sky/engine/core/css/invalidation/StyleInvalidator.cpp - mojo-tools - Git at Google


 // Copyright 2014 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "config.h"

 #include "core/css/invalidation/StyleInvalidator.h"

 #include "core/css/invalidation/DescendantInvalidationSet.h"
 #include "core/dom/Document.h"
 #include "core/dom/Element.h"
 #include "core/dom/ElementTraversal.h"
 #include "core/dom/shadow/ElementShadow.h"
 #include "core/dom/shadow/ShadowRoot.h"
 #include "core/rendering/RenderObject.h"

 namespace blink {

 void StyleInvalidator::invalidate(Document& document)
 {
     RecursionData recursionData;
     if (Element* documentElement = document.documentElement())
         invalidate(*documentElement, recursionData);
     document.clearChildNeedsStyleInvalidation();
     document.clearNeedsStyleInvalidation();
     clearPendingInvalidations();
 }

 void StyleInvalidator::scheduleInvalidation(PassRefPtr<DescendantInvalidationSet> invalidationSet, Element& element)
 {
     ASSERT(element.inActiveDocument());
     ASSERT(element.styleChangeType() < SubtreeStyleChange);
     InvalidationList& list = ensurePendingInvalidationList(element);
     // If we're already going to invalidate the whole subtree we don't need to store any new sets.
     if (!list.isEmpty() && list.last()->wholeSubtreeInvalid())
         return;
     // If this set would invalidate the whole subtree we can discard all existing sets.
     if (invalidationSet->wholeSubtreeInvalid())
         list.clear();
     list.append(invalidationSet);
     element.setNeedsStyleInvalidation();
 }

 StyleInvalidator::InvalidationList& StyleInvalidator::ensurePendingInvalidationList(Element& element)
 {
     PendingInvalidationMap::AddResult addResult = m_pendingInvalidationMap.add(&element, nullptr);
     if (addResult.isNewEntry)
         addResult.storedValue->value = adoptPtr(new InvalidationList);
     return *addResult.storedValue->value;
 }

 void StyleInvalidator::clearInvalidation(Node& node)
 {
     if (node.isElementNode() && node.needsStyleInvalidation())
         m_pendingInvalidationMap.remove(toElement(&node));
 }

 void StyleInvalidator::clearPendingInvalidations()
 {
     m_pendingInvalidationMap.clear();
 }

 StyleInvalidator::StyleInvalidator()
 {
 }

 StyleInvalidator::~StyleInvalidator()
 {
 }

 void StyleInvalidator::RecursionData::pushInvalidationSet(const DescendantInvalidationSet& invalidationSet)
 {
     ASSERT(!m_wholeSubtreeInvalid);
     if (invalidationSet.treeBoundaryCrossing())
         m_treeBoundaryCrossing = true;
     if (invalidationSet.wholeSubtreeInvalid()) {
         m_wholeSubtreeInvalid = true;
         return;
     }
     m_invalidationSets.append(&invalidationSet);
     m_invalidateCustomPseudo = invalidationSet.customPseudoInvalid();
 }

 bool StyleInvalidator::RecursionData::matchesCurrentInvalidationSets(Element& element)
 {
     ASSERT(!m_wholeSubtreeInvalid);

     for (InvalidationSets::iterator it = m_invalidationSets.begin(); it != m_invalidationSets.end(); ++it) {
         if ((*it)->invalidatesElement(element))
             return true;
     }

     return false;
 }

 bool StyleInvalidator::checkInvalidationSetsAgainstElement(Element& element, StyleInvalidator::RecursionData& recursionData)
 {
     if (element.styleChangeType() >= SubtreeStyleChange || recursionData.wholeSubtreeInvalid()) {
         recursionData.setWholeSubtreeInvalid();
         return false;
     }
     if (element.needsStyleInvalidation()) {
         if (InvalidationList* invalidationList = m_pendingInvalidationMap.get(&element)) {
             for (InvalidationList::const_iterator it = invalidationList->begin(); it != invalidationList->end(); ++it)
                 recursionData.pushInvalidationSet(**it);
             // FIXME: It's really only necessary to clone the render style for this element, not full style recalc.
             return true;
         }
     }
     return recursionData.matchesCurrentInvalidationSets(element);
 }

