blob: b458da9a3335ab1a6cf131a98936fd8530231c2f [file] [log] [blame]
/*
* Copyright (C) 1999 Lars Knoll (knoll@kde.org)
* (C) 1999 Antti Koivisto (koivisto@kde.org)
* (C) 2001 Dirk Mueller (mueller@kde.org)
* Copyright (C) 2004-2020 Apple Inc. All rights reserved.
* Copyright (C) 2008, 2009 Torch Mobile Inc. All rights reserved. (http://www.torchmobile.com/)
*
* 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.
*
*/
#pragma once
#include "EventTarget.h"
#include "ExceptionOr.h"
#include "LayoutRect.h"
#include "RenderStyleConstants.h"
#include "StyleValidity.h"
#include "TreeScope.h"
#include <wtf/CompactPointerTuple.h>
#include <wtf/CompactUniquePtrTuple.h>
#include <wtf/FixedVector.h>
#include <wtf/Forward.h>
#include <wtf/IsoMalloc.h>
#include <wtf/ListHashSet.h>
#include <wtf/MainThread.h>
#include <wtf/OptionSet.h>
#include <wtf/URLHash.h>
#include <wtf/WeakPtr.h>
namespace WTF {
class TextStream;
}
namespace WebCore {
class ContainerNode;
class Document;
class Element;
class FloatPoint;
class HTMLQualifiedName;
class HTMLSlotElement;
class MathMLQualifiedName;
class MutationObserver;
class MutationObserverRegistration;
class NamedNodeMap;
class NodeList;
class NodeListsNodeData;
class NodeRareData;
class QualifiedName;
class RenderBox;
class RenderBoxModelObject;
class RenderObject;
class RenderStyle;
class SVGQualifiedName;
class ShadowRoot;
class TouchEvent;
enum class MutationObserverOptionType : uint8_t;
using MutationObserverOptions = OptionSet<MutationObserverOptionType>;
using MutationRecordDeliveryOptions = OptionSet<MutationObserverOptionType>;
using NodeOrString = std::variant<RefPtr<Node>, String>;
class Node : public EventTarget {
WTF_MAKE_ISO_ALLOCATED(Node);
friend class Document;
friend class TreeScope;
public:
enum NodeType {
ELEMENT_NODE = 1,
ATTRIBUTE_NODE = 2,
TEXT_NODE = 3,
CDATA_SECTION_NODE = 4,
PROCESSING_INSTRUCTION_NODE = 7,
COMMENT_NODE = 8,
DOCUMENT_NODE = 9,
DOCUMENT_TYPE_NODE = 10,
DOCUMENT_FRAGMENT_NODE = 11,
};
enum DeprecatedNodeType {
ENTITY_REFERENCE_NODE = 5,
ENTITY_NODE = 6,
NOTATION_NODE = 12,
};
enum DocumentPosition {
DOCUMENT_POSITION_EQUIVALENT = 0x00,
DOCUMENT_POSITION_DISCONNECTED = 0x01,
DOCUMENT_POSITION_PRECEDING = 0x02,
DOCUMENT_POSITION_FOLLOWING = 0x04,
DOCUMENT_POSITION_CONTAINS = 0x08,
DOCUMENT_POSITION_CONTAINED_BY = 0x10,
DOCUMENT_POSITION_IMPLEMENTATION_SPECIFIC = 0x20,
};
WEBCORE_EXPORT static void startIgnoringLeaks();
WEBCORE_EXPORT static void stopIgnoringLeaks();
static void dumpStatistics();
virtual ~Node();
void willBeDeletedFrom(Document&);
// DOM methods & attributes for Node
bool hasTagName(const HTMLQualifiedName&) const;
bool hasTagName(const MathMLQualifiedName&) const;
inline bool hasTagName(const SVGQualifiedName&) const;
virtual String nodeName() const = 0;
virtual String nodeValue() const;
virtual ExceptionOr<void> setNodeValue(const String&);
virtual NodeType nodeType() const = 0;
virtual size_t approximateMemoryCost() const { return sizeof(*this); }
ContainerNode* parentNode() const;
static ptrdiff_t parentNodeMemoryOffset() { return OBJECT_OFFSETOF(Node, m_parentNode); }
inline Element* parentElement() const;
Node* previousSibling() const { return m_previous; }
static ptrdiff_t previousSiblingMemoryOffset() { return OBJECT_OFFSETOF(Node, m_previous); }
Node* nextSibling() const { return m_next; }
static ptrdiff_t nextSiblingMemoryOffset() { return OBJECT_OFFSETOF(Node, m_next); }
WEBCORE_EXPORT RefPtr<NodeList> childNodes();
Node* firstChild() const;
Node* lastChild() const;
inline bool hasAttributes() const;
inline NamedNodeMap* attributes() const;
Node* pseudoAwareNextSibling() const;
Node* pseudoAwarePreviousSibling() const;
Node* pseudoAwareFirstChild() const;
Node* pseudoAwareLastChild() const;
WEBCORE_EXPORT const URL& baseURI() const;
void getSubresourceURLs(ListHashSet<URL>&) const;
WEBCORE_EXPORT ExceptionOr<void> insertBefore(Node& newChild, Node* refChild);
WEBCORE_EXPORT ExceptionOr<void> replaceChild(Node& newChild, Node& oldChild);
WEBCORE_EXPORT ExceptionOr<void> removeChild(Node& child);
WEBCORE_EXPORT ExceptionOr<void> appendChild(Node& newChild);
bool hasChildNodes() const { return firstChild(); }
enum class CloningOperation {
OnlySelf,
SelfWithTemplateContent,
