#include "config.h"
#include "Element.h"
#include "AXObjectCache.h"
#include "Attr.h"
#include "CSSParser.h"
#include "Chrome.h"
#include "ChromeClient.h"
#include "ClientRect.h"
#include "ClientRectList.h"
#include "ContainerNodeAlgorithms.h"
#include "DOMTokenList.h"
#include "DocumentSharedObjectPool.h"
#include "ElementIterator.h"
#include "ElementRareData.h"
#include "EventDispatcher.h"
#include "FlowThreadController.h"
#include "FocusController.h"
#include "FocusEvent.h"
#include "FrameSelection.h"
#include "FrameView.h"
#include "HTMLCanvasElement.h"
#include "HTMLCollection.h"
#include "HTMLDocument.h"
#include "HTMLFormControlsCollection.h"
#include "HTMLLabelElement.h"
#include "HTMLNameCollection.h"
#include "HTMLOptionsCollection.h"
#include "HTMLParserIdioms.h"
#include "HTMLSelectElement.h"
#include "HTMLTableRowsCollection.h"
#include "InsertionPoint.h"
#include "KeyboardEvent.h"
#include "MutationObserverInterestGroup.h"
#include "MutationRecord.h"
#include "NodeRenderStyle.h"
#include "PlatformWheelEvent.h"
#include "PointerLockController.h"
#include "RenderLayer.h"
#include "RenderNamedFlowFragment.h"
#include "RenderRegion.h"
#include "RenderTheme.h"
#include "RenderView.h"
#include "RenderWidget.h"
#include "SVGDocumentExtensions.h"
#include "SVGElement.h"
#include "SVGNames.h"
#include "SelectorQuery.h"
#include "Settings.h"
#include "StyleProperties.h"
#include "StyleResolver.h"
#include "TextIterator.h"
#include "VoidCallback.h"
#include "WheelEvent.h"
#include "XLinkNames.h"
#include "XMLNSNames.h"
#include "XMLNames.h"
#include "htmlediting.h"
#include <wtf/BitVector.h>
#include <wtf/CurrentTime.h>
#include <wtf/text/CString.h>
namespace WebCore {
using namespace HTMLNames;
using namespace XMLNames;
static inline bool shouldIgnoreAttributeCase(const Element& element)
{
return element.isHTMLElement() && element.document().isHTMLDocument();
}
static HashMap<Element*, Vector<RefPtr<Attr>>>& attrNodeListMap()
{
static NeverDestroyed<HashMap<Element*, Vector<RefPtr<Attr>>>> map;
return map;
}
static Vector<RefPtr<Attr>>* attrNodeListForElement(Element& element)
{
if (!element.hasSyntheticAttrChildNodes())
return nullptr;
ASSERT(attrNodeListMap().contains(&element));
return &attrNodeListMap().find(&element)->value;
}
static Vector<RefPtr<Attr>>& ensureAttrNodeListForElement(Element& element)
{
if (element.hasSyntheticAttrChildNodes()) {
ASSERT(attrNodeListMap().contains(&element));
return attrNodeListMap().find(&element)->value;
}
ASSERT(!attrNodeListMap().contains(&element));
element.setHasSyntheticAttrChildNodes(true);
return attrNodeListMap().add(&element, Vector<RefPtr<Attr>>()).iterator->value;
}
static void removeAttrNodeListForElement(Element& element)
{
ASSERT(element.hasSyntheticAttrChildNodes());
ASSERT(attrNodeListMap().contains(&element));
attrNodeListMap().remove(&element);
element.setHasSyntheticAttrChildNodes(false);
}
static Attr* findAttrNodeInList(Vector<RefPtr<Attr>>& attrNodeList, const QualifiedName& name)
{
for (auto& node : attrNodeList) {
if (node->qualifiedName() == name)
return node.get();
}
return nullptr;
}
PassRefPtr<Element> Element::create(const QualifiedName& tagName, Document& document)
{
return adoptRef(new Element(tagName, document, CreateElement));
}
Element::~Element()
{
#ifndef NDEBUG
if (document().hasLivingRenderTree()) {
ASSERT_WITH_SECURITY_IMPLICATION(!isNamedFlowContentNode());
}
#endif
ASSERT(!beforePseudoElement());
ASSERT(!afterPseudoElement());
removeShadowRoot();
if (hasSyntheticAttrChildNodes())
detachAllAttrNodesFromElement();
if (hasPendingResources()) {
document().accessSVGExtensions()->removeElementFromPendingResources(this);
ASSERT(!hasPendingResources());
}
}
inline ElementRareData* Element::elementRareData() const
{
ASSERT_WITH_SECURITY_IMPLICATION(hasRareData());
return static_cast<ElementRareData*>(rareData());
}
inline ElementRareData& Element::ensureElementRareData()
{
return static_cast<ElementRareData&>(ensureRareData());
}
void Element::clearTabIndexExplicitlyIfNeeded()
{
if (hasRareData())
elementRareData()->clearTabIndexExplicitly();
}
void Element::setTabIndexExplicitly(short tabIndex)
{
ensureElementRareData().setTabIndexExplicitly(tabIndex);
}
bool Element::supportsFocus() const
{
return hasRareData() && elementRareData()->tabIndexSetExplicitly();
}
Element* Element::focusDelegate()
{
return this;
}
short Element::tabIndex() const
{
return hasRareData() ? elementRareData()->tabIndex() : 0;
}
void Element::setTabIndex(int value)
{
setIntegralAttribute(tabindexAttr, value);
}
bool Element::isKeyboardFocusable(KeyboardEvent*) const
{
return isFocusable() && tabIndex() >= 0;
}
bool Element::isMouseFocusable() const
{
return isFocusable();
}
bool Element::shouldUseInputMethod()
{
return isContentEditable(UserSelectAllIsAlwaysNonEditable);
}
bool Element::dispatchMouseEvent(const PlatformMouseEvent& platformEvent, const AtomicString& eventType, int detail, Element* relatedTarget)
{
if (isDisabledFormControl())
return false;
RefPtr<MouseEvent> mouseEvent = MouseEvent::create(eventType, document().defaultView(), platformEvent, detail, relatedTarget);
if (mouseEvent->type().isEmpty())
return true;
ASSERT(!mouseEvent->target() || mouseEvent->target() != relatedTarget);
bool didNotSwallowEvent = dispatchEvent(mouseEvent) && !mouseEvent->defaultHandled();
if (mouseEvent->type() == eventNames().clickEvent && mouseEvent->detail() == 2) {
RefPtr<MouseEvent> doubleClickEvent = MouseEvent::create();
doubleClickEvent->initMouseEvent(eventNames().dblclickEvent,
mouseEvent->bubbles(), mouseEvent->cancelable(), mouseEvent->view(), mouseEvent->detail(),
mouseEvent->screenX(), mouseEvent->screenY(), mouseEvent->clientX(), mouseEvent->clientY(),
mouseEvent->ctrlKey(), mouseEvent->altKey(), mouseEvent->shiftKey(), mouseEvent->metaKey(),
mouseEvent->button(), relatedTarget);
if (mouseEvent->defaultHandled())
doubleClickEvent->setDefaultHandled();
dispatchEvent(doubleClickEvent);
if (doubleClickEvent->defaultHandled() || doubleClickEvent->defaultPrevented())
return false;
}
return didNotSwallowEvent;
}
bool Element::dispatchWheelEvent(const PlatformWheelEvent& event)
{
if (!(event.deltaX() || event.deltaY()))
return true;
RefPtr<WheelEvent> wheelEvent = WheelEvent::create(event, document().defaultView());
return EventDispatcher::dispatchEvent(this, wheelEvent) && !wheelEvent->defaultHandled();
}
bool Element::dispatchKeyEvent(const PlatformKeyboardEvent& platformEvent)
{
RefPtr<KeyboardEvent> event = KeyboardEvent::create(platformEvent, document().defaultView());
return EventDispatcher::dispatchEvent(this, event) && !event->defaultHandled();
}
void Element::dispatchSimulatedClick(Event* underlyingEvent, SimulatedClickMouseEventOptions eventOptions, SimulatedClickVisualOptions visualOptions)
{
EventDispatcher::dispatchSimulatedClick(this, underlyingEvent, eventOptions, visualOptions);
}
DEFINE_VIRTUAL_ATTRIBUTE_EVENT_LISTENER(Element, blur);
DEFINE_VIRTUAL_ATTRIBUTE_EVENT_LISTENER(Element, error);
DEFINE_VIRTUAL_ATTRIBUTE_EVENT_LISTENER(Element, focus);
DEFINE_VIRTUAL_ATTRIBUTE_EVENT_LISTENER(Element, load);
PassRefPtr<Node> Element::cloneNode(bool deep)
{
return deep ? cloneElementWithChildren() : cloneElementWithoutChildren();
}
PassRefPtr<Element> Element::cloneElementWithChildren()
{
RefPtr<Element> clone = cloneElementWithoutChildren();
cloneChildNodes(clone.get());
return clone.release();
}
PassRefPtr<Element> Element::cloneElementWithoutChildren()
{
RefPtr<Element> clone = cloneElementWithoutAttributesAndChildren();
ASSERT(isHTMLElement() == clone->isHTMLElement());
clone->cloneDataFromElement(*this);
return clone.release();
}
PassRefPtr<Element> Element::cloneElementWithoutAttributesAndChildren()
{
return document().createElement(tagQName(), false);
}
PassRefPtr<Attr> Element::detachAttribute(unsigned index)
{
ASSERT(elementData());
const Attribute& attribute = elementData()->attributeAt(index);
RefPtr<Attr> attrNode = attrIfExists(attribute.name());
if (attrNode)
detachAttrNodeFromElementWithValue(attrNode.get(), attribute.value());
else
attrNode = Attr::create(document(), attribute.name(), attribute.value());
removeAttributeInternal(index, NotInSynchronizationOfLazyAttribute);
return attrNode.release();
}
bool Element::removeAttribute(const QualifiedName& name)
{
if (!elementData())
return false;
unsigned index = elementData()->findAttributeIndexByName(name);
if (index == ElementData::attributeNotFound)
return false;
removeAttributeInternal(index, NotInSynchronizationOfLazyAttribute);
return true;
}
void Element::setBooleanAttribute(const QualifiedName& name, bool value)
{
if (value)
setAttribute(name, emptyAtom);
else
removeAttribute(name);
}
NamedNodeMap* Element::attributes() 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();
}
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;
if (elementData()->styleAttributeIsDirty()) {
ASSERT(isStyledElement());
static_cast<const StyledElement*>(this)->synchronizeStyleAttributeInternal();
}
if (elementData()->animatedSVGAttributesAreDirty()) {
ASSERT(isSVGElement());
toSVGElement(this)->synchronizeAnimatedSVGAttribute(anyQName());
}
}
ALWAYS_INLINE void Element::synchronizeAttribute(const QualifiedName& name) const
{
if (!elementData())
return;
if (UNLIKELY(name == styleAttr && elementData()->styleAttributeIsDirty())) {
ASSERT_WITH_SECURITY_IMPLICATION(isStyledElement());
static_cast<const StyledElement*>(this)->synchronizeStyleAttributeInternal();
return;
}
if (UNLIKELY(elementData()->animatedSVGAttributesAreDirty())) {
ASSERT(isSVGElement());
toSVGElement(this)->synchronizeAnimatedSVGAttribute(name);
}
}
ALWAYS_INLINE void Element::synchronizeAttribute(const AtomicString& localName) const
{
if (!elementData())
