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      1 /*
      2  * Copyright (C) 1999 Lars Knoll (knoll (at) kde.org)
      3  *           (C) 1999 Antti Koivisto (koivisto (at) kde.org)
      4  *           (C) 2001 Dirk Mueller (mueller (at) kde.org)
      5  *           (C) 2006 Alexey Proskuryakov (ap (at) webkit.org)
      6  * Copyright (C) 2004, 2005, 2006, 2007, 2008, 2009, 2011 Apple Inc. All rights reserved.
      7  * Copyright (C) 2008, 2009 Torch Mobile Inc. All rights reserved. (http://www.torchmobile.com/)
      8  * Copyright (C) 2008, 2009 Google Inc. All rights reserved.
      9  * Copyright (C) 2010 Nokia Corporation and/or its subsidiary(-ies)
     10  *
     11  * This library is free software; you can redistribute it and/or
     12  * modify it under the terms of the GNU Library General Public
     13  * License as published by the Free Software Foundation; either
     14  * version 2 of the License, or (at your option) any later version.
     15  *
     16  * This library is distributed in the hope that it will be useful,
     17  * but WITHOUT ANY WARRANTY; without even the implied warranty of
     18  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
     19  * Library General Public License for more details.
     20  *
     21  * You should have received a copy of the GNU Library General Public License
     22  * along with this library; see the file COPYING.LIB.  If not, write to
     23  * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
     24  * Boston, MA 02110-1301, USA.
     25  */
     26 
     27 #include "config.h"
     28 #include "Document.h"
     29 
     30 #include "AXObjectCache.h"
     31 #include "AnimationController.h"
     32 #include "Attr.h"
     33 #include "Attribute.h"
     34 #include "CDATASection.h"
     35 #include "CSSPrimitiveValueCache.h"
     36 #include "CSSStyleSelector.h"
     37 #include "CSSStyleSheet.h"
     38 #include "CSSValueKeywords.h"
     39 #include "CachedCSSStyleSheet.h"
     40 #include "CachedResourceLoader.h"
     41 #include "Chrome.h"
     42 #include "ChromeClient.h"
     43 #include "Comment.h"
     44 #include "Console.h"
     45 #include "ContentSecurityPolicy.h"
     46 #include "CookieJar.h"
     47 #include "CustomEvent.h"
     48 #include "DateComponents.h"
     49 #include "DOMImplementation.h"
     50 #include "DOMWindow.h"
     51 #include "DeviceMotionEvent.h"
     52 #include "DeviceOrientationEvent.h"
     53 #include "DocumentFragment.h"
     54 #include "DocumentLoader.h"
     55 #include "DocumentMarkerController.h"
     56 #include "DocumentType.h"
     57 #include "EditingText.h"
     58 #include "Editor.h"
     59 #include "Element.h"
     60 #include "EntityReference.h"
     61 #include "Event.h"
     62 #include "EventHandler.h"
     63 #include "EventListener.h"
     64 #include "EventNames.h"
     65 #include "EventQueue.h"
     66 #include "ExceptionCode.h"
     67 #include "FocusController.h"
     68 #include "FormAssociatedElement.h"
     69 #include "Frame.h"
     70 #include "FrameLoader.h"
     71 #include "FrameLoaderClient.h"
     72 #include "FrameTree.h"
     73 #include "FrameView.h"
     74 #include "HashChangeEvent.h"
     75 #include "HTMLAllCollection.h"
     76 #include "HTMLAnchorElement.h"
     77 #include "HTMLBodyElement.h"
     78 #include "HTMLCanvasElement.h"
     79 #include "HTMLCollection.h"
     80 #include "HTMLDocument.h"
     81 #include "HTMLElementFactory.h"
     82 #include "HTMLFrameOwnerElement.h"
     83 #include "HTMLHeadElement.h"
     84 #include "HTMLIFrameElement.h"
     85 #include "HTMLInputElement.h"
     86 #include "HTMLLinkElement.h"
     87 #include "HTMLMapElement.h"
     88 #include "HTMLNameCollection.h"
     89 #include "HTMLNames.h"
     90 #include "HTMLParserIdioms.h"
     91 #include "HTMLStyleElement.h"
     92 #include "HTMLTitleElement.h"
     93 #include "HTTPParsers.h"
     94 #include "HitTestRequest.h"
     95 #include "HitTestResult.h"
     96 #include "ImageLoader.h"
     97 #include "InspectorInstrumentation.h"
     98 #include "KeyboardEvent.h"
     99 #include "Logging.h"
    100 #include "MediaQueryList.h"
    101 #include "MediaQueryMatcher.h"