Everything,
};
virtual Ref<Node> cloneNodeInternal(Document&, CloningOperation) = 0;
Ref<Node> cloneNode(bool deep) { return cloneNodeInternal(document(), deep ? CloningOperation::Everything : CloningOperation::OnlySelf); }
WEBCORE_EXPORT ExceptionOr<Ref<Node>> cloneNodeForBindings(bool deep);
virtual const AtomString& localName() const;
virtual const AtomString& namespaceURI() const;
virtual const AtomString& prefix() const;
virtual ExceptionOr<void> setPrefix(const AtomString&);
WEBCORE_EXPORT void normalize();
bool isSameNode(Node* other) const { return this == other; }
WEBCORE_EXPORT bool isEqualNode(Node*) const;
WEBCORE_EXPORT bool isDefaultNamespace(const AtomString& namespaceURI) const;
WEBCORE_EXPORT const AtomString& lookupPrefix(const AtomString& namespaceURI) const;
WEBCORE_EXPORT const AtomString& lookupNamespaceURI(const AtomString& prefix) const;
WEBCORE_EXPORT String textContent(bool convertBRsToNewlines = false) const;
WEBCORE_EXPORT ExceptionOr<void> setTextContent(const String&);
Node* lastDescendant() const;
Node* firstDescendant() const;
// From the NonDocumentTypeChildNode - https://dom.spec.whatwg.org/#nondocumenttypechildnode
WEBCORE_EXPORT Element* previousElementSibling() const;
WEBCORE_EXPORT Element* nextElementSibling() const;
// From the ChildNode - https://dom.spec.whatwg.org/#childnode
ExceptionOr<void> before(FixedVector<NodeOrString>&&);
ExceptionOr<void> after(FixedVector<NodeOrString>&&);
ExceptionOr<void> replaceWith(FixedVector<NodeOrString>&&);
WEBCORE_EXPORT ExceptionOr<void> remove();
// Other methods (not part of DOM)
bool isElementNode() const { return hasNodeFlag(NodeFlag::IsElement); }
bool isContainerNode() const { return hasNodeFlag(NodeFlag::IsContainerNode); }
bool isTextNode() const { return hasNodeFlag(NodeFlag::IsText); }
bool isHTMLElement() const { return hasNodeFlag(NodeFlag::IsHTMLElement); }
bool isSVGElement() const { return hasNodeFlag(NodeFlag::IsSVGElement); }
bool isMathMLElement() const { return hasNodeFlag(NodeFlag::IsMathMLElement); }
bool isUnknownElement() const { return hasNodeFlag(NodeFlag::IsUnknownElement); }
bool isHTMLUnknownElement() const { return isHTMLElement() && isUnknownElement(); }
bool isSVGUnknownElement() const { return isSVGElement() && isUnknownElement(); }
bool isMathMLUnknownElement() const { return isMathMLElement() && isUnknownElement(); }
bool isPseudoElement() const { return pseudoId() != PseudoId::None; }
bool isBeforePseudoElement() const { return pseudoId() == PseudoId::Before; }
bool isAfterPseudoElement() const { return pseudoId() == PseudoId::After; }
PseudoId pseudoId() const { return (isElementNode() && hasCustomStyleResolveCallbacks()) ? customPseudoId() : PseudoId::None; }
#if ENABLE(VIDEO)
virtual bool isWebVTTElement() const { return false; }
#endif
bool isStyledElement() const { return hasNodeFlag(NodeFlag::IsHTMLElement) || hasNodeFlag(NodeFlag::IsSVGElement) || hasNodeFlag(NodeFlag::IsMathMLElement); }
virtual bool isAttributeNode() const { return false; }
bool isCharacterDataNode() const { return hasNodeFlag(NodeFlag::IsCharacterData); }
virtual bool isFrameOwnerElement() const { return false; }
virtual bool isPluginElement() const { return false; }
bool isDocumentNode() const { return hasNodeFlag(NodeFlag::IsDocumentNode); }
bool isTreeScope() const { return hasNodeFlag(NodeFlag::IsDocumentNode) || hasNodeFlag(NodeFlag::IsShadowRoot); }
bool isDocumentFragment() const { return hasNodeFlag(NodeFlag::IsDocumentFragment); }
bool isShadowRoot() const { return hasNodeFlag(NodeFlag::IsShadowRoot); }
bool isUserAgentShadowRoot() const; // Defined in ShadowRoot.h
bool hasCustomStyleResolveCallbacks() const { return hasNodeFlag(NodeFlag::HasCustomStyleResolveCallbacks); }
bool hasSyntheticAttrChildNodes() const { return hasNodeFlag(NodeFlag::HasSyntheticAttrChildNodes); }
void setHasSyntheticAttrChildNodes(bool flag) { setNodeFlag(NodeFlag::HasSyntheticAttrChildNodes, flag); }
bool hasShadowRootContainingSlots() const { return hasNodeFlag(NodeFlag::HasShadowRootContainingSlots); }
void setHasShadowRootContainingSlots(bool flag) { setNodeFlag(NodeFlag::HasShadowRootContainingSlots, flag); }
// If this node is in a shadow tree, returns its shadow host. Otherwise, returns null.
