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/*
* Copyright (C) 2004, 2005, 2006, 2007, 2008 Nikolas Zimmermann <zimmermann@kde.org>
* Copyright (C) 2004, 2005, 2006, 2008 Rob Buis <buis@kde.org>
* Copyright (C) 2008-2019 Apple Inc. All rights reserved.
* Copyright (C) 2008 Alp Toker <alp@atoker.com>
* Copyright (C) 2009 Cameron McCormack <cam@mcc.id.au>
* Copyright (C) 2013 Samsung Electronics. All rights reserved.
* Copyright (C) 2014 Adobe Systems Incorporated. All rights reserved.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public License
* along with this library; see the file COPYING.LIB. If not, write to
* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
* Boston, MA 02110-1301, USA.
*/
#include "config.h"
#include "SVGElement.h"
#include "CSSComputedStyleDeclaration.h"
#include "CSSPrimitiveValueMappings.h"
#include "CSSPropertyParser.h"
#include "Document.h"
#include "ElementChildIterator.h"
#include "Event.h"
#include "EventNames.h"
#include "HTMLElement.h"
#include "HTMLNames.h"
#include "HTMLParserIdioms.h"
#include "JSEventListener.h"
#include "RenderAncestorIterator.h"
#include "RenderSVGResourceFilter.h"
#include "RenderSVGResourceMasker.h"
#include "SVGDocumentExtensions.h"
#include "SVGElementRareData.h"
#include "SVGElementTypeHelpers.h"
#include "SVGForeignObjectElement.h"
#include "SVGGraphicsElement.h"
#include "SVGImageElement.h"
#include "SVGNames.h"
#include "SVGPropertyAnimatorFactory.h"
#include "SVGRenderStyle.h"
#include "SVGRenderSupport.h"
#include "SVGResourceElementClient.h"
#include "SVGSVGElement.h"
#include "SVGTitleElement.h"
#include "SVGUseElement.h"
#include "ShadowRoot.h"
#include "StyleAdjuster.h"
#include "XMLNames.h"
#include <wtf/HashMap.h>
#include <wtf/IsoMallocInlines.h>
#include <wtf/NeverDestroyed.h>
#include <wtf/RobinHoodHashMap.h>
#include <wtf/StdLibExtras.h>
namespace WebCore {
WTF_MAKE_ISO_ALLOCATED_IMPL(SVGElement);
static NEVER_INLINE MemoryCompactLookupOnlyRobinHoodHashMap<AtomString, CSSPropertyID> createAttributeNameToCSSPropertyIDMap()
{
using namespace HTMLNames;
using namespace SVGNames;
// This list should include all base CSS and SVG CSS properties which are exposed as SVG XML attributes.
static constexpr std::array attributeNames {
&alignment_baselineAttr,
&baseline_shiftAttr,
&buffered_renderingAttr,
&clipAttr,
&clip_pathAttr,
&clip_ruleAttr,
&SVGNames::colorAttr,
&color_interpolationAttr,
&color_interpolation_filtersAttr,
&cursorAttr,
&cxAttr,
&cyAttr,
&SVGNames::directionAttr,
&displayAttr,
&dominant_baselineAttr,
&fillAttr,
&fill_opacityAttr,
&fill_ruleAttr,
&filterAttr,
&flood_colorAttr,
&flood_opacityAttr,
&font_familyAttr,
&font_sizeAttr,
&font_stretchAttr,
&font_styleAttr,
&font_variantAttr,
&font_weightAttr,
&glyph_orientation_horizontalAttr,
&glyph_orientation_verticalAttr,
&image_renderingAttr,
&SVGNames::heightAttr,
&kerningAttr,
&letter_spacingAttr,
&lighting_colorAttr,
&marker_endAttr,
&marker_midAttr,
&marker_startAttr,
&maskAttr,
&mask_typeAttr,
&opacityAttr,
&overflowAttr,
&paint_orderAttr,
&pointer_eventsAttr,
&rAttr,
&rxAttr,
&ryAttr,
&shape_renderingAttr,
&stop_colorAttr,
&stop_opacityAttr,
&strokeAttr,
&stroke_dasharrayAttr,
&stroke_dashoffsetAttr,
&stroke_linecapAttr,
&stroke_linejoinAttr,
&stroke_miterlimitAttr,
&stroke_opacityAttr,
&stroke_widthAttr,
&text_anchorAttr,
&text_decorationAttr,
&text_renderingAttr,
&unicode_bidiAttr,
&vector_effectAttr,
&visibilityAttr,
&SVGNames::widthAttr,
&word_spacingAttr,
&writing_modeAttr,
&xAttr,
&yAttr,
};
MemoryCompactLookupOnlyRobinHoodHashMap<AtomString, CSSPropertyID> map;
for (auto& name : attributeNames) {
auto& localName = name->get().localName();
map.add(localName, cssPropertyID(localName));
}
// FIXME: When CSS supports "transform-origin" this special case can be removed,
// and we can add transform_originAttr to the table above instead.