 bool StyleInvalidator::invalidateChildren(Element& element, StyleInvalidator::RecursionData& recursionData)
 {
     bool someChildrenNeedStyleRecalc = false;
     for (ShadowRoot* root = element.youngestShadowRoot(); root; root = root->olderShadowRoot()) {
         if (!recursionData.treeBoundaryCrossing() && !root->childNeedsStyleInvalidation() && !root->needsStyleInvalidation())
             continue;
         for (Element* child = ElementTraversal::firstChild(*root); child; child = ElementTraversal::nextSibling(*child)) {
             bool childRecalced = invalidate(*child, recursionData);
             someChildrenNeedStyleRecalc = someChildrenNeedStyleRecalc || childRecalced;
         }
         root->clearChildNeedsStyleInvalidation();
         root->clearNeedsStyleInvalidation();
     }
     for (Element* child = ElementTraversal::firstChild(element); child; child = ElementTraversal::nextSibling(*child)) {
         bool childRecalced = invalidate(*child, recursionData);
         someChildrenNeedStyleRecalc = someChildrenNeedStyleRecalc || childRecalced;
     }
     return someChildrenNeedStyleRecalc;
 }

 bool StyleInvalidator::invalidate(Element& element, StyleInvalidator::RecursionData& recursionData)
 {
     RecursionCheckpoint checkpoint(&recursionData);

     bool thisElementNeedsStyleRecalc = checkInvalidationSetsAgainstElement(element, recursionData);

     bool someChildrenNeedStyleRecalc = false;
     if (recursionData.hasInvalidationSets() || element.childNeedsStyleInvalidation())
         someChildrenNeedStyleRecalc = invalidateChildren(element, recursionData);

     if (thisElementNeedsStyleRecalc) {
         element.setNeedsStyleRecalc(recursionData.wholeSubtreeInvalid() ? SubtreeStyleChange : LocalStyleChange);
     } else if (recursionData.hasInvalidationSets() && someChildrenNeedStyleRecalc) {
         // Clone the RenderStyle in order to preserve correct style sharing, if possible. Otherwise recalc style.
         if (RenderObject* renderer = element.renderer())
             renderer->setStyleInternal(RenderStyle::clone(renderer->style()));
         else
             element.setNeedsStyleRecalc(LocalStyleChange);
     }

     element.clearChildNeedsStyleInvalidation();
     element.clearNeedsStyleInvalidation();

     return thisElementNeedsStyleRecalc;
 }

 void StyleInvalidator::trace(Visitor* visitor)
 {
 #if ENABLE(OILPAN)
     visitor->trace(m_pendingInvalidationMap);
 #endif
 }

 } // namespace blink

	// Copyright 2014 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "config.h"

	#include "core/css/invalidation/StyleInvalidator.h"

	#include "core/css/invalidation/DescendantInvalidationSet.h"
	#include "core/dom/Document.h"
	#include "core/dom/Element.h"
	#include "core/dom/ElementTraversal.h"
	#include "core/dom/shadow/ElementShadow.h"
	#include "core/dom/shadow/ShadowRoot.h"
	#include "core/rendering/RenderObject.h"

	namespace blink {

	void StyleInvalidator::invalidate(Document& document)
	{
	RecursionData recursionData;
	if (Element* documentElement = document.documentElement())
	invalidate(*documentElement, recursionData);
	document.clearChildNeedsStyleInvalidation();
	document.clearNeedsStyleInvalidation();
	clearPendingInvalidations();
	}

	void StyleInvalidator::scheduleInvalidation(PassRefPtr<DescendantInvalidationSet> invalidationSet, Element& element)
	{
	ASSERT(element.inActiveDocument());
	ASSERT(element.styleChangeType() < SubtreeStyleChange);
	InvalidationList& list = ensurePendingInvalidationList(element);
	// If we're already going to invalidate the whole subtree we don't need to store any new sets.
	if (!list.isEmpty() && list.last()->wholeSubtreeInvalid())
	return;
	// If this set would invalidate the whole subtree we can discard all existing sets.
	if (invalidationSet->wholeSubtreeInvalid())
	list.clear();
	list.append(invalidationSet);
	element.setNeedsStyleInvalidation();
	}

	StyleInvalidator::InvalidationList& StyleInvalidator::ensurePendingInvalidationList(Element& element)
	{
	PendingInvalidationMap::AddResult addResult = m_pendingInvalidationMap.add(&element, nullptr);
	if (addResult.isNewEntry)
	addResult.storedValue->value = adoptPtr(new InvalidationList);
	return *addResult.storedValue->value;
	}

	void StyleInvalidator::clearInvalidation(Node& node)
	{
	if (node.isElementNode() && node.needsStyleInvalidation())
	m_pendingInvalidationMap.remove(toElement(&node));
	}

	void StyleInvalidator::clearPendingInvalidations()
	{
	m_pendingInvalidationMap.clear();
	}

