mozilla
/
gecko-dev
зеркало из https://github.com/mozilla/gecko-dev.git
1
0
Форкнуть 0
Код Задачи Пакеты Проекты Релизы Вики Активность
gecko-dev/layout/base/ServoRestyleManager.cpp

1734 строки
63 KiB
C++
Исходник Ответственный История

/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include "mozilla/ServoRestyleManager.h"
#include "mozilla/AutoRestyleTimelineMarker.h"
#include "mozilla/AutoTimelineMarker.h"
#include "mozilla/ComputedStyle.h"
#include "mozilla/ComputedStyleInlines.h"
#include "mozilla/DocumentStyleRootIterator.h"
#include "mozilla/ServoBindings.h"
#include "mozilla/ServoStyleSet.h"
#include "mozilla/Unused.h"
#include "mozilla/ViewportFrame.h"
#include "mozilla/dom/ChildIterator.h"
#include "mozilla/dom/ElementInlines.h"
#include "nsBlockFrame.h"
#include "nsBulletFrame.h"
#include "nsIFrameInlines.h"
#include "nsImageFrame.h"
#include "nsPlaceholderFrame.h"
#include "nsContentUtils.h"
#include "nsCSSFrameConstructor.h"
#include "nsPrintfCString.h"
#include "nsRefreshDriver.h"
#include "nsStyleChangeList.h"
#ifdef ACCESSIBILITY
#include "nsAccessibilityService.h"
#endif
using namespace mozilla::dom;
namespace mozilla {
#ifdef DEBUG
static bool
IsAnonBox(const nsIFrame& aFrame)
{
return aFrame.Style()->IsAnonBox();
}
static const nsIFrame*
FirstContinuationOrPartOfIBSplit(const nsIFrame* aFrame)
{
if (!aFrame) {
return nullptr;
}
return nsLayoutUtils::FirstContinuationOrIBSplitSibling(aFrame);
}
static const nsIFrame*
ExpectedOwnerForChild(const nsIFrame& aFrame)
{
const nsIFrame* parent = aFrame.GetParent();
if (aFrame.IsTableFrame()) {
MOZ_ASSERT(parent->IsTableWrapperFrame());
parent = parent->GetParent();
}
if (IsAnonBox(aFrame) && !aFrame.IsTextFrame()) {
if (parent->IsLineFrame()) {
parent = parent->GetParent();
}
return parent->IsViewportFrame() ?
nullptr : FirstContinuationOrPartOfIBSplit(parent);
}
if (aFrame.IsBulletFrame()) {
return FirstContinuationOrPartOfIBSplit(parent);
}
if (aFrame.IsLineFrame()) {
// A ::first-line always ends up here via its block, which is therefore the
// right expected owner. That block can be an
// anonymous box. For example, we could have a ::first-line on a columnated
// block; the blockframe is the column-content anonymous box in that case.
// So we don't want to end up in the code below, which steps out of anon
// boxes. Just return the parent of the line frame, which is the block.
return parent;
}
if (aFrame.IsLetterFrame()) {
// Ditto for ::first-letter. A first-letter always arrives here via its
// direct parent, except when it's parented to a ::first-line.
if (parent->IsLineFrame()) {
parent = parent->GetParent();
}
return FirstContinuationOrPartOfIBSplit(parent);
}
if (parent->IsLetterFrame()) {
// Things never have ::first-letter as their expected parent. Go
// on up to the ::first-letter's parent.
parent = parent->GetParent();
}
parent = FirstContinuationOrPartOfIBSplit(parent);
// We've handled already anon boxes and bullet frames, so now we're looking at
// a frame of a DOM element or pseudo. Hop through anon and line-boxes
// generated by our DOM parent, and go find the owner frame for it.
while (parent && (IsAnonBox(*parent) || parent->IsLineFrame())) {
auto* pseudo = parent->Style()->GetPseudo();
if (pseudo == nsCSSAnonBoxes::tableWrapper) {
const nsIFrame* tableFrame = parent->PrincipalChildList().FirstChild();
MOZ_ASSERT(tableFrame->IsTableFrame());
// Handle :-moz-table and :-moz-inline-table.
parent = IsAnonBox(*tableFrame) ? parent->GetParent() : tableFrame;
} else {
// We get the in-flow parent here so that we can handle the OOF anonymous
// boxed to get the correct parent.
parent = parent->GetInFlowParent();
}
parent = FirstContinuationOrPartOfIBSplit(parent);
}
return parent;
}
void
ServoRestyleState::AssertOwner(const ServoRestyleState& aParent) const
{
MOZ_ASSERT(mOwner);
MOZ_ASSERT(!mOwner->HasAnyStateBits(NS_FRAME_OUT_OF_FLOW));
// We allow aParent.mOwner to be null, for cases when we're not starting at
// the root of the tree. We also allow aParent.mOwner to be somewhere up our
// expected owner chain not our immediate owner, which allows us creating long
// chains of ServoRestyleStates in some cases where it's just not worth it.
#ifdef DEBUG
if (aParent.mOwner) {
const nsIFrame* owner = ExpectedOwnerForChild(*mOwner);
if (owner != aParent.mOwner) {
MOZ_ASSERT(IsAnonBox(*owner),
"Should only have expected owner weirdness when anon boxes are involved");
bool found = false;
for (; owner; owner = ExpectedOwnerForChild(*owner)) {
if (owner == aParent.mOwner) {
found = true;
break;
}
}
MOZ_ASSERT(found, "Must have aParent.mOwner on our expected owner chain");
}
}
#endif
}
nsChangeHint
ServoRestyleState::ChangesHandledFor(const nsIFrame& aFrame) const
{
if (!mOwner) {
MOZ_ASSERT(!mChangesHandled);
return mChangesHandled;
}
MOZ_ASSERT(mOwner == ExpectedOwnerForChild(aFrame),
"Missed some frame in the hierarchy?");
return mChangesHandled;
}
#endif
void
ServoRestyleState::AddPendingWrapperRestyle(nsIFrame* aWrapperFrame)
{
MOZ_ASSERT(aWrapperFrame->Style()->IsWrapperAnonBox(),
"All our wrappers are anon boxes, and why would we restyle "
"non-inheriting ones?");
MOZ_ASSERT(aWrapperFrame->Style()->IsInheritingAnonBox(),
"All our wrappers are anon boxes, and why would we restyle "
"non-inheriting ones?");
MOZ_ASSERT(aWrapperFrame->Style()->GetPseudo() !=
nsCSSAnonBoxes::cellContent,
"Someone should be using TableAwareParentFor");
MOZ_ASSERT(aWrapperFrame->Style()->GetPseudo() !=
nsCSSAnonBoxes::tableWrapper,
"Someone should be using TableAwareParentFor");
// Make sure we only add first continuations.
aWrapperFrame = aWrapperFrame->FirstContinuation();
nsIFrame* last = mPendingWrapperRestyles.SafeLastElement(nullptr);
if (last == aWrapperFrame) {
// Already queued up, nothing to do.
return;
}
// Make sure to queue up parents before children. But don't queue up
// ancestors of non-anonymous boxes here; those are handled when we traverse
// their non-anonymous kids.
if (aWrapperFrame->ParentIsWrapperAnonBox()) {
AddPendingWrapperRestyle(TableAwareParentFor(aWrapperFrame));
}
// If the append fails, we'll fail to restyle properly, but that's probably
// better than crashing.
if (mPendingWrapperRestyles.AppendElement(aWrapperFrame, fallible)) {
aWrapperFrame->SetIsWrapperAnonBoxNeedingRestyle(true);
}
}
void
ServoRestyleState::ProcessWrapperRestyles(nsIFrame* aParentFrame)
{
size_t i = mPendingWrapperRestyleOffset;
while (i < mPendingWrapperRestyles.Length()) {
i += ProcessMaybeNestedWrapperRestyle(aParentFrame, i);
}
mPendingWrapperRestyles.TruncateLength(mPendingWrapperRestyleOffset);
}
size_t
ServoRestyleState::ProcessMaybeNestedWrapperRestyle(nsIFrame* aParent,
size_t aIndex)
{
// The frame at index aIndex is something we should restyle ourselves, but
// following frames may need separate ServoRestyleStates to restyle.
