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webkit / WebKit / 0ca788bf563f34bd338e377ca7fc85a2952edf1c / . / Source / WebCore / style / StyleResolver.cpp
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/*
* Copyright (C) 1999 Lars Knoll (knoll@kde.org)
* Copyright (C) 2004-2005 Allan Sandfeld Jensen (kde@carewolf.com)
* Copyright (C) 2006, 2007 Nicholas Shanks (webkit@nickshanks.com)
* Copyright (C) 2005-2019 Apple Inc. All rights reserved.
* Copyright (C) 2007 Alexey Proskuryakov <ap@webkit.org>
* Copyright (C) 2007, 2008 Eric Seidel <eric@webkit.org>
* Copyright (C) 2008, 2009 Torch Mobile Inc. All rights reserved. (http://www.torchmobile.com/)
* Copyright (c) 2011, Code Aurora Forum. All rights reserved.
* Copyright (C) Research In Motion Limited 2011. All rights reserved.
* Copyright (C) 2012, 2013 Google Inc. All rights reserved.
* Copyright (C) 2014 Igalia S.L.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public License
* along with this library; see the file COPYING.LIB. If not, write to
* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
* Boston, MA 02110-1301, USA.
*/
#include "config.h"
#include "StyleResolver.h"
#include "CSSFontSelector.h"
#include "CSSKeyframeRule.h"
#include "CSSKeyframesRule.h"
#include "CSSParser.h"
#include "CSSPrimitiveValueMappings.h"
#include "CSSPropertyNames.h"
#include "CSSSelector.h"
#include "CSSStyleRule.h"
#include "CSSStyleSheet.h"
#include "CachedResourceLoader.h"
#include "CompositeOperation.h"
#include "ElementRuleCollector.h"
#include "Frame.h"
#include "FrameSelection.h"
#include "FrameView.h"
#include "InspectorInstrumentation.h"
#include "KeyframeList.h"
#include "Logging.h"
#include "MediaList.h"
#include "MediaQueryEvaluator.h"
#include "NodeRenderStyle.h"
#include "PageRuleCollector.h"
#include "Pair.h"
#include "RenderScrollbar.h"
#include "RenderStyleConstants.h"
#include "RenderView.h"
#include "RuleSet.h"
#include "RuntimeEnabledFeatures.h"
#include "SVGDocumentExtensions.h"
#include "SVGElement.h"
#include "SVGFontFaceElement.h"
#include "Settings.h"
#include "ShadowPseudoIds.h"
#include "ShadowRoot.h"
#include "SharedStringHash.h"
#include "StyleAdjuster.h"
#include "StyleBuilder.h"
#include "StyleFontSizeFunctions.h"
#include "StyleProperties.h"
#include "StylePropertyShorthand.h"
#include "StyleResolveForDocument.h"
#include "StyleRule.h"
#include "StyleSheetContents.h"
#include "UserAgentStyle.h"
#include "VisitedLinkState.h"
#include "WebKitFontFamilyNames.h"
#include <wtf/IsoMallocInlines.h>
#include <wtf/Seconds.h>
#include <wtf/StdLibExtras.h>
#include <wtf/Vector.h>
#include <wtf/text/AtomStringHash.h>
namespace WebCore {
namespace Style {
using namespace HTMLNames;
WTF_MAKE_ISO_ALLOCATED_IMPL(Resolver);
class Resolver::State {
public:
State() { }
State(const Element& element, const RenderStyle* parentStyle, const RenderStyle* documentElementStyle = nullptr)
: m_element(&element)
, m_parentStyle(parentStyle)
{
bool resetStyleInheritance = hasShadowRootParent(element) && downcast<ShadowRoot>(element.parentNode())->resetStyleInheritance();
if (resetStyleInheritance)
m_parentStyle = nullptr;
auto& document = element.document();
auto* documentElement = document.documentElement();
if (!documentElement || documentElement == &element)
m_rootElementStyle = document.renderStyle();
else
m_rootElementStyle = documentElementStyle ? documentElementStyle : documentElement->renderStyle();
}
const Element* element() const { return m_element; }
void setStyle(std::unique_ptr<RenderStyle> style) { m_style = WTFMove(style); }
