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chromium / chromium / src / b5cff0041ec225f4eaac870e87d6189321754983 / . / third_party / WebKit / Source / core / dom / Element.cpp
blob: fe8604310d47a71169437b7a869c090019b0282b [file] [log] [blame]
/*
* 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 "core/dom/Element.h"
#include "bindings/core/v8/DOMDataStore.h"
#include "bindings/core/v8/Dictionary.h"
#include "bindings/core/v8/ExceptionMessages.h"
#include "bindings/core/v8/ExceptionState.h"
#include "bindings/core/v8/V8DOMActivityLogger.h"
#include "bindings/core/v8/V8DOMWrapper.h"
#include "bindings/core/v8/V8PerContextData.h"
#include "core/CSSValueKeywords.h"
#include "core/SVGNames.h"
#include "core/XLinkNames.h"
#include "core/XMLNames.h"
#include "core/animation/AnimationTimeline.h"
#include "core/animation/css/CSSAnimations.h"
#include "core/css/CSSImageValue.h"
#include "core/css/CSSStyleSheet.h"
#include "core/css/CSSValuePool.h"
#include "core/css/PropertySetCSSStyleDeclaration.h"
#include "core/css/StylePropertySet.h"
#include "core/css/parser/CSSParser.h"
#include "core/css/resolver/StyleResolver.h"
#include "core/css/resolver/StyleResolverParentScope.h"
#include "core/css/resolver/StyleResolverStats.h"
#include "core/dom/AXObjectCache.h"
#include "core/dom/Attr.h"
#include "core/dom/CSSSelectorWatch.h"
#include "core/dom/ClientRect.h"
#include "core/dom/ClientRectList.h"
#include "core/dom/DatasetDOMStringMap.h"
#include "core/dom/ElementDataCache.h"
#include "core/dom/ElementIntersectionObserverData.h"
#include "core/dom/ElementRareData.h"
#include "core/dom/ElementTraversal.h"
#include "core/dom/ExceptionCode.h"
#include "core/dom/FirstLetterPseudoElement.h"
#include "core/dom/Fullscreen.h"
#include "core/dom/LayoutTreeBuilder.h"
#include "core/dom/MutationObserverInterestGroup.h"
#include "core/dom/MutationRecord.h"
#include "core/dom/NamedNodeMap.h"
#include "core/dom/NodeComputedStyle.h"
#include "core/dom/PresentationAttributeStyle.h"
#include "core/dom/PseudoElement.h"
#include "core/dom/ScriptableDocumentParser.h"
#include "core/dom/SelectorQuery.h"
#include "core/dom/StyleChangeReason.h"
#include "core/dom/StyleEngine.h"
#include "core/dom/Text.h"
#include "core/dom/custom/CustomElement.h"
#include "core/dom/custom/CustomElementRegistrationContext.h"
#include "core/dom/shadow/InsertionPoint.h"
#include "core/dom/shadow/ShadowRoot.h"
#include "core/dom/shadow/ShadowRootInit.h"
#include "core/editing/EditingUtilities.h"
#include "core/editing/FrameSelection.h"
#include "core/editing/iterators/TextIterator.h"
#include "core/editing/serializers/Serialization.h"
#include "core/events/EventDispatcher.h"
#include "core/events/FocusEvent.h"
#include "core/frame/FrameHost.h"
#include "core/frame/FrameView.h"
#include "core/frame/LocalDOMWindow.h"
#include "core/frame/LocalFrame.h"
#include "core/frame/OriginsUsingFeatures.h"
#include "core/frame/ScrollToOptions.h"
#include "core/frame/Settings.h"
#include "core/frame/UseCounter.h"
#include "core/frame/csp/ContentSecurityPolicy.h"
#include "core/html/ClassList.h"
#include "core/html/HTMLCanvasElement.h"
#include "core/html/HTMLCollection.h"
#include "core/html/HTMLDocument.h"
#include "core/html/HTMLElement.h"
#include "core/html/HTMLFormControlsCollection.h"
#include "core/html/HTMLFrameElementBase.h"
#include "core/html/HTMLFrameOwnerElement.h"
#include "core/html/HTMLOptionsCollection.h"
#include "core/html/HTMLPlugInElement.h"
#include "core/html/HTMLTableRowsCollection.h"
#include "core/html/HTMLTemplateElement.h"
#include "core/html/parser/HTMLParserIdioms.h"
#include "core/inspector/InspectorInstrumentation.h"
#include "core/layout/LayoutTextFragment.h"
#include "core/layout/LayoutView.h"
#include "core/loader/DocumentLoader.h"
#include "core/page/ChromeClient.h"
#include "core/page/FocusController.h"
#include "core/page/Page.h"
#include "core/page/PointerLockController.h"
#include "core/page/SpatialNavigation.h"
#include "core/page/scrolling/ScrollCustomizationCallbacks.h"
#include "core/page/scrolling/ScrollState.h"
#include "core/page/scrolling/ScrollStateCallback.h"
#include "core/paint/PaintLayer.h"
#include "core/svg/SVGDocumentExtensions.h"
#include "core/svg/SVGElement.h"
#include "platform/EventDispatchForbiddenScope.h"
#include "platform/RuntimeEnabledFeatures.h"
#include "platform/UserGestureIndicator.h"
#include "platform/scroll/ScrollableArea.h"
#include "wtf/BitVector.h"
#include "wtf/HashFunctions.h"
#include "wtf/text/CString.h"
#include "wtf/text/StringBuilder.h"
#include "wtf/text/TextPosition.h"
namespace blink {
namespace {
// We need to retain the scroll customization callbacks until the element
// they're associated with is destroyed. It would be simplest if the callbacks
// could be stored in ElementRareData, but we can't afford the space
// increase. Instead, keep the scroll customization callbacks here. The other
// option would be to store these callbacks on the FrameHost or document, but
// that necessitates a bunch more logic for transferring the callbacks between
// FrameHosts when elements are moved around.
ScrollCustomizationCallbacks& scrollCustomizationCallbacks()
{
ASSERT(RuntimeEnabledFeatures::scrollCustomizationEnabled());
DEFINE_STATIC_LOCAL(Persistent<ScrollCustomizationCallbacks>,
scrollCustomizationCallbacks, (new ScrollCustomizationCallbacks()));
return *scrollCustomizationCallbacks;
}
} // namespace
using namespace HTMLNames;
using namespace XMLNames;
enum class ClassStringContent { Empty, WhiteSpaceOnly, HasClasses };
PassRefPtrWillBeRawPtr<Element> Element::create(const QualifiedName& tagName, Document* document)
{
return adoptRefWillBeNoop(new Element(tagName, document, CreateElement));
}
Element::Element(const QualifiedName& tagName, Document* document, ConstructionType type)
: ContainerNode(document, type)
, m_tagName(tagName)
{
}
Element::~Element()
{
ASSERT(needsAttach());
#if !ENABLE(OILPAN)
if (hasRareData()) {
elementRareData()->clearShadow();
detachAllAttrNodesFromElement();
}
if (isCustomElement())
CustomElement::wasDestroyed(this);
if (RuntimeEnabledFeatures::scrollCustomizationEnabled())
scrollCustomizationCallbacks().removeCallbacksForElement(this);
// With Oilpan, either the Element has been removed from the Document
// or the Document is dead as well. If the Element has been removed from
// the Document the element has already been removed from the pending
// resources. If the document is also dead, there is no need to remove
// the element from the pending resources.
if (hasPendingResources()) {
document().accessSVGExtensions().removeElementFromPendingResources(this);
ASSERT(!hasPendingResources());
}
#endif
}
inline ElementRareData* Element::elementRareData() const
{
ASSERT(hasRareData());
return static_cast<ElementRareData*>(rareData());
}
inline ElementRareData& Element::ensureElementRareData()
{
return static_cast<ElementRareData&>(ensureRareData());
}
bool Element::hasElementFlagInternal(ElementFlags mask) const
{
return elementRareData()->hasElementFlag(mask);
}
void Element::setElementFlag(ElementFlags mask, bool value)
{
if (!hasRareData() && !value)
return;
ensureElementRareData().setElementFlag(mask, value);
}
void Element::clearElementFlag(ElementFlags mask)
{
if (!hasRareData())
return;
elementRareData()->clearElementFlag(mask);
}
void Element::clearTabIndexExplicitlyIfNeeded()
{
if (hasRareData())
elementRareData()->clearTabIndexExplicitly();
}
void Element::setTabIndexExplicitly(short tabIndex)
{
ensureElementRareData().setTabIndexExplicitly(tabIndex);
}
void Element::setTabIndex(int value)
{
setIntegralAttribute(tabindexAttr, value);
}
short Element::tabIndex() const
{
return hasRareData() ? elementRareData()->tabIndex() : 0;
}
bool Element::layoutObjectIsFocusable() const
{
// Elements in canvas fallback content are not rendered, but they are allowed to be
// focusable as long as their canvas is displayed and visible.
if (isInCanvasSubtree()) {
const HTMLCanvasElement* canvas = Traversal<HTMLCanvasElement>::firstAncestorOrSelf(*this);
ASSERT(canvas);
return canvas->layoutObject() && canvas->layoutObject()->style()->visibility() == VISIBLE;
}
// FIXME: These asserts should be in Node::isFocusable, but there are some
// callsites like Document::setFocusedElement that would currently fail on
// them. See crbug.com/251163
if (!layoutObject()) {
// We can't just use needsStyleRecalc() because if the node is in a
// display:none tree it might say it needs style recalc but the whole
// document is actually up to date.
// In addition, style cannot be cleared out for non-active documents,
// so in that case the childNeedsStyleRecalc check is invalid.
ASSERT(!document().isActive() || !document().childNeedsStyleRecalc());
}
// FIXME: Even if we are not visible, we might have a child that is visible.
// Hyatt wants to fix that some day with a "has visible content" flag or the like.
if (!layoutObject() || layoutObject()->style()->visibility() != VISIBLE)
return false;
return true;
}
PassRefPtrWillBeRawPtr<Node> Element::cloneNode(bool deep)
{
return deep ? cloneElementWithChildren() : cloneElementWithoutChildren();
}
PassRefPtrWillBeRawPtr<Element> Element::cloneElementWithChildren()
{
RefPtrWillBeRawPtr<Element> clone = cloneElementWithoutChildren();
cloneChildNodes(clone.get());
return clone.release();
}
PassRefPtrWillBeRawPtr<Element> Element::cloneElementWithoutChildren()
{
RefPtrWillBeRawPtr<Element> clone = cloneElementWithoutAttributesAndChildren();
// This will catch HTML elements in the wrong namespace that are not correctly copied.
// This is a sanity check as HTML overloads some of the DOM methods.
ASSERT(isHTMLElement() == clone->isHTMLElement());
clone->cloneDataFromElement(*this);
return clone.release();
}
PassRefPtrWillBeRawPtr<Element> Element::cloneElementWithoutAttributesAndChildren()
{
return document().createElement(tagQName(), false);
}
PassRefPtrWillBeRawPtr<Attr> Element::detachAttribute(size_t index)
{
ASSERT(elementData());
const Attribute& attribute = elementData()->attributes().at(index);
RefPtrWillBeRawPtr<Attr> attrNode = attrIfExists(attribute.name());
if (attrNode) {
detachAttrNodeAtIndex(attrNode.get(), index);
} else {
attrNode = Attr::create(document(), attribute.name(), attribute.value());
removeAttributeInternal(index, NotInSynchronizationOfLazyAttribute);
}
return attrNode.release();
}
void Element::detachAttrNodeAtIndex(Attr* attr, size_t index)
{
ASSERT(attr);
ASSERT(elementData());
const Attribute& attribute = elementData()->attributes().at(index);
ASSERT(attribute.name() == attr->qualifiedName());
detachAttrNodeFromElementWithValue(attr, attribute.value());
removeAttributeInternal(index, NotInSynchronizationOfLazyAttribute);
}
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);
}
NamedNodeMap* Element::attributesForBindings() const
{
ElementRareData& rareData = const_cast<Element*>(this)->ensureElementRareData();
if (NamedNodeMap* attributeMap = rareData.attributeMap())
return attributeMap;
rareData.setAttributeMap(NamedNodeMap::create(const_cast<Element*>(this)));
return rareData.attributeMap();
}
ElementAnimations* Element::elementAnimations() const
{
if (hasRareData())
return elementRareData()->elementAnimations();
return nullptr;
}
ElementAnimations& Element::ensureElementAnimations()
{
ElementRareData& rareData = ensureElementRareData();
if (!rareData.elementAnimations())
rareData.setElementAnimations(new ElementAnimations());
return *rareData.elementAnimations();
}
bool Element::hasAnimations() const
{
if (!hasRareData())
return false;
ElementAnimations* elementAnimations = elementRareData()->elementAnimations();
return elementAnimations && !elementAnimations->isEmpty();
}
Node::NodeType Element::nodeType() const
{
return ELEMENT_NODE;
}
bool Element::hasAttribute(const QualifiedName& name) const
{
return hasAttributeNS(name.namespaceURI(), name.localName());
}
void Element::synchronizeAllAttributes() const
{
if (!elementData())
return;
// NOTE: anyAttributeMatches in SelectorChecker.cpp
// currently assumes that all lazy attributes have a null namespace.
// If that ever changes we'll need to fix that code.
if (elementData()->m_styleAttributeIsDirty) {
ASSERT(isStyledElement());
synchronizeStyleAttributeInternal();
}
if (elementData()->m_animatedSVGAttributesAreDirty) {
ASSERT(isSVGElement());
toSVGElement(this)->synchronizeAnimatedSVGAttribute(anyQName());
}
}
inline void Element::synchronizeAttribute(const QualifiedName& name) const
{
if (!elementData())
return;
if (UNLIKELY(name == styleAttr && elementData()->m_styleAttributeIsDirty)) {
ASSERT(isStyledElement());
synchronizeStyleAttributeInternal();
return;
}
if (UNLIKELY(elementData()->m_animatedSVGAttributesAreDirty)) {
ASSERT(isSVGElement());
// See comment in the AtomicString version of synchronizeAttribute()
// also.
toSVGElement(this)->synchronizeAnimatedSVGAttribute(name);
}
}
void Element::synchronizeAttribute(const AtomicString& localName) const
{
// This version of synchronizeAttribute() is streamlined for the case where you don't have a full QualifiedName,
// e.g when called from DOM API.
if (!elementData())
return;
if (elementData()->m_styleAttributeIsDirty && equalPossiblyIgnoringCase(localName, styleAttr.localName(), shouldIgnoreAttributeCase())) {
ASSERT(isStyledElement());
synchronizeStyleAttributeInternal();
return;
}
if (elementData()->m_animatedSVGAttributesAreDirty) {
// We're not passing a namespace argument on purpose. SVGNames::*Attr are defined w/o namespaces as well.