MOZ_ASSERT(aIndex < mPendingWrapperRestyles.Length());
nsIFrame* cur = mPendingWrapperRestyles[aIndex];
MOZ_ASSERT(cur->Style()->IsWrapperAnonBox());
// Where is cur supposed to inherit from? From its parent frame, except in
// the case when cur is a table, in which case it should be its grandparent.
// Also, not in the case when the resulting frame would be a first-line; in
// that case we should be inheriting from the block, and the first-line will
// do its fixup later if needed.
//
// Note that after we do all that fixup the parent we get might still not be
// aParent; for example aParent could be a scrollframe, in which case we
// should inherit from the scrollcontent frame. Or the parent might be some
// continuation of aParent.
//
// Try to assert as much as we can about the parent we actually end up using
// without triggering bogus asserts in all those various edge cases.
nsIFrame* parent = cur->GetParent();
if (cur->IsTableFrame()) {
MOZ_ASSERT(parent->IsTableWrapperFrame());
parent = parent->GetParent();
}
if (parent->IsLineFrame()) {
parent = parent->GetParent();
}
MOZ_ASSERT(FirstContinuationOrPartOfIBSplit(parent) == aParent ||
(parent->Style()->IsInheritingAnonBox() &&
parent->GetContent() == aParent->GetContent()));
// Now "this" is a ServoRestyleState for aParent, so if parent is not a next
// continuation (possibly across ib splits) of aParent we need a new
// ServoRestyleState for the kid.
Maybe<ServoRestyleState> parentRestyleState;
nsIFrame* parentForRestyle =
nsLayoutUtils::FirstContinuationOrIBSplitSibling(parent);
if (parentForRestyle != aParent) {
parentRestyleState.emplace(*parentForRestyle, *this, nsChangeHint_Empty,
Type::InFlow);
}
ServoRestyleState& curRestyleState =
parentRestyleState ? *parentRestyleState : *this;
// This frame may already have been restyled. Even if it has, we can't just
// return, because the next frame may be a kid of it that does need restyling.
if (cur->IsWrapperAnonBoxNeedingRestyle()) {
parentForRestyle->UpdateStyleOfChildAnonBox(cur, curRestyleState);
cur->SetIsWrapperAnonBoxNeedingRestyle(false);
}
size_t numProcessed = 1;
// Note: no overflow possible here, since aIndex < length.
if (aIndex + 1 < mPendingWrapperRestyles.Length()) {
nsIFrame* next = mPendingWrapperRestyles[aIndex + 1];
if (TableAwareParentFor(next) == cur &&
next->IsWrapperAnonBoxNeedingRestyle()) {
// It might be nice if we could do better than nsChangeHint_Empty. On
// the other hand, presumably our mChangesHandled already has the bits
// we really want here so in practice it doesn't matter.
ServoRestyleState childState(*cur, curRestyleState, nsChangeHint_Empty,
Type::InFlow,
/* aAssertWrapperRestyleLength = */ false);
numProcessed += childState.ProcessMaybeNestedWrapperRestyle(cur,
aIndex + 1);
}
}
return numProcessed;
}
nsIFrame*
ServoRestyleState::TableAwareParentFor(const nsIFrame* aChild)
{
// We want to get the anon box parent for aChild. where aChild has
// ParentIsWrapperAnonBox().
//
// For the most part this is pretty straightforward, but there are two
// wrinkles. First, if aChild is a table, then we really want the parent of
// its table wrapper.
if (aChild->IsTableFrame()) {
aChild = aChild->GetParent();
MOZ_ASSERT(aChild->IsTableWrapperFrame());
}
nsIFrame* parent = aChild->GetParent();
// Now if parent is a cell-content frame, we actually want the cellframe.
if (parent->Style()->GetPseudo() == nsCSSAnonBoxes::cellContent) {
parent = parent->GetParent();
} else if (parent->IsTableWrapperFrame()) {
// Must be a caption. In that case we want the table here.
MOZ_ASSERT(aChild->StyleDisplay()->mDisplay == StyleDisplay::TableCaption);
parent = parent->PrincipalChildList().FirstChild();
}
return parent;
}
ServoRestyleManager::ServoRestyleManager(nsPresContext* aPresContext)
: RestyleManager(StyleBackendType::Servo, aPresContext)
, mReentrantChanges(nullptr)
{
}
void
ServoRestyleManager::PostRestyleEvent(Element* aElement,
nsRestyleHint aRestyleHint,
nsChangeHint aMinChangeHint)
{
MOZ_ASSERT(!(aMinChangeHint & nsChangeHint_NeutralChange),
"Didn't expect explicit change hints to be neutral!");
if (MOZ_UNLIKELY(IsDisconnected()) ||
MOZ_UNLIKELY(PresContext()->PresShell()->IsDestroying())) {
return;
}
// We allow posting restyles from within change hint handling, but not from
// within the restyle algorithm itself.
MOZ_ASSERT(!ServoStyleSet::IsInServoTraversal());
if (aRestyleHint == 0 && !aMinChangeHint) {
return; // Nothing to do.
}
// Assuming the restyle hints will invalidate cached style for
// getComputedStyle, since we don't know if any of the restyling that we do
// would affect undisplayed elements.
if (aRestyleHint) {
IncrementUndisplayedRestyleGeneration();
}
// Processing change hints sometimes causes new change hints to be generated,
// and very occasionally, additional restyle hints. We collect the change
// hints manually to avoid re-traversing the DOM to find them.
if (mReentrantChanges && !aRestyleHint) {
mReentrantChanges->AppendElement(ReentrantChange { aElement, aMinChangeHint });
return;
}
if (aRestyleHint & ~eRestyle_AllHintsWithAnimations) {
mHaveNonAnimationRestyles = true;
}
if (aRestyleHint & eRestyle_LaterSiblings) {
aRestyleHint &= ~eRestyle_LaterSiblings;
nsRestyleHint siblingHint = eRestyle_Subtree;
Element* current = aElement->GetNextElementSibling();
while (current) {
Servo_NoteExplicitHints(current, siblingHint, nsChangeHint(0));
current = current->GetNextElementSibling();
}
}
if (aRestyleHint || aMinChangeHint) {
Servo_NoteExplicitHints(aElement, aRestyleHint, aMinChangeHint);
}
}
void
ServoRestyleManager::PostRestyleEventForCSSRuleChanges()
{
mRestyleForCSSRuleChanges = true;
mPresContext->PresShell()->EnsureStyleFlush();
}
void
ServoRestyleManager::PostRestyleEventForAnimations(
Element* aElement,
CSSPseudoElementType aPseudoType,
nsRestyleHint aRestyleHint)
{
Element* elementToRestyle =
EffectCompositor::GetElementToRestyle(aElement, aPseudoType);
if (!elementToRestyle) {
// FIXME: Bug 1371107: When reframing happens,
// EffectCompositor::mElementsToRestyle still has unbinded old pseudo
// element. We should drop it.
return;
}
AutoRestyleTimelineMarker marker(mPresContext->GetDocShell(),
true /* animation-only */);
Servo_NoteExplicitHints(elementToRestyle, aRestyleHint, nsChangeHint(0));
}
void
ServoRestyleManager::RebuildAllStyleData(nsChangeHint aExtraHint,
nsRestyleHint aRestyleHint)
{
// NOTE(emilio): GeckoRestlyeManager does a sync style flush, which seems not
// to be needed in my testing.
PostRebuildAllStyleDataEvent(aExtraHint, aRestyleHint);
}
void
ServoRestyleManager::PostRebuildAllStyleDataEvent(nsChangeHint aExtraHint,
nsRestyleHint aRestyleHint)
{
// NOTE(emilio): The semantics of these methods are quite funny, in the sense
// that we're not supposed to need to rebuild the actual stylist data.
//
// That's handled as part of the MediumFeaturesChanged stuff, if needed.