map.add(transform_originAttr->localName(), CSSPropertyTransformOrigin);
return map;
}
SVGElement::SVGElement(const QualifiedName& tagName, Document& document, ConstructionType constructionType)
: StyledElement(tagName, document, constructionType)
, m_propertyAnimatorFactory(makeUnique<SVGPropertyAnimatorFactory>())
{
static std::once_flag onceFlag;
std::call_once(onceFlag, [] {
PropertyRegistry::registerProperty<HTMLNames::classAttr, &SVGElement::m_className>();
});
}
SVGElement::~SVGElement()
{
if (m_svgRareData) {
RELEASE_ASSERT(m_svgRareData->referencingElements().computesEmpty());
for (SVGElement& instance : copyToVectorOf<Ref<SVGElement>>(instances()))
instance.m_svgRareData->setCorrespondingElement(nullptr);
RELEASE_ASSERT(!m_svgRareData->correspondingElement());
m_svgRareData = nullptr;
}
document().accessSVGExtensions().removeElementToRebuild(*this);
}
void SVGElement::willRecalcStyle(Style::Change change)
{
if (!m_svgRareData || styleResolutionShouldRecompositeLayer())
return;
// If the style changes because of a regular property change (not induced by SMIL animations themselves)
// reset the "computed style without SMIL style properties", so the base value change gets reflected.
if (change > Style::Change::None || needsStyleRecalc())
m_svgRareData->setNeedsOverrideComputedStyleUpdate();
}
SVGElementRareData& SVGElement::ensureSVGRareData()
{
if (!m_svgRareData)
m_svgRareData = makeUnique<SVGElementRareData>();
return *m_svgRareData;
}
bool SVGElement::isOutermostSVGSVGElement() const
{
if (!is<SVGSVGElement>(*this))
return false;
// Element may not be in the document, pretend we're outermost for viewport(), getCTM(), etc.
if (!parentNode())
return true;
// We act like an outermost SVG element, if we're a direct child of a <foreignObject> element.
if (is<SVGForeignObjectElement>(*parentNode()))
return true;
// If we're inside the shadow tree of a <use> element, we're always an inner <svg> element.
if (isInShadowTree() && is<SVGUseElement>(shadowHost()))
return false;
// This is true whenever this is the outermost SVG, even if there are HTML elements outside it
return !is<SVGElement>(*parentNode());
}
void SVGElement::reportAttributeParsingError(SVGParsingError error, const QualifiedName& name, const AtomString& value)
{
if (error == NoError)
return;
String errorString = "<" + tagName() + "> attribute " + name.toString() + "=\"" + value + "\"";
SVGDocumentExtensions& extensions = document().accessSVGExtensions();
if (error == NegativeValueForbiddenError) {
extensions.reportError("Invalid negative value for " + errorString);
return;
}
if (error == ParsingAttributeFailedError) {
extensions.reportError("Invalid value for " + errorString);
return;
}
ASSERT_NOT_REACHED();
}
void SVGElement::removedFromAncestor(RemovalType removalType, ContainerNode& oldParentOfRemovedTree)
{
if (removalType.disconnectedFromDocument)
updateRelativeLengthsInformation(false, *this);
StyledElement::removedFromAncestor(removalType, oldParentOfRemovedTree);
if (removalType.disconnectedFromDocument) {
auto& extensions = document().accessSVGExtensions();
if (m_svgRareData) {
for (auto& element : m_svgRareData->takeReferencingElements()) {
extensions.addElementToRebuild(element);
Ref { element }->clearTarget();
}
RELEASE_ASSERT(m_svgRareData->referencingElements().computesEmpty());
}
extensions.removeElementToRebuild(*this);
}
invalidateInstances();
if (removalType.treeScopeChanged && oldParentOfRemovedTree.isUserAgentShadowRoot())
setCorrespondingElement(nullptr);
}
SVGSVGElement* SVGElement::ownerSVGElement() const
{
ContainerNode* node = parentOrShadowHostNode();
while (node) {
if (is<SVGSVGElement>(*node))
return downcast<SVGSVGElement>(node);
node = node->parentOrShadowHostNode();
}
return nullptr;
}
SVGElement* SVGElement::viewportElement() const
{
// This function needs shadow tree support - as RenderSVGContainer uses this function
// to determine the "overflow" property. <use> on <symbol> wouldn't work otherwhise.