RenderStyle* style() const { return m_style.get(); }
std::unique_ptr<RenderStyle> takeStyle() { return WTFMove(m_style); }
void setParentStyle(std::unique_ptr<RenderStyle> parentStyle)
{
m_ownedParentStyle = WTFMove(parentStyle);
m_parentStyle = m_ownedParentStyle.get();
}
const RenderStyle* parentStyle() const { return m_parentStyle; }
const RenderStyle* rootElementStyle() const { return m_rootElementStyle; }
const RenderStyle* userAgentAppearanceStyle() const { return m_userAgentAppearanceStyle.get(); }
void setUserAgentAppearanceStyle(std::unique_ptr<RenderStyle> style) { m_userAgentAppearanceStyle = WTFMove(style); }
private:
const Element* m_element { nullptr };
std::unique_ptr<RenderStyle> m_style;
const RenderStyle* m_parentStyle { nullptr };
std::unique_ptr<const RenderStyle> m_ownedParentStyle;
const RenderStyle* m_rootElementStyle { nullptr };
std::unique_ptr<RenderStyle> m_userAgentAppearanceStyle;
};
Ref<Resolver> Resolver::create(Document& document)
{
return adoptRef(*new Resolver(document));
}
Resolver::Resolver(Document& document)
: m_ruleSets(*this)
, m_document(document)
, m_matchAuthorAndUserStyles(m_document.settings().authorAndUserStylesEnabled())
{
UserAgentStyle::initDefaultStyleSheet();
// construct document root element default style. this is needed
// to evaluate media queries that contain relative constraints, like "screen and (max-width: 10em)"
// This is here instead of constructor, because when constructor is run,
// document doesn't have documentElement
// NOTE: this assumes that element that gets passed to styleForElement -call
// is always from the document that owns the style selector
FrameView* view = m_document.view();
if (view)
m_mediaQueryEvaluator = MediaQueryEvaluator { view->mediaType() };
else
m_mediaQueryEvaluator = MediaQueryEvaluator { };
if (auto* documentElement = m_document.documentElement()) {
m_rootDefaultStyle = styleForElement(*documentElement, { m_document.renderStyle() }, RuleMatchingBehavior::MatchOnlyUserAgentRules).renderStyle;
// Turn off assertion against font lookups during style resolver initialization. We may need root style font for media queries.
m_document.fontSelector().incrementIsComputingRootStyleFont();
m_rootDefaultStyle->fontCascade().update(&m_document.fontSelector());
m_rootDefaultStyle->fontCascade().primaryFont();
m_document.fontSelector().decrementIsComputingRootStyleFont();
}
if (m_rootDefaultStyle && view)
m_mediaQueryEvaluator = MediaQueryEvaluator { view->mediaType(), m_document, m_rootDefaultStyle.get() };
m_ruleSets.resetAuthorStyle();
m_ruleSets.resetUserAgentMediaQueryStyle();
}
void Resolver::addCurrentSVGFontFaceRules()
{
if (m_document.svgExtensions()) {
auto& svgFontFaceElements = m_document.svgExtensions()->svgFontFaceElements();
for (auto& svgFontFaceElement : svgFontFaceElements)
m_document.fontSelector().addFontFaceRule(svgFontFaceElement.fontFaceRule(), svgFontFaceElement.isInUserAgentShadowTree());
}
}
void Resolver::appendAuthorStyleSheets(const Vector<RefPtr<CSSStyleSheet>>& styleSheets)
{
m_ruleSets.appendAuthorStyleSheets(styleSheets, &m_mediaQueryEvaluator, m_inspectorCSSOMWrappers);
if (auto renderView = document().renderView())
renderView->style().fontCascade().update(&document().fontSelector());
}
// This is a simplified style setting function for keyframe styles
void Resolver::addKeyframeStyle(Ref<StyleRuleKeyframes>&& rule)
{
AtomString s(rule->name());
m_keyframesRuleMap.set(s.impl(), WTFMove(rule));
}
Resolver::~Resolver()
{
RELEASE_ASSERT(!m_document.isResolvingTreeStyle());