StyleSet()->ClearCachedStyleData();
DocumentStyleRootIterator iter(mPresContext->Document());
while (Element* root = iter.GetNextStyleRoot()) {
PostRestyleEvent(root, aRestyleHint, aExtraHint);
}
// TODO(emilio, bz): Extensions can add/remove stylesheets that can affect
// non-inheriting anon boxes. It's not clear if we want to support that, but
// if we do, we need to re-selector-match them here.
}
/* static */ void
ServoRestyleManager::ClearServoDataFromSubtree(Element* aElement, IncludeRoot aIncludeRoot)
{
if (aElement->HasServoData()) {
StyleChildrenIterator it(aElement);
for (nsIContent* n = it.GetNextChild(); n; n = it.GetNextChild()) {
if (n->IsElement()) {
ClearServoDataFromSubtree(n->AsElement(), IncludeRoot::Yes);
}
}
}
if (MOZ_LIKELY(aIncludeRoot == IncludeRoot::Yes)) {
aElement->ClearServoData();
MOZ_ASSERT(!aElement->HasAnyOfFlags(Element::kAllServoDescendantBits | NODE_NEEDS_FRAME));
MOZ_ASSERT(aElement != aElement->OwnerDoc()->GetServoRestyleRoot());
}
}
/* static */ void
ServoRestyleManager::ClearRestyleStateFromSubtree(Element* aElement)
{
if (aElement->HasAnyOfFlags(Element::kAllServoDescendantBits)) {
StyleChildrenIterator it(aElement);
for (nsIContent* n = it.GetNextChild(); n; n = it.GetNextChild()) {
if (n->IsElement()) {
ClearRestyleStateFromSubtree(n->AsElement());
}
}
}
bool wasRestyled;
Unused << Servo_TakeChangeHint(aElement, &wasRestyled);
aElement->UnsetFlags(Element::kAllServoDescendantBits);
}
/**
* This struct takes care of encapsulating some common state that text nodes may
* need to track during the post-traversal.
*
* This is currently used to properly compute change hints when the parent
* element of this node is a display: contents node, and also to avoid computing
* the style for text children more than once per element.
*/
struct ServoRestyleManager::TextPostTraversalState
{
public:
TextPostTraversalState(Element& aParentElement,
ComputedStyle* aParentContext,
bool aDisplayContentsParentStyleChanged,
ServoRestyleState& aParentRestyleState)
: mParentElement(aParentElement)
, mParentContext(aParentContext)
, mParentRestyleState(aParentRestyleState)
, mStyle(nullptr)
, mShouldPostHints(aDisplayContentsParentStyleChanged)
, mShouldComputeHints(aDisplayContentsParentStyleChanged)
, mComputedHint(nsChangeHint_Empty)
{}
nsStyleChangeList& ChangeList() { return mParentRestyleState.ChangeList(); }
ComputedStyle& ComputeStyle(nsIContent* aTextNode)
{
if (!mStyle) {
mStyle = mParentRestyleState.StyleSet().ResolveStyleForText(
aTextNode, &ParentStyle());
}
MOZ_ASSERT(mStyle);
return *mStyle;
}
void ComputeHintIfNeeded(nsIContent* aContent,
nsIFrame* aTextFrame,
ComputedStyle& aNewContext)
{
MOZ_ASSERT(aTextFrame);
MOZ_ASSERT(aNewContext.GetPseudo() == nsCSSAnonBoxes::mozText);
if (MOZ_LIKELY(!mShouldPostHints)) {
return;
}
ComputedStyle* oldContext = aTextFrame->Style()->AsServo();
MOZ_ASSERT(oldContext->GetPseudo() == nsCSSAnonBoxes::mozText);
// We rely on the fact that all the text children for the same element share
// style to avoid recomputing style differences for all of them.
//
// TODO(emilio): The above may not be true for ::first-{line,letter}, but
// we'll cross that bridge when we support those in stylo.
if (mShouldComputeHints) {
mShouldComputeHints = false;
uint32_t equalStructs, samePointerStructs;
mComputedHint =
oldContext->CalcStyleDifference(&aNewContext,
&equalStructs,
&samePointerStructs);
mComputedHint = NS_RemoveSubsumedHints(
mComputedHint, mParentRestyleState.ChangesHandledFor(*aTextFrame));
}
if (mComputedHint) {
mParentRestyleState.ChangeList().AppendChange(
aTextFrame, aContent, mComputedHint);
}
}
private:
ComputedStyle& ParentStyle() {
if (!mParentContext) {
mLazilyResolvedParentContext =
mParentRestyleState.StyleSet().ResolveServoStyle(&mParentElement);
mParentContext = mLazilyResolvedParentContext;
}
return *mParentContext;
}
Element& mParentElement;
ComputedStyle* mParentContext;
RefPtr<ComputedStyle> mLazilyResolvedParentContext;
ServoRestyleState& mParentRestyleState;
RefPtr<ComputedStyle> mStyle;
bool mShouldPostHints;
bool mShouldComputeHints;
nsChangeHint mComputedHint;
};
static void
UpdateBackdropIfNeeded(nsIFrame* aFrame,
ServoStyleSet& aStyleSet,
nsStyleChangeList& aChangeList)
{
const nsStyleDisplay* display = aFrame->Style()->StyleDisplay();
if (display->mTopLayer != NS_STYLE_TOP_LAYER_TOP) {
return;
}
// Elements in the top layer are guaranteed to have absolute or fixed
// position per https://fullscreen.spec.whatwg.org/#new-stacking-layer.
MOZ_ASSERT(display->IsAbsolutelyPositionedStyle());
nsIFrame* backdropPlaceholder =
aFrame->GetChildList(nsIFrame::kBackdropList).FirstChild();
if (!backdropPlaceholder) {
return;
}
MOZ_ASSERT(backdropPlaceholder->IsPlaceholderFrame());
nsIFrame* backdropFrame =
nsPlaceholderFrame::GetRealFrameForPlaceholder(backdropPlaceholder);
MOZ_ASSERT(backdropFrame->IsBackdropFrame());
MOZ_ASSERT(backdropFrame->Style()->GetPseudoType() ==
CSSPseudoElementType::backdrop);
RefPtr<ComputedStyle> newContext =
aStyleSet.ResolvePseudoElementStyle(aFrame->GetContent()->AsElement(),
CSSPseudoElementType::backdrop,
aFrame->Style()->AsServo(),
/* aPseudoElement = */ nullptr);
// NOTE(emilio): We can't use the changes handled for the owner of the
// backdrop frame, since it's out of flow, and parented to the viewport or
// canvas frame (depending on the `position` value).
MOZ_ASSERT(backdropFrame->GetParent()->IsViewportFrame() ||
backdropFrame->GetParent()->IsCanvasFrame());
nsTArray<nsIFrame*> wrappersToRestyle;
ServoRestyleState state(aStyleSet, aChangeList, wrappersToRestyle);
nsIFrame::UpdateStyleOfOwnedChildFrame(backdropFrame, newContext, state);
}
static void
UpdateFirstLetterIfNeeded(nsIFrame* aFrame, ServoRestyleState& aRestyleState)
{
MOZ_ASSERT(!aFrame->IsFrameOfType(nsIFrame::eBlockFrame),
"You're probably duplicating work with UpdatePseudoElementStyles!");
if (!aFrame->HasFirstLetterChild()) {
return;
}
// We need to find the block the first-letter is associated with so we can
// find the right element for the first-letter's style resolution. Might as
// well just delegate the whole thing to that block.
nsIFrame* block = aFrame->GetParent();
while (!block->IsFrameOfType(nsIFrame::eBlockFrame)) {
block = block->GetParent();
}
static_cast<nsBlockFrame*>(block->FirstContinuation())->
UpdateFirstLetterStyle(aRestyleState);
}
static void
UpdateOneAdditionalComputedStyle(nsIFrame* aFrame,
uint32_t aIndex,
ComputedStyle& aOldContext,
ServoRestyleState& aRestyleState)
{
auto pseudoType = aOldContext.GetPseudoType();
MOZ_ASSERT(pseudoType != CSSPseudoElementType::NotPseudo);
MOZ_ASSERT(
!nsCSSPseudoElements::PseudoElementSupportsUserActionState(pseudoType));
RefPtr<ComputedStyle> newContext =
aRestyleState.StyleSet().ResolvePseudoElementStyle(
aFrame->GetContent()->AsElement(),
pseudoType,
aFrame->Style()->AsServo(),
/* aPseudoElement = */ nullptr);
uint32_t equalStructs, samePointerStructs; // Not used, actually.