return;
if (elementData()->styleAttributeIsDirty() && equalPossiblyIgnoringCase(localName, styleAttr.localName(), shouldIgnoreAttributeCase(*this))) {
ASSERT_WITH_SECURITY_IMPLICATION(isStyledElement());
static_cast<const StyledElement*>(this)->synchronizeStyleAttributeInternal();
return;
}
if (elementData()->animatedSVGAttributesAreDirty()) {
ASSERT_WITH_SECURITY_IMPLICATION(isSVGElement());
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 = findAttributeByName(name))
return attribute->value();
return nullAtom;
}
bool Element::isFocusable() const
{
if (!inDocument() || !supportsFocus())
return false;
if (isInCanvasSubtree()) {
ASSERT(lineageOfType<HTMLCanvasElement>(*this).first());
auto& canvas = *lineageOfType<HTMLCanvasElement>(*this).first();
return canvas.renderer() && canvas.renderer()->style().visibility() == VISIBLE;
}
if (!renderer()) {
ASSERT(!needsStyleRecalc() || !document().childNeedsStyleRecalc());
}
if (!renderer() || renderer()->style().visibility() != VISIBLE)
return false;
return true;
}
bool Element::isUserActionElementInActiveChain() const
{
ASSERT(isUserActionElement());
return document().userActionElements().isInActiveChain(this);
}
bool Element::isUserActionElementActive() const
{
ASSERT(isUserActionElement());
return document().userActionElements().isActive(this);
}
bool Element::isUserActionElementFocused() const
{
ASSERT(isUserActionElement());
return document().userActionElements().isFocused(this);
}
bool Element::isUserActionElementHovered() const
{
ASSERT(isUserActionElement());
return document().userActionElements().isHovered(this);
}
void Element::setActive(bool flag, bool pause)
{
if (flag == active())
return;
document().userActionElements().setActive(this, flag);
if (!renderer())
return;
bool reactsToPress = renderStyle()->affectedByActive() || childrenAffectedByActive();
if (reactsToPress)
setNeedsStyleRecalc();
if (renderer()->style().hasAppearance() && renderer()->theme().stateChanged(*renderer(), ControlStates::PressedState))
reactsToPress = true;
if (!document().page()->chrome().client().supportsImmediateInvalidation())
return;
if (reactsToPress && pause) {
#ifdef HAVE_FUNC_USLEEP
double startTime = monotonicallyIncreasingTime();
#endif
document().updateStyleIfNeeded();
if (renderer())
renderer()->repaint();
#ifdef HAVE_FUNC_USLEEP
double remainingTime = 0.1 - (monotonicallyIncreasingTime() - startTime);
if (remainingTime > 0)
usleep(static_cast<useconds_t>(remainingTime * 1000000.0));
#endif
}
}
void Element::setFocus(bool flag)
{
if (flag == focused())
return;
document().userActionElements().setFocused(this, flag);
setNeedsStyleRecalc();
}
void Element::setHovered(bool flag)
{
if (flag == hovered())
return;
document().userActionElements().setHovered(this, flag);
if (!renderer()) {
if (!flag)
setNeedsStyleRecalc();
return;
}
if (renderer()->style().affectedByHover() || childrenAffectedByHover())
setNeedsStyleRecalc();
if (renderer()->style().hasAppearance())
renderer()->theme().stateChanged(*renderer(), ControlStates::HoverState);
}
void Element::scrollIntoView(bool alignToTop)
{
document().updateLayoutIgnorePendingStylesheets();
if (!renderer())
return;
LayoutRect bounds = boundingBox();
if (alignToTop)
renderer()->scrollRectToVisible(bounds, ScrollAlignment::alignToEdgeIfNeeded, ScrollAlignment::alignTopAlways);
else
renderer()->scrollRectToVisible(bounds, ScrollAlignment::alignToEdgeIfNeeded, ScrollAlignment::alignBottomAlways);
}
void Element::scrollIntoViewIfNeeded(bool centerIfNeeded)
{
document().updateLayoutIgnorePendingStylesheets();
if (!renderer())
return;
LayoutRect bounds = boundingBox();
if (centerIfNeeded)
renderer()->scrollRectToVisible(bounds, ScrollAlignment::alignCenterIfNeeded, ScrollAlignment::alignCenterIfNeeded);
else
renderer()->scrollRectToVisible(bounds, ScrollAlignment::alignToEdgeIfNeeded, ScrollAlignment::alignToEdgeIfNeeded);
}
void Element::scrollByUnits(int units, ScrollGranularity granularity)
{
document().updateLayoutIgnorePendingStylesheets();
if (!renderer())
return;
if (!renderer()->hasOverflowClip())
return;
ScrollDirection direction = ScrollDown;
if (units < 0) {
direction = ScrollUp;
units = -units;
}
Element* stopElement = this;
toRenderBox(renderer())->scroll(direction, granularity, units, &stopElement);
}
void Element::scrollByLines(int lines)
{
scrollByUnits(lines, ScrollByLine);
}
void Element::scrollByPages(int pages)
{
scrollByUnits(pages, ScrollByPage);
}
static double localZoomForRenderer(const RenderElement& renderer)
{
double zoomFactor = 1;
if (renderer.style().effectiveZoom() != 1) {
const RenderElement* prev = &renderer;
for (RenderElement* curr = prev->parent(); curr; curr = curr->parent()) {
if (curr->style().effectiveZoom() != prev->style().effectiveZoom()) {
zoomFactor = prev->style().zoom();
break;
}
prev = curr;
}
if (prev->isRenderView())
zoomFactor = prev->style().zoom();
}
return zoomFactor;
}
static double adjustForLocalZoom(LayoutUnit value, const RenderElement& renderer, double& zoomFactor)
{
zoomFactor = localZoomForRenderer(renderer);
if (zoomFactor == 1)
return value.toDouble();
#if ENABLE(SUBPIXEL_LAYOUT)
return value.toDouble() / zoomFactor;
#else
if (zoomFactor > 1)
++value;
return value.toDouble() / zoomFactor;
#endif
}
enum LegacyCSSOMElementMetricsRoundingStrategy { Round, Floor };
static bool subpixelMetricsEnabled(const Document& document)
{
return document.settings() && document.settings()->subpixelCSSOMElementMetricsEnabled();
}
static double convertToNonSubpixelValueIfNeeded(double value, const Document& document, LegacyCSSOMElementMetricsRoundingStrategy roundStrategy = Round)
{
return subpixelMetricsEnabled(document) ? value : roundStrategy == Round ? round(value) : floor(value);
}
double Element::offsetLeft()
{
document().updateLayoutIgnorePendingStylesheets();
if (RenderBoxModelObject* renderer = renderBoxModelObject()) {
LayoutUnit offsetLeft = subpixelMetricsEnabled(renderer->document()) ? renderer->offsetLeft() : LayoutUnit(renderer->pixelSnappedOffsetLeft());
double zoomFactor = 1;
double offsetLeftAdjustedWithZoom = adjustForLocalZoom(offsetLeft, *renderer, zoomFactor);
return convertToNonSubpixelValueIfNeeded(offsetLeftAdjustedWithZoom, renderer->document(), zoomFactor == 1 ? Floor : Round);
}
return 0;
}
double Element::offsetTop()
{
document().updateLayoutIgnorePendingStylesheets();
if (RenderBoxModelObject* renderer = renderBoxModelObject()) {
LayoutUnit offsetTop = subpixelMetricsEnabled(renderer->document()) ? renderer->offsetTop() : LayoutUnit(renderer->pixelSnappedOffsetTop());
double zoomFactor = 1;
double offsetTopAdjustedWithZoom = adjustForLocalZoom(offsetTop, *renderer, zoomFactor);
return convertToNonSubpixelValueIfNeeded(offsetTopAdjustedWithZoom, renderer->document(), zoomFactor == 1 ? Floor : Round);
}
return 0;
}
double Element::offsetWidth()
{
document().updateLayoutIgnorePendingStylesheets();
if (RenderBoxModelObject* renderer = renderBoxModelObject()) {
#if ENABLE(SUBPIXEL_LAYOUT)
LayoutUnit offsetWidth = subpixelMetricsEnabled(renderer->document()) ? renderer->offsetWidth() : LayoutUnit(renderer->pixelSnappedOffsetWidth());
return convertToNonSubpixelValueIfNeeded(adjustLayoutUnitForAbsoluteZoom(offsetWidth, *renderer).toDouble(), renderer->document());
#else
return adjustForAbsoluteZoom(renderer->offsetWidth(), *renderer);
#endif
}
return 0;
}
double Element::offsetHeight()
{
document().updateLayoutIgnorePendingStylesheets();
if (RenderBoxModelObject* renderer = renderBoxModelObject()) {
#if ENABLE(SUBPIXEL_LAYOUT)
LayoutUnit offsetHeight = subpixelMetricsEnabled(renderer->document()) ? renderer->offsetHeight() : LayoutUnit(renderer->pixelSnappedOffsetHeight());
return convertToNonSubpixelValueIfNeeded(adjustLayoutUnitForAbsoluteZoom(offsetHeight, *renderer).toDouble(), renderer->document());
#else
return adjustForAbsoluteZoom(renderer->offsetHeight(), *renderer);
#endif
}
return 0;
}
Element* Element::bindingsOffsetParent()
{
Element* element = offsetParent();
if (!element || !element->isInShadowTree())
return element;
return element->containingShadowRoot()->type() == ShadowRoot::UserAgentShadowRoot ? 0 : element;
}
Element* Element::offsetParent()
{
document().updateLayoutIgnorePendingStylesheets();
auto renderer = this->renderer();
if (!renderer)
return nullptr;
auto offsetParent = renderer->offsetParent();
if (!offsetParent)
return nullptr;
return offsetParent->element();
}
double Element::clientLeft()
{
document().updateLayoutIgnorePendingStylesheets();
if (RenderBox* renderer = renderBox()) {
#if ENABLE(SUBPIXEL_LAYOUT)
LayoutUnit clientLeft = subpixelMetricsEnabled(renderer->document()) ? renderer->clientLeft() : LayoutUnit(roundToInt(renderer->clientLeft()));
return convertToNonSubpixelValueIfNeeded(adjustLayoutUnitForAbsoluteZoom(clientLeft, *renderer).toDouble(), renderer->document());
#else
return adjustForAbsoluteZoom(renderer->clientLeft(), *renderer);
#endif
}
return 0;
}
double Element::clientTop()
{
document().updateLayoutIgnorePendingStylesheets();
if (RenderBox* renderer = renderBox()) {
#if ENABLE(SUBPIXEL_LAYOUT)
LayoutUnit clientTop = subpixelMetricsEnabled(renderer->document()) ? renderer->clientTop() : LayoutUnit(roundToInt(renderer->clientTop()));
return convertToNonSubpixelValueIfNeeded(adjustLayoutUnitForAbsoluteZoom(clientTop, *renderer).toDouble(), renderer->document());
#else
return adjustForAbsoluteZoom(renderer->clientTop(), *renderer);
#endif
}
return 0;
}
double Element::clientWidth()
{
document().updateLayoutIgnorePendingStylesheets();
if (!document().hasLivingRenderTree())
return 0;
RenderView& renderView = *document().renderView();
bool inQuirksMode = document().inQuirksMode();
