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dart / external / github.com / flutter / engine / refs/tags/demo_apk_22 / . / sky / engine / core / dom / Element.cpp
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/*
* Copyright (C) 1999 Lars Knoll (knoll@kde.org)
* (C) 1999 Antti Koivisto (koivisto@kde.org)
* (C) 2001 Peter Kelly (pmk@post.com)
* (C) 2001 Dirk Mueller (mueller@kde.org)
* (C) 2007 David Smith (catfish.man@gmail.com)
* Copyright (C) 2004, 2005, 2006, 2007, 2008, 2009, 2010, 2012, 2013 Apple Inc. All rights reserved.
* (C) 2007 Eric Seidel (eric@webkit.org)
*
* 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 "sky/engine/core/dom/Element.h"
#include "gen/sky/core/CSSValueKeywords.h"
#include "gen/sky/core/HTMLNames.h"
#include "gen/sky/platform/RuntimeEnabledFeatures.h"
#include "sky/engine/bindings/exception_messages.h"
#include "sky/engine/bindings/exception_state.h"
#include "sky/engine/core/css/CSSStyleSheet.h"
#include "sky/engine/core/css/CSSValuePool.h"
#include "sky/engine/core/css/PropertySetCSSStyleDeclaration.h"
#include "sky/engine/core/css/StylePropertySet.h"
#include "sky/engine/core/css/parser/BisonCSSParser.h"
#include "sky/engine/core/css/resolver/StyleResolver.h"
#include "sky/engine/core/dom/Attr.h"
#include "sky/engine/core/dom/ClientRect.h"
#include "sky/engine/core/dom/ClientRectList.h"
#include "sky/engine/core/dom/DOMTokenList.h"
#include "sky/engine/core/dom/Document.h"
#include "sky/engine/core/dom/ElementDataCache.h"
#include "sky/engine/core/dom/ElementRareData.h"
#include "sky/engine/core/dom/ElementTraversal.h"
#include "sky/engine/core/dom/ExceptionCode.h"
#include "sky/engine/core/dom/Microtask.h"
#include "sky/engine/core/dom/MutationObserverInterestGroup.h"
#include "sky/engine/core/dom/MutationRecord.h"
#include "sky/engine/core/dom/NodeRenderStyle.h"
#include "sky/engine/core/dom/RenderTreeBuilder.h"
#include "sky/engine/core/dom/SelectorQuery.h"
#include "sky/engine/core/dom/StyleEngine.h"
#include "sky/engine/core/dom/Text.h"
#include "sky/engine/core/editing/TextIterator.h"
#include "sky/engine/core/editing/htmlediting.h"
#include "sky/engine/core/frame/FrameView.h"
#include "sky/engine/core/frame/LocalFrame.h"
#include "sky/engine/core/frame/Settings.h"
#include "sky/engine/core/html/HTMLElement.h"
#include "sky/engine/core/html/parser/HTMLParserIdioms.h"
#include "sky/engine/core/page/ChromeClient.h"
#include "sky/engine/core/page/Page.h"
#include "sky/engine/core/painting/Canvas.h"
#include "sky/engine/core/painting/PaintingCallback.h"
#include "sky/engine/core/painting/PaintingTasks.h"
#include "sky/engine/core/painting/PictureRecorder.h"
#include "sky/engine/core/rendering/RenderLayer.h"
#include "sky/engine/core/rendering/RenderView.h"
#include "sky/engine/platform/EventDispatchForbiddenScope.h"
#include "sky/engine/tonic/dart_state.h"
#include "sky/engine/wtf/BitVector.h"
#include "sky/engine/wtf/HashFunctions.h"
#include "sky/engine/wtf/text/CString.h"
#include "sky/engine/wtf/text/StringBuilder.h"
#include "sky/engine/wtf/text/TextPosition.h"
namespace blink {
PassRefPtr<Element> Element::create(const QualifiedName& tagName, Document* document)
{
return adoptRef(new Element(tagName, document, CreateElement));
}
Element::Element(const QualifiedName& tagName, Document* document, ConstructionType type)
: ContainerNode(document, type)
, m_tagName(tagName)
{
}
Element::~Element()
{
ASSERT(needsAttach());
}
inline ElementRareData* Element::elementRareData() const
{
ASSERT(hasRareData());
return static_cast<ElementRareData*>(rareData());
}
inline ElementRareData& Element::ensureElementRareData()
{
return static_cast<ElementRareData&>(ensureRareData());
}
PassRefPtr<Node> Element::cloneNode(bool deep)
{
return deep ? cloneElementWithChildren() : cloneElementWithoutChildren();
}
PassRefPtr<Element> Element::cloneElementWithChildren()
{
RefPtr<Element> clone = cloneElementWithoutChildren();
cloneChildNodes(clone.get());
return clone.release();
}
PassRefPtr<Element> Element::cloneElementWithoutChildren()
{
RefPtr<Element> clone = cloneElementWithoutAttributesAndChildren();
clone->cloneDataFromElement(*this);
return clone.release();
}
PassRefPtr<Element> Element::cloneElementWithoutAttributesAndChildren()
{
return document().createElement(tagQName(), false);
}
void Element::removeAttribute(const QualifiedName& name)
{
if (!elementData())
return;
size_t index = elementData()->attributes().findIndex(name);
if (index == kNotFound)
return;