// FIXME: this code is called regardless of whether name is an
// animated SVG Attribute. It would seem we should only call this method
// if SVGElement::isAnimatableAttribute is true, but the list of
// animatable attributes in isAnimatableAttribute does not suffice to
// pass all layout tests. Also, m_animatedSVGAttributesAreDirty stays
// dirty unless synchronizeAnimatedSVGAttribute is called with
// anyQName(). This means that even if Element::synchronizeAttribute()
// is called on all attributes, m_animatedSVGAttributesAreDirty remains
// true.
toSVGElement(this)->synchronizeAnimatedSVGAttribute(QualifiedName(nullAtom, localName, nullAtom));
}
}
const AtomicString& Element::getAttribute(const QualifiedName& name) const
{
if (!elementData())
return nullAtom;
synchronizeAttribute(name);
if (const Attribute* attribute = elementData()->attributes().find(name))
return attribute->value();
return nullAtom;
}
bool Element::shouldIgnoreAttributeCase() const
{
return isHTMLElement() && document().isHTMLDocument();
}
void Element::scrollIntoView(bool alignToTop)
{
document().updateLayoutIgnorePendingStylesheets();
if (!layoutObject())
return;
bool makeVisibleInVisualViewport = !document().page()->settings().inertVisualViewport();
LayoutRect bounds = boundingBox();
// Align to the top / bottom and to the closest edge.
if (alignToTop)
layoutObject()->scrollRectToVisible(bounds, ScrollAlignment::alignToEdgeIfNeeded, ScrollAlignment::alignTopAlways, ProgrammaticScroll, makeVisibleInVisualViewport);
else
layoutObject()->scrollRectToVisible(bounds, ScrollAlignment::alignToEdgeIfNeeded, ScrollAlignment::alignBottomAlways, ProgrammaticScroll, makeVisibleInVisualViewport);
}
void Element::scrollIntoViewIfNeeded(bool centerIfNeeded)
{
document().updateLayoutIgnorePendingStylesheets();
if (!layoutObject())
return;
bool makeVisibleInVisualViewport = !document().page()->settings().inertVisualViewport();
LayoutRect bounds = boundingBox();
if (centerIfNeeded)
layoutObject()->scrollRectToVisible(bounds, ScrollAlignment::alignCenterIfNeeded, ScrollAlignment::alignCenterIfNeeded, ProgrammaticScroll, makeVisibleInVisualViewport);
else
layoutObject()->scrollRectToVisible(bounds, ScrollAlignment::alignToEdgeIfNeeded, ScrollAlignment::alignToEdgeIfNeeded, ProgrammaticScroll, makeVisibleInVisualViewport);
}
void Element::setDistributeScroll(ScrollStateCallback* scrollStateCallback, String nativeScrollBehavior)
{
scrollStateCallback->setNativeScrollBehavior(ScrollStateCallback::toNativeScrollBehavior(nativeScrollBehavior));
scrollCustomizationCallbacks().setDistributeScroll(this, scrollStateCallback);
}
void Element::setApplyScroll(ScrollStateCallback* scrollStateCallback, String nativeScrollBehavior)
{
scrollStateCallback->setNativeScrollBehavior(ScrollStateCallback::toNativeScrollBehavior(nativeScrollBehavior));
scrollCustomizationCallbacks().setApplyScroll(this, scrollStateCallback);
}
void Element::nativeDistributeScroll(ScrollState& scrollState)
{
ASSERT(RuntimeEnabledFeatures::scrollCustomizationEnabled());
if (scrollState.fullyConsumed())
return;
scrollState.distributeToScrollChainDescendant();
// If the scroll doesn't propagate, and we're currently scrolling
// an element other than this one, prevent the scroll from
// propagating to this element.
if (!scrollState.shouldPropagate()
&& scrollState.deltaConsumedForScrollSequence()
&& scrollState.currentNativeScrollingElement() != this) {
return;
}
const double deltaX = scrollState.deltaX();
const double deltaY = scrollState.deltaY();
callApplyScroll(scrollState);
if (deltaX != scrollState.deltaX() || deltaY != scrollState.deltaY())
scrollState.setCurrentNativeScrollingElement(this);
}
void Element::callDistributeScroll(ScrollState& scrollState)
{
ScrollStateCallback* callback = scrollCustomizationCallbacks().getDistributeScroll(this);
if (!callback) {
nativeDistributeScroll(scrollState);
return;
}
if (callback->nativeScrollBehavior() != WebNativeScrollBehavior::PerformAfterNativeScroll)
callback->handleEvent(&scrollState);
if (callback->nativeScrollBehavior() != WebNativeScrollBehavior::DisableNativeScroll)
nativeDistributeScroll(scrollState);
if (callback->nativeScrollBehavior() == WebNativeScrollBehavior::PerformAfterNativeScroll)
callback->handleEvent(&scrollState);
};
void Element::nativeApplyScroll(ScrollState& scrollState)
{
ASSERT(RuntimeEnabledFeatures::scrollCustomizationEnabled());
if (scrollState.fullyConsumed())
return;
const double deltaX = scrollState.deltaX();
const double deltaY = scrollState.deltaY();
bool scrolled = false;
if (deltaY || deltaX)
document().updateLayoutIgnorePendingStylesheets();
// Handle the scrollingElement separately, as it scrolls the viewport.
if (this == document().scrollingElement()) {
FloatSize delta(deltaX, deltaY);
if (document().frame()->applyScrollDelta(delta, scrollState.isBeginning()).didScroll()) {
scrolled = true;
scrollState.consumeDeltaNative(scrollState.deltaX(), scrollState.deltaY());
}
} else {
if (!layoutObject())
return;
LayoutBox* curBox = layoutObject()->enclosingBox();
// FIXME: Native scrollers should only consume the scroll they
// apply. See crbug.com/457765.
if (deltaX && curBox->scroll(ScrollLeft, ScrollByPrecisePixel, deltaX).didScroll) {
scrollState.consumeDeltaNative(scrollState.deltaX(), 0);
scrolled = true;
}
if (deltaY && curBox->scroll(ScrollUp, ScrollByPrecisePixel, deltaY).didScroll) {
scrollState.consumeDeltaNative(0, scrollState.deltaY());
scrolled = true;
}
}
if (!scrolled)
return;
// We need to setCurrentNativeScrollingElement in both the
// distributeScroll and applyScroll default implementations so
// that if JS overrides one of these methods, but not the
// other, this bookkeeping remains accurate.
scrollState.setCurrentNativeScrollingElement(this);
if (scrollState.fromUserInput()) {
if (DocumentLoader* documentLoader = document().loader())
documentLoader->initialScrollState().wasScrolledByUser = true;
}
};
void Element::callApplyScroll(ScrollState& scrollState)
{
ScrollStateCallback* callback = scrollCustomizationCallbacks().getApplyScroll(this);
if (!callback) {
nativeApplyScroll(scrollState);
return;
}
if (callback->nativeScrollBehavior() != WebNativeScrollBehavior::PerformAfterNativeScroll)
callback->handleEvent(&scrollState);
if (callback->nativeScrollBehavior() != WebNativeScrollBehavior::DisableNativeScroll)
nativeApplyScroll(scrollState);
if (callback->nativeScrollBehavior() == WebNativeScrollBehavior::PerformAfterNativeScroll)
callback->handleEvent(&scrollState);
};
static float localZoomForLayoutObject(LayoutObject& layoutObject)
{
// FIXME: This does the wrong thing if two opposing zooms are in effect and canceled each
// other out, but the alternative is that we'd have to crawl up the whole layout tree every
// time (or store an additional bit in the ComputedStyle to indicate that a zoom was specified).
float zoomFactor = 1;
if (layoutObject.style()->effectiveZoom() != 1) {
// Need to find the nearest enclosing LayoutObject that set up
// a differing zoom, and then we divide our result by it to eliminate the zoom.
LayoutObject* prev = &layoutObject;
for (LayoutObject* curr = prev->parent(); curr; curr = curr->parent()) {
if (curr->style()->effectiveZoom() != prev->style()->effectiveZoom()) {
zoomFactor = prev->style()->zoom();
break;
}
prev = curr;
}
if (prev->isLayoutView())
zoomFactor = prev->style()->zoom();
}
return zoomFactor;
}
static double adjustForLocalZoom(LayoutUnit value, LayoutObject& layoutObject)
{
float zoomFactor = localZoomForLayoutObject(layoutObject);
if (zoomFactor == 1)
return value.toDouble();
return value.toDouble() / zoomFactor;
}
int Element::offsetLeft()
{
document().updateLayoutIgnorePendingStylesheets();
if (LayoutBoxModelObject* layoutObject = layoutBoxModelObject())
return lroundf(adjustForLocalZoom(layoutObject->offsetLeft(), *layoutObject));
return 0;
}
int Element::offsetTop()
{
document().updateLayoutIgnorePendingStylesheets();
if (LayoutBoxModelObject* layoutObject = layoutBoxModelObject())
return lroundf(adjustForLocalZoom(layoutObject->pixelSnappedOffsetTop(), *layoutObject));
return 0;
}
int Element::offsetWidth()
{
document().updateLayoutIgnorePendingStylesheets();
if (LayoutBoxModelObject* layoutObject = layoutBoxModelObject())
return adjustLayoutUnitForAbsoluteZoom(layoutObject->pixelSnappedOffsetWidth(), *layoutObject).round();
return 0;
}
int Element::offsetHeight()
{
document().updateLayoutIgnorePendingStylesheets();
if (LayoutBoxModelObject* layoutObject = layoutBoxModelObject())
return adjustLayoutUnitForAbsoluteZoom(layoutObject->pixelSnappedOffsetHeight(), *layoutObject).round();
return 0;
}
Element* Element::offsetParent()
{
document().updateLayoutIgnorePendingStylesheets();
LayoutObject* layoutObject = this->layoutObject();
if (!layoutObject)
return nullptr;
Element* element = layoutObject->offsetParent();
if (!element)
return nullptr;
if (element->isInShadowTree() && !element->containingShadowRoot()->isOpenOrV0())
return nullptr;
return element;
}
int Element::clientLeft()
{
document().updateLayoutIgnorePendingStylesheets();
if (LayoutBox* layoutObject = layoutBox())
return adjustLayoutUnitForAbsoluteZoom(roundToInt(layoutObject->clientLeft()), *layoutObject);
return 0;
}
int Element::clientTop()
{
document().updateLayoutIgnorePendingStylesheets();
if (LayoutBox* layoutObject = layoutBox())
return adjustLayoutUnitForAbsoluteZoom(roundToInt(layoutObject->clientTop()), *layoutObject);
return 0;
}
int Element::clientWidth()
{
document().updateLayoutIgnorePendingStylesheets();
// When in strict mode, clientWidth for the document element should return the width of the containing frame.
// When in quirks mode, clientWidth for the body element should return the width of the containing frame.
bool inQuirksMode = document().inQuirksMode();
if ((!inQuirksMode && document().documentElement() == this)
|| (inQuirksMode && isHTMLElement() && document().body() == this)) {
if (LayoutView* layoutView = document().layoutView()) {
if (document().page()->settings().forceZeroLayoutHeight())
return adjustLayoutUnitForAbsoluteZoom(layoutView->overflowClipRect(LayoutPoint()).width(), *layoutView);
return adjustLayoutUnitForAbsoluteZoom(layoutView->layoutSize().width(), *layoutView);
}
}
if (LayoutBox* layoutObject = layoutBox())
return adjustLayoutUnitForAbsoluteZoom(layoutObject->pixelSnappedClientWidth(), *layoutObject).round();
return 0;
}
int Element::clientHeight()
{
document().updateLayoutIgnorePendingStylesheets();
// When in strict mode, clientHeight for the document element should return the height of the containing frame.
// When in quirks mode, clientHeight for the body element should return the height of the containing frame.
bool inQuirksMode = document().inQuirksMode();
if ((!inQuirksMode && document().documentElement() == this)
|| (inQuirksMode && isHTMLElement() && document().body() == this)) {
if (LayoutView* layoutView = document().layoutView()) {
if (document().page()->settings().forceZeroLayoutHeight())
return adjustLayoutUnitForAbsoluteZoom(layoutView->overflowClipRect(LayoutPoint()).height(), *layoutView);
return adjustLayoutUnitForAbsoluteZoom(layoutView->layoutSize().height(), *layoutView);
}
}
if (LayoutBox* layoutObject = layoutBox())
return adjustLayoutUnitForAbsoluteZoom(layoutObject->pixelSnappedClientHeight(), *layoutObject).round();
return 0;
}
double Element::scrollLeft()
{
document().updateLayoutIgnorePendingStylesheets();
if (document().scrollingElement() == this) {
if (document().domWindow())
return document().domWindow()->scrollX();
return 0;
}
if (LayoutBox* box = layoutBox())
return adjustScrollForAbsoluteZoom(box->scrollLeft(), *box);
return 0;
}
double Element::scrollTop()
{
document().updateLayoutIgnorePendingStylesheets();
if (document().scrollingElement() == this) {
if (document().domWindow())
return document().domWindow()->scrollY();
return 0;
}
if (LayoutBox* box = layoutBox())
return adjustScrollForAbsoluteZoom(box->scrollTop(), *box);
return 0;
}
void Element::setScrollLeft(double newLeft)
{
document().updateLayoutIgnorePendingStylesheets();
newLeft = ScrollableArea::normalizeNonFiniteScroll(newLeft);
if (document().scrollingElement() == this) {
if (LocalDOMWindow* window = document().domWindow())
window->scrollTo(newLeft, window->scrollY());
} else {
LayoutBox* box = layoutBox();
if (box)
box->setScrollLeft(LayoutUnit::fromFloatRound(newLeft * box->style()->effectiveZoom()));
}
}
void Element::setScrollTop(double newTop)
{
document().updateLayoutIgnorePendingStylesheets();
newTop = ScrollableArea::normalizeNonFiniteScroll(newTop);
if (document().scrollingElement() == this) {
if (LocalDOMWindow* window = document().domWindow())
window->scrollTo(window->scrollX(), newTop);
} else {
LayoutBox* box = layoutBox();
if (box)
box->setScrollTop(LayoutUnit::fromFloatRound(newTop * box->style()->effectiveZoom()));
}
}
int Element::scrollWidth()
{
document().updateLayoutIgnorePendingStylesheets();
if (document().scrollingElement() == this) {
if (document().view())
return adjustForAbsoluteZoom(document().view()->contentsWidth(), document().frame()->pageZoomFactor());
return 0;
}
if (LayoutBox* box = layoutBox())
return adjustForAbsoluteZoom(box->pixelSnappedScrollWidth(), box);
return 0;
}
int Element::scrollHeight()
{
document().updateLayoutIgnorePendingStylesheets();
if (document().scrollingElement() == this) {
if (document().view())
return adjustForAbsoluteZoom(document().view()->contentsHeight(), document().frame()->pageZoomFactor());
return 0;
}
if (LayoutBox* box = layoutBox())
return adjustForAbsoluteZoom(box->pixelSnappedScrollHeight(), box);
return 0;
}
void Element::scrollBy(double x, double y)
{
ScrollToOptions scrollToOptions;
scrollToOptions.setLeft(x);
scrollToOptions.setTop(y);
scrollBy(scrollToOptions);
}
void Element::scrollBy(const ScrollToOptions& scrollToOptions)
{
// FIXME: This should be removed once scroll updates are processed only after
// the compositing update. See http://crbug.com/420741.
