blob: 89100152a7cb61a22bfd45f4af891c365aaabc3a [file] [log] [blame]
* Copyright (C) 1999 Lars Knoll (
* (C) 1999 Antti Koivisto (
* (C) 2001 Dirk Mueller (
* (C) 2006 Alexey Proskuryakov (
* Copyright (C) 2004, 2005, 2006, 2007, 2008, 2009, 2010, 2012 Apple Inc. All rights reserved.
* Copyright (C) 2008, 2009 Torch Mobile Inc. All rights reserved. (
* Copyright (C) 2010 Nokia Corporation and/or its subsidiary(-ies)
* Copyright (C) 2011 Google Inc. 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
* 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.
#ifndef Document_h
#define Document_h
#include "bindings/v8/ScriptValue.h"
#include "core/animation/css/CSSPendingAnimations.h"
#include "core/dom/ContainerNode.h"
#include "core/dom/DOMTimeStamp.h"
#include "core/dom/DocumentEncodingData.h"
#include "core/dom/DocumentInit.h"
#include "core/dom/DocumentLifecycle.h"
#include "core/dom/DocumentSupplementable.h"
#include "core/dom/DocumentTiming.h"
#include "core/dom/ExecutionContext.h"
#include "core/dom/IconURL.h"
#include "core/dom/MutationObserver.h"
#include "core/dom/QualifiedName.h"
#include "core/dom/TextLinkColors.h"
#include "core/dom/TreeScope.h"
#include "core/dom/UserActionElementSet.h"
#include "core/dom/ViewportDescription.h"
#include "core/dom/custom/CustomElement.h"
#include "core/html/CollectionType.h"
#include "core/page/FocusDirection.h"
#include "core/page/PageVisibilityState.h"
#include "core/rendering/HitTestRequest.h"
#include "platform/Timer.h"
#include "platform/weborigin/KURL.h"
#include "platform/weborigin/ReferrerPolicy.h"
#include "wtf/HashSet.h"
#include "wtf/OwnPtr.h"
#include "wtf/PassOwnPtr.h"
#include "wtf/PassRefPtr.h"
#include "wtf/WeakPtr.h"
namespace WebCore {
class AXObjectCache;
class AnimationClock;
class Attr;
class CDATASection;
class CSSFontSelector;
class CSSStyleDeclaration;
class CSSStyleSheet;
class CSSStyleSheetResource;
class CanvasRenderingContext;
class CharacterData;
class Chrome;
class Comment;
class ContentSecurityPolicyResponseHeaders;
class ContextFeatures;
class CustomElementRegistrationContext;
class DOMImplementation;
class DOMNamedFlowCollection;
class DOMSelection;
class DOMWindow;
class Database;
class DatabaseThread;
class DocumentFragment;
class DocumentLifecycleNotifier;
class DocumentLifecycleObserver;
class DocumentLoader;
class DocumentMarkerController;
class DocumentParser;
class DocumentTimeline;
class DocumentType;
class Element;
class ElementDataCache;
class Event;
class EventListener;
class ExceptionState;
class FastTextAutosizer;
class FloatQuad;
class FloatRect;
class FontFaceSet;
class FormController;
class Frame;
class FrameHost;
class FrameView;
class HTMLAllCollection;
class HTMLCanvasElement;
class HTMLCollection;
class HTMLDialogElement;
class HTMLDocument;
class HTMLElement;
class HTMLFrameOwnerElement;
class HTMLHeadElement;
class HTMLIFrameElement;
class HTMLImport;
class HTMLMapElement;
class HTMLNameCollection;
class HTMLScriptElement;
class HitTestRequest;
class HitTestResult;
class IntPoint;
class JSNode;
class LayoutPoint;
class LayoutRect;
class LiveNodeListBase;
class Locale;
class Location;
class MainThreadTaskRunner;
class MediaQueryList;
class MediaQueryMatcher;
class MouseEventWithHitTestResults;
class NamedFlowCollection;
class NodeFilter;
class NodeIterator;
class Page;
class PlatformMouseEvent;
class ProcessingInstruction;
class Range;
class RegisteredEventListener;
class RenderView;
class RequestAnimationFrameCallback;
class ResourceFetcher;
class SVGDocumentExtensions;
class SVGUseElement;
class ScriptElementData;
class ScriptResource;
class ScriptRunner;
class ScriptableDocumentParser;
class ScriptedAnimationController;
class SecurityOrigin;
class SegmentedString;
class SelectorQueryCache;
class SerializedScriptValue;
class Settings;
class StyleEngine;
class StyleResolver;
class StyleSheet;
class StyleSheetContents;
class StyleSheetList;
class Text;
class TextAutosizer;
class Touch;
class TouchList;
class TransformSource;
class TreeWalker;
class VisitedLinkState;
class XMLHttpRequest;
struct AnnotatedRegionValue;
typedef int ExceptionCode;
enum RecalcStyleTime {
RecalcStyleImmediately, // synchronous
RecalcStyleDeferred // asynchronous
enum StyleResolverUpdateMode {
// Discards the StyleResolver and rebuilds it.
// Attempts to use StyleInvalidationAnalysis to avoid discarding the entire StyleResolver.
enum NodeListInvalidationType {
DoNotInvalidateOnAttributeChanges = 0,
const int numNodeListInvalidationTypes = InvalidateOnAnyAttrChange + 1;
typedef HashCountedSet<Node*> TouchEventTargetSet;
enum DocumentClass {
DefaultDocumentClass = 0,
HTMLDocumentClass = 1,
XHTMLDocumentClass = 1 << 1,
ImageDocumentClass = 1 << 2,
PluginDocumentClass = 1 << 3,
MediaDocumentClass = 1 << 4,
SVGDocumentClass = 1 << 5,
XMLDocumentClass = 1 << 6,
typedef unsigned char DocumentClassFlags;
class Document;
class DocumentVisibilityObserver {
virtual ~DocumentVisibilityObserver();
virtual void didChangeVisibilityState(PageVisibilityState) = 0;
// Classes that inherit Node and DocumentVisibilityObserver must have a
// virtual override of Node::didMoveToNewDocument that calls
// DocumentVisibilityObserver::setDocument
void setObservedDocument(Document&);
void registerObserver(Document&);
void unregisterObserver();
Document* m_document;
class Document : public ContainerNode, public TreeScope, public SecurityContext, public ExecutionContext, public ExecutionContextClient
, public DocumentSupplementable, public LifecycleContext<Document> {
static PassRefPtr<Document> create(const DocumentInit& initializer = DocumentInit())
return adoptRef(new Document(initializer));
virtual ~Document();
MediaQueryMatcher& mediaQueryMatcher();
void mediaQueryAffectingValueChanged();
using ContainerNode::ref;
using ContainerNode::deref;
using SecurityContext::securityOrigin;
using SecurityContext::contentSecurityPolicy;
using ExecutionContextClient::addConsoleMessage;
virtual bool canContainRangeEndPoint() const OVERRIDE { return true; }
SelectorQueryCache& selectorQueryCache();
// Focus Management.
