gecko/layout/base/RestyleManager.cpp
Cameron McCormack 3483fb3f51 Bug 979133 - Add facility to log the restyle process. r=dbaron
Set the MOZ_DEBUG_RESTYLE environment variable and every restyle will have
detailed logging printed to stderr.  By default, restyles for animations are
not logged; you can include them by also setting MOZ_DEBUG_RESTYLE_ANIMATIONS.

If you wish to limit restyle logging to a particular change, you can call
nsPresContext::StartRestyleLogging() and nsPresContext::StopRestyleLogging()
at appropriate points.  (You might want to add a couple of helper methods
temporarily on nsIDocument and then expose them to your page with Web IDL
to make them easier to call.)  You do not need to have set MOZ_DEBUG_RESTYLE
for this to work.
2014-09-25 13:13:14 +10:00

3790 lines
153 KiB
C++

/* -*- 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 "RestyleManager.h"
#include "mozilla/EventStates.h"
#include "nsLayoutUtils.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"
#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)
, mHoverGeneration(0)
, mRebuildAllExtraHint(nsChangeHint(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 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 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-<svg> 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 <textPath> element");
nsIFrame* text = nsLayoutUtils::GetClosestFrameOfType(
aFrame,
nsGkAtoms::svgTextFrame);
NS_ASSERTION(text, "expected to find an ancestor SVGTextFrame");
static_cast<SVGTextFrame*>(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.
nsRefPtr<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
// <area>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);
} 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_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 (!nsAnimationManager::ContentOrAncestorHasAnimation(changeData->mContent) &&
!nsTransitionManager::ContentOrAncestorHasTransition(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 <area>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<nsStyleContext> 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);
} 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.
FrameConstructor()->MaybeRecreateFramesForElement(aElement);
}
}
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<nsIPresShell> 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);
}
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)
{
NS_ASSERTION(!(aExtraHint & nsChangeHint_ReconstructFrame),
"Should not reconstruct the root of the frame tree. "
"Use ReconstructDocElementHierarchy instead.");
mRebuildAllStyleData = false;
NS_UpdateHint(aExtraHint, mRebuildAllExtraHint);
mRebuildAllExtraHint = nsChangeHint(0);
nsIPresShell* presShell = mPresContext->GetPresShell();
if (!presShell || !presShell->GetRootFrame())
return;
// Make sure that the viewmanager will outlive the presshell
nsRefPtr<nsViewManager> vm = presShell->GetViewManager();
// Processing the style changes could cause a flush that propagates to
// the parent frame and thus destroys the pres shell.
nsCOMPtr<nsIPresShell> 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;
mPresContext->SetProcessingRestyles(true);
// FIXME (bug 1047928): Many of the callers probably don't need
// eRestyle_Subtree because they're changing things that affect data
// computation rather than selector matching; we could have a restyle
// hint passed in, and substantially improve the performance of things
// like pref changes and the restyling that we do for downloadable
// font loads.
DoRebuildAllStyleData(mPendingRestyles, aExtraHint,
nsRestyleHint(eRestyle_Subtree |
eRestyle_ForceDescendants));
mPresContext->SetProcessingRestyles(false);
// 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;
}
if ((aRestyleHint & (eRestyle_Subtree | eRestyle_ForceDescendants)) !=
(eRestyle_Subtree | 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.
aRestyleTracker.AddPendingRestyle(mPresContext->Document()->GetRootElement(),
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!");
// 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(!mPresContext->IsProcessingRestyles(),
"Nesting calls to ProcessPendingRestyles?");
mPresContext->SetProcessingRestyles(true);
// 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) {
++mAnimationGeneration;
UpdateOnlyAnimationStyles();
}
mPendingRestyles.ProcessRestyles();
#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).
