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webkit / WebKit / master / . / Source / WebCore / style / RuleFeature.cpp
blob: d915e52bbb58efbc662e250da7f470dc66922780 [file] [log] [blame]
/*
* 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) 2005-2012, 2014 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 "RuleFeature.h"
#include "CSSSelector.h"
#include "CSSSelectorList.h"
#include "RuleSet.h"
namespace WebCore {
namespace Style {
static bool isSiblingOrSubject(MatchElement matchElement)
{
switch (matchElement) {
case MatchElement::Subject:
case MatchElement::IndirectSibling:
case MatchElement::DirectSibling:
case MatchElement::AnySibling:
case MatchElement::HasSibling:
case MatchElement::Host:
return true;
case MatchElement::Parent:
case MatchElement::Ancestor:
case MatchElement::ParentSibling:
case MatchElement::AncestorSibling:
case MatchElement::HasChild:
case MatchElement::HasDescendant:
case MatchElement::HasSiblingDescendant:
case MatchElement::HasNonSubjectOrScopeBreaking:
return false;
}
ASSERT_NOT_REACHED();
return false;
}
bool isHasPseudoClassMatchElement(MatchElement matchElement)
{
switch (matchElement) {
case MatchElement::HasChild:
case MatchElement::HasDescendant:
case MatchElement::HasSibling:
case MatchElement::HasSiblingDescendant:
case MatchElement::HasNonSubjectOrScopeBreaking:
return true;
default:
return false;
}
}
RuleAndSelector::RuleAndSelector(const RuleData& ruleData)
: styleRule(&ruleData.styleRule())
, selectorIndex(ruleData.selectorIndex())
, selectorListIndex(ruleData.selectorListIndex())
{
ASSERT(selectorIndex == ruleData.selectorIndex());
ASSERT(selectorListIndex == ruleData.selectorListIndex());
}
RuleFeature::RuleFeature(const RuleData& ruleData, MatchElement matchElement, IsNegation isNegation)
: RuleAndSelector(ruleData)
, matchElement(matchElement)
, isNegation(isNegation)
{
}
RuleFeatureWithInvalidationSelector::RuleFeatureWithInvalidationSelector(const RuleData& data, MatchElement matchElement, IsNegation isNegation, const CSSSelector* invalidationSelector)
: RuleFeature(data, matchElement, isNegation)
, invalidationSelector(invalidationSelector)
{
}
static MatchElement computeNextMatchElement(MatchElement matchElement, CSSSelector::RelationType relation)
{
ASSERT(!isHasPseudoClassMatchElement(matchElement));
if (isSiblingOrSubject(matchElement)) {
switch (relation) {
case CSSSelector::Subselector:
return matchElement;
case CSSSelector::DescendantSpace:
return MatchElement::Ancestor;
case CSSSelector::Child:
return MatchElement::Parent;
case CSSSelector::IndirectAdjacent:
if (matchElement == MatchElement::AnySibling)
return MatchElement::AnySibling;
return MatchElement::IndirectSibling;
case CSSSelector::DirectAdjacent:
if (matchElement == MatchElement::AnySibling)
return MatchElement::AnySibling;
return matchElement == MatchElement::Subject ? MatchElement::DirectSibling : MatchElement::IndirectSibling;
case CSSSelector::ShadowDescendant:
case CSSSelector::ShadowPartDescendant:
return MatchElement::Host;
case CSSSelector::ShadowSlotted:
// FIXME: Implement accurate invalidation.
return matchElement;
};
}
switch (relation) {
case CSSSelector::Subselector:
return matchElement;
case CSSSelector::DescendantSpace:
case CSSSelector::Child:
return MatchElement::Ancestor;
case CSSSelector::IndirectAdjacent:
case CSSSelector::DirectAdjacent:
return matchElement == MatchElement::Parent ? MatchElement::ParentSibling : MatchElement::AncestorSibling;
case CSSSelector::ShadowDescendant:
case CSSSelector::ShadowPartDescendant:
return MatchElement::Host;
case CSSSelector::ShadowSlotted:
// FIXME: Implement accurate invalidation.
return matchElement;
};
ASSERT_NOT_REACHED();
return matchElement;
};
static MatchElement computeNextHasPseudoClassMatchElement(MatchElement matchElement, CSSSelector::RelationType relation, CanBreakScope canBreakScope)
{
ASSERT(isHasPseudoClassMatchElement(matchElement));
// :has(:is(foo bar)) can be affected by changes outside the :has scope.