removeAttributeInternal(index, NotInSynchronizationOfLazyAttribute);
}
void Element::setBooleanAttribute(const QualifiedName& name, bool value)
{
if (value)
setAttribute(name, emptyAtom);
else
removeAttribute(name);
}
Node::NodeType Element::nodeType() const
{
return ELEMENT_NODE;
}
void Element::synchronizeAllAttributes() const
{
synchronizeAttribute(HTMLNames::styleAttr.localName());
}
String Element::contentEditable() const
{
const AtomicString& value = getAttribute(HTMLNames::contenteditableAttr);
if (value.isNull())
return "inherit";
if (value.isEmpty() || equalIgnoringCase(value, "true"))
return "true";
if (equalIgnoringCase(value, "false"))
return "false";
if (equalIgnoringCase(value, "plaintext-only"))
return "plaintext-only";
return "inherit";
}
void Element::setContentEditable(const String& enabled, ExceptionState& exceptionState)
{
if (equalIgnoringCase(enabled, "true"))
setAttribute(HTMLNames::contenteditableAttr, "true");
else if (equalIgnoringCase(enabled, "false"))
setAttribute(HTMLNames::contenteditableAttr, "false");
else if (equalIgnoringCase(enabled, "plaintext-only"))
setAttribute(HTMLNames::contenteditableAttr, "plaintext-only");
else if (equalIgnoringCase(enabled, "inherit"))
removeAttribute(HTMLNames::contenteditableAttr);
else
exceptionState.ThrowDOMException(SyntaxError, "The value provided ('" + enabled + "') is not one of 'true', 'false', 'plaintext-only', or 'inherit'.");
}
bool Element::spellcheck() const
{
return isSpellCheckingEnabled();
}
void Element::setSpellcheck(bool enable)
{
setAttribute(HTMLNames::spellcheckAttr, enable ? "true" : "false");
}
// Returns the conforming 'dir' value associated with the state the attribute is in (in its canonical case), if any,
// or the empty string if the attribute is in a state that has no associated keyword value or if the attribute is
// not in a defined state (e.g. the attribute is missing and there is no missing value default).
// http://www.whatwg.org/specs/web-apps/current-work/multipage/common-dom-interfaces.html#limited-to-only-known-values
static inline const AtomicString& toValidDirValue(const AtomicString& value)
{
DEFINE_STATIC_LOCAL(const AtomicString, ltrValue, ("ltr", AtomicString::ConstructFromLiteral));
DEFINE_STATIC_LOCAL(const AtomicString, rtlValue, ("rtl", AtomicString::ConstructFromLiteral));
DEFINE_STATIC_LOCAL(const AtomicString, autoValue, ("auto", AtomicString::ConstructFromLiteral));
if (equalIgnoringCase(value, ltrValue))
return ltrValue;
if (equalIgnoringCase(value, rtlValue))
return rtlValue;
if (equalIgnoringCase(value, autoValue))
return autoValue;
return nullAtom;
}
const AtomicString& Element::dir()
{
return toValidDirValue(getAttribute(HTMLNames::dirAttr));
}
void Element::setDir(const AtomicString& value)
{
setAttribute(HTMLNames::dirAttr, value);
}
int Element::offsetLeft()
{
document().updateLayout();
if (RenderBoxModelObject* renderer = renderBoxModelObject())
return renderer->offsetLeft();
return 0;
}
int Element::offsetTop()
{
document().updateLayout();
if (RenderBoxModelObject* renderer = renderBoxModelObject())
return renderer->pixelSnappedOffsetTop();
return 0;
}
int Element::offsetWidth()
{
document().updateLayout();
if (RenderBoxModelObject* renderer = renderBoxModelObject())
return renderer->pixelSnappedOffsetWidth();
return 0;
}
int Element::offsetHeight()
{
document().updateLayout();
if (RenderBoxModelObject* renderer = renderBoxModelObject())
return renderer->pixelSnappedOffsetHeight();
return 0;
}
Element* Element::offsetParent()
{
document().updateLayout();
if (RenderObject* renderer = this->renderer())
return renderer->offsetParent();
return 0;
}
int Element::clientLeft()
{
document().updateLayout();
if (RenderBox* renderer = renderBox())
return roundToInt(renderer->clientLeft());
return 0;
}
int Element::clientTop()
{
document().updateLayout();
if (RenderBox* renderer = renderBox())
return roundToInt(renderer->clientTop());
return 0;
}
int Element::clientWidth()
{
document().updateLayout();
if (RenderBox* renderer = renderBox())
return renderer->pixelSnappedClientWidth();
return 0;
}
int Element::clientHeight()
{
document().updateLayout();
if (RenderBox* renderer = renderBox())
return renderer->pixelSnappedClientHeight();
return 0;
}
PassRefPtr<ClientRectList> Element::getClientRects()
{
document().updateLayout();
RenderBoxModelObject* renderBoxModelObject = this->renderBoxModelObject();
if (!renderBoxModelObject)
return ClientRectList::create();
// FIXME: Handle SVG elements.