nsChangeHint childHint = aOldContext.CalcStyleDifference(
newContext,
&equalStructs,
&samePointerStructs);
if (!aFrame->HasAnyStateBits(NS_FRAME_OUT_OF_FLOW)) {
childHint = NS_RemoveSubsumedHints(
childHint, aRestyleState.ChangesHandledFor(*aFrame));
}
if (childHint) {
if (childHint & nsChangeHint_ReconstructFrame) {
// If we generate a reconstruct here, remove any non-reconstruct hints we
// may have already generated for this content.
aRestyleState.ChangeList().PopChangesForContent(aFrame->GetContent());
}
aRestyleState.ChangeList().AppendChange(
aFrame, aFrame->GetContent(), childHint);
}
aFrame->SetAdditionalComputedStyle(aIndex, newContext);
}
static void
UpdateAdditionalComputedStyles(nsIFrame* aFrame,
ServoRestyleState& aRestyleState)
{
MOZ_ASSERT(aFrame);
MOZ_ASSERT(aFrame->GetContent() && aFrame->GetContent()->IsElement());
// FIXME(emilio): Consider adding a bit or something to avoid the initial
// virtual call?
uint32_t index = 0;
while (auto* oldContext = aFrame->GetAdditionalComputedStyle(index)) {
UpdateOneAdditionalComputedStyle(
aFrame, index++, *oldContext->AsServo(), aRestyleState);
}
}
static void
UpdateFramePseudoElementStyles(nsIFrame* aFrame,
ServoRestyleState& aRestyleState)
{
if (aFrame->IsFrameOfType(nsIFrame::eBlockFrame)) {
static_cast<nsBlockFrame*>(aFrame)->UpdatePseudoElementStyles(aRestyleState);
} else {
UpdateFirstLetterIfNeeded(aFrame, aRestyleState);
}
UpdateBackdropIfNeeded(
aFrame, aRestyleState.StyleSet(), aRestyleState.ChangeList());
}
enum class ServoPostTraversalFlags : uint32_t
{
Empty = 0,
// Whether parent was restyled.
ParentWasRestyled = 1 << 0,
// Skip sending accessibility notifications for all descendants.
SkipA11yNotifications = 1 << 1,
// Always send accessibility notifications if the element is shown.
// The SkipA11yNotifications flag above overrides this flag.
SendA11yNotificationsIfShown = 1 << 2,
};
MOZ_MAKE_ENUM_CLASS_BITWISE_OPERATORS(ServoPostTraversalFlags)
// Send proper accessibility notifications and return post traversal
// flags for kids.
static ServoPostTraversalFlags
SendA11yNotifications(nsPresContext* aPresContext,
Element* aElement,
ComputedStyle* aOldComputedStyle,
ComputedStyle* aNewComputedStyle,
ServoPostTraversalFlags aFlags)
{
using Flags = ServoPostTraversalFlags;
MOZ_ASSERT(!(aFlags & Flags::SkipA11yNotifications) ||
!(aFlags & Flags::SendA11yNotificationsIfShown),
"The two a11y flags should never be set together");
#ifdef ACCESSIBILITY
nsAccessibilityService* accService = GetAccService();
if (!accService) {
// If we don't have accessibility service, accessibility is not
// enabled. Just skip everything.
return Flags::Empty;
}
if (aFlags & Flags::SkipA11yNotifications) {
// Propogate the skipping flag to descendants.
return Flags::SkipA11yNotifications;
}
bool needsNotify = false;
bool isVisible = aNewComputedStyle->StyleVisibility()->IsVisible();
if (aFlags & Flags::SendA11yNotificationsIfShown) {
if (!isVisible) {
// Propagate the sending-if-shown flag to descendants.
return Flags::SendA11yNotificationsIfShown;
}
// We have asked accessibility service to remove the whole subtree
// of element which becomes invisible from the accessible tree, but
// this element is visible, so we need to add it back.
needsNotify = true;
} else {
// If we shouldn't skip in any case, we need to check whether our
// own visibility has changed.
bool wasVisible = aOldComputedStyle->StyleVisibility()->IsVisible();
needsNotify = wasVisible != isVisible;
}
if (needsNotify) {
nsIPresShell* presShell = aPresContext->PresShell();
if (isVisible) {
accService->ContentRangeInserted(presShell, aElement->GetParent(),
aElement, aElement->GetNextSibling());
// We are adding the subtree. Accessibility service would handle
// descendants, so we should just skip them from notifying.
return Flags::SkipA11yNotifications;
}
// Remove the subtree of this invisible element, and ask any shown
// descendant to add themselves back.
accService->ContentRemoved(presShell, aElement);
return Flags::SendA11yNotificationsIfShown;
}
#endif
return Flags::Empty;
}
bool
ServoRestyleManager::ProcessPostTraversal(
Element* aElement,
ComputedStyle* aParentContext,
ServoRestyleState& aRestyleState,
ServoPostTraversalFlags aFlags)
{
nsIFrame* styleFrame = nsLayoutUtils::GetStyleFrame(aElement);
nsIFrame* primaryFrame = aElement->GetPrimaryFrame();
// NOTE(emilio): This is needed because for table frames the bit is set on the
// table wrapper (which is the primary frame), not on the table itself.
const bool isOutOfFlow =
primaryFrame &&
primaryFrame->HasAnyStateBits(NS_FRAME_OUT_OF_FLOW);
// Grab the change hint from Servo.
bool wasRestyled;
nsChangeHint changeHint =
static_cast<nsChangeHint>(Servo_TakeChangeHint(aElement, &wasRestyled));
// We should really fix the weird primary frame mapping for image maps
// (bug 135040)...
if (styleFrame && styleFrame->GetContent() != aElement) {
MOZ_ASSERT(static_cast<nsImageFrame*>(do_QueryFrame(styleFrame)));
styleFrame = nullptr;
}
// Handle lazy frame construction by posting a reconstruct for any lazily-
// constructed roots.
if (aElement->HasFlag(NODE_NEEDS_FRAME)) {
changeHint |= nsChangeHint_ReconstructFrame;
MOZ_ASSERT(!styleFrame);
}
if (styleFrame) {
MOZ_ASSERT(primaryFrame);
nsIFrame* maybeAnonBoxChild;
if (isOutOfFlow) {
maybeAnonBoxChild = primaryFrame->GetPlaceholderFrame();
} else {
maybeAnonBoxChild = primaryFrame;
changeHint = NS_RemoveSubsumedHints(
changeHint, aRestyleState.ChangesHandledFor(*styleFrame));
}
// If the parent wasn't restyled, the styles of our anon box parents won't
// change either.
if ((aFlags & ServoPostTraversalFlags::ParentWasRestyled) &&
maybeAnonBoxChild->ParentIsWrapperAnonBox()) {
aRestyleState.AddPendingWrapperRestyle(
ServoRestyleState::TableAwareParentFor(maybeAnonBoxChild));
}
}
// Although we shouldn't generate non-ReconstructFrame hints for elements with
// no frames, we can still get them here if they were explicitly posted by
// PostRestyleEvent, such as a RepaintFrame hint when a :link changes to be
// :visited. Skip processing these hints if there is no frame.
if ((styleFrame || (changeHint & nsChangeHint_ReconstructFrame)) && changeHint) {
aRestyleState.ChangeList().AppendChange(styleFrame, aElement, changeHint);
}
// If our change hint is reconstruct, we delegate to the frame constructor,
// which consumes the new style and expects the old style to be on the frame.
//
// XXXbholley: We should teach the frame constructor how to clear the dirty
// descendants bit to avoid the traversal here.
if (changeHint & nsChangeHint_ReconstructFrame) {
ClearRestyleStateFromSubtree(aElement);
return true;
}
// TODO(emilio): We could avoid some refcount traffic here, specially in the
// ComputedStyle case, which uses atomic refcounting.
