/* -*- 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/ServoStyleSet.h" #include "mozilla/ServoStyleSetInlines.h" #include "gfxPlatformFontList.h" #include "mozilla/DocumentStyleRootIterator.h" #include "mozilla/AttributeStyles.h" #include "mozilla/EffectCompositor.h" #include "mozilla/IntegerRange.h" #include "mozilla/Keyframe.h" #include "mozilla/LookAndFeel.h" #include "mozilla/PresShell.h" #include "mozilla/ProfilerLabels.h" #include "mozilla/ServoBindings.h" #include "mozilla/RestyleManager.h" #include "mozilla/ServoStyleRuleMap.h" #include "mozilla/ServoTypes.h" #include "mozilla/SMILAnimationController.h" #include "mozilla/MediaFeatureChange.h" #include "mozilla/StyleAnimationValue.h" #include "mozilla/css/Loader.h" #include "mozilla/dom/AnonymousContent.h" #include "mozilla/dom/CSSBinding.h" #include "mozilla/dom/CSSCounterStyleRule.h" #include "mozilla/dom/CSSFontFaceRule.h" #include "mozilla/dom/CSSFontFeatureValuesRule.h" #include "mozilla/dom/CSSFontPaletteValuesRule.h" #include "mozilla/dom/CSSImportRule.h" #include "mozilla/dom/CSSContainerRule.h" #include "mozilla/dom/CSSLayerBlockRule.h" #include "mozilla/dom/CSSLayerStatementRule.h" #include "mozilla/dom/CSSMediaRule.h" #include "mozilla/dom/CSSMozDocumentRule.h" #include "mozilla/dom/CSSKeyframesRule.h" #include "mozilla/dom/CSSKeyframeRule.h" #include "mozilla/dom/CSSNamespaceRule.h" #include "mozilla/dom/CSSPageRule.h" #include "mozilla/dom/CSSPropertyRule.h" #include "mozilla/dom/CSSSupportsRule.h" #include "mozilla/dom/FontFaceSet.h" #include "mozilla/dom/Element.h" #include "mozilla/dom/ElementInlines.h" #include "nsCSSAnonBoxes.h" #include "nsCSSFrameConstructor.h" #include "nsCSSPseudoElements.h" #include "nsDeviceContext.h" #include "nsIAnonymousContentCreator.h" #include "nsLayoutUtils.h" #include "mozilla/dom/DocumentInlines.h" #include "nsPrintfCString.h" #include "gfxUserFontSet.h" #include "nsWindowSizes.h" namespace mozilla { using namespace dom; #ifdef DEBUG bool ServoStyleSet::IsCurrentThreadInServoTraversal() { return sInServoTraversal && (NS_IsMainThread() || Servo_IsWorkerThread()); } #endif // The definition of kOrigins relies on this. static_assert(static_cast(StyleOrigin::UserAgent) == static_cast(OriginFlags::UserAgent)); static_assert(static_cast(StyleOrigin::User) == static_cast(OriginFlags::User)); static_assert(static_cast(StyleOrigin::Author) == static_cast(OriginFlags::Author)); constexpr const StyleOrigin ServoStyleSet::kOrigins[]; ServoStyleSet* sInServoTraversal = nullptr; // On construction, sets sInServoTraversal to the given ServoStyleSet. // On destruction, clears sInServoTraversal and calls RunPostTraversalTasks. class MOZ_RAII AutoSetInServoTraversal { public: explicit AutoSetInServoTraversal(ServoStyleSet* aSet) : mSet(aSet) { MOZ_ASSERT(!sInServoTraversal); MOZ_ASSERT(aSet); sInServoTraversal = aSet; } ~AutoSetInServoTraversal() { MOZ_ASSERT(sInServoTraversal); sInServoTraversal = nullptr; mSet->RunPostTraversalTasks(); } private: ServoStyleSet* mSet; }; // Sets up for one or more calls to Servo_TraverseSubtree. class MOZ_RAII AutoPrepareTraversal { public: explicit AutoPrepareTraversal(ServoStyleSet* aSet) : mSetInServoTraversal(aSet) { MOZ_ASSERT(!aSet->StylistNeedsUpdate()); } private: AutoSetInServoTraversal mSetInServoTraversal; }; ServoStyleSet::ServoStyleSet(Document& aDocument) : mDocument(&aDocument) { PreferenceSheet::EnsureInitialized(); PodArrayZero(mCachedAnonymousContentStyleIndexes); mRawData.reset(Servo_StyleSet_Init(&aDocument)); } ServoStyleSet::~ServoStyleSet() { MOZ_ASSERT(!IsInServoTraversal()); EnumerateStyleSheets([&](StyleSheet& aSheet) { aSheet.DropStyleSet(this); }); } nsPresContext* ServoStyleSet::GetPresContext() { return mDocument->GetPresContext(); } template static void EnumerateShadowRoots(const Document& aDoc, const Functor& aCb) { const Document::ShadowRootSet& shadowRoots = aDoc.ComposedShadowRoots(); for (ShadowRoot* root : shadowRoots) { MOZ_ASSERT(root); MOZ_DIAGNOSTIC_ASSERT(root->IsInComposedDoc()); aCb(*root); } } void ServoStyleSet::ShellDetachedFromDocument() { ClearNonInheritingComputedStyles(); mCachedAnonymousContentStyles.Clear(); PodArrayZero(mCachedAnonymousContentStyleIndexes); mStyleRuleMap = nullptr; // Remove all our stylesheets... for (auto origin : kOrigins) { for (size_t count = SheetCount(origin); count--;) { RemoveStyleSheet(*SheetAt(origin, count)); } } // And remove all the CascadeDatas from memory. UpdateStylistIfNeeded(); // Also GC the ruletree if it got big now that the DOM no longer has // references to styles around anymore. MaybeGCRuleTree(); } void ServoStyleSet::RecordShadowStyleChange(ShadowRoot& aShadowRoot) { // TODO(emilio): We could keep track of the actual shadow roots that need // their styles recomputed. SetStylistShadowDOMStyleSheetsDirty(); // FIXME(emilio): This should be done using stylesheet invalidation instead. if (nsPresContext* pc = GetPresContext()) { pc->RestyleManager()->PostRestyleEvent( aShadowRoot.Host(), RestyleHint::RestyleSubtree(), nsChangeHint(0)); } } void ServoStyleSet::InvalidateStyleForDocumentStateChanges( DocumentState aStatesChanged) { MOZ_ASSERT(mDocument); MOZ_ASSERT(!aStatesChanged.IsEmpty()); nsPresContext* pc = GetPresContext(); if (!pc) { return; } Element* root = mDocument->GetRootElement(); if (!root) { return; } // TODO(emilio): It may be nicer to just invalidate stuff in a given subtree // for Shadow DOM. Consider just enumerating shadow roots instead and run // invalidation individually, passing mRawData for the UA / User sheets. AutoTArray nonDocumentStyles; EnumerateShadowRoots(*mDocument, [&](ShadowRoot& aShadowRoot) { if (auto* authorStyles = aShadowRoot.GetServoStyles()) { nonDocumentStyles.AppendElement(authorStyles); } }); Servo_InvalidateStyleForDocStateChanges(root, mRawData.get(), &nonDocumentStyles, aStatesChanged.GetInternalValue()); } static const MediaFeatureChangeReason kMediaFeaturesAffectingDefaultStyle = // Zoom changes change the meaning of em units. MediaFeatureChangeReason::ZoomChange | // A resolution change changes the app-units-per-dev-pixels ratio, which // some structs (Border, Outline, Column) store