if ((!inQuirksMode && document().documentElement() == this) || (inQuirksMode && isHTMLElement() && document().body() == this))
return adjustForAbsoluteZoom(renderView.frameView().layoutWidth(), renderView);
if (RenderBox* renderer = renderBox()) {
#if ENABLE(SUBPIXEL_LAYOUT)
LayoutUnit clientWidth = subpixelMetricsEnabled(renderer->document()) ? renderer->clientWidth() : LayoutUnit(renderer->pixelSnappedClientWidth());
return convertToNonSubpixelValueIfNeeded(adjustLayoutUnitForAbsoluteZoom(clientWidth, *renderer).toDouble(), renderer->document());
#else
return adjustForAbsoluteZoom(renderer->clientWidth(), *renderer);
#endif
}
return 0;
}
double Element::clientHeight()
{
document().updateLayoutIgnorePendingStylesheets();
if (!document().hasLivingRenderTree())
return 0;
RenderView& renderView = *document().renderView();
bool inQuirksMode = document().inQuirksMode();
if ((!inQuirksMode && document().documentElement() == this) || (inQuirksMode && isHTMLElement() && document().body() == this))
return adjustForAbsoluteZoom(renderView.frameView().layoutHeight(), renderView);
if (RenderBox* renderer = renderBox()) {
#if ENABLE(SUBPIXEL_LAYOUT)
LayoutUnit clientHeight = subpixelMetricsEnabled(renderer->document()) ? renderer->clientHeight() : LayoutUnit(renderer->pixelSnappedClientHeight());
return convertToNonSubpixelValueIfNeeded(adjustLayoutUnitForAbsoluteZoom(clientHeight, *renderer).toDouble(), renderer->document());
#else
return adjustForAbsoluteZoom(renderer->clientHeight(), *renderer);
#endif
}
return 0;
}
int Element::scrollLeft()
{
document().updateLayoutIgnorePendingStylesheets();
if (RenderBox* rend = renderBox())
return adjustForAbsoluteZoom(rend->scrollLeft(), *rend);
return 0;
}
int Element::scrollTop()
{
document().updateLayoutIgnorePendingStylesheets();
if (RenderBox* rend = renderBox())
return adjustForAbsoluteZoom(rend->scrollTop(), *rend);
return 0;
}
void Element::setScrollLeft(int newLeft)
{
document().updateLayoutIgnorePendingStylesheets();
if (RenderBox* renderer = renderBox()) {
renderer->setScrollLeft(static_cast<int>(newLeft * renderer->style().effectiveZoom()));
if (auto* scrollableArea = renderer->layer())
scrollableArea->setScrolledProgrammatically(true);
}
}
void Element::setScrollTop(int newTop)
{
document().updateLayoutIgnorePendingStylesheets();
if (RenderBox* renderer = renderBox()) {
renderer->setScrollTop(static_cast<int>(newTop * renderer->style().effectiveZoom()));
if (auto* scrollableArea = renderer->layer())
scrollableArea->setScrolledProgrammatically(true);
}
}
int Element::scrollWidth()
{
document().updateLayoutIgnorePendingStylesheets();
if (RenderBox* rend = renderBox())
return adjustForAbsoluteZoom(rend->scrollWidth(), *rend);
return 0;
}
int Element::scrollHeight()
{
document().updateLayoutIgnorePendingStylesheets();
if (RenderBox* rend = renderBox())
return adjustForAbsoluteZoom(rend->scrollHeight(), *rend);
return 0;
}
IntRect Element::boundsInRootViewSpace()
{
document().updateLayoutIgnorePendingStylesheets();
FrameView* view = document().view();
if (!view)
return IntRect();
Vector<FloatQuad> quads;
if (isSVGElement() && renderer()) {
SVGElement* svgElement = toSVGElement(this);
FloatRect localRect;
if (svgElement->getBoundingBox(localRect))
quads.append(renderer()->localToAbsoluteQuad(localRect));
} else {
if (renderBoxModelObject())
renderBoxModelObject()->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());
result = view->contentsToRootView(result);
return result;
}
PassRefPtr<ClientRectList> Element::getClientRects()
{
document().updateLayoutIgnorePendingStylesheets();
RenderBoxModelObject* renderBoxModelObject = this->renderBoxModelObject();
if (!renderBoxModelObject)
return ClientRectList::create();
Vector<FloatQuad> quads;
renderBoxModelObject->absoluteQuads(quads);
document().adjustFloatQuadsForScrollAndAbsoluteZoomAndFrameScale(quads, renderBoxModelObject->style());
return ClientRectList::create(quads);
}
PassRefPtr<ClientRect> Element::getBoundingClientRect()
{
document().updateLayoutIgnorePendingStylesheets();
Vector<FloatQuad> quads;
if (isSVGElement() && renderer() && !renderer()->isSVGRoot()) {
SVGElement* svgElement = toSVGElement(this);
FloatRect localRect;
if (svgElement->getBoundingBox(localRect))
quads.append(renderer()->localToAbsoluteQuad(localRect));
} else {
if (renderBoxModelObject())
renderBoxModelObject()->absoluteQuads(quads);
}
if (quads.isEmpty())
return ClientRect::create();
FloatRect result = quads[0].boundingBox();
for (size_t i = 1; i < quads.size(); ++i)
result.unite(quads[i].boundingBox());
document().adjustFloatRectForScrollAndAbsoluteZoomAndFrameScale(result, renderer()->style());
return ClientRect::create(result);
}
IntRect Element::clientRect() const
{
if (RenderObject* renderer = this->renderer())
return document().view()->contentsToRootView(renderer->absoluteBoundingBoxRect());
return IntRect();
}
IntRect Element::screenRect() const
{
if (RenderObject* renderer = this->renderer())
return document().view()->contentsToScreen(renderer->absoluteBoundingBoxRect());
return IntRect();
}
const AtomicString& Element::getAttribute(const AtomicString& localName) const
{
if (!elementData())
return nullAtom;
synchronizeAttribute(localName);
if (const Attribute* attribute = elementData()->findAttributeByName(localName, shouldIgnoreAttributeCase(*this)))
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, ExceptionCode& ec)
{
if (!Document::isValidName(localName)) {
ec = INVALID_CHARACTER_ERR;
return;
}
synchronizeAttribute(localName);
const AtomicString& caseAdjustedLocalName = shouldIgnoreAttributeCase(*this) ? localName.lower() : localName;
unsigned index = elementData() ? elementData()->findAttributeIndexByName(caseAdjustedLocalName, false) : ElementData::attributeNotFound;
const QualifiedName& qName = index != ElementData::attributeNotFound ? attributeAt(index).name() : QualifiedName(nullAtom, caseAdjustedLocalName, nullAtom);
setAttributeInternal(index, qName, value, NotInSynchronizationOfLazyAttribute);
}
void Element::setAttribute(const QualifiedName& name, const AtomicString& value)
{
synchronizeAttribute(name);
unsigned index = elementData() ? elementData()->findAttributeIndexByName(name) : ElementData::attributeNotFound;
setAttributeInternal(index, name, value, NotInSynchronizationOfLazyAttribute);
}
void Element::setAttributeWithoutSynchronization(const QualifiedName& name, const AtomicString& value)
{
unsigned index = elementData() ? elementData()->findAttributeIndexByName(name) : ElementData::attributeNotFound;
setAttributeInternal(index, name, value, NotInSynchronizationOfLazyAttribute);
}
void Element::setSynchronizedLazyAttribute(const QualifiedName& name, const AtomicString& value)
{
unsigned index = elementData() ? elementData()->findAttributeIndexByName(name) : ElementData::attributeNotFound;
setAttributeInternal(index, name, value, InSynchronizationOfLazyAttribute);
}
inline void Element::setAttributeInternal(unsigned index, const QualifiedName& name, const AtomicString& newValue, SynchronizationOfLazyAttribute inSynchronizationOfLazyAttribute)
{
if (newValue.isNull()) {
if (index != ElementData::attributeNotFound)
removeAttributeInternal(index, inSynchronizationOfLazyAttribute);
return;
}
if (index == ElementData::attributeNotFound) {
addAttributeInternal(name, newValue, inSynchronizationOfLazyAttribute);
return;
}
const Attribute& attribute = attributeAt(index);
AtomicString oldValue = attribute.value();
bool valueChanged = newValue != oldValue;
QualifiedName attributeName = (!inSynchronizationOfLazyAttribute || valueChanged) ? attribute.name() : name;
if (!inSynchronizationOfLazyAttribute)
willModifyAttribute(attributeName, oldValue, newValue);
if (valueChanged) {
if (RefPtr<Attr> attrNode = inSynchronizationOfLazyAttribute ? 0 : attrIfExists(attributeName))
attrNode->setValue(newValue);
else
ensureUniqueElementData().attributeAt(index).setValue(newValue);
}
if (!inSynchronizationOfLazyAttribute)
didModifyAttribute(attributeName, oldValue, newValue);
}
static inline AtomicString makeIdForStyleResolution(const AtomicString& value, bool inQuirksMode)
{
if (inQuirksMode)
return value.lower();
return value;
}
static bool checkNeedsStyleInvalidationForIdChange(const AtomicString& oldId, const AtomicString& newId, StyleResolver* styleResolver)
{
ASSERT(newId != oldId);
if (!oldId.isEmpty() && styleResolver->hasSelectorForId(oldId))
return true;
if (!newId.isEmpty() && styleResolver->hasSelectorForId(newId))
return true;
return false;
}
void Element::attributeChanged(const QualifiedName& name, const AtomicString& oldValue, const AtomicString& newValue, AttributeModificationReason)
{
parseAttribute(name, newValue);
document().incDOMTreeVersion();
if (oldValue == newValue)
return;
StyleResolver* styleResolver = document().styleResolverIfExists();
bool testShouldInvalidateStyle = inRenderedDocument() && styleResolver && styleChangeType() < FullStyleChange;
bool shouldInvalidateStyle = false;
if (name == HTMLNames::idAttr) {
AtomicString oldId = elementData()->idForStyleResolution();
AtomicString newId = makeIdForStyleResolution(newValue, document().inQuirksMode());
if (newId != oldId) {
elementData()->setIdForStyleResolution(newId);
shouldInvalidateStyle = testShouldInvalidateStyle && checkNeedsStyleInvalidationForIdChange(oldId, newId, styleResolver);
}
} else if (name == classAttr)
classAttributeChanged(newValue);
else if (name == HTMLNames::nameAttr)
elementData()->setHasNameAttribute(!newValue.isNull());
else if (name == HTMLNames::pseudoAttr)
shouldInvalidateStyle |= testShouldInvalidateStyle && isInShadowTree();
invalidateNodeListAndCollectionCachesInAncestors(&name, this);
shouldInvalidateStyle |= !styleResolver;
if (shouldInvalidateStyle)
setNeedsStyleRecalc();