document().updateLayoutIgnorePendingStylesheets();
if (document().scrollingElement() == this) {
scrollFrameBy(scrollToOptions);
} else {
scrollLayoutBoxBy(scrollToOptions);
}
}
void Element::scrollTo(double x, double y)
{
ScrollToOptions scrollToOptions;
scrollToOptions.setLeft(x);
scrollToOptions.setTop(y);
scrollTo(scrollToOptions);
}
void Element::scrollTo(const ScrollToOptions& scrollToOptions)
{
// FIXME: This should be removed once scroll updates are processed only after
// the compositing update. See http://crbug.com/420741.
document().updateLayoutIgnorePendingStylesheets();
if (document().scrollingElement() == this) {
scrollFrameTo(scrollToOptions);
} else {
scrollLayoutBoxTo(scrollToOptions);
}
}
void Element::scrollLayoutBoxBy(const ScrollToOptions& scrollToOptions)
{
double left = scrollToOptions.hasLeft() ? ScrollableArea::normalizeNonFiniteScroll(scrollToOptions.left()) : 0.0;
double top = scrollToOptions.hasTop() ? ScrollableArea::normalizeNonFiniteScroll(scrollToOptions.top()) : 0.0;
ScrollBehavior scrollBehavior = ScrollBehaviorAuto;
ScrollableArea::scrollBehaviorFromString(scrollToOptions.behavior(), scrollBehavior);
LayoutBox* box = layoutBox();
if (box) {
double currentScaledLeft = box->scrollLeft();
double currentScaledTop = box->scrollTop();
double newScaledLeft = left * box->style()->effectiveZoom() + currentScaledLeft;
double newScaledTop = top * box->style()->effectiveZoom() + currentScaledTop;
box->scrollToOffset(DoubleSize(newScaledLeft, newScaledTop), scrollBehavior);
}
}
void Element::scrollLayoutBoxTo(const ScrollToOptions& scrollToOptions)
{
ScrollBehavior scrollBehavior = ScrollBehaviorAuto;
ScrollableArea::scrollBehaviorFromString(scrollToOptions.behavior(), scrollBehavior);
LayoutBox* box = layoutBox();
if (box) {
double scaledLeft = box->scrollLeft();
double scaledTop = box->scrollTop();
if (scrollToOptions.hasLeft())
scaledLeft = ScrollableArea::normalizeNonFiniteScroll(scrollToOptions.left()) * box->style()->effectiveZoom();
if (scrollToOptions.hasTop())
scaledTop = ScrollableArea::normalizeNonFiniteScroll(scrollToOptions.top()) * box->style()->effectiveZoom();
box->scrollToOffset(DoubleSize(scaledLeft, scaledTop), scrollBehavior);
}
}
void Element::scrollFrameBy(const ScrollToOptions& scrollToOptions)
{
double left = scrollToOptions.hasLeft() ? ScrollableArea::normalizeNonFiniteScroll(scrollToOptions.left()) : 0.0;
double top = scrollToOptions.hasTop() ? ScrollableArea::normalizeNonFiniteScroll(scrollToOptions.top()) : 0.0;
ScrollBehavior scrollBehavior = ScrollBehaviorAuto;
ScrollableArea::scrollBehaviorFromString(scrollToOptions.behavior(), scrollBehavior);
LocalFrame* frame = document().frame();
if (!frame)
return;
ScrollableArea* viewport = frame->view() ? frame->view()->scrollableArea() : 0;
if (!viewport)
return;
double newScaledLeft = left * frame->pageZoomFactor() + viewport->scrollPositionDouble().x();
double newScaledTop = top * frame->pageZoomFactor() + viewport->scrollPositionDouble().y();
viewport->setScrollPosition(DoublePoint(newScaledLeft, newScaledTop), ProgrammaticScroll, scrollBehavior);
}
void Element::scrollFrameTo(const ScrollToOptions& scrollToOptions)
{
ScrollBehavior scrollBehavior = ScrollBehaviorAuto;
ScrollableArea::scrollBehaviorFromString(scrollToOptions.behavior(), scrollBehavior);
LocalFrame* frame = document().frame();
if (!frame)
return;
ScrollableArea* viewport = frame->view() ? frame->view()->scrollableArea() : 0;
if (!viewport)
return;
double scaledLeft = viewport->scrollPositionDouble().x();
double scaledTop = viewport->scrollPositionDouble().y();
if (scrollToOptions.hasLeft())
scaledLeft = ScrollableArea::normalizeNonFiniteScroll(scrollToOptions.left()) * frame->pageZoomFactor();
if (scrollToOptions.hasTop())
scaledTop = ScrollableArea::normalizeNonFiniteScroll(scrollToOptions.top()) * frame->pageZoomFactor();
viewport->setScrollPosition(DoublePoint(scaledLeft, scaledTop), ProgrammaticScroll, scrollBehavior);
}
bool Element::hasCompositorProxy() const
{
return hasRareData() && elementRareData()->proxiedPropertyCounts();
}
void Element::incrementCompositorProxiedProperties(uint32_t mutableProperties)
{
ElementRareData& rareData = ensureElementRareData();
if (!rareData.proxiedPropertyCounts())
setNeedsStyleRecalc(LocalStyleChange, StyleChangeReasonForTracing::create(StyleChangeReason::CompositorProxy));
rareData.incrementCompositorProxiedProperties(mutableProperties);
}
void Element::decrementCompositorProxiedProperties(uint32_t mutableProperties)
{
ElementRareData& rareData = *elementRareData();
rareData.decrementCompositorProxiedProperties(mutableProperties);
if (!rareData.proxiedPropertyCounts())
setNeedsStyleRecalc(LocalStyleChange, StyleChangeReasonForTracing::create(StyleChangeReason::CompositorProxy));
}
uint32_t Element::compositorMutableProperties() const
{
if (!hasRareData())
return WebCompositorMutablePropertyNone;
if (CompositorProxiedPropertySet* set = elementRareData()->proxiedPropertyCounts())
return set->proxiedProperties();
return WebCompositorMutablePropertyNone;
}
bool Element::hasNonEmptyLayoutSize() const
{
document().updateLayoutIgnorePendingStylesheets();
if (LayoutBoxModelObject* box = layoutBoxModelObject())
return box->hasNonEmptyLayoutSize();
return false;
}
IntRect Element::boundsInViewport() const
{
document().updateLayoutIgnorePendingStylesheets();
FrameView* view = document().view();
if (!view)
return IntRect();
Vector<FloatQuad> quads;
if (isSVGElement() && layoutObject()) {
// Get the bounding rectangle from the SVG model.
if (toSVGElement(this)->isSVGGraphicsElement())
quads.append(layoutObject()->localToAbsoluteQuad(layoutObject()->objectBoundingBox()));
} else {
// Get the bounding rectangle from the box model.
if (layoutBoxModelObject())
layoutBoxModelObject()->absoluteQuads(quads);
}
if (quads.isEmpty())
return IntRect();
IntRect result = quads[0].enclosingBoundingBox();
for (size_t i = 1; i < quads.size(); ++i)
result.unite(quads[i].enclosingBoundingBox());
return view->contentsToViewport(result);
}
ClientRectList* Element::getClientRects()
{
document().updateLayoutIgnorePendingStylesheets();
LayoutObject* elementLayoutObject = layoutObject();
if (!elementLayoutObject || (!elementLayoutObject->isBoxModelObject() && !elementLayoutObject->isBR()))
return ClientRectList::create();
// FIXME: Handle SVG elements.
// FIXME: Handle table/inline-table with a caption.
Vector<FloatQuad> quads;
elementLayoutObject->absoluteQuads(quads);
document().adjustFloatQuadsForScrollAndAbsoluteZoom(quads, *elementLayoutObject);
return ClientRectList::create(quads);
}
ClientRect* Element::getBoundingClientRect()
{
document().updateLayoutIgnorePendingStylesheets();
Vector<FloatQuad> quads;
LayoutObject* elementLayoutObject = layoutObject();
if (elementLayoutObject) {
if (isSVGElement() && !elementLayoutObject->isSVGRoot()) {
// Get the bounding rectangle from the SVG model.
if (toSVGElement(this)->isSVGGraphicsElement())
quads.append(elementLayoutObject->localToAbsoluteQuad(elementLayoutObject->objectBoundingBox()));
} else if (elementLayoutObject->isBoxModelObject() || elementLayoutObject->isBR()) {
elementLayoutObject->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());
ASSERT(elementLayoutObject);
document().adjustFloatRectForScrollAndAbsoluteZoom(result, *elementLayoutObject);
return ClientRect::create(result);
}
IntRect Element::screenRect() const
{
if (!layoutObject())
return IntRect();
// FIXME: this should probably respect transforms
return document().view()->contentsToScreen(layoutObject()->absoluteBoundingBoxRectIgnoringTransforms());
}
const AtomicString& Element::computedRole()
{
document().updateLayoutIgnorePendingStylesheets();
OwnPtr<ScopedAXObjectCache> cache = ScopedAXObjectCache::create(document());
return cache->get()->computedRoleForNode(this);
}
String Element::computedName()
{
document().updateLayoutIgnorePendingStylesheets();
OwnPtr<ScopedAXObjectCache> cache = ScopedAXObjectCache::create(document());
return cache->get()->computedNameForNode(this);
}
const AtomicString& Element::getAttribute(const AtomicString& localName) const
{
if (!elementData())
return nullAtom;
synchronizeAttribute(localName);
if (const Attribute* attribute = elementData()->attributes().find(localName, shouldIgnoreAttributeCase()))
return attribute->value();
return nullAtom;
}
const AtomicString& Element::getAttributeNS(const AtomicString& namespaceURI, const AtomicString& localName) const
{
return getAttribute(QualifiedName(nullAtom, localName, namespaceURI));
}
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);
const AtomicString& caseAdjustedLocalName = shouldIgnoreAttributeCase() ? localName.lower() : localName;
if (!elementData()) {
setAttributeInternal(kNotFound, QualifiedName(nullAtom, caseAdjustedLocalName, nullAtom), value, NotInSynchronizationOfLazyAttribute);
return;
}
AttributeCollection attributes = elementData()->attributes();
size_t index = attributes.findIndex(caseAdjustedLocalName, false);
const QualifiedName& qName = index != kNotFound ? attributes[index].name() : QualifiedName(nullAtom, caseAdjustedLocalName, nullAtom);
setAttributeInternal(index, qName, value, NotInSynchronizationOfLazyAttribute);
}
void Element::setAttribute(const QualifiedName& name, const AtomicString& value)
{
synchronizeAttribute(name);
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);
AtomicString existingAttributeValue = existingAttribute.value();
QualifiedName existingAttributeName = existingAttribute.name();
if (!inSynchronizationOfLazyAttribute)
willModifyAttribute(existingAttributeName, existingAttributeValue, newValue);
if (newValue != existingAttributeValue)
ensureUniqueElementData().attributes().at(index).setValue(newValue);
if (!inSynchronizationOfLazyAttribute)
didModifyAttribute(existingAttributeName, existingAttributeValue, newValue);
}
static inline AtomicString makeIdForStyleResolution(const AtomicString& value, bool inQuirksMode)
{
if (inQuirksMode)
return value.lower();
return value;
}
void Element::attributeChanged(const QualifiedName& name, const AtomicString& oldValue, const AtomicString& newValue, AttributeModificationReason reason)
{
if (ElementShadow* parentElementShadow = shadowWhereNodeCanBeDistributed(*this)) {
if (shouldInvalidateDistributionWhenAttributeChanged(parentElementShadow, name, newValue))
parentElementShadow->setNeedsDistributionRecalc();
}
parseAttribute(name, oldValue, newValue);
document().incDOMTreeVersion();
if (name == HTMLNames::idAttr) {
AtomicString oldId = elementData()->idForStyleResolution();
AtomicString newId = makeIdForStyleResolution(newValue, document().inQuirksMode());
if (newId != oldId) {
elementData()->setIdForStyleResolution(newId);
document().styleEngine().idChangedForElement(oldId, newId, *this);
}
} else if (name == classAttr) {
classAttributeChanged(newValue);
} else if (name == HTMLNames::nameAttr) {
setHasName(!newValue.isNull());
} else if (isStyledElement()) {
if (name == styleAttr) {
styleAttributeChanged(newValue, reason);
} else if (isPresentationAttribute(name)) {
elementData()->m_presentationAttributeStyleIsDirty = true;
setNeedsStyleRecalc(LocalStyleChange, StyleChangeReasonForTracing::fromAttribute(name));
}
}
invalidateNodeListCachesInAncestors(&name, this);
// If there is currently no StyleResolver, we can't be sure that this attribute change won't affect style.
if (!document().styleResolver())
setNeedsStyleRecalc(SubtreeStyleChange, StyleChangeReasonForTracing::fromAttribute(name));
if (inDocument()) {
if (AXObjectCache* cache = document().existingAXObjectCache())
cache->handleAttributeChanged(name, this);
}
}
bool Element::hasLegalLinkAttribute(const QualifiedName&) const
{
return false;
}
const QualifiedName& Element::subResourceAttributeName() const
{
return QualifiedName::null();
}
inline void Element::attributeChangedFromParserOrByCloning(const QualifiedName& name, const AtomicString& newValue, AttributeModificationReason reason)
{
if (name == isAttr)
CustomElementRegistrationContext::setTypeExtension(this, newValue);
attributeChanged(name, nullAtom, newValue, reason);
}
template <typename CharacterType>
static inline ClassStringContent classStringHasClassName(const CharacterType* characters, unsigned length)
{
ASSERT(length > 0);
unsigned i = 0;
do {
if (isNotHTMLSpace<CharacterType>(characters[i]))
break;
++i;
} while (i < length);
if (i == length && length == 1)
return ClassStringContent::Empty;
if (i == length && length > 1)
return ClassStringContent::WhiteSpaceOnly;
return ClassStringContent::HasClasses;
}
static inline ClassStringContent classStringHasClassName(const AtomicString& newClassString)
{
unsigned length = newClassString.length();
if (!length)
return ClassStringContent::Empty;
if (newClassString.is8Bit())
return classStringHasClassName(newClassString.characters8(), length);
return classStringHasClassName(newClassString.characters16(), length);
}
void Element::classAttributeChanged(const AtomicString& newClassString)
{
ASSERT(elementData());
ClassStringContent classStringContentType = classStringHasClassName(newClassString);
const bool shouldFoldCase = document().inQuirksMode();
if (classStringContentType == ClassStringContent::HasClasses) {
const SpaceSplitString oldClasses = elementData()->classNames();
elementData()->setClass(newClassString, shouldFoldCase);
const SpaceSplitString& newClasses = elementData()->classNames();
document().styleEngine().classChangedForElement(oldClasses, newClasses, *this);
} else {
const SpaceSplitString& oldClasses = elementData()->classNames();
document().styleEngine().classChangedForElement(oldClasses, *this);
if (classStringContentType == ClassStringContent::WhiteSpaceOnly)
elementData()->setClass(newClassString, shouldFoldCase);
else
elementData()->clearClass();
}
if (hasRareData())
elementRareData()->clearClassListValueForQuirksMode();
}
bool Element::shouldInvalidateDistributionWhenAttributeChanged(ElementShadow* elementShadow, const QualifiedName& name, const AtomicString& newValue)
{
ASSERT(elementShadow);
const SelectRuleFeatureSet& featureSet = elementShadow->ensureSelectFeatureSet();
if (name == HTMLNames::idAttr) {
AtomicString oldId = elementData()->idForStyleResolution();
AtomicString newId = makeIdForStyleResolution(newValue, document().inQuirksMode());
if (newId != oldId) {
if (!oldId.isEmpty() && featureSet.hasSelectorForId(oldId))
return true;
if (!newId.isEmpty() && featureSet.hasSelectorForId(newId))
return true;
}
}
if (name == HTMLNames::classAttr) {
const AtomicString& newClassString = newValue;
if (classStringHasClassName(newClassString) == ClassStringContent::HasClasses) {
const SpaceSplitString& oldClasses = elementData()->classNames();
const SpaceSplitString newClasses(newClassString, document().inQuirksMode() ? SpaceSplitString::ShouldFoldCase : SpaceSplitString::ShouldNotFoldCase);
if (featureSet.checkSelectorsForClassChange(oldClasses, newClasses))
return true;
} else {
const SpaceSplitString& oldClasses = elementData()->classNames();
if (featureSet.checkSelectorsForClassChange(oldClasses))
return true;
}
}
return featureSet.hasSelectorForAttribute(name.localName());
}
// Returns true is the given attribute is an event handler.
