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/*
* Copyright (C) 1999 Lars Knoll (knoll@kde.org)
* (C) 2004-2005 Allan Sandfeld Jensen (kde@carewolf.com)
* Copyright (C) 2006, 2007 Nicholas Shanks (webkit@nickshanks.com)
* Copyright (C) 2005-2018 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 Google Inc. All rights reserved.
*
* 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 "ElementRuleCollector.h"
#include "CSSRuleList.h"
#include "CSSSelector.h"
#include "CSSValueKeywords.h"
#include "HTMLElement.h"
#include "HTMLSlotElement.h"
#include "SVGElement.h"
#include "SelectorCompiler.h"
#include "SelectorFilter.h"
#include "ShadowRoot.h"
#include "StyleProperties.h"
#include "StyleResolver.h"
#include "StyleScope.h"
#include "StyleScopeRuleSets.h"
#include "StyledElement.h"
#include "UserAgentStyle.h"
#include <wtf/SetForScope.h>
namespace WebCore {
namespace Style {
static const StyleProperties& leftToRightDeclaration()
{
static auto& declaration = [] () -> const StyleProperties& {
auto properties = MutableStyleProperties::create();
properties->setProperty(CSSPropertyDirection, CSSValueLtr);
return properties.leakRef();
}();
return declaration;
}
static const StyleProperties& rightToLeftDeclaration()
{
static auto& declaration = [] () -> const StyleProperties& {
auto properties = MutableStyleProperties::create();
properties->setProperty(CSSPropertyDirection, CSSValueRtl);
return properties.leakRef();
}();
return declaration;
}
class MatchRequest {
public:
MatchRequest(const RuleSet* ruleSet, ScopeOrdinal styleScopeOrdinal = ScopeOrdinal::Element)
: ruleSet(ruleSet)
, styleScopeOrdinal(styleScopeOrdinal)
{
}
const RuleSet* ruleSet;
ScopeOrdinal styleScopeOrdinal;
};
ElementRuleCollector::ElementRuleCollector(const Element& element, const ScopeRuleSets& ruleSets, const SelectorFilter* selectorFilter)
: m_element(element)
, m_authorStyle(ruleSets.authorStyle())
, m_userStyle(ruleSets.userStyle())
, m_userAgentMediaQueryStyle(ruleSets.userAgentMediaQueryStyle())
, m_selectorFilter(selectorFilter)
{
ASSERT(!m_selectorFilter || m_selectorFilter->parentStackIsConsistent(element.parentNode()));
}
ElementRuleCollector::ElementRuleCollector(const Element& element, const RuleSet& authorStyle, const SelectorFilter* selectorFilter)
: m_element(element)
, m_authorStyle(authorStyle)
, m_selectorFilter(selectorFilter)
{
ASSERT(!m_selectorFilter || m_selectorFilter->parentStackIsConsistent(element.parentNode()));
}
const MatchResult& ElementRuleCollector::matchResult() const
{
ASSERT(m_mode == SelectorChecker::Mode::ResolvingStyle);
return m_result;
}
const Vector<RefPtr<StyleRule>>& ElementRuleCollector::matchedRuleList() const
{
ASSERT(m_mode == SelectorChecker::Mode::CollectingRules);
return m_matchedRuleList;
}
inline void ElementRuleCollector::addMatchedRule(const RuleData& ruleData, unsigned specificity, ScopeOrdinal styleScopeOrdinal)
{
m_matchedRules.append({ &ruleData, specificity, styleScopeOrdinal });
}
void ElementRuleCollector::clearMatchedRules()
{
m_matchedRules.clear();
m_keepAliveSlottedPseudoElementRules.clear();
m_matchedRuleTransferIndex = 0;
}
inline void ElementRuleCollector::addElementStyleProperties(const StyleProperties* propertySet, bool isCacheable)
{
if (!propertySet || propertySet->isEmpty())
return;
if (!isCacheable)
m_result.isCacheable = false;
addMatchedProperties({ propertySet }, DeclarationOrigin::Author);
}
void ElementRuleCollector::collectMatchingRules(const MatchRequest& matchRequest)
{
ASSERT(matchRequest.ruleSet);
ASSERT_WITH_MESSAGE(!(m_mode == SelectorChecker::Mode::CollectingRulesIgnoringVirtualPseudoElements && m_pseudoElementRequest.pseudoId != PseudoId::None), "When in StyleInvalidation or SharingRules, SelectorChecker does not try to match the pseudo ID. While ElementRuleCollector supports matching a particular pseudoId in this case, this would indicate a error at the call site since matching a particular element should be unnecessary.");
auto* shadowRoot = element().containingShadowRoot();
if (shadowRoot && shadowRoot->mode() == ShadowRootMode::UserAgent)
collectMatchingShadowPseudoElementRules(matchRequest);
// We need to collect the rules for id, class, tag, and everything else into a buffer and
// then sort the buffer.