}
static inline bool isAtShadowBoundary(const Element& element)
{
return is<ShadowRoot>(element.parentNode());
}
BuilderContext Resolver::builderContext(const State& state)
{
return {
m_document,
*state.parentStyle(),
state.rootElementStyle(),
state.element()
};
}
ElementStyle Resolver::styleForElement(const Element& element, const ResolutionContext& context, RuleMatchingBehavior matchingBehavior)
{
auto state = State(element, context.parentStyle, context.documentElementStyle);
if (state.parentStyle()) {
state.setStyle(RenderStyle::createPtr());
state.style()->inheritFrom(*state.parentStyle());
} else {
state.setStyle(defaultStyleForElement(&element));
state.setParentStyle(RenderStyle::clonePtr(*state.style()));
}
auto& style = *state.style();
if (element.isLink()) {
style.setIsLink(true);
InsideLink linkState = document().visitedLinkState().determineLinkState(element);
if (linkState != InsideLink::NotInside) {
bool forceVisited = InspectorInstrumentation::forcePseudoState(element, CSSSelector::PseudoClassVisited);
if (forceVisited)
linkState = InsideLink::InsideVisited;
}
style.setInsideLink(linkState);
}
UserAgentStyle::ensureDefaultStyleSheetsForElement(element);
ElementRuleCollector collector(element, m_ruleSets, context.selectorMatchingState);
collector.setMedium(&m_mediaQueryEvaluator);
if (matchingBehavior == RuleMatchingBehavior::MatchOnlyUserAgentRules)
collector.matchUARules();
else
collector.matchAllRules(m_matchAuthorAndUserStyles, matchingBehavior != RuleMatchingBehavior::MatchAllRulesExcludingSMIL);
if (collector.matchedPseudoElementIds())
style.setHasPseudoStyles(collector.matchedPseudoElementIds());
// This is required for style sharing.
if (collector.didMatchUncommonAttributeSelector())
style.setUnique();
auto elementStyleRelations = commitRelationsToRenderStyle(style, element, collector.styleRelations());
applyMatchedProperties(state, collector.matchResult());
Adjuster adjuster(document(), *state.parentStyle(), context.parentBoxStyle, &element);
adjuster.adjust(*state.style(), state.userAgentAppearanceStyle());
if (state.style()->hasViewportUnits())
document().setHasStyleWithViewportUnits();
return { state.takeStyle(), WTFMove(elementStyleRelations) };
}
std::unique_ptr<RenderStyle> Resolver::styleForKeyframe(const Element& element, const RenderStyle* elementStyle, const ResolutionContext& context, const StyleRuleKeyframe* keyframe, KeyframeValue& keyframeValue)
{
MatchResult result;
result.authorDeclarations.append({ &keyframe->properties(), SelectorChecker::MatchAll, propertyAllowlistForPseudoId(elementStyle->styleType()) });
auto state = State(element, nullptr, context.documentElementStyle);
state.setStyle(RenderStyle::clonePtr(*elementStyle));
state.setParentStyle(RenderStyle::clonePtr(context.parentStyle ? *context.parentStyle : *elementStyle));
Builder builder(*state.style(), builderContext(state), result, CascadeLevel::Author);
builder.applyAllProperties();
Adjuster adjuster(document(), *state.parentStyle(), nullptr, nullptr);
adjuster.adjust(*state.style(), state.userAgentAppearanceStyle());
// Add all the animating properties to the keyframe.
unsigned propertyCount = keyframe->properties().propertyCount();
for (unsigned i = 0; i < propertyCount; ++i) {
CSSPropertyID property = keyframe->properties().propertyAt(i).id();
// The animation-composition and animation-timing-function within keyframes are special
// because they are not animated; they just describe the composite operation and timing
// function between this keyframe and the next.