WEBCORE_EXPORT Element* shadowHost() const;
ShadowRoot* containingShadowRoot() const;
ShadowRoot* shadowRoot() const; // Defined in ShadowRoot.h
bool isClosedShadowHidden(const Node&) const;
HTMLSlotElement* assignedSlot() const;
HTMLSlotElement* assignedSlotForBindings() const;
bool isUndefinedCustomElement() const { return customElementState() == CustomElementState::Undefined || customElementState() == CustomElementState::Failed; }
bool isCustomElementUpgradeCandidate() const { return customElementState() == CustomElementState::Undefined; }
bool isDefinedCustomElement() const { return customElementState() == CustomElementState::Custom; }
bool isFailedCustomElement() const { return customElementState() == CustomElementState::Failed; }
// Returns null, a child of ShadowRoot, or a legacy shadow root.
Node* nonBoundaryShadowTreeRootNode();
// Node's parent or shadow tree host.
ContainerNode* parentOrShadowHostNode() const; // Defined in ShadowRoot.h
ContainerNode* parentInComposedTree() const;
Element* parentElementInComposedTree() const;
Element* parentOrShadowHostElement() const;
void setParentNode(ContainerNode*);
Node& rootNode() const;
Node& traverseToRootNode() const;
Node& shadowIncludingRoot() const;
struct GetRootNodeOptions {
bool composed;
};
Node& getRootNode(const GetRootNodeOptions&) const;
void* opaqueRoot() const;
// Use when it's guaranteed to that shadowHost is null.
ContainerNode* parentNodeGuaranteedHostFree() const;
// Returns the parent node, but null if the parent node is a ShadowRoot.
ContainerNode* nonShadowBoundaryParentNode() const;
bool selfOrAncestorHasDirAutoAttribute() const { return hasNodeFlag(NodeFlag::SelfOrAncestorHasDirAuto); }
void setSelfOrAncestorHasDirAutoAttribute(bool flag) { setNodeFlag(NodeFlag::SelfOrAncestorHasDirAuto, flag); }
// Returns the enclosing event parent Element (or self) that, when clicked, would trigger a navigation.
Element* enclosingLinkEventParentOrSelf();
// These low-level calls give the caller responsibility for maintaining the integrity of the tree.
void setPreviousSibling(Node* previous) { m_previous = previous; }
void setNextSibling(Node* next) { m_next = next; }
virtual bool canContainRangeEndPoint() const { return false; }
WEBCORE_EXPORT bool isRootEditableElement() const;
WEBCORE_EXPORT Element* rootEditableElement() const;
// Called by the parser when this element's close tag is reached,
// signaling that all child tags have been parsed and added.
// This is needed for <applet> and <object> elements, which can't lay themselves out
// until they know all of their nested <param>s. [Radar 3603191, 4040848].
// Also used for script elements and some SVG elements for similar purposes,
// but making parsing a special case in this respect should be avoided if possible.
virtual void finishParsingChildren() { }
virtual void beginParsingChildren() { }
// For <link> and <style> elements.
virtual bool sheetLoaded() { return true; }
virtual void notifyLoadedSheetAndAllCriticalSubresources(bool /* error loading subresource */) { }
virtual void startLoadingDynamicSheet() { ASSERT_NOT_REACHED(); }
bool isUserActionElement() const { return hasNodeFlag(NodeFlag::IsUserActionElement); }
void setUserActionElement(bool flag) { setNodeFlag(NodeFlag::IsUserActionElement, flag); }
bool inRenderedDocument() const;
bool needsStyleRecalc() const { return styleValidity() != Style::Validity::Valid; }
Style::Validity styleValidity() const { return styleBitfields().styleValidity(); }
bool styleResolutionShouldRecompositeLayer() const { return hasStyleFlag(NodeStyleFlag::StyleResolutionShouldRecompositeLayer); }
bool childNeedsStyleRecalc() const { return hasStyleFlag(NodeStyleFlag::DescendantNeedsStyleResolution); }
bool isEditingText() const { return hasNodeFlag(NodeFlag::IsEditingText); }
bool isDocumentFragmentForInnerOuterHTML() const { return hasNodeFlag(NodeFlag::IsDocumentFragmentForInnerOuterHTML); }
void setChildNeedsStyleRecalc() { setStyleFlag(NodeStyleFlag::DescendantNeedsStyleResolution); }
void clearChildNeedsStyleRecalc();
void setHasValidStyle();
bool isLink() const { return hasNodeFlag(NodeFlag::IsLink); }
void setIsLink(bool flag) { setNodeFlag(NodeFlag::IsLink, flag); }
bool hasEventTargetData() const { return hasNodeFlag(NodeFlag::HasEventTargetData); }
void setHasEventTargetData(bool flag) { setNodeFlag(NodeFlag::HasEventTargetData, flag); }
WEBCORE_EXPORT bool isContentEditable() const;
bool isContentRichlyEditable() const;
WEBCORE_EXPORT void inspect();
enum UserSelectAllTreatment {
UserSelectAllDoesNotAffectEditability,
UserSelectAllIsAlwaysNonEditable
};
bool hasEditableStyle(UserSelectAllTreatment treatment = UserSelectAllIsAlwaysNonEditable) const
{
return computeEditability(treatment, ShouldUpdateStyle::DoNotUpdate) != Editability::ReadOnly;
}
// FIXME: Replace every use of this function by helpers in Editing.h
bool hasRichlyEditableStyle() const
{
return computeEditability(UserSelectAllIsAlwaysNonEditable, ShouldUpdateStyle::DoNotUpdate) == Editability::CanEditRichly;
}
enum class Editability { ReadOnly, CanEditPlainText, CanEditRichly };
enum class ShouldUpdateStyle { Update, DoNotUpdate };
WEBCORE_EXPORT Editability computeEditability(UserSelectAllTreatment, ShouldUpdateStyle) const;
WEBCORE_EXPORT LayoutRect renderRect(bool* isReplaced);
IntRect pixelSnappedRenderRect(bool* isReplaced) { return snappedIntRect(renderRect(isReplaced)); }
WEBCORE_EXPORT unsigned computeNodeIndex() const;
// Returns the DOM ownerDocument attribute. This method never returns null, except in the case
// of a Document node.