auto& id = element().idForStyleResolution();
if (!id.isNull())
collectMatchingRulesForList(matchRequest.ruleSet->idRules(id), matchRequest);
if (element().hasClass()) {
for (size_t i = 0; i < element().classNames().size(); ++i)
collectMatchingRulesForList(matchRequest.ruleSet->classRules(element().classNames()[i]), matchRequest);
}
if (element().isLink())
collectMatchingRulesForList(matchRequest.ruleSet->linkPseudoClassRules(), matchRequest);
if (SelectorChecker::matchesFocusPseudoClass(element()))
collectMatchingRulesForList(matchRequest.ruleSet->focusPseudoClassRules(), matchRequest);
collectMatchingRulesForList(matchRequest.ruleSet->tagRules(element().localName(), element().isHTMLElement() && element().document().isHTMLDocument()), matchRequest);
collectMatchingRulesForList(matchRequest.ruleSet->universalRules(), matchRequest);
}
Vector<MatchedProperties>& ElementRuleCollector::declarationsForOrigin(MatchResult& matchResult, DeclarationOrigin declarationOrigin)
{
switch (declarationOrigin) {
case DeclarationOrigin::UserAgent: return matchResult.userAgentDeclarations;
case DeclarationOrigin::User: return matchResult.userDeclarations;
case DeclarationOrigin::Author: return matchResult.authorDeclarations;
}
ASSERT_NOT_REACHED();
return matchResult.authorDeclarations;
}
void ElementRuleCollector::sortAndTransferMatchedRules(DeclarationOrigin declarationOrigin)
{
if (m_matchedRules.isEmpty())
return;
sortMatchedRules();
transferMatchedRules(declarationOrigin);
}
void ElementRuleCollector::transferMatchedRules(DeclarationOrigin declarationOrigin, Optional<ScopeOrdinal> fromScope)
{
if (m_mode != SelectorChecker::Mode::CollectingRules)
declarationsForOrigin(m_result, declarationOrigin).reserveCapacity(m_matchedRules.size());
for (; m_matchedRuleTransferIndex < m_matchedRules.size(); ++m_matchedRuleTransferIndex) {
auto& matchedRule = m_matchedRules[m_matchedRuleTransferIndex];
if (fromScope && matchedRule.styleScopeOrdinal < *fromScope)
break;
if (m_mode == SelectorChecker::Mode::CollectingRules) {
m_matchedRuleList.append(matchedRule.ruleData->rule());
continue;
}
addMatchedProperties({
&matchedRule.ruleData->rule()->properties(),
static_cast<uint16_t>(matchedRule.ruleData->linkMatchType()),
static_cast<uint16_t>(matchedRule.ruleData->propertyWhitelistType()),
matchedRule.styleScopeOrdinal
}, declarationOrigin);
}
}
void ElementRuleCollector::matchAuthorRules()
{
clearMatchedRules();
collectMatchingAuthorRules();
sortAndTransferMatchedRules(DeclarationOrigin::Author);
}
bool ElementRuleCollector::matchesAnyAuthorRules()
{
clearMatchedRules();
// FIXME: This should bail out on first match.
collectMatchingAuthorRules();
return !m_matchedRules.isEmpty();
}
void ElementRuleCollector::collectMatchingAuthorRules()
{
{
MatchRequest matchRequest(&m_authorStyle);
collectMatchingRules(matchRequest);
}
auto* parent = element().parentElement();
if (parent && parent->shadowRoot())
matchSlottedPseudoElementRules();
if (element().shadowRoot())
matchHostPseudoClassRules();
if (element().isInShadowTree()) {
matchAuthorShadowPseudoElementRules();
matchPartPseudoElementRules();
}
}
void ElementRuleCollector::matchAuthorShadowPseudoElementRules()
{
ASSERT(element().isInShadowTree());
auto& shadowRoot = *element().containingShadowRoot();
if (shadowRoot.mode() != ShadowRootMode::UserAgent)
return;
// Look up shadow pseudo elements also from the host scope author style as they are web-exposed.