if (canBreakScope == CanBreakScope::Yes) {
if (relation == CSSSelector::DescendantSpace || relation == CSSSelector::Child)
return MatchElement::HasNonSubjectOrScopeBreaking;
}
return matchElement;
}
MatchElement computeHasPseudoClassMatchElement(const CSSSelector& hasSelector)
{
auto hasMatchElement = MatchElement::Subject;
for (auto* simpleSelector = &hasSelector; simpleSelector->tagHistory(); simpleSelector = simpleSelector->tagHistory())
hasMatchElement = computeNextMatchElement(hasMatchElement, simpleSelector->relation());
switch (hasMatchElement) {
case MatchElement::Parent:
case MatchElement::Subject:
return MatchElement::HasChild;
case MatchElement::Ancestor:
return MatchElement::HasDescendant;
case MatchElement::IndirectSibling:
case MatchElement::DirectSibling:
case MatchElement::AnySibling:
return MatchElement::HasSibling;
case MatchElement::ParentSibling:
case MatchElement::AncestorSibling:
return MatchElement::HasSiblingDescendant;
case MatchElement::HasChild:
case MatchElement::HasDescendant:
case MatchElement::HasSibling:
case MatchElement::HasSiblingDescendant:
case MatchElement::HasNonSubjectOrScopeBreaking:
case MatchElement::Host:
ASSERT_NOT_REACHED();
break;
}
return MatchElement::HasChild;
}
static MatchElement computeSubSelectorMatchElement(MatchElement matchElement, const CSSSelector& selector, const CSSSelector& childSelector)
{
if (selector.match() == CSSSelector::PseudoClass) {
auto type = selector.pseudoClassType();
// For :nth-child(n of .some-subselector) where an element change may affect other elements similar to sibling combinators.
if (type == CSSSelector::PseudoClassNthChild || type == CSSSelector::PseudoClassNthLastChild)
return MatchElement::AnySibling;
// Similarly for :host().
if (type == CSSSelector::PseudoClassHost)
return MatchElement::Host;
if (type == CSSSelector::PseudoClassHas) {
if (matchElement != MatchElement::Subject)
return MatchElement::HasNonSubjectOrScopeBreaking;
return computeHasPseudoClassMatchElement(childSelector);
}
}
if (selector.match() == CSSSelector::PseudoElement) {
// Similarly for ::slotted().
if (selector.pseudoElementType() == CSSSelector::PseudoElementSlotted)
return MatchElement::Host;
}
return matchElement;
};
void RuleFeatureSet::recursivelyCollectFeaturesFromSelector(SelectorFeatures& selectorFeatures, const CSSSelector& firstSelector, MatchElement matchElement, IsNegation isNegation, CanBreakScope canBreakScope)
{
const CSSSelector* selector = &firstSelector;
do {
if (selector->match() == CSSSelector::Id) {
idsInRules.add(selector->value());
if (matchElement == MatchElement::Parent || matchElement == MatchElement::Ancestor)
idsMatchingAncestorsInRules.add(selector->value());
else if (isHasPseudoClassMatchElement(matchElement))
selectorFeatures.ids.append({ selector, matchElement, isNegation });
} else if (selector->match() == CSSSelector::Class)
selectorFeatures.classes.append({ selector, matchElement, isNegation });
else if (selector->isAttributeSelector()) {
auto& canonicalLocalName = selector->attributeCanonicalLocalName();
auto& localName = selector->attribute().localName();
attributeCanonicalLocalNamesInRules.add(canonicalLocalName);
attributeLocalNamesInRules.add(localName);
selectorFeatures.attributes.append({ selector, matchElement, isNegation });
} else if (selector->match() == CSSSelector::PseudoElement) {
switch (selector->pseudoElementType()) {
case CSSSelector::PseudoElementFirstLine:
usesFirstLineRules = true;
break;
case CSSSelector::PseudoElementFirstLetter:
usesFirstLetterRules = true;
break;
default:
break;
}
} else if (selector->match() == CSSSelector::PseudoClass) {
bool isLogicalCombination = isLogicalCombinationPseudoClass(selector->pseudoClassType());
if (!isLogicalCombination)
selectorFeatures.pseudoClasses.append({ selector, matchElement, isNegation });
canBreakScope = isLogicalCombination && selector->pseudoClassType() != CSSSelector::PseudoClassHas ? CanBreakScope::Yes : CanBreakScope::No;
}
if (!selectorFeatures.hasSiblingSelector && selector->isSiblingSelector())
selectorFeatures.hasSiblingSelector = true;
if (const CSSSelectorList* selectorList = selector->selectorList()) {
auto subSelectorIsNegation = isNegation;
if (selector->match() == CSSSelector::PseudoClass && selector->pseudoClassType() == CSSSelector::PseudoClassNot)
subSelectorIsNegation = isNegation == IsNegation::No ? IsNegation::Yes : IsNegation::No;
for (const CSSSelector* subSelector = selectorList->first(); subSelector; subSelector = CSSSelectorList::next(subSelector)) {