WEBCORE_EXPORT Document* ownerDocument() const;
// Returns the document associated with this node. A document node returns itself.
Document& document() const { return treeScope().documentScope(); }
TreeScope& treeScope() const
{
ASSERT(m_treeScope);
return *m_treeScope;
}
void setTreeScopeRecursively(TreeScope&);
static ptrdiff_t treeScopeMemoryOffset() { return OBJECT_OFFSETOF(Node, m_treeScope); }
// Returns true if this node is associated with a document and is in its associated document's
// node tree, false otherwise (https://dom.spec.whatwg.org/#connected).
bool isConnected() const { return hasNodeFlag(NodeFlag::IsConnected); }
bool isInUserAgentShadowTree() const;
bool isInShadowTree() const { return hasNodeFlag(NodeFlag::IsInShadowTree); }
bool isInTreeScope() const { return hasNodeFlag(NodeFlag::IsConnected) || hasNodeFlag(NodeFlag::IsInShadowTree); }
// https://dom.spec.whatwg.org/#in-a-document-tree
bool isInDocumentTree() const { return isConnected() && !isInShadowTree(); }
bool isDocumentTypeNode() const { return nodeType() == DOCUMENT_TYPE_NODE; }
virtual bool childTypeAllowed(NodeType) const { return false; }
unsigned countChildNodes() const;
unsigned length() const;
Node* traverseToChildAt(unsigned) const;
ExceptionOr<void> checkSetPrefix(const AtomString& prefix);
WEBCORE_EXPORT bool isDescendantOf(const Node&) const;
bool isDescendantOf(const Node* other) const { return other && isDescendantOf(*other); }
WEBCORE_EXPORT bool contains(const Node&) const;
bool contains(const Node* other) const { return other && contains(*other); }
WEBCORE_EXPORT bool isDescendantOrShadowDescendantOf(const Node&) const;
bool isDescendantOrShadowDescendantOf(const Node* other) const { return other && isDescendantOrShadowDescendantOf(*other); }
WEBCORE_EXPORT bool containsIncludingShadowDOM(const Node*) const;
// Whether or not a selection can be started in this object
virtual bool canStartSelection() const;
virtual bool shouldSelectOnMouseDown() { return false; }
// Getting points into and out of screen space
FloatPoint convertToPage(const FloatPoint&) const;
FloatPoint convertFromPage(const FloatPoint&) const;
// -----------------------------------------------------------------------------
// Integration with rendering tree
// As renderer() includes a branch you should avoid calling it repeatedly in hot code paths.
RenderObject* renderer() const { return m_rendererWithStyleFlags.pointer(); }
void setRenderer(RenderObject*); // Defined in RenderObject.h
// Use these two methods with caution.
WEBCORE_EXPORT RenderBox* renderBox() const;
RenderBoxModelObject* renderBoxModelObject() const;
// Wrapper for nodes that don't have a renderer, but still cache the style (like HTMLOptionElement).
const RenderStyle* renderStyle() const;
virtual const RenderStyle* computedStyle(PseudoId pseudoElementSpecifier = PseudoId::None);
enum class InsertedIntoAncestorResult {
Done,
NeedsPostInsertionCallback,
};
struct InsertionType {
bool connectedToDocument { false };
bool treeScopeChanged { false };
};
// Called *after* this node or its ancestor is inserted into a new parent (may or may not be a part of document) by scripts or parser.
// insertedInto **MUST NOT** invoke scripts. Return NeedsPostInsertionCallback and implement didFinishInsertingNode instead to run scripts.