auto& hostAuthorRules = Scope::forNode(*shadowRoot.host()).resolver().ruleSets().authorStyle();
MatchRequest hostAuthorRequest { &hostAuthorRules, ScopeOrdinal::ContainingHost };
collectMatchingShadowPseudoElementRules(hostAuthorRequest);
}
void ElementRuleCollector::matchHostPseudoClassRules()
{
ASSERT(element().shadowRoot());
auto& shadowAuthorStyle = element().shadowRoot()->styleScope().resolver().ruleSets().authorStyle();
auto& shadowHostRules = shadowAuthorStyle.hostPseudoClassRules();
if (shadowHostRules.isEmpty())
return;
SetForScope<bool> change(m_isMatchingHostPseudoClass, true);
MatchRequest hostMatchRequest { nullptr, ScopeOrdinal::Shadow };
collectMatchingRulesForList(&shadowHostRules, hostMatchRequest);
}
void ElementRuleCollector::matchSlottedPseudoElementRules()
{
auto* slot = element().assignedSlot();
auto styleScopeOrdinal = ScopeOrdinal::FirstSlot;
for (; slot; slot = slot->assignedSlot(), ++styleScopeOrdinal) {
auto& styleScope = Scope::forNode(*slot);
if (!styleScope.resolver().ruleSets().isAuthorStyleDefined())
continue;
// Find out if there are any ::slotted rules in the shadow tree matching the current slot.
// FIXME: This is really part of the slot style and could be cached when resolving it.
ElementRuleCollector collector(*slot, styleScope.resolver().ruleSets().authorStyle(), nullptr);
auto slottedPseudoElementRules = collector.collectSlottedPseudoElementRulesForSlot();
if (!slottedPseudoElementRules)
continue;
// Match in the current scope.
SetForScope<bool> change(m_isMatchingSlottedPseudoElements, true);
MatchRequest scopeMatchRequest(nullptr, styleScopeOrdinal);
collectMatchingRulesForList(slottedPseudoElementRules.get(), scopeMatchRequest);
m_keepAliveSlottedPseudoElementRules.append(WTFMove(slottedPseudoElementRules));
}
}
void ElementRuleCollector::matchPartPseudoElementRules()
{
ASSERT(element().isInShadowTree());
bool isUAShadowPseudoElement = element().containingShadowRoot()->mode() == ShadowRootMode::UserAgent && !element().shadowPseudoId().isNull();
auto& partMatchingElement = isUAShadowPseudoElement ? *element().shadowHost() : element();
if (partMatchingElement.partNames().isEmpty() || !partMatchingElement.isInShadowTree())
return;
matchPartPseudoElementRulesForScope(*partMatchingElement.containingShadowRoot());
}
void ElementRuleCollector::matchPartPseudoElementRulesForScope(const ShadowRoot& scopeShadowRoot)
{
auto& shadowHost = *scopeShadowRoot.host();
{
SetForScope<RefPtr<const Element>> partMatchingScope(m_shadowHostInPartRuleScope, &shadowHost);
auto& hostAuthorRules = Scope::forNode(shadowHost).resolver().ruleSets().authorStyle();
MatchRequest hostAuthorRequest { &hostAuthorRules, ScopeOrdinal::ContainingHost };
collectMatchingRulesForList(&hostAuthorRules.partPseudoElementRules(), hostAuthorRequest);
}
// Element may be exposed to styling from enclosing scopes via exportparts attributes.
if (scopeShadowRoot.partMappings().isEmpty())
return;
if (auto* parentScopeShadowRoot = shadowHost.containingShadowRoot())
matchPartPseudoElementRulesForScope(*parentScopeShadowRoot);
}
void ElementRuleCollector::collectMatchingShadowPseudoElementRules(const MatchRequest& matchRequest)
{
ASSERT(matchRequest.ruleSet);
ASSERT(element().containingShadowRoot()->mode() == ShadowRootMode::UserAgent);
auto& rules = *matchRequest.ruleSet;
#if ENABLE(VIDEO_TRACK)
// FXIME: WebVTT should not be done by styling UA shadow trees like this.
if (element().isWebVTTElement())
collectMatchingRulesForList(rules.cuePseudoRules(), matchRequest);
#endif
auto& pseudoId = element().shadowPseudoId();
if (!pseudoId.isEmpty())
collectMatchingRulesForList(rules.shadowPseudoElementRules(pseudoId), matchRequest);
}
std::unique_ptr<RuleSet::RuleDataVector> ElementRuleCollector::collectSlottedPseudoElementRulesForSlot()
{
ASSERT(is<HTMLSlotElement>(element()));
clearMatchedRules();
m_mode = SelectorChecker::Mode::CollectingRules;
// Match global author rules.