Element* activeElement() const;
bool hasFocus() const;
// DOM methods & attributes for Document
bool shouldMergeWithLegacyDescription(ViewportDescription::Type);
bool shouldOverrideLegacyDescription(ViewportDescription::Type);
void setViewportDescription(const ViewportDescription&);
const ViewportDescription& viewportDescription() const { return m_viewportDescription; }
#ifndef NDEBUG
bool didDispatchViewportPropertiesChanged() const { return m_didDispatchViewportPropertiesChanged; }
bool hasLegacyViewportTag() const { return m_legacyViewportDescription.isLegacyViewportType(); }
void setReferrerPolicy(ReferrerPolicy);
ReferrerPolicy referrerPolicy() const { return m_referrerPolicy; }
String outgoingReferrer();
String outgoingOrigin() const;
void setDoctype(PassRefPtr<DocumentType>);
DocumentType* doctype() const { return m_docType.get(); }
DOMImplementation* implementation();
Element* documentElement() const
return m_documentElement.get();
bool hasManifest() const;
Location* location() const;
PassRefPtr<Element> createElement(const AtomicString& name, ExceptionState&);
PassRefPtr<DocumentFragment> createDocumentFragment();
PassRefPtr<Text> createTextNode(const String& data);
PassRefPtr<Comment> createComment(const String& data);
PassRefPtr<CDATASection> createCDATASection(const String& data, ExceptionState&);
PassRefPtr<ProcessingInstruction> createProcessingInstruction(const String& target, const String& data, ExceptionState&);
PassRefPtr<Attr> createAttribute(const AtomicString& name, ExceptionState&);
PassRefPtr<Node> importNode(Node* importedNode, ExceptionState& ec) { return importNode(importedNode, true, ec); }
PassRefPtr<Node> importNode(Node* importedNode, bool deep, ExceptionState&);
PassRefPtr<Element> createElementNS(const AtomicString& namespaceURI, const AtomicString& qualifiedName, ExceptionState&);
PassRefPtr<Element> createElement(const QualifiedName&, bool createdByParser);
PassRefPtr<DOMNamedFlowCollection> webkitGetNamedFlows();
NamedFlowCollection* namedFlows();
bool regionBasedColumnsEnabled() const;
* Retrieve all nodes that intersect a rect in the window's document, until it is fully enclosed by
* the boundaries of a node.
* @param centerX x reference for the rectangle in CSS pixels
* @param centerY y reference for the rectangle in CSS pixels
* @param topPadding How much to expand the top of the rectangle
* @param rightPadding How much to expand the right of the rectangle
* @param bottomPadding How much to expand the bottom of the rectangle
* @param leftPadding How much to expand the left of the rectangle
PassRefPtr<NodeList> nodesFromRect(int centerX, int centerY,
unsigned topPadding, unsigned rightPadding, unsigned bottomPadding, unsigned leftPadding,
HitTestRequest::HitTestRequestType hitType = HitTestRequest::ReadOnly | HitTestRequest::Active | HitTestRequest::ConfusingAndOftenMisusedDisallowShadowContent) const;
Element* elementFromPoint(int x, int y) const;
PassRefPtr<Range> caretRangeFromPoint(int x, int y);
String readyState() const;
String defaultCharset() const;
AtomicString inputEncoding() const { return Document::encodingName(); }
AtomicString charset() const { return Document::encodingName(); }
AtomicString characterSet() const { return Document::encodingName(); }
AtomicString encodingName() const;
void setCharset(const String&);
void setContent(const String&);
String suggestedMIMEType() const;
const AtomicString& contentLanguage() const { return m_contentLanguage; }
void setContentLanguage(const AtomicString&);
String xmlEncoding() const { return m_xmlEncoding; }
String xmlVersion() const { return m_xmlVersion; }
enum StandaloneStatus { StandaloneUnspecified, Standalone, NotStandalone };
bool xmlStandalone() const { return m_xmlStandalone == Standalone; }
StandaloneStatus xmlStandaloneStatus() const { return static_cast<StandaloneStatus>(m_xmlStandalone); }
bool hasXMLDeclaration() const { return m_hasXMLDeclaration; }
void setXMLEncoding(const String& encoding) { m_xmlEncoding = encoding; } // read-only property, only to be set from XMLDocumentParser
void setXMLVersion(const String&, ExceptionState&);
void setXMLStandalone(bool, ExceptionState&);
void setHasXMLDeclaration(bool hasXMLDeclaration) { m_hasXMLDeclaration = hasXMLDeclaration ? 1 : 0; }
virtual KURL baseURI() const OVERRIDE FINAL;
String visibilityState() const;
bool hidden() const;
void didChangeVisibilityState();
PassRefPtr<Node> adoptNode(PassRefPtr<Node> source, ExceptionState&);
PassRefPtr<HTMLCollection> images();
PassRefPtr<HTMLCollection> embeds();
PassRefPtr<HTMLCollection> applets();
PassRefPtr<HTMLCollection> links();
PassRefPtr<HTMLCollection> forms();
PassRefPtr<HTMLCollection> anchors();
PassRefPtr<HTMLCollection> scripts();
PassRefPtr<HTMLCollection> allForBinding();
PassRefPtr<HTMLCollection> all();
PassRefPtr<HTMLCollection> windowNamedItems(const AtomicString& name);
PassRefPtr<HTMLCollection> documentNamedItems(const AtomicString& name);
bool isHTMLDocument() const { return m_documentClasses & HTMLDocumentClass; }
bool isXHTMLDocument() const { return m_documentClasses & XHTMLDocumentClass; }
bool isXMLDocument() const { return m_documentClasses & XMLDocumentClass; }
bool isImageDocument() const { return m_documentClasses & ImageDocumentClass; }
bool isSVGDocument() const { return m_documentClasses & SVGDocumentClass; }
bool isPluginDocument() const { return m_documentClasses & PluginDocumentClass; }
bool isMediaDocument() const { return m_documentClasses & MediaDocumentClass; }
bool hasSVGRootNode() const;
bool isFrameSet() const;
bool isSrcdocDocument() const { return m_isSrcdocDocument; }
bool isMobileDocument() const { return m_isMobileDocument; }
StyleResolver* styleResolver() const;
StyleResolver& ensureStyleResolver() const;
bool isViewSource() const { return m_isViewSource; }
void setIsViewSource(bool);
bool sawElementsInKnownNamespaces() const { return m_sawElementsInKnownNamespaces; }
void notifyRemovePendingSheetIfNeeded();
bool haveStylesheetsLoaded() const;
bool haveStylesheetsAndImportsLoaded() const { return haveImportsLoaded() && haveStylesheetsLoaded(); }
// This is a DOM function.