virtual InsertedIntoAncestorResult insertedIntoAncestor(InsertionType, ContainerNode& parentOfInsertedTree);
virtual void didFinishInsertingNode() { }
struct RemovalType {
bool disconnectedFromDocument { false };
bool treeScopeChanged { false };
};
virtual void removedFromAncestor(RemovalType, ContainerNode& oldParentOfRemovedTree);
virtual String description() const;
virtual String debugDescription() const;
#if ENABLE(TREE_DEBUGGING)
void showNode(const char* prefix = "") const;
void showTreeForThis() const;
void showNodePathForThis() const;
void showTreeAndMark(const Node* markedNode1, const char* markedLabel1, const Node* markedNode2 = nullptr, const char* markedLabel2 = nullptr) const;
void showTreeForThisAcrossFrame() const;
#endif // ENABLE(TREE_DEBUGGING)
void invalidateNodeListAndCollectionCachesInAncestors();
void invalidateNodeListAndCollectionCachesInAncestorsForAttribute(const QualifiedName& attrName);
NodeListsNodeData* nodeLists();
void clearNodeLists();
virtual bool willRespondToMouseMoveEvents();
virtual bool willRespondToMouseClickEvents();
virtual bool willRespondToMouseWheelEvents();
WEBCORE_EXPORT unsigned short compareDocumentPosition(Node&);
EventTargetInterface eventTargetInterface() const override;
ScriptExecutionContext* scriptExecutionContext() const final; // Implemented in Document.h
WEBCORE_EXPORT bool addEventListener(const AtomString& eventType, Ref<EventListener>&&, const AddEventListenerOptions&) override;
bool removeEventListener(const AtomString& eventType, EventListener&, const EventListenerOptions&) override;
using EventTarget::dispatchEvent;
void dispatchEvent(Event&) override;
void dispatchScopedEvent(Event&);
void dispatchSubtreeModifiedEvent();
void dispatchDOMActivateEvent(Event& underlyingClickEvent);
#if ENABLE(TOUCH_EVENTS)
virtual bool allowsDoubleTapGesture() const { return true; }
#endif
bool dispatchBeforeLoadEvent(const String& sourceURL);
WEBCORE_EXPORT void dispatchInputEvent();
// Perform the default action for an event.
virtual void defaultEventHandler(Event&);
void ref() const;
void deref() const;
bool hasOneRef() const;
unsigned refCount() const;
#if ASSERT_ENABLED
bool m_deletionHasBegun { false };
mutable bool m_inRemovedLastRefFunction { false };
bool m_adoptionIsRequired { true };
#endif
EventTargetData* eventTargetData() final;
EventTargetData* eventTargetDataConcurrently() final;
EventTargetData& ensureEventTargetData() final;
HashMap<Ref<MutationObserver>, MutationRecordDeliveryOptions> registeredMutationObservers(MutationObserverOptionType, const QualifiedName* attributeName);
void registerMutationObserver(MutationObserver&, MutationObserverOptions, const HashSet<AtomString>& attributeFilter);
void unregisterMutationObserver(MutationObserverRegistration&);
void registerTransientMutationObserver(MutationObserverRegistration&);
void unregisterTransientMutationObserver(MutationObserverRegistration&);
void notifyMutationObserversNodeWillDetach();
unsigned connectedSubframeCount() const { return rareDataBitfields().connectedSubframeCount; }
void incrementConnectedSubframeCount(unsigned amount = 1);
void decrementConnectedSubframeCount(unsigned amount = 1);
void updateAncestorConnectedSubframeCountForRemoval() const;
void updateAncestorConnectedSubframeCountForInsertion() const;
#if ENABLE(JIT)
static ptrdiff_t nodeFlagsMemoryOffset() { return OBJECT_OFFSETOF(Node, m_nodeFlags); }
static ptrdiff_t rareDataMemoryOffset() { return OBJECT_OFFSETOF(Node, m_rareDataWithBitfields); }
#if CPU(ADDRESS64)
static uint64_t rareDataPointerMask() { return CompactPointerTuple<NodeRareData*, uint16_t>::pointerMask; }
#else
static uint32_t rareDataPointerMask() { return -1; }
#endif
static int32_t flagIsText() { return static_cast<int32_t>(NodeFlag::IsText); }
static int32_t flagIsContainer() { return static_cast<int32_t>(NodeFlag::IsContainerNode); }
static int32_t flagIsElement() { return static_cast<int32_t>(NodeFlag::IsElement); }
static int32_t flagIsShadowRoot() { return static_cast<int32_t>(NodeFlag::IsShadowRoot); }
static int32_t flagIsHTML() { return static_cast<int32_t>(NodeFlag::IsHTMLElement); }
static int32_t flagIsLink() { return static_cast<int32_t>(NodeFlag::IsLink); }
static int32_t flagIsParsingChildrenFinished() { return static_cast<int32_t>(NodeFlag::IsParsingChildrenFinished); }
#endif // ENABLE(JIT)
// Whether a node is inert, please use RenderStyle::effectiveInert instead!
bool deprecatedIsInert() const;
protected:
enum class NodeFlag : uint32_t {
IsCharacterData = 1 << 0,
IsText = 1 << 1,
IsContainerNode = 1 << 2,
IsElement = 1 << 3,
IsHTMLElement = 1 << 4,
IsSVGElement = 1 << 5,
IsMathMLElement = 1 << 6,
IsDocumentNode = 1 << 7,
IsDocumentFragment = 1 << 8,
IsShadowRoot = 1 << 9,
IsConnected = 1 << 10,
IsInShadowTree = 1 << 11,
IsUnknownElement = 1 << 12,
HasEventTargetData = 1 << 13,
// These bits are used by derived classes, pulled up here so they can
// be stored in the same memory word as the Node bits above.
IsDocumentFragmentForInnerOuterHTML = 1 << 14, // DocumentFragment
IsEditingText = 1 << 15, // Text
IsLink = 1 << 16, // Element
IsUserActionElement = 1 << 17,
IsParsingChildrenFinished = 1 << 18,
HasSyntheticAttrChildNodes = 1 << 19,
SelfOrAncestorHasDirAuto = 1 << 20,
HasCustomStyleResolveCallbacks = 1 << 21,
HasPendingResources = 1 << 22,
HasElementIdentifier = 1 << 23,
#if ENABLE(FULLSCREEN_API)
ContainsFullScreenElement = 1 << 24,
#endif
IsComputedStyleInvalidFlag = 1 << 25,
HasShadowRootContainingSlots = 1 << 26,
IsInTopLayer = 1 << 27,
// Bits 28-31 are free.