// FIXME: Handle table/inline-table with a caption.
Vector<FloatQuad> quads;
renderBoxModelObject->absoluteQuads(quads);
return ClientRectList::create(quads);
}
PassRefPtr<ClientRect> Element::getBoundingClientRect()
{
document().updateLayout();
Vector<FloatQuad> quads;
// Get the bounding rectangle from the box model.
if (renderBoxModelObject())
renderBoxModelObject()->absoluteQuads(quads);
if (quads.isEmpty())
return ClientRect::create();
FloatRect result = quads[0].boundingBox();
for (size_t i = 1; i < quads.size(); ++i)
result.unite(quads[i].boundingBox());
return ClientRect::create(result);
}
void Element::requestPaint(PassOwnPtr<PaintingCallback> callback)
{
PaintingTasks::enqueueRequest(this, callback);
document().scheduleVisualUpdate();
}
void Element::setAttribute(const AtomicString& localName, const AtomicString& value, ExceptionState& exceptionState)
{
if (!Document::isValidName(localName)) {
exceptionState.ThrowDOMException(InvalidCharacterError, "'" + localName + "' is not a valid attribute name.");
return;
}
synchronizeAttribute(localName);
if (!elementData()) {
setAttributeInternal(kNotFound, QualifiedName(localName), value, NotInSynchronizationOfLazyAttribute);
return;
}
AttributeCollection attributes = elementData()->attributes();
size_t index = attributes.findIndex(localName);
const QualifiedName& qName = index != kNotFound ? attributes[index].name() : QualifiedName(localName);
setAttributeInternal(index, qName, value, NotInSynchronizationOfLazyAttribute);
}
void Element::setAttribute(const QualifiedName& name, const AtomicString& value)
{
synchronizeAttribute(name.localName());
size_t index = elementData() ? elementData()->attributes().findIndex(name) : kNotFound;
setAttributeInternal(index, name, value, NotInSynchronizationOfLazyAttribute);
}
void Element::setSynchronizedLazyAttribute(const QualifiedName& name, const AtomicString& value)
{
size_t index = elementData() ? elementData()->attributes().findIndex(name) : kNotFound;
setAttributeInternal(index, name, value, InSynchronizationOfLazyAttribute);
}
ALWAYS_INLINE void Element::setAttributeInternal(size_t index, const QualifiedName& name, const AtomicString& newValue, SynchronizationOfLazyAttribute inSynchronizationOfLazyAttribute)
{
if (newValue.isNull()) {
if (index != kNotFound)
removeAttributeInternal(index, inSynchronizationOfLazyAttribute);
return;
}
if (index == kNotFound) {
appendAttributeInternal(name, newValue, inSynchronizationOfLazyAttribute);
return;
}
const Attribute& existingAttribute = elementData()->attributes().at(index);
QualifiedName existingAttributeName = existingAttribute.name();
if (newValue == existingAttribute.value())
return;
if (!inSynchronizationOfLazyAttribute)
willModifyAttribute(existingAttributeName, existingAttribute.value(), newValue);
ensureUniqueElementData().attributes().at(index).setValue(newValue);
if (!inSynchronizationOfLazyAttribute)
attributeChanged(existingAttributeName, newValue);
}
void Element::attributeChanged(const QualifiedName& name, const AtomicString& newValue, AttributeModificationReason reason)
{
bool testShouldInvalidateStyle = inActiveDocument() && styleChangeType() < SubtreeStyleChange;
if (isStyledElement() && name == HTMLNames::styleAttr) {
styleAttributeChanged(newValue);
}
if (name == HTMLNames::idAttr) {
AtomicString oldId = elementData()->idForStyleResolution();
AtomicString newId = newValue;
if (newId != oldId) {
elementData()->setIdForStyleResolution(newId);
if (testShouldInvalidateStyle && (affectedByIdSelector(oldId) || affectedByIdSelector(newId)))
setNeedsStyleRecalc(LocalStyleChange);
}
} else if (name == HTMLNames::classAttr) {
classAttributeChanged(newValue);
}
}
inline void Element::attributeChangedFromParserOrByCloning(const QualifiedName& name, const AtomicString& newValue, AttributeModificationReason reason)
{
attributeChanged(name, newValue, reason);
}
void Element::classAttributeChanged(const AtomicString& newClassString)
{
bool testShouldInvalidateStyle = inActiveDocument() && styleChangeType() < SubtreeStyleChange;
ASSERT(elementData());
const SpaceSplitString oldClasses = elementData()->classNames();
elementData()->setClass(newClassString, false);
const SpaceSplitString& newClasses = elementData()->classNames();
if (testShouldInvalidateStyle && classChangeNeedsStyleRecalc(oldClasses, newClasses))
setNeedsStyleRecalc(LocalStyleChange);
if (!newClasses.size())
elementData()->clearClass();
}
bool Element::classChangeNeedsStyleRecalc(const SpaceSplitString& oldClasses, const SpaceSplitString& newClasses)
{
// Class vectors tend to be very short. This is faster than using a hash table.