mPresContext->SetProcessingAnimationStyleChange(true);
mPendingAnimationRestyles.ProcessRestyles();
mPresContext->SetProcessingAnimationStyleChange(false);
mPresContext->SetProcessingRestyles(false);
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));
}
}
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)
{
NS_ASSERTION(!(aExtraHint & nsChangeHint_ReconstructFrame),
"Should not reconstruct the root of the frame tree. "
"Use ReconstructDocElementHierarchy instead.");
mRebuildAllStyleData = true;
NS_UpdateHint(mRebuildAllExtraHint, aExtraHint);
// 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<void*>(aFrame));
}
if (aContext) {
fprintf(stdout, " style: %p ", static_cast<void*>(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) {
// Get the correct parent context from the frame
// - if the frame is a placeholder, we get the out of flow frame's context
// as the parent context instead of asking the frame
// get the parent context from the frame (indirectly)
nsIFrame* providerFrame = aFrame->GetParentStyleContextFrame();
if (providerFrame)
aParentContext = providerFrame->StyleContext();
// 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<nsStyleContext>*
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<nsIStyleRule> coverRule =
aPresContext->TransitionManager()->StyleContextChanged(
aContent->AsElement(), aOldStyleContext, *aNewStyleContext);
if (coverRule) {
nsCOMArray<nsIStyleRule> 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<nsIFrame*>(
aFrame->Properties().Get(nsIFrame::IBSplitPrevSibling()));
if (prevContinuation) {
prevContinuation = static_cast<nsIFrame*>(
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<nsIFrame*>(aFrame->FirstContinuation()->
Properties().Get(nsIFrame::IBSplitSibling()));
if (nextContinuation) {
nextContinuation = static_cast<nsIFrame*>(
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<nsStyleContext> newContext;
nsIFrame* providerFrame = aFrame->GetParentStyleContextFrame();
bool isChild = providerFrame && providerFrame->GetParent() == aFrame;
nsStyleContext* newParentContext = nullptr;
nsIFrame* providerChild = nullptr;
if (isChild) {
ReparentStyleContext(providerFrame);
newParentContext = providerFrame->StyleContext();
providerChild = providerFrame;
} else if (providerFrame) {
newParentContext = providerFrame->StyleContext();
} else {
NS_NOTREACHED("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<nsChangeHint> 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<nsIFrame*>
(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<nsStyleContext> 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<nsChangeHint> 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<nsIContent*>&
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 <body> that involves
// reflowing the <body> 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
{
}
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");
// 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<nsRefPtr<Element>> 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<RestyleTracker::RestyleData> 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);
}
}
// If we are restyling this frame with eRestyle_Self, we restyle
// children with nsRestyleHint(0). But we pass the eRestyle_ForceDescendants
// flag down too.
nsRestyleHint childRestyleHint =
nsRestyleHint(aRestyleHint & (eRestyle_Subtree |
eRestyle_ForceDescendants));
nsRefPtr<nsStyleContext> 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;
nsIFrame* providerFrame = nullptr;
nsRestyleHint thisRestyleHint = aRestyleHint;
bool haveMoreContinuations = false;
for (nsIFrame* f = mFrame; f; ) {
RestyleResult thisResult =
RestyleSelf(f, thisRestyleHint, &swappedStructs, &providerFrame);
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");
MOZ_ASSERT(providerFrame, "RestyleSelf should have supplied a providerFrame "
"if it returned eRestyleResult_Stop");
nsStyleContext* newParent = providerFrame->StyleContext();
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();
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);
}
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,
nsIFrame** aProviderFrame)
{
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 & eRestyle_ForceDescendants) {
result = eRestyleResult_ContinueAndForceDescendants;
} else if (aRestyleHint) {
result = eRestyleResult_Continue;
} else {
result = ComputeRestyleResultFromFrame(aSelf);
}
nsChangeHint assumeDifferenceHint = NS_STYLE_HINT_NONE;
nsRefPtr<nsStyleContext> 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();
nsStyleContext* parentContext;
// Get the frame providing the parent style context. If it is a
// child, then resolve the provider first.
nsIFrame* const providerFrame = aSelf->GetParentStyleContextFrame();
bool isChild = providerFrame && providerFrame->GetParent() == aSelf;
if (!isChild) {
if (providerFrame)
parentContext = providerFrame->StyleContext();
else
parentContext = nullptr;
}
else {
MOZ_ASSERT(providerFrame->GetContent() == aSelf->GetContent(),
"Postcondition for GetParentStyleContextFrame() 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;
}
if (*aProviderFrame && *aProviderFrame != providerFrame) {
// XXX Uncomment when bug 979133 (restyle logging) lands.