StyleSheetList* styleSheets();
StyleEngine* styleEngine() { return m_styleEngine.get(); }
bool gotoAnchorNeededAfterStylesheetsLoad() { return m_gotoAnchorNeededAfterStylesheetsLoad; }
void setGotoAnchorNeededAfterStylesheetsLoad(bool b) { m_gotoAnchorNeededAfterStylesheetsLoad = b; }
// Called when one or more stylesheets in the document may have been added, removed, or changed.
void styleResolverChanged(RecalcStyleTime, StyleResolverUpdateMode = FullStyleUpdate);
// FIXME: Switch all callers of styleResolverChanged to these or better ones and then make them
// do something smarter.
void removedStyleSheet(StyleSheet*, RecalcStyleTime when = RecalcStyleDeferred, StyleResolverUpdateMode = FullStyleUpdate);
void addedStyleSheet(StyleSheet*, RecalcStyleTime when = RecalcStyleDeferred) { styleResolverChanged(when); }
void modifiedStyleSheet(StyleSheet*, RecalcStyleTime when = RecalcStyleDeferred, StyleResolverUpdateMode = FullStyleUpdate);
void changedSelectorWatch() { styleResolverChanged(RecalcStyleDeferred); }
void scheduleUseShadowTreeUpdate(SVGUseElement&);
void unscheduleUseShadowTreeUpdate(SVGUseElement&);
void evaluateMediaQueryList();
// Never returns 0.
FormController* formController();
Vector<String> formElementsState() const;
void setStateForNewFormElements(const Vector<String>&);
FrameView* view() const; // can be null
Frame* frame() const { return m_frame; } // can be null
FrameHost* frameHost() const; // can be null
Page* page() const; // can be null
Settings* settings() const; // can be null
float devicePixelRatio() const;
PassRefPtr<Range> createRange();
PassRefPtr<NodeIterator> createNodeIterator(Node* root, ExceptionState&);
PassRefPtr<NodeIterator> createNodeIterator(Node* root, unsigned whatToShow, ExceptionState&);
PassRefPtr<NodeIterator> createNodeIterator(Node* root, unsigned whatToShow, PassRefPtr<NodeFilter>, ExceptionState&);
PassRefPtr<TreeWalker> createTreeWalker(Node* root, ExceptionState&);
PassRefPtr<TreeWalker> createTreeWalker(Node* root, unsigned whatToShow, ExceptionState&);
PassRefPtr<TreeWalker> createTreeWalker(Node* root, unsigned whatToShow, PassRefPtr<NodeFilter>, ExceptionState&);
// Special support for editing
PassRefPtr<Text> createEditingTextNode(const String&);
void setupFontBuilder(RenderStyle* documentStyle);
void updateStyleIfNeeded();
void updateStyleForNodeIfNeeded(Node*);
void updateLayout();
enum RunPostLayoutTasks {
void updateLayoutIgnorePendingStylesheets(RunPostLayoutTasks = RunPostLayoutTasksAsyhnchronously);
void partialUpdateLayoutIgnorePendingStylesheets(Node*);
PassRefPtr<RenderStyle> styleForElementIgnoringPendingStylesheets(Element*);
PassRefPtr<RenderStyle> styleForPage(int pageIndex);
void updateDistributionForNodeIfNeeded(Node*);
// Returns true if page box (margin boxes and page borders) is visible.
bool isPageBoxVisible(int pageIndex);
// Returns the preferred page size and margins in pixels, assuming 96
// pixels per inch. pageSize, marginTop, marginRight, marginBottom,
// marginLeft must be initialized to the default values that are used if
// auto is specified.
void pageSizeAndMarginsInPixels(int pageIndex, IntSize& pageSize, int& marginTop, int& marginRight, int& marginBottom, int& marginLeft);
ResourceFetcher* fetcher() { return m_fetcher.get(); }
virtual void attach(const AttachContext& = AttachContext()) OVERRIDE;
virtual void detach(const AttachContext& = AttachContext()) OVERRIDE;
void prepareForDestruction();
RenderView* renderView() const { return m_renderView; }
AXObjectCache* existingAXObjectCache() const;
AXObjectCache* axObjectCache() const;
void clearAXObjectCache();
// to get visually ordered hebrew and arabic pages right
bool visuallyOrdered() const { return m_visuallyOrdered; }
DocumentLoader* loader() const;
void open(Document* ownerDocument = 0);
PassRefPtr<DocumentParser> implicitOpen();
// close() is the DOM API document.close()
void close();
// In some situations (see the code), we ignore document.close().
// explicitClose() bypass these checks and actually tries to close the
// input stream.
void explicitClose();
// implicitClose() actually does the work of closing the input stream.
void implicitClose();
bool dispatchBeforeUnloadEvent(Chrome&, bool&);
void dispatchUnloadEvents();
enum PageDismissalType {
NoDismissal = 0,
BeforeUnloadDismissal = 1,
PageHideDismissal = 2,
UnloadDismissal = 3
PageDismissalType pageDismissalEventBeingDispatched() const;
void cancelParsing();
void write(const SegmentedString& text, Document* ownerDocument = 0);
void write(const String& text, Document* ownerDocument = 0);
void writeln(const String& text, Document* ownerDocument = 0);
bool wellFormed() const { return m_wellFormed; }
const KURL& url() const { return m_url; }
void setURL(const KURL&);
// To understand how these concepts relate to one another, please see the
// comments surrounding their declaration.