};
enum class TabIndexState : uint8_t {
NotSet = 0,
Zero = 1,
NegativeOne = 2,
InRareData = 3,
};
enum class CustomElementState : uint8_t {
Uncustomized = 0,
Undefined = 1,
Custom = 2,
Failed = 3,
};
struct RareDataBitFields {
uint16_t connectedSubframeCount : 10;
uint16_t tabIndexState : 2;
uint16_t customElementState : 2;
};
bool hasNodeFlag(NodeFlag flag) const { return m_nodeFlags.contains(flag); }
void setNodeFlag(NodeFlag flag, bool value = true) const { m_nodeFlags.set(flag, value); }
void clearNodeFlag(NodeFlag flag) const { m_nodeFlags.remove(flag); }
RareDataBitFields rareDataBitfields() const { return bitwise_cast<RareDataBitFields>(m_rareDataWithBitfields.type()); }
void setRareDataBitfields(RareDataBitFields bitfields) { m_rareDataWithBitfields.setType(bitwise_cast<uint16_t>(bitfields)); }
TabIndexState tabIndexState() const { return static_cast<TabIndexState>(rareDataBitfields().tabIndexState); }
void setTabIndexState(TabIndexState);
CustomElementState customElementState() const { return static_cast<CustomElementState>(rareDataBitfields().customElementState); }
void setCustomElementState(CustomElementState);
bool isParsingChildrenFinished() const { return hasNodeFlag(NodeFlag::IsParsingChildrenFinished); }
void setIsParsingChildrenFinished() { setNodeFlag(NodeFlag::IsParsingChildrenFinished); }
void clearIsParsingChildrenFinished() { clearNodeFlag(NodeFlag::IsParsingChildrenFinished); }
constexpr static auto DefaultNodeFlags = OptionSet<NodeFlag>(NodeFlag::IsParsingChildrenFinished);
constexpr static auto CreateOther = DefaultNodeFlags;
constexpr static auto CreateCharacterData = DefaultNodeFlags | NodeFlag::IsCharacterData;
constexpr static auto CreateText = CreateCharacterData | NodeFlag::IsText;
constexpr static auto CreateContainer = DefaultNodeFlags | NodeFlag::IsContainerNode;
constexpr static auto CreateElement = CreateContainer | NodeFlag::IsElement;
constexpr static auto CreatePseudoElement = CreateElement | NodeFlag::IsConnected;
constexpr static auto CreateDocumentFragment = CreateContainer | NodeFlag::IsDocumentFragment;
constexpr static auto CreateShadowRoot = CreateDocumentFragment | NodeFlag::IsShadowRoot | NodeFlag::IsInShadowTree;
constexpr static auto CreateHTMLElement = CreateElement | NodeFlag::IsHTMLElement;
constexpr static auto CreateSVGElement = CreateElement | NodeFlag::IsSVGElement | NodeFlag::HasCustomStyleResolveCallbacks;
constexpr static auto CreateMathMLElement = CreateElement | NodeFlag::IsMathMLElement;
constexpr static auto CreateDocument = CreateContainer | NodeFlag::IsDocumentNode | NodeFlag::IsConnected;
constexpr static auto CreateEditingText = CreateText | NodeFlag::IsEditingText;
using ConstructionType = OptionSet<NodeFlag>;
Node(Document&, ConstructionType);
static constexpr uint32_t s_refCountIncrement = 2;
static constexpr uint32_t s_refCountMask = ~static_cast<uint32_t>(1);
enum class NodeStyleFlag : uint16_t {
DescendantNeedsStyleResolution = 1 << 0,
DirectChildNeedsStyleResolution = 1 << 1,
StyleResolutionShouldRecompositeLayer = 1 << 2,
ChildrenAffectedByFirstChildRules = 1 << 3,
ChildrenAffectedByLastChildRules = 1 << 4,
AffectsNextSiblingElementStyle = 1 << 5,
StyleIsAffectedByPreviousSibling = 1 << 6,
DescendantsAffectedByPreviousSibling = 1 << 7,
StyleAffectedByEmpty = 1 << 8,
// We optimize for :first-child and :last-child. The other positional child selectors like nth-child or
// *-child-of-type, we will just give up and re-evaluate whenever children change at all.