// LOG_RESTYLE_CONTINUE("we had different provider frame from the previous "
// "same-style continuation");
result = eRestyleResult_Continue;
}
// 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<nsStyleContext> 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 (oldContext->IsShared() && newContext->IsShared()) {
LOG_RESTYLE("not swapping style structs, since we copied from a "
"continuation");
} 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;
}
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<nsStyleContext> 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 (result == eRestyleResult_Stop) {
*aProviderFrame = providerFrame;
}
LOG_RESTYLE("returning %s", RestyleResultToString(result).get());
return result;
}
void
ElementRestyler::RestyleChildren(nsRestyleHint aChildRestyleHint)
{
LOG_RESTYLE("RestyleChildren, aChildRestyleHint = %s",
RestyleManager::RestyleHintToString(aChildRestyleHint).get());
LOG_RESTYLE_INDENT();
// 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;
RestyleUndisplayedChildren(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();
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::RestyleUndisplayedChildren(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;
nsCSSFrameConstructor* frameConstructor = mPresContext->FrameConstructor();
if (mFrame->StyleContext()->GetPseudo()) {
checkUndisplayed = mFrame == frameConstructor->
GetDocElementContainingBlock();
undisplayedParent = nullptr;
} else {
checkUndisplayed = !!mFrame->GetContent();
undisplayedParent = mFrame->GetContent();
}
if (checkUndisplayed &&
// 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.
!(mHintsHandled & nsChangeHint_ReconstructFrame)) {
UndisplayedNode* undisplayed =
frameConstructor->GetAllUndisplayedContentIn(undisplayedParent);
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<RestyleTracker::RestyleData> undisplayedRestyleData;
Element* element = undisplayed->mContent->AsElement();
if (mRestyleTracker.GetRestyleData(element,
undisplayedRestyleData)) {
thisChildHint =
nsRestyleHint(thisChildHint | undisplayedRestyleData->mRestyleHint);
}
nsRefPtr<nsStyleContext> undisplayedContext;
nsStyleSet* styleSet = mPresContext->StyleSet();
if (thisChildHint & (eRestyle_Self | eRestyle_Subtree)) {
undisplayedContext =
styleSet->ResolveStyleFor(element,
mFrame->StyleContext(),
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,
mFrame->StyleContext(),
undisplayed->mStyle,
thisChildHint);
} else {
undisplayedContext =
styleSet->ReparentStyleContext(undisplayed->mStyle,
mFrame->StyleContext(),
element, element);
}
const nsStyleDisplay* display = undisplayedContext->StyleDisplay();
if (display->mDisplay != NS_STYLE_DISPLAY_NONE) {
NS_ASSERTION(undisplayed->mContent,
"Must have undisplayed content");
mChangeList->AppendChange(nullptr, undisplayed->mContent,
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;
}
}
}
}
void
ElementRestyler::MaybeReframeForBeforePseudo()
{
// Make sure not to do this for pseudo-frames or frames that
// can't have generated content.
nsContainerFrame* cif;
if (!mFrame->StyleContext()->GetPseudo() &&
((mFrame->GetStateBits() & NS_FRAME_MAY_HAVE_GENERATED_CONTENT) ||
// Our content insertion frame might have gotten flagged
((cif = mFrame->GetContentInsertionFrame()) &&
(cif->GetStateBits() & NS_FRAME_MAY_HAVE_GENERATED_CONTENT)))) {
// Check for a new :before pseudo and an existing :before
// frame, but only if the frame is the first continuation.
nsIFrame* prevContinuation = mFrame->GetPrevContinuation();
if (!prevContinuation) {
// Checking for a :before frame is cheaper than getting the
// :before style context.
if (!nsLayoutUtils::GetBeforeFrame(mFrame) &&
nsLayoutUtils::HasPseudoStyle(mFrame->GetContent(),
mFrame->StyleContext(),
nsCSSPseudoElements::ePseudo_before,
mPresContext)) {
// Have to create the new :before frame
LOG_RESTYLE("MaybeReframeForBeforePseudo, appending "
"nsChangeHint_ReconstructFrame");
NS_UpdateHint(mHintsHandled, nsChangeHint_ReconstructFrame);
mChangeList->AppendChange(mFrame, mContent,
nsChangeHint_ReconstructFrame);
}
}
}
}
/**
* aFrame is the last continuation or block-in-inline sibling that this
* ElementRestyler is restyling.