//
// Hold the ComputedStyle alive, because it could become a dangling pointer
// during the replacement. In practice it's not a huge deal, but better not
// playing with dangling pointers if not needed.
RefPtr<ComputedStyle> oldComputedStyle =
styleFrame ? styleFrame->Style()->AsServo() : nullptr;
ComputedStyle* displayContentsStyle = nullptr;
// FIXME(emilio, bug 1303605): This can be simpler for Servo.
// Note that we intentionally don't check for display: none content.
if (!oldComputedStyle) {
displayContentsStyle =
PresContext()->FrameConstructor()->GetDisplayContentsStyleFor(aElement);
if (displayContentsStyle) {
oldComputedStyle = displayContentsStyle->AsServo();
}
}
Maybe<ServoRestyleState> thisFrameRestyleState;
if (styleFrame) {
auto type = isOutOfFlow
? ServoRestyleState::Type::OutOfFlow
: ServoRestyleState::Type::InFlow;
thisFrameRestyleState.emplace(*styleFrame, aRestyleState, changeHint, type);
}
// We can't really assume as used changes from display: contents elements (or
// other elements without frames).
ServoRestyleState& childrenRestyleState =
thisFrameRestyleState ? *thisFrameRestyleState : aRestyleState;
RefPtr<ComputedStyle> upToDateContext =
wasRestyled
? aRestyleState.StyleSet().ResolveServoStyle(aElement)
: oldComputedStyle;
ServoPostTraversalFlags childrenFlags =
wasRestyled ? ServoPostTraversalFlags::ParentWasRestyled
: ServoPostTraversalFlags::Empty;
if (wasRestyled && oldComputedStyle) {
MOZ_ASSERT(styleFrame || displayContentsStyle);
MOZ_ASSERT(oldComputedStyle->ComputedData() != upToDateContext->ComputedData());
upToDateContext->ResolveSameStructsAs(oldComputedStyle);
// We want to walk all the continuations here, even the ones with different
// styles. In practice, the only reason we get continuations with different
// styles here is ::first-line (::first-letter never affects element
// styles). But in that case, newContext is the right context for the
// _later_ continuations anyway (the ones not affected by ::first-line), not
// the earlier ones, so there is no point stopping right at the point when
// we'd actually be setting the right ComputedStyle.
//
// This does mean that we may be setting the wrong ComputedStyle on our
// initial continuations; ::first-line fixes that up after the fact.
for (nsIFrame* f = styleFrame; f; f = f->GetNextContinuation()) {
MOZ_ASSERT_IF(f != styleFrame, !f->GetAdditionalComputedStyle(0));
f->SetComputedStyle(upToDateContext);
}
if (MOZ_UNLIKELY(displayContentsStyle)) {
MOZ_ASSERT(!styleFrame);
PresContext()->FrameConstructor()->
ChangeRegisteredDisplayContentsStyleFor(aElement, upToDateContext);
}
if (styleFrame) {
UpdateAdditionalComputedStyles(styleFrame, aRestyleState);
}
if (!aElement->GetParent()) {
// This is the root. Update styles on the viewport as needed.
ViewportFrame* viewport =
do_QueryFrame(mPresContext->PresShell()->GetRootFrame());
if (viewport) {
// NB: The root restyle state, not the one for our children!
viewport->UpdateStyle(aRestyleState);
}
}
// Some changes to animations don't affect the computed style and yet still
// require the layer to be updated. For example, pausing an animation via
// the Web Animations API won't affect an element's style but still
// requires to update the animation on the layer.
//
// We can sometimes reach this when the animated style is being removed.
// Since AddLayerChangesForAnimation checks if |styleFrame| has a transform
// style or not, we need to call it *after* setting |newContext| to
// |styleFrame| to ensure the animated transform has been removed first.
AddLayerChangesForAnimation(
styleFrame, aElement, aRestyleState.ChangeList());
childrenFlags |= SendA11yNotifications(mPresContext, aElement,
oldComputedStyle,
upToDateContext, aFlags);
}
const bool traverseElementChildren =
aElement->HasAnyOfFlags(Element::kAllServoDescendantBits);
const bool traverseTextChildren =
wasRestyled || aElement->HasFlag(NODE_DESCENDANTS_NEED_FRAMES);
bool recreatedAnyContext = wasRestyled;
if (traverseElementChildren || traverseTextChildren) {
StyleChildrenIterator it(aElement);
TextPostTraversalState textState(*aElement,
upToDateContext,
displayContentsStyle && wasRestyled,
childrenRestyleState);
for (nsIContent* n = it.GetNextChild(); n; n = it.GetNextChild()) {
if (traverseElementChildren && n->IsElement()) {
recreatedAnyContext |= ProcessPostTraversal(n->AsElement(),
upToDateContext,
childrenRestyleState,
childrenFlags);
} else if (traverseTextChildren && n->IsNodeOfType(nsINode::eTEXT)) {
recreatedAnyContext |= ProcessPostTraversalForText(n, textState,
childrenRestyleState,
childrenFlags);
}
}
}
// We want to update frame pseudo-element styles after we've traversed our
// kids, because some of those updates (::first-line/::first-letter) need to
// modify the styles of the kids, and the child traversal above would just
// clobber those modifications.
if (styleFrame) {
if (wasRestyled) {
// Make sure to update anon boxes and pseudo bits after updating text,
// otherwise ProcessPostTraversalForText could clobber first-letter
// styles, for example.
styleFrame->UpdateStyleOfOwnedAnonBoxes(childrenRestyleState);
}
// Process anon box wrapper frames before ::first-line bits, but _after_
// owned anon boxes, since the children wrapper anon boxes could be
// inheriting from our own owned anon boxes.
childrenRestyleState.ProcessWrapperRestyles(styleFrame);
if (wasRestyled) {
UpdateFramePseudoElementStyles(styleFrame, childrenRestyleState);
} else if (traverseElementChildren &&
styleFrame->IsFrameOfType(nsIFrame::eBlockFrame)) {
// Even if we were not restyled, if we're a block with a first-line and
// one of our descendant elements which is on the first line was restyled,
// we need to update the styles of things on the first line, because
// they're wrong now.
//
// FIXME(bz) Could we do better here? For example, could we keep track of
// frames that are "block with a ::first-line so we could avoid
// IsFrameOfType() and digging about for the first-line frame if not?
// Could we keep track of whether the element children we actually restyle
// are affected by first-line? Something else? Bug 1385443 tracks making
// this better.
nsIFrame* firstLineFrame =
static_cast<nsBlockFrame*>(styleFrame)->GetFirstLineFrame();
if (firstLineFrame) {
for (nsIFrame* kid : firstLineFrame->PrincipalChildList()) {
ReparentComputedStyle(kid);
}
}
}
}
aElement->UnsetFlags(Element::kAllServoDescendantBits);
return recreatedAnyContext;
}
bool
ServoRestyleManager::ProcessPostTraversalForText(
nsIContent* aTextNode,
TextPostTraversalState& aPostTraversalState,
ServoRestyleState& aRestyleState,
ServoPostTraversalFlags aFlags)
{
// Handle lazy frame construction.
if (aTextNode->HasFlag(NODE_NEEDS_FRAME)) {
aPostTraversalState.ChangeList().AppendChange(
nullptr, aTextNode, nsChangeHint_ReconstructFrame);
return true;
}
// Handle restyle.
nsIFrame* primaryFrame = aTextNode->GetPrimaryFrame();
if (!primaryFrame) {
return false;
}
// If the parent wasn't restyled, the styles of our anon box parents won't
// change either.
if ((aFlags & ServoPostTraversalFlags::ParentWasRestyled) &&
primaryFrame->ParentIsWrapperAnonBox()) {
aRestyleState.AddPendingWrapperRestyle(
ServoRestyleState::TableAwareParentFor(primaryFrame));
}
ComputedStyle& newContext = aPostTraversalState.ComputeStyle(aTextNode);
aPostTraversalState.ComputeHintIfNeeded(aTextNode, primaryFrame, newContext);
// We want to walk all the continuations here, even the ones with different
// styles. In practice, the only reasons we get continuations with different
// styles are ::first-line and ::first-letter. But in those cases,
// newContext is the right context for the _later_ continuations anyway (the
// ones not affected by ::first-line/::first-letter), not the earlier ones,
// so there is no point stopping right at the point when we'd actually be
// setting the right ComputedStyle.