// We consider an event handler any attribute that begins with "on".
// It is a simple solution that has the advantage of not requiring any
// code or configuration change if a new event handler is defined.
static inline bool isEventHandlerAttribute(const Attribute& attribute)
{
return attribute.name().namespaceURI().isNull() && attribute.name().localName().startsWith("on");
}
bool Element::attributeValueIsJavaScriptURL(const Attribute& attribute)
{
return protocolIsJavaScript(stripLeadingAndTrailingHTMLSpaces(attribute.value()));
}
bool Element::isJavaScriptURLAttribute(const Attribute& attribute) const
{
return isURLAttribute(attribute) && attributeValueIsJavaScriptURL(attribute);
}
void Element::stripScriptingAttributes(Vector<Attribute>& attributeVector) const
{
size_t destination = 0;
for (size_t source = 0; source < attributeVector.size(); ++source) {
if (isEventHandlerAttribute(attributeVector[source])
|| isJavaScriptURLAttribute(attributeVector[source])
|| isHTMLContentAttribute(attributeVector[source])
|| isSVGAnimationAttributeSettingJavaScriptURL(attributeVector[source]))
continue;
if (source != destination)
attributeVector[destination] = attributeVector[source];
++destination;
}
attributeVector.shrink(destination);
}
void Element::parserSetAttributes(const Vector<Attribute>& attributeVector)
{
ASSERT(!inDocument());
ASSERT(!parentNode());
ASSERT(!m_elementData);
if (!attributeVector.isEmpty()) {
if (document().elementDataCache())
m_elementData = document().elementDataCache()->cachedShareableElementDataWithAttributes(attributeVector);
else
m_elementData = ShareableElementData::createWithAttributes(attributeVector);
}
parserDidSetAttributes();
// Use attributeVector instead of m_elementData because attributeChanged might modify m_elementData.
for (const auto& attribute : attributeVector)
attributeChangedFromParserOrByCloning(attribute.name(), attribute.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.toString();
}
const AtomicString& Element::locateNamespacePrefix(const AtomicString& namespaceToLocate) const
{
if (!prefix().isNull() && namespaceURI() == namespaceToLocate)
return prefix();
AttributeCollection attributes = this->attributes();
for (const Attribute& attr : attributes) {
if (attr.prefix() == xmlnsAtom && attr.value() == namespaceToLocate)
return attr.localName();
}
if (Element* parent = parentElement())
return parent->locateNamespacePrefix(namespaceToLocate);
return nullAtom;
}
const AtomicString Element::imageSourceURL() const
{
return getAttribute(srcAttr);
}
bool Element::layoutObjectIsNeeded(const ComputedStyle& style)
{
return style.display() != NONE;
}
LayoutObject* Element::createLayoutObject(const ComputedStyle& style)
{
return LayoutObject::createObject(this, style);
}
Node::InsertionNotificationRequest Element::insertedInto(ContainerNode* insertionPoint)
{
// need to do superclass processing first so inDocument() is true
// by the time we reach updateId
ContainerNode::insertedInto(insertionPoint);
if (containsFullScreenElement() && parentElement() && !parentElement()->containsFullScreenElement())
setContainsFullScreenElementOnAncestorsCrossingFrameBoundaries(true);
ASSERT(!hasRareData() || !elementRareData()->hasPseudoElements());
if (!insertionPoint->isInTreeScope())
return InsertionDone;
if (hasRareData()) {
ElementRareData* rareData = elementRareData();
rareData->clearClassListValueForQuirksMode();
if (rareData->intersectionObserverData())
rareData->intersectionObserverData()->activateValidIntersectionObservers(*this);
}
if (isUpgradedCustomElement() && inDocument())
CustomElement::didAttach(this, document());
TreeScope& scope = insertionPoint->treeScope();
if (scope != treeScope())
return InsertionDone;
const AtomicString& idValue = getIdAttribute();
if (!idValue.isNull())
updateId(scope, nullAtom, idValue);
const AtomicString& nameValue = getNameAttribute();
if (!nameValue.isNull())
updateName(nullAtom, nameValue);
if (parentElement() && parentElement()->isInCanvasSubtree())
setIsInCanvasSubtree(true);
return InsertionDone;
}
void Element::removedFrom(ContainerNode* insertionPoint)
{
bool wasInDocument = insertionPoint->inDocument();
ASSERT(!hasRareData() || !elementRareData()->hasPseudoElements());
if (Fullscreen::isActiveFullScreenElement(*this)) {
setContainsFullScreenElementOnAncestorsCrossingFrameBoundaries(false);
if (insertionPoint->isElementNode()) {
toElement(insertionPoint)->setContainsFullScreenElement(false);
toElement(insertionPoint)->setContainsFullScreenElementOnAncestorsCrossingFrameBoundaries(false);
}
}
if (Fullscreen* fullscreen = Fullscreen::fromIfExists(document()))
fullscreen->elementRemoved(*this);
if (document().page())
document().page()->pointerLockController().elementRemoved(this);
setSavedLayerScrollOffset(IntSize());
if (insertionPoint->isInTreeScope() && treeScope() == document()) {
const AtomicString& idValue = getIdAttribute();
if (!idValue.isNull())
updateId(insertionPoint->treeScope(), idValue, nullAtom);
const AtomicString& nameValue = getNameAttribute();
if (!nameValue.isNull())
updateName(nameValue, nullAtom);
}
ContainerNode::removedFrom(insertionPoint);
if (wasInDocument) {
if (this == document().cssTarget())
document().setCSSTarget(nullptr);
if (hasPendingResources())
document().accessSVGExtensions().removeElementFromPendingResources(this);
if (isUpgradedCustomElement())
CustomElement::didDetach(this, insertionPoint->document());
}
document().removeFromTopLayer(this);
clearElementFlag(IsInCanvasSubtree);
if (hasRareData()) {
ElementRareData* data = elementRareData();
data->clearRestyleFlags();
if (ElementAnimations* elementAnimations = data->elementAnimations())
elementAnimations->cssAnimations().cancel();
if (data->intersectionObserverData())
data->intersectionObserverData()->deactivateAllIntersectionObservers(*this);
}
}
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();
}
if (!isSlotOrActiveInsertionPoint())
LayoutTreeBuilderForElement(*this, context.resolvedStyle).createLayoutObjectIfNeeded();
addCallbackSelectors();
if (hasRareData() && !layoutObject()) {
if (ElementAnimations* elementAnimations = elementRareData()->elementAnimations()) {
elementAnimations->cssAnimations().cancel();
elementAnimations->setAnimationStyleChange(false);
}
}
StyleResolverParentScope parentScope(*this);
createPseudoElementIfNeeded(BEFORE);
// When a shadow root exists, it does the work of attaching the children.
if (ElementShadow* shadow = this->shadow())
shadow->attach(context);
ContainerNode::attach(context);
createPseudoElementIfNeeded(AFTER);
createPseudoElementIfNeeded(BACKDROP);
// We create the first-letter element after the :before, :after and
// children are attached because the first letter text could come
// from any of them.
createPseudoElementIfNeeded(FIRST_LETTER);
}
void Element::detach(const AttachContext& context)
{
HTMLFrameOwnerElement::UpdateSuspendScope suspendWidgetHierarchyUpdates;
cancelFocusAppearanceUpdate();
removeCallbackSelectors();
if (hasRareData()) {
ElementRareData* data = elementRareData();
data->clearPseudoElements();
// attach() will clear the computed style for us when inside recalcStyle.
if (!document().inStyleRecalc())
data->clearComputedStyle();
if (ElementAnimations* elementAnimations = data->elementAnimations()) {
if (context.performingReattach) {
// FIXME: We call detach from within style recalc, so compositingState is not up to date.
// https://code.google.com/p/chromium/issues/detail?id=339847
DisableCompositingQueryAsserts disabler;
// FIXME: restart compositor animations rather than pull back to the main thread
elementAnimations->restartAnimationOnCompositor();
} else {
elementAnimations->cssAnimations().cancel();
elementAnimations->setAnimationStyleChange(false);
}
elementAnimations->clearBaseComputedStyle();
}
if (ElementShadow* shadow = data->shadow())
shadow->detach(context);
}
ContainerNode::detach(context);
if (!context.performingReattach && isUserActionElement()) {
if (hovered())
document().hoveredNodeDetached(*this);
if (inActiveChain())
document().activeChainNodeDetached(*this);
document().userActionElements().didDetach(*this);
}
document().styleEngine().styleInvalidator().clearInvalidation(*this);
if (svgFilterNeedsLayerUpdate())
document().unscheduleSVGFilterLayerUpdateHack(*this);
ASSERT(needsAttach());
}
bool Element::pseudoStyleCacheIsInvalid(const ComputedStyle* currentStyle, ComputedStyle* newStyle)
{
ASSERT(currentStyle == computedStyle());
ASSERT(layoutObject());
if (!currentStyle)
return false;
const PseudoStyleCache* pseudoStyleCache = currentStyle->cachedPseudoStyles();
if (!pseudoStyleCache)
return false;
size_t cacheSize = pseudoStyleCache->size();
for (size_t i = 0; i < cacheSize; ++i) {
RefPtr<ComputedStyle> newPseudoStyle;
RefPtr<ComputedStyle> oldPseudoStyle = pseudoStyleCache->at(i);
PseudoId pseudoId = oldPseudoStyle->styleType();
if (pseudoId == FIRST_LINE || pseudoId == FIRST_LINE_INHERITED)
newPseudoStyle = layoutObject()->uncachedFirstLineStyle(newStyle);
else
newPseudoStyle = layoutObject()->getUncachedPseudoStyle(PseudoStyleRequest(pseudoId), newStyle, newStyle);
if (!newPseudoStyle)
return true;
if (*oldPseudoStyle != *newPseudoStyle || oldPseudoStyle->font().loadingCustomFonts() != newPseudoStyle->font().loadingCustomFonts()) {
if (pseudoId < FIRST_INTERNAL_PSEUDOID)
newStyle->setHasPseudoStyle(pseudoId);
newStyle->addCachedPseudoStyle(newPseudoStyle);
if (pseudoId == FIRST_LINE || pseudoId == FIRST_LINE_INHERITED)
layoutObject()->firstLineStyleDidChange(*oldPseudoStyle, *newPseudoStyle);
return true;
}
}
return false;
}
PassRefPtr<ComputedStyle> Element::styleForLayoutObject()
{
ASSERT(document().inStyleRecalc());
RefPtr<ComputedStyle> style;
// 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.
if (ElementAnimations* elementAnimations = this->elementAnimations())
elementAnimations->cssAnimations().clearPendingUpdate();
if (hasCustomStyleCallbacks())
style = customStyleForLayoutObject();
if (!style)
style = originalStyleForLayoutObject();
ASSERT(style);
// styleForElement() might add active animations so we need to get it again.
if (ElementAnimations* elementAnimations = this->elementAnimations()) {
elementAnimations->cssAnimations().maybeApplyPendingUpdate(this);
elementAnimations->updateAnimationFlags(*style);
}
if (style->hasTransform()) {
if (const StylePropertySet* inlineStyle = this->inlineStyle())
style->setHasInlineTransform(inlineStyle->hasProperty(CSSPropertyTransform));
}
document().didRecalculateStyleForElement();
return style.release();
}
PassRefPtr<ComputedStyle> Element::originalStyleForLayoutObject()
{
ASSERT(document().inStyleRecalc());
return document().ensureStyleResolver().styleForElement(this);
}
void Element::recalcStyle(StyleRecalcChange change, Text* nextTextSibling)
{
ASSERT(document().inStyleRecalc());
ASSERT(!document().lifecycle().inDetach());
ASSERT(!parentOrShadowHostNode()->needsStyleRecalc());
ASSERT(inActiveDocument());
if (hasCustomStyleCallbacks())
willRecalcStyle(change);
if (change >= Inherit || needsStyleRecalc()) {
if (hasRareData()) {
ElementRareData* data = elementRareData();
data->clearComputedStyle();
if (change >= Inherit) {
if (ElementAnimations* elementAnimations = data->elementAnimations())
elementAnimations->setAnimationStyleChange(false);
}
}
if (parentComputedStyle())
change = recalcOwnStyle(change);
clearNeedsStyleRecalc();
}
// If we reattached we don't need to recalc the style of our descendants anymore.
if ((change >= UpdatePseudoElements && change < Reattach) || childNeedsStyleRecalc()) {
StyleResolverParentScope parentScope(*this);
updatePseudoElement(BEFORE, change);
if (change > UpdatePseudoElements || childNeedsStyleRecalc()) {
for (ShadowRoot* root = youngestShadowRoot(); root; root = root->olderShadowRoot()) {
if (root->shouldCallRecalcStyle(change))
root->recalcStyle(change);
}
recalcChildStyle(change);
}
updatePseudoElement(AFTER, change);
updatePseudoElement(BACKDROP, change);
// If our children have changed then we need to force the first-letter
// checks as we don't know if they effected the first letter or not.