for clamping. We should // arguably not do that, maybe doing it on layout directly, to try to avoid // relying on the pres context (bug 1418159). MediaFeatureChangeReason::ResolutionChange; RestyleHint ServoStyleSet::MediumFeaturesChanged( MediaFeatureChangeReason aReason) { AutoTArray nonDocumentStyles; EnumerateShadowRoots(*mDocument, [&](ShadowRoot& aShadowRoot) { if (auto* authorStyles = aShadowRoot.GetServoStyles()) { nonDocumentStyles.AppendElement(authorStyles); } }); const bool mayAffectDefaultStyle = bool(aReason & kMediaFeaturesAffectingDefaultStyle); const MediumFeaturesChangedResult result = Servo_StyleSet_MediumFeaturesChanged(mRawData.get(), &nonDocumentStyles, mayAffectDefaultStyle); const bool viewportChanged = bool(aReason & MediaFeatureChangeReason::ViewportChange); if (viewportChanged) { InvalidateForViewportUnits(OnlyDynamic::No); } const bool rulesChanged = result.mAffectsDocumentRules || result.mAffectsNonDocumentRules; if (result.mAffectsDocumentRules) { SetStylistStyleSheetsDirty(); } if (result.mAffectsNonDocumentRules) { SetStylistShadowDOMStyleSheetsDirty(); } if (rulesChanged) { // TODO(emilio): This could be more granular. return RestyleHint::RestyleSubtree(); } return RestyleHint{0}; } MOZ_DEFINE_MALLOC_SIZE_OF(ServoStyleSetMallocSizeOf) MOZ_DEFINE_MALLOC_ENCLOSING_SIZE_OF(ServoStyleSetMallocEnclosingSizeOf) void ServoStyleSet::AddSizeOfIncludingThis(nsWindowSizes& aSizes) const { MallocSizeOf mallocSizeOf = aSizes.mState.mMallocSizeOf; aSizes.mLayoutStyleSetsOther += mallocSizeOf(this); if (mRawData) { aSizes.mLayoutStyleSetsOther += mallocSizeOf(mRawData.get()); ServoStyleSetSizes sizes; // Measure mRawData. We use ServoStyleSetMallocSizeOf rather than // aMallocSizeOf to distinguish in DMD's output the memory measured within // Servo code. Servo_StyleSet_AddSizeOfExcludingThis(ServoStyleSetMallocSizeOf, ServoStyleSetMallocEnclosingSizeOf, &sizes, mRawData.get()); // The StyleSet does not contain precomputed pseudos; they are in the UA // cache. MOZ_RELEASE_ASSERT(sizes.mPrecomputedPseudos == 0); aSizes.mLayoutStyleSetsStylistRuleTree += sizes.mRuleTree; aSizes.mLayoutStyleSetsStylistElementAndPseudosMaps += sizes.mElementAndPseudosMaps; aSizes.mLayoutStyleSetsStylistInvalidationMap += sizes.mInvalidationMap; aSizes.mLayoutStyleSetsStylistRevalidationSelectors += sizes.mRevalidationSelectors; aSizes.mLayoutStyleSetsStylistOther += sizes.mOther; } if (mStyleRuleMap) { aSizes.mLayoutStyleSetsOther += mStyleRuleMap->SizeOfIncludingThis(aSizes.mState.mMallocSizeOf); } // Measurement of the following members may be added later if DMD finds it is // worthwhile: // - mSheets // - mNonInheritingComputedStyles // // The following members are not measured: // - mDocument, because it a non-owning pointer } void ServoStyleSet::SetAuthorStyleDisabled(bool aStyleDisabled) { if (mAuthorStyleDisabled == aStyleDisabled) { return; } mAuthorStyleDisabled = aStyleDisabled; if (Element* root = mDocument->GetRootElement()) { if (nsPresContext* pc = GetPresContext()) { pc->RestyleManager()->PostRestyleEvent( root, RestyleHint::RestyleSubtree(), nsChangeHint(0)); } } Servo_StyleSet_SetAuthorStyleDisabled(mRawData.get(), mAuthorStyleDisabled); // XXX Workaround for bug 1437785. SetStylistStyleSheetsDirty(); } const ServoElementSnapshotTable& ServoStyleSet::Snapshots() { MOZ_ASSERT(GetPresContext(), "Styling a document without a shell?"); return GetPresContext()->RestyleManager()->Snapshots(); } void ServoStyleSet::PreTraverseSync() { // Get the Document's root element to ensure that the cache is valid before // calling into the (potentially-parallel) Servo traversal, where a cache hit // is necessary to avoid a data race when updating the cache. Unused << mDocument->GetRootElement(); // FIXME(emilio): These two shouldn't be needed in theory, the call to the // same function in PresShell should do the work, but as it turns out we // ProcessPendingRestyles() twice, and runnables from frames just constructed // can end up doing editing stuff, which adds stylesheets etc... mDocument->FlushUserFontSet(); UpdateStylistIfNeeded(); mDocument->ResolveScheduledPresAttrs(); LookAndFeel::NativeInit(); mDocument->CacheAllKnownLangPrefs(); if (gfxUserFontSet* userFontSet = mDocument->GetUserFontSet()) { nsPresContext* presContext = GetPresContext(); MOZ_ASSERT(presContext, "For now, we don't call into here without a pres context"); // Ensure that the @font-face data is not stale uint64_t generation = userFontSet->GetGeneration(); if (generation != mUserFontSetUpdateGeneration) { mDocument->GetFonts()->CacheFontLoadability(); presContext->UpdateFontCacheUserFonts(userFontSet); mUserFontSetUpdateGeneration = generation; } } MOZ_ASSERT(!StylistNeedsUpdate()); } void ServoStyleSet::PreTraverse(ServoTraversalFlags aFlags, Element* aRoot) { PreTraverseSync(); // Process animation stuff that we should avoid doing during the parallel // traversal. SMILAnimationController* smilController = mDocument->HasAnimationController() ? mDocument->GetAnimationController() : nullptr; MOZ_ASSERT(GetPresContext()); if (aRoot) { GetPresContext()->EffectCompositor()->PreTraverseInSubtree(aFlags, aRoot); if (smilController) { smilController->PreTraverseInSubtree(aRoot); } } else { GetPresContext()->EffectCompositor()->PreTraverse(aFlags); if (smilController) { smilController->PreTraverse(); } } } static inline already_AddRefed ResolveStyleForTextOrFirstLetterContinuation( const StylePerDocumentStyleData* aRawData, ComputedStyle& aParent, PseudoStyleType aType) { MOZ_ASSERT(aType == PseudoStyleType::mozText || aType == PseudoStyleType::firstLetterContinuation); auto inheritTarget = aType == PseudoStyleType::mozText ? InheritTarget::Text : InheritTarget::FirstLetterContinuation; RefPtr style = aParent.GetCachedInheritingAnonBoxStyle(aType); if (!style) { style = Servo_ComputedValues_Inherit(aRawData, aType, &aParent, inheritTarget) .Consume(); MOZ_ASSERT(style); aParent.SetCachedInheritedAnonBoxStyle(style); } return style.forget(); } already_AddRefed ServoStyleSet::ResolveStyleForText( nsIContent* aTextNode, ComputedStyle* aParentStyle) { MOZ_ASSERT(aTextNode && aTextNode->IsText()); MOZ_ASSERT(aTextNode->GetParent()); MOZ_ASSERT(aParentStyle); return ResolveStyleForTextOrFirstLetterContinuation( mRawData.get(), *aParentStyle, PseudoStyleType::mozText); } already_AddRefed ServoStyleSet::ResolveStyleForFirstLetterContinuation( ComputedStyle* aParentStyle) { MOZ_ASSERT(aParentStyle); return ResolveStyleForTextOrFirstLetterContinuation( mRawData.get(), *aParentStyle, PseudoStyleType::firstLetterContinuation); } already_AddRefed ServoStyleSet::ResolveStyleForPlaceholder() { RefPtr& cache = mNonInheritingComputedStyles [nsCSSAnonBoxes::NonInheriting::oofPlaceholder]; if (cache) { RefPtr retval = cache; return retval.forget(); } RefPtr computedValues = Servo_ComputedValues_Inherit(mRawData.get(), PseudoStyleType::oofPlaceholder, nullptr, InheritTarget::PlaceholderFrame) .Consume(); MOZ_ASSERT(computedValues); cache = computedValues; return computedValues.forget(); } static inline bool LazyPseudoIsCacheable(PseudoStyleType aType, const Element& aOriginatingElement, ComputedStyle* aParentStyle) { return aParentStyle && !nsCSSPseudoElements::IsEagerlyCascadedInServo(aType) && aOriginatingElement.HasServoData() && !Servo_Element_IsPrimaryStyleReusedViaRuleNode(&aOriginatingElement); } already_AddRefed ServoStyleSet::ResolvePseudoElementStyle( const Element& aOriginatingElement, PseudoStyleType aType, nsAtom* aFunctionalPseudoParameter, ComputedStyle* aParentStyle, IsProbe aIsProbe) { // Runs from frame construction, this should have clean styles already, except // with non-lazy FC... UpdateStylistIfNeeded(); MOZ_ASSERT(PseudoStyle::IsPseudoElement(aType)); // caching is done using `aType` only, therefore results would be wrong for // pseudos with functional parameters (e.g. `::highlight(foo)`). const bool cacheable = !aFunctionalPseudoParameter && LazyPseudoIsCacheable(aType, aOriginatingElement, aParentStyle); RefPtr style = cacheable ? aParentStyle->GetCachedLazyPseudoStyle(aType) : nullptr; const bool isProbe = aIsProbe == IsProbe::Yes; if (!style) { // FIXME(emilio): Why passing null for probing as the parent style? // // There are callers which do pass the wrong parent style and it would // assert (like ComputeSelectionStyle()). That's messy! style = Servo_ResolvePseudoStyle( &aOriginatingElement, aType, aFunctionalPseudoParameter, isProbe, isProbe ? nullptr : aParentStyle, mRawData.get()) .Consume(); if (!style) { MOZ_ASSERT(isProbe); return nullptr; } if (cacheable) { aParentStyle->SetCachedLazyPseudoStyle(style); } } MOZ_ASSERT(style); if (isProbe && !GeneratedContentPseudoExists(*aParentStyle, *style)) { return nullptr; } return style.forget(); } already_AddRefed ServoStyleSet::ResolveInheritingAnonymousBoxStyle(PseudoStyleType aType, ComputedStyle* aParentStyle) { MOZ_ASSERT(PseudoStyle::IsInheritingAnonBox(aType)); MOZ_ASSERT_IF(aParentStyle, !StylistNeedsUpdate()); UpdateStylistIfNeeded(); RefPtr style = nullptr; if (aParentStyle) { style = aParentStyle->GetCachedInheritingAnonBoxStyle(aType); } if (!style) { style = Servo_ComputedValues_GetForAnonymousBox(aParentStyle, aType, mRawData.get()) .Consume(); MOZ_ASSERT(style); if (aParentStyle) { aParentStyle->SetCachedInheritedAnonBoxStyle(style); } } return style.forget(); } already_AddRefed ServoStyleSet::ResolveNonInheritingAnonymousBoxStyle(PseudoStyleType aType) { MOZ_ASSERT(aType != PseudoStyleType::pageContent, "Use ResolvePageContentStyle for page content"); MOZ_ASSERT(PseudoStyle::IsNonInheritingAnonBox(aType)); nsCSSAnonBoxes::NonInheriting type = nsCSSAnonBoxes::NonInheritingTypeForPseudoType(aType); RefPtr& cache = mNonInheritingComputedStyles[type]; if (cache) { RefPtr retval = cache; return retval.forget(); } UpdateStylistIfNeeded(); // We always want to skip parent-based display fixup here. It never makes // sense for non-inheriting anonymous boxes. (Static assertions in // nsCSSAnonBoxes.cpp ensure that all non-inheriting non-anonymous boxes // are indeed annotated as skipping this fixup.) MOZ_ASSERT(!PseudoStyle::IsNonInheritingAnonBox(PseudoStyleType::viewport), "viewport needs fixup to handle blockifying it"); RefPtr computedValues = Servo_ComputedValues_GetForAnonymousBox(nullptr, aType, mRawData.get()) .Consume(); MOZ_ASSERT(computedValues); cache = computedValues; return computedValues.forget(); } already_AddRefed ServoStyleSet::ResolvePageContentStyle( const nsAtom* aPageName, const StylePagePseudoClassFlags& aPseudo) { // The empty atom is used to indicate no specified page name, and is not // usable as a page-rule selector. Changing this to null is a slight // optimization to avoid the Servo code from doing an unnecessary hashtable // lookup, and still use the style cache in this case. if (aPageName == nsGkAtoms::_empty) { aPageName = nullptr; } // Only use the cache when we are doing a lookup for page styles without a // page-name or any pseudo classes. const bool useCache = !aPageName && !aPseudo; RefPtr& cache = mNonInheritingComputedStyles[nsCSSAnonBoxes::NonInheriting::pageContent]; if (useCache && cache) { RefPtr retval = cache; return retval.forget(); } UpdateStylistIfNeeded(); RefPtr computedValues = Servo_ComputedValues_GetForPageContent(mRawData.get(), aPageName, aPseudo) .Consume(); MOZ_ASSERT(computedValues); if (useCache) { cache = computedValues; } return computedValues.forget(); } already_AddRefed ServoStyleSet::ResolveXULTreePseudoStyle( dom::Element* aParentElement, nsCSSAnonBoxPseudoStaticAtom* aPseudoTag, ComputedStyle* aParentStyle, const AtomArray& aInputWord) { MOZ_ASSERT(nsCSSAnonBoxes::IsTreePseudoElement(aPseudoTag)); MOZ_ASSERT(aParentStyle); NS_ASSERTION(!StylistNeedsUpdate(), "Stylesheets modified when resolving XUL tree pseudo"); return Servo_ComputedValues_ResolveXULTreePseudoStyle( aParentElement, aPseudoTag, aParentStyle, &aInputWord, mRawData.get()) .Consume(); } // manage the set of style sheets in the style set void ServoStyleSet::AppendStyleSheet(StyleSheet& aSheet) { MOZ_ASSERT(aSheet.IsApplicable()); MOZ_ASSERT(aSheet.RawContents(), "Raw sheet should be in place before insertion."); aSheet.AddStyleSet(this); // Maintain a mirrored list of sheets on the servo side. // Servo will remove aSheet from its