if (AXObjectCache* cache = document().existingAXObjectCache())
cache->handleAttributeChanged(name, this);
}
template <typename CharacterType>
static inline bool classStringHasClassName(const CharacterType* characters, unsigned length)
{
ASSERT(length > 0);
unsigned i = 0;
do {
if (isNotHTMLSpace(characters[i]))
break;
++i;
} while (i < length);
return i < length;
}
static inline bool classStringHasClassName(const AtomicString& newClassString)
{
unsigned length = newClassString.length();
if (!length)
return false;
if (newClassString.is8Bit())
return classStringHasClassName(newClassString.characters8(), length);
return classStringHasClassName(newClassString.characters16(), length);
}
static bool checkSelectorForClassChange(const SpaceSplitString& changedClasses, const StyleResolver& styleResolver)
{
unsigned changedSize = changedClasses.size();
for (unsigned i = 0; i < changedSize; ++i) {
if (styleResolver.hasSelectorForClass(changedClasses[i]))
return true;
}
return false;
}
static bool checkSelectorForClassChange(const SpaceSplitString& oldClasses, const SpaceSplitString& newClasses, const StyleResolver& styleResolver)
{
unsigned oldSize = oldClasses.size();
if (!oldSize)
return checkSelectorForClassChange(newClasses, styleResolver);
BitVector remainingClassBits;
remainingClassBits.ensureSize(oldSize);
unsigned newSize = newClasses.size();
for (unsigned i = 0; i < newSize; ++i) {
bool foundFromBoth = false;
for (unsigned j = 0; j < oldSize; ++j) {
if (newClasses[i] == oldClasses[j]) {
remainingClassBits.quickSet(j);
foundFromBoth = true;
}
}
if (foundFromBoth)
continue;
if (styleResolver.hasSelectorForClass(newClasses[i]))
return true;
}
for (unsigned i = 0; i < oldSize; ++i) {
if (remainingClassBits.quickGet(i))
continue;
if (styleResolver.hasSelectorForClass(oldClasses[i]))
return true;
}
return false;
}
void Element::classAttributeChanged(const AtomicString& newClassString)
{
StyleResolver* styleResolver = document().styleResolverIfExists();
bool testShouldInvalidateStyle = inRenderedDocument() && styleResolver && styleChangeType() < FullStyleChange;
bool shouldInvalidateStyle = false;
if (classStringHasClassName(newClassString)) {
const bool shouldFoldCase = document().inQuirksMode();
if (!elementData())
ensureUniqueElementData();
const SpaceSplitString oldClasses = elementData()->classNames();
elementData()->setClass(newClassString, shouldFoldCase);
const SpaceSplitString& newClasses = elementData()->classNames();
shouldInvalidateStyle = testShouldInvalidateStyle && checkSelectorForClassChange(oldClasses, newClasses, *styleResolver);
} else if (elementData()) {
const SpaceSplitString& oldClasses = elementData()->classNames();
shouldInvalidateStyle = testShouldInvalidateStyle && checkSelectorForClassChange(oldClasses, *styleResolver);
elementData()->clearClass();
}
if (hasRareData())
elementRareData()->clearClassListValueForQuirksMode();
if (shouldInvalidateStyle)
setNeedsStyleRecalc();
}
URL Element::absoluteLinkURL() const
{
if (!isLink())
return URL();
AtomicString linkAttribute;
if (hasTagName(SVGNames::aTag))
linkAttribute = getAttribute(XLinkNames::hrefAttr);
else
linkAttribute = getAttribute(HTMLNames::hrefAttr);
if (linkAttribute.isEmpty())
return URL();
return document().completeURL(stripLeadingAndTrailingHTMLSpaces(linkAttribute));
}
static inline bool isEventHandlerAttribute(const Attribute& attribute)
{
return attribute.name().namespaceURI().isNull() && attribute.name().localName().startsWith("on");
}
bool Element::isJavaScriptURLAttribute(const Attribute& attribute) const
{
return isURLAttribute(attribute) && protocolIsJavaScript(stripLeadingAndTrailingHTMLSpaces(attribute.value()));
}
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]))
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())
return;
if (document().sharedObjectPool())
m_elementData = document().sharedObjectPool()->cachedShareableElementDataWithAttributes(attributeVector);
else
m_elementData = ShareableElementData::createWithAttributes(attributeVector);
for (unsigned i = 0; i < attributeVector.size(); ++i)
attributeChanged(attributeVector[i].name(), nullAtom, attributeVector[i].value(), ModifiedDirectly);
}
bool Element::hasAttributes() const
{
synchronizeAllAttributes();
return elementData() && elementData()->length();
}
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();
}
String Element::nodeNamePreservingCase() const
{
return m_tagName.toString();
}
void Element::setPrefix(const AtomicString& prefix, ExceptionCode& ec)
{
ec = 0;
checkSetPrefix(prefix, ec);
if (ec)
return;
m_tagName.setPrefix(prefix.isEmpty() ? AtomicString() : prefix);
}
URL Element::baseURI() const
{
const AtomicString& baseAttribute = getAttribute(baseAttr);
URL base(URL(), baseAttribute);
if (!base.protocol().isEmpty())
return base;
ContainerNode* parent = parentNode();
if (!parent)
return base;
const URL& parentBase = parent->baseURI();
if (parentBase.isNull())
return base;
return URL(parentBase, baseAttribute);
}
const AtomicString& Element::imageSourceURL() const
{
return getAttribute(srcAttr);
}
bool Element::rendererIsNeeded(const RenderStyle& style)
{
return style.display() != NONE;
}
RenderPtr<RenderElement> Element::createElementRenderer(PassRef<RenderStyle> style)
{
return RenderElement::createFor(*this, WTF::move(style));
}
Node::InsertionNotificationRequest Element::insertedInto(ContainerNode& insertionPoint)
{
bool wasInDocument = inDocument();
ContainerNode::insertedInto(insertionPoint);
ASSERT(!wasInDocument || inDocument());
#if ENABLE(FULLSCREEN_API)
if (containsFullScreenElement() && parentElement() && !parentElement()->containsFullScreenElement())
setContainsFullScreenElementOnAncestorsCrossingFrameBoundaries(true);
#endif
if (!insertionPoint.isInTreeScope())
return InsertionDone;
if (hasRareData())
elementRareData()->clearClassListValueForQuirksMode();
TreeScope* newScope = &insertionPoint.treeScope();
HTMLDocument* newDocument = !wasInDocument && inDocument() && newScope->documentScope().isHTMLDocument() ? toHTMLDocument(&newScope->documentScope()) : nullptr;
if (newScope != &treeScope())
newScope = nullptr;
const AtomicString& idValue = getIdAttribute();
if (!idValue.isNull()) {
if (newScope)
updateIdForTreeScope(*newScope, nullAtom, idValue);
if (newDocument)
updateIdForDocument(*newDocument, nullAtom, idValue, AlwaysUpdateHTMLDocumentNamedItemMaps);
}
const AtomicString& nameValue = getNameAttribute();
if (!nameValue.isNull()) {
if (newScope)
updateNameForTreeScope(*newScope, nullAtom, nameValue);
if (newDocument)
updateNameForDocument(*newDocument, nullAtom, nameValue);
}
if (newScope && hasTagName(labelTag)) {
if (newScope->shouldCacheLabelsByForAttribute())
updateLabel(*newScope, nullAtom, fastGetAttribute(forAttr));
}
return InsertionDone;
}
void Element::removedFrom(ContainerNode& insertionPoint)
{
#if ENABLE(FULLSCREEN_API)
if (containsFullScreenElement())
setContainsFullScreenElementOnAncestorsCrossingFrameBoundaries(false);
#endif
#if ENABLE(POINTER_LOCK)
if (document().page())
document().page()->pointerLockController().elementRemoved(this);
#endif
setSavedLayerScrollOffset(IntSize());
if (insertionPoint.isInTreeScope()) {
TreeScope* oldScope = &insertionPoint.treeScope();
HTMLDocument* oldDocument = inDocument() && oldScope->documentScope().isHTMLDocument() ? toHTMLDocument(&oldScope->documentScope()) : nullptr;
if (oldScope != &treeScope() || !isInTreeScope())
oldScope = nullptr;
const AtomicString& idValue = getIdAttribute();
if (!idValue.isNull()) {
if (oldScope)
updateIdForTreeScope(*oldScope, idValue, nullAtom);
if (oldDocument)
updateIdForDocument(*oldDocument, idValue, nullAtom, AlwaysUpdateHTMLDocumentNamedItemMaps);
}
const AtomicString& nameValue = getNameAttribute();
if (!nameValue.isNull()) {
if (oldScope)
updateNameForTreeScope(*oldScope, nameValue, nullAtom);
if (oldDocument)
updateNameForDocument(*oldDocument, nameValue, nullAtom);
}
if (oldScope && hasTagName(labelTag)) {
if (oldScope->shouldCacheLabelsByForAttribute())
updateLabel(*oldScope, fastGetAttribute(forAttr), nullAtom);
}
}
ContainerNode::removedFrom(insertionPoint);
if (hasPendingResources())
document().accessSVGExtensions()->removeElementFromPendingResources(this);
}
void Element::unregisterNamedFlowContentElement()
{
if (document().cssRegionsEnabled() && isNamedFlowContentNode() && document().renderView())
document().renderView()->flowThreadController().unregisterNamedFlowContentElement(*this);
}
ShadowRoot* Element::shadowRoot() const
{
return hasRareData() ? elementRareData()->shadowRoot() : 0;
}
void Element::didAffectSelector(AffectedSelectorMask)
{
setNeedsStyleRecalc();
}
static bool shouldUseNodeRenderingTraversalSlowPath(const Element& element)
{
if (element.isShadowRoot())
return true;
return element.isInsertionPoint() || element.shadowRoot();
}
void Element::resetNeedsNodeRenderingTraversalSlowPath()
{
setNeedsNodeRenderingTraversalSlowPath(shouldUseNodeRenderingTraversalSlowPath(*this));
}
void Element::addShadowRoot(PassRefPtr<ShadowRoot> newShadowRoot)
{
ASSERT(!shadowRoot());
ShadowRoot* shadowRoot = newShadowRoot.get();
ensureElementRareData().setShadowRoot(newShadowRoot);
shadowRoot->setHostElement(this);
shadowRoot->setParentTreeScope(&treeScope());
shadowRoot->distributor().didShadowBoundaryChange(this);
ChildNodeInsertionNotifier(*this).notify(*shadowRoot);
resetNeedsNodeRenderingTraversalSlowPath();
setNeedsStyleRecalc(ReconstructRenderTree);
InspectorInstrumentation::didPushShadowRoot(this, shadowRoot);
}
void Element::removeShadowRoot()
{
RefPtr<ShadowRoot> oldRoot = shadowRoot();
if (!oldRoot)
return;
InspectorInstrumentation::willPopShadowRoot(this, oldRoot.get());
document().removeFocusedNodeOfSubtree(oldRoot.get());
ASSERT(!oldRoot->renderer());
