structs, since the new context is " "shared"); } else { LOG_RESTYLE("swapping style structs between %p and %p", oldContext.get(), newContext.get()); oldContext->SwapStyleData(newContext, equalStructs); *aSwappedStructs |= equalStructs; #ifdef RESTYLE_LOGGING uint32_t structs = RestyleManager::StructsToLog() & equalStructs; if (structs) { LOG_RESTYLE_INDENT(); LOG_RESTYLE("old style context now has: %s", oldContext->GetCachedStyleDataAsString(structs).get()); LOG_RESTYLE("new style context now has: %s", newContext->GetCachedStyleDataAsString(structs).get()); } #endif } LOG_RESTYLE("setting new style context"); aSelf->SetStyleContext(newContext); } } else { LOG_RESTYLE("not setting new style context, since we'll reframe"); } } oldContext = nullptr; // do additional contexts // XXXbz might be able to avoid selector matching here in some // cases; won't worry about it for now. int32_t contextIndex = 0; for (nsStyleContext* oldExtraContext; (oldExtraContext = aSelf->GetAdditionalStyleContext(contextIndex)); ++contextIndex) { LOG_RESTYLE("extra context %d", contextIndex); LOG_RESTYLE_INDENT(); nsRefPtr newExtraContext; nsIAtom* const extraPseudoTag = oldExtraContext->GetPseudo(); const nsCSSPseudoElements::Type extraPseudoType = oldExtraContext->GetPseudoType(); NS_ASSERTION(extraPseudoTag && extraPseudoTag != nsCSSAnonBoxes::mozNonElement, "extra style context is not pseudo element"); if (!(aRestyleHint & (eRestyle_Self | eRestyle_Subtree))) { Element* element = extraPseudoType != nsCSSPseudoElements::ePseudo_AnonBox ? mContent->AsElement() : nullptr; if (styleSet->IsInRuleTreeReconstruct()) { // Use ResolveStyleWithReplacement as a substitute for // ReparentStyleContext that rebuilds the path in the rule tree // rather than reusing the rule node, as we need to do during a // rule tree reconstruct. newExtraContext = styleSet->ResolveStyleWithReplacement(element, newContext, oldExtraContext, nsRestyleHint(0)); } else { nsIContent* pseudoElementContent = aSelf->GetContent(); Element* pseudoElement = (pseudoElementContent && pseudoElementContent->IsElement()) ? pseudoElementContent->AsElement() : nullptr; newExtraContext = styleSet->ReparentStyleContext(oldExtraContext, newContext, element, pseudoElement); } } else if (extraPseudoType == nsCSSPseudoElements::ePseudo_AnonBox) { newExtraContext = styleSet->ResolveAnonymousBoxStyle(extraPseudoTag, newContext); } else { // Don't expect XUL tree stuff here, since it needs a comparator and // all. NS_ASSERTION(extraPseudoType < nsCSSPseudoElements::ePseudo_PseudoElementCount, "Unexpected type"); newExtraContext = styleSet->ResolvePseudoElementStyle(mContent->AsElement(), extraPseudoType, newContext, nullptr); } MOZ_ASSERT(newExtraContext); LOG_RESTYLE("newExtraContext = %p", newExtraContext.get()); if (oldExtraContext != newExtraContext) { uint32_t equalStructs; CaptureChange(oldExtraContext, newExtraContext, assumeDifferenceHint, &equalStructs); if (!(mHintsHandled & nsChangeHint_ReconstructFrame)) { LOG_RESTYLE("setting new extra style context"); aSelf->SetAdditionalStyleContext(contextIndex, newExtraContext); } else { LOG_RESTYLE("not setting new extra style context, since we'll reframe"); } } } if (aRestyleHint & eRestyle_ForceDescendants) { result = eRestyleResult_ContinueAndForceDescendants; } LOG_RESTYLE("returning %s", RestyleResultToString(result).get()); return result; } void ElementRestyler::RestyleChildren(nsRestyleHint aChildRestyleHint) { MOZ_ASSERT(!