BitVector remainingClassBits;
remainingClassBits.ensureSize(oldClasses.size());
for (unsigned i = 0; i < newClasses.size(); ++i) {
bool found = false;
for (unsigned j = 0; j < oldClasses.size(); ++j) {
if (newClasses[i] == oldClasses[j]) {
// Mark each class that is still in the newClasses so we can skip doing
// an n^2 search below when looking for removals. We can't break from
// this loop early since a class can appear more than once.
remainingClassBits.quickSet(j);
found = true;
}
}
// Class was added.
if (!found && affectedByClassSelector(newClasses[i]))
return true;
}
for (unsigned i = 0; i < oldClasses.size(); ++i) {
if (remainingClassBits.quickGet(i))
continue;
// Class was removed.
if (affectedByClassSelector(oldClasses[i]))
return true;
}
return false;
}
void Element::parserSetAttributes(const Vector<Attribute>& attributeVector)
{
ASSERT(!inDocument());
ASSERT(!parentNode());
ASSERT(!m_elementData);
if (attributeVector.isEmpty())
return;
if (document().elementDataCache())
m_elementData = document().elementDataCache()->cachedShareableElementDataWithAttributes(attributeVector);
else
m_elementData = ShareableElementData::createWithAttributes(attributeVector);
// Use attributeVector instead of m_elementData because attributeChanged might modify m_elementData.
for (unsigned i = 0; i < attributeVector.size(); ++i)
attributeChangedFromParserOrByCloning(attributeVector[i].name(), attributeVector[i].value(), ModifiedDirectly);
}
bool Element::hasEquivalentAttributes(const Element* other) const
{
synchronizeAllAttributes();
other->synchronizeAllAttributes();
if (elementData() == other->elementData())
return true;
if (elementData())
return elementData()->isEquivalent(other->elementData());
if (other->elementData())
return other->elementData()->isEquivalent(elementData());
return true;
}
String Element::nodeName() const
{
return m_tagName.localName();
}
const AtomicString Element::imageSourceURL() const
{
return getAttribute(HTMLNames::srcAttr);
}
RenderObject* Element::createRenderer(RenderStyle* style)
{
return RenderObject::createObject(this, style);
}
void Element::insertedInto(ContainerNode* insertionPoint)
{
// need to do superclass processing first so inDocument() is true
// by the time we reach updateId
ContainerNode::insertedInto(insertionPoint);
if (!insertionPoint->isInTreeScope())
return;
TreeScope& scope = insertionPoint->treeScope();
if (scope != treeScope())
return;
const AtomicString& idValue = getIdAttribute();
if (!idValue.isNull())
updateId(scope, nullAtom, idValue);
}
void Element::removedFrom(ContainerNode* insertionPoint)
{
if (insertionPoint->isInTreeScope() && treeScope() == document()) {
const AtomicString& idValue = getIdAttribute();
if (!idValue.isNull())
updateId(insertionPoint->treeScope(), idValue, nullAtom);
}
ContainerNode::removedFrom(insertionPoint);
}
void Element::attach(const AttachContext& context)
{
ASSERT(document().inStyleRecalc());
// We've already been through detach when doing an attach, but we might
// need to clear any state that's been added since then.
if (hasRareData() && styleChangeType() == NeedsReattachStyleChange) {
ElementRareData* data = elementRareData();
data->clearComputedStyle();
}
RenderTreeBuilder(this, context.resolvedStyle).createRendererForElementIfNeeded();
ContainerNode::attach(context);
}
void Element::detach(const AttachContext& context)
{
if (hasRareData()) {
ElementRareData* data = elementRareData();
// attach() will perform the below steps for us when inside recalcStyle.
if (!document().inStyleRecalc()) {
data->clearComputedStyle();
}
}
ContainerNode::detach(context);
}
PassRefPtr<RenderStyle> Element::styleForRenderer()
{
ASSERT(document().inStyleRecalc());
// FIXME: Instead of clearing updates that may have been added from calls to styleForElement
// outside recalcStyle, we should just never set them if we're not inside recalcStyle.
RefPtr<RenderStyle> style = document().styleResolver().styleForElement(this);
ASSERT(style);
document().didRecalculateStyleForElement();
return style.release();
}
void Element::recalcStyle(StyleRecalcChange change)
{
ASSERT(document().inStyleRecalc());
ASSERT(!parentNode()->needsStyleRecalc());
if (change >= Inherit || needsStyleRecalc()) {
if (hasRareData()) {
ElementRareData* data = elementRareData();
data->clearComputedStyle();
}
if (parentRenderStyle())
change = recalcOwnStyle(change);
clearNeedsStyleRecalc();
}
// If we reattached we don't need to recalc the style of our descendants anymore.