if (property != CSSPropertyAnimationTimingFunction && property != CSSPropertyAnimationComposition)
keyframeValue.addProperty(property);
}
return state.takeStyle();
}
bool Resolver::isAnimationNameValid(const String& name)
{
return m_keyframesRuleMap.find(AtomString(name).impl()) != m_keyframesRuleMap.end();
}
Vector<Ref<StyleRuleKeyframe>> Resolver::keyframeRulesForName(const AtomString& animationName) const
{
if (animationName.isEmpty())
return { };
m_keyframesRuleMap.checkConsistency();
auto it = m_keyframesRuleMap.find(animationName.impl());
if (it == m_keyframesRuleMap.end())
return { };
auto compositeOperationForKeyframe = [](Ref<StyleRuleKeyframe> keyframe) -> CompositeOperation {
if (auto compositeOperationCSSValue = keyframe->properties().getPropertyCSSValue(CSSPropertyAnimationComposition)) {
if (auto compositeOperation = toCompositeOperation(*compositeOperationCSSValue))
return *compositeOperation;
}
return Animation::initialCompositeOperation();
};
auto timingFunctionForKeyframe = [](Ref<StyleRuleKeyframe> keyframe) -> RefPtr<const TimingFunction> {
if (auto timingFunctionCSSValue = keyframe->properties().getPropertyCSSValue(CSSPropertyAnimationTimingFunction)) {
if (auto timingFunction = TimingFunction::createFromCSSValue(*timingFunctionCSSValue))
return timingFunction;
}
return &CubicBezierTimingFunction::defaultTimingFunction();
};
HashSet<RefPtr<const TimingFunction>> timingFunctions;
auto uniqueTimingFunctionForKeyframe = [&](Ref<StyleRuleKeyframe> keyframe) -> RefPtr<const TimingFunction> {
auto timingFunction = timingFunctionForKeyframe(keyframe);
for (auto existingTimingFunction : timingFunctions) {
if (arePointingToEqualData(timingFunction, existingTimingFunction))
return existingTimingFunction;
}
timingFunctions.add(timingFunction);
return timingFunction;
};
auto* keyframesRule = it->value.get();
auto* keyframes = &keyframesRule->keyframes();
using KeyframeUniqueKey = std::tuple<double, RefPtr<const TimingFunction>, CompositeOperation>;
auto hasDuplicateKeys = [&]() -> bool {
HashSet<KeyframeUniqueKey> uniqueKeyframeKeys;
for (auto& keyframe : *keyframes) {
auto compositeOperation = compositeOperationForKeyframe(keyframe);
auto timingFunction = uniqueTimingFunctionForKeyframe(keyframe);
for (auto key : keyframe->keys()) {
if (!uniqueKeyframeKeys.add({ key, timingFunction, compositeOperation }))
return true;
}
}
return false;
}();
if (!hasDuplicateKeys)
return *keyframes;
// FIXME: If HashMaps could have Ref<> as value types, we wouldn't need
// to copy the HashMap into a Vector.
// Merge keyframes with a similar offset and timing function.
Vector<Ref<StyleRuleKeyframe>> deduplicatedKeyframes;
HashMap<KeyframeUniqueKey, RefPtr<StyleRuleKeyframe>> keyframesMap;
for (auto& originalKeyframe : *keyframes) {
auto compositeOperation = compositeOperationForKeyframe(originalKeyframe);
auto timingFunction = uniqueTimingFunctionForKeyframe(originalKeyframe);
for (auto key : originalKeyframe->keys()) {
KeyframeUniqueKey uniqueKey { key, timingFunction, compositeOperation };
if (auto keyframe = keyframesMap.get(uniqueKey))
keyframe->mutableProperties().mergeAndOverrideOnConflict(originalKeyframe->properties());
else {
auto styleRuleKeyframe = StyleRuleKeyframe::create(MutableStyleProperties::create());
styleRuleKeyframe.ptr()->setKey(key);
styleRuleKeyframe.ptr()->mutableProperties().mergeAndOverrideOnConflict(originalKeyframe->properties());
keyframesMap.set(uniqueKey, styleRuleKeyframe.ptr());
deduplicatedKeyframes.append(styleRuleKeyframe);
}
}
}
return deduplicatedKeyframes;
}
void Resolver::keyframeStylesForAnimation(const Element& element, const RenderStyle* elementStyle, const ResolutionContext& context, KeyframeList& list)
{
list.clear();
auto keyframeRules = keyframeRulesForName(list.animationName());
if (keyframeRules.isEmpty())
return;
// Construct and populate the style for each keyframe.