(mHintsHandled & nsChangeHint_ReconstructFrame), "No need to do this if we're planning to reframe already."); // We'd like style resolution to be exact in the sense that an // animation-only style flush flushes only the styles it requests // flushing and doesn't update any other styles. This means avoiding // constructing new frames during such a flush. // // For a ::before or ::after, we'll do an eRestyle_Subtree due to // RestyleHintForOp in nsCSSRuleProcessor.cpp (via its // HasAttributeDependentStyle or HasStateDependentStyle), given that // we store pseudo-elements in selectors like they were children. // // Also, it's faster to skip the work we do on undisplayed children // and pseudo-elements when we can skip it. bool mightReframePseudos = aChildRestyleHint & eRestyle_Subtree; RestyleUndisplayedDescendants(aChildRestyleHint); // Check whether we might need to create a new ::before frame. // There's no need to do this if we're planning to reframe already // or if we're not forcing restyles on kids. // It's also important to check mHintsHandled since we use // mFrame->StyleContext(), which is out of date if mHintsHandled has a // ReconstructFrame hint. Using an out of date style context could // trigger assertions about mismatched rule trees. if (!(mHintsHandled & nsChangeHint_ReconstructFrame) && mightReframePseudos) { MaybeReframeForBeforePseudo(); } // There is no need to waste time crawling into a frame's children // on a frame change. The act of reconstructing frames will force // new style contexts to be resolved on all of this frame's // descendants anyway, so we want to avoid wasting time processing // style contexts that we're just going to throw away anyway. - dwh // It's also important to check mHintsHandled since reresolving the // kids would use mFrame->StyleContext(), which is out of date if // mHintsHandled has a ReconstructFrame hint; doing this could trigger // assertions about mismatched rule trees. nsIFrame *lastContinuation; if (!(mHintsHandled & nsChangeHint_ReconstructFrame)) { InitializeAccessibilityNotifications(mFrame->StyleContext()); for (nsIFrame* f = mFrame; f; f = GetNextContinuationWithSameStyle(f, f->StyleContext())) { lastContinuation = f; RestyleContentChildren(f, aChildRestyleHint); } SendAccessibilityNotifications(); } // Check whether we might need to create a new ::after frame. // See comments above regarding :before. if (!(mHintsHandled & nsChangeHint_ReconstructFrame) && mightReframePseudos) { MaybeReframeForAfterPseudo(lastContinuation); } } void ElementRestyler::RestyleChildrenOfDisplayContentsElement( nsIFrame* aParentFrame, nsStyleContext* aNewContext, nsChangeHint aMinHint, RestyleTracker& aRestyleTracker, nsRestyleHint aRestyleHint) { MOZ_ASSERT(!(mHintsHandled & nsChangeHint_ReconstructFrame), "why call me?"); const bool mightReframePseudos = aRestyleHint & eRestyle_Subtree; DoRestyleUndisplayedDescendants(nsRestyleHint(0), mContent, aNewContext); if (!(mHintsHandled & nsChangeHint_ReconstructFrame) && mightReframePseudos) { MaybeReframeForBeforePseudo(aParentFrame, nullptr, mContent, aNewContext); } if (!(mHintsHandled & nsChangeHint_ReconstructFrame) && mightReframePseudos) { MaybeReframeForAfterPseudo(aParentFrame, nullptr, mContent, aNewContext); } if (!(mHintsHandled & nsChangeHint_ReconstructFrame)) { InitializeAccessibilityNotifications(aNewContext); // Then process child frames for content that is a descendant of mContent. // XXX perhaps it's better to walk child frames (before reresolving // XXX undisplayed contexts above) and mark those that has a stylecontext // XXX leading up to mContent's old context? (instead of the // XXX ContentIsDescendantOf check below) nsIFrame::ChildListIterator lists(aParentFrame); for ( ; !lists.IsDone(); lists.Next()) { nsFrameList::Enumerator childFrames(lists.CurrentList()); for (; !childFrames.AtEnd(); childFrames.Next()) { nsIFrame* f = childFrames.get(); if (nsContentUtils::ContentIsDescendantOf(f->GetContent(), mContent) && !f->GetPrevContinuation()) { if (!(f->GetStateBits() & NS_FRAME_OUT_OF_FLOW)) { ComputeStyleChangeFor(f, mChangeList, aMinHint, aRestyleTracker, aRestyleHint); } } } } } if (!