// This can be seen when a child transitions from floating to
// non-floating we have to take it into account for the first letter.
updatePseudoElement(FIRST_LETTER, childNeedsStyleRecalc() ? Force : change);
clearChildNeedsStyleRecalc();
}
if (hasCustomStyleCallbacks())
didRecalcStyle(change);
if (change == Reattach)
reattachWhitespaceSiblingsIfNeeded(nextTextSibling);
}
StyleRecalcChange Element::recalcOwnStyle(StyleRecalcChange change)
{
ASSERT(document().inStyleRecalc());
ASSERT(!parentOrShadowHostNode()->needsStyleRecalc());
ASSERT(change >= Inherit || needsStyleRecalc());
ASSERT(parentComputedStyle());
RefPtr<ComputedStyle> oldStyle = mutableComputedStyle();
RefPtr<ComputedStyle> newStyle = styleForLayoutObject();
ASSERT(newStyle);
StyleRecalcChange localChange = ComputedStyle::stylePropagationDiff(oldStyle.get(), newStyle.get());
if (localChange == NoChange) {
INCREMENT_STYLE_STATS_COUNTER(*document().styleResolver(), stylesUnchanged, 1);
} else {
INCREMENT_STYLE_STATS_COUNTER(*document().styleResolver(), stylesChanged, 1);
}
if (localChange == Reattach) {
AttachContext reattachContext;
reattachContext.resolvedStyle = newStyle.get();
bool layoutObjectWillChange = needsAttach() || layoutObject();
reattach(reattachContext);
if (layoutObjectWillChange || layoutObject())
return Reattach;
return ReattachNoLayoutObject;
}
ASSERT(oldStyle);
if (localChange != NoChange)
updateCallbackSelectors(oldStyle.get(), newStyle.get());
if (LayoutObject* layoutObject = this->layoutObject()) {
if (localChange != NoChange || pseudoStyleCacheIsInvalid(oldStyle.get(), newStyle.get()) || svgFilterNeedsLayerUpdate()) {
layoutObject->setStyle(newStyle.get());
} else {
// Although no change occurred, we use the new style so that the cousin style sharing code won't get
// fooled into believing this style is the same.
// FIXME: We may be able to remove this hack, see discussion in
// https://codereview.chromium.org/30453002/
layoutObject->setStyleInternal(newStyle.get());
}
}
if (styleChangeType() >= SubtreeStyleChange)
return Force;
if (change > Inherit || localChange > Inherit)
return max(localChange, change);
if (localChange < Inherit) {
if (oldStyle->hasChildDependentFlags()) {
if (childNeedsStyleRecalc())
return Inherit;
newStyle->copyChildDependentFlagsFrom(*oldStyle);
}
if (oldStyle->hasPseudoElementStyle() || newStyle->hasPseudoElementStyle())
return UpdatePseudoElements;
}
return localChange;
}
void Element::updateCallbackSelectors(const ComputedStyle* oldStyle, const ComputedStyle* newStyle)
{
Vector<String> emptyVector;
const Vector<String>& oldCallbackSelectors = oldStyle ? oldStyle->callbackSelectors() : emptyVector;
const Vector<String>& newCallbackSelectors = newStyle ? newStyle->callbackSelectors() : emptyVector;
if (oldCallbackSelectors.isEmpty() && newCallbackSelectors.isEmpty())
return;
if (oldCallbackSelectors != newCallbackSelectors)
CSSSelectorWatch::from(document()).updateSelectorMatches(oldCallbackSelectors, newCallbackSelectors);
}
void Element::addCallbackSelectors()
{
updateCallbackSelectors(0, computedStyle());
}
void Element::removeCallbackSelectors()
{
updateCallbackSelectors(computedStyle(), 0);
}
ElementShadow* Element::shadow() const
{
return hasRareData() ? elementRareData()->shadow() : nullptr;
}
ElementShadow& Element::ensureShadow()
{
return ensureElementRareData().ensureShadow();
}
void Element::pseudoStateChanged(CSSSelector::PseudoType pseudo)
{
// We can't schedule invaliation sets from inside style recalc otherwise
// we'd never process them.
// TODO(esprehn): Make this an ASSERT and fix places that call into this
// like HTMLSelectElement.
if (document().inStyleRecalc())
return;
document().styleEngine().pseudoStateChangedForElement(pseudo, *this);
}
void Element::setAnimationStyleChange(bool animationStyleChange)
{
if (animationStyleChange && document().inStyleRecalc())
return;
if (!hasRareData())
return;
if (ElementAnimations* elementAnimations = elementRareData()->elementAnimations())
elementAnimations->setAnimationStyleChange(animationStyleChange);
}
void Element::clearAnimationStyleChange()
{
if (!hasRareData())
return;
if (ElementAnimations* elementAnimations = elementRareData()->elementAnimations())
elementAnimations->setAnimationStyleChange(false);
}
void Element::setNeedsAnimationStyleRecalc()
{
if (styleChangeType() != NoStyleChange)
return;
setNeedsStyleRecalc(LocalStyleChange, StyleChangeReasonForTracing::create(StyleChangeReason::Animation));
setAnimationStyleChange(true);
}
void Element::setNeedsCompositingUpdate()
{
if (!document().isActive())
return;
LayoutBoxModelObject* layoutObject = layoutBoxModelObject();
if (!layoutObject)
return;
if (!layoutObject->hasLayer())
return;
layoutObject->layer()->setNeedsCompositingInputsUpdate();
// Changes in the return value of requiresAcceleratedCompositing change if
// the PaintLayer is self-painting.
layoutObject->layer()->updateSelfPaintingLayer();
}
void Element::setCustomElementDefinition(PassRefPtrWillBeRawPtr<CustomElementDefinition> definition)
{
if (!hasRareData() && !definition)
return;
ASSERT(!customElementDefinition());
ensureElementRareData().setCustomElementDefinition(definition);
}
CustomElementDefinition* Element::customElementDefinition() const
{
if (hasRareData())
return elementRareData()->customElementDefinition();
return nullptr;
}
PassRefPtrWillBeRawPtr<ShadowRoot> Element::createShadowRoot(const ScriptState* scriptState, ExceptionState& exceptionState)
{
OriginsUsingFeatures::countMainWorldOnly(scriptState, document(), OriginsUsingFeatures::Feature::ElementCreateShadowRoot);
ShadowRoot* root = shadowRoot();
if (root && (root->type() == ShadowRootType::Open || root->type() == ShadowRootType::Closed)) {
exceptionState.throwDOMException(InvalidStateError, "Shadow root cannot be created on a host which already hosts this type of shadow tree.");
return nullptr;
}
return createShadowRootInternal(ShadowRootType::V0, exceptionState);
}
PassRefPtrWillBeRawPtr<ShadowRoot> Element::attachShadow(const ScriptState* scriptState, const ShadowRootInit& shadowRootInitDict, ExceptionState& exceptionState)
{
ASSERT(RuntimeEnabledFeatures::shadowDOMV1Enabled());
OriginsUsingFeatures::countMainWorldOnly(scriptState, document(), OriginsUsingFeatures::Feature::ElementAttachShadow);
if (shadowRootInitDict.hasMode() && shadowRoot()) {
exceptionState.throwDOMException(InvalidStateError, "Shadow root cannot be created on a host which already hosts a shadow tree.");
return nullptr;
}
ShadowRootType type = ShadowRootType::V0;
if (shadowRootInitDict.hasMode())
type = shadowRootInitDict.mode() == "open" ? ShadowRootType::Open : ShadowRootType::Closed;
if (type == ShadowRootType::Closed)
UseCounter::count(document(), UseCounter::ElementAttachShadowClosed);
else if (type == ShadowRootType::Open)
UseCounter::count(document(), UseCounter::ElementAttachShadowOpen);
RefPtrWillBeRawPtr<ShadowRoot> shadowRoot = createShadowRootInternal(type, exceptionState);
if (shadowRootInitDict.hasDelegatesFocus())
shadowRoot->setDelegatesFocus(shadowRootInitDict.delegatesFocus());
return shadowRoot.release();
}
PassRefPtrWillBeRawPtr<ShadowRoot> Element::createShadowRootInternal(ShadowRootType type, ExceptionState& exceptionState)
{
ASSERT(!closedShadowRoot());
if (alwaysCreateUserAgentShadowRoot())
ensureUserAgentShadowRoot();
// Some elements make assumptions about what kind of layoutObjects they allow
// as children so we can't allow author shadows on them for now. An override
// flag is provided for testing how author shadows interact on these elements.
if (!areAuthorShadowsAllowed() && !RuntimeEnabledFeatures::authorShadowDOMForAnyElementEnabled()) {
exceptionState.throwDOMException(HierarchyRequestError, "Author-created shadow roots are disabled for this element.");
return nullptr;
}
return PassRefPtrWillBeRawPtr<ShadowRoot>(ensureShadow().addShadowRoot(*this, type));
}
ShadowRoot* Element::shadowRoot() const
{
ElementShadow* elementShadow = shadow();
if (!elementShadow)
return nullptr;
return &elementShadow->youngestShadowRoot();
}
ShadowRoot* Element::openShadowRoot() const
{
ShadowRoot* root = shadowRoot();
if (!root)
return nullptr;
return root->type() == ShadowRootType::V0 || root->type() == ShadowRootType::Open ? root : nullptr;
}
ShadowRoot* Element::closedShadowRoot() const
{
ShadowRoot* root = shadowRoot();
if (!root)
return nullptr;
return root->type() == ShadowRootType::Closed ? root : nullptr;
}
ShadowRoot* Element::authorShadowRoot() const
{
ShadowRoot* root = shadowRoot();
if (!root)
return nullptr;
return root->type() != ShadowRootType::UserAgent ? root : nullptr;
}
ShadowRoot* Element::userAgentShadowRoot() const
{
if (ElementShadow* elementShadow = shadow()) {
if (ShadowRoot* root = elementShadow->oldestShadowRoot()) {
ASSERT(root->type() == ShadowRootType::UserAgent);
return root;
}
}
return nullptr;
}
ShadowRoot& Element::ensureUserAgentShadowRoot()
{
if (ShadowRoot* shadowRoot = userAgentShadowRoot())
return *shadowRoot;
ShadowRoot& shadowRoot = ensureShadow().addShadowRoot(*this, ShadowRootType::UserAgent);
didAddUserAgentShadowRoot(shadowRoot);
return shadowRoot;
}
bool Element::childTypeAllowed(NodeType type) const
{
switch (type) {
case ELEMENT_NODE:
case TEXT_NODE:
case COMMENT_NODE:
case PROCESSING_INSTRUCTION_NODE:
case CDATA_SECTION_NODE:
return true;
default:
break;
}
return false;
}
void Element::checkForEmptyStyleChange()
{
const ComputedStyle* style = computedStyle();
if (!style && !styleAffectedByEmpty())
return;
if (!inActiveDocument())
return;
if (!document().styleResolver())
return;
if (!style || (styleAffectedByEmpty() && (!style->emptyState() || hasChildren())))
pseudoStateChanged(CSSSelector::PseudoEmpty);
}
void Element::childrenChanged(const ChildrenChange& change)
{
ContainerNode::childrenChanged(change);
checkForEmptyStyleChange();
if (!change.byParser && change.isChildElementChange())
checkForSiblingStyleChanges(change.type == ElementRemoved ? SiblingElementRemoved : SiblingElementInserted, change.siblingBeforeChange, change.siblingAfterChange);
if (ElementShadow* shadow = this->shadow())
shadow->setNeedsDistributionRecalc();
}
void Element::finishParsingChildren()
{
setIsFinishedParsingChildren(true);
checkForEmptyStyleChange();
checkForSiblingStyleChanges(FinishedParsingChildren, lastChild(), nullptr);
}
#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(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
AttrNodeList* Element::attrNodeList()
{
return hasRareData() ? elementRareData()->attrNodeList() : nullptr;
}
AttrNodeList& Element::ensureAttrNodeList()
{
return ensureElementRareData().ensureAttrNodeList();
}
void Element::removeAttrNodeList()
{
ASSERT(attrNodeList());
if (hasRareData())
elementRareData()->removeAttrNodeList();
}
PassRefPtrWillBeRawPtr<Attr> Element::setAttributeNode(Attr* attrNode, ExceptionState& exceptionState)
{
RefPtrWillBeRawPtr<Attr> oldAttrNode = attrIfExists(attrNode->qualifiedName());
if (oldAttrNode.get() == attrNode)
return attrNode; // This Attr is already attached to the element.
// InUseAttributeError: Raised if node is an Attr that is already an attribute of another Element object.
// The DOM user must explicitly clone Attr nodes to re-use them in other elements.
if (attrNode->ownerElement()) {
exceptionState.throwDOMException(InUseAttributeError, "The node provided is an attribute node that is already an attribute of another Element; attribute nodes must be explicitly cloned.");
return nullptr;
}
if (!isHTMLElement() && attrNode->document().isHTMLDocument() && attrNode->name() != attrNode->name().lower())
UseCounter::count(document(), UseCounter::NonHTMLElementSetAttributeNodeFromHTMLDocumentNameNotLowercase);
synchronizeAllAttributes();
const UniqueElementData& elementData = ensureUniqueElementData();
AttributeCollection attributes = elementData.attributes();
size_t index = attributes.findIndex(attrNode->qualifiedName(), shouldIgnoreAttributeCase());
AtomicString localName;
if (index != kNotFound) {
const Attribute& attr = attributes[index];
// If the name of the ElementData attribute doesn't
// (case-sensitively) match that of the Attr node, record it
// on the Attr so that it can correctly resolve the value on
// the Element.
if (!attr.name().matches(attrNode->qualifiedName()))
localName = attr.localName();
if (oldAttrNode) {
detachAttrNodeFromElementWithValue(oldAttrNode.get(), attr.value());
} else {
// FIXME: using attrNode's name rather than the
// Attribute's for the replaced Attr is compatible with
// all but Gecko (and, arguably, the DOM Level1 spec text.)