ContainerNode* node = parentOrShadowHostNode();
while (node) {
if (is<SVGSVGElement>(*node) || is<SVGImageElement>(*node) || node->hasTagName(SVGNames::symbolTag))
return downcast<SVGElement>(node);
node = node->parentOrShadowHostNode();
}
return nullptr;
}
const WeakHashSet<SVGElement>& SVGElement::instances() const
{
if (!m_svgRareData) {
static NeverDestroyed<WeakHashSet<SVGElement>> emptyInstances;
return emptyInstances;
}
return m_svgRareData->instances();
}
std::optional<FloatRect> SVGElement::getBoundingBox() const
{
if (is<SVGGraphicsElement>(*this)) {
if (auto renderer = this->renderer())
return renderer->objectBoundingBox();
}
return std::nullopt;
}
Vector<Ref<SVGElement>> SVGElement::referencingElements() const
{
if (!m_svgRareData)
return { };
return copyToVectorOf<Ref<SVGElement>>(m_svgRareData->referencingElements());
}
void SVGElement::addReferencingElement(SVGElement& element)
{
ensureSVGRareData().addReferencingElement(element);
auto& rareDataOfReferencingElement = element.ensureSVGRareData();
RELEASE_ASSERT(!rareDataOfReferencingElement.referenceTarget());
rareDataOfReferencingElement.setReferenceTarget(*this);
}
void SVGElement::removeReferencingElement(SVGElement& element)
{
ensureSVGRareData().removeReferencingElement(element);
element.ensureSVGRareData().setReferenceTarget(nullptr);
}
void SVGElement::removeElementReference()
{
if (!m_svgRareData)
return;
if (RefPtr destination = m_svgRareData->referenceTarget())
destination->removeReferencingElement(*this);
}
Vector<WeakPtr<SVGResourceElementClient>> SVGElement::referencingCSSClients() const
{
if (!m_svgRareData)
return { };
return copyToVector(m_svgRareData->referencingCSSClients());
}
void SVGElement::addReferencingCSSClient(SVGResourceElementClient& client)
{
ensureSVGRareData().addReferencingCSSClient(client);
}
void SVGElement::removeReferencingCSSClient(SVGResourceElementClient& client)
{
if (!m_svgRareData)
return;
ensureSVGRareData().removeReferencingCSSClient(client);
}
SVGElement* SVGElement::correspondingElement() const
{
return m_svgRareData ? m_svgRareData->correspondingElement() : nullptr;
}
RefPtr<SVGUseElement> SVGElement::correspondingUseElement() const
{
auto* root = containingShadowRoot();
if (!root)
return nullptr;
if (root->mode() != ShadowRootMode::UserAgent)
return nullptr;
auto* host = root->host();
if (!is<SVGUseElement>(host))
return nullptr;
return &downcast<SVGUseElement>(*host);
}
void SVGElement::setCorrespondingElement(SVGElement* correspondingElement)
{
if (m_svgRareData) {
if (RefPtr oldCorrespondingElement = m_svgRareData->correspondingElement())
oldCorrespondingElement->m_svgRareData->removeInstance(*this);
}
if (m_svgRareData || correspondingElement)
ensureSVGRareData().setCorrespondingElement(correspondingElement);
if (correspondingElement)
correspondingElement->ensureSVGRareData().addInstance(*this);
}
void SVGElement::parseAttribute(const QualifiedName& name, const AtomString& value)
{
if (name == HTMLNames::classAttr) {
m_className->setBaseValInternal(value);
return;
}
if (name == HTMLNames::tabindexAttr) {
if (value.isEmpty())
setTabIndexExplicitly(std::nullopt);
else if (auto optionalTabIndex = parseHTMLInteger(value))
setTabIndexExplicitly(optionalTabIndex.value());
return;
}
auto& eventName = HTMLElement::eventNameForEventHandlerAttribute(name);
if (!eventName.isNull()) {
setAttributeEventListener(eventName, name, value);
return;
}
}
bool SVGElement::haveLoadedRequiredResources()
{
for (auto& child : childrenOfType<SVGElement>(*this)) {
if (!child.haveLoadedRequiredResources())
return false;
}
return true;
}
bool SVGElement::addEventListener(const AtomString& eventType, Ref<EventListener>&& listener, const AddEventListenerOptions& options)
{
// Add event listener to regular DOM element
if (!Node::addEventListener(eventType, listener.copyRef(), options))
return false;
if (containingShadowRoot())
return true;
// Add event listener to all shadow tree DOM element instances
ASSERT(!instanceUpdatesBlocked());
for (auto& instance : copyToVectorOf<Ref<SVGElement>>(instances())) {
ASSERT(instance->correspondingElement() == this);
ASSERT(instance->isInUserAgentShadowTree());
bool result = instance->Node::addEventListener(eventType, listener.copyRef(), options);
ASSERT_UNUSED(result, result);
}
return true;
}
bool SVGElement::removeEventListener(const AtomString& eventType, EventListener& listener, const EventListenerOptions& options)
{
if (containingShadowRoot())
return Node::removeEventListener(eventType, listener, options);
// EventTarget::removeEventListener creates a Ref around the given EventListener
// object when creating a temporary RegisteredEventListener object used to look up the
// event listener in a cache. If we want to be able to call removeEventListener() multiple
// times on different nodes, we have to delay its immediate destruction, which would happen
// after the first call below.