(mHintsHandled & nsChangeHint_ReconstructFrame)) { SendAccessibilityNotifications(); } } void ElementRestyler::ComputeStyleChangeFor(nsIFrame* aFrame, nsStyleChangeList* aChangeList, nsChangeHint aMinChange, RestyleTracker& aRestyleTracker, nsRestyleHint aRestyleHint) { PROFILER_LABEL("ElementRestyler", "ComputeStyleChangeFor", js::ProfileEntry::Category::CSS); nsIContent* content = aFrame->GetContent(); if (aMinChange) { aChangeList->AppendChange(aFrame, content, aMinChange); } NS_ASSERTION(!aFrame->GetPrevContinuation(), "must start with the first continuation"); // We want to start with this frame and walk all its next-in-flows, // as well as all its ib-split siblings and their next-in-flows, // reresolving style on all the frames we encounter in this walk that // we didn't reach already. In the normal case, this will mean only // restyling the first two block-in-inline splits and no // continuations, and skipping everything else. However, when we have // a style change targeted at an element inside a context where styles // vary between continuations (e.g., a style change on an element that // extends from inside a styled ::first-line to outside of that first // line), we might restyle more than that. nsPresContext* presContext = aFrame->PresContext(); FramePropertyTable* propTable = presContext->PropertyTable(); TreeMatchContext treeMatchContext(true, nsRuleWalker::eRelevantLinkUnvisited, presContext->Document()); Element* parent = content ? content->GetParentElementCrossingShadowRoot() : nullptr; treeMatchContext.InitAncestors(parent); nsTArray visibleKidsOfHiddenElement; for (nsIFrame* ibSibling = aFrame; ibSibling; ibSibling = GetNextBlockInInlineSibling(propTable, ibSibling)) { // Outer loop over ib-split siblings for (nsIFrame* cont = ibSibling; cont; cont = cont->GetNextContinuation()) { if (GetPrevContinuationWithSameStyle(cont)) { // We already handled this element when dealing with its earlier // continuation. continue; } // Inner loop over next-in-flows of the current frame ElementRestyler restyler(presContext, cont, aChangeList, aMinChange, aRestyleTracker, treeMatchContext, visibleKidsOfHiddenElement); restyler.Restyle(aRestyleHint); if (restyler.HintsHandledForFrame() & nsChangeHint_ReconstructFrame) { // If it's going to cause a framechange, then don't bother // with the continuations or ib-split siblings since they'll be // clobbered by the frame reconstruct anyway. NS_ASSERTION(!cont->GetPrevContinuation(), "continuing frame had more severe impact than first-in-flow"); return; } } } } void ElementRestyler::RestyleUndisplayedDescendants(nsRestyleHint aChildRestyleHint) { // When the root element is display:none, we still construct *some* // frames that have the root element as their mContent, down to the // DocElementContainingBlock. bool checkUndisplayed; nsIContent* undisplayedParent; if (mFrame->StyleContext()->GetPseudo()) { checkUndisplayed = mFrame == mPresContext->FrameConstructor()-> GetDocElementContainingBlock(); undisplayedParent = nullptr; } else { checkUndisplayed = !!mFrame->GetContent(); undisplayedParent = mFrame->GetContent(); } if (checkUndisplayed) { DoRestyleUndisplayedDescendants(aChildRestyleHint, undisplayedParent, mFrame->StyleContext()); } } void ElementRestyler::DoRestyleUndisplayedDescendants(nsRestyleHint aChildRestyleHint, nsIContent* aParent, nsStyleContext* aParentContext) { nsCSSFrameConstructor* fc = mPresContext->FrameConstructor(); UndisplayedNode* nodes = fc->GetAllUndisplayedContentIn(aParent); RestyleUndisplayedNodes(aChildRestyleHint, nodes, aParent, aParentContext, NS_STYLE_DISPLAY_NONE); nodes = fc->GetAllDisplayContentsIn(aParent); RestyleUndisplayedNodes(aChildRestyleHint, nodes, aParent, aParentContext, NS_STYLE_DISPLAY_CONTENTS); } void