// Consider switching.
oldAttrNode = Attr::create(document(), attrNode->qualifiedName(), attr.value());
}
}
setAttributeInternal(index, attrNode->qualifiedName(), attrNode->value(), NotInSynchronizationOfLazyAttribute);
attrNode->attachToElement(this, localName);
treeScope().adoptIfNeeded(*attrNode);
ensureAttrNodeList().append(attrNode);
return oldAttrNode.release();
}
PassRefPtrWillBeRawPtr<Attr> Element::setAttributeNodeNS(Attr* attr, ExceptionState& exceptionState)
{
return setAttributeNode(attr, exceptionState);
}
PassRefPtrWillBeRawPtr<Attr> Element::removeAttributeNode(Attr* attr, ExceptionState& exceptionState)
{
if (attr->ownerElement() != this) {
exceptionState.throwDOMException(NotFoundError, "The node provided is owned by another element.");
return nullptr;
}
ASSERT(document() == attr->document());
synchronizeAttribute(attr->qualifiedName());
size_t index = elementData()->attributes().findIndex(attr->qualifiedName());
if (index == kNotFound) {
exceptionState.throwDOMException(NotFoundError, "The attribute was not found on this element.");
return nullptr;
}
RefPtrWillBeRawPtr<Attr> guard(attr);
detachAttrNodeAtIndex(attr, index);
return guard.release();
}
void Element::parseAttribute(const QualifiedName& name, const AtomicString&, const AtomicString& value)
{
if (name == tabindexAttr) {
int tabindex = 0;
if (value.isEmpty()) {
clearTabIndexExplicitlyIfNeeded();
if (treeScope().adjustedFocusedElement() == this) {
// We might want to call blur(), but it's dangerous to dispatch
// events here.
document().setNeedsFocusedElementCheck();
}
} else if (parseHTMLInteger(value, tabindex)) {
// Clamp tabindex to the range of 'short' to match Firefox's behavior.
setTabIndexExplicitly(max(static_cast<int>(std::numeric_limits<short>::min()), std::min(tabindex, static_cast<int>(std::numeric_limits<short>::max()))));
}
} else if (name == XMLNames::langAttr) {
pseudoStateChanged(CSSSelector::PseudoLang);
}
}
bool Element::parseAttributeName(QualifiedName& out, const AtomicString& namespaceURI, const AtomicString& qualifiedName, ExceptionState& exceptionState)
{
AtomicString prefix, localName;
if (!Document::parseQualifiedName(qualifiedName, prefix, localName, exceptionState))
return false;
ASSERT(!exceptionState.hadException());
QualifiedName qName(prefix, localName, namespaceURI);
if (!Document::hasValidNamespaceForAttributes(qName)) {
exceptionState.throwDOMException(NamespaceError, "'" + namespaceURI + "' is an invalid namespace for attributes.");
return false;
}
out = qName;
return true;
}
void Element::setAttributeNS(const AtomicString& namespaceURI, const AtomicString& qualifiedName, const AtomicString& value, ExceptionState& exceptionState)
{
QualifiedName parsedName = anyName;
if (!parseAttributeName(parsedName, namespaceURI, qualifiedName, exceptionState))
return;
setAttribute(parsedName, value);
}
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);
}
if (RefPtrWillBeRawPtr<Attr> attrNode = attrIfExists(name))
detachAttrNodeFromElementWithValue(attrNode.get(), attributes[index].value());
attributes.remove(index);
if (!inSynchronizationOfLazyAttribute)
didRemoveAttribute(name, valueBeingRemoved);
}
void Element::appendAttributeInternal(const QualifiedName& name, const AtomicString& value, SynchronizationOfLazyAttribute inSynchronizationOfLazyAttribute)
{
if (!inSynchronizationOfLazyAttribute)
willModifyAttribute(name, nullAtom, value);
ensureUniqueElementData().attributes().append(name, value);
if (!inSynchronizationOfLazyAttribute)
didAddAttribute(name, value);
}
void Element::removeAttribute(const AtomicString& name)
{
if (!elementData())
return;
AtomicString localName = shouldIgnoreAttributeCase() ? name.lower() : name;
size_t index = elementData()->attributes().findIndex(localName, false);
if (index == kNotFound) {
if (UNLIKELY(localName == styleAttr) && elementData()->m_styleAttributeIsDirty && isStyledElement())
removeAllInlineStyleProperties();
return;
}
removeAttributeInternal(index, NotInSynchronizationOfLazyAttribute);
}
void Element::removeAttributeNS(const AtomicString& namespaceURI, const AtomicString& localName)
{
removeAttribute(QualifiedName(nullAtom, localName, namespaceURI));
}
PassRefPtrWillBeRawPtr<Attr> Element::getAttributeNode(const AtomicString& localName)
{
if (!elementData())
return nullptr;
synchronizeAttribute(localName);
const Attribute* attribute = elementData()->attributes().find(localName, shouldIgnoreAttributeCase());
if (!attribute)
return nullptr;
return ensureAttr(attribute->name());
}
PassRefPtrWillBeRawPtr<Attr> Element::getAttributeNodeNS(const AtomicString& namespaceURI, const AtomicString& localName)
{
if (!elementData())
return nullptr;
QualifiedName qName(nullAtom, localName, namespaceURI);
synchronizeAttribute(qName);
const Attribute* attribute = elementData()->attributes().find(qName);
if (!attribute)
return nullptr;
return ensureAttr(attribute->name());
}
bool Element::hasAttribute(const AtomicString& localName) const
{
if (!elementData())
return false;
synchronizeAttribute(localName);
return elementData()->attributes().findIndex(shouldIgnoreAttributeCase() ? localName.lower() : localName, false) != kNotFound;
}
bool Element::hasAttributeNS(const AtomicString& namespaceURI, const AtomicString& localName) const
{
if (!elementData())
return false;
QualifiedName qName(nullAtom, localName, namespaceURI);
synchronizeAttribute(qName);
return elementData()->attributes().find(qName);
}
void Element::focus(const FocusParams& params)
{
if (!inDocument())
return;
if (document().focusedElement() == this)
return;
if (!document().isActive())
return;
document().updateLayoutIgnorePendingStylesheets();
if (!isFocusable())
return;
if (authorShadowRoot() && authorShadowRoot()->delegatesFocus()) {
if (containsIncludingShadowDOM(document().focusedElement()))
return;
// Slide the focus to its inner node.
Element* next = document().page()->focusController().findFocusableElement(WebFocusTypeForward, *this);
if (next && containsIncludingShadowDOM(next)) {
next->focus(FocusParams(SelectionBehaviorOnFocus::Reset, WebFocusTypeForward, nullptr));
return;
}
}
RefPtrWillBeRawPtr<Node> protect(this);
if (!document().page()->focusController().setFocusedElement(this, document().frame(), params))
return;
if (document().focusedElement() == this && UserGestureIndicator::processedUserGestureSinceLoad()) {
// Bring up the keyboard in the context of anything triggered by a user
// gesture. Since tracking that across arbitrary boundaries (eg.
// animations) is difficult, for now we match IE's heuristic and bring
// up the keyboard if there's been any gesture since load.
document().page()->chromeClient().showImeIfNeeded();
}
}
void Element::updateFocusAppearance(SelectionBehaviorOnFocus selectionBehavior)
{
if (selectionBehavior == SelectionBehaviorOnFocus::None)
return;
if (isRootEditableElement()) {
// Taking the ownership since setSelection() may release the last reference to |frame|.
RefPtrWillBeRawPtr<LocalFrame> frame(document().frame());
if (!frame)
return;
// When focusing an editable element in an iframe, don't reset the selection if it already contains a selection.
if (this == frame->selection().rootEditableElement())
return;
// FIXME: We should restore the previous selection if there is one.
VisibleSelection newSelection = VisibleSelection(firstPositionInOrBeforeNode(this), TextAffinity::Downstream);
// Passing DoNotSetFocus as this function is called after FocusController::setFocusedElement()
// and we don't want to change the focus to a new Element.
frame->selection().setSelection(newSelection, FrameSelection::CloseTyping | FrameSelection::ClearTypingStyle | FrameSelection::DoNotSetFocus);
frame->selection().revealSelection();
} else if (layoutObject() && !layoutObject()->isLayoutPart()) {
layoutObject()->scrollRectToVisible(boundingBox());
}
}
void Element::blur()
{
cancelFocusAppearanceUpdate();
if (treeScope().adjustedFocusedElement() == this) {
Document& doc = document();
if (doc.page())
doc.page()->focusController().setFocusedElement(0, doc.frame());
else
doc.clearFocusedElement();
}
}
bool Element::supportsFocus() const
{
// FIXME: supportsFocus() can be called when layout is not up to date.
// Logic that deals with the layoutObject should be moved to layoutObjectIsFocusable().
// But supportsFocus must return true when the element is editable, or else
// it won't be focusable. Furthermore, supportsFocus cannot just return true
// always or else tabIndex() will change for all HTML elements.
return hasElementFlag(TabIndexWasSetExplicitly) || (hasEditableStyle() && parentNode() && !parentNode()->hasEditableStyle())
|| (isShadowHost(this) && authorShadowRoot() && authorShadowRoot()->delegatesFocus())
|| supportsSpatialNavigationFocus();
}
bool Element::supportsSpatialNavigationFocus() const
{
// This function checks whether the element satisfies the extended criteria
// for the element to be focusable, introduced by spatial navigation feature,
// i.e. checks if click or keyboard event handler is specified.
// This is the way to make it possible to navigate to (focus) elements
// which web designer meant for being active (made them respond to click events).
if (!isSpatialNavigationEnabled(document().frame()) || spatialNavigationIgnoresEventHandlers(document().frame()))
return false;
if (hasEventListeners(EventTypeNames::click)
|| hasEventListeners(EventTypeNames::keydown)
|| hasEventListeners(EventTypeNames::keypress)
|| hasEventListeners(EventTypeNames::keyup))
return true;
if (!isSVGElement())
return false;
return (hasEventListeners(EventTypeNames::focus)
|| hasEventListeners(EventTypeNames::blur)
|| hasEventListeners(EventTypeNames::focusin)
|| hasEventListeners(EventTypeNames::focusout));
}
bool Element::isFocusable() const
{
return inDocument() && supportsFocus() && !isInert() && layoutObjectIsFocusable();
}
bool Element::isKeyboardFocusable() const
{
return isFocusable() && tabIndex() >= 0;
}
bool Element::isMouseFocusable() const
{
return isFocusable();
}
bool Element::isFocusedElementInDocument() const
{
return this == document().focusedElement();
}
void Element::dispatchFocusEvent(Element* oldFocusedElement, WebFocusType type, InputDeviceCapabilities* sourceCapabilities)
{
dispatchEvent(FocusEvent::create(EventTypeNames::focus, false, false, document().domWindow(), 0, oldFocusedElement, sourceCapabilities));
}
void Element::dispatchBlurEvent(Element* newFocusedElement, WebFocusType type, InputDeviceCapabilities* sourceCapabilities)
{
dispatchEvent(FocusEvent::create(EventTypeNames::blur, false, false, document().domWindow(), 0, newFocusedElement, sourceCapabilities));
}
void Element::dispatchFocusInEvent(const AtomicString& eventType, Element* oldFocusedElement, WebFocusType, InputDeviceCapabilities* sourceCapabilities)
{
ASSERT(!EventDispatchForbiddenScope::isEventDispatchForbidden());
ASSERT(eventType == EventTypeNames::focusin || eventType == EventTypeNames::DOMFocusIn);
dispatchScopedEvent(FocusEvent::create(eventType, true, false, document().domWindow(), 0, oldFocusedElement, sourceCapabilities));
}
void Element::dispatchFocusOutEvent(const AtomicString& eventType, Element* newFocusedElement, InputDeviceCapabilities* sourceCapabilities)
{
ASSERT(!EventDispatchForbiddenScope::isEventDispatchForbidden());
ASSERT(eventType == EventTypeNames::focusout || eventType == EventTypeNames::DOMFocusOut);
dispatchScopedEvent(FocusEvent::create(eventType, true, false, document().domWindow(), 0, newFocusedElement, sourceCapabilities));
}
String Element::innerHTML() const
{
return createMarkup(this, ChildrenOnly);
}
String Element::outerHTML() const
{
return createMarkup(this);
}
void Element::setInnerHTML(const String& html, ExceptionState& exceptionState)
{
InspectorInstrumentation::willSetInnerHTML(this);
if (RefPtrWillBeRawPtr<DocumentFragment> fragment = createFragmentForInnerOuterHTML(html, this, AllowScriptingContent, "innerHTML", exceptionState)) {
ContainerNode* container = this;
if (isHTMLTemplateElement(*this))
container = toHTMLTemplateElement(this)->content();
replaceChildrenWithFragment(container, fragment.release(), exceptionState);
}
}
void Element::setOuterHTML(const String& html, ExceptionState& exceptionState)
{
Node* p = parentNode();
if (!p) {
exceptionState.throwDOMException(NoModificationAllowedError, "This element has no parent node.");
return;
}
if (!p->isElementNode()) {
exceptionState.throwDOMException(NoModificationAllowedError, "This element's parent is of type '" + p->nodeName() + "', which is not an element node.");
return;
}
RefPtrWillBeRawPtr<Element> parent = toElement(p);
RefPtrWillBeRawPtr<Node> prev = previousSibling();
RefPtrWillBeRawPtr<Node> next = nextSibling();
RefPtrWillBeRawPtr<DocumentFragment> fragment = createFragmentForInnerOuterHTML(html, parent.get(), AllowScriptingContent, "outerHTML", exceptionState);
if (exceptionState.hadException())
return;
parent->replaceChild(fragment.release(), this, exceptionState);
RefPtrWillBeRawPtr<Node> node = next ? next->previousSibling() : nullptr;
if (!exceptionState.hadException() && node && node->isTextNode())
mergeWithNextTextNode(toText(node.get()), exceptionState);
if (!exceptionState.hadException() && prev && prev->isTextNode())
mergeWithNextTextNode(toText(prev.get()), exceptionState);
}
Node* Element::insertAdjacent(const String& where, Node* newChild, ExceptionState& exceptionState)
{
if (equalIgnoringCase(where, "beforeBegin")) {
if (ContainerNode* parent = this->parentNode()) {
parent->insertBefore(newChild, this, exceptionState);
if (!exceptionState.hadException())
return newChild;
}
return nullptr;
}
if (equalIgnoringCase(where, "afterBegin")) {
insertBefore(newChild, firstChild(), exceptionState);
return exceptionState.hadException() ? nullptr : newChild;
}
if (equalIgnoringCase(where, "beforeEnd")) {
appendChild(newChild, exceptionState);
return exceptionState.hadException() ? nullptr : newChild;
}
if (equalIgnoringCase(where, "afterEnd")) {
if (ContainerNode* parent = this->parentNode()) {
parent->insertBefore(newChild, nextSibling(), exceptionState);
if (!exceptionState.hadException())
return newChild;
}
return nullptr;
}
exceptionState.throwDOMException(SyntaxError, "The value provided ('" + where + "') is not one of 'beforeBegin', 'afterBegin', 'beforeEnd', or 'afterEnd'.");
return nullptr;
}
ElementIntersectionObserverData* Element::intersectionObserverData() const
{
if (elementRareData())
return elementRareData()->intersectionObserverData();
return nullptr;
}
ElementIntersectionObserverData& Element::ensureIntersectionObserverData()
{
return ensureElementRareData().ensureIntersectionObserverData();
}
// Step 1 of http://domparsing.spec.whatwg.org/#insertadjacenthtml()
static Element* contextElementForInsertion(const String& where, Element* element, ExceptionState& exceptionState)
{
if (equalIgnoringCase(where, "beforeBegin") || equalIgnoringCase(where, "afterEnd")) {
Element* parent = element->parentElement();
if (!parent) {
exceptionState.throwDOMException(NoModificationAllowedError, "The element has no parent.");
return nullptr;
}
return parent;
}
if (equalIgnoringCase(where, "afterBegin") || equalIgnoringCase(where, "beforeEnd"))
return element;
exceptionState.throwDOMException(SyntaxError, "The value provided ('" + where + "') is not one of 'beforeBegin', 'afterBegin', 'beforeEnd', or 'afterEnd'.");
return nullptr;
}
Element* Element::insertAdjacentElement(const String& where, Element* newChild, ExceptionState& exceptionState)
{
Node* returnValue = insertAdjacent(where, newChild, exceptionState);
return toElement(returnValue);
}
void Element::insertAdjacentText(const String& where, const String& text, ExceptionState& exceptionState)
{
insertAdjacent(where, document().createTextNode(text).get(), exceptionState);
}
void Element::insertAdjacentHTML(const String& where, const String& markup, ExceptionState& exceptionState)
{
RefPtrWillBeRawPtr<Element> contextElement = contextElementForInsertion(where, this, exceptionState);
if (!contextElement)
return;
RefPtrWillBeRawPtr<DocumentFragment> fragment = createFragmentForInnerOuterHTML(markup, contextElement.get(), AllowScriptingContent, "insertAdjacentHTML", exceptionState);
if (!fragment)
return;
insertAdjacent(where, fragment.get(), exceptionState);
}
String Element::innerText()
{
// We need to update layout, since plainText uses line boxes in the layout tree.