//
// This does mean that we may be setting the wrong ComputedStyle on our
// initial continuations; ::first-line/::first-letter fix that up after the
// fact.
for (nsIFrame* f = primaryFrame; f; f = f->GetNextContinuation()) {
f->SetComputedStyle(&newContext);
}
return true;
}
void
ServoRestyleManager::ClearSnapshots()
{
for (auto iter = mSnapshots.Iter(); !iter.Done(); iter.Next()) {
iter.Key()->UnsetFlags(ELEMENT_HAS_SNAPSHOT | ELEMENT_HANDLED_SNAPSHOT);
iter.Remove();
}
}
ServoElementSnapshot&
ServoRestyleManager::SnapshotFor(Element* aElement)
{
MOZ_ASSERT(!mInStyleRefresh);
// NOTE(emilio): We can handle snapshots from a one-off restyle of those that
// we do to restyle stuff for reconstruction, for example.
//
// It seems to be the case that we always flush in between that happens and
// the next attribute change, so we can assert that we haven't handled the
// snapshot here yet. If this assertion didn't hold, we'd need to unset that
// flag from here too.
//
// Can't wait to make ProcessPendingRestyles the only entry-point for styling,
// so this becomes much easier to reason about. Today is not that day though.
MOZ_ASSERT(aElement->HasServoData());
MOZ_ASSERT(!aElement->HasFlag(ELEMENT_HANDLED_SNAPSHOT));
ServoElementSnapshot* snapshot = mSnapshots.LookupOrAdd(aElement, aElement);
aElement->SetFlags(ELEMENT_HAS_SNAPSHOT);
// Now that we have a snapshot, make sure a restyle is triggered.
aElement->NoteDirtyForServo();
return *snapshot;
}
void
ServoRestyleManager::DoProcessPendingRestyles(ServoTraversalFlags aFlags)
{
nsPresContext* presContext = PresContext();
MOZ_ASSERT(presContext->Document(), "No document? Pshaw!");
// FIXME(emilio): In the "flush animations" case, ideally, we should only
// recascade animation styles running on the compositor, so we shouldn't care
// about other styles, or new rules that apply to the page...
//
// However, that's not true as of right now, see bug 1388031 and bug 1388692.
MOZ_ASSERT((aFlags & ServoTraversalFlags::FlushThrottledAnimations) ||
!presContext->HasPendingMediaQueryUpdates(),
"Someone forgot to update media queries?");
MOZ_ASSERT(!nsContentUtils::IsSafeToRunScript(), "Missing a script blocker!");
MOZ_ASSERT(!mInStyleRefresh, "Reentrant call?");
if (MOZ_UNLIKELY(!presContext->PresShell()->DidInitialize())) {
// PresShell::FlushPendingNotifications doesn't early-return in the case
// where the PresShell hasn't yet been initialized (and therefore we haven't
// yet done the initial style traversal of the DOM tree). We should arguably
// fix up the callers and assert against this case, but we just detect and
// handle it for now.
return;
}
// Create a AnimationsWithDestroyedFrame during restyling process to
// stop animations and transitions on elements that have no frame at the end
// of the restyling process.
AnimationsWithDestroyedFrame animationsWithDestroyedFrame(this);
ServoStyleSet* styleSet = StyleSet();
nsIDocument* doc = presContext->Document();
// Ensure the refresh driver is active during traversal to avoid mutating
// mActiveTimer and mMostRecentRefresh time.
presContext->RefreshDriver()->MostRecentRefresh();
// Perform the Servo traversal, and the post-traversal if required. We do this
// in a loop because certain rare paths in the frame constructor (like
// uninstalling XBL bindings) can trigger additional style validations.
mInStyleRefresh = true;
if (mHaveNonAnimationRestyles) {
++mAnimationGeneration;
}
if (mRestyleForCSSRuleChanges) {
aFlags |= ServoTraversalFlags::ForCSSRuleChanges;
}
while (styleSet->StyleDocument(aFlags)) {
ClearSnapshots();
nsStyleChangeList currentChanges(StyleBackendType::Servo);
bool anyStyleChanged = false;
// Recreate styles , and queue up change hints (which also handle lazy frame
// construction).
{
AutoRestyleTimelineMarker marker(presContext->GetDocShell(), false);
DocumentStyleRootIterator iter(doc->GetServoRestyleRoot());
while (Element* root = iter.GetNextStyleRoot()) {
nsTArray<nsIFrame*> wrappersToRestyle;
ServoRestyleState state(*styleSet, currentChanges, wrappersToRestyle);
ServoPostTraversalFlags flags = ServoPostTraversalFlags::Empty;
anyStyleChanged |= ProcessPostTraversal(root, nullptr, state, flags);
}
}
doc->ClearServoRestyleRoot();
// Process the change hints.
//
// Unfortunately, the frame constructor can generate new change hints while
// processing existing ones. We redirect those into a secondary queue and
// iterate until there's nothing left.
{
AutoTimelineMarker marker(
presContext->GetDocShell(), "StylesApplyChanges");
ReentrantChangeList newChanges;
mReentrantChanges = &newChanges;
while (!currentChanges.IsEmpty()) {
ProcessRestyledFrames(currentChanges);
MOZ_ASSERT(currentChanges.IsEmpty());
for (ReentrantChange& change: newChanges) {
if (!(change.mHint & nsChangeHint_ReconstructFrame) &&
!change.mContent->GetPrimaryFrame()) {
// SVG Elements post change hints without ensuring that the primary
// frame will be there after that (see bug 1366142).
//
// Just ignore those, since we can't really process them.
continue;
}
currentChanges.AppendChange(change.mContent->GetPrimaryFrame(),
change.mContent, change.mHint);
}
newChanges.Clear();
}
mReentrantChanges = nullptr;
}
if (anyStyleChanged) {
// Maybe no styles changed when:
//
// * Only explicit change hints were posted in the first place.
// * When an attribute or state change in the content happens not to need
// a restyle after all.
//
// In any case, we don't need to increment the restyle generation in that
// case.
IncrementRestyleGeneration();
}
}
doc->ClearServoRestyleRoot();
FlushOverflowChangedTracker();
ClearSnapshots();
styleSet->AssertTreeIsClean();
mHaveNonAnimationRestyles = false;
mRestyleForCSSRuleChanges = false;
mInStyleRefresh = false;
// Now that everything has settled, see if we have enough free rule nodes in
// the tree to warrant sweeping them.
styleSet->MaybeGCRuleTree();
// Note: We are in the scope of |animationsWithDestroyedFrame|, so
// |mAnimationsWithDestroyedFrame| is still valid.
MOZ_ASSERT(mAnimationsWithDestroyedFrame);
mAnimationsWithDestroyedFrame->StopAnimationsForElementsWithoutFrames();
}
#ifdef DEBUG
static void
VerifyFlatTree(const nsIContent& aContent)
{
StyleChildrenIterator iter(&aContent);
for (auto* content = iter.GetNextChild();
content;
content = iter.GetNextChild()) {
MOZ_ASSERT(content->GetFlattenedTreeParentNodeForStyle() == &aContent);
VerifyFlatTree(*content);
}
}
#endif
void
ServoRestyleManager::ProcessPendingRestyles()
{
#ifdef DEBUG
if (auto* root = mPresContext->Document()->GetRootElement()) {
VerifyFlatTree(*root);
}
#endif
DoProcessPendingRestyles(ServoTraversalFlags::Empty);
}
void
ServoRestyleManager::ProcessAllPendingAttributeAndStateInvalidations()
{
if (mSnapshots.IsEmpty()) {
return;
}
for (auto iter = mSnapshots.Iter(); !iter.Done(); iter.Next()) {
// Servo data for the element might have been dropped. (e.g. by removing
// from its document)
if (iter.Key()->HasFlag(ELEMENT_HAS_SNAPSHOT)) {
Servo_ProcessInvalidations(StyleSet()->RawSet(), iter.Key(), &mSnapshots);
}
}
ClearSnapshots();
}
bool
ServoRestyleManager::HasPendingRestyleAncestor(Element* aElement) const
{
return Servo_HasPendingRestyleAncestor(aElement);
}
void
ServoRestyleManager::UpdateOnlyAnimationStyles()
{
bool doCSS = PresContext()->EffectCompositor()->HasPendingStyleUpdates();
if (!doCSS) {
return;
}
DoProcessPendingRestyles(ServoTraversalFlags::FlushThrottledAnimations);
}
void
ServoRestyleManager::ContentStateChanged(nsIContent* aContent,
EventStates aChangedBits)
{
MOZ_ASSERT(!mInStyleRefresh);
if (!aContent->IsElement()) {
return;
}
Element* aElement = aContent->AsElement();
if (!aElement->HasServoData()) {
return;
}
nsChangeHint changeHint;
ContentStateChangedInternal(aElement, aChangedBits, &changeHint);
// Don't bother taking a snapshot if no rules depend on these state bits.