	StyleInvalidator::StyleInvalidator()
	{
	}

	StyleInvalidator::~StyleInvalidator()
	{
	}

	void StyleInvalidator::RecursionData::pushInvalidationSet(const DescendantInvalidationSet& invalidationSet)
	{
	ASSERT(!m_wholeSubtreeInvalid);
	if (invalidationSet.treeBoundaryCrossing())
	m_treeBoundaryCrossing = true;
	if (invalidationSet.wholeSubtreeInvalid()) {
	m_wholeSubtreeInvalid = true;
	return;
	}
	m_invalidationSets.append(&invalidationSet);
	m_invalidateCustomPseudo = invalidationSet.customPseudoInvalid();
	}

	bool StyleInvalidator::RecursionData::matchesCurrentInvalidationSets(Element& element)
	{
	ASSERT(!m_wholeSubtreeInvalid);

	for (InvalidationSets::iterator it = m_invalidationSets.begin(); it != m_invalidationSets.end(); ++it) {
	if ((*it)->invalidatesElement(element))
	return true;
	}

	return false;
	}

	bool StyleInvalidator::checkInvalidationSetsAgainstElement(Element& element, StyleInvalidator::RecursionData& recursionData)
	{
	if (element.styleChangeType() >= SubtreeStyleChange \|\| recursionData.wholeSubtreeInvalid()) {
	recursionData.setWholeSubtreeInvalid();
	return false;
	}
	if (element.needsStyleInvalidation()) {
	if (InvalidationList* invalidationList = m_pendingInvalidationMap.get(&element)) {
	for (InvalidationList::const_iterator it = invalidationList->begin(); it != invalidationList->end(); ++it)
	recursionData.pushInvalidationSet(**it);
	// FIXME: It's really only necessary to clone the render style for this element, not full style recalc.
	return true;
	}
	}
	return recursionData.matchesCurrentInvalidationSets(element);
	}

	bool StyleInvalidator::invalidateChildren(Element& element, StyleInvalidator::RecursionData& recursionData)
	{
	bool someChildrenNeedStyleRecalc = false;
	for (ShadowRoot* root = element.youngestShadowRoot(); root; root = root->olderShadowRoot()) {
	if (!recursionData.treeBoundaryCrossing() && !root->childNeedsStyleInvalidation() && !root->needsStyleInvalidation())
	continue;
	for (Element* child = ElementTraversal::firstChild(root); child; child = ElementTraversal::nextSibling(child)) {
	bool childRecalced = invalidate(*child, recursionData);
	someChildrenNeedStyleRecalc = someChildrenNeedStyleRecalc \|\| childRecalced;
	}
	root->clearChildNeedsStyleInvalidation();
	root->clearNeedsStyleInvalidation();
	}
	for (Element* child = ElementTraversal::firstChild(element); child; child = ElementTraversal::nextSibling(*child)) {
	bool childRecalced = invalidate(*child, recursionData);
	someChildrenNeedStyleRecalc = someChildrenNeedStyleRecalc \|\| childRecalced;
	}
	return someChildrenNeedStyleRecalc;
	}

	bool StyleInvalidator::invalidate(Element& element, StyleInvalidator::RecursionData& recursionData)
	{
	RecursionCheckpoint checkpoint(&recursionData);

	bool thisElementNeedsStyleRecalc = checkInvalidationSetsAgainstElement(element, recursionData);

	bool someChildrenNeedStyleRecalc = false;
	if (recursionData.hasInvalidationSets() \|\| element.childNeedsStyleInvalidation())
	someChildrenNeedStyleRecalc = invalidateChildren(element, recursionData);

	if (thisElementNeedsStyleRecalc) {
	element.setNeedsStyleRecalc(recursionData.wholeSubtreeInvalid() ? SubtreeStyleChange : LocalStyleChange);
	} else if (recursionData.hasInvalidationSets() && someChildrenNeedStyleRecalc) {
	// Clone the RenderStyle in order to preserve correct style sharing, if possible. Otherwise recalc style.
	if (RenderObject* renderer = element.renderer())
	renderer->setStyleInternal(RenderStyle::clone(renderer->style()));
	else
	element.setNeedsStyleRecalc(LocalStyleChange);
	}

	element.clearChildNeedsStyleInvalidation();
	element.clearNeedsStyleInvalidation();

	return thisElementNeedsStyleRecalc;
	}

	void StyleInvalidator::trace(Visitor* visitor)
	{
	#if ENABLE(OILPAN)
	visitor->trace(m_pendingInvalidationMap);
	#endif
	}

	} // namespace blink