MatchRequest matchRequest(&m_authorStyle);
collectMatchingRulesForList(&m_authorStyle.slottedPseudoElementRules(), matchRequest);
if (m_matchedRules.isEmpty())
return { };
auto ruleDataVector = makeUnique<RuleSet::RuleDataVector>();
ruleDataVector->reserveInitialCapacity(m_matchedRules.size());
for (auto& matchedRule : m_matchedRules)
ruleDataVector->uncheckedAppend(*matchedRule.ruleData);
return ruleDataVector;
}
void ElementRuleCollector::matchUserRules()
{
if (!m_userStyle)
return;
clearMatchedRules();
MatchRequest matchRequest(m_userStyle);
collectMatchingRules(matchRequest);
sortAndTransferMatchedRules(DeclarationOrigin::User);
}
void ElementRuleCollector::matchUARules()
{
// First we match rules from the user agent sheet.
if (UserAgentStyle::simpleDefaultStyleSheet)
m_result.isCacheable = false;
auto* userAgentStyleSheet = m_isPrintStyle
? UserAgentStyle::defaultPrintStyle : UserAgentStyle::defaultStyle;
matchUARules(*userAgentStyleSheet);
// In quirks mode, we match rules from the quirks user agent sheet.
if (element().document().inQuirksMode())
matchUARules(*UserAgentStyle::defaultQuirksStyle);
if (m_userAgentMediaQueryStyle)
matchUARules(*m_userAgentMediaQueryStyle);
}
void ElementRuleCollector::matchUARules(const RuleSet& rules)
{
clearMatchedRules();
collectMatchingRules(MatchRequest(&rules));
sortAndTransferMatchedRules(DeclarationOrigin::UserAgent);
}
static const CSSSelector* findSlottedPseudoElementSelector(const CSSSelector* selector)
{
for (; selector; selector = selector->tagHistory()) {
if (selector->match() == CSSSelector::PseudoElement && selector->pseudoElementType() == CSSSelector::PseudoElementSlotted) {
if (auto* list = selector->selectorList())
return list->first();
break;
}
};
return nullptr;
}
inline bool ElementRuleCollector::ruleMatches(const RuleData& ruleData, unsigned& specificity)
{
// We know a sufficiently simple single part selector matches simply because we found it from the rule hash when filtering the RuleSet.
// This is limited to HTML only so we don't need to check the namespace (because of tag name match).
auto matchBasedOnRuleHash = ruleData.matchBasedOnRuleHash();
if (matchBasedOnRuleHash != MatchBasedOnRuleHash::None && element().isHTMLElement()) {
ASSERT_WITH_MESSAGE(m_pseudoElementRequest.pseudoId == PseudoId::None, "If we match based on the rule hash while collecting for a particular pseudo element ID, we would add incorrect rules for that pseudo element ID. We should never end in ruleMatches() with a pseudo element if the ruleData cannot match any pseudo element.");
switch (matchBasedOnRuleHash) {
case MatchBasedOnRuleHash::None:
ASSERT_NOT_REACHED();
break;
case MatchBasedOnRuleHash::Universal:
specificity = 0;
break;
case MatchBasedOnRuleHash::ClassA:
specificity = static_cast<unsigned>(SelectorSpecificityIncrement::ClassA);
break;
case MatchBasedOnRuleHash::ClassB:
specificity = static_cast<unsigned>(SelectorSpecificityIncrement::ClassB);
break;
case MatchBasedOnRuleHash::ClassC:
specificity = static_cast<unsigned>(SelectorSpecificityIncrement::ClassC);
break;
}
return true;
}
#if ENABLE(CSS_SELECTOR_JIT)
auto& compiledSelector = ruleData.rule()->compiledSelectorForListIndex(ruleData.selectorListIndex());
void* compiledSelectorChecker = compiledSelector.codeRef.code().executableAddress();
if (!compiledSelectorChecker && compiledSelector.status == SelectorCompilationStatus::NotCompiled) {
compiledSelector.status = SelectorCompiler::compileSelector(ruleData.selector(), SelectorCompiler::SelectorContext::RuleCollector, compiledSelector.codeRef);
compiledSelectorChecker = compiledSelector.codeRef.code().executableAddress();