for (auto& keyframeRule : keyframeRules) {
// Add this keyframe style to all the indicated key times
for (auto key : keyframeRule->keys()) {
KeyframeValue keyframeValue(0, nullptr);
keyframeValue.setStyle(styleForKeyframe(element, elementStyle, context, keyframeRule.ptr(), keyframeValue));
keyframeValue.setKey(key);
if (auto timingFunctionCSSValue = keyframeRule->properties().getPropertyCSSValue(CSSPropertyAnimationTimingFunction))
keyframeValue.setTimingFunction(TimingFunction::createFromCSSValue(*timingFunctionCSSValue.get()));
if (auto compositeOperationCSSValue = keyframeRule->properties().getPropertyCSSValue(CSSPropertyAnimationComposition)) {
if (auto compositeOperation = toCompositeOperation(*compositeOperationCSSValue))
keyframeValue.setCompositeOperation(*compositeOperation);
}
list.insert(WTFMove(keyframeValue));
}
}
}
std::unique_ptr<RenderStyle> Resolver::pseudoStyleForElement(const Element& element, const PseudoElementRequest& pseudoElementRequest, const ResolutionContext& context)
{
auto state = State(element, context.parentStyle, context.documentElementStyle);
if (state.parentStyle()) {
state.setStyle(RenderStyle::createPtr());
state.style()->inheritFrom(*state.parentStyle());
} else {
state.setStyle(defaultStyleForElement(&element));
state.setParentStyle(RenderStyle::clonePtr(*state.style()));
}
ElementRuleCollector collector(element, m_ruleSets, context.selectorMatchingState);
collector.setPseudoElementRequest(pseudoElementRequest);
collector.setMedium(&m_mediaQueryEvaluator);
collector.matchUARules();
if (m_matchAuthorAndUserStyles) {
collector.matchUserRules();
collector.matchAuthorRules();
}
ASSERT(!collector.matchedPseudoElementIds());
if (collector.matchResult().isEmpty())
return nullptr;
state.style()->setStyleType(pseudoElementRequest.pseudoId);
applyMatchedProperties(state, collector.matchResult());
Adjuster adjuster(document(), *state.parentStyle(), context.parentBoxStyle, nullptr);
adjuster.adjust(*state.style(), state.userAgentAppearanceStyle());
if (state.style()->hasViewportUnits())
document().setHasStyleWithViewportUnits();
return state.takeStyle();
}
std::unique_ptr<RenderStyle> Resolver::styleForPage(int pageIndex)
{
auto* documentElement = m_document.documentElement();
if (!documentElement)
return RenderStyle::createPtr();
auto state = State(*documentElement, m_document.renderStyle());
state.setStyle(RenderStyle::createPtr());
state.style()->inheritFrom(*state.rootElementStyle());
PageRuleCollector collector(m_ruleSets, state.rootElementStyle()->direction());
collector.matchAllPageRules(pageIndex);
auto& result = collector.matchResult();
Builder builder(*state.style(), builderContext(state), result, CascadeLevel::Author);
builder.applyAllProperties();
// Now return the style.
return state.takeStyle();
}
std::unique_ptr<RenderStyle> Resolver::defaultStyleForElement(const Element* element)
{
auto style = RenderStyle::createPtr();
FontCascadeDescription fontDescription;
fontDescription.setRenderingMode(settings().fontRenderingMode());
fontDescription.setOneFamily(standardFamily);
fontDescription.setKeywordSizeFromIdentifier(CSSValueMedium);
auto size = fontSizeForKeyword(CSSValueMedium, false, document());
fontDescription.setSpecifiedSize(size);
fontDescription.setComputedSize(computedFontSizeFromSpecifiedSize(size, fontDescription.isAbsoluteSize(), is<SVGElement>(element), style.get(), document()));
fontDescription.setShouldAllowUserInstalledFonts(settings().shouldAllowUserInstalledFonts() ? AllowUserInstalledFonts::Yes : AllowUserInstalledFonts::No);
style->setFontDescription(WTFMove(fontDescription));
style->fontCascade().update(&document().fontSelector());
return style;
}
Vector<RefPtr<const StyleRule>> Resolver::styleRulesForElement(const Element* element, unsigned rulesToInclude)
{
return pseudoStyleRulesForElement(element, PseudoId::None, rulesToInclude);
}
Vector<RefPtr<const StyleRule>> Resolver::pseudoStyleRulesForElement(const Element* element, PseudoId pseudoId, unsigned rulesToInclude)
{
if (!element)
return { };
auto state = State(*element, nullptr);
ElementRuleCollector collector(*element, m_ruleSets, nullptr);
collector.setMode(SelectorChecker::Mode::CollectingRules);
collector.setPseudoElementRequest({ pseudoId });
collector.setMedium(&m_mediaQueryEvaluator);
collector.setIncludeEmptyRules(rulesToInclude & EmptyCSSRules);
if (rulesToInclude & UAAndUserCSSRules) {
// First we match rules from the user agent sheet.
collector.matchUARules();
// Now we check user sheet rules.