//
// We always take a snapshot for the LTR/RTL event states, since Servo doesn't
// track those bits in the same way, and we know that :dir() rules are always
// present in UA style sheets.
if (!aChangedBits.HasAtLeastOneOfStates(DIRECTION_STATES) &&
!StyleSet()->HasStateDependency(*aElement, aChangedBits)) {
return;
}
ServoElementSnapshot& snapshot = SnapshotFor(aElement);
EventStates previousState = aElement->StyleState() ^ aChangedBits;
snapshot.AddState(previousState);
if (changeHint) {
Servo_NoteExplicitHints(aElement, nsRestyleHint(0), changeHint);
}
// Assuming we need to invalidate cached style in getComputedStyle for
// undisplayed elements, since we don't know if it is needed.
IncrementUndisplayedRestyleGeneration();
}
static inline bool
AttributeInfluencesOtherPseudoClassState(const Element& aElement,
const nsAtom* aAttribute)
{
// We must record some state for :-moz-browser-frame and
// :-moz-table-border-nonzero.
if (aAttribute == nsGkAtoms::mozbrowser) {
return aElement.IsAnyOfHTMLElements(nsGkAtoms::iframe, nsGkAtoms::frame);
}
if (aAttribute == nsGkAtoms::border) {
return aElement.IsHTMLElement(nsGkAtoms::table);
}
return false;
}
static inline bool
NeedToRecordAttrChange(const ServoStyleSet& aStyleSet,
const Element& aElement,
int32_t aNameSpaceID,
nsAtom* aAttribute,
bool* aInfluencesOtherPseudoClassState)
{
*aInfluencesOtherPseudoClassState =
AttributeInfluencesOtherPseudoClassState(aElement, aAttribute);
// If the attribute influences one of the pseudo-classes that are backed by
// attributes, we just record it.
if (*aInfluencesOtherPseudoClassState) {
return true;
}
// We assume that id and class attributes are used in class/id selectors, and
// thus record them.
//
// TODO(emilio): We keep a filter of the ids in use somewhere in the StyleSet,
// presumably we could try to filter the old and new id, but it's not clear
// it's worth it.
if (aNameSpaceID == kNameSpaceID_None &&
(aAttribute == nsGkAtoms::id || aAttribute == nsGkAtoms::_class)) {
return true;
}
// We always record lang="", even though we force a subtree restyle when it
// changes, since it can change how its siblings match :lang(..) due to
// selectors like :lang(..) + div.
if (aAttribute == nsGkAtoms::lang) {
return true;
}
// Otherwise, just record the attribute change if a selector in the page may
// reference it from an attribute selector.
return aStyleSet.MightHaveAttributeDependency(aElement, aAttribute);
}
void
ServoRestyleManager::AttributeWillChange(Element* aElement,
int32_t aNameSpaceID,
nsAtom* aAttribute, int32_t aModType,
const nsAttrValue* aNewValue)
{
TakeSnapshotForAttributeChange(aElement, aNameSpaceID, aAttribute);
}
void
ServoRestyleManager::ClassAttributeWillBeChangedBySMIL(Element* aElement)
{
TakeSnapshotForAttributeChange(aElement, kNameSpaceID_None,
nsGkAtoms::_class);
}
void
ServoRestyleManager::TakeSnapshotForAttributeChange(Element* aElement,
int32_t aNameSpaceID,
nsAtom* aAttribute)
{
MOZ_ASSERT(!mInStyleRefresh);
if (!aElement->HasServoData()) {
return;
}
bool influencesOtherPseudoClassState;
if (!NeedToRecordAttrChange(*StyleSet(),
*aElement,
aNameSpaceID,
aAttribute,
&influencesOtherPseudoClassState)) {
return;
}
// We cannot tell if the attribute change will affect the styles of
// undisplayed elements, because we don't actually restyle those elements
// during the restyle traversal. So just assume that the attribute change can
// cause the style to change.
IncrementUndisplayedRestyleGeneration();
// Some other random attribute changes may also affect the transitions,
// so we also set this true here.
mHaveNonAnimationRestyles = true;
ServoElementSnapshot& snapshot = SnapshotFor(aElement);
snapshot.AddAttrs(aElement, aNameSpaceID, aAttribute);
if (influencesOtherPseudoClassState) {
snapshot.AddOtherPseudoClassState(aElement);
}
}
// For some attribute changes we must restyle the whole subtree:
//
// * <td> is affected by the cellpadding on its ancestor table
// * lwtheme and lwthemetextcolor on root element of XUL document
// affects all descendants due to :-moz-lwtheme* pseudo-classes
// * lang="" and xml:lang="" can affect all descendants due to :lang()
//
static inline bool
AttributeChangeRequiresSubtreeRestyle(const Element& aElement, nsAtom* aAttr)
{
if (aAttr == nsGkAtoms::cellpadding) {
return aElement.IsHTMLElement(nsGkAtoms::table);
}
if (aAttr == nsGkAtoms::lwtheme ||
aAttr == nsGkAtoms::lwthemetextcolor) {
return aElement.GetNameSpaceID() == kNameSpaceID_XUL &&
&aElement == aElement.OwnerDoc()->GetRootElement();
}
return aAttr == nsGkAtoms::lang;
}
void
ServoRestyleManager::AttributeChanged(Element* aElement, int32_t aNameSpaceID,
nsAtom* aAttribute, int32_t aModType,
const nsAttrValue* aOldValue)
{
MOZ_ASSERT(!mInStyleRefresh);
auto changeHint = nsChangeHint(0);
auto restyleHint = nsRestyleHint(0);
changeHint |= aElement->GetAttributeChangeHint(aAttribute, aModType);
if (aAttribute == nsGkAtoms::style) {
restyleHint |= eRestyle_StyleAttribute;
} else if (AttributeChangeRequiresSubtreeRestyle(*aElement, aAttribute)) {
restyleHint |= eRestyle_Subtree;
} else if (aElement->IsAttributeMapped(aAttribute)) {
restyleHint |= eRestyle_Self;
}
if (nsIFrame* primaryFrame = aElement->GetPrimaryFrame()) {
// See if we have appearance information for a theme.
const nsStyleDisplay* disp = primaryFrame->StyleDisplay();
if (disp->mAppearance) {
nsITheme* theme = PresContext()->GetTheme();
if (theme && theme->ThemeSupportsWidget(PresContext(), primaryFrame,
disp->mAppearance)) {
bool repaint = false;
theme->WidgetStateChanged(primaryFrame, disp->mAppearance,
aAttribute, &repaint, aOldValue);
if (repaint) {
changeHint |= nsChangeHint_RepaintFrame;
}
}
}
primaryFrame->AttributeChanged(aNameSpaceID, aAttribute, aModType);
}
if (restyleHint || changeHint) {
Servo_NoteExplicitHints(aElement, restyleHint, changeHint);
}
if (restyleHint) {
// Assuming we need to invalidate cached style in getComputedStyle for
// undisplayed elements, since we don't know if it is needed.