ElementRestyler::RestyleUndisplayedNodes(nsRestyleHint aChildRestyleHint, UndisplayedNode* aUndisplayed, nsIContent* aUndisplayedParent, nsStyleContext* aParentContext, const uint8_t aDisplay) { nsIContent* undisplayedParent = aUndisplayedParent; UndisplayedNode* undisplayed = aUndisplayed; TreeMatchContext::AutoAncestorPusher pusher(mTreeMatchContext); if (undisplayed) { pusher.PushAncestorAndStyleScope(undisplayedParent); } for (; undisplayed; undisplayed = undisplayed->mNext) { NS_ASSERTION(undisplayedParent || undisplayed->mContent == mPresContext->Document()->GetRootElement(), "undisplayed node child of null must be root"); NS_ASSERTION(!undisplayed->mStyle->GetPseudo(), "Shouldn't have random pseudo style contexts in the " "undisplayed map"); LOG_RESTYLE("RestyleUndisplayedChildren: undisplayed->mContent = %p", undisplayed->mContent.get()); // Get the parent of the undisplayed content and check if it is a XBL // children element. Push the children element as an ancestor here because it does // not have a frame and would not otherwise be pushed as an ancestor. nsIContent* parent = undisplayed->mContent->GetParent(); TreeMatchContext::AutoAncestorPusher insertionPointPusher(mTreeMatchContext); if (parent && nsContentUtils::IsContentInsertionPoint(parent)) { insertionPointPusher.PushAncestorAndStyleScope(parent); } nsRestyleHint thisChildHint = aChildRestyleHint; nsAutoPtr undisplayedRestyleData; Element* element = undisplayed->mContent->AsElement(); if (mRestyleTracker.GetRestyleData(element, undisplayedRestyleData)) { thisChildHint = nsRestyleHint(thisChildHint | undisplayedRestyleData->mRestyleHint); } nsRefPtr undisplayedContext; nsStyleSet* styleSet = mPresContext->StyleSet(); if (thisChildHint & (eRestyle_Self | eRestyle_Subtree)) { undisplayedContext = styleSet->ResolveStyleFor(element, aParentContext, mTreeMatchContext); } else if (thisChildHint || styleSet->IsInRuleTreeReconstruct()) { // Use ResolveStyleWithReplacement either for actual // replacements, or as a substitute for ReparentStyleContext // that rebuilds the path in the rule tree rather than reusing // the rule node, as we need to do during a rule tree // reconstruct. undisplayedContext = styleSet->ResolveStyleWithReplacement(element, aParentContext, undisplayed->mStyle, thisChildHint); } else { undisplayedContext = styleSet->ReparentStyleContext(undisplayed->mStyle, aParentContext, element, element); } const nsStyleDisplay* display = undisplayedContext->StyleDisplay(); if (display->mDisplay != aDisplay) { NS_ASSERTION(element, "Must have undisplayed content"); mChangeList->AppendChange(nullptr, element, NS_STYLE_HINT_FRAMECHANGE); // The node should be removed from the undisplayed map when // we reframe it. } else { // update the undisplayed node with the new context undisplayed->mStyle = undisplayedContext; if (aDisplay == NS_STYLE_DISPLAY_CONTENTS) { DoRestyleUndisplayedDescendants(aChildRestyleHint, element, undisplayed->mStyle); } } } } void ElementRestyler::MaybeReframeForBeforePseudo() { MaybeReframeForBeforePseudo(mFrame, mFrame, mFrame->GetContent(), mFrame->StyleContext()); } void ElementRestyler::MaybeReframeForBeforePseudo(nsIFrame* aGenConParentFrame, nsIFrame* aFrame, nsIContent* aContent, nsStyleContext* aStyleContext) { // Make sure not to do this for pseudo-frames or frames that // can't have generated content. nsContainerFrame* cif; if (!aStyleContext->GetPseudo() && ((aGenConParentFrame->GetStateBits() & NS_FRAME_MAY_HAVE_GENERATED_CONTENT) || // Our content insertion frame might have gotten flagged. ((cif = aGenConParentFrame->GetContentInsertionFrame()) && (cif->GetStateBits() & NS_FRAME_MAY_HAVE_GENERATED_CONTENT)))) { // Check for a ::before pseudo style and the absence of a ::before content, // but only if aFrame is null or is the first