document().updateLayoutIgnorePendingStylesheets();
if (!layoutObject())
return textContent(true);
return plainText(EphemeralRange::rangeOfContents(*this), TextIteratorForInnerText);
}
String Element::outerText()
{
// Getting outerText is the same as getting innerText, only
// setting is different. You would think this should get the plain
// text for the outer range, but this is wrong, <br> for instance
// would return different values for inner and outer text by such
// a rule, but it doesn't in WinIE, and we want to match that.
return innerText();
}
String Element::textFromChildren()
{
Text* firstTextNode = 0;
bool foundMultipleTextNodes = false;
unsigned totalLength = 0;
for (Node* child = firstChild(); child; child = child->nextSibling()) {
if (!child->isTextNode())
continue;
Text* text = toText(child);
if (!firstTextNode)
firstTextNode = text;
else
foundMultipleTextNodes = true;
unsigned length = text->data().length();
if (length > std::numeric_limits<unsigned>::max() - totalLength)
return emptyString();
totalLength += length;
}
if (!firstTextNode)
return emptyString();
if (firstTextNode && !foundMultipleTextNodes) {
firstTextNode->atomize();
return firstTextNode->data();
}
StringBuilder content;
content.reserveCapacity(totalLength);
for (Node* child = firstTextNode; child; child = child->nextSibling()) {
if (!child->isTextNode())
continue;
content.append(toText(child)->data());
}
ASSERT(content.length() == totalLength);
return content.toString();
}
const AtomicString& Element::shadowPseudoId() const
{
if (ShadowRoot* root = containingShadowRoot()) {
if (root->type() == ShadowRootType::UserAgent)
return fastGetAttribute(pseudoAttr);
}
return nullAtom;
}
void Element::setShadowPseudoId(const AtomicString& id)
{
ASSERT(CSSSelector::parsePseudoType(id, false) == CSSSelector::PseudoWebKitCustomElement);
setAttribute(pseudoAttr, id);
}
bool Element::isInDescendantTreeOf(const Element* shadowHost) const
{
ASSERT(shadowHost);
ASSERT(isShadowHost(shadowHost));
const ShadowRoot* shadowRoot = containingShadowRoot();
while (shadowRoot) {
const Element* ancestorShadowHost = shadowRoot->shadowHost();
if (ancestorShadowHost == shadowHost)
return true;
shadowRoot = ancestorShadowHost->containingShadowRoot();
}
return false;
}
LayoutSize Element::minimumSizeForResizing() const
{
return hasRareData() ? elementRareData()->minimumSizeForResizing() : defaultMinimumSizeForResizing();
}
void Element::setMinimumSizeForResizing(const LayoutSize& size)
{
if (!hasRareData() && size == defaultMinimumSizeForResizing())
return;
ensureElementRareData().setMinimumSizeForResizing(size);
}
const ComputedStyle* Element::ensureComputedStyle(PseudoId pseudoElementSpecifier)
{
if (PseudoElement* element = pseudoElement(pseudoElementSpecifier))
return element->ensureComputedStyle();
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 nullptr;
}
// FIXME: Find and use the layoutObject from the pseudo element instead of the actual element so that the 'length'
// properties, which are only known by the layoutObject because it did the layout, will be correct and so that the
// values returned for the ":selection" pseudo-element will be correct.
ComputedStyle* elementStyle = mutableComputedStyle();
if (!elementStyle) {
ElementRareData& rareData = ensureElementRareData();
if (!rareData.ensureComputedStyle())
rareData.setComputedStyle(document().styleForElementIgnoringPendingStylesheets(this));
elementStyle = rareData.ensureComputedStyle();
}
if (!pseudoElementSpecifier)
return elementStyle;
if (ComputedStyle* pseudoElementStyle = elementStyle->getCachedPseudoStyle(pseudoElementSpecifier))
return pseudoElementStyle;
RefPtr<ComputedStyle> result = document().ensureStyleResolver().pseudoStyleForElement(this, PseudoStyleRequest(pseudoElementSpecifier, PseudoStyleRequest::ForComputedStyle), elementStyle);
ASSERT(result);
return elementStyle->addCachedPseudoStyle(result.release());
}
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();
// Spec: xml:lang takes precedence -- http://www.w3.org/TR/xhtml1/#C_7
if (const Attribute* attribute = attributes.find(XMLNames::langAttr))
value = attribute->value();
else 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->parentOrShadowHostNode();
} while (n && value.isNull());
return value;
}
Locale& Element::locale() const
{
return document().getCachedLocale(computeInheritedLanguage());
}
void Element::cancelFocusAppearanceUpdate()
{
if (document().focusedElement() == this)
document().cancelFocusAppearanceUpdate();
}
void Element::updatePseudoElement(PseudoId pseudoId, StyleRecalcChange change)
{
ASSERT(!needsStyleRecalc());
PseudoElement* element = pseudoElement(pseudoId);
if (element && (change == UpdatePseudoElements || element->shouldCallRecalcStyle(change))) {
if (pseudoId == FIRST_LETTER && updateFirstLetter(element))
return;
// Need to clear the cached style if the PseudoElement wants a recalc so it
// computes a new style.
if (element->needsStyleRecalc())
layoutObject()->mutableStyle()->removeCachedPseudoStyle(pseudoId);
// PseudoElement styles hang off their parent element's style so if we needed
// a style recalc we should Force one on the pseudo.
// FIXME: We should figure out the right text sibling to pass.
element->recalcStyle(change == UpdatePseudoElements ? Force : change);
// Wait until our parent is not displayed or pseudoElementLayoutObjectIsNeeded
// is false, otherwise we could continuously create and destroy PseudoElements
// when LayoutObject::isChildAllowed on our parent returns false for the
// PseudoElement's layoutObject for each style recalc.
if (!layoutObject() || !pseudoElementLayoutObjectIsNeeded(layoutObject()->getCachedPseudoStyle(pseudoId)))
elementRareData()->setPseudoElement(pseudoId, nullptr);
} else if (pseudoId == FIRST_LETTER && element && change >= UpdatePseudoElements && !FirstLetterPseudoElement::firstLetterTextLayoutObject(*element)) {
// This can happen if we change to a float, for example. We need to cleanup the
// first-letter pseudoElement and then fix the text of the original remaining
// text layoutObject.
// This can be seen in Test 7 of fast/css/first-letter-removed-added.html
elementRareData()->setPseudoElement(pseudoId, nullptr);
} else if (change >= UpdatePseudoElements) {
createPseudoElementIfNeeded(pseudoId);
}
}
// If we're updating first letter, and the current first letter layoutObject
// is not the same as the one we're currently using we need to re-create
// the first letter layoutObject.
bool Element::updateFirstLetter(Element* element)
{
LayoutObject* remainingTextLayoutObject = FirstLetterPseudoElement::firstLetterTextLayoutObject(*element);
if (!remainingTextLayoutObject || remainingTextLayoutObject != toFirstLetterPseudoElement(element)->remainingTextLayoutObject()) {
// We have to clear out the old first letter here because when it is
// disposed it will set the original text back on the remaining text
// layoutObject. If we dispose after creating the new one we will get
// incorrect results due to setting the first letter back.
if (remainingTextLayoutObject)
element->reattach();
else
elementRareData()->setPseudoElement(FIRST_LETTER, nullptr);
return true;
}
return false;
}
void Element::createPseudoElementIfNeeded(PseudoId pseudoId)
{
if (isPseudoElement())
return;
// Document::ensureStyleResolver is not inlined and shows up on profiles, avoid it here.
RefPtrWillBeRawPtr<PseudoElement> element = document().styleEngine().ensureResolver().createPseudoElementIfNeeded(*this, pseudoId);
if (!element)
return;
if (pseudoId == BACKDROP)
document().addToTopLayer(element.get(), this);
element->insertedInto(this);
element->attach();
InspectorInstrumentation::pseudoElementCreated(element.get());
ensureElementRareData().setPseudoElement(pseudoId, element.release());
}
PseudoElement* Element::pseudoElement(PseudoId pseudoId) const
{
return hasRareData() ? elementRareData()->pseudoElement(pseudoId) : nullptr;
}
LayoutObject* Element::pseudoElementLayoutObject(PseudoId pseudoId) const
{
if (PseudoElement* element = pseudoElement(pseudoId))
return element->layoutObject();
return nullptr;
}
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);
}
Element* Element::closest(const String& selectors, ExceptionState& exceptionState)
{
SelectorQuery* selectorQuery = document().selectorQueryCache().add(AtomicString(selectors), document(), exceptionState);
if (!selectorQuery)
return nullptr;
return selectorQuery->closest(*this);
}
DOMTokenList& Element::classList()
{
ElementRareData& rareData = ensureElementRareData();
if (!rareData.classList())
rareData.setClassList(ClassList::create(this));
return *rareData.classList();
}
DOMStringMap& Element::dataset()
{
ElementRareData& rareData = ensureElementRareData();
if (!rareData.dataset())
rareData.setDataset(DatasetDOMStringMap::create(this));
return *rareData.dataset();
}
KURL Element::hrefURL() const
{
// FIXME: These all have href() or url(), but no common super class. Why doesn't
// <link> implement URLUtils?
if (isHTMLAnchorElement(*this) || isHTMLAreaElement(*this) || isHTMLLinkElement(*this))
return getURLAttribute(hrefAttr);
if (isSVGAElement(*this))
return getURLAttribute(XLinkNames::hrefAttr);
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).toInt();
}
void Element::setIntegralAttribute(const QualifiedName& attributeName, int value)
{
setAttribute(attributeName, AtomicString::number(value));
}
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));
}
void Element::setContainsFullScreenElement(bool flag)
{
setElementFlag(ContainsFullScreenElement, flag);
setNeedsStyleRecalc(SubtreeStyleChange, StyleChangeReasonForTracing::create(StyleChangeReason::FullScreen));
}
static Element* parentCrossingFrameBoundaries(Element* element)
{
ASSERT(element);
return element->parentElement() ? element->parentElement() : element->document().ownerElement();
}
void Element::setContainsFullScreenElementOnAncestorsCrossingFrameBoundaries(bool flag)
{
for (Element* element = parentCrossingFrameBoundaries(this); element; element = parentCrossingFrameBoundaries(element))
element->setContainsFullScreenElement(flag);
}
void Element::setIsInTopLayer(bool inTopLayer)
{
if (isInTopLayer() == inTopLayer)
return;
setElementFlag(IsInTopLayer, inTopLayer);
// We must ensure a reattach occurs so the layoutObject is inserted in the correct sibling order under LayoutView according to its
// top layer position, or in its usual place if not in the top layer.
lazyReattachIfAttached();
}
void Element::requestPointerLock()
{
if (document().page())
document().page()->pointerLockController().requestPointerLock(this);
}
SpellcheckAttributeState Element::spellcheckAttributeState() const
{
const AtomicString& value = fastGetAttribute(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->parentOrShadowHostElement()) {
switch (element->spellcheckAttributeState()) {
case SpellcheckAttributeTrue:
return true;
case SpellcheckAttributeFalse:
return false;
case SpellcheckAttributeDefault:
break;
}
}
return true;
}
#if ENABLE(ASSERT)
bool Element::fastAttributeLookupAllowed(const QualifiedName& name) const
{
if (name == HTMLNames::styleAttr)
return false;
if (isSVGElement())
return !toSVGElement(this)->isAnimatableAttribute(name);
return true;
}
#endif
#ifdef DUMP_NODE_STATISTICS
bool Element::hasNamedNodeMap() const
{
return hasRareData() && elementRareData()->attributeMap();
}
#endif
inline void Element::updateName(const AtomicString& oldName, const AtomicString& newName)
{
if (!inDocument() || isInShadowTree())
return;
if (oldName == newName)
return;
if (shouldRegisterAsNamedItem())
updateNamedItemRegistration(oldName, newName);
}
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);
if (shouldRegisterAsExtraNamedItem())
updateExtraNamedItemRegistration(oldId, newId);
}
void Element::willModifyAttribute(const QualifiedName& name, const AtomicString& oldValue, const AtomicString& newValue)
{
if (name == HTMLNames::nameAttr) {
updateName(oldValue, newValue);
}
if (oldValue != newValue) {
document().styleEngine().attributeChangedForElement(name, *this);
if (isUpgradedCustomElement())
CustomElement::attributeDidChange(this, name.localName(), oldValue, newValue);
}
if (OwnPtrWillBeRawPtr<MutationObserverInterestGroup> recipients = MutationObserverInterestGroup::createForAttributesMutation(*this, name))
recipients->enqueueMutationRecord(MutationRecord::createAttributes(this, name, oldValue));
InspectorInstrumentation::willModifyDOMAttr(this, oldValue, newValue);
}
void Element::didAddAttribute(const QualifiedName& name, const AtomicString& value)
{
if (name == HTMLNames::idAttr)
updateId(nullAtom, value);
attributeChanged(name, nullAtom, value);
InspectorInstrumentation::didModifyDOMAttr(this, name, value);
dispatchSubtreeModifiedEvent();
}
void Element::didModifyAttribute(const QualifiedName& name, const AtomicString& oldValue, const AtomicString& newValue)
{
if (name == HTMLNames::idAttr)
updateId(oldValue, newValue);
attributeChanged(name, oldValue, newValue);
InspectorInstrumentation::didModifyDOMAttr(this, name, newValue);
// Do not dispatch a DOMSubtreeModified event here; see bug 81141.