original position as part of the call // to Servo_StyleSet_AppendStyleSheet. Servo_StyleSet_AppendStyleSheet(mRawData.get(), &aSheet); SetStylistStyleSheetsDirty(); if (mStyleRuleMap) { mStyleRuleMap->SheetAdded(aSheet); } } void ServoStyleSet::RemoveStyleSheet(StyleSheet& aSheet) { aSheet.DropStyleSet(this); // Maintain a mirrored list of sheets on the servo side. Servo_StyleSet_RemoveStyleSheet(mRawData.get(), &aSheet); SetStylistStyleSheetsDirty(); if (mStyleRuleMap) { mStyleRuleMap->SheetRemoved(aSheet); } } void ServoStyleSet::InsertStyleSheetBefore(StyleSheet& aNewSheet, StyleSheet& aReferenceSheet) { MOZ_ASSERT(aNewSheet.IsApplicable()); MOZ_ASSERT(aReferenceSheet.IsApplicable()); MOZ_ASSERT(&aNewSheet != &aReferenceSheet, "Can't place sheet before itself."); MOZ_ASSERT(aNewSheet.GetOrigin() == aReferenceSheet.GetOrigin(), "Sheets should be in the same origin"); MOZ_ASSERT(aNewSheet.RawContents(), "Raw sheet should be in place before insertion."); MOZ_ASSERT(aReferenceSheet.RawContents(), "Reference sheet should have a raw sheet."); // Servo will remove aNewSheet from its original position as part of the // call to Servo_StyleSet_InsertStyleSheetBefore. aNewSheet.AddStyleSet(this); // Maintain a mirrored list of sheets on the servo side. Servo_StyleSet_InsertStyleSheetBefore(mRawData.get(), &aNewSheet, &aReferenceSheet); SetStylistStyleSheetsDirty(); if (mStyleRuleMap) { mStyleRuleMap->SheetAdded(aNewSheet); } } size_t ServoStyleSet::SheetCount(Origin aOrigin) const { return Servo_StyleSet_GetSheetCount(mRawData.get(), aOrigin); } StyleSheet* ServoStyleSet::SheetAt(Origin aOrigin, size_t aIndex) const { return const_cast( Servo_StyleSet_GetSheetAt(mRawData.get(), aOrigin, aIndex)); } ServoStyleSet::PageSizeAndOrientation ServoStyleSet::GetDefaultPageSizeAndOrientation() { PageSizeAndOrientation retval; const RefPtr style = ResolvePageContentStyle(nullptr, StylePagePseudoClassFlags::NONE); const StylePageSize& pageSize = style->StylePage()->mSize; if (pageSize.IsSize()) { const nscoord w = pageSize.AsSize().width.ToAppUnits(); const nscoord h = pageSize.AsSize().height.ToAppUnits(); // Ignoring sizes that include a zero width or height. // These are also ignored in nsPageFrame::ComputePageSize() // when calculating the scaling for a page size. // In bug 1807985, we might add similar handling for @page margin/size // combinations that produce a zero-sized page-content box. if (w > 0 && h > 0) { retval.size.emplace(w, h); if (w > h) { retval.orientation.emplace(StylePageSizeOrientation::Landscape); } else if (w < h) { retval.orientation.emplace(StylePageSizeOrientation::Portrait); } } } else if (pageSize.IsOrientation()) { retval.orientation.emplace(pageSize.AsOrientation()); } else { MOZ_ASSERT(pageSize.IsAuto(), "Impossible page size"); } return retval; } void ServoStyleSet::AppendAllNonDocumentAuthorSheets( nsTArray& aArray) const { EnumerateShadowRoots(*mDocument, [&](ShadowRoot& aShadowRoot) { for (auto index : IntegerRange(aShadowRoot.SheetCount())) { aArray.AppendElement(aShadowRoot.SheetAt(index)); } aArray.AppendElements(aShadowRoot.AdoptedStyleSheets()); }); } void ServoStyleSet::AddDocStyleSheet(StyleSheet& aSheet) { MOZ_ASSERT(aSheet.IsApplicable()); MOZ_ASSERT(aSheet.RawContents(), "Raw sheet should be in place by this point."); size_t index = mDocument->FindDocStyleSheetInsertionPoint(aSheet); aSheet.AddStyleSet(this); if (index < SheetCount(Origin::Author)) { // This case is insert before. StyleSheet* beforeSheet = SheetAt(Origin::Author, index); // Maintain a mirrored list of sheets on the servo side. Servo_StyleSet_InsertStyleSheetBefore(mRawData.get(), &aSheet, beforeSheet); SetStylistStyleSheetsDirty(); } else { // Maintain a mirrored list of sheets on the servo side. Servo_StyleSet_AppendStyleSheet(mRawData.get(), &aSheet); SetStylistStyleSheetsDirty(); } if (mStyleRuleMap) { mStyleRuleMap->SheetAdded(aSheet); } } bool ServoStyleSet::GeneratedContentPseudoExists( const ComputedStyle& aParentStyle, const ComputedStyle& aPseudoStyle) { auto type = aPseudoStyle.GetPseudoType(); MOZ_ASSERT(type != PseudoStyleType::NotPseudo); if (type == PseudoStyleType::marker) { // ::marker only exist for list items (for now). if (!aParentStyle.StyleDisplay()->IsListItem()) { return false; } const auto& content = aPseudoStyle.StyleContent()->mContent; // ::marker does not exist if 'content' is 'none' (this trumps // any 'list-style-type' or 'list-style-image' values). if (content.IsNone()) { return false; } // ::marker only exist if we have 'content' or at least one of // 'list-style-type' or 'list-style-image'. if (aPseudoStyle.StyleList()->mCounterStyle.IsNone() && aPseudoStyle.StyleList()->mListStyleImage.IsNone() && content.IsNormal()) { return false; } // display:none is equivalent to not having a pseudo at all. if (aPseudoStyle.StyleDisplay()->mDisplay == StyleDisplay::None) { return false; } } // For ::before and ::after pseudo-elements, no 'content' items is // equivalent to not having the pseudo-element at all. if (type == PseudoStyleType::before || type == PseudoStyleType::after) { if (!aPseudoStyle.StyleContent()->mContent.IsItems()) { return false; } MOZ_ASSERT(aPseudoStyle.StyleContent()->ContentCount() > 0, "IsItems() implies we have at least one item"); // display:none is equivalent to not having a pseudo at all. if (aPseudoStyle.StyleDisplay()->mDisplay == StyleDisplay::None) { return false; } } return true; } bool ServoStyleSet::StyleDocument(ServoTraversalFlags aFlags) { AUTO_PROFILER_LABEL_CATEGORY_PAIR_RELEVANT_FOR_JS(LAYOUT_StyleComputation); MOZ_ASSERT(GetPresContext(), "Styling a document without a shell?"); if (!mDocument->GetServoRestyleRoot()) { return false; } Element* rootElement = mDocument->GetRootElement(); if (rootElement && MOZ_UNLIKELY(!rootElement->HasServoData())) { StyleNewSubtree(rootElement); return true; } PreTraverse(aFlags); AutoPrepareTraversal guard(this); const SnapshotTable& snapshots = Snapshots(); // Restyle the document from the root element and each of the document level // NAC subtree roots. bool postTraversalRequired = false; if (ShouldTraverseInParallel()) { aFlags |= ServoTraversalFlags::ParallelTraversal; } // Do