Ref<EventListener> protector(listener);
// Remove event listener from regular DOM element
if (!Node::removeEventListener(eventType, listener, options))
return false;
// Remove event listener from all shadow tree DOM element instances
ASSERT(!instanceUpdatesBlocked());
for (auto& instance : copyToVectorOf<Ref<SVGElement>>(instances())) {
ASSERT(instance->correspondingElement() == this);
ASSERT(instance->isInUserAgentShadowTree());
if (instance->Node::removeEventListener(eventType, listener, options))
continue;
// This case can only be hit for event listeners created from markup
ASSERT(JSEventListener::wasCreatedFromMarkup(listener));
// If the event listener 'listener' has been created from markup and has been fired before
// then JSLazyEventListener::parseCode() has been called and m_jsFunction of that listener
// has been created (read: it's not 0 anymore). During shadow tree creation, the event
// listener DOM attribute has been cloned, and another event listener has been setup in
// the shadow tree. If that event listener has not been used yet, m_jsFunction is still 0,
// and tryRemoveEventListener() above will fail. Work around that very rare problem.
ASSERT(instance->eventTargetData());
instance->eventTargetData()->eventListenerMap.removeFirstEventListenerCreatedFromMarkup(eventType);
}
return true;
}
static bool hasLoadListener(Element* element)
{
if (element->hasEventListeners(eventNames().loadEvent))
return true;
for (element = element->parentOrShadowHostElement(); element; element = element->parentOrShadowHostElement()) {
if (element->hasCapturingEventListeners(eventNames().loadEvent))
return true;
}
return false;
}
void SVGElement::sendLoadEventIfPossible()
{
if (!isConnected() || !document().frame())
return;
if (!haveLoadedRequiredResources() || !hasLoadListener(this))
return;
dispatchEvent(Event::create(eventNames().loadEvent, Event::CanBubble::No, Event::IsCancelable::No));
}
void SVGElement::loadEventTimerFired()
{
sendLoadEventIfPossible();
}
Timer* SVGElement::loadEventTimer()
{
ASSERT_NOT_REACHED();
return nullptr;
}
void SVGElement::finishParsingChildren()
{
StyledElement::finishParsingChildren();
if (isOutermostSVGSVGElement())
return;
// Notify all the elements which have references to this element to rebuild their shadow and render
// trees, e.g. a <use> element references a target element before this target element is defined.
invalidateInstances();
}
#if ENABLE(LAYER_BASED_SVG_ENGINE)
static MemoryCompactLookupOnlyRobinHoodHashSet<AtomString> createSVGLayerAwareElementSet()
{
// List of all SVG elements whose renderers support the layer aware layout / painting / hit-testing mode ('LBSE-mode').
using namespace SVGNames;
MemoryCompactLookupOnlyRobinHoodHashSet<AtomString> set;
const Vector<SVGQualifiedName> allowedTags = {
circleTag.get(),
ellipseTag.get(),
gTag.get(),
pathTag.get(),
rectTag.get(),
textTag.get()
};
for (auto& tag : allowedTags)
set.add(tag.localName());
return set;
}
static inline bool isSVGLayerAwareElement(const SVGElement& element)
{
static NeverDestroyed<MemoryCompactLookupOnlyRobinHoodHashSet<AtomString>> set = createSVGLayerAwareElementSet();
return set.get().contains(element.localName());
}
#endif
bool SVGElement::childShouldCreateRenderer(const Node& child) const
{
if (!child.isSVGElement())
return false;
auto& svgChild = downcast<SVGElement>(child);
#if ENABLE(LAYER_BASED_SVG_ENGINE)
// If the layer based SVG engine is enabled, all renderers that do not support the
// RenderLayer aware layout / painting / hit-testing mode ('LBSE-mode') have to be skipped.