const KURL& baseURL() const { return m_baseURL; }
void setBaseURLOverride(const KURL&);
const KURL& baseURLOverride() const { return m_baseURLOverride; }
const KURL& baseElementURL() const { return m_baseElementURL; }
const AtomicString& baseTarget() const { return m_baseTarget; }
void processBaseElement();
KURL completeURL(const String&) const;
KURL completeURLWithOverride(const String&, const KURL& baseURLOverride) const;
virtual String userAgent(const KURL&) const OVERRIDE FINAL;
virtual void disableEval(const String& errorMessage) OVERRIDE FINAL;
bool canNavigate(Frame* targetFrame);
Frame* findUnsafeParentScrollPropagationBoundary();
CSSStyleSheet* elementSheet();
virtual PassRefPtr<DocumentParser> createParser();
DocumentParser* parser() const { return m_parser.get(); }
ScriptableDocumentParser* scriptableDocumentParser() const;
bool printing() const { return m_printing; }
void setPrinting(bool p) { m_printing = p; }
bool paginatedForScreen() const { return m_paginatedForScreen; }
void setPaginatedForScreen(bool p) { m_paginatedForScreen = p; }
bool paginated() const { return printing() || paginatedForScreen(); }
enum CompatibilityMode { QuirksMode, LimitedQuirksMode, NoQuirksMode };
void setCompatibilityMode(CompatibilityMode m);
void lockCompatibilityMode() { m_compatibilityModeLocked = true; }
CompatibilityMode compatibilityMode() const { return m_compatibilityMode; }
String compatMode() const;
bool inQuirksMode() const { return m_compatibilityMode == QuirksMode; }
bool inLimitedQuirksMode() const { return m_compatibilityMode == LimitedQuirksMode; }
bool inNoQuirksMode() const { return m_compatibilityMode == NoQuirksMode; }
enum ReadyState {
void setReadyState(ReadyState);
bool isLoadCompleted();
void setParsing(bool);
bool parsing() const { return m_bParsing; }
bool shouldScheduleLayout();
bool shouldParserYieldAgressivelyBeforeScriptExecution();
int elapsedTime() const;
TextLinkColors& textLinkColors() { return m_textLinkColors; }
VisitedLinkState& visitedLinkState() const { return *m_visitedLinkState; }
MouseEventWithHitTestResults prepareMouseEvent(const HitTestRequest&, const LayoutPoint&, const PlatformMouseEvent&);
/* Newly proposed CSS3 mechanism for selecting alternate
stylesheets using the DOM. May be subject to change as
spec matures. - dwh
String preferredStylesheetSet() const;
String selectedStylesheetSet() const;
void setSelectedStylesheetSet(const String&);
bool setFocusedElement(PassRefPtr<Element>, FocusDirection = FocusDirectionNone);
Element* focusedElement() const { return m_focusedElement.get(); }
UserActionElementSet& userActionElements() { return m_userActionElements; }
const UserActionElementSet& userActionElements() const { return m_userActionElements; }
void setNeedsFocusedElementCheck();
void setAutofocusElement(Element*);
Element* autofocusElement() const { return m_autofocusElement.get(); }
void setHoverNode(PassRefPtr<Node>);
Node* hoverNode() const { return m_hoverNode.get(); }
void setActiveHoverElement(PassRefPtr<Element>);
Element* activeHoverElement() const { return m_activeHoverElement.get(); }
void removeFocusedElementOfSubtree(Node*, bool amongChildrenOnly = false);
void hoveredNodeDetached(Node*);
void activeChainNodeDetached(Node*);
void updateHoverActiveState(const HitTestRequest&, Element*, const PlatformMouseEvent* = 0);
// Updates for :target (CSS3 selector).
void setCSSTarget(Element*);
Element* cssTarget() const { return m_cssTarget; }
void scheduleStyleRecalc();
bool hasPendingForcedStyleRecalc() const;
void registerNodeList(LiveNodeListBase*);
void unregisterNodeList(LiveNodeListBase*);
void incrementNodeListWithIdNameCacheCount();
void decrementNodeListWithIdNameCacheCount();
bool shouldInvalidateNodeListCaches(const QualifiedName* attrName = 0) const;
void invalidateNodeListCaches(const QualifiedName* attrName);
void attachNodeIterator(NodeIterator*);
void detachNodeIterator(NodeIterator*);
void moveNodeIteratorsToNewDocument(Node&, Document&);
void attachRange(Range*);
void detachRange(Range*);
void updateRangesAfterChildrenChanged(ContainerNode*);
// nodeChildrenWillBeRemoved is used when removing all node children at once.
void nodeChildrenWillBeRemoved(ContainerNode*);
// nodeWillBeRemoved is only safe when removing one node at a time.
void nodeWillBeRemoved(Node&);
bool canReplaceChild(const Node& newChild, const Node& oldChild) const;
void didInsertText(Node*, unsigned offset, unsigned length);
void didRemoveText(Node*, unsigned offset, unsigned length);
void didMergeTextNodes(Text* oldNode, unsigned offset);
void didSplitTextNode(Text* oldNode);
void clearDOMWindow() { m_domWindow = 0; }
DOMWindow* domWindow() const { return m_domWindow; }
// Helper functions for forwarding DOMWindow event related tasks to the DOMWindow if it exists.
void setWindowAttributeEventListener(const AtomicString& eventType, PassRefPtr<EventListener>);
EventListener* getWindowAttributeEventListener(const AtomicString& eventType);
PassRefPtr<Event> createEvent(const String& eventType, ExceptionState&);
PassRefPtr<Event> createEvent(ExceptionState&);
// keep track of what types of event listeners are registered, so we don't
// dispatch events unnecessarily
enum ListenerType {
// 3 bits remaining
bool hasListenerType(ListenerType listenerType) const { return (m_listenerTypes & listenerType); }
void addListenerTypeIfNeeded(const AtomicString& eventType);
bool hasMutationObserversOfType(MutationObserver::MutationType type) const
return m_mutationObserverTypes & type;
bool hasMutationObservers() const { return m_mutationObserverTypes; }
void addMutationObserverTypes(MutationObserverOptions types) { m_mutationObserverTypes |= types; }
CSSStyleDeclaration* getOverrideStyle(Element*, const String& pseudoElt);
* Handles a HTTP header equivalent set by a meta tag using <meta http-equiv="..." content="...">. This is called
* when a meta tag is encountered during document parsing, and also when a script dynamically changes or adds a meta
* tag. This enables scripts to use meta tags to perform refreshes and set expiry dates in addition to them being
* specified in a HTML file.
* @param equiv The http header name (value of the meta tag's "equiv" attribute)
* @param content The header value (value of the meta tag's "content" attribute)
void processHttpEquiv(const AtomicString& equiv, const AtomicString& content);
void updateViewportDescription();
void processReferrerPolicy(const String& policy);
// Returns the owning element in the parent document.
// Returns 0 if this is the top level document.
HTMLFrameOwnerElement* ownerElement() const;
String title() const { return m_title; }
void setTitle(const String&);
Element* titleElement() const { return m_titleElement.get(); }
void setTitleElement(const String& title, Element* titleElement);
void removeTitle(Element* titleElement);
String cookie(ExceptionState&) const;
void setCookie(const String&, ExceptionState&);
const AtomicString& referrer() const;
String domain() const;
void setDomain(const String& newDomain, ExceptionState&);
String lastModified() const;
// The cookieURL is used to query the cookie database for this document's
// cookies. For example, if the cookie URL is, we'll
// use the non-Secure cookies for when computing
// document.cookie.
// Q: How is the cookieURL different from the document's URL?
// A: The two URLs are the same almost all the time. However, if one
// document inherits the security context of another document, it
// inherits its cookieURL but not its URL.
const KURL& cookieURL() const { return m_cookieURL; }
void setCookieURL(const KURL& url) { m_cookieURL = url; }
const KURL& firstPartyForCookies() const;
// The following implements the rule from HTML 4 for what valid names are.