if ((change >= Inherit && change < Reattach) || childNeedsStyleRecalc()) {
recalcChildStyle(change);
clearChildNeedsStyleRecalc();
}
}
StyleRecalcChange Element::recalcOwnStyle(StyleRecalcChange change)
{
ASSERT(document().inStyleRecalc());
ASSERT(!parentNode()->needsStyleRecalc());
ASSERT(change >= Inherit || needsStyleRecalc());
ASSERT(parentRenderStyle());
RefPtr<RenderStyle> oldStyle = renderStyle();
RefPtr<RenderStyle> newStyle = styleForRenderer();
StyleRecalcChange localChange = RenderStyle::stylePropagationDiff(oldStyle.get(), newStyle.get());
ASSERT(newStyle);
if (localChange == Reattach) {
AttachContext reattachContext;
reattachContext.resolvedStyle = newStyle.get();
reattach(reattachContext);
return Reattach;
}
ASSERT(oldStyle);
if (RenderObject* renderer = this->renderer()) {
if (localChange != NoChange)
renderer->setStyle(newStyle.get());
}
if (styleChangeType() >= SubtreeStyleChange)
return Force;
if (change > Inherit || localChange > Inherit)
return max(localChange, change);
return localChange;
}
void Element::recalcChildStyle(StyleRecalcChange change)
{
ASSERT(document().inStyleRecalc());
ASSERT(change >= Inherit || childNeedsStyleRecalc());
ASSERT(!needsStyleRecalc());
if (change > Inherit || childNeedsStyleRecalc()) {
// This loop is deliberately backwards because we use insertBefore in the rendering tree, and want to avoid
// a potentially n^2 loop to find the insertion point while resolving style. Having us start from the last
// child and work our way back means in the common case, we'll find the insertion point in O(1) time.
// See crbug.com/288225
StyleResolver& styleResolver = document().styleResolver();
for (Node* child = lastChild(); child; child = child->previousSibling()) {
if (child->isTextNode()) {
toText(child)->recalcTextStyle(change);
} else if (child->isElementNode()) {
Element* element = toElement(child);
if (element->shouldCallRecalcStyle(change))
element->recalcStyle(change);
else if (element->supportsStyleSharing())
styleResolver.addToStyleSharingList(*element);
}
}
}
}
double Element::x() const
{
if (RenderBox* box = renderBox())
return box->x();
return 0;
}
void Element::setX(double x)
{
if (RenderBox* box = renderBox())
return box->setX(x);
}
double Element::y() const
{
if (RenderBox* box = renderBox())
return box->y();
return 0;
}
void Element::setY(double y)
{
if (RenderBox* box = renderBox())
return box->setY(y);
}
double Element::width() const
{
if (RenderBox* box = renderBox())
return box->width();
return 0;
}
void Element::setWidth(double width)
{
if (RenderBox* box = renderBox()) {
box->setWidth(width);
// TODO(ojan): Remove override widths once we remove box layout from the C++ code.
box->setOverrideLogicalContentWidth(width);
}
}
double Element::height() const
{
if (RenderBox* box = renderBox())
return box->height();
return 0;
}
void Element::setHeight(double height)
{
if (RenderBox* box = renderBox())
return box->setHeight(height);
}
double Element::minContentWidth() const
{
if (RenderBox* box = renderBox())
return box->minPreferredLogicalWidth();
return 0;
}
void Element::setMinContentWidth(double width)
{
if (RenderBox* box = renderBox())
return box->setMinPreferredLogicalWidth(width);
}
double Element::maxContentWidth() const
{
if (RenderBox* box = renderBox())
return box->maxPreferredLogicalWidth();
return 0;
}
void Element::setMaxContentWidth(double width)
{
if (RenderBox* box = renderBox())
return box->setMaxPreferredLogicalWidth(width);
}
double Element::alphabeticBaseline() const
{
if (RenderBox* box = renderBox())
return box->firstLineBoxBaseline(FontBaselineOrAuto(AlphabeticBaseline));
return 0;
}
double Element::ideographicBaseline() const
{
if (RenderBox* box = renderBox())
return box->firstLineBoxBaseline(FontBaselineOrAuto(IdeographicBaseline));
return 0;
}
void Element::setNeedsLayout()
{
if (RenderBox* box = renderBox())
box->setNeedsLayout();
}
void Element::layout()
{
if (RenderBox* box = renderBox())
box->layoutIfNeeded();
}
void Element::childrenChanged(const ChildrenChange& change)
{
ContainerNode::childrenChanged(change);
}
#ifndef NDEBUG
void Element::formatForDebugger(char* buffer, unsigned length) const
{
StringBuilder result;
String s;
result.append(nodeName());
s = getIdAttribute();
if (s.length() > 0) {
if (result.length() > 0)
result.appendLiteral("; ");
result.appendLiteral("id=");
result.append(s);
}
s = getAttribute(HTMLNames::classAttr);
if (s.length() > 0) {
if (result.length() > 0)
result.appendLiteral("; ");
result.appendLiteral("class=");
result.append(s);
}
strncpy(buffer, result.toString().utf8().data(), length - 1);
}
#endif
void Element::removeAttributeInternal(size_t index, SynchronizationOfLazyAttribute inSynchronizationOfLazyAttribute)
{
MutableAttributeCollection attributes = ensureUniqueElementData().attributes();
ASSERT_WITH_SECURITY_IMPLICATION(index < attributes.size());
QualifiedName name = attributes[index].name();
AtomicString valueBeingRemoved = attributes[index].value();