}
void Element::didRemoveAttribute(const QualifiedName& name, const AtomicString& oldValue)
{
if (name == HTMLNames::idAttr)
updateId(oldValue, nullAtom);
attributeChanged(name, oldValue, nullAtom);
InspectorInstrumentation::didRemoveDOMAttr(this, name);
dispatchSubtreeModifiedEvent();
}
static bool needsURLResolutionForInlineStyle(const Element& element, const Document& oldDocument, const Document& newDocument)
{
if (oldDocument == newDocument)
return false;
if (oldDocument.baseURL() == newDocument.baseURL())
return false;
const StylePropertySet* style = element.inlineStyle();
if (!style)
return false;
for (unsigned i = 0; i < style->propertyCount(); ++i) {
// FIXME: Should handle all URL-based properties: CSSImageSetValue, CSSCursorImageValue, etc.
if (style->propertyAt(i).value()->isImageValue())
return true;
}
return false;
}
static void reResolveURLsInInlineStyle(const Document& document, MutableStylePropertySet& style)
{
for (unsigned i = 0; i < style.propertyCount(); ++i) {
StylePropertySet::PropertyReference property = style.propertyAt(i);
// FIXME: Should handle all URL-based properties: CSSImageSetValue, CSSCursorImageValue, etc.
if (property.value()->isImageValue())
toCSSImageValue(property.value())->reResolveURL(document);
}
}
void Element::didMoveToNewDocument(Document& oldDocument)
{
Node::didMoveToNewDocument(oldDocument);
// If the documents differ by quirks mode then they differ by case sensitivity
// for class and id names so we need to go through the attribute change logic
// to pick up the new casing in the ElementData.
if (oldDocument.inQuirksMode() != document().inQuirksMode()) {
if (hasID())
setIdAttribute(getIdAttribute());
if (hasClass())
setAttribute(HTMLNames::classAttr, getClassAttribute());
}
if (needsURLResolutionForInlineStyle(*this, oldDocument, document()))
reResolveURLsInInlineStyle(document(), ensureMutableInlineStyle());
}
void Element::updateNamedItemRegistration(const AtomicString& oldName, const AtomicString& newName)
{
if (!document().isHTMLDocument())
return;
if (!oldName.isEmpty())
toHTMLDocument(document()).removeNamedItem(oldName);
if (!newName.isEmpty())
toHTMLDocument(document()).addNamedItem(newName);
}
void Element::updateExtraNamedItemRegistration(const AtomicString& oldId, const AtomicString& newId)
{
if (!document().isHTMLDocument())
return;
if (!oldId.isEmpty())
toHTMLDocument(document()).removeExtraNamedItem(oldId);
if (!newId.isEmpty())
toHTMLDocument(document()).addExtraNamedItem(newId);
}
void Element::scheduleSVGFilterLayerUpdateHack()
{
document().scheduleSVGFilterLayerUpdateHack(*this);
}
IntSize Element::savedLayerScrollOffset() const
{
return hasRareData() ? elementRareData()->savedLayerScrollOffset() : IntSize();
}
void Element::setSavedLayerScrollOffset(const IntSize& size)
{
if (size.isZero() && !hasRareData())
return;
ensureElementRareData().setSavedLayerScrollOffset(size);
}
PassRefPtrWillBeRawPtr<Attr> Element::attrIfExists(const QualifiedName& name)
{
if (AttrNodeList* attrNodeList = this->attrNodeList()) {
bool shouldIgnoreCase = shouldIgnoreAttributeCase();
for (const auto& attr : *attrNodeList) {
if (attr->qualifiedName().matchesPossiblyIgnoringCase(name, shouldIgnoreCase))
return attr.get();
}
}
return nullptr;
}
PassRefPtrWillBeRawPtr<Attr> Element::ensureAttr(const QualifiedName& name)
{
RefPtrWillBeRawPtr<Attr> attrNode = attrIfExists(name);
if (!attrNode) {
attrNode = Attr::create(*this, name);
treeScope().adoptIfNeeded(*attrNode);
ensureAttrNodeList().append(attrNode);
}
return attrNode.release();
}
void Element::detachAttrNodeFromElementWithValue(Attr* attrNode, const AtomicString& value)
{
ASSERT(attrNodeList());
attrNode->detachFromElementWithValue(value);
AttrNodeList* list = attrNodeList();
size_t index = list->find(attrNode);
ASSERT(index != kNotFound);
list->remove(index);
if (list->isEmpty())
removeAttrNodeList();
}
void Element::detachAllAttrNodesFromElement()
{
AttrNodeList* list = this->attrNodeList();
if (!list)
return;
AttributeCollection attributes = elementData()->attributes();
for (const Attribute& attr : attributes) {
if (RefPtrWillBeRawPtr<Attr> attrNode = attrIfExists(attr.name()))
attrNode->detachFromElementWithValue(attr.value());
}
removeAttrNodeList();
}
void Element::willRecalcStyle(StyleRecalcChange)
{
ASSERT(hasCustomStyleCallbacks());
}
void Element::didRecalcStyle(StyleRecalcChange)
{
ASSERT(hasCustomStyleCallbacks());
}
PassRefPtr<ComputedStyle> Element::customStyleForLayoutObject()
{
ASSERT(hasCustomStyleCallbacks());
return nullptr;
}
void Element::cloneAttributesFromElement(const Element& other)
{
if (hasRareData())
detachAllAttrNodesFromElement();
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);
const AtomicString& oldName = getNameAttribute();
const AtomicString& newName = other.getNameAttribute();
if (!oldName.isNull() || !newName.isNull())
updateName(oldName, newName);
// Quirks mode makes class and id not case sensitive. We can't share the ElementData
// if the idForStyleResolution and the className need different casing.
bool ownerDocumentsHaveDifferentCaseSensitivity = false;
if (other.hasClass() || other.hasID())
ownerDocumentsHaveDifferentCaseSensitivity = other.document().inQuirksMode() != document().inQuirksMode();
// 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()
&& !ownerDocumentsHaveDifferentCaseSensitivity
&& !other.m_elementData->presentationAttributeStyle())
const_cast<Element&>(other).m_elementData = toUniqueElementData(other.m_elementData)->makeShareableCopy();
if (!other.m_elementData->isUnique() && !ownerDocumentsHaveDifferentCaseSensitivity && !needsURLResolutionForInlineStyle(other, other.document(), document()))
m_elementData = other.m_elementData;
else
m_elementData = other.m_elementData->makeUniqueCopy();
AttributeCollection attributes = m_elementData->attributes();
for (const Attribute& attr : attributes)
attributeChangedFromParserOrByCloning(attr.name(), attr.value(), ModifiedByCloning);
}
void Element::cloneDataFromElement(const Element& other)
{
cloneAttributesFromElement(other);
copyNonAttributePropertiesFromElement(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(styleAttr,
inlineStyle ? AtomicString(inlineStyle->asText()) : nullAtom);
}
CSSStyleDeclaration* Element::style()
{
if (!isStyledElement())
return nullptr;
return &ensureElementRareData().ensureInlineCSSStyleDeclaration(this);
}
MutableStylePropertySet& Element::ensureMutableInlineStyle()
{
ASSERT(isStyledElement());
RefPtrWillBeMember<StylePropertySet>& inlineStyle = ensureUniqueElementData().m_inlineStyle;
if (!inlineStyle) {
CSSParserMode mode = (!isHTMLElement() || document().inQuirksMode()) ? HTMLQuirksMode : HTMLStandardMode;
inlineStyle = MutableStylePropertySet::create(mode);
} 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());
RefPtrWillBeMember<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 = CSSParser::parseInlineStyleDeclaration(newStyleString, this);
} else {
ASSERT(inlineStyle->isMutable());
static_cast<MutableStylePropertySet*>(inlineStyle.get())->parseDeclarationList(newStyleString, document().elementSheet().contents());
}
}
void Element::styleAttributeChanged(const AtomicString& newStyleString, AttributeModificationReason modificationReason)
{
ASSERT(isStyledElement());
WTF::OrdinalNumber startLineNumber = WTF::OrdinalNumber::beforeFirst();
if (document().scriptableDocumentParser() && !document().isInDocumentWrite())
startLineNumber = document().scriptableDocumentParser()->lineNumber();
if (newStyleString.isNull()) {
ensureUniqueElementData().m_inlineStyle.clear();
} else if (modificationReason == ModifiedByCloning || ContentSecurityPolicy::shouldBypassMainWorld(&document()) || document().contentSecurityPolicy()->allowInlineStyle(document().url(), startLineNumber, newStyleString)) {
setInlineStyleFromString(newStyleString);
}
elementData()->m_styleAttributeIsDirty = false;
setNeedsStyleRecalc(LocalStyleChange, StyleChangeReasonForTracing::create(StyleChangeReason::StyleSheetChange));
InspectorInstrumentation::didInvalidateStyleAttr(this);
}
void Element::inlineStyleChanged()
{
ASSERT(isStyledElement());
setNeedsStyleRecalc(LocalStyleChange, StyleChangeReasonForTracing::create(StyleChangeReason::Inline));
ASSERT(elementData());
elementData()->m_styleAttributeIsDirty = true;
InspectorInstrumentation::didInvalidateStyleAttr(this);
}
bool Element::setInlineStyleProperty(CSSPropertyID propertyID, CSSValueID identifier, bool important)
{
ASSERT(isStyledElement());
ensureMutableInlineStyle().setProperty(propertyID, cssValuePool().createIdentifierValue(identifier), important);
inlineStyleChanged();
return true;
}
bool Element::setInlineStyleProperty(CSSPropertyID propertyID, double value, CSSPrimitiveValue::UnitType unit, bool important)
{
ASSERT(isStyledElement());
ensureMutableInlineStyle().setProperty(propertyID, cssValuePool().createValue(value, unit), important);
inlineStyleChanged();
return true;
}
bool Element::setInlineStyleProperty(CSSPropertyID propertyID, const String& value, bool important)
{
ASSERT(isStyledElement());
bool changes = ensureMutableInlineStyle().setProperty(propertyID, value, important, 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();
}
void Element::updatePresentationAttributeStyle()
{
synchronizeAllAttributes();
// ShareableElementData doesn't store presentation attribute style, so make sure we have a UniqueElementData.
UniqueElementData& elementData = ensureUniqueElementData();
elementData.m_presentationAttributeStyleIsDirty = false;
elementData.m_presentationAttributeStyle = computePresentationAttributeStyle(*this);
}
void Element::addPropertyToPresentationAttributeStyle(MutableStylePropertySet* style, CSSPropertyID propertyID, CSSValueID identifier)
{
ASSERT(isStyledElement());
style->setProperty(propertyID, cssValuePool().createIdentifierValue(identifier));
}
void Element::addPropertyToPresentationAttributeStyle(MutableStylePropertySet* style, CSSPropertyID propertyID, double value, CSSPrimitiveValue::UnitType unit)
{
ASSERT(isStyledElement());
style->setProperty(propertyID, cssValuePool().createValue(value, unit));
}
void Element::addPropertyToPresentationAttributeStyle(MutableStylePropertySet* style, CSSPropertyID propertyID, const String& value)
{
ASSERT(isStyledElement());
style->setProperty(propertyID, value, false);
}
void Element::addPropertyToPresentationAttributeStyle(MutableStylePropertySet* style, CSSPropertyID propertyID, PassRefPtrWillBeRawPtr<CSSValue> value)
{
ASSERT(isStyledElement());
style->setProperty(propertyID, value);
}
bool Element::supportsStyleSharing() const
{
if (!isStyledElement() || !parentOrShadowHostElement())
return false;
// If the element has inline style it is probably unique.
if (inlineStyle())
return false;
if (isSVGElement() && toSVGElement(this)->animatedSMILStyleProperties())
return false;
// Ids stop style sharing if they show up in the stylesheets.
if (hasID() && document().ensureStyleResolver().hasRulesForId(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. There's also only one
// :focus element per scope so we don't need to attempt to share.
if (isUserActionElement())
return false;
if (!parentOrShadowHostElement()->childrenSupportStyleSharing())
return false;
if (this == document().cssTarget())
return false;
if (isHTMLElement() && toHTMLElement(this)->hasDirectionAuto())
return false;
if (hasAnimations())
return false;
if (Fullscreen::isActiveFullScreenElement(*this))
return false;
return true;
}
void Element::logAddElementIfIsolatedWorldAndInDocument(const char element[], const QualifiedName& attr1)
{
if (!inDocument())
return;
V8DOMActivityLogger* activityLogger = V8DOMActivityLogger::currentActivityLoggerIfIsolatedWorld();
if (!activityLogger)
return;
Vector<String, 2> argv;
argv.append(element);
argv.append(fastGetAttribute(attr1));
activityLogger->logEvent("blinkAddElement", argv.size(), argv.data());
}
void Element::logAddElementIfIsolatedWorldAndInDocument(const char element[], const QualifiedName& attr1, const QualifiedName& attr2)
{
if (!inDocument())
return;
V8DOMActivityLogger* activityLogger = V8DOMActivityLogger::currentActivityLoggerIfIsolatedWorld();
if (!activityLogger)
return;
Vector<String, 3> argv;
argv.append(element);
argv.append(fastGetAttribute(attr1));
argv.append(fastGetAttribute(attr2));
activityLogger->logEvent("blinkAddElement", argv.size(), argv.data());
}
void Element::logAddElementIfIsolatedWorldAndInDocument(const char element[], const QualifiedName& attr1, const QualifiedName& attr2, const QualifiedName& attr3)
{
if (!inDocument())
return;
V8DOMActivityLogger* activityLogger = V8DOMActivityLogger::currentActivityLoggerIfIsolatedWorld();
if (!activityLogger)
return;
Vector<String, 4> argv;
argv.append(element);
argv.append(fastGetAttribute(attr1));
argv.append(fastGetAttribute(attr2));
argv.append(fastGetAttribute(attr3));
activityLogger->logEvent("blinkAddElement", argv.size(), argv.data());
}
void Element::logUpdateAttributeIfIsolatedWorldAndInDocument(const char element[], const QualifiedName& attributeName, const AtomicString& oldValue, const AtomicString& newValue)
{
if (!inDocument())
return;
V8DOMActivityLogger* activityLogger = V8DOMActivityLogger::currentActivityLoggerIfIsolatedWorld();
if (!activityLogger)
return;
Vector<String, 4> argv;
argv.append(element);
argv.append(attributeName.toString());
argv.append(oldValue);
argv.append(newValue);
activityLogger->logEvent("blinkSetAttribute", argv.size(), argv.data());
}
DEFINE_TRACE(Element)
{
#if ENABLE(OILPAN)
if (hasRareData())
visitor->trace(elementRareData());
visitor->trace(m_elementData);
#endif
ContainerNode::trace(visitor);
}
} // namespace blink