elementRareData()->clearShadowRoot();
oldRoot->setHostElement(0);
oldRoot->setParentTreeScope(&document());
ChildNodeRemovalNotifier(*this).notify(*oldRoot);
oldRoot->distributor().invalidateDistribution(this);
}
PassRefPtr<ShadowRoot> Element::createShadowRoot(ExceptionCode& ec)
{
if (alwaysCreateUserAgentShadowRoot())
ensureUserAgentShadowRoot();
ec = HIERARCHY_REQUEST_ERR;
return nullptr;
}
ShadowRoot* Element::userAgentShadowRoot() const
{
if (ShadowRoot* shadowRoot = this->shadowRoot()) {
ASSERT(shadowRoot->type() == ShadowRoot::UserAgentShadowRoot);
return shadowRoot;
}
return nullptr;
}
ShadowRoot& Element::ensureUserAgentShadowRoot()
{
ShadowRoot* shadowRoot = userAgentShadowRoot();
if (!shadowRoot) {
addShadowRoot(ShadowRoot::create(document(), ShadowRoot::UserAgentShadowRoot));
shadowRoot = userAgentShadowRoot();
didAddUserAgentShadowRoot(shadowRoot);
}
return *shadowRoot;
}
const AtomicString& Element::shadowPseudoId() const
{
return pseudo();
}
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:
case ENTITY_REFERENCE_NODE:
return true;
default:
break;
}
return false;
}
static void checkForEmptyStyleChange(Element& element)
{
if (element.styleAffectedByEmpty()) {
RenderStyle* style = element.renderStyle();
if (!style || (!style->emptyState() || element.hasChildNodes()))
element.setNeedsStyleRecalc();
}
}
enum SiblingCheckType { FinishedParsingChildren, SiblingElementRemoved, Other };
static void checkForSiblingStyleChanges(Element* parent, SiblingCheckType checkType, Element* elementBeforeChange, Element* elementAfterChange)
{
checkForEmptyStyleChange(*parent);
if (parent->needsStyleRecalc() && parent->childrenAffectedByPositionalRules())
return;
if (parent->childrenAffectedByFirstChildRules() && elementAfterChange) {
Element* newFirstElement = ElementTraversal::firstChild(parent);
if (newFirstElement != elementAfterChange) {
RenderStyle* style = elementAfterChange->renderStyle();
if (!style || style->firstChildState())
elementAfterChange->setNeedsStyleRecalc();
}
if (checkType == SiblingElementRemoved && newFirstElement == elementAfterChange && newFirstElement) {
RenderStyle* style = newFirstElement->renderStyle();
if (!style || !style->firstChildState())
newFirstElement->setNeedsStyleRecalc();
}
}
if (parent->childrenAffectedByLastChildRules() && elementBeforeChange) {
Element* newLastElement = ElementTraversal::lastChild(parent);
if (newLastElement != elementBeforeChange) {
RenderStyle* style = elementBeforeChange->renderStyle();
if (!style || style->lastChildState())
elementBeforeChange->setNeedsStyleRecalc();
}
if ((checkType == SiblingElementRemoved || checkType == FinishedParsingChildren) && newLastElement == elementBeforeChange && newLastElement) {
RenderStyle* style = newLastElement->renderStyle();
if (!style || !style->lastChildState())
newLastElement->setNeedsStyleRecalc();
}
}
if (parent->childrenAffectedByDirectAdjacentRules() && elementAfterChange)
elementAfterChange->setNeedsStyleRecalc();
if (parent->childrenAffectedByForwardPositionalRules() && elementAfterChange)
parent->setNeedsStyleRecalc();
if (parent->childrenAffectedByBackwardPositionalRules() && elementBeforeChange)
parent->setNeedsStyleRecalc();
}
void Element::childrenChanged(const ChildChange& change)
{
ContainerNode::childrenChanged(change);
if (change.source == ChildChangeSourceParser)
checkForEmptyStyleChange(*this);
else {
SiblingCheckType checkType = change.type == ElementRemoved ? SiblingElementRemoved : Other;
checkForSiblingStyleChanges(this, checkType, change.previousSiblingElement, change.nextSiblingElement);
}
if (ShadowRoot* shadowRoot = this->shadowRoot())
shadowRoot->invalidateDistribution();
}
void Element::removeAllEventListeners()
{
ContainerNode::removeAllEventListeners();
if (ShadowRoot* shadowRoot = this->shadowRoot())
shadowRoot->removeAllEventListeners();
}
void Element::beginParsingChildren()
{
clearIsParsingChildrenFinished();
if (auto styleResolver = document().styleResolverIfExists())
styleResolver->pushParentElement(this);
}
void Element::finishParsingChildren()
{
ContainerNode::finishParsingChildren();
setIsParsingChildrenFinished();
checkForSiblingStyleChanges(this, FinishedParsingChildren, ElementTraversal::lastChild(this), nullptr);
if (auto styleResolver = document().styleResolverIfExists())
styleResolver->popParentElement(this);
}
#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
const Vector<RefPtr<Attr>>& Element::attrNodeList()
{
ASSERT(hasSyntheticAttrChildNodes());
return *attrNodeListForElement(*this);
}
PassRefPtr<Attr> Element::setAttributeNode(Attr* attrNode, ExceptionCode& ec)
{
if (!attrNode) {
ec = TYPE_MISMATCH_ERR;
return 0;
}
RefPtr<Attr> oldAttrNode = attrIfExists(attrNode->qualifiedName());
if (oldAttrNode.get() == attrNode)
return attrNode;
if (attrNode->ownerElement()) {
ec = INUSE_ATTRIBUTE_ERR;
return 0;
}
synchronizeAllAttributes();
UniqueElementData& elementData = ensureUniqueElementData();
unsigned index = elementData.findAttributeIndexByNameForAttributeNode(attrNode, shouldIgnoreAttributeCase(*this));
if (index != ElementData::attributeNotFound) {
if (oldAttrNode)
detachAttrNodeFromElementWithValue(oldAttrNode.get(), elementData.attributeAt(index).value());
else
oldAttrNode = Attr::create(document(), attrNode->qualifiedName(), elementData.attributeAt(index).value());
}
setAttributeInternal(index, attrNode->qualifiedName(), attrNode->value(), NotInSynchronizationOfLazyAttribute);
attrNode->attachToElement(this);
treeScope().adoptIfNeeded(attrNode);
ensureAttrNodeListForElement(*this).append(attrNode);
return oldAttrNode.release();
}
PassRefPtr<Attr> Element::setAttributeNodeNS(Attr* attr, ExceptionCode& ec)
{
return setAttributeNode(attr, ec);
}
PassRefPtr<Attr> Element::removeAttributeNode(Attr* attr, ExceptionCode& ec)
{
if (!attr) {
ec = TYPE_MISMATCH_ERR;
return 0;
}
if (attr->ownerElement() != this) {
ec = NOT_FOUND_ERR;
return 0;
}
ASSERT(&document() == &attr->document());
synchronizeAttribute(attr->qualifiedName());
unsigned index = elementData()->findAttributeIndexByNameForAttributeNode(attr);
if (index == ElementData::attributeNotFound) {
ec = NOT_FOUND_ERR;
return 0;
}
RefPtr<Attr> attrNode = attr;
detachAttrNodeFromElementWithValue(attr, elementData()->attributeAt(index).value());
removeAttributeInternal(index, NotInSynchronizationOfLazyAttribute);
return attrNode.release();
}
bool Element::parseAttributeName(QualifiedName& out, const AtomicString& namespaceURI, const AtomicString& qualifiedName, ExceptionCode& ec)
{
String prefix, localName;
if (!Document::parseQualifiedName(qualifiedName, prefix, localName, ec))
return false;
ASSERT(!ec);
QualifiedName qName(prefix, localName, namespaceURI);
if (!Document::hasValidNamespaceForAttributes(qName)) {
ec = NAMESPACE_ERR;
return false;
}
out = qName;
return true;
}
void Element::setAttributeNS(const AtomicString& namespaceURI, const AtomicString& qualifiedName, const AtomicString& value, ExceptionCode& ec)
{
QualifiedName parsedName = anyName;
if (!parseAttributeName(parsedName, namespaceURI, qualifiedName, ec))
return;
setAttribute(parsedName, value);
}
void Element::removeAttributeInternal(unsigned index, SynchronizationOfLazyAttribute inSynchronizationOfLazyAttribute)
{
ASSERT_WITH_SECURITY_IMPLICATION(index < attributeCount());
UniqueElementData& elementData = ensureUniqueElementData();
QualifiedName name = elementData.attributeAt(index).name();
AtomicString valueBeingRemoved = elementData.attributeAt(index).value();
if (!inSynchronizationOfLazyAttribute) {
if (!valueBeingRemoved.isNull())
willModifyAttribute(name, valueBeingRemoved, nullAtom);
}
if (RefPtr<Attr> attrNode = attrIfExists(name))
detachAttrNodeFromElementWithValue(attrNode.get(), elementData.attributeAt(index).value());
elementData.removeAttribute(index);
if (!inSynchronizationOfLazyAttribute)
didRemoveAttribute(name, valueBeingRemoved);
}
void Element::addAttributeInternal(const QualifiedName& name, const AtomicString& value, SynchronizationOfLazyAttribute inSynchronizationOfLazyAttribute)
{
if (!inSynchronizationOfLazyAttribute)
willModifyAttribute(name, nullAtom, value);
ensureUniqueElementData().addAttribute(name, value);
if (!inSynchronizationOfLazyAttribute)
didAddAttribute(name, value);
}
bool Element::removeAttribute(const AtomicString& name)
{
if (!elementData())
return false;
AtomicString localName = shouldIgnoreAttributeCase(*this) ? name.lower() : name;
unsigned index = elementData()->findAttributeIndexByName(localName, false);
if (index == ElementData::attributeNotFound) {
if (UNLIKELY(localName == styleAttr) && elementData()->styleAttributeIsDirty() && isStyledElement())
toStyledElement(this)->removeAllInlineStyleProperties();
return false;
}
removeAttributeInternal(index, NotInSynchronizationOfLazyAttribute);
return true;
}
bool Element::removeAttributeNS(const AtomicString& namespaceURI, const AtomicString& localName)
{
return removeAttribute(QualifiedName(nullAtom, localName, namespaceURI));
}
PassRefPtr<Attr> Element::getAttributeNode(const AtomicString& localName)
{
if (!elementData())
return 0;
synchronizeAttribute(localName);
const Attribute* attribute = elementData()->findAttributeByName(localName, shouldIgnoreAttributeCase(*this));
if (!attribute)
return 0;
return ensureAttr(attribute->name());
}
PassRefPtr<Attr> Element::getAttributeNodeNS(const AtomicString& namespaceURI, const AtomicString& localName)
{
if (!elementData())
return 0;
QualifiedName qName(nullAtom, localName, namespaceURI);
synchronizeAttribute(qName);
const Attribute* attribute = elementData()->findAttributeByName(qName);
if (!attribute)
return 0;
return ensureAttr(attribute->name());
}
bool Element::hasAttribute(const AtomicString& localName) const
{
if (!elementData())