if (!inSynchronizationOfLazyAttribute) {
if (!valueBeingRemoved.isNull())
willModifyAttribute(name, valueBeingRemoved, nullAtom);
}
attributes.remove(index);
if (!inSynchronizationOfLazyAttribute)
attributeChanged(name, nullAtom);
}
void Element::appendAttributeInternal(const QualifiedName& name, const AtomicString& value, SynchronizationOfLazyAttribute inSynchronizationOfLazyAttribute)
{
if (!inSynchronizationOfLazyAttribute)
willModifyAttribute(name, nullAtom, value);
ensureUniqueElementData().attributes().append(name, value);
if (!inSynchronizationOfLazyAttribute)
attributeChanged(name, value);
}
void Element::removeAttribute(const AtomicString& localName)
{
if (!elementData())
return;
size_t index = elementData()->attributes().findIndex(localName);
if (index == kNotFound) {
if (UNLIKELY(localName == HTMLNames::styleAttr) && elementData()->m_styleAttributeIsDirty && isStyledElement())
removeAllInlineStyleProperties();
return;
}
removeAttributeInternal(index, NotInSynchronizationOfLazyAttribute);
}
Vector<RefPtr<Attr>> Element::getAttributes()
{
if (!elementData())
return Vector<RefPtr<Attr>>();
synchronizeAllAttributes();
Vector<RefPtr<Attr>> attributes;
for (const Attribute& attribute : elementData()->attributes())
attributes.append(Attr::create(attribute.name(), attribute.value()));
return attributes;
}
RenderStyle* Element::computedStyle()
{
// FIXME: Find and use the renderer from the pseudo element instead of the actual element so that the 'length'
// properties, which are only known by the renderer because it did the layout, will be correct and so that the
// values returned for the ":selection" pseudo-element will be correct.
if (RenderStyle* usedStyle = renderStyle())
return usedStyle;
if (!inActiveDocument())
// FIXME: Try to do better than this. Ensure that styleForElement() works for elements that are not in the
// document tree and figure out when to destroy the computed style for such elements.
return 0;
ElementRareData& rareData = ensureElementRareData();
if (!rareData.computedStyle()) {
RenderStyle* parentStyle = parentNode() ? parentNode()->computedStyle() : 0;
rareData.setComputedStyle(document().styleResolver().styleForElement(this, parentStyle));
}
return rareData.computedStyle();
}
AtomicString Element::computeInheritedLanguage() const
{
const Node* n = this;
AtomicString value;
// The language property is inherited, so we iterate over the parents to find the first language.
do {
if (n->isElementNode()) {
if (const ElementData* elementData = toElement(n)->elementData()) {
AttributeCollection attributes = elementData->attributes();
if (const Attribute* attribute = attributes.find(HTMLNames::langAttr))
value = attribute->value();
}
} else if (n->isDocumentNode()) {
// checking the MIME content-language
value = toDocument(n)->contentLanguage();
}
n = n->parentNode();
} while (n && value.isNull());
return value;
}
bool Element::matches(const String& selectors, ExceptionState& exceptionState)
{
SelectorQuery* selectorQuery = document().selectorQueryCache().add(AtomicString(selectors), document(), exceptionState);
if (!selectorQuery)
return false;
return selectorQuery->matches(*this);
}
DOMTokenList& Element::classList()
{
ElementRareData& rareData = ensureElementRareData();
if (!rareData.classList())
rareData.setClassList(DOMTokenList::create(*this));
return *rareData.classList();
}
KURL Element::hrefURL() const
{
return KURL();
}
KURL Element::getURLAttribute(const QualifiedName& name) const
{
#if ENABLE(ASSERT)
if (elementData()) {
if (const Attribute* attribute = attributes().find(name))
ASSERT(isURLAttribute(*attribute));
}
#endif
return document().completeURL(stripLeadingAndTrailingHTMLSpaces(getAttribute(name)));
}
KURL Element::getNonEmptyURLAttribute(const QualifiedName& name) const
{
#if ENABLE(ASSERT)
if (elementData()) {
if (const Attribute* attribute = attributes().find(name))
ASSERT(isURLAttribute(*attribute));
}
#endif
String value = stripLeadingAndTrailingHTMLSpaces(getAttribute(name));
if (value.isEmpty())
return KURL();
return document().completeURL(value);
}
int Element::getIntegralAttribute(const QualifiedName& attributeName) const
{
return getAttribute(attributeName).string().toInt();
}
void Element::setIntegralAttribute(const QualifiedName& attributeName, int value)
{
setAttribute(attributeName, AtomicString::number(value));
}
unsigned Element::getUnsignedIntegralAttribute(const QualifiedName& attributeName) const
{
return getAttribute(attributeName).string().toUInt();
}
void Element::setUnsignedIntegralAttribute(const QualifiedName& attributeName, unsigned value)
{
// Range restrictions are enforced for unsigned IDL attributes that
// reflect content attributes,
// http://www.whatwg.org/specs/web-apps/current-work/multipage/common-dom-interfaces.html#reflecting-content-attributes-in-idl-attributes
if (value > 0x7fffffffu)
value = 0;
setAttribute(attributeName, AtomicString::number(value));
}
double Element::getFloatingPointAttribute(const QualifiedName& attributeName, double fallbackValue) const