auto subSelectorMatchElement = computeSubSelectorMatchElement(matchElement, *selector, *subSelector);
if (!selectorFeatures.hasSiblingSelector && selector->isSiblingSelector())
selectorFeatures.hasSiblingSelector = true;
recursivelyCollectFeaturesFromSelector(selectorFeatures, *subSelector, subSelectorMatchElement, subSelectorIsNegation, canBreakScope);
if (selector->match() == CSSSelector::PseudoClass && selector->pseudoClassType() == CSSSelector::PseudoClassHas)
selectorFeatures.hasPseudoClasses.append({ subSelector, subSelectorMatchElement, isNegation });
}
}
matchElement = [&] {
if (isHasPseudoClassMatchElement(matchElement))
return computeNextHasPseudoClassMatchElement(matchElement, selector->relation(), canBreakScope);
return computeNextMatchElement(matchElement, selector->relation());
}();
selector = selector->tagHistory();
} while (selector);
}
PseudoClassInvalidationKey makePseudoClassInvalidationKey(CSSSelector::PseudoClassType pseudoClass, InvalidationKeyType keyType, const AtomString& keyString)
{
ASSERT(keyType != InvalidationKeyType::Universal || keyString == starAtom());
return {
pseudoClass,
static_cast<uint8_t>(keyType),
keyString
};
};
static PseudoClassInvalidationKey makePseudoClassInvalidationKey(CSSSelector::PseudoClassType pseudoClassType, const CSSSelector& selector)
{
AtomString className;
AtomString tagName;
for (auto* simpleSelector = selector.firstInCompound(); simpleSelector; simpleSelector = simpleSelector->tagHistory()) {
if (simpleSelector->match() == CSSSelector::Id)
return makePseudoClassInvalidationKey(pseudoClassType, InvalidationKeyType::Id, simpleSelector->value());
if (simpleSelector->match() == CSSSelector::Class && className.isNull())
className = simpleSelector->value();
if (simpleSelector->match() == CSSSelector::Tag)
tagName = simpleSelector->tagLowercaseLocalName();
if (simpleSelector->relation() != CSSSelector::Subselector)
break;
}
if (!className.isEmpty())
return makePseudoClassInvalidationKey(pseudoClassType, InvalidationKeyType::Class, className);
if (!tagName.isEmpty() && tagName != starAtom())
return makePseudoClassInvalidationKey(pseudoClassType, InvalidationKeyType::Tag, tagName);
return makePseudoClassInvalidationKey(pseudoClassType, InvalidationKeyType::Universal);
};
void RuleFeatureSet::collectFeatures(const RuleData& ruleData)
{
SelectorFeatures selectorFeatures;
recursivelyCollectFeaturesFromSelector(selectorFeatures, *ruleData.selector());
if (selectorFeatures.hasSiblingSelector)
siblingRules.append({ ruleData });
if (ruleData.containsUncommonAttributeSelector())
uncommonAttributeRules.append({ ruleData });
auto addToMap = [&](auto& map, auto& entries, auto hostAffectingNames) {
for (auto& entry : entries) {
auto& [selector, matchElement, isNegation] = entry;
auto& name = selector->value();
map.ensure(name, [] {
return makeUnique<RuleFeatureVector>();
}).iterator->value->append({ ruleData, matchElement, isNegation });
setUsesMatchElement(matchElement);
if constexpr (!std::is_same_v<std::nullptr_t, decltype(hostAffectingNames)>) {
if (matchElement == MatchElement::Host)
hostAffectingNames->add(name);
}
}
};
addToMap(idRules, selectorFeatures.ids, nullptr);
addToMap(classRules, selectorFeatures.classes, &classesAffectingHost);
for (auto& entry : selectorFeatures.attributes) {
auto [selector, matchElement, isNegation] = entry;
attributeRules.ensure(selector->attribute().localName().convertToASCIILowercase(), [] {
return makeUnique<Vector<RuleFeatureWithInvalidationSelector>>();
}).iterator->value->append({ ruleData, matchElement, isNegation, selector });
if (matchElement == MatchElement::Host)
attributesAffectingHost.add(selector->attribute().localName().convertToASCIILowercase());
setUsesMatchElement(matchElement);
}
for (auto& entry : selectorFeatures.pseudoClasses) {
auto [selector, matchElement, isNegation] = entry;
pseudoClassRules.ensure(makePseudoClassInvalidationKey(selector->pseudoClassType(), *selector), [] {
return makeUnique<Vector<RuleFeature>>();
}).iterator->value->append({ ruleData, matchElement, isNegation });
if (matchElement == MatchElement::Host)
pseudoClassesAffectingHost.add(selector->pseudoClassType());
pseudoClassTypes.add(selector->pseudoClassType());
setUsesMatchElement(matchElement);
}
for (auto& entry : selectorFeatures.hasPseudoClasses) {
auto [selector, matchElement, isNegation] = entry;
// The selector argument points to a selector inside :has() selector list instead of :has() itself.