// FIXME: [LBSE] Upstream support for all elements, and remove 'isSVGLayerAwareElement' check afterwards.
if (document().settings().layerBasedSVGEngineEnabled())
return isSVGLayerAwareElement(svgChild);
#endif
static const QualifiedName* const invalidTextContent[] {
&SVGNames::altGlyphTag.get(),
&SVGNames::textPathTag.get(),
&SVGNames::trefTag.get(),
&SVGNames::tspanTag.get(),
};
auto& name = svgChild.localName();
for (auto* tag : invalidTextContent) {
if (name == tag->localName())
return false;
}
return svgChild.isValid();
}
void SVGElement::attributeChanged(const QualifiedName& name, const AtomString& oldValue, const AtomString& newValue, AttributeModificationReason)
{
StyledElement::attributeChanged(name, oldValue, newValue);
if (name == HTMLNames::idAttr)
document().accessSVGExtensions().rebuildAllElementReferencesForTarget(*this);
// Changes to the style attribute are processed lazily (see Element::getAttribute() and related methods),
// so we don't want changes to the style attribute to result in extra work here except invalidateInstances().
if (name == HTMLNames::styleAttr)
invalidateInstances();
else
svgAttributeChanged(name);
}
void SVGElement::synchronizeAttribute(const QualifiedName& name)
{
// If the value of the property has changed, serialize the new value to the attribute.
if (auto value = propertyRegistry().synchronize(name))
setSynchronizedLazyAttribute(name, AtomString { *value });
}
void SVGElement::synchronizeAllAttributes()
{
// SVGPropertyRegistry::synchronizeAllAttributes() returns the new values of
// the properties which have changed but not committed yet.
auto map = propertyRegistry().synchronizeAllAttributes();
for (const auto& entry : map)
setSynchronizedLazyAttribute(entry.key, AtomString { entry.value });
}
void SVGElement::commitPropertyChange(SVGProperty* property)
{
// We want to dirty the top-level property when a descendant changes. For example
// a change in an SVGLength item in SVGLengthList should set the dirty flag on
// SVGLengthList and not the SVGLength.
property->setDirty();
setAnimatedSVGAttributesAreDirty();
svgAttributeChanged(propertyRegistry().propertyAttributeName(*property));
}
void SVGElement::commitPropertyChange(SVGAnimatedProperty& animatedProperty)
{
QualifiedName attributeName = propertyRegistry().animatedPropertyAttributeName(animatedProperty);
ASSERT(attributeName != nullQName());
// A change in a style property, e.g SVGRectElement::x should be serialized to
// the attribute immediately. Otherwise it is okay to be lazy in this regard.
if (!propertyRegistry().isAnimatedStylePropertyAttribute(attributeName))
propertyRegistry().setAnimatedPropertyDirty(attributeName, animatedProperty);
else
setSynchronizedLazyAttribute(attributeName, AtomString { animatedProperty.baseValAsString() });
setAnimatedSVGAttributesAreDirty();
svgAttributeChanged(attributeName);
}
bool SVGElement::isAnimatedPropertyAttribute(const QualifiedName& attributeName) const
{
return propertyRegistry().isAnimatedPropertyAttribute(attributeName);
}
bool SVGElement::isAnimatedAttribute(const QualifiedName& attributeName) const
{
return SVGPropertyAnimatorFactory::isKnownAttribute(attributeName) || isAnimatedPropertyAttribute(attributeName);
}
bool SVGElement::isAnimatedStyleAttribute(const QualifiedName& attributeName) const
{
return SVGPropertyAnimatorFactory::isKnownAttribute(attributeName) || propertyRegistry().isAnimatedStylePropertyAttribute(attributeName);
}
RefPtr<SVGAttributeAnimator> SVGElement::createAnimator(const QualifiedName& attributeName, AnimationMode animationMode, CalcMode calcMode, bool isAccumulated, bool isAdditive)
{
// Property animator, e.g. "fill" or "fill-opacity".
if (auto animator = propertyAnimatorFactory().createAnimator(attributeName, animationMode, calcMode, isAccumulated, isAdditive))
return animator;
// Animated property animator.
auto animator = propertyRegistry().createAnimator(attributeName, animationMode, calcMode, isAccumulated, isAdditive);
if (!animator)
return animator;
for (auto& instance : copyToVectorOf<Ref<SVGElement>>(instances()))
instance->propertyRegistry().appendAnimatedInstance(attributeName, *animator);
return animator;
}
void SVGElement::animatorWillBeDeleted(const QualifiedName& attributeName)
{
propertyAnimatorFactory().animatorWillBeDeleted(attributeName);
}
std::optional<Style::ElementStyle> SVGElement::resolveCustomStyle(const Style::ResolutionContext& resolutionContext, const RenderStyle*)
{
// If the element is in a <use> tree we get the style from the definition tree.