// To get this right for all the XML cases, we probably have to improve this or move it
// and make it sensitive to the type of document.
static bool isValidName(const String&);
// The following breaks a qualified name into a prefix and a local name.
// It also does a validity check, and returns false if the qualified name
// is invalid. It also sets ExceptionCode when name is invalid.
static bool parseQualifiedName(const AtomicString& qualifiedName, AtomicString& prefix, AtomicString& localName, ExceptionState&);
// Checks to make sure prefix and namespace do not conflict (per DOM Core 3)
static bool hasValidNamespaceForElements(const QualifiedName&);
static bool hasValidNamespaceForAttributes(const QualifiedName&);
HTMLElement* body() const;
void setBody(PassRefPtr<HTMLElement>, ExceptionState&);
HTMLHeadElement* head();
// Decide which element is to define the viewport's overflow policy. If |rootStyle| is set, use
// that as the style for the root element, rather than obtaining it on our own. The reason for
// this is that style may not have been associated with the elements yet - in which case it may
// have been calculated on the fly (without associating it with the actual element) somewhere.
Element* viewportDefiningElement(RenderStyle* rootStyle = 0) const;
DocumentMarkerController* markers() const { return m_markers.get(); }
bool directionSetOnDocumentElement() const { return m_directionSetOnDocumentElement; }
bool writingModeSetOnDocumentElement() const { return m_writingModeSetOnDocumentElement; }
void setDirectionSetOnDocumentElement(bool b) { m_directionSetOnDocumentElement = b; }
void setWritingModeSetOnDocumentElement(bool b) { m_writingModeSetOnDocumentElement = b; }
bool execCommand(const String& command, bool userInterface = false, const String& value = String());
bool queryCommandEnabled(const String& command);
bool queryCommandIndeterm(const String& command);
bool queryCommandState(const String& command);
bool queryCommandSupported(const String& command);
String queryCommandValue(const String& command);
KURL openSearchDescriptionURL();
// designMode support
enum InheritedBool { off = false, on = true, inherit };
void setDesignMode(InheritedBool value);
InheritedBool getDesignMode() const;
bool inDesignMode() const;
Document* parentDocument() const;
Document* topDocument() const;
WeakPtr<Document> contextDocument();
ScriptRunner* scriptRunner() { return m_scriptRunner.get(); }
HTMLScriptElement* currentScript() const { return !m_currentScriptStack.isEmpty() ? m_currentScriptStack.last().get() : 0; }
void pushCurrentScript(PassRefPtr<HTMLScriptElement>);
void popCurrentScript();
void applyXSLTransform(ProcessingInstruction* pi);
PassRefPtr<Document> transformSourceDocument() { return m_transformSourceDocument; }
void setTransformSourceDocument(Document* doc) { m_transformSourceDocument = doc; }
void setTransformSource(PassOwnPtr<TransformSource>);
TransformSource* transformSource() const { return m_transformSource.get(); }
void incDOMTreeVersion() { ASSERT(!inStyleRecalc()); m_domTreeVersion = ++s_globalTreeVersion; }
uint64_t domTreeVersion() const { return m_domTreeVersion; }
enum PendingSheetLayout { NoLayoutWithPendingSheets, DidLayoutWithPendingSheets, IgnoreLayoutWithPendingSheets };
bool didLayoutWithPendingStylesheets() const { return m_pendingSheetLayout == DidLayoutWithPendingSheets; }
bool hasNodesWithPlaceholderStyle() const { return m_hasNodesWithPlaceholderStyle; }
void setHasNodesWithPlaceholderStyle() { m_hasNodesWithPlaceholderStyle = true; }
Vector<IconURL> iconURLs(int iconTypesMask);
void setUseSecureKeyboardEntryWhenActive(bool);
bool useSecureKeyboardEntryWhenActive() const;
void updateFocusAppearanceSoon(bool restorePreviousSelection);
void cancelFocusAppearanceUpdate();
// Extension for manipulating canvas drawing contexts for use in CSS
CanvasRenderingContext* getCSSCanvasContext(const String& type, const String& name, int width, int height);
HTMLCanvasElement* getCSSCanvasElement(const String& name);
bool isDNSPrefetchEnabled() const { return m_isDNSPrefetchEnabled; }
void parseDNSPrefetchControlHeader(const String&);
// FIXME( This should be removed once DOMWindow is an ExecutionContext.
virtual void postTask(PassOwnPtr<ExecutionContextTask>) OVERRIDE; // Executes the task on context's thread asynchronously.
virtual void tasksWereSuspended() OVERRIDE FINAL;
virtual void tasksWereResumed() OVERRIDE FINAL;
virtual void suspendScheduledTasks() OVERRIDE FINAL;
virtual void resumeScheduledTasks() OVERRIDE FINAL;
virtual bool tasksNeedSuspension() OVERRIDE FINAL;
void finishedParsing();
void setEncodingData(const DocumentEncodingData& newData);
const WTF::TextEncoding& encoding() const { return m_encodingData.encoding(); }
bool encodingWasDetectedHeuristically() const { return m_encodingData.wasDetectedHeuristically(); }
bool sawDecodingError() const { return m_encodingData.sawDecodingError(); }
void setAnnotatedRegionsDirty(bool f) { m_annotatedRegionsDirty = f; }
bool annotatedRegionsDirty() const { return m_annotatedRegionsDirty; }
bool hasAnnotatedRegions () const { return m_hasAnnotatedRegions; }
void setHasAnnotatedRegions(bool f) { m_hasAnnotatedRegions = f; }
const Vector<AnnotatedRegionValue>& annotatedRegions() const;
void setAnnotatedRegions(const Vector<AnnotatedRegionValue>&);
virtual void removeAllEventListeners() OVERRIDE FINAL;
const SVGDocumentExtensions* svgExtensions();
SVGDocumentExtensions* accessSVGExtensions();
void initSecurityContext();
void initSecurityContext(const DocumentInit&);
void initContentSecurityPolicy(const ContentSecurityPolicyResponseHeaders&);
bool allowInlineEventHandlers(Node*, EventListener*, const String& contextURL, const WTF::OrdinalNumber& contextLine);
bool allowExecutingScripts(Node*);
void statePopped(PassRefPtr<SerializedScriptValue>);
enum LoadEventProgress {
bool loadEventStillNeeded() const { return m_loadEventProgress == LoadEventNotRun; }
bool processingLoadEvent() const { return m_loadEventProgress == LoadEventInProgress; }
bool loadEventFinished() const { return m_loadEventProgress >= LoadEventCompleted; }
bool unloadStarted() const { return m_loadEventProgress >= PageHideInProgress; }
void setContainsPlugins() { m_containsPlugins = true; }
bool containsPlugins() const { return m_containsPlugins; }
virtual bool isContextThread() const OVERRIDE FINAL;
virtual bool isJSExecutionForbidden() const OVERRIDE FINAL { return false; }
bool containsValidityStyleRules() const { return m_containsValidityStyleRules; }
void setContainsValidityStyleRules() { m_containsValidityStyleRules = true; }
void enqueueResizeEvent();
void enqueueScrollEventForNode(Node*);
void enqueueAnimationFrameEvent(PassRefPtr<Event>);
bool hasFullscreenElementStack() const { return m_hasFullscreenElementStack; }
void setHasFullscreenElementStack() { m_hasFullscreenElementStack = true; }
void webkitExitPointerLock();
Element* webkitPointerLockElement() const;
// Used to allow element that loads data without going through a FrameLoader to delay the 'load' event.