the first traversal. DocumentStyleRootIterator iter(mDocument->GetServoRestyleRoot()); while (Element* root = iter.GetNextStyleRoot()) { MOZ_ASSERT(MayTraverseFrom(root)); Element* parent = root->GetFlattenedTreeParentElementForStyle(); MOZ_ASSERT_IF(parent, !parent->HasAnyOfFlags(Element::kAllServoDescendantBits)); postTraversalRequired |= Servo_TraverseSubtree(root, mRawData.get(), &snapshots, aFlags) || root->HasAnyOfFlags(Element::kAllServoDescendantBits | NODE_NEEDS_FRAME); { uint32_t existingBits = mDocument->GetServoRestyleRootDirtyBits(); Element* newRoot = nullptr; while (parent && parent->HasDirtyDescendantsForServo()) { MOZ_ASSERT(root == mDocument->GetServoRestyleRoot(), "Restyle root shouldn't have magically changed"); // If any style invalidation was triggered in our siblings, then we may // need to post-traverse them, even if the root wasn't restyled after // all. // We need to propagate the existing bits to the ancestor. parent->SetFlags(existingBits); newRoot = parent; parent = parent->GetFlattenedTreeParentElementForStyle(); } if (newRoot) { mDocument->SetServoRestyleRoot( newRoot, existingBits | ELEMENT_HAS_DIRTY_DESCENDANTS_FOR_SERVO); postTraversalRequired = true; } } } // If there are still animation restyles needed, trigger a second traversal to // update CSS animations or transitions' styles. // // Note that we need to check the style root again, because doing another // PreTraverse on the EffectCompositor might alter the style root. But we // don't need to worry about NAC, since document-level NAC shouldn't have // animations. // // We don't need to do this for SMIL since SMIL only updates its animation // values once at the begin of a tick. As a result, even if the previous // traversal caused, for example, the font-size to change, the SMIL style // won't be updated until the next tick anyway. if (GetPresContext()->EffectCompositor()->PreTraverse(aFlags)) { DocumentStyleRootIterator iter(mDocument->GetServoRestyleRoot()); while (Element* root = iter.GetNextStyleRoot()) { postTraversalRequired |= Servo_TraverseSubtree(root, mRawData.get(), &snapshots, aFlags) || root->HasAnyOfFlags(Element::kAllServoDescendantBits | NODE_NEEDS_FRAME); } } return postTraversalRequired; } void ServoStyleSet::StyleNewSubtree(Element* aRoot) { MOZ_ASSERT(GetPresContext()); MOZ_ASSERT(!aRoot->HasServoData()); MOZ_ASSERT(aRoot->GetFlattenedTreeParentNodeForStyle(), "Not in the flat tree? Fishy!"); PreTraverseSync(); AutoPrepareTraversal guard(this); // Do the traversal. The snapshots will not be used. const SnapshotTable& snapshots = Snapshots(); auto flags = ServoTraversalFlags::Empty; if (ShouldTraverseInParallel()) { flags |= ServoTraversalFlags::ParallelTraversal; } DebugOnly postTraversalRequired = Servo_TraverseSubtree(aRoot, mRawData.get(), &snapshots, flags); MOZ_ASSERT(!postTraversalRequired); // Annoyingly, the newly-styled content may have animations that need // starting, which requires traversing them again. Mark the elements // that need animation processing, then do a forgetful traversal to // update the styles and clear the animation bits. if (GetPresContext()->EffectCompositor()->PreTraverseInSubtree(flags, aRoot)) { postTraversalRequired = Servo_TraverseSubtree(aRoot, mRawData.get(), &snapshots, ServoTraversalFlags::AnimationOnly | ServoTraversalFlags::FinalAnimationTraversal); MOZ_ASSERT(!postTraversalRequired); } } void ServoStyleSet::MarkOriginsDirty(OriginFlags aChangedOrigins) { SetStylistStyleSheetsDirty(); Servo_StyleSet_NoteStyleSheetsChanged(mRawData.get(), aChangedOrigins); } void ServoStyleSet::SetStylistStyleSheetsDirty() { mStylistState |= StylistState::StyleSheetsDirty; // We need to invalidate cached style in getComputedStyle for undisplayed // elements, since we don't know if any of the style sheet change that we do // would affect undisplayed elements. // // We don't allow to call getComputedStyle in elements without a pres shell // yet, so it is fine if there's no pres context here. if (nsPresContext* presContext = GetPresContext()) { presContext->RestyleManager()->IncrementUndisplayedRestyleGeneration(); } } void ServoStyleSet::SetStylistShadowDOMStyleSheetsDirty() { mStylistState |= StylistState::ShadowDOMStyleSheetsDirty; if (nsPresContext* presContext = GetPresContext()) { presContext->RestyleManager()->IncrementUndisplayedRestyleGeneration(); } } static OriginFlags ToOriginFlags(StyleOrigin aOrigin) { switch (aOrigin) { case StyleOrigin::UserAgent: return OriginFlags::UserAgent; case StyleOrigin::User: return OriginFlags::User; default: MOZ_FALLTHROUGH_ASSERT("Unknown origin?"); case StyleOrigin::Author: return OriginFlags::Author; } } void ServoStyleSet::ImportRuleLoaded(dom::CSSImportRule&, StyleSheet& aSheet) { if (mStyleRuleMap) { mStyleRuleMap->SheetAdded(aSheet); } // TODO: Should probably consider ancestor sheets too. if (!aSheet.IsApplicable()) { return; } // TODO(emilio): Could handle it better given we know it is an insertion, and // use the style invalidation machinery stuff that we do for regular sheet // insertions. MarkOriginsDirty(ToOriginFlags(aSheet.GetOrigin())); } void ServoStyleSet::RuleAdded(StyleSheet& aSheet, css::Rule& aRule) { if (mStyleRuleMap) { mStyleRuleMap->RuleAdded(aSheet, aRule); } if (!aSheet.IsApplicable() || aRule.IsIncompleteImportRule()) { return; } RuleChangedInternal(aSheet, aRule, StyleRuleChangeKind::Insertion); } void ServoStyleSet::RuleRemoved(StyleSheet& aSheet, css::Rule& aRule) { if (mStyleRuleMap) { mStyleRuleMap->RuleRemoved(aSheet, aRule); } if (!aSheet.IsApplicable()) { return; } RuleChangedInternal(aSheet, aRule, StyleRuleChangeKind::Removal); } void ServoStyleSet::RuleChangedInternal(StyleSheet& aSheet, css::Rule& aRule, StyleRuleChangeKind aKind) { MOZ_ASSERT(aSheet.IsApplicable()); SetStylistStyleSheetsDirty(); #define CASE_FOR(constant_, type_) \ case StyleCssRuleType::constant_: \ return Servo_StyleSet_##constant_##RuleChanged( \ mRawData.get(), static_cast(aRule).Raw(), \ &aSheet, aKind); switch (aRule.Type()) { CASE_FOR(CounterStyle, CounterStyle) CASE_FOR(Style, Style) CASE_FOR(Import, Import) CASE_FOR(Media, Media) CASE_FOR(Keyframes, Keyframes) CASE_FOR(FontFeatureValues, FontFeatureValues) CASE_FOR(FontPaletteValues, FontPaletteValues) CASE_FOR(FontFace, FontFace) CASE_FOR(Page, Page) CASE_FOR(Property, Property) CASE_FOR(Document, MozDocument) CASE_FOR(Supports, Supports) CASE_FOR(LayerBlock, LayerBlock) CASE_FOR(LayerStatement, LayerStatement) CASE_FOR(Container, Container) // @namespace can only be inserted / removed when there are only other // @namespace and @import rules, and can't be mutated. case StyleCssRuleType::Namespace: break; case StyleCssRuleType::Keyframe: // FIXME: We should probably just forward to the parent @keyframes rule? I // think that'd do the right thing, but meanwhile... return MarkOriginsDirty(ToOriginFlags(aSheet.GetOrigin())); case StyleCssRuleType::Margin: // Margin rules not implemented yet, see bug 1864737 break; } #undef CASE_FOR } void ServoStyleSet::RuleChanged(StyleSheet& aSheet, css::Rule* aRule, StyleRuleChangeKind aKind) { if (!aSheet.IsApplicable()) { return; } if (!aRule) { // FIXME: This is done for StyleSheet.media attribute changes and such MarkOriginsDirty(ToOriginFlags(aSheet.GetOrigin())); } else { RuleChangedInternal(aSheet, *aRule, aKind); } } void ServoStyleSet::SheetCloned(StyleSheet& aSheet) { mNeedsRestyleAfterEnsureUniqueInner = true; if (mStyleRuleMap) { mStyleRuleMap->SheetCloned(aSheet); } } #ifdef DEBUG void ServoStyleSet::AssertTreeIsClean() { DocumentStyleRootIterator iter(mDocument); while (Element* root = iter.GetNextStyleRoot()) { Servo_AssertTreeIsClean(root); } } #endif bool ServoStyleSet::GetKeyframesForName( const Element& aElement, const ComputedStyle& aStyle, nsAtom* aName, const StyleComputedTimingFunction& aTimingFunction, nsTArray& aKeyframes) { MOZ_ASSERT(!StylistNeedsUpdate()); return Servo_StyleSet_GetKeyframesForName( mRawData.get(), &aElement, &aStyle, aName, &aTimingFunction, &aKeyframes); } nsTArray ServoStyleSet::GetComputedKeyframeValuesFor( const nsTArray& aKeyframes, Element* aElement, PseudoStyleType aPseudoType, const ComputedStyle* aStyle) { nsTArray result(aKeyframes.Length()); // Construct each nsTArray here. result.AppendElements(aKeyframes.Length()); Servo_GetComputedKeyframeValues(&aKeyframes, aElement, aPseudoType, aStyle, mRawData.get(), &result); return result; } void ServoStyleSet::GetAnimationValues( StyleLockedDeclarationBlock* aDeclarations, Element* aElement, const ComputedStyle* aComputedStyle, nsTArray>& aAnimationValues) { // Servo_GetAnimationValues below won't handle ignoring existing element // data for bfcached documents. (See comment in ResolveStyleLazily // about these bfcache issues.) Servo_GetAnimationValues(aDeclarations, aElement, aComputedStyle, mRawData.get(), &aAnimationValues); } already_AddRefed ServoStyleSet::GetBaseContextForElement( Element* aElement, const ComputedStyle* aStyle) { return Servo_StyleSet_GetBaseComputedValuesForElement( mRawData.get(), aElement, aStyle, &Snapshots()) .Consume(); } already_AddRefed ServoStyleSet::ComputeAnimationValue( Element* aElement, StyleLockedDeclarationBlock* aDeclarations, const ComputedStyle* aStyle) { return Servo_AnimationValue_Compute(aElement, aDeclarations, aStyle, mRawData.get()) .Consume(); } bool ServoStyleSet::UsesFontMetrics() const { return Servo_StyleSet_UsesFontMetrics(mRawData.get()); } bool ServoStyleSet::EnsureUniqueInnerOnCSSSheets() { using SheetOwner = Variant; AutoTArray, 32> queue; EnumerateStyleSheets([&](StyleSheet& aSheet) { queue.AppendElement(std::make_pair(&aSheet, SheetOwner{this})); }); EnumerateShadowRoots(*mDocument, [&](ShadowRoot& aShadowRoot) { for (auto index : IntegerRange(aShadowRoot.SheetCount())) { queue.AppendElement( std::make_pair(aShadowRoot.SheetAt(index), SheetOwner{&aShadowRoot})); } for (const auto& adopted : aShadowRoot.AdoptedStyleSheets()) { queue.AppendElement( std::make_pair(adopted.get(), SheetOwner{&aShadowRoot})); } }); while (!queue.IsEmpty()) { auto [sheet, owner] = queue.PopLastElement(); if (sheet->HasForcedUniqueInner()) { // We already processed this sheet and its children. // Normally we don't hit this but adopted stylesheets can have dupes so we // can save some work here. continue; } // Only call EnsureUniqueInner for complete sheets. If we do call it on // incomplete sheets, we'll cause problems when the sheet is actually // loaded. We don't care about incomplete sheets here anyway, because this // method is only invoked by nsPresContext::EnsureSafeToHandOutCSSRules. // The CSSRule objects we are handing out won't contain any rules derived // from incomplete sheets (because they aren't yet applied in styling). if (sheet->IsComplete()) { sheet->EnsureUniqueInner(); } // Enqueue all the sheet's children. for (StyleSheet* child : sheet->ChildSheets()) { queue.AppendElement(std::make_pair(child, owner)); } } if (mNeedsRestyleAfterEnsureUniqueInner) { // TODO(emilio): We could make this faster if needed tracking the specific // origins and sheets that have been cloned. But the only caller of this // doesn't seem to really care about perf. MarkOriginsDirty(OriginFlags::All); ForceDirtyAllShadowStyles(); } bool res = mNeedsRestyleAfterEnsureUniqueInner; mNeedsRestyleAfterEnsureUniqueInner = false; return res; } void ServoStyleSet::ClearCachedStyleData() { ClearNonInheritingComputedStyles(); Servo_StyleSet_RebuildCachedData(mRawData.get()); mCachedAnonymousContentStyles.Clear(); PodArrayZero(mCachedAnonymousContentStyleIndexes); } void ServoStyleSet::ForceDirtyAllShadowStyles() { bool anyShadow = false; EnumerateShadowRoots(*mDocument, [&](ShadowRoot& aShadowRoot) { if (auto* authorStyles = aShadowRoot.GetServoStyles()) { anyShadow = true; Servo_AuthorStyles_ForceDirty(authorStyles); } }); if (anyShadow) { SetStylistShadowDOMStyleSheetsDirty(); } } void ServoStyleSet::CompatibilityModeChanged() { Servo_StyleSet_CompatModeChanged(mRawData.get()); SetStylistStyleSheetsDirty(); ForceDirtyAllShadowStyles(); } void ServoStyleSet::ClearNonInheritingComputedStyles() { for (RefPtr& ptr : mNonInheritingComputedStyles) { ptr = nullptr; } } already_AddRefed ServoStyleSet::ResolveStyleLazily( const Element& aElement, PseudoStyleType