hasPseudoClassRules.ensure(makePseudoClassInvalidationKey(CSSSelector::PseudoClassHas, *selector), [] {
return makeUnique<Vector<RuleFeatureWithInvalidationSelector>>();
}).iterator->value->append({ ruleData, matchElement, isNegation, selector });
setUsesMatchElement(matchElement);
}
}
void RuleFeatureSet::add(const RuleFeatureSet& other)
{
idsInRules.add(other.idsInRules.begin(), other.idsInRules.end());
idsMatchingAncestorsInRules.add(other.idsMatchingAncestorsInRules.begin(), other.idsMatchingAncestorsInRules.end());
attributeCanonicalLocalNamesInRules.add(other.attributeCanonicalLocalNamesInRules.begin(), other.attributeCanonicalLocalNamesInRules.end());
attributeLocalNamesInRules.add(other.attributeLocalNamesInRules.begin(), other.attributeLocalNamesInRules.end());
contentAttributeNamesInRules.add(other.contentAttributeNamesInRules.begin(), other.contentAttributeNamesInRules.end());
siblingRules.appendVector(other.siblingRules);
uncommonAttributeRules.appendVector(other.uncommonAttributeRules);
auto addMap = [&](auto& map, auto& otherMap) {
for (auto& keyValuePair : otherMap) {
map.ensure(keyValuePair.key, [] {
return makeUnique<std::decay_t<decltype(*keyValuePair.value)>>();
}).iterator->value->appendVector(*keyValuePair.value);
}
};
addMap(idRules, other.idRules);
addMap(classRules, other.classRules);
classesAffectingHost.add(other.classesAffectingHost.begin(), other.classesAffectingHost.end());
addMap(attributeRules, other.attributeRules);
attributesAffectingHost.add(other.attributesAffectingHost.begin(), other.attributesAffectingHost.end());
addMap(pseudoClassRules, other.pseudoClassRules);
pseudoClassesAffectingHost.add(other.pseudoClassesAffectingHost.begin(), other.pseudoClassesAffectingHost.end());
pseudoClassTypes.add(other.pseudoClassTypes.begin(), other.pseudoClassTypes.end());
addMap(hasPseudoClassRules, other.hasPseudoClassRules);
for (size_t i = 0; i < usedMatchElements.size(); ++i)
usedMatchElements[i] = usedMatchElements[i] || other.usedMatchElements[i];
usesFirstLineRules = usesFirstLineRules || other.usesFirstLineRules;
usesFirstLetterRules = usesFirstLetterRules || other.usesFirstLetterRules;
}
void RuleFeatureSet::registerContentAttribute(const AtomString& attributeName)
{
contentAttributeNamesInRules.add(attributeName.convertToASCIILowercase());
attributeCanonicalLocalNamesInRules.add(attributeName);
attributeLocalNamesInRules.add(attributeName);
}
void RuleFeatureSet::clear()
{
idsInRules.clear();
idsMatchingAncestorsInRules.clear();
attributeCanonicalLocalNamesInRules.clear();
attributeLocalNamesInRules.clear();
contentAttributeNamesInRules.clear();
siblingRules.clear();
uncommonAttributeRules.clear();
idRules.clear();
classRules.clear();
hasPseudoClassRules.clear();
classesAffectingHost.clear();
attributeRules.clear();
attributesAffectingHost.clear();
pseudoClassRules.clear();
pseudoClassesAffectingHost.clear();
pseudoClassTypes.clear();
usesFirstLineRules = false;
usesFirstLetterRules = false;
}
void RuleFeatureSet::shrinkToFit()
{
siblingRules.shrinkToFit();
uncommonAttributeRules.shrinkToFit();
for (auto& rules : idRules.values())
rules->shrinkToFit();
for (auto& rules : classRules.values())
rules->shrinkToFit();
for (auto& rules : attributeRules.values())
rules->shrinkToFit();
for (auto& rules : pseudoClassRules.values())
rules->shrinkToFit();
for (auto& rules : hasPseudoClassRules.values())
rules->shrinkToFit();
}
} // namespace Style
} // namespace WebCore