void incrementLoadEventDelayCount() { ++m_loadEventDelayCount; }
void decrementLoadEventDelayCount();
bool isDelayingLoadEvent() const { return m_loadEventDelayCount; }
void loadPluginsSoon();
PassRefPtr<Touch> createTouch(DOMWindow*, EventTarget*, int identifier, int pageX, int pageY, int screenX, int screenY, int radiusX, int radiusY, float rotationAngle, float force) const;
PassRefPtr<TouchList> createTouchList(Vector<RefPtr<Touch> >&) const;
const DocumentTiming* timing() const { return &m_documentTiming; }
int requestAnimationFrame(PassOwnPtr<RequestAnimationFrameCallback>);
void cancelAnimationFrame(int id);
void serviceScriptedAnimations(double monotonicAnimationStartTime);
virtual EventTarget* errorEventTarget() OVERRIDE FINAL;
virtual void logExceptionToConsole(const String& errorMessage, const String& sourceURL, int lineNumber, int columnNumber, PassRefPtr<ScriptCallStack>) OVERRIDE FINAL;
void initDNSPrefetch();
double lastHandledUserGestureTimestamp() const { return m_lastHandledUserGestureTimestamp; }
void resetLastHandledUserGestureTimestamp();
bool hasTouchEventHandlers() const { return (m_touchEventTargets.get()) ? m_touchEventTargets->size() : false; }
// Called when a single touch event handler has been added or removed for a node.
// The Node should always be in this Document, except for child Documents which report
// themselves to their parent exactly once if they have any touch handlers.
// Handlers added/removed from the DOMWindow are reported as the Document.
void didAddTouchEventHandler(Node*);
void didRemoveTouchEventHandler(Node* handler) { didRemoveTouchEventHandler(handler, false); }
// Called whenever all touch event handlers have been removed for a node (such as when the
// node itself is being removed from the document).
void didClearTouchEventHandlers(Node* handler) { didRemoveTouchEventHandler(handler, true); }
const TouchEventTargetSet* touchEventTargets() const { return m_touchEventTargets.get(); }
bool isInDocumentWrite() { return m_writeRecursionDepth > 0; }
IntSize initialViewportSize() const;
// There are currently two parallel autosizing implementations: TextAutosizer and FastTextAutosizer.
// See for more details.
TextAutosizer* textAutosizer();
FastTextAutosizer* fastTextAutosizer();
PassRefPtr<Element> createElement(const AtomicString& localName, const AtomicString& typeExtension, ExceptionState&);
PassRefPtr<Element> createElementNS(const AtomicString& namespaceURI, const AtomicString& qualifiedName, const AtomicString& typeExtension, ExceptionState&);
ScriptValue registerElement(WebCore::ScriptState*, const AtomicString& name, ExceptionState&);
ScriptValue registerElement(WebCore::ScriptState*, const AtomicString& name, const Dictionary& options, ExceptionState&, CustomElement::NameSet validNames = CustomElement::StandardNames);
CustomElementRegistrationContext* registrationContext() { return m_registrationContext.get(); }
void setImport(HTMLImport*);
HTMLImport* import() const { return m_import; }
bool haveImportsLoaded() const;
void didLoadAllImports();
void adjustFloatQuadsForScrollAndAbsoluteZoom(Vector<FloatQuad>&, RenderObject&);
void adjustFloatRectForScrollAndAbsoluteZoom(FloatRect&, RenderObject&);
bool hasActiveParser();
unsigned activeParserCount() { return m_activeParserCount; }
void incrementActiveParserCount() { ++m_activeParserCount; }
void decrementActiveParserCount();
void setContextFeatures(PassRefPtr<ContextFeatures>);
ContextFeatures* contextFeatures() const { return m_contextFeatures.get(); }
ElementDataCache* elementDataCache() { return m_elementDataCache.get(); }
void didRemoveAllPendingStylesheet();
void setNeedsNotifyRemoveAllPendingStylesheet() { m_needsNotifyRemoveAllPendingStylesheet = true; }
void clearStyleResolver();
bool inStyleRecalc() const { return m_lifecycle.state() == DocumentLifecycle::InStyleRecalc; }
// Return a Locale for the default locale if the argument is null or empty.
Locale& getCachedLocale(const AtomicString& locale = nullAtom);
AnimationClock& animationClock() { return *m_animationClock; }
DocumentTimeline* timeline() const { return m_timeline.get(); }
DocumentTimeline* transitionTimeline() const { return m_transitionTimeline.get(); }
CSSPendingAnimations& cssPendingAnimations() { return m_cssPendingAnimations; }
void addToTopLayer(Element*, const Element* before = 0);
void removeFromTopLayer(Element*);
const Vector<RefPtr<Element> >& topLayerElements() const { return m_topLayerElements; }
HTMLDialogElement* activeModalDialog() const;
// A non-null m_templateDocumentHost implies that |this| was created by ensureTemplateDocument().