aPseudoType, nsAtom* aFunctionalPseudoParameter, StyleRuleInclusion aRuleInclusion) { PreTraverseSync(); MOZ_ASSERT(!StylistNeedsUpdate()); AutoSetInServoTraversal guard(this); /** * NB: This is needed because we process animations and transitions on the * pseudo-elements themselves, not on the parent's EagerPseudoStyles. * * That means that that style doesn't account for animations, and we can't do * that easily from the traversal without doing wasted work. * * As such, we just lie here a bit, which is the entrypoint of * getComputedStyle, the only API where this can be observed, to look at the * style of the pseudo-element if it exists instead. */ const Element* elementForStyleResolution = &aElement; PseudoStyleType pseudoTypeForStyleResolution = aPseudoType; if (aPseudoType == PseudoStyleType::before) { if (Element* pseudo = nsLayoutUtils::GetBeforePseudo(&aElement)) { elementForStyleResolution = pseudo; pseudoTypeForStyleResolution = PseudoStyleType::NotPseudo; } } else if (aPseudoType == PseudoStyleType::after) { if (Element* pseudo = nsLayoutUtils::GetAfterPseudo(&aElement)) { elementForStyleResolution = pseudo; pseudoTypeForStyleResolution = PseudoStyleType::NotPseudo; } } else if (aPseudoType == PseudoStyleType::marker) { if (Element* pseudo = nsLayoutUtils::GetMarkerPseudo(&aElement)) { elementForStyleResolution = pseudo; pseudoTypeForStyleResolution = PseudoStyleType::NotPseudo; } } nsPresContext* pc = GetPresContext(); MOZ_ASSERT(pc, "For now, no style resolution without a pres context"); auto* restyleManager = pc->RestyleManager(); const bool canUseCache = aRuleInclusion == StyleRuleInclusion::All && aElement.OwnerDoc() == mDocument && pc->PresShell()->DidInitialize(); return Servo_ResolveStyleLazily( elementForStyleResolution, pseudoTypeForStyleResolution, aFunctionalPseudoParameter, aRuleInclusion, &restyleManager->Snapshots(), restyleManager->GetUndisplayedRestyleGeneration(), canUseCache, mRawData.get()) .Consume(); } void ServoStyleSet::AppendFontFaceRules( nsTArray& aArray) { // TODO(emilio): Can we make this so this asserts instead? UpdateStylistIfNeeded(); Servo_StyleSet_GetFontFaceRules(mRawData.get(), &aArray); } const StyleLockedCounterStyleRule* ServoStyleSet::CounterStyleRuleForName( nsAtom* aName) { MOZ_ASSERT(!StylistNeedsUpdate()); return Servo_StyleSet_GetCounterStyleRule(mRawData.get(), aName); } already_AddRefed ServoStyleSet::BuildFontFeatureValueSet() { MOZ_ASSERT(!StylistNeedsUpdate()); RefPtr set = Servo_StyleSet_BuildFontFeatureValueSet(mRawData.get()); return set.forget(); } already_AddRefed ServoStyleSet::BuildFontPaletteValueSet() { MOZ_ASSERT(!StylistNeedsUpdate()); RefPtr set = Servo_StyleSet_BuildFontPaletteValueSet(mRawData.get()); return set.forget(); } already_AddRefed ServoStyleSet::ResolveForDeclarations( const ComputedStyle* aParentOrNull, const StyleLockedDeclarationBlock* aDeclarations) { // No need to update the stylist, we're only cascading aDeclarations. return Servo_StyleSet_ResolveForDeclarations(mRawData.get(), aParentOrNull, aDeclarations) .Consume(); } void ServoStyleSet::UpdateStylist() { AUTO_PROFILER_LABEL_RELEVANT_FOR_JS("Update stylesheet information", LAYOUT); MOZ_ASSERT(StylistNeedsUpdate()); if (mStylistState & StylistState::StyleSheetsDirty) { Element* root = mDocument->GetRootElement(); const ServoElementSnapshotTable* snapshots = nullptr; if (nsPresContext* pc = GetPresContext()) { snapshots = &pc->RestyleManager()->Snapshots(); } Servo_StyleSet_FlushStyleSheets(mRawData.get(), root, snapshots); } if (MOZ_UNLIKELY(mStylistState & StylistState::ShadowDOMStyleSheetsDirty)) { EnumerateShadowRoots(*mDocument, [&](ShadowRoot& aShadowRoot) { if (auto* authorStyles = aShadowRoot.GetServoStyles()) { Servo_AuthorStyles_Flush(authorStyles, mRawData.get()); } }); Servo_StyleSet_RemoveUniqueEntriesFromAuthorStylesCache(mRawData.get()); } mStylistState = StylistState::NotDirty; } void ServoStyleSet::MaybeGCRuleTree() { MOZ_ASSERT(NS_IsMainThread()); Servo_MaybeGCRuleTree(mRawData.get()); } /* static */ bool ServoStyleSet::MayTraverseFrom(const Element* aElement) { MOZ_ASSERT(aElement->IsInComposedDoc()); nsINode* parent = aElement->GetFlattenedTreeParentNodeForStyle(); if (!parent) { return false; } if (!parent->IsElement()) { MOZ_ASSERT(parent->IsDocument()); return true; } if (!parent->AsElement()->HasServoData()) { return false; } return !Servo_Element_IsDisplayNone(parent->AsElement()); } bool ServoStyleSet::ShouldTraverseInParallel() const { MOZ_ASSERT(mDocument->GetPresShell(), "Styling a document without a shell?"); if (!mDocument->GetPresShell()->IsActive()) { return false; } if (profiler_feature_active(ProfilerFeature::SequentialStyle)) { return false; } return true; } void ServoStyleSet::RunPostTraversalTasks() { MOZ_ASSERT(!IsInServoTraversal()); if (mPostTraversalTasks.IsEmpty()) { return; } nsTArray tasks = std::move(mPostTraversalTasks); for (auto& task : tasks) { task.Run(); } } ServoStyleRuleMap* ServoStyleSet::StyleRuleMap() { if (!mStyleRuleMap) { mStyleRuleMap = MakeUnique(); } mStyleRuleMap->EnsureTable(*this); return mStyleRuleMap.get(); } bool ServoStyleSet::MightHaveAttributeDependency(const Element& aElement, nsAtom* aAttribute) const { return Servo_StyleSet_MightHaveAttributeDependency(mRawData.get(), &aElement, aAttribute); } bool ServoStyleSet::MightHaveNthOfIDDependency(const Element& aElement, nsAtom* aOldID, nsAtom* aNewID) const { return Servo_StyleSet_MightHaveNthOfIDDependency(mRawData.get(), &aElement, aOldID, aNewID); } bool ServoStyleSet::MightHaveNthOfClassDependency(const Element& aElement) { return Servo_StyleSet_MightHaveNthOfClassDependency(mRawData.get(), &aElement, &Snapshots()); } void ServoStyleSet::MaybeInvalidateRelativeSelectorIDDependency( const Element& aElement, nsAtom* aOldID, nsAtom* aNewID, const ServoElementSnapshotTable& aSnapshots) { Servo_StyleSet_MaybeInvalidateRelativeSelectorIDDependency( mRawData.get(), &aElement, aOldID, aNewID, &aSnapshots); } void ServoStyleSet::MaybeInvalidateRelativeSelectorClassDependency( const Element& aElement, const ServoElementSnapshotTable& aSnapshots) { Servo_StyleSet_MaybeInvalidateRelativeSelectorClassDependency( mRawData.get(), &aElement, &aSnapshots); } void