continuation. if (!aFrame || !aFrame->GetPrevContinuation()) { // Checking for a ::before frame is cheaper than getting the // ::before style context. if (!nsLayoutUtils::GetBeforeFrameForContent(aGenConParentFrame, aContent) && nsLayoutUtils::HasPseudoStyle(aContent, aStyleContext, nsCSSPseudoElements::ePseudo_before, mPresContext)) { // Have to create the new ::before frame. LOG_RESTYLE("MaybeReframeForBeforePseudo, appending " "nsChangeHint_ReconstructFrame"); NS_UpdateHint(mHintsHandled, nsChangeHint_ReconstructFrame); mChangeList->AppendChange(aFrame, aContent, nsChangeHint_ReconstructFrame); } } } } /** * aFrame is the last continuation or block-in-inline sibling that this * ElementRestyler is restyling. */ void ElementRestyler::MaybeReframeForAfterPseudo(nsIFrame* aFrame) { MOZ_ASSERT(aFrame); MaybeReframeForAfterPseudo(aFrame, aFrame, aFrame->GetContent(), aFrame->StyleContext()); } void ElementRestyler::MaybeReframeForAfterPseudo(nsIFrame* aGenConParentFrame, nsIFrame* aFrame, nsIContent* aContent, nsStyleContext* aStyleContext) { // Make sure not to do this for pseudo-frames or frames that // can't have generated content. nsContainerFrame* cif; if (!aStyleContext->GetPseudo() && ((aGenConParentFrame->GetStateBits() & NS_FRAME_MAY_HAVE_GENERATED_CONTENT) || // Our content insertion frame might have gotten flagged. ((cif = aGenConParentFrame->GetContentInsertionFrame()) && (cif->GetStateBits() & NS_FRAME_MAY_HAVE_GENERATED_CONTENT)))) { // Check for an ::after pseudo style and the absence of an ::after content, // but only if aFrame is null or is the last continuation. if (!aFrame || !aFrame->GetNextContinuation()) { // Checking for an ::after frame is cheaper than getting the // ::after style context. if (!nsLayoutUtils::GetAfterFrameForContent(aGenConParentFrame, aContent) && nsLayoutUtils::HasPseudoStyle(aContent, aStyleContext, nsCSSPseudoElements::ePseudo_after, mPresContext)) { // Have to create the new ::after frame. LOG_RESTYLE("MaybeReframeForAfterPseudo, appending " "nsChangeHint_ReconstructFrame"); NS_UpdateHint(mHintsHandled, nsChangeHint_ReconstructFrame); mChangeList->AppendChange(aFrame, mContent, nsChangeHint_ReconstructFrame); } } } } void ElementRestyler::InitializeAccessibilityNotifications(nsStyleContext* aNewContext) { #ifdef ACCESSIBILITY // Notify a11y for primary frame only if it's a root frame of visibility // changes or its parent frame was hidden while it stays visible and // it is not inside a {ib} split or is the first frame of {ib} split. if (nsIPresShell::IsAccessibilityActive() && (!mFrame || (!mFrame->GetPrevContinuation() && !mFrame->FrameIsNonFirstInIBSplit()))) { if (mDesiredA11yNotifications == eSendAllNotifications) { bool isFrameVisible = aNewContext->StyleVisibility()->IsVisible(); if (isFrameVisible != mWasFrameVisible) { if (isFrameVisible) { // Notify a11y the element (perhaps with its children) was shown. // We don't fall into this case if this element gets or stays shown // while its parent becomes hidden. mKidsDesiredA11yNotifications = eSkipNotifications; mOurA11yNotification = eNotifyShown; } else { // The element is being hidden; its children may stay visible, or // become visible after being hidden previously. If we'll find // visible children then we should notify a11y about that as if // they were inserted into tree. Notify a11y this element was // hidden. mKidsDesiredA11yNotifications = eNotifyIfShown; mOurA11yNotification = eNotifyHidden; } } } else if (mDesiredA11yNotifications == eNotifyIfShown && aNewContext->StyleVisibility()->IsVisible()) { // Notify a11y that element stayed visible while its parent was hidden. nsIContent* c = mFrame ? mFrame->GetContent() : mContent; mVisibleKidsOfHiddenElement.AppendElement(c); mKidsDesiredA11yNotifications = eSkipNotifications; } } #endif } void ElementRestyler::RestyleContentChildren(nsIFrame* aParent, nsRestyleHint aChildRestyleHint) { LOG_RESTYLE("RestyleContentChildren"); nsIFrame::ChildListIterator lists(aParent); TreeMatchContext::AutoAncestorPusher ancestorPusher(mTreeMatchContext); if (!lists.IsDone()) { ancestorPusher.PushAncestorAndStyleScope(mContent); } for (; !lists.IsDone(); lists.Next()) { nsFrameList::Enumerator childFrames(lists.CurrentList()); for (; !childFrames.AtEnd(); childFrames.Next()) { nsIFrame* child = childFrames.get(); // Out-of-flows are reached through their placeholders. Continuations // and block-in-inline splits are reached through those chains. if (!(child->GetStateBits() & NS_FRAME_OUT_OF_FLOW) && !GetPrevContinuationWithSameStyle(child)) { // Get the parent of the child frame's content and check if it // is a XBL children element. Push the children element as an // ancestor here because it does not have a frame and would not // otherwise be pushed as an ancestor. // Check if the frame has a content because |child| may be a // nsPageFrame that does not have a content. nsIContent* parent = child->GetContent() ? child->GetContent()->GetParent() : nullptr; TreeMatchContext::AutoAncestorPusher insertionPointPusher(mTreeMatchContext); if (parent && nsContentUtils::IsContentInsertionPoint(parent)) { insertionPointPusher.PushAncestorAndStyleScope(parent); } // only do frames that are in flow if (nsGkAtoms::placeholderFrame == child->GetType()) { // placeholder // get out of flow frame and recur there nsIFrame* outOfFlowFrame = nsPlaceholderFrame::GetRealFrameForPlaceholder(child); NS_ASSERTION(outOfFlowFrame, "no out-of-flow frame"); NS_ASSERTION(outOfFlowFrame != mResolvedChild, "out-of-flow frame not a true descendant"); // |nsFrame::GetParentStyleContext| checks being out // of flow so that this works correctly. do { if (GetPrevContinuationWithSameStyle(outOfFlowFrame)) { // Later continuations are likely restyled as a result of // the restyling of the previous continuation. // (Currently that's always true, but it's likely to // change if we implement overflow:fragments or similar.) continue; } ElementRestyler oofRestyler(*this, outOfFlowFrame, FOR_OUT_OF_FLOW_CHILD); oofRestyler.Restyle(aChildRestyleHint); } while ((outOfFlowFrame = outOfFlowFrame->GetNextContinuation())); // reresolve placeholder's context under the same parent // as the out-of-flow frame ElementRestyler phRestyler(*this, child, 0); phRestyler.Restyle(aChildRestyleHint); } else { // regular child frame if (child != mResolvedChild) { ElementRestyler childRestyler(*this, child, 0); childRestyler.Restyle(aChildRestyleHint); } } } } } // XXX need to do overflow frames??? } void ElementRestyler::SendAccessibilityNotifications() { #ifdef ACCESSIBILITY // Send notifications about visibility changes. if (mOurA11yNotification == eNotifyShown) { nsAccessibilityService* accService = nsIPresShell::AccService(); if (accService) { nsIPresShell* presShell = mPresContext->GetPresShell(); nsIContent* content = mFrame ? mFrame->GetContent() : mContent; accService->ContentRangeInserted(presShell, content->GetParent(), content, content->GetNextSibling()); } } else if (mOurA11yNotification == eNotifyHidden) { nsAccessibilityService* accService = nsIPresShell::AccService(); if (accService) { nsIPresShell* presShell = mPresContext->GetPresShell(); nsIContent* content = mFrame ? mFrame->GetContent() : mContent; accService->ContentRemoved(presShell, content); // Process children staying shown. uint32_t visibleContentCount = mVisibleKidsOfHiddenElement.Length(); for (uint32_t idx = 0; idx < visibleContentCount; idx++) { nsIContent* childContent = mVisibleKidsOfHiddenElement[idx]; accService->ContentRangeInserted(presShell, childContent->GetParent(), childContent, childContent->GetNextSibling()); } mVisibleKidsOfHiddenElement.Clear(); } } #endif } void RestyleManager::ComputeAndProcessStyleChange(nsIFrame* aFrame, nsChangeHint aMinChange, RestyleTracker& aRestyleTracker, nsRestyleHint aRestyleHint) { // Create a ReframingStyleContexts struct on the stack and put it in // our mReframingStyleContexts for the scope of this function. MOZ_ASSERT(!mReframingStyleContexts, "shouldn't call recursively"); AutoRestore ar(mReframingStyleContexts); ReframingStyleContexts reframingStyleContexts; mReframingStyleContexts = &reframingStyleContexts; nsStyleChangeList changeList; ElementRestyler::ComputeStyleChangeFor(aFrame, &changeList, aMinChange, aRestyleTracker, aRestyleHint); ProcessRestyledFrames(changeList); } void RestyleManager::ComputeAndProcessStyleChange(nsStyleContext* aNewContext, Element* aElement, nsChangeHint aMinChange, RestyleTracker& aRestyleTracker, nsRestyleHint aRestyleHint) { // Create a ReframingStyleContexts struct on the stack and put it in // our mReframingStyleContexts for the scope of this function. MOZ_ASSERT(!mReframingStyleContexts, "shouldn't call recursively"); AutoRestore ar(mReframingStyleContexts); ReframingStyleContexts reframingStyleContexts; mReframingStyleContexts = &reframingStyleContexts; MOZ_ASSERT(aNewContext->StyleDisplay()->mDisplay == NS_STYLE_DISPLAY_CONTENTS); nsIFrame* frame = GetNearestAncestorFrame(aElement); MOZ_ASSERT(frame, "display:contents node in map although it's a " "display:none descendant?"); TreeMatchContext treeMatchContext(true, nsRuleWalker::eRelevantLinkUnvisited, frame->PresContext()->Document()); nsIContent* parent = aElement->GetParent(); Element* parentElement = parent && parent->IsElement() ? parent->AsElement() : nullptr; treeMatchContext.InitAncestors(parentElement); nsTArray visibleKidsOfHiddenElement; nsStyleChangeList changeList; ElementRestyler r(frame->PresContext(), aElement, &changeList, aMinChange, aRestyleTracker, treeMatchContext, visibleKidsOfHiddenElement); r.RestyleChildrenOfDisplayContentsElement(frame, aNewContext, aMinChange, aRestyleTracker, aRestyleHint); ProcessRestyledFrames(changeList); } AutoDisplayContentsAncestorPusher::AutoDisplayContentsAncestorPusher( TreeMatchContext& aTreeMatchContext, nsPresContext* aPresContext, nsIContent* aParent) : mTreeMatchContext(aTreeMatchContext) , mPresContext(aPresContext) { if (aParent) { nsFrameManager* fm = mPresContext->FrameManager(); // Push display:contents mAncestors onto mTreeMatchContext. for (nsIContent* p = aParent; p && fm->GetDisplayContentsStyleFor(p); p = p->GetParent()) { mAncestors.AppendElement(p->AsElement()); } bool hasFilter = mTreeMatchContext.mAncestorFilter.HasFilter(); nsTArray::size_type i = mAncestors.Length(); while (i--) { if (hasFilter) { mTreeMatchContext.mAncestorFilter.PushAncestor(mAncestors[i]); } mTreeMatchContext.PushStyleScope(mAncestors[i]); } } } AutoDisplayContentsAncestorPusher::~AutoDisplayContentsAncestorPusher() { // Pop the ancestors we pushed in the CTOR, if any. typedef nsTArray::size_type sz; sz len = mAncestors.Length(); bool hasFilter = mTreeMatchContext.mAncestorFilter.HasFilter(); for (sz i = 0; i < len; ++i) { if (hasFilter) { mTreeMatchContext.mAncestorFilter.PopAncestor(); } mTreeMatchContext.PopStyleScope(mAncestors[i]); } } #ifdef RESTYLE_LOGGING uint32_t RestyleManager::StructsToLog() { static bool initialized = false; static uint32_t structs; if (!initialized) { structs = 0; const char* value = getenv("MOZ_DEBUG_RESTYLE_STRUCTS"); if (value) { nsCString s(value); while (!s.IsEmpty()) { int32_t index = s.FindChar(','); nsStyleStructID sid; bool found; if (index == -1) { found = nsStyleContext::LookupStruct(s, sid); s.Truncate(); } else { found = nsStyleContext::LookupStruct(Substring(s, 0, index), sid); s = Substring(s, index + 1); } if (found) { structs |= nsCachedStyleData::GetBitForSID(sid); } } } initialized = true; } return structs; } #endif #ifdef DEBUG /* static */ nsCString RestyleManager::RestyleHintToString(nsRestyleHint aHint) { nsCString result; bool any = false; const char* names[] = { "Self", "Subtree", "LaterSiblings", "CSSTransitions", "CSSAnimations", "SVGAttrAnimations", "StyleAttribute", "ChangeAnimationPhase", "ChangeAnimationPhaseDescendants", "Force", "ForceDescendants" }; uint32_t hint = aHint & ((1 << ArrayLength(names)) - 1); uint32_t rest = aHint & ~((1 << ArrayLength(names)) - 1); for (uint32_t i = 0; i < ArrayLength(names); i++) { if (hint & (1 << i)) { if (any) { result.AppendLiteral(" | "); } result.AppendPrintf("eRestyle_%s", names[i]); any = true; } } if (rest) { if (any) { result.AppendLiteral(" | "); } result.AppendPrintf("0x%0x", rest); } else { if (!any) { result.AppendLiteral("0"); } } return result; } /* static */ nsCString RestyleManager::ChangeHintToString(nsChangeHint aHint) { nsCString result; bool any = false; const char* names[] = { "RepaintFrame", "NeedReflow", "ClearAncestorIntrinsics", "ClearDescendantIntrinsics", "NeedDirtyReflow", "SyncFrameView", "UpdateCursor", "UpdateEffects", "UpdateOpacityLayer", "UpdateTransformLayer", "ReconstructFrame", "UpdateOverflow", "UpdateSubtreeOverflow", "UpdatePostTransformOverflow", "ChildrenOnlyTransform", "RecomputePosition", "AddOrRemoveTransform", "BorderStyleNoneChange", "UpdateTextPath", "NeutralChange", "InvalidateRenderingObservers" }; uint32_t hint = aHint & ((1 << ArrayLength(names)) - 1); uint32_t rest = aHint & ~((1 << ArrayLength(names)) - 1); if (hint == nsChangeHint_Hints_NotHandledForDescendants) { result.AppendLiteral("nsChangeHint_Hints_NotHandledForDescendants"); hint = 0; any = true; } else { if ((hint & NS_STYLE_HINT_FRAMECHANGE) == NS_STYLE_HINT_FRAMECHANGE) { result.AppendLiteral("NS_STYLE_HINT_FRAMECHANGE"); hint = hint & ~NS_STYLE_HINT_FRAMECHANGE; any = true; } else if ((hint & NS_STYLE_HINT_REFLOW) == NS_STYLE_HINT_REFLOW) { result.AppendLiteral("NS_STYLE_HINT_REFLOW"); hint = hint & ~NS_STYLE_HINT_REFLOW; any = true; } else if ((hint & nsChangeHint_AllReflowHints) == nsChangeHint_AllReflowHints) { result.AppendLiteral("nsChangeHint_AllReflowHints"); hint = hint & ~nsChangeHint_AllReflowHints; any = true; } else if ((hint & NS_STYLE_HINT_VISUAL) == NS_STYLE_HINT_VISUAL) { result.AppendLiteral("NS_STYLE_HINT_VISUAL"); hint = hint & ~NS_STYLE_HINT_VISUAL; any = true; } } for (uint32_t i = 0; i < ArrayLength(names); i++) { if (hint & (1 << i)) { if (any) { result.AppendLiteral(" | "); } result.AppendPrintf("nsChangeHint_%s", names[i]); any = true; } } if (rest) { if (any) { result.AppendLiteral(" | "); } result.AppendPrintf("0x%0x", rest); } else { if (!any) { result.AppendLiteral("NS_STYLE_HINT_NONE"); } } return result; } /* static */ nsCString RestyleManager::StructNamesToString(uint32_t aSIDs) { nsCString result; bool any = false; for (nsStyleStructID sid = nsStyleStructID(0); sid < nsStyleStructID_Length; sid = nsStyleStructID(sid + 1)) { if (aSIDs & nsCachedStyleData::GetBitForSID(sid)) { if (any) { result.AppendLiteral(","); } result.AppendPrintf("%s", nsStyleContext::StructName(sid)); any = true; } } return result; } /* static */ nsCString ElementRestyler::RestyleResultToString(RestyleResult aRestyleResult) { nsCString result; switch (aRestyleResult) { case eRestyleResult_Stop: result.AssignLiteral("eRestyleResult_Stop"); break; case eRestyleResult_Continue: result.AssignLiteral("eRestyleResult_Continue"); break; case eRestyleResult_ContinueAndForceDescendants: result.AssignLiteral("eRestyleResult_ContinueAndForceDescendants"); break; default: result.AppendPrintf("RestyleResult(%d)", aRestyleResult); } return result; } #endif } // namespace mozilla