bool isTemplateDocument() const { return !!m_templateDocumentHost; }
Document& ensureTemplateDocument();
Document* templateDocumentHost() { return m_templateDocumentHost; }
void didAssociateFormControl(Element*);
void addConsoleMessageWithRequestIdentifier(MessageSource, MessageLevel, const String& message, unsigned long requestIdentifier);
virtual DOMWindow* executingWindow() OVERRIDE FINAL;
virtual void userEventWasHandled() OVERRIDE FINAL { resetLastHandledUserGestureTimestamp(); }
Frame* executingFrame();
DocumentLifecycleNotifier& lifecycleNotifier();
DocumentLifecycle& lifecycle() { return m_lifecycle; }
bool isActive() const { return m_lifecycle.isActive(); }
bool isStopped() const { return m_lifecycle.state() == DocumentLifecycle::Stopped; }
enum HttpRefreshType {
void maybeHandleHttpRefresh(const String&, HttpRefreshType);
void updateSecurityOrigin(PassRefPtr<SecurityOrigin>);
PassOwnPtr<LifecycleNotifier<Document> > createLifecycleNotifier();
void setHasViewportUnits() { m_hasViewportUnits = true; }
bool hasViewportUnits() const { return m_hasViewportUnits; }
void notifyResizeForViewportUnits();
void registerVisibilityObserver(DocumentVisibilityObserver*);
void unregisterVisibilityObserver(DocumentVisibilityObserver*);
// FIXME: Remove this method once we have input routing in the browser
// process. See
virtual void defaultEventHandler(Event*) OVERRIDE;
Document(const DocumentInit&, DocumentClassFlags = DefaultDocumentClass);
virtual void didUpdateSecurityOrigin() OVERRIDE FINAL;
void clearXMLVersion() { m_xmlVersion = String(); }
virtual void dispose() OVERRIDE;
virtual PassRefPtr<Document> cloneDocumentWithoutChildren();
friend class Node;
friend class IgnoreDestructiveWriteCountIncrementer;
ScriptedAnimationController& ensureScriptedAnimationController();
virtual SecurityContext& securityContext() OVERRIDE FINAL { return *this; }
virtual EventQueue* eventQueue() const OVERRIDE FINAL;
void inheritHtmlAndBodyElementStyles(StyleRecalcChange);
void updateDistributionIfNeeded();
void updateStyleInvalidationIfNeeded();
void updateUseShadowTreesIfNeeded();
void detachParser();
virtual bool isDocument() const OVERRIDE FINAL { return true; }
virtual void childrenChanged(bool changedByParser = false, Node* beforeChange = 0, Node* afterChange = 0, int childCountDelta = 0) OVERRIDE;
virtual String nodeName() const OVERRIDE FINAL;
virtual NodeType nodeType() const OVERRIDE FINAL;
virtual bool childTypeAllowed(NodeType) const OVERRIDE FINAL;
virtual PassRefPtr<Node> cloneNode(bool deep = true) OVERRIDE FINAL;
void cloneDataFromDocument(const Document&);
virtual void refExecutionContext() OVERRIDE FINAL { ref(); }
virtual void derefExecutionContext() OVERRIDE FINAL { deref(); }
virtual const KURL& virtualURL() const OVERRIDE FINAL; // Same as url(), but needed for ExecutionContext to implement it without a performance loss for direct calls.
virtual KURL virtualCompleteURL(const String&) const OVERRIDE FINAL; // Same as completeURL() for the same reason as above.
virtual void reportBlockedScriptExecutionToInspector(const String& directiveText) OVERRIDE FINAL;
virtual void addMessage(MessageSource, MessageLevel, const String& message, const String& sourceURL, unsigned lineNumber, ScriptState*) OVERRIDE FINAL;
void internalAddMessage(MessageSource, MessageLevel, const String& message, const String& sourceURL, unsigned lineNumber, PassRefPtr<ScriptCallStack>, ScriptState*);
virtual double timerAlignmentInterval() const OVERRIDE FINAL;
void updateTitle(const String&);
void updateFocusAppearanceTimerFired(Timer<Document>*);
void updateBaseURL();
bool hasPendingStyleRecalc() const { return m_lifecycle.state() == DocumentLifecycle::StyleRecalcPending; }
void executeScriptsWaitingForResourcesIfNeeded();
void recalcStyleForLayoutIgnoringPendingStylesheets();
PassRefPtr<NodeList> handleZeroPadding(const HitTestRequest&, HitTestResult&) const;
void loadEventDelayTimerFired(Timer<Document>*);
void pluginLoadingTimerFired(Timer<Document>*);
PageVisibilityState pageVisibilityState() const;
PassRefPtr<HTMLCollection> ensureCachedCollection(CollectionType);
// Note that dispatching a window load event may cause the DOMWindow to be detached from
// the Frame, so callers should take a reference to the DOMWindow (which owns us) to
// prevent the Document from getting blown away from underneath them.
void dispatchWindowLoadEvent();
void addListenerType(ListenerType listenerType) { m_listenerTypes |= listenerType; }
void addMutationEventListenerTypeIfEnabled(ListenerType);
void didAssociateFormControlsTimerFired(Timer<Document>*);
void clearFocusedElementSoon();
void clearFocusedElementTimerFired(Timer<Document>*);
void processHttpEquivDefaultStyle(const AtomicString& content);
void processHttpEquivRefresh(const AtomicString& content);
void processHttpEquivSetCookie(const AtomicString& content);
void processHttpEquivXFrameOptions(const AtomicString& content);
void processHttpEquivContentSecurityPolicy(const AtomicString& equiv, const AtomicString& content);
void didRemoveTouchEventHandler(Node*, bool clearAll);
// Returns true if Document::recalcStyle() needs to be run.
bool shouldCallRecalcStyleForDocument();
bool shouldScheduleStyleRecalc();
DocumentLifecycle m_lifecycle;
bool m_hasNodesWithPlaceholderStyle;
bool m_needsNotifyRemoveAllPendingStylesheet;
bool m_evaluateMediaQueriesOnStyleRecalc;
// If we do ignore the pending stylesheet count, then we need to add a boolean
// to track that this happened so that we can do a full repaint when the stylesheets
// do eventually load.
PendingSheetLayout m_pendingSheetLayout;
Frame* m_frame;
DOMWindow* m_domWindow;
HTMLImport* m_import;
RefPtr<ResourceFetcher> m_fetcher;
RefPtr<DocumentParser> m_parser;
unsigned m_activeParserCount;
RefPtr<ContextFeatures> m_contextFeatures;
bool m_wellFormed;
// Document URLs.
KURL m_url; // Document.URL: The URL from which this document was retrieved.
KURL m_baseURL; // Node.baseURI: The URL to use when resolving relative URLs.
KURL m_baseURLOverride; // An alternative base URL that takes precedence over m_baseURL (but not m_baseElementURL).
KURL m_baseElementURL; // The URL set by the <base> element.
KURL m_cookieURL; // The URL to use for cookie access.
AtomicString m_baseTarget;
RefPtr<DocumentType> m_docType;
OwnPtr<DOMImplementation> m_implementation;
RefPtr<CSSStyleSheet> m_elemSheet;
bool m_printing;
bool m_paginatedForScreen;
CompatibilityMode m_compatibilityMode;
bool m_compatibilityModeLocked; // This is cheaper than making setCompatibilityMode virtual.