return false;
synchronizeAttribute(localName);
return elementData()->findAttributeByName(shouldIgnoreAttributeCase(*this) ? localName.lower() : localName, false);
}
bool Element::hasAttributeNS(const AtomicString& namespaceURI, const AtomicString& localName) const
{
if (!elementData())
return false;
QualifiedName qName(nullAtom, localName, namespaceURI);
synchronizeAttribute(qName);
return elementData()->findAttributeByName(qName);
}
CSSStyleDeclaration *Element::style()
{
return 0;
}
void Element::focus(bool restorePreviousSelection, FocusDirection direction)
{
if (!inDocument())
return;
if (document().focusedElement() == this)
return;
if (document().haveStylesheetsLoaded()) {
document().updateLayoutIgnorePendingStylesheets();
if (!isFocusable())
return;
}
if (!supportsFocus())
return;
RefPtr<Node> protect;
if (Page* page = document().page()) {
protect = this;
if (!page->focusController().setFocusedElement(this, document().frame(), direction))
return;
}
document().updateLayoutIgnorePendingStylesheets();
if (!isFocusable()) {
ensureElementRareData().setNeedsFocusAppearanceUpdateSoonAfterAttach(true);
return;
}
cancelFocusAppearanceUpdate();
#if PLATFORM(IOS)
FrameView* view = document().view();
bool isFormControl = view && isFormControlElement();
if (isFormControl)
view->setProhibitsScrolling(true);
#endif
updateFocusAppearance(restorePreviousSelection);
#if PLATFORM(IOS)
if (isFormControl)
view->setProhibitsScrolling(false);
#endif
}
void Element::updateFocusAppearanceAfterAttachIfNeeded()
{
if (!hasRareData())
return;
ElementRareData* data = elementRareData();
if (!data->needsFocusAppearanceUpdateSoonAfterAttach())
return;
if (isFocusable() && document().focusedElement() == this)
document().updateFocusAppearanceSoon(false );
data->setNeedsFocusAppearanceUpdateSoonAfterAttach(false);
}
void Element::updateFocusAppearance(bool )
{
if (isRootEditableElement()) {
Frame* frame = document().frame();
if (!frame)
return;
if (this == frame->selection().selection().rootEditableElement())
return;
VisibleSelection newSelection = VisibleSelection(firstPositionInOrBeforeNode(this), DOWNSTREAM);
if (frame->selection().shouldChangeSelection(newSelection)) {
frame->selection().setSelection(newSelection);
frame->selection().revealSelection();
}
} else if (renderer() && !renderer()->isWidget())
renderer()->scrollRectToVisible(boundingBox());
}
void Element::blur()
{
cancelFocusAppearanceUpdate();
if (treeScope().focusedElement() == this) {
if (Frame* frame = document().frame())
frame->page()->focusController().setFocusedElement(0, frame);
else
document().setFocusedElement(0);
}
}
void Element::dispatchFocusInEvent(const AtomicString& eventType, PassRefPtr<Element> oldFocusedElement)
{
ASSERT(!NoEventDispatchAssertion::isEventDispatchForbidden());
ASSERT(eventType == eventNames().focusinEvent || eventType == eventNames().DOMFocusInEvent);
dispatchScopedEvent(FocusEvent::create(eventType, true, false, document().defaultView(), 0, oldFocusedElement));
}
void Element::dispatchFocusOutEvent(const AtomicString& eventType, PassRefPtr<Element> newFocusedElement)
{
ASSERT(!NoEventDispatchAssertion::isEventDispatchForbidden());
ASSERT(eventType == eventNames().focusoutEvent || eventType == eventNames().DOMFocusOutEvent);
dispatchScopedEvent(FocusEvent::create(eventType, true, false, document().defaultView(), 0, newFocusedElement));
}
void Element::dispatchFocusEvent(PassRefPtr<Element> oldFocusedElement, FocusDirection)
{
if (document().page())
document().page()->chrome().client().elementDidFocus(this);
RefPtr<FocusEvent> event = FocusEvent::create(eventNames().focusEvent, false, false, document().defaultView(), 0, oldFocusedElement);
EventDispatcher::dispatchEvent(this, event.release());
}
void Element::dispatchBlurEvent(PassRefPtr<Element> newFocusedElement)
{
if (document().page())
document().page()->chrome().client().elementDidBlur(this);
RefPtr<FocusEvent> event = FocusEvent::create(eventNames().blurEvent, false, false, document().defaultView(), 0, newFocusedElement);
EventDispatcher::dispatchEvent(this, event.release());
}
String Element::innerText()
{
document().updateLayoutIgnorePendingStylesheets();
if (!renderer())
return textContent(true);
return plainText(rangeOfContents(*this).get());
}
String Element::outerText()
{
return innerText();
}
String Element::title() const
{
return String();
}
const AtomicString& Element::pseudo() const
{
return getAttribute(pseudoAttr);
}
void Element::setPseudo(const AtomicString& value)
{
setAttributeWithoutSynchronization(pseudoAttr, value);
}
LayoutSize Element::minimumSizeForResizing() const
{
return hasRareData() ? elementRareData()->minimumSizeForResizing() : defaultMinimumSizeForResizing();
}
void Element::setMinimumSizeForResizing(const LayoutSize& size)
{
if (!hasRareData() && size == defaultMinimumSizeForResizing())
return;
ensureElementRareData().setMinimumSizeForResizing(size);
}
static PseudoElement* beforeOrAfterPseudoElement(Element* host, PseudoId pseudoElementSpecifier)
{
switch (pseudoElementSpecifier) {
case BEFORE:
return host->beforePseudoElement();
case AFTER:
return host->afterPseudoElement();
default:
return 0;
}
}
RenderStyle* Element::computedStyle(PseudoId pseudoElementSpecifier)
{
if (PseudoElement* pseudoElement = beforeOrAfterPseudoElement(this, pseudoElementSpecifier))
return pseudoElement->computedStyle();
if (RenderStyle* usedStyle = renderStyle()) {
if (pseudoElementSpecifier) {
RenderStyle* cachedPseudoStyle = usedStyle->getCachedPseudoStyle(pseudoElementSpecifier);
return cachedPseudoStyle ? cachedPseudoStyle : usedStyle;
}
return usedStyle;
}
if (!inDocument()) {
return nullptr;
}
ElementRareData& data = ensureElementRareData();
if (!data.computedStyle())
data.setComputedStyle(document().styleForElementIgnoringPendingStylesheets(this));
return pseudoElementSpecifier ? data.computedStyle()->getCachedPseudoStyle(pseudoElementSpecifier) : data.computedStyle();
}
void Element::setStyleAffectedByEmpty()
{
ensureElementRareData().setStyleAffectedByEmpty(true);
}
void Element::setChildrenAffectedByActive()
{
ensureElementRareData().setChildrenAffectedByActive(true);
}
void Element::setChildrenAffectedByDrag()
{
ensureElementRareData().setChildrenAffectedByDrag(true);
}
void Element::setChildrenAffectedByForwardPositionalRules(Element* element)
{
element->ensureElementRareData().setChildrenAffectedByForwardPositionalRules(true);
}
void Element::setChildrenAffectedByBackwardPositionalRules()
{
ensureElementRareData().setChildrenAffectedByBackwardPositionalRules(true);
}
void Element::setChildIndex(unsigned index)
{
ElementRareData& rareData = ensureElementRareData();
if (RenderStyle* style = renderStyle())
style->setUnique();
rareData.setChildIndex(index);
}
bool Element::hasFlagsSetDuringStylingOfChildren() const
{
if (childrenAffectedByHover() || childrenAffectedByFirstChildRules() || childrenAffectedByLastChildRules() || childrenAffectedByDirectAdjacentRules())
return true;
if (!hasRareData())
return false;
return rareDataChildrenAffectedByActive()
|| rareDataChildrenAffectedByDrag()
|| rareDataChildrenAffectedByForwardPositionalRules()
|| rareDataChildrenAffectedByBackwardPositionalRules();
}
bool Element::rareDataStyleAffectedByEmpty() const
{
ASSERT(hasRareData());
return elementRareData()->styleAffectedByEmpty();
}
bool Element::rareDataChildrenAffectedByActive() const
{
ASSERT(hasRareData());
return elementRareData()->childrenAffectedByActive();
}
bool Element::rareDataChildrenAffectedByDrag() const
{
ASSERT(hasRareData());
return elementRareData()->childrenAffectedByDrag();
}
bool Element::rareDataChildrenAffectedByForwardPositionalRules() const
{
ASSERT(hasRareData());
return elementRareData()->childrenAffectedByForwardPositionalRules();
}
bool Element::rareDataChildrenAffectedByBackwardPositionalRules() const
{
ASSERT(hasRareData());
return elementRareData()->childrenAffectedByBackwardPositionalRules();
}
unsigned Element::rareDataChildIndex() const
{
ASSERT(hasRareData());
return elementRareData()->childIndex();
}
void Element::setIsInCanvasSubtree(bool isInCanvasSubtree)
{
ensureElementRareData().setIsInCanvasSubtree(isInCanvasSubtree);
}
bool Element::isInCanvasSubtree() const
{
return hasRareData() && elementRareData()->isInCanvasSubtree();
}
void Element::setRegionOversetState(RegionOversetState state)
{
ensureElementRareData().setRegionOversetState(state);
}
RegionOversetState Element::regionOversetState() const
{
return hasRareData() ? elementRareData()->regionOversetState() : RegionUndefined;
}
AtomicString Element::computeInheritedLanguage() const
{
if (const ElementData* elementData = this->elementData()) {
if (const Attribute* attribute = elementData->findLanguageAttribute())
return attribute->value();
}
const Node* currentNode = this;
while ((currentNode = currentNode->parentNode())) {
if (currentNode->isElementNode()) {
if (const ElementData* elementData = toElement(*currentNode).elementData()) {
if (const Attribute* attribute = elementData->findLanguageAttribute())
return attribute->value();
}
} else if (currentNode->isDocumentNode()) {
return toDocument(currentNode)->contentLanguage();
}
}
return nullAtom;
}
Locale& Element::locale() const
{
return document().getCachedLocale(computeInheritedLanguage());
}
void Element::cancelFocusAppearanceUpdate()
{
if (hasRareData())
elementRareData()->setNeedsFocusAppearanceUpdateSoonAfterAttach(false);
if (document().focusedElement() == this)
document().cancelFocusAppearanceUpdate();
}
void Element::normalizeAttributes()
{
if (!hasAttributes())
return;
auto* attrNodeList = attrNodeListForElement(*this);
if (!attrNodeList)
return;
auto copyOfAttrNodeList = *attrNodeList;
for (auto& attrNode : copyOfAttrNodeList)