if (RefPtr styleElement = this->correspondingElement()) {
auto styleElementResolutionContext = resolutionContext;
// Can't use the state since we are going to another part of the tree.
styleElementResolutionContext.selectorMatchingState = nullptr;
auto style = styleElement->resolveStyle(styleElementResolutionContext);
Style::Adjuster::adjustSVGElementStyle(*style.renderStyle, *this);
return style;
}
return resolveStyle(resolutionContext);
}
MutableStyleProperties* SVGElement::animatedSMILStyleProperties() const
{
if (m_svgRareData)
return m_svgRareData->animatedSMILStyleProperties();
return 0;
}
MutableStyleProperties& SVGElement::ensureAnimatedSMILStyleProperties()
{
return ensureSVGRareData().ensureAnimatedSMILStyleProperties();
}
void SVGElement::setUseOverrideComputedStyle(bool value)
{
if (m_svgRareData)
m_svgRareData->setUseOverrideComputedStyle(value);
}
const RenderStyle* SVGElement::computedStyle(PseudoId pseudoElementSpecifier)
{
if (!m_svgRareData || !m_svgRareData->useOverrideComputedStyle())
return Element::computedStyle(pseudoElementSpecifier);
const RenderStyle* parentStyle = nullptr;
if (RefPtr parent = parentOrShadowHostElement()) {
if (auto renderer = parent->renderer())
parentStyle = &renderer->style();
}
return m_svgRareData->overrideComputedStyle(*this, parentStyle);
}
ColorInterpolation SVGElement::colorInterpolation() const
{
if (auto renderer = this->renderer())
return renderer->style().svgStyle().colorInterpolationFilters();
// Try to determine the property value from the computed style.
if (auto value = ComputedStyleExtractor(const_cast<SVGElement*>(this)).propertyValue(CSSPropertyColorInterpolationFilters, DoNotUpdateLayout)) {
if (is<CSSPrimitiveValue>(value))
return downcast<CSSPrimitiveValue>(*value);
}
return ColorInterpolation::Auto;
}
QualifiedName SVGElement::animatableAttributeForName(const AtomString& localName)
{
static NeverDestroyed animatableAttributes = [] {
static constexpr std::array names {
&HTMLNames::classAttr,
&SVGNames::amplitudeAttr,
&SVGNames::azimuthAttr,
&SVGNames::baseFrequencyAttr,
&SVGNames::biasAttr,
&SVGNames::clipPathUnitsAttr,
&SVGNames::cxAttr,
&SVGNames::cyAttr,
&SVGNames::diffuseConstantAttr,
&SVGNames::divisorAttr,
&SVGNames::dxAttr,
&SVGNames::dyAttr,
&SVGNames::edgeModeAttr,
&SVGNames::elevationAttr,
&SVGNames::exponentAttr,
&SVGNames::externalResourcesRequiredAttr,
&SVGNames::filterUnitsAttr,
&SVGNames::fxAttr,
&SVGNames::fyAttr,
&SVGNames::gradientTransformAttr,
&SVGNames::gradientUnitsAttr,
&SVGNames::heightAttr,
&SVGNames::in2Attr,
&SVGNames::inAttr,
&SVGNames::interceptAttr,
&SVGNames::k1Attr,
&SVGNames::k2Attr,
&SVGNames::k3Attr,
&SVGNames::k4Attr,
&SVGNames::kernelMatrixAttr,
&SVGNames::kernelUnitLengthAttr,
&SVGNames::lengthAdjustAttr,
&SVGNames::limitingConeAngleAttr,
&SVGNames::markerHeightAttr,
&SVGNames::markerUnitsAttr,
&SVGNames::markerWidthAttr,
&SVGNames::maskContentUnitsAttr,
&SVGNames::maskUnitsAttr,
&SVGNames::methodAttr,
&SVGNames::modeAttr,
&SVGNames::numOctavesAttr,
&SVGNames::offsetAttr,
&SVGNames::operatorAttr,
&SVGNames::orderAttr,
&SVGNames::orientAttr,
&SVGNames::pathLengthAttr,
&SVGNames::patternContentUnitsAttr,
&SVGNames::patternTransformAttr,
&SVGNames::patternUnitsAttr,
&SVGNames::pointsAtXAttr,
&SVGNames::pointsAtYAttr,
&SVGNames::pointsAtZAttr,
&SVGNames::preserveAlphaAttr,
&SVGNames::preserveAspectRatioAttr,
&SVGNames::primitiveUnitsAttr,
&SVGNames::radiusAttr,
&SVGNames::rAttr,
&SVGNames::refXAttr,
&SVGNames::refYAttr,
&SVGNames::resultAttr,
&SVGNames::rotateAttr,
&SVGNames::rxAttr,
&SVGNames::ryAttr,
&SVGNames::scaleAttr,
&SVGNames::seedAttr,
&SVGNames::slopeAttr,
&SVGNames::spacingAttr,
&SVGNames::specularConstantAttr,
&SVGNames::specularExponentAttr,
&SVGNames::spreadMethodAttr,
&SVGNames::startOffsetAttr,
&SVGNames::stdDeviationAttr,