{
return parseToDoubleForNumberType(getAttribute(attributeName), fallbackValue);
}
void Element::setFloatingPointAttribute(const QualifiedName& attributeName, double value)
{
setAttribute(attributeName, AtomicString::number(value));
}
SpellcheckAttributeState Element::spellcheckAttributeState() const
{
const AtomicString& value = getAttribute(HTMLNames::spellcheckAttr);
if (value == nullAtom)
return SpellcheckAttributeDefault;
if (equalIgnoringCase(value, "true") || equalIgnoringCase(value, ""))
return SpellcheckAttributeTrue;
if (equalIgnoringCase(value, "false"))
return SpellcheckAttributeFalse;
return SpellcheckAttributeDefault;
}
bool Element::isSpellCheckingEnabled() const
{
for (const Element* element = this; element; element = element->parentElement()) {
switch (element->spellcheckAttributeState()) {
case SpellcheckAttributeTrue:
return true;
case SpellcheckAttributeFalse:
return false;
case SpellcheckAttributeDefault:
break;
}
}
return true;
}
inline void Element::updateId(const AtomicString& oldId, const AtomicString& newId)
{
if (!isInTreeScope())
return;
if (oldId == newId)
return;
updateId(treeScope(), oldId, newId);
}
inline void Element::updateId(TreeScope& scope, const AtomicString& oldId, const AtomicString& newId)
{
ASSERT(isInTreeScope());
ASSERT(oldId != newId);
if (!oldId.isEmpty())
scope.removeElementById(oldId, this);
if (!newId.isEmpty())
scope.addElementById(newId, this);
}
void Element::willModifyAttribute(const QualifiedName& name, const AtomicString& oldValue, const AtomicString& newValue)
{
if (name == HTMLNames::idAttr)
updateId(oldValue, newValue);
if (inActiveDocument() && styleChangeType() < SubtreeStyleChange && affectedByAttributeSelector(name.localName()))
setNeedsStyleRecalc(LocalStyleChange);
if (OwnPtr<MutationObserverInterestGroup> recipients = MutationObserverInterestGroup::createForAttributesMutation(*this, name))
recipients->enqueueMutationRecord(MutationRecord::createAttributes(this, name, oldValue));
}
void Element::didMoveToNewDocument(Document& oldDocument)
{
Node::didMoveToNewDocument(oldDocument);
}
void Element::cloneAttributesFromElement(const Element& other)
{
other.synchronizeAllAttributes();
if (!other.m_elementData) {
m_elementData.clear();
return;
}
const AtomicString& oldID = getIdAttribute();
const AtomicString& newID = other.getIdAttribute();
if (!oldID.isNull() || !newID.isNull())
updateId(oldID, newID);
// If 'other' has a mutable ElementData, convert it to an immutable one so we can share it between both elements.
// We can only do this if there are no presentation attributes and sharing the data won't result in different case sensitivity of class or id.
if (other.m_elementData->isUnique())
const_cast<Element&>(other).m_elementData = toUniqueElementData(other.m_elementData)->makeShareableCopy();
if (!other.m_elementData->isUnique())
m_elementData = other.m_elementData;
else
m_elementData = other.m_elementData->makeUniqueCopy();
AttributeCollection attributes = m_elementData->attributes();
AttributeCollection::iterator end = attributes.end();
for (AttributeCollection::iterator it = attributes.begin(); it != end; ++it)
attributeChangedFromParserOrByCloning(it->name(), it->value(), ModifiedByCloning);
}
void Element::cloneDataFromElement(const Element& other)
{
// FIXME(sky): Merge these.
cloneAttributesFromElement(other);
}
void Element::createUniqueElementData()
{
if (!m_elementData)
m_elementData = UniqueElementData::create();
else {
ASSERT(!m_elementData->isUnique());
m_elementData = toShareableElementData(m_elementData)->makeUniqueCopy();
}
}
void Element::synchronizeStyleAttributeInternal() const
{
ASSERT(isStyledElement());
ASSERT(elementData());
ASSERT(elementData()->m_styleAttributeIsDirty);
elementData()->m_styleAttributeIsDirty = false;
const StylePropertySet* inlineStyle = this->inlineStyle();
const_cast<Element*>(this)->setSynchronizedLazyAttribute(HTMLNames::styleAttr,
inlineStyle ? AtomicString(inlineStyle->asText()) : nullAtom);
}
CSSStyleDeclaration* Element::style()
{
if (!isStyledElement())
return 0;
return &ensureElementRareData().ensureInlineCSSStyleDeclaration(this);
}
MutableStylePropertySet& Element::ensureMutableInlineStyle()
{
ASSERT(isStyledElement());
RefPtr<StylePropertySet>& inlineStyle = ensureUniqueElementData().m_inlineStyle;
if (!inlineStyle) {
inlineStyle = MutableStylePropertySet::create(HTMLStandardMode);
} else if (!inlineStyle->isMutable()) {
inlineStyle = inlineStyle->mutableCopy();
}
return *toMutableStylePropertySet(inlineStyle);
}
void Element::clearMutableInlineStyleIfEmpty()
{
if (ensureMutableInlineStyle().isEmpty()) {
ensureUniqueElementData().m_inlineStyle.clear();
}
}
inline void Element::setInlineStyleFromString(const AtomicString& newStyleString)
{
ASSERT(isStyledElement());
RefPtr<StylePropertySet>& inlineStyle = elementData()->m_inlineStyle;
// Avoid redundant work if we're using shared attribute data with already parsed inline style.