IncrementUndisplayedRestyleGeneration();
// If we change attributes, we have to mark this to be true, so we will
// increase the animation generation for the new created transition if any.
mHaveNonAnimationRestyles = true;
}
}
nsresult
ServoRestyleManager::ReparentComputedStyle(nsIFrame* aFrame)
{
// This is only called when moving frames in or out of the first-line
// pseudo-element (or one of its descendants). We can't say much about
// aFrame's ancestors, unfortunately (e.g. during a dynamic insert into
// something inside an inline-block on the first line the ancestors could be
// totally arbitrary), but we will definitely find a line frame on the
// ancestor chain. Note that the lineframe may not actually be the one that
// corresponds to ::first-line; when we're moving _out_ of the ::first-line it
// will be one of the continuations instead.
#ifdef DEBUG
{
nsIFrame* f = aFrame->GetParent();
while (f && !f->IsLineFrame()) {
f = f->GetParent();
}
MOZ_ASSERT(f, "Must have found a first-line frame");
}
#endif
DoReparentComputedStyle(aFrame, *StyleSet());
return NS_OK;
}
void
ServoRestyleManager::DoReparentComputedStyle(nsIFrame* aFrame,
ServoStyleSet& aStyleSet)
{
if (aFrame->IsBackdropFrame()) {
// Style context of backdrop frame has no parent style, and thus we do not
// need to reparent it.
return;
}
if (aFrame->IsPlaceholderFrame()) {
// Also reparent the out-of-flow and all its continuations. We're doing
// this to match Gecko for now, but it's not clear that this behavior is
// correct per spec. It's certainly pretty odd for out-of-flows whose
// containing block is not within the first line.
//
// Right now we're somewhat inconsistent in this testcase:
//
// <style>
// div { color: orange; clear: left; }
// div::first-line { color: blue; }
// </style>
// <div>
// <span style="float: left">What color is this text?</span>
// </div>
// <div>
// <span><span style="float: left">What color is this text?</span></span>
// </div>
//
// We make the first float orange and the second float blue. On the other
// hand, if the float were within an inline-block that was on the first
// line, arguably it _should_ inherit from the ::first-line...
nsIFrame* outOfFlow =
nsPlaceholderFrame::GetRealFrameForPlaceholder(aFrame);
MOZ_ASSERT(outOfFlow, "no out-of-flow frame");
for (; outOfFlow; outOfFlow = outOfFlow->GetNextContinuation()) {
DoReparentComputedStyle(outOfFlow, aStyleSet);
}
}
nsIFrame* providerFrame;
ComputedStyle* newParentContext =
aFrame->GetParentComputedStyle(&providerFrame);
// If our provider is our child, we want to reparent it first, because we
// inherit style from it.
bool isChild = providerFrame && providerFrame->GetParent() == aFrame;
nsIFrame* providerChild = nullptr;
if (isChild) {
DoReparentComputedStyle(providerFrame, aStyleSet);
// Get the style again after ReparentComputedStyle() which might have
// changed it.
newParentContext = providerFrame->Style();
providerChild = providerFrame;
MOZ_ASSERT(!providerFrame->HasAnyStateBits(NS_FRAME_OUT_OF_FLOW),
"Out of flow provider?");
}
if (!newParentContext) {
// No need to do anything here for this frame, but we should still reparent
// its descendants, because those may have styles that inherit from the
// parent of this frame (e.g. non-anonymous columns in an anonymous
// colgroup).
MOZ_ASSERT(aFrame->Style()->IsNonInheritingAnonBox(),
"Why did this frame not end up with a parent context?");
ReparentFrameDescendants(aFrame, providerChild, aStyleSet);
return;
}
bool isElement = aFrame->GetContent()->IsElement();
// We probably don't want to initiate transitions from
// ReparentComputedStyle, since we call it during frame
// construction rather than in response to dynamic changes.
// Also see the comment at the start of
// nsTransitionManager::ConsiderInitiatingTransition.
//
// We don't try to do the fancy copying from previous continuations that
// GeckoRestyleManager does here, because that relies on knowing the parents
// of ComputedStyles, and we don't know those.
ComputedStyle* oldContext = aFrame->Style()->AsServo();
Element* ourElement =
oldContext->GetPseudoType() == CSSPseudoElementType::NotPseudo &&
isElement ?
aFrame->GetContent()->AsElement() :
nullptr;
ComputedStyle* newParent = newParentContext->AsServo();
ComputedStyle* newParentIgnoringFirstLine;
if (newParent->GetPseudoType() == CSSPseudoElementType::firstLine) {
MOZ_ASSERT(providerFrame && providerFrame->GetParent()->
IsFrameOfType(nsIFrame::eBlockFrame),
"How could we get a ::first-line parent style without having "
"a ::first-line provider frame?");
// If newParent is a ::first-line style, get the parent blockframe, and then
// correct it for our pseudo as needed (e.g. stepping out of anon boxes).
// Use the resulting style for the "parent style ignoring ::first-line".
nsIFrame* blockFrame = providerFrame->GetParent();
nsIFrame* correctedFrame =
nsFrame::CorrectStyleParentFrame(blockFrame, oldContext->GetPseudo());
newParentIgnoringFirstLine = correctedFrame->Style()->AsServo();
} else {
newParentIgnoringFirstLine = newParent;
}
if (!providerFrame) {
// No providerFrame means we inherited from a display:contents thing. Our
// layout parent style is the style of our nearest ancestor frame. But we have
// to be careful to do that with our placeholder, not with us, if we're out of
// flow.
if (aFrame->HasAnyStateBits(NS_FRAME_OUT_OF_FLOW)) {
aFrame->GetPlaceholderFrame()->GetLayoutParentStyleForOutOfFlow(&providerFrame);
} else {
providerFrame = nsFrame::CorrectStyleParentFrame(aFrame->GetParent(),
oldContext->GetPseudo());
}
}
ComputedStyle* layoutParent = providerFrame->Style()->AsServo();
RefPtr<ComputedStyle> newContext =
aStyleSet.ReparentComputedStyle(oldContext,
newParent,
newParentIgnoringFirstLine,
layoutParent,
ourElement);
aFrame->SetComputedStyle(newContext);
// This logic somewhat mirrors the logic in
// ServoRestyleManager::ProcessPostTraversal.
if (isElement) {
// We can't use UpdateAdditionalComputedStyles as-is because it needs a
// ServoRestyleState and maintaining one of those during a _frametree_
// traversal is basically impossible.
uint32_t index = 0;
while (ComputedStyle* oldAdditionalContext =
aFrame->GetAdditionalComputedStyle(index)) {
RefPtr<ComputedStyle> newAdditionalContext =
aStyleSet.ReparentComputedStyle(oldAdditionalContext->AsServo(),
newContext,
newContext,
newContext,
nullptr);
aFrame->SetAdditionalComputedStyle(index, newAdditionalContext);
++index;
}
}
// Generally, owned anon boxes are our descendants. The only exceptions are
// tables (for the table wrapper) and inline frames (for the block part of the
// block-in-inline split). We're going to update our descendants when looping
// over kids, and we don't want to update the block part of a block-in-inline
// split if the inline is on the first line but the block is not (and if the
// block is, it's the child of something else on the first line and will get
// updated as a child). And given how this method ends up getting called, if
// we reach here for a table frame, we are already in the middle of
// reparenting the table wrapper frame. So no need to
// UpdateStyleOfOwnedAnonBoxes() here.
ReparentFrameDescendants(aFrame, providerChild, aStyleSet);
// We do not need to do the equivalent of UpdateFramePseudoElementStyles,
// because those are hadled by our descendant walk.
}
void
ServoRestyleManager::ReparentFrameDescendants(nsIFrame* aFrame,
nsIFrame* aProviderChild,
ServoStyleSet& aStyleSet)
{
nsIFrame::ChildListIterator lists(aFrame);
for (; !lists.IsDone(); lists.Next()) {
for (nsIFrame* child : lists.CurrentList()) {
// only do frames that are in flow
if (!(child->GetStateBits() & NS_FRAME_OUT_OF_FLOW) &&
child != aProviderChild) {
DoReparentComputedStyle(child, aStyleSet);
}
}
}
}
} // namespace mozilla
Ссылка в новой задаче Показать git blame Копировать постоянную ссылку