attrNode->normalize();
}
PseudoElement* Element::beforePseudoElement() const
{
return hasRareData() ? elementRareData()->beforePseudoElement() : 0;
}
PseudoElement* Element::afterPseudoElement() const
{
return hasRareData() ? elementRareData()->afterPseudoElement() : 0;
}
void Element::setBeforePseudoElement(PassRefPtr<PseudoElement> element)
{
ensureElementRareData().setBeforePseudoElement(element);
}
void Element::setAfterPseudoElement(PassRefPtr<PseudoElement> element)
{
ensureElementRareData().setAfterPseudoElement(element);
}
static void disconnectPseudoElement(PseudoElement* pseudoElement)
{
if (!pseudoElement)
return;
if (pseudoElement->renderer())
Style::detachRenderTree(*pseudoElement);
ASSERT(pseudoElement->hostElement());
pseudoElement->clearHostElement();
}
void Element::clearBeforePseudoElement()
{
if (!hasRareData())
return;
disconnectPseudoElement(elementRareData()->beforePseudoElement());
elementRareData()->setBeforePseudoElement(nullptr);
}
void Element::clearAfterPseudoElement()
{
if (!hasRareData())
return;
disconnectPseudoElement(elementRareData()->afterPseudoElement());
elementRareData()->setAfterPseudoElement(nullptr);
}
Element* Element::firstElementChild() const
{
return ElementTraversal::firstChild(this);
}
Element* Element::lastElementChild() const
{
return ElementTraversal::lastChild(this);
}
Element* Element::previousElementSibling() const
{
return ElementTraversal::previousSibling(this);
}
Element* Element::nextElementSibling() const
{
return ElementTraversal::nextSibling(this);
}
unsigned Element::childElementCount() const
{
unsigned count = 0;
Node* n = firstChild();
while (n) {
count += n->isElementNode();
n = n->nextSibling();
}
return count;
}
bool Element::matchesReadOnlyPseudoClass() const
{
return false;
}
bool Element::matchesReadWritePseudoClass() const
{
return false;
}
bool Element::matches(const String& selector, ExceptionCode& ec)
{
SelectorQuery* selectorQuery = document().selectorQueryForString(selector, ec);
return selectorQuery && selectorQuery->matches(*this);
}
bool Element::shouldAppearIndeterminate() const
{
return false;
}
DOMTokenList* Element::classList()
{
ElementRareData& data = ensureElementRareData();
if (!data.classList())
data.setClassList(std::make_unique<ClassList>(*this));
return data.classList();
}
DatasetDOMStringMap* Element::dataset()
{
ElementRareData& data = ensureElementRareData();
if (!data.dataset())
data.setDataset(std::make_unique<DatasetDOMStringMap>(*this));
return data.dataset();
}
URL Element::getURLAttribute(const QualifiedName& name) const
{
#if !ASSERT_DISABLED
if (elementData()) {
if (const Attribute* attribute = findAttributeByName(name))
ASSERT(isURLAttribute(*attribute));
}
#endif
return document().completeURL(stripLeadingAndTrailingHTMLSpaces(getAttribute(name)));
}
URL Element::getNonEmptyURLAttribute(const QualifiedName& name) const
{
#if !ASSERT_DISABLED
if (elementData()) {
if (const Attribute* attribute = findAttributeByName(name))
ASSERT(isURLAttribute(*attribute));
}
#endif
String value = stripLeadingAndTrailingHTMLSpaces(getAttribute(name));
if (value.isEmpty())
return URL();
return document().completeURL(value);
}
int Element::getIntegralAttribute(const QualifiedName& attributeName) const
{
return getAttribute(attributeName).string().toInt();
}
void Element::setIntegralAttribute(const QualifiedName& attributeName, int value)
{
setAttribute(attributeName, AtomicString::number(value));
}
unsigned Element::getUnsignedIntegralAttribute(const QualifiedName& attributeName) const
{
return getAttribute(attributeName).string().toUInt();
}
void Element::setUnsignedIntegralAttribute(const QualifiedName& attributeName, unsigned value)
{
setAttribute(attributeName, AtomicString::number(value));
}
#if ENABLE(INDIE_UI)
void Element::setUIActions(const AtomicString& actions)
{
setAttribute(uiactionsAttr, actions);
}
const AtomicString& Element::UIActions() const
{
return getAttribute(uiactionsAttr);
}
#endif
bool Element::childShouldCreateRenderer(const Node& child) const
{
if (child.isSVGElement()) {
ASSERT(!isSVGElement());
return child.hasTagName(SVGNames::svgTag) && toSVGElement(child).isValid();
}
return ContainerNode::childShouldCreateRenderer(child);
}
#if ENABLE(FULLSCREEN_API)
void Element::webkitRequestFullscreen()
{
document().requestFullScreenForElement(this, ALLOW_KEYBOARD_INPUT, Document::EnforceIFrameAllowFullScreenRequirement);
}
void Element::webkitRequestFullScreen(unsigned short flags)
{
document().requestFullScreenForElement(this, (flags | LEGACY_MOZILLA_REQUEST), Document::EnforceIFrameAllowFullScreenRequirement);
}
bool Element::containsFullScreenElement() const
{
return hasRareData() && elementRareData()->containsFullScreenElement();
}
void Element::setContainsFullScreenElement(bool flag)
{
ensureElementRareData().setContainsFullScreenElement(flag);
setNeedsStyleRecalc(SyntheticStyleChange);
}
static Element* parentCrossingFrameBoundaries(Element* element)
{
ASSERT(element);
return element->parentElement() ? element->parentElement() : element->document().ownerElement();
}
void Element::setContainsFullScreenElementOnAncestorsCrossingFrameBoundaries(bool flag)
{
Element* element = this;
while ((element = parentCrossingFrameBoundaries(element)))
element->setContainsFullScreenElement(flag);
}
#endif
#if ENABLE(POINTER_LOCK)
void Element::requestPointerLock()
{
if (document().page())
document().page()->pointerLockController().requestPointerLock(this);
}
#endif
SpellcheckAttributeState Element::spellcheckAttributeState() const
{
const AtomicString& value = getAttribute(HTMLNames::spellcheckAttr);
if (value == nullAtom)
return SpellcheckAttributeDefault;
if (equalIgnoringCase(value, "true") || equalIgnoringCase(value, ""))
return SpellcheckAttributeTrue;
if (equalIgnoringCase(value, "false"))
return SpellcheckAttributeFalse;
return SpellcheckAttributeDefault;
}
bool Element::isSpellCheckingEnabled() const
{
for (const Element* element = this; element; element = element->parentOrShadowHostElement()) {
switch (element->spellcheckAttributeState()) {
case SpellcheckAttributeTrue:
return true;
case SpellcheckAttributeFalse:
return false;
case SpellcheckAttributeDefault:
break;
}
}
return true;
}
RenderNamedFlowFragment* Element::renderNamedFlowFragment() const
{
if (renderer() && renderer()->isRenderNamedFlowFragmentContainer())
return toRenderBlockFlow(renderer())->renderNamedFlowFragment();
return nullptr;
}
#if ENABLE(CSS_REGIONS)
bool Element::shouldMoveToFlowThread(const RenderStyle& styleToUse) const
{
#if ENABLE(FULLSCREEN_API)
if (document().webkitIsFullScreen() && document().webkitCurrentFullScreenElement() == this)
return false;
#endif
if (isInShadowTree())
return false;
if (!styleToUse.hasFlowInto())
return false;
return true;
}
const AtomicString& Element::webkitRegionOverset() const
{
document().updateLayoutIgnorePendingStylesheets();
DEPRECATED_DEFINE_STATIC_LOCAL(AtomicString, undefinedState, ("undefined", AtomicString::ConstructFromLiteral));
if (!document().cssRegionsEnabled() || !renderNamedFlowFragment())
return undefinedState;
switch (regionOversetState()) {
case RegionFit: {
DEPRECATED_DEFINE_STATIC_LOCAL(AtomicString, fitState, ("fit", AtomicString::ConstructFromLiteral));
return fitState;
}
case RegionEmpty: {
DEPRECATED_DEFINE_STATIC_LOCAL(AtomicString, emptyState, ("empty", AtomicString::ConstructFromLiteral));
return emptyState;
}
case RegionOverset: {
DEPRECATED_DEFINE_STATIC_LOCAL(AtomicString, overflowState, ("overset", AtomicString::ConstructFromLiteral));
return overflowState;
}
case RegionUndefined:
return undefinedState;
}
ASSERT_NOT_REACHED();
return undefinedState;
}
Vector<RefPtr<Range>> Element::webkitGetRegionFlowRanges() const
{
Vector<RefPtr<Range>> rangeObjects;
if (!document().cssRegionsEnabled())
return rangeObjects;
document().updateLayoutIgnorePendingStylesheets();
if (renderer() && renderer()->isRenderNamedFlowFragmentContainer()) {
RenderNamedFlowFragment* namedFlowFragment = toRenderBlockFlow(renderer())->renderNamedFlowFragment();
if (namedFlowFragment->isValid())
namedFlowFragment->getRanges(rangeObjects);
}
return rangeObjects;
}
#endif
#ifndef NDEBUG
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 (!isInTreeScope())
return;
if (oldName == newName)
return;
updateNameForTreeScope(treeScope(), oldName, newName);
if (!inDocument())
return;
if (!document().isHTMLDocument())
return;
updateNameForDocument(toHTMLDocument(document()), oldName, newName);
}
void Element::updateNameForTreeScope(TreeScope& scope, const AtomicString& oldName, const AtomicString& newName)
{
ASSERT(oldName != newName);
if (!oldName.isEmpty())
scope.removeElementByName(*oldName.impl(), *this);
if (!newName.isEmpty())
scope.addElementByName(*newName.impl(), *this);
}
void Element::updateNameForDocument(HTMLDocument& document, const AtomicString& oldName, const AtomicString& newName)
{
ASSERT(oldName != newName);
if (WindowNameCollection::nodeMatchesIfNameAttributeMatch(this)) {
const AtomicString& id = WindowNameCollection::nodeMatchesIfIdAttributeMatch(this) ? getIdAttribute() : nullAtom;
if (!oldName.isEmpty() && oldName != id)
document.removeWindowNamedItem(*oldName.impl(), *this);
if (!newName.isEmpty() && newName != id)
document.addWindowNamedItem(*newName.impl(), *this);
}
if (DocumentNameCollection::nodeMatchesIfNameAttributeMatch(this)) {
const AtomicString& id = DocumentNameCollection::nodeMatchesIfIdAttributeMatch(this) ? getIdAttribute() : nullAtom;
if (!oldName.isEmpty() && oldName != id)
document.removeDocumentNamedItem(*oldName.impl(), *this);
if (!newName.isEmpty() && newName != id)
document.addDocumentNamedItem(*newName.impl(), *this);
}
}
inline void Element::updateId(const AtomicString& oldId, const AtomicString& newId)