bool m_hasAutofocused;
Timer<Document> m_clearFocusedElementTimer;
RefPtr<Element> m_autofocusElement;
RefPtr<Element> m_focusedElement;
RefPtr<Node> m_hoverNode;
RefPtr<Element> m_activeHoverElement;
RefPtr<Element> m_documentElement;
UserActionElementSet m_userActionElements;
uint64_t m_domTreeVersion;
static uint64_t s_globalTreeVersion;
HashSet<NodeIterator*> m_nodeIterators;
HashSet<Range*> m_ranges;
unsigned short m_listenerTypes;
MutationObserverOptions m_mutationObserverTypes;
OwnPtr<StyleEngine> m_styleEngine;
RefPtr<StyleSheetList> m_styleSheetList;
OwnPtr<FormController> m_formController;
TextLinkColors m_textLinkColors;
const OwnPtr<VisitedLinkState> m_visitedLinkState;
bool m_visuallyOrdered;
ReadyState m_readyState;
bool m_bParsing;
bool m_gotoAnchorNeededAfterStylesheetsLoad;
bool m_isDNSPrefetchEnabled;
bool m_haveExplicitlyDisabledDNSPrefetch;
bool m_containsValidityStyleRules;
bool m_updateFocusAppearanceRestoresSelection;
bool m_containsPlugins;
unsigned m_ignoreDestructiveWriteCount;
String m_title;
String m_rawTitle;
bool m_titleSetExplicitly;
RefPtr<Element> m_titleElement;
OwnPtr<AXObjectCache> m_axObjectCache;
OwnPtr<DocumentMarkerController> m_markers;
Timer<Document> m_updateFocusAppearanceTimer;
Element* m_cssTarget;
LoadEventProgress m_loadEventProgress;
double m_startTime;
bool m_overMinimumLayoutThreshold;
OwnPtr<ScriptRunner> m_scriptRunner;
Vector<RefPtr<HTMLScriptElement> > m_currentScriptStack;
OwnPtr<TransformSource> m_transformSource;
RefPtr<Document> m_transformSourceDocument;
String m_xmlEncoding;
String m_xmlVersion;
unsigned m_xmlStandalone : 2;
unsigned m_hasXMLDeclaration : 1;
AtomicString m_contentLanguage;
DocumentEncodingData m_encodingData;
InheritedBool m_designMode;
HashSet<LiveNodeListBase*> m_listsInvalidatedAtDocument;
unsigned m_nodeListCounts[numNodeListInvalidationTypes];
OwnPtr<SVGDocumentExtensions> m_svgExtensions;
Vector<AnnotatedRegionValue> m_annotatedRegions;
bool m_hasAnnotatedRegions;
bool m_annotatedRegionsDirty;
HashMap<String, RefPtr<HTMLCanvasElement> > m_cssCanvasElements;
OwnPtr<SelectorQueryCache> m_selectorQueryCache;
bool m_useSecureKeyboardEntryWhenActive;
DocumentClassFlags m_documentClasses;
bool m_isViewSource;
bool m_sawElementsInKnownNamespaces;
bool m_isSrcdocDocument;
bool m_isMobileDocument;
RenderView* m_renderView;
WeakPtrFactory<Document> m_weakFactory;
WeakPtr<Document> m_contextDocument;
bool m_hasFullscreenElementStack; // For early return in FullscreenElementStack::fromIfExists()
Vector<RefPtr<Element> > m_topLayerElements;
int m_loadEventDelayCount;
Timer<Document> m_loadEventDelayTimer;
Timer<Document> m_pluginLoadingTimer;
ViewportDescription m_viewportDescription;
ViewportDescription m_legacyViewportDescription;
bool m_didSetReferrerPolicy;
ReferrerPolicy m_referrerPolicy;
bool m_directionSetOnDocumentElement;
bool m_writingModeSetOnDocumentElement;
DocumentTiming m_documentTiming;
RefPtr<MediaQueryMatcher> m_mediaQueryMatcher;
bool m_writeRecursionIsTooDeep;
unsigned m_writeRecursionDepth;
OwnPtr<TouchEventTargetSet> m_touchEventTargets;
double m_lastHandledUserGestureTimestamp;
RefPtr<ScriptedAnimationController> m_scriptedAnimationController;
OwnPtr<MainThreadTaskRunner> m_taskRunner;
OwnPtr<TextAutosizer> m_textAutosizer;
OwnPtr<FastTextAutosizer> m_fastTextAutosizer;
RefPtr<CustomElementRegistrationContext> m_registrationContext;
RefPtr<NamedFlowCollection> m_namedFlows;
void elementDataCacheClearTimerFired(Timer<Document>*);
Timer<Document> m_elementDataCacheClearTimer;
OwnPtr<ElementDataCache> m_elementDataCache;
#ifndef NDEBUG
bool m_didDispatchViewportPropertiesChanged;
typedef HashMap<AtomicString, OwnPtr<Locale> > LocaleIdentifierToLocaleMap;
LocaleIdentifierToLocaleMap m_localeCache;
OwnPtr<AnimationClock> m_animationClock;
RefPtr<DocumentTimeline> m_timeline;
RefPtr<DocumentTimeline> m_transitionTimeline;
CSSPendingAnimations m_cssPendingAnimations;
RefPtr<Document> m_templateDocument;
Document* m_templateDocumentHost; // Manually managed weakref (backpointer from m_templateDocument).
Timer<Document> m_didAssociateFormControlsTimer;
HashSet<RefPtr<Element> > m_associatedFormControls;
HashSet<SVGUseElement*> m_useElementsNeedingUpdate;
bool m_hasViewportUnits;
HashSet<DocumentVisibilityObserver*> m_visibilityObservers;
inline void Document::notifyRemovePendingSheetIfNeeded()
if (m_needsNotifyRemoveAllPendingStylesheet)
inline bool Document::shouldOverrideLegacyDescription(ViewportDescription::Type origin)
// The different (legacy) meta tags have different priorities based on the type
// regardless of which order they appear in the DOM. The priority is given by the
// ViewportDescription::Type enum.
return origin >= m_legacyViewportDescription.type;
inline void Document::incrementNodeListWithIdNameCacheCount()
inline void Document::decrementNodeListWithIdNameCacheCount()
ASSERT(m_nodeListCounts[InvalidateOnIdNameAttrChange] > 0);
DEFINE_TYPE_CASTS(Document, ExecutionContextClient, client, client->isDocument(), client.isDocument());
DEFINE_TYPE_CASTS(Document, ExecutionContext, context, context->isDocument(), context.isDocument());
DEFINE_NODE_TYPE_CASTS(Document, isDocumentNode());
DEFINE_TYPE_CASTS(thisType, Document, document, document->is##thisType(),
// All these varations are needed to avoid ambiguous overloads with the Node and TreeScope versions.
inline bool operator==(const Document& a, const Document& b) { return &a == &b; }
inline bool operator==(const Document& a, const Document* b) { return &a == b; }
inline bool operator==(const Document* a, const Document& b) { return a == &b; }
inline bool operator!=(const Document& a, const Document& b) { return !(a == b); }
inline bool operator!=(const Document& a, const Document* b) { return !(a == b); }
inline bool operator!=(const Document* a, const Document& b) { return !(a == b); }
// Put these methods here, because they require the Document definition, but we really want to inline them.
inline bool Node::isDocumentNode() const
return this == document();
Node* eventTargetNodeForDocument(Document*);
} // namespace WebCore
#endif // Document_h