ChildrenAffectedByForwardPositionalRules = 1 << 9,
DescendantsAffectedByForwardPositionalRules = 1 << 10,
ChildrenAffectedByBackwardPositionalRules = 1 << 11,
DescendantsAffectedByBackwardPositionalRules = 1 << 12,
ChildrenAffectedByPropertyBasedBackwardPositionalRules = 1 << 13,
};
struct StyleBitfields {
public:
static StyleBitfields fromRaw(uint16_t packed) { return bitwise_cast<StyleBitfields>(packed); }
uint16_t toRaw() const { return bitwise_cast<uint16_t>(*this); }
Style::Validity styleValidity() const { return static_cast<Style::Validity>(m_styleValidity); }
void setStyleValidity(Style::Validity validity) { m_styleValidity = static_cast<uint8_t>(validity); }
OptionSet<NodeStyleFlag> flags() const { return OptionSet<NodeStyleFlag>::fromRaw(m_flags); }
void setFlag(NodeStyleFlag flag) { m_flags = (flags() | flag).toRaw(); }
void clearFlag(NodeStyleFlag flag) { m_flags = (flags() - flag).toRaw(); }
void clearFlags(OptionSet<NodeStyleFlag> flagsToClear) { m_flags = (flags() - flagsToClear).toRaw(); }
void clearDescendantsNeedStyleResolution() { m_flags = (flags() - NodeStyleFlag::DescendantNeedsStyleResolution - NodeStyleFlag::DirectChildNeedsStyleResolution).toRaw(); }
private:
uint16_t m_styleValidity : 2;
uint16_t m_flags : 14;
};
StyleBitfields styleBitfields() const { return StyleBitfields::fromRaw(m_rendererWithStyleFlags.type()); }
void setStyleBitfields(StyleBitfields bitfields) { m_rendererWithStyleFlags.setType(bitfields.toRaw()); }
ALWAYS_INLINE bool hasStyleFlag(NodeStyleFlag flag) const { return styleBitfields().flags().contains(flag); }
ALWAYS_INLINE void setStyleFlag(NodeStyleFlag);
ALWAYS_INLINE void clearStyleFlags(OptionSet<NodeStyleFlag>);
virtual void addSubresourceAttributeURLs(ListHashSet<URL>&) const { }
bool hasRareData() const { return !!m_rareDataWithBitfields.pointer(); }
NodeRareData* rareData() const { return m_rareDataWithBitfields.pointer(); }
NodeRareData& ensureRareData();
void clearRareData();
void clearEventTargetData();
void setHasCustomStyleResolveCallbacks() { setNodeFlag(NodeFlag::HasCustomStyleResolveCallbacks); }
void setTreeScope(TreeScope& scope) { m_treeScope = &scope; }
void invalidateStyle(Style::Validity, Style::InvalidationMode = Style::InvalidationMode::Normal);
void updateAncestorsForStyleRecalc();
ExceptionOr<RefPtr<Node>> convertNodesOrStringsIntoNode(FixedVector<NodeOrString>&&);
private:
virtual PseudoId customPseudoId() const
{
ASSERT(hasCustomStyleResolveCallbacks());
return PseudoId::None;
}
WEBCORE_EXPORT void removedLastRef();
void refEventTarget() final;
void derefEventTarget() final;
bool isNode() const final;
void trackForDebugging();
void materializeRareData();
Vector<std::unique_ptr<MutationObserverRegistration>>* mutationObserverRegistry();
HashSet<MutationObserverRegistration*>* transientMutationObserverRegistry();
void adjustStyleValidity(Style::Validity, Style::InvalidationMode);
void* opaqueRootSlow() const;
static void moveShadowTreeToNewDocument(ShadowRoot&, Document& oldDocument, Document& newDocument);
static void moveTreeToNewScope(Node&, TreeScope& oldScope, TreeScope& newScope);
void moveNodeToNewDocument(Document& oldDocument, Document& newDocument);
struct NodeRareDataDeleter {
void operator()(NodeRareData*) const;
};
mutable uint32_t m_refCountAndParentBit { s_refCountIncrement };
mutable OptionSet<NodeFlag> m_nodeFlags;
ContainerNode* m_parentNode { nullptr };
TreeScope* m_treeScope { nullptr };
Node* m_previous { nullptr };
Node* m_next { nullptr };
CompactPointerTuple<RenderObject*, uint16_t> m_rendererWithStyleFlags;
CompactUniquePtrTuple<NodeRareData, uint16_t, NodeRareDataDeleter> m_rareDataWithBitfields;
};
bool connectedInSameTreeScope(const Node*, const Node*);
// Designed to be used the same way as C++20 std::partial_ordering class.
// FIXME: Consider putting this in a separate header.
// FIXME: Once we can require C++20, replace with std::partial_ordering.
class PartialOrdering {
public:
static const PartialOrdering less;
static const PartialOrdering equivalent;
static const PartialOrdering greater;
static const PartialOrdering unordered;
friend constexpr bool is_eq(PartialOrdering);
friend constexpr bool is_lt(PartialOrdering);
friend constexpr bool is_gt(PartialOrdering);
private:
enum class Type : uint8_t { Less, Equivalent, Greater, Unordered };
constexpr PartialOrdering(Type type) : m_type { type } { }
Type m_type;
};
constexpr bool is_eq(PartialOrdering);
constexpr bool is_lt(PartialOrdering);
constexpr bool is_gt(PartialOrdering);
constexpr bool is_neq(PartialOrdering);
constexpr bool is_lteq(PartialOrdering);
constexpr bool is_gteq(PartialOrdering);
enum TreeType { Tree, ShadowIncludingTree, ComposedTree };
template<TreeType = Tree> ContainerNode* parent(const Node&);
template<TreeType = Tree> Node* commonInclusiveAncestor(const Node&, const Node&);
template<TreeType = Tree> PartialOrdering treeOrder(const Node&, const Node&);
WEBCORE_EXPORT PartialOrdering treeOrderForTesting(TreeType, const Node&, const Node&);
#if ASSERT_ENABLED
inline void adopted(Node* node)
{
if (!node)
return;
ASSERT(!node->m_deletionHasBegun);
ASSERT(!node->m_inRemovedLastRefFunction);
node->m_adoptionIsRequired = false;
}
#endif // ASSERT_ENABLED
ALWAYS_INLINE void Node::ref() const
{
ASSERT(isMainThread());
ASSERT(!m_deletionHasBegun);
ASSERT(!m_inRemovedLastRefFunction);
ASSERT(!m_adoptionIsRequired);
m_refCountAndParentBit += s_refCountIncrement;
}
ALWAYS_INLINE void Node::deref() const
{
ASSERT(isMainThread());
ASSERT(refCount());
ASSERT(!m_deletionHasBegun);
ASSERT(!m_inRemovedLastRefFunction);
ASSERT(!m_adoptionIsRequired);
auto updatedRefCount = m_refCountAndParentBit - s_refCountIncrement;
if (!updatedRefCount) {
// Don't update m_refCountAndParentBit to avoid double destruction through use of Ref<T>/RefPtr<T>.