ServoStyleSet::MaybeInvalidateRelativeSelectorAttributeDependency( const Element& aElement, nsAtom* aAttribute, const ServoElementSnapshotTable& aSnapshots) { Servo_StyleSet_MaybeInvalidateRelativeSelectorAttributeDependency( mRawData.get(), &aElement, aAttribute, &aSnapshots); } void ServoStyleSet::MaybeInvalidateRelativeSelectorStateDependency( const Element& aElement, ElementState aState, const ServoElementSnapshotTable& aSnapshots) { Servo_StyleSet_MaybeInvalidateRelativeSelectorStateDependency( mRawData.get(), &aElement, aState.GetInternalValue(), &aSnapshots); } void ServoStyleSet::MaybeInvalidateRelativeSelectorForEmptyDependency( const Element& aElement) { Servo_StyleSet_MaybeInvalidateRelativeSelectorEmptyDependency(mRawData.get(), &aElement); } void ServoStyleSet::MaybeInvalidateRelativeSelectorForNthEdgeDependency( const Element& aElement) { Servo_StyleSet_MaybeInvalidateRelativeSelectorNthEdgeDependency( mRawData.get(), &aElement); } void ServoStyleSet::MaybeInvalidateRelativeSelectorForNthDependencyFromSibling( const Element* aFromSibling) { if (aFromSibling == nullptr) { return; } Servo_StyleSet_MaybeInvalidateRelativeSelectorNthDependencyFromSibling( mRawData.get(), aFromSibling); } void ServoStyleSet::MaybeInvalidateForElementInsertion( const Element& aElement) { Servo_StyleSet_MaybeInvalidateRelativeSelectorForInsertion(mRawData.get(), &aElement); } void ServoStyleSet::MaybeInvalidateForElementAppend( const nsIContent& aFirstContent) { Servo_StyleSet_MaybeInvalidateRelativeSelectorForAppend(mRawData.get(), &aFirstContent); } void ServoStyleSet::MaybeInvalidateForElementRemove( const Element& aElement, const nsIContent* aFollowingSibling) { Servo_StyleSet_MaybeInvalidateRelativeSelectorForRemoval( mRawData.get(), &aElement, aFollowingSibling); } bool ServoStyleSet::MightHaveNthOfAttributeDependency( const Element& aElement, nsAtom* aAttribute) const { return Servo_StyleSet_MightHaveNthOfAttributeDependency( mRawData.get(), &aElement, aAttribute); } bool ServoStyleSet::HasStateDependency(const Element& aElement, dom::ElementState aState) const { return Servo_StyleSet_HasStateDependency(mRawData.get(), &aElement, aState.GetInternalValue()); } bool ServoStyleSet::HasNthOfStateDependency(const Element& aElement, dom::ElementState aState) const { return Servo_StyleSet_HasNthOfStateDependency(mRawData.get(), &aElement, aState.GetInternalValue()); } void ServoStyleSet::RestyleSiblingsForNthOf(const Element& aElement, uint32_t aFlags) const { Servo_StyleSet_RestyleSiblingsForNthOf(&aElement, aFlags); } bool ServoStyleSet::HasDocumentStateDependency( dom::DocumentState aState) const { return Servo_StyleSet_HasDocumentStateDependency(mRawData.get(), aState.GetInternalValue()); } already_AddRefed ServoStyleSet::ReparentComputedStyle( ComputedStyle* aComputedStyle, ComputedStyle* aNewParent, ComputedStyle* aNewLayoutParent, Element* aElement) { return Servo_ReparentStyle(aComputedStyle, aNewParent, aNewLayoutParent, aElement, mRawData.get()) .Consume(); } void ServoStyleSet::InvalidateForViewportUnits(OnlyDynamic aOnlyDynamic) { dom::Element* root = mDocument->GetRootElement(); if (!root) { return; } Servo_InvalidateForViewportUnits(mRawData.get(), root, aOnlyDynamic == OnlyDynamic::Yes); } void ServoStyleSet::RegisterProperty(const PropertyDefinition& aDefinition, ErrorResult& aRv) { using Result = StyleRegisterCustomPropertyResult; auto result = Servo_RegisterCustomProperty( RawData(), mDocument->DefaultStyleAttrURLData(), &aDefinition.mName, &aDefinition.mSyntax, aDefinition.mInherits, aDefinition.mInitialValue.WasPassed() ? &aDefinition.mInitialValue.Value() : nullptr); switch (result) { case Result::SuccessfullyRegistered: if (Element* root = mDocument->GetRootElement()) { if (nsPresContext* pc = GetPresContext()) { pc->RestyleManager()->PostRestyleEvent( root, RestyleHint::RecascadeSubtree(), nsChangeHint(0)); } } mDocument->PostCustomPropertyRegistered(aDefinition); break; case Result::InvalidName: return aRv.ThrowSyntaxError("Invalid name"); case Result::InvalidSyntax: return aRv.ThrowSyntaxError("Invalid syntax descriptor"); case Result::InvalidInitialValue: return aRv.ThrowSyntaxError("Invalid initial value syntax"); case Result::NoInitialValue: return aRv.ThrowSyntaxError( "Initial value is required when syntax is not universal"); case Result::InitialValueNotComputationallyIndependent: return aRv.ThrowSyntaxError( "Initial value is required when syntax is not universal"); case Result::AlreadyRegistered: return aRv.ThrowInvalidModificationError("Property already registered"); } } NS_IMPL_ISUPPORTS(UACacheReporter, nsIMemoryReporter) MOZ_DEFINE_MALLOC_SIZE_OF(ServoUACacheMallocSizeOf) MOZ_DEFINE_MALLOC_ENCLOSING_SIZE_OF(ServoUACacheMallocEnclosingSizeOf) NS_IMETHODIMP UACacheReporter::CollectReports(nsIHandleReportCallback* aHandleReport, nsISupports* aData, bool aAnonymize) { ServoStyleSetSizes sizes; Servo_UACache_AddSizeOf(ServoUACacheMallocSizeOf, ServoUACacheMallocEnclosingSizeOf, &sizes); #define REPORT(_path, _amount, _desc) \ do { \ size_t __amount = _amount; /* evaluate _amount only once */ \ if (__amount > 0) { \ MOZ_COLLECT_REPORT(_path, KIND_HEAP, UNITS_BYTES, __amount, _desc); \ } \ } while (0) // The UA cache does not contain the rule tree; that's in the StyleSet. MOZ_RELEASE_ASSERT(sizes.mRuleTree == 0); REPORT("explicit/layout/servo-ua-cache/precomputed-pseudos", sizes.mPrecomputedPseudos, "Memory used by precomputed pseudo-element declarations within the " "UA cache."); REPORT("explicit/layout/servo-ua-cache/element-and-pseudos-maps", sizes.mElementAndPseudosMaps, "Memory used by element and pseudos maps within the UA cache."); REPORT("explicit/layout/servo-ua-cache/invalidation-map", sizes.mInvalidationMap, "Memory used by invalidation maps within the UA cache."); REPORT("explicit/layout/servo-ua-cache/revalidation-selectors", sizes.mRevalidationSelectors, "Memory used by selectors for cache revalidation within the UA " "cache."); REPORT("explicit/layout/servo-ua-cache/other", sizes.mOther, "Memory used by other data within the UA cache"); return NS_OK; } } // namespace mozilla