}
if (compiledSelectorChecker && compiledSelector.status == SelectorCompilationStatus::SimpleSelectorChecker) {
auto selectorChecker = SelectorCompiler::ruleCollectorSimpleSelectorCheckerFunction(compiledSelectorChecker, compiledSelector.status);
#if !ASSERT_MSG_DISABLED
unsigned ignoreSpecificity;
ASSERT_WITH_MESSAGE(!selectorChecker(&element(), &ignoreSpecificity) || m_pseudoElementRequest.pseudoId == PseudoId::None, "When matching pseudo elements, we should never compile a selector checker without context unless it cannot match anything.");
#endif
#if CSS_SELECTOR_JIT_PROFILING
ruleData.compiledSelectorUsed();
#endif
bool selectorMatches = selectorChecker(&element(), &specificity);
if (selectorMatches && ruleData.containsUncommonAttributeSelector())
m_didMatchUncommonAttributeSelector = true;
return selectorMatches;
}
#endif // ENABLE(CSS_SELECTOR_JIT)
SelectorChecker::CheckingContext context(m_mode);
context.pseudoId = m_pseudoElementRequest.pseudoId;
context.scrollbarState = m_pseudoElementRequest.scrollbarState;
context.nameForHightlightPseudoElement = m_pseudoElementRequest.highlightName;
context.isMatchingHostPseudoClass = m_isMatchingHostPseudoClass;
context.shadowHostInPartRuleScope = m_shadowHostInPartRuleScope.get();
bool selectorMatches;
#if ENABLE(CSS_SELECTOR_JIT)
if (compiledSelectorChecker) {
ASSERT(compiledSelector.status == SelectorCompilationStatus::SelectorCheckerWithCheckingContext);
auto selectorChecker = SelectorCompiler::ruleCollectorSelectorCheckerFunctionWithCheckingContext(compiledSelectorChecker, compiledSelector.status);
#if CSS_SELECTOR_JIT_PROFILING
compiledSelector.useCount++;
#endif
selectorMatches = selectorChecker(&element(), &context, &specificity);
} else
#endif // ENABLE(CSS_SELECTOR_JIT)
{
auto* selector = ruleData.selector();
if (m_isMatchingSlottedPseudoElements) {
selector = findSlottedPseudoElementSelector(ruleData.selector());
if (!selector)
return false;
}
// Slow path.
SelectorChecker selectorChecker(element().document());
selectorMatches = selectorChecker.match(*selector, element(), context, specificity);
}
if (ruleData.containsUncommonAttributeSelector()) {
if (selectorMatches || context.pseudoIDSet)
m_didMatchUncommonAttributeSelector = true;
}
m_matchedPseudoElementIds.merge(context.pseudoIDSet);
m_styleRelations.appendVector(context.styleRelations);
return selectorMatches;
}
void ElementRuleCollector::collectMatchingRulesForList(const RuleSet::RuleDataVector* rules, const MatchRequest& matchRequest)
{
if (!rules)
return;
for (unsigned i = 0, size = rules->size(); i < size; ++i) {
const auto& ruleData = rules->data()[i];
if (!ruleData.canMatchPseudoElement() && m_pseudoElementRequest.pseudoId != PseudoId::None)
continue;
if (m_selectorFilter && m_selectorFilter->fastRejectSelector(ruleData.descendantSelectorIdentifierHashes()))
continue;
StyleRule* rule = ruleData.rule();
// If the rule has no properties to apply, then ignore it in the non-debug mode.
// Note that if we get null back here, it means we have a rule with deferred properties,
// and that means we always have to consider it.
const StyleProperties* properties = rule->propertiesWithoutDeferredParsing();
if (properties && properties->isEmpty() && !m_shouldIncludeEmptyRules)
continue;
unsigned specificity;
if (ruleMatches(ruleData, specificity))
addMatchedRule(ruleData, specificity, matchRequest.styleScopeOrdinal);
}
}
static inline bool compareRules(MatchedRule r1, MatchedRule r2)
{
// For normal properties the earlier scope wins. This may be reversed by !important which is handled when resolving cascade.