// (This is a security mitigation in case of programmer error. It will ASSERT in debug builds.)
#if ASSERT_ENABLED
m_inRemovedLastRefFunction = true;
#endif
const_cast<Node&>(*this).removedLastRef();
return;
}
m_refCountAndParentBit = updatedRefCount;
}
ALWAYS_INLINE bool Node::hasOneRef() const
{
ASSERT(!m_deletionHasBegun);
ASSERT(!m_inRemovedLastRefFunction);
return refCount() == 1;
}
ALWAYS_INLINE unsigned Node::refCount() const
{
return m_refCountAndParentBit / s_refCountIncrement;
}
// Used in Node::addSubresourceAttributeURLs() and in addSubresourceStyleURLs()
inline void addSubresourceURL(ListHashSet<URL>& urls, const URL& url)
{
if (!url.isNull())
urls.add(url);
}
inline void Node::setParentNode(ContainerNode* parent)
{
ASSERT(isMainThread());
m_parentNode = parent;
m_refCountAndParentBit = (m_refCountAndParentBit & s_refCountMask) | !!parent;
}
inline ContainerNode* Node::parentNode() const
{
ASSERT(isMainThreadOrGCThread());
return m_parentNode;
}
inline void* Node::opaqueRoot() const
{
// FIXME: Possible race?
// https://bugs.webkit.org/show_bug.cgi?id=165713
if (isConnected())
return &document();
return opaqueRootSlow();
}
inline ContainerNode* Node::parentNodeGuaranteedHostFree() const
{
ASSERT(!isShadowRoot());
return parentNode();
}
ALWAYS_INLINE void Node::setStyleFlag(NodeStyleFlag flag)
{
auto bitfields = styleBitfields();
bitfields.setFlag(flag);
setStyleBitfields(bitfields);
}
ALWAYS_INLINE void Node::clearStyleFlags(OptionSet<NodeStyleFlag> flags)
{
auto bitfields = styleBitfields();
bitfields.clearFlags(flags);
setStyleBitfields(bitfields);
}
inline void Node::clearChildNeedsStyleRecalc()
{
auto bitfields = styleBitfields();
bitfields.clearDescendantsNeedStyleResolution();
setStyleBitfields(bitfields);
}
inline void Node::setHasValidStyle()
{
auto bitfields = styleBitfields();
bitfields.setStyleValidity(Style::Validity::Valid);
bitfields.clearFlag(NodeStyleFlag::StyleResolutionShouldRecompositeLayer);
setStyleBitfields(bitfields);
clearNodeFlag(NodeFlag::IsComputedStyleInvalidFlag);
}
inline void Node::setTreeScopeRecursively(TreeScope& newTreeScope)
{
ASSERT(!isDocumentNode());
ASSERT(!m_deletionHasBegun);
if (m_treeScope != &newTreeScope)
moveTreeToNewScope(*this, *m_treeScope, newTreeScope);
}
inline constexpr PartialOrdering PartialOrdering::less(Type::Less);
inline constexpr PartialOrdering PartialOrdering::equivalent(Type::Equivalent);
inline constexpr PartialOrdering PartialOrdering::greater(Type::Greater);
inline constexpr PartialOrdering PartialOrdering::unordered(Type::Unordered);
constexpr bool is_eq(PartialOrdering ordering)
{
return ordering.m_type == PartialOrdering::Type::Equivalent;
}
constexpr bool is_lt(PartialOrdering ordering)
{
return ordering.m_type == PartialOrdering::Type::Less;
}
constexpr bool is_gt(PartialOrdering ordering)
{
return ordering.m_type == PartialOrdering::Type::Greater;
}
constexpr bool is_neq(PartialOrdering ordering)
{
return is_lt(ordering) || is_gt(ordering);
}
constexpr bool is_lteq(PartialOrdering ordering)
{
return is_lt(ordering) || is_eq(ordering);
}
constexpr bool is_gteq(PartialOrdering ordering)
{
return is_gt(ordering) || is_eq(ordering);
}
WEBCORE_EXPORT WTF::TextStream& operator<<(WTF::TextStream&, const Node&);
} // namespace WebCore
#if ENABLE(TREE_DEBUGGING)
// Outside the WebCore namespace for ease of invocation from the debugger.
void showTree(const WebCore::Node*);
void showNodePath(const WebCore::Node*);
#endif
SPECIALIZE_TYPE_TRAITS_BEGIN(WebCore::Node)
static bool isType(const WebCore::EventTarget& target) { return target.isNode(); }
SPECIALIZE_TYPE_TRAITS_END()