*/
void
ElementRestyler::MaybeReframeForAfterPseudo(nsIFrame* aFrame)
{
// Make sure not to do this for pseudo-frames or frames that
// can't have generated content.
nsContainerFrame* cif;
if (!aFrame->StyleContext()->GetPseudo() &&
((aFrame->GetStateBits() & NS_FRAME_MAY_HAVE_GENERATED_CONTENT) ||
// Our content insertion frame might have gotten flagged
((cif = aFrame->GetContentInsertionFrame()) &&
(cif->GetStateBits() & NS_FRAME_MAY_HAVE_GENERATED_CONTENT)))) {
// Check for new :after content, but only if the frame is the
// last continuation.
nsIFrame* nextContinuation = aFrame->GetNextContinuation();
if (!nextContinuation) {
// Getting the :after frame is more expensive than getting the pseudo
// context, so get the pseudo context first.
if (nsLayoutUtils::HasPseudoStyle(aFrame->GetContent(),
aFrame->StyleContext(),
nsCSSPseudoElements::ePseudo_after,
mPresContext) &&
!nsLayoutUtils::GetAfterFrame(aFrame)) {
// 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()
{
#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->GetPrevContinuation() &&
!mFrame->FrameIsNonFirstInIBSplit()) {
if (mDesiredA11yNotifications == eSendAllNotifications) {
bool isFrameVisible = mFrame->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 &&
mFrame->StyleVisibility()->IsVisible()) {
// Notify a11y that element stayed visible while its parent was
// hidden.
mVisibleKidsOfHiddenElement.AppendElement(mFrame->GetContent());
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::GetParentStyleContextFrame| 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 = mFrame->PresContext()->GetPresShell();
nsIContent* content = mFrame->GetContent();
accService->ContentRangeInserted(presShell, content->GetParent(),
content,
content->GetNextSibling());
}
} else if (mOurA11yNotification == eNotifyHidden) {
nsAccessibilityService* accService = nsIPresShell::AccService();
if (accService) {
nsIPresShell* presShell = mFrame->PresContext()->GetPresShell();
nsIContent* content = mFrame->GetContent();
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
}
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<nsIFrame*>
(aPropTable->Get(aFrame, nsIFrame::IBSplitSibling()));
}
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<ReframingStyleContexts*> ar(mReframingStyleContexts);
ReframingStyleContexts reframingStyleContexts;
mReframingStyleContexts = &reframingStyleContexts;
nsStyleChangeList changeList;
ComputeStyleChangeFor(aFrame, &changeList, aMinChange,
aRestyleTracker, aRestyleHint);
ProcessRestyledFrames(changeList);
}
void
RestyleManager::ComputeStyleChangeFor(nsIFrame* aFrame,
nsStyleChangeList* aChangeList,
nsChangeHint aMinChange,
RestyleTracker& aRestyleTracker,
nsRestyleHint aRestyleHint)
{
PROFILER_LABEL("RestyleManager", "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.
FramePropertyTable* propTable = mPresContext->PropertyTable();
TreeMatchContext treeMatchContext(true,
nsRuleWalker::eRelevantLinkUnvisited,
mPresContext->Document());
Element* parent =
content ? content->GetParentElementCrossingShadowRoot() : nullptr;
treeMatchContext.InitAncestors(parent);
nsTArray<nsIContent*> 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(mPresContext, 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;
}
}
}
}
#ifdef DEBUG
/* static */ nsCString
RestyleManager::RestyleHintToString(nsRestyleHint aHint)
{
nsCString result;
bool any = false;
const char* names[] = { "Self", "Subtree", "LaterSiblings", "CSSTransitions",
"CSSAnimations", "SVGAttrAnimations", "StyleAttribute",
"ChangeAnimationPhase", "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"
};
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