&SVGNames::stitchTilesAttr,
&SVGNames::surfaceScaleAttr,
&SVGNames::tableValuesAttr,
&SVGNames::targetAttr,
&SVGNames::targetXAttr,
&SVGNames::targetYAttr,
&SVGNames::transformAttr,
&SVGNames::typeAttr,
&SVGNames::valuesAttr,
&SVGNames::viewBoxAttr,
&SVGNames::widthAttr,
&SVGNames::x1Attr,
&SVGNames::x2Attr,
&SVGNames::xAttr,
&SVGNames::xChannelSelectorAttr,
&SVGNames::y1Attr,
&SVGNames::y2Attr,
&SVGNames::yAttr,
&SVGNames::yChannelSelectorAttr,
&SVGNames::zAttr,
&SVGNames::hrefAttr,
};
MemoryCompactLookupOnlyRobinHoodHashMap<AtomString, QualifiedName> map;
for (auto& name : names) {
auto addResult = map.add(name->get().localName(), *name);
ASSERT_UNUSED(addResult, addResult.isNewEntry);
}
return map;
}();
return animatableAttributes.get().get(localName);
}
#ifndef NDEBUG
bool SVGElement::isAnimatableAttribute(const QualifiedName& name) const
{
if (animatableAttributeForName(name.localName()) == name)
return !filterOutAnimatableAttribute(name);
return false;
}
bool SVGElement::filterOutAnimatableAttribute(const QualifiedName&) const
{
return false;
}
#endif
String SVGElement::title() const
{
// According to spec, for stand-alone SVG documents we should not return a title when
// hovering over the rootmost SVG element (the first <title> element is the title of
// the document, not a tooltip) so we instantly return.
if (isOutermostSVGSVGElement() && document().topDocument().isSVGDocument())
return String();
auto firstTitle = childrenOfType<SVGTitleElement>(*this).first();
return firstTitle ? const_cast<SVGTitleElement*>(firstTitle)->innerText() : String();
}
bool SVGElement::rendererIsNeeded(const RenderStyle& style)
{
// http://www.w3.org/TR/SVG/extend.html#PrivateData
// Prevent anything other than SVG renderers from appearing in our render tree
// Spec: SVG allows inclusion of elements from foreign namespaces anywhere
// with the SVG content. In general, the SVG user agent will include the unknown
// elements in the DOM but will otherwise ignore unknown elements.
if (!parentOrShadowHostElement() || is<SVGElement>(*parentOrShadowHostElement()))
return StyledElement::rendererIsNeeded(style);
return false;
}
CSSPropertyID SVGElement::cssPropertyIdForSVGAttributeName(const QualifiedName& attrName)
{
if (!attrName.namespaceURI().isNull())
return CSSPropertyInvalid;
static NeverDestroyed properties = createAttributeNameToCSSPropertyIDMap();
return properties.get().get(attrName.localName());
}
bool SVGElement::hasPresentationalHintsForAttribute(const QualifiedName& name) const
{
if (cssPropertyIdForSVGAttributeName(name) > 0)
return true;
return StyledElement::hasPresentationalHintsForAttribute(name);
}
void SVGElement::collectPresentationalHintsForAttribute(const QualifiedName& name, const AtomString& value, MutableStyleProperties& style)
{
CSSPropertyID propertyID = cssPropertyIdForSVGAttributeName(name);
if (propertyID > 0)
addPropertyToPresentationalHintStyle(style, propertyID, value);
}
void SVGElement::updateSVGRendererForElementChange()
{
document().updateSVGRenderer(*this);
}
void SVGElement::svgAttributeChanged(const QualifiedName& attrName)
{
CSSPropertyID propId = cssPropertyIdForSVGAttributeName(attrName);
if (propId > 0) {
invalidateInstances();
return;
}
if (attrName == HTMLNames::classAttr) {
classAttributeChanged(className());
invalidateInstances();
return;
}
if (attrName == HTMLNames::idAttr) {
auto renderer = this->renderer();
// Notify resources about id changes, this is important as we cache resources by id in SVGDocumentExtensions
if (is<RenderSVGResourceContainer>(renderer))
downcast<RenderSVGResourceContainer>(*renderer).idChanged();
if (isConnected())
buildPendingResourcesIfNeeded();
invalidateInstances();
return;
}
}
Node::InsertedIntoAncestorResult SVGElement::insertedIntoAncestor(InsertionType insertionType, ContainerNode& parentOfInsertedTree)