{
if (!isInTreeScope())
return;
if (oldId == newId)
return;
updateIdForTreeScope(treeScope(), oldId, newId);
if (!inDocument())
return;
if (!document().isHTMLDocument())
return;
updateIdForDocument(toHTMLDocument(document()), oldId, newId, UpdateHTMLDocumentNamedItemMapsOnlyIfDiffersFromNameAttribute);
}
void Element::updateIdForTreeScope(TreeScope& scope, const AtomicString& oldId, const AtomicString& newId)
{
ASSERT(isInTreeScope());
ASSERT(oldId != newId);
if (!oldId.isEmpty())
scope.removeElementById(*oldId.impl(), *this);
if (!newId.isEmpty())
scope.addElementById(*newId.impl(), *this);
}
void Element::updateIdForDocument(HTMLDocument& document, const AtomicString& oldId, const AtomicString& newId, HTMLDocumentNamedItemMapsUpdatingCondition condition)
{
ASSERT(inDocument());
ASSERT(oldId != newId);
if (WindowNameCollection::nodeMatchesIfIdAttributeMatch(this)) {
const AtomicString& name = condition == UpdateHTMLDocumentNamedItemMapsOnlyIfDiffersFromNameAttribute && WindowNameCollection::nodeMatchesIfNameAttributeMatch(this) ? getNameAttribute() : nullAtom;
if (!oldId.isEmpty() && oldId != name)
document.removeWindowNamedItem(*oldId.impl(), *this);
if (!newId.isEmpty() && newId != name)
document.addWindowNamedItem(*newId.impl(), *this);
}
if (DocumentNameCollection::nodeMatchesIfIdAttributeMatch(this)) {
const AtomicString& name = condition == UpdateHTMLDocumentNamedItemMapsOnlyIfDiffersFromNameAttribute && DocumentNameCollection::nodeMatchesIfNameAttributeMatch(this) ? getNameAttribute() : nullAtom;
if (!oldId.isEmpty() && oldId != name)
document.removeDocumentNamedItem(*oldId.impl(), *this);
if (!newId.isEmpty() && newId != name)
document.addDocumentNamedItem(*newId.impl(), *this);
}
}
void Element::updateLabel(TreeScope& scope, const AtomicString& oldForAttributeValue, const AtomicString& newForAttributeValue)
{
ASSERT(hasTagName(labelTag));
if (!inDocument())
return;
if (oldForAttributeValue == newForAttributeValue)
return;
if (!oldForAttributeValue.isEmpty())
scope.removeLabel(*oldForAttributeValue.impl(), *toHTMLLabelElement(this));
if (!newForAttributeValue.isEmpty())
scope.addLabel(*newForAttributeValue.impl(), *toHTMLLabelElement(this));
}
void Element::willModifyAttribute(const QualifiedName& name, const AtomicString& oldValue, const AtomicString& newValue)
{
if (name == HTMLNames::idAttr)
updateId(oldValue, newValue);
else if (name == HTMLNames::nameAttr)
updateName(oldValue, newValue);
else if (name == HTMLNames::forAttr && hasTagName(labelTag)) {
if (treeScope().shouldCacheLabelsByForAttribute())
updateLabel(treeScope(), oldValue, newValue);
}
if (oldValue != newValue) {
auto styleResolver = document().styleResolverIfExists();
if (styleResolver && styleResolver->hasSelectorForAttribute(name.localName()))
setNeedsStyleRecalc();
}
if (std::unique_ptr<MutationObserverInterestGroup> recipients = MutationObserverInterestGroup::createForAttributesMutation(*this, name))
recipients->enqueueMutationRecord(MutationRecord::createAttributes(*this, name, oldValue));
#if ENABLE(INSPECTOR)
InspectorInstrumentation::willModifyDOMAttr(&document(), this, oldValue, newValue);
#endif
}
void Element::didAddAttribute(const QualifiedName& name, const AtomicString& value)
{
attributeChanged(name, nullAtom, value);
InspectorInstrumentation::didModifyDOMAttr(&document(), this, name.localName(), value);
dispatchSubtreeModifiedEvent();
}
void Element::didModifyAttribute(const QualifiedName& name, const AtomicString& oldValue, const AtomicString& newValue)
{
attributeChanged(name, oldValue, newValue);
InspectorInstrumentation::didModifyDOMAttr(&document(), this, name.localName(), newValue);
}
void Element::didRemoveAttribute(const QualifiedName& name, const AtomicString& oldValue)
{
attributeChanged(name, oldValue, nullAtom);
InspectorInstrumentation::didRemoveDOMAttr(&document(), this, name.localName());
dispatchSubtreeModifiedEvent();
}
PassRefPtr<HTMLCollection> Element::ensureCachedHTMLCollection(CollectionType type)
{
if (HTMLCollection* collection = cachedHTMLCollection(type))
return collection;
RefPtr<HTMLCollection> collection;
if (type == TableRows) {
return ensureRareData().ensureNodeLists().addCachedCollection<HTMLTableRowsCollection>(toHTMLTableElement(*this), type);
} else if (type == SelectOptions) {
return ensureRareData().ensureNodeLists().addCachedCollection<HTMLOptionsCollection>(toHTMLSelectElement(*this), type);
} else if (type == FormControls) {
ASSERT(hasTagName(formTag) || hasTagName(fieldsetTag));
return ensureRareData().ensureNodeLists().addCachedCollection<HTMLFormControlsCollection>(*this, type);
}
return ensureRareData().ensureNodeLists().addCachedCollection<HTMLCollection>(*this, type);
}
HTMLCollection* Element::cachedHTMLCollection(CollectionType type)
{
return hasRareData() && rareData()->nodeLists() ? rareData()->nodeLists()->cachedCollection<HTMLCollection>(type) : 0;
}
IntSize Element::savedLayerScrollOffset() const
{
return hasRareData() ? elementRareData()->savedLayerScrollOffset() : IntSize();
}
void Element::setSavedLayerScrollOffset(const IntSize& size)
{
if (size.isZero() && !hasRareData())
return;
ensureElementRareData().setSavedLayerScrollOffset(size);
}
PassRefPtr<Attr> Element::attrIfExists(const QualifiedName& name)
{
if (auto* attrNodeList = attrNodeListForElement(*this))
return findAttrNodeInList(*attrNodeList, name);
return nullptr;
}
PassRefPtr<Attr> Element::ensureAttr(const QualifiedName& name)
{
auto& attrNodeList = ensureAttrNodeListForElement(*this);
RefPtr<Attr> attrNode = findAttrNodeInList(attrNodeList, name);
if (!attrNode) {
attrNode = Attr::create(this, name);
treeScope().adoptIfNeeded(attrNode.get());
attrNodeList.append(attrNode);
}
return attrNode.release();
}
void Element::detachAttrNodeFromElementWithValue(Attr* attrNode, const AtomicString& value)
{
ASSERT(hasSyntheticAttrChildNodes());
attrNode->detachFromElementWithValue(value);
auto* attrNodeList = attrNodeListForElement(*this);
for (unsigned i = 0; i < attrNodeList->size(); ++i) {
if (attrNodeList->at(i)->qualifiedName() == attrNode->qualifiedName()) {
attrNodeList->remove(i);
if (attrNodeList->isEmpty())
removeAttrNodeListForElement(*this);
return;
}
}
ASSERT_NOT_REACHED();
}
void Element::detachAllAttrNodesFromElement()
{
auto* attrNodeList = attrNodeListForElement(*this);
ASSERT(attrNodeList);
for (const Attribute& attribute : attributesIterator()) {
if (RefPtr<Attr> attrNode = findAttrNodeInList(*attrNodeList, attribute.name()))
attrNode->detachFromElementWithValue(attribute.value());
}
removeAttrNodeListForElement(*this);
}
void Element::resetComputedStyle()
{
if (!hasRareData() || !elementRareData()->computedStyle())
return;
elementRareData()->resetComputedStyle();
for (auto& child : descendantsOfType<Element>(*this)) {
if (child.hasRareData())
child.elementRareData()->resetComputedStyle();
}
}
void Element::clearStyleDerivedDataBeforeDetachingRenderer()
{
unregisterNamedFlowContentElement();
cancelFocusAppearanceUpdate();
clearBeforePseudoElement();
clearAfterPseudoElement();
if (!hasRareData())
return;
ElementRareData* data = elementRareData();
data->setIsInCanvasSubtree(false);
data->resetComputedStyle();
data->resetDynamicRestyleObservations();
}
void Element::clearHoverAndActiveStatusBeforeDetachingRenderer()
{
if (!isUserActionElement())
return;
if (hovered())
document().hoveredElementDidDetach(this);
if (inActiveChain())
document().elementInActiveChainDidDetach(this);
document().userActionElements().didDetach(this);
}
bool Element::willRecalcStyle(Style::Change)
{
ASSERT(hasCustomStyleResolveCallbacks());
return true;
}
void Element::didRecalcStyle(Style::Change)
{
ASSERT(hasCustomStyleResolveCallbacks());
}
void Element::willAttachRenderers()
{
ASSERT(hasCustomStyleResolveCallbacks());
}
void Element::didAttachRenderers()
{
ASSERT(hasCustomStyleResolveCallbacks());
}
void Element::willDetachRenderers()
{
ASSERT(hasCustomStyleResolveCallbacks());
}
void Element::didDetachRenderers()
{
ASSERT(hasCustomStyleResolveCallbacks());
}
PassRefPtr<RenderStyle> Element::customStyleForRenderer(RenderStyle&)
{
ASSERT(hasCustomStyleResolveCallbacks());
return 0;
}
void Element::cloneAttributesFromElement(const Element& other)
{
if (hasSyntheticAttrChildNodes())
detachAllAttrNodesFromElement();
other.synchronizeAllAttributes();
if (!other.m_elementData) {
m_elementData.clear();
return;
}
ASSERT(!inDocument());
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);
if (other.m_elementData->isUnique()
&& !other.m_elementData->presentationAttributeStyle()
&& (!other.m_elementData->inlineStyle() || !other.m_elementData->inlineStyle()->hasCSSOMWrapper()))
const_cast<Element&>(other).m_elementData = static_cast<const UniqueElementData*>(other.m_elementData.get())->makeShareableCopy();
if (!other.m_elementData->isUnique())
m_elementData = other.m_elementData;
else
m_elementData = other.m_elementData->makeUniqueCopy();
for (const Attribute& attribute : attributesIterator())
attributeChanged(attribute.name(), nullAtom, attribute.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 = static_cast<ShareableElementData*>(m_elementData.get())->makeUniqueCopy();
}
}
bool Element::hasPendingResources() const
{
return hasRareData() && elementRareData()->hasPendingResources();
}
void Element::setHasPendingResources()
{
ensureElementRareData().setHasPendingResources(true);
}
void Element::clearHasPendingResources()
{
ensureElementRareData().setHasPendingResources(false);
}
bool Element::canContainRangeEndPoint() const
{
return !equalIgnoringCase(fastGetAttribute(roleAttr), "img");
}
String Element::completeURLsInAttributeValue(const URL& base, const Attribute& attribute) const
{
return URL(base, attribute.value()).string();
}
}