if (inlineStyle && !elementData()->isUnique())
return;
// We reconstruct the property set instead of mutating if there is no CSSOM wrapper.
// This makes wrapperless property sets immutable and so cacheable.
if (inlineStyle && !inlineStyle->isMutable())
inlineStyle.clear();
if (!inlineStyle) {
inlineStyle = BisonCSSParser::parseInlineStyleDeclaration(newStyleString, this);
} else {
ASSERT(inlineStyle->isMutable());
static_cast<MutableStylePropertySet*>(inlineStyle.get())->parseDeclaration(newStyleString, document().elementSheet().contents());
}
}
void Element::styleAttributeChanged(const AtomicString& newStyleString)
{
ASSERT(isStyledElement());
if (newStyleString.isNull()) {
ensureUniqueElementData().m_inlineStyle.clear();
} else {
setInlineStyleFromString(newStyleString);
}
elementData()->m_styleAttributeIsDirty = false;
setNeedsStyleRecalc(LocalStyleChange);
}
void Element::inlineStyleChanged()
{
ASSERT(isStyledElement());
setNeedsStyleRecalc(LocalStyleChange);
ASSERT(elementData());
elementData()->m_styleAttributeIsDirty = true;
}
bool Element::setInlineStyleProperty(CSSPropertyID propertyID, CSSValueID identifier)
{
ASSERT(isStyledElement());
ensureMutableInlineStyle().setProperty(propertyID, cssValuePool().createIdentifierValue(identifier));
inlineStyleChanged();
return true;
}
bool Element::setInlineStyleProperty(CSSPropertyID propertyID, double value, CSSPrimitiveValue::UnitType unit)
{
ASSERT(isStyledElement());
ensureMutableInlineStyle().setProperty(propertyID, cssValuePool().createValue(value, unit));
inlineStyleChanged();
return true;
}
bool Element::setInlineStyleProperty(CSSPropertyID propertyID, const String& value)
{
ASSERT(isStyledElement());
bool changes = ensureMutableInlineStyle().setProperty(propertyID, value, document().elementSheet().contents());
if (changes)
inlineStyleChanged();
return changes;
}
bool Element::removeInlineStyleProperty(CSSPropertyID propertyID)
{
ASSERT(isStyledElement());
if (!inlineStyle())
return false;
bool changes = ensureMutableInlineStyle().removeProperty(propertyID);
if (changes)
inlineStyleChanged();
return changes;
}
void Element::removeAllInlineStyleProperties()
{
ASSERT(isStyledElement());
if (!inlineStyle())
return;
ensureMutableInlineStyle().clear();
inlineStyleChanged();
}
bool Element::supportsStyleSharing() const
{
if (!isStyledElement() || !parentElement())
return false;
// If the element has inline style it is probably unique.
if (inlineStyle())
return false;
// Ids stop style sharing if they show up in the stylesheets.
if (hasID() && affectedByIdSelector(idForStyleResolution()))
return false;
// :active and :hover elements always make a chain towards the document node
// and no siblings or cousins will have the same state.
if (isUserActionElement())
return false;
return true;
}
bool Element::affectedByAttributeSelector(const AtomicString& attributeName) const
{
if (attributeName.isEmpty())
return false;
if (treeScope().scopedStyleResolver().hasSelectorForAttribute(attributeName))
return true;
return false;
}
bool Element::affectedByClassSelector(const AtomicString& classValue) const
{
if (classValue.isEmpty())
return false;
if (treeScope().scopedStyleResolver().hasSelectorForClass(classValue))
return true;
return false;
}
bool Element::affectedByIdSelector(const AtomicString& idValue) const
{
if (idValue.isEmpty())
return false;
if (treeScope().scopedStyleResolver().hasSelectorForId(idValue))
return true;
return false;
}
void Element::paint(Canvas* canvas)
{
if (!renderer() || !renderer()->isBox())
return;
RenderBox* box = toRenderBox(renderer());
GraphicsContext context(canvas->skCanvas());
// Very simplified painting to allow painting an arbitrary (layer-less) subtree.
Vector<RenderBox*> layers;
PaintInfo paintInfo(&context, box->absoluteBoundingBoxRect(), box);
box->paint(paintInfo, LayoutPoint(), layers);
// Note we're ignoring any layers encountered.
}
} // namespace blink