{
StyledElement::insertedIntoAncestor(insertionType, parentOfInsertedTree);
updateRelativeLengthsInformation();
if (needsPendingResourceHandling() && insertionType.connectedToDocument && !isInShadowTree()) {
SVGDocumentExtensions& extensions = document().accessSVGExtensions();
auto& resourceId = getIdAttribute();
if (extensions.isIdOfPendingResource(resourceId))
return InsertedIntoAncestorResult::NeedsPostInsertionCallback;
}
hideNonce();
return InsertedIntoAncestorResult::Done;
}
void SVGElement::didFinishInsertingNode()
{
buildPendingResourcesIfNeeded();
}
void SVGElement::buildPendingResourcesIfNeeded()
{
if (!needsPendingResourceHandling() || !isConnected() || isInShadowTree())
return;
SVGDocumentExtensions& extensions = document().accessSVGExtensions();
auto resourceId = getIdAttribute();
if (!extensions.isIdOfPendingResource(resourceId))
return;
// Mark pending resources as pending for removal.
extensions.markPendingResourcesForRemoval(resourceId);
// Rebuild pending resources for each client of a pending resource that is being removed.
while (auto clientElement = extensions.takeElementFromPendingResourcesForRemovalMap(resourceId)) {
ASSERT(clientElement->hasPendingResources());
if (clientElement->hasPendingResources()) {
clientElement->buildPendingResource();
if (auto renderer = clientElement->renderer()) {
for (auto& ancestor : ancestorsOfType<RenderSVGResourceContainer>(*renderer))
ancestor.markAllClientsForRepaint();
}
extensions.clearHasPendingResourcesIfPossible(*clientElement);
}
}
}
void SVGElement::childrenChanged(const ChildChange& change)
{
StyledElement::childrenChanged(change);
if (change.source == ChildChange::Source::Parser)
return;
invalidateInstances();
}
bool SVGElement::instanceUpdatesBlocked() const
{
return m_svgRareData && m_svgRareData->instanceUpdatesBlocked();
}
void SVGElement::setInstanceUpdatesBlocked(bool value)
{
// Catch any callers that calls setInstanceUpdatesBlocked(true) twice in a row.
// That probably indicates nested use of InstanceUpdateBlocker and a bug.
ASSERT(!value || !instanceUpdatesBlocked());
if (m_svgRareData)
m_svgRareData->setInstanceUpdatesBlocked(value);
}
AffineTransform SVGElement::localCoordinateSpaceTransform(SVGLocatable::CTMScope) const
{
// To be overridden by SVGGraphicsElement (or as special case SVGTextElement and SVGPatternElement)
return AffineTransform();
}
void SVGElement::updateRelativeLengthsInformation(bool hasRelativeLengths, SVGElement& element)
{
// If we're not yet in a document, this function will be called again from insertedIntoAncestor(). Do nothing now.
if (!isConnected())
return;
// An element wants to notify us that its own relative lengths state changed.
// Register it in the relative length map, and register us in the parent relative length map.
// Register the parent in the grandparents map, etc. Repeat procedure until the root of the SVG tree.
if (hasRelativeLengths)
m_elementsWithRelativeLengths.add(element);
else {
bool neverRegistered = !m_elementsWithRelativeLengths.contains(element);
if (neverRegistered)
return;
m_elementsWithRelativeLengths.remove(element);
}
if (is<SVGGraphicsElement>(element)) {
if (RefPtr parent = parentNode(); is<SVGElement>(parent))
downcast<SVGElement>(*parent).updateRelativeLengthsInformation(hasRelativeLengths, *this);
}
}
bool SVGElement::accessKeyAction(bool sendMouseEvents)
{
return dispatchSimulatedClick(0, sendMouseEvents ? SendMouseUpDownEvents : SendNoEvents);
}
void SVGElement::invalidateInstances()
{
if (instanceUpdatesBlocked())
return;
for (auto& instance : copyToVectorOf<Ref<SVGElement>>(instances())) {
if (auto useElement = instance->correspondingUseElement())
useElement->invalidateShadowTree();
instance->setCorrespondingElement(nullptr);
}
}
}