if (r1.styleScopeOrdinal != r2.styleScopeOrdinal)
return r1.styleScopeOrdinal > r2.styleScopeOrdinal;
if (r1.specificity != r2.specificity)
return r1.specificity < r2.specificity;
return r1.ruleData->position() < r2.ruleData->position();
}
void ElementRuleCollector::sortMatchedRules()
{
std::sort(m_matchedRules.begin(), m_matchedRules.end(), compareRules);
}
void ElementRuleCollector::matchAllRules(bool matchAuthorAndUserStyles, bool includeSMILProperties)
{
matchUARules();
// Now we check user sheet rules.
if (matchAuthorAndUserStyles)
matchUserRules();
// Now check author rules, beginning first with presentational attributes mapped from HTML.
if (is<StyledElement>(element())) {
auto& styledElement = downcast<StyledElement>(element());
addElementStyleProperties(styledElement.presentationAttributeStyle());
// Now we check additional mapped declarations.
// Tables and table cells share an additional mapped rule that must be applied
// after all attributes, since their mapped style depends on the values of multiple attributes.
addElementStyleProperties(styledElement.additionalPresentationAttributeStyle());
if (is<HTMLElement>(styledElement)) {
bool isAuto;
auto textDirection = downcast<HTMLElement>(styledElement).directionalityIfhasDirAutoAttribute(isAuto);
auto& properties = textDirection == TextDirection::LTR ? leftToRightDeclaration() : rightToLeftDeclaration();
if (isAuto)
addMatchedProperties({ &properties }, DeclarationOrigin::Author);
}
}
if (matchAuthorAndUserStyles) {
clearMatchedRules();
collectMatchingAuthorRules();
sortMatchedRules();
transferMatchedRules(DeclarationOrigin::Author, ScopeOrdinal::Element);
// Inline style behaves as if it has higher specificity than any rule.
addElementInlineStyleProperties(includeSMILProperties);
// Rules from the host scope override inline style.
transferMatchedRules(DeclarationOrigin::Author, ScopeOrdinal::ContainingHost);
}
}
void ElementRuleCollector::addElementInlineStyleProperties(bool includeSMILProperties)
{
if (!is<StyledElement>(element()))
return;
if (auto* inlineStyle = downcast<StyledElement>(element()).inlineStyle()) {
// FIXME: Media control shadow trees seem to have problems with caching.
bool isInlineStyleCacheable = !inlineStyle->isMutable() && !element().isInShadowTree();
addElementStyleProperties(inlineStyle, isInlineStyleCacheable);
}
if (includeSMILProperties && is<SVGElement>(element()))
addElementStyleProperties(downcast<SVGElement>(element()).animatedSMILStyleProperties(), false /* isCacheable */);
}
bool ElementRuleCollector::hasAnyMatchingRules(const RuleSet* ruleSet)
{
clearMatchedRules();
m_mode = SelectorChecker::Mode::CollectingRulesIgnoringVirtualPseudoElements;
collectMatchingRules(MatchRequest(ruleSet));
return !m_matchedRules.isEmpty();
}
void ElementRuleCollector::addMatchedProperties(MatchedProperties&& matchedProperties, DeclarationOrigin declarationOrigin)
{
// FIXME: This should be moved to the matched properties cache code.
auto computeIsCacheable = [&] {
if (!m_result.isCacheable)
return false;
if (matchedProperties.styleScopeOrdinal != ScopeOrdinal::Element)
return false;
auto& properties = *matchedProperties.properties;
for (unsigned i = 0, count = properties.propertyCount(); i < count; ++i) {
// Currently the property cache only copy the non-inherited values and resolve
// the inherited ones.
// Here we define some exception were we have to resolve some properties that are not inherited
// by default. If those exceptions become too common on the web, it should be possible
// to build a list of exception to resolve instead of completely disabling the cache.
StyleProperties::PropertyReference current = properties.propertyAt(i);
if (current.isInherited())
continue;
// If the property value is explicitly inherited, we need to apply further non-inherited properties
// as they might override the value inherited here. For this reason we don't allow declarations with
// explicitly inherited properties to be cached.
const CSSValue& value = *current.value();
if (value.isInheritedValue())
return false;
// The value currentColor has implicitely the same side effect. It depends on the value of color,
// which is an inherited value, making the non-inherited property implicitly inherited.
if (is<CSSPrimitiveValue>(value) && downcast<CSSPrimitiveValue>(value).valueID() == CSSValueCurrentcolor)
return false;
if (value.hasVariableReferences())
return false;
}
return true;
};
m_result.isCacheable = computeIsCacheable();
declarationsForOrigin(m_result, declarationOrigin).append(WTFMove(matchedProperties));
}
}
} // namespace WebCore