if (m_matchAuthorAndUserStyles)
collector.matchUserRules();
}
if (m_matchAuthorAndUserStyles && (rulesToInclude & AuthorCSSRules))
collector.matchAuthorRules();
return collector.matchedRuleList();
}
static bool elementTypeHasAppearanceFromUAStyle(const Element& element)
{
// NOTE: This is just a hard-coded list of elements that have some -webkit-appearance value in html.css
const auto& localName = element.localName();
return localName == HTMLNames::inputTag
|| localName == HTMLNames::textareaTag
|| localName == HTMLNames::buttonTag
|| localName == HTMLNames::progressTag
|| localName == HTMLNames::selectTag
|| localName == HTMLNames::meterTag
|| (element.isInUserAgentShadowTree() && element.shadowPseudoId() == ShadowPseudoIds::webkitListButton());
}
void Resolver::invalidateMatchedDeclarationsCache()
{
m_matchedDeclarationsCache.invalidate();
}
void Resolver::clearCachedDeclarationsAffectedByViewportUnits()
{
m_matchedDeclarationsCache.clearEntriesAffectedByViewportUnits();
}
void Resolver::applyMatchedProperties(State& state, const MatchResult& matchResult, UseMatchedDeclarationsCache useMatchedDeclarationsCache)
{
unsigned cacheHash = useMatchedDeclarationsCache == UseMatchedDeclarationsCache::Yes ? MatchedDeclarationsCache::computeHash(matchResult) : 0;
auto includedProperties = PropertyCascade::IncludedProperties::All;
auto& style = *state.style();
auto& parentStyle = *state.parentStyle();
auto& element = *state.element();
auto* cacheEntry = m_matchedDeclarationsCache.find(cacheHash, matchResult);
if (cacheEntry && MatchedDeclarationsCache::isCacheable(element, style, parentStyle)) {
// We can build up the style by copying non-inherited properties from an earlier style object built using the same exact
// style declarations. We then only need to apply the inherited properties, if any, as their values can depend on the
// element context. This is fast and saves memory by reusing the style data structures.
style.copyNonInheritedFrom(*cacheEntry->renderStyle);
if (parentStyle.inheritedEqual(*cacheEntry->parentRenderStyle) && !isAtShadowBoundary(element)) {
InsideLink linkStatus = state.style()->insideLink();
// If the cache item parent style has identical inherited properties to the current parent style then the
// resulting style will be identical too. We copy the inherited properties over from the cache and are done.
style.inheritFrom(*cacheEntry->renderStyle);
// Unfortunately the link status is treated like an inherited property. We need to explicitly restore it.
style.setInsideLink(linkStatus);
return;
}
includedProperties = PropertyCascade::IncludedProperties::InheritedOnly;
}
if (elementTypeHasAppearanceFromUAStyle(element)) {
// Find out if there's a -webkit-appearance property in effect from the UA sheet.
// If so, we cache the border and background styles so that RenderTheme::adjustStyle()
// can look at them later to figure out if this is a styled form control or not.
auto userAgentStyle = RenderStyle::clonePtr(style);
Builder builder(*userAgentStyle, builderContext(state), matchResult, CascadeLevel::UserAgent);
builder.applyAllProperties();
state.setUserAgentAppearanceStyle(WTFMove(userAgentStyle));
}
Builder builder(*state.style(), builderContext(state), matchResult, CascadeLevel::Author, includedProperties);
// High priority properties may affect resolution of other properties (they are mostly font related).
builder.applyHighPriorityProperties();
if (cacheEntry && !cacheEntry->isUsableAfterHighPriorityProperties(style)) {
// We need to resolve all properties without caching.
applyMatchedProperties(state, matchResult, UseMatchedDeclarationsCache::No);
return;
}
builder.applyLowPriorityProperties();
for (auto& contentAttribute : builder.state().registeredContentAttributes())
ruleSets().mutableFeatures().registerContentAttribute(contentAttribute);
if (cacheEntry || !cacheHash)
return;
if (MatchedDeclarationsCache::isCacheable(element, style, parentStyle))
m_matchedDeclarationsCache.add(style, parentStyle, cacheHash, matchResult);
}
bool Resolver::hasViewportDependentMediaQueries() const
{
return m_ruleSets.hasViewportDependentMediaQueries();
}
std::optional<DynamicMediaQueryEvaluationChanges> Resolver::evaluateDynamicMediaQueries()
{
return m_ruleSets.evaluateDynamicMediaQueryRules(m_mediaQueryEvaluator);
}
} // namespace Style
} // namespace WebCore