    102 #include "MessageEvent.h"
    103 #include "MouseEvent.h"
    104 #include "MouseEventWithHitTestResults.h"
    105 #include "MutationEvent.h"
    106 #include "NameNodeList.h"
    107 #include "NestingLevelIncrementer.h"
    108 #include "NodeFilter.h"
    109 #include "NodeIterator.h"
    110 #include "NodeWithIndex.h"
    111 #include "OverflowEvent.h"
    112 #include "Page.h"
    113 #include "PageGroup.h"
    114 #include "PageTransitionEvent.h"
    115 #include "PlatformKeyboardEvent.h"
    116 #include "PopStateEvent.h"
    117 #include "ProcessingInstruction.h"
    118 #include "ProgressEvent.h"
    119 #include "RegisteredEventListener.h"
    120 #include "RenderArena.h"
    121 #include "RenderLayer.h"
    122 #include "RenderLayerBacking.h"
    123 #include "RenderTextControl.h"
    124 #include "RenderView.h"
    125 #include "RenderWidget.h"
    126 #include "ScopedEventQueue.h"
    127 #include "ScriptCallStack.h"
    128 #include "ScriptController.h"
    129 #include "ScriptElement.h"
    130 #include "ScriptEventListener.h"
    131 #include "ScriptRunner.h"
    132 #include "SecurityOrigin.h"
    133 #include "SegmentedString.h"
    134 #include "SelectionController.h"
    135 #include "Settings.h"
    136 #include "StaticHashSetNodeList.h"
    137 #include "StyleSheetList.h"
    138 #include "TextEvent.h"
    139 #include "TextResourceDecoder.h"
    140 #include "Timer.h"
    141 #include "TransformSource.h"
    142 #include "TreeWalker.h"
    143 #include "UIEvent.h"
    144 #include "UserContentURLPattern.h"
    145 #include "WebKitAnimationEvent.h"
    146 #include "WebKitTransitionEvent.h"
    147 #include "WheelEvent.h"
    148 #include "XMLDocumentParser.h"
    149 #include "XMLHttpRequest.h"
    150 #include "XMLNSNames.h"
    151 #include "XMLNames.h"
    152 #include "htmlediting.h"
    153 #include <wtf/CurrentTime.h>
    154 #include <wtf/HashFunctions.h>
    155 #include <wtf/MainThread.h>
    156 #include <wtf/PassRefPtr.h>
    157 #include <wtf/StdLibExtras.h>
    158 #include <wtf/text/StringBuffer.h>
    159 
    160 #if ENABLE(SHARED_WORKERS)
    161 #include "SharedWorkerRepository.h"
    162 #endif
    163 
    164 #if ENABLE(DOM_STORAGE)
    165 #include "StorageEvent.h"
    166 #endif
    167 
    168 #if ENABLE(XPATH)
    169 #include "XPathEvaluator.h"
    170 #include "XPathExpression.h"
    171 #include "XPathNSResolver.h"
    172 #include "XPathResult.h"
    173 #endif
    174 
    175 #if ENABLE(XSLT)
    176 #include "XSLTProcessor.h"
    177 #endif
    178 
    179 #if ENABLE(SVG)
    180 #include "SVGDocumentExtensions.h"
    181 #include "SVGElementFactory.h"
    182 #include "SVGNames.h"
    183 #include "SVGStyleElement.h"
    184 #include "SVGZoomEvent.h"
    185 #endif
    186 
    187 #ifdef ANDROID_META_SUPPORT
    188 #include "PlatformBridge.h"
    189 #include "Settings.h"
    190 #endif
    191 
    192 #ifdef ANDROID_RESET_SELECTION
    193 #include "CacheBuilder.h"
    194 #include "HTMLTextAreaElement.h"
    195 #endif
    196 
    197 #ifdef ANDROID_INSTRUMENT
    198 #include "TimeCounter.h"
    199 #endif
    200 
    201 #if ENABLE(TOUCH_EVENTS)
    202 #if USE(V8)
    203 #include "RuntimeEnabledFeatures.h"
    204 #endif
    205 #include "TouchEvent.h"
    206 #endif
    207 
    208 #if ENABLE(WML)
    209 #include "WMLDocument.h"
    210 #include "WMLElement.h"
    211 #include "WMLElementFactory.h"
    212 #include "WMLNames.h"
    213 #endif
    214 
    215 #if ENABLE(MATHML)
    216 #include "MathMLElement.h"
    217 #include "MathMLElementFactory.h"
    218 #include "MathMLNames.h"
    219 #endif
    220 
    221 #if ENABLE(XHTMLMP)
    222 #include "HTMLNoScriptElement.h"
    223 #endif
    224 
    225 #if ENABLE(FULLSCREEN_API)
    226 #include "RenderFullScreen.h"
    227 #endif
    228 
    229 #if ENABLE(REQUEST_ANIMATION_FRAME)
    230 #include "RequestAnimationFrameCallback.h"
    231 #include "ScriptedAnimationController.h"
    232 #endif
    233 
    234 using namespace std;
    235 using namespace WTF;
    236 using namespace Unicode;
    237 
    238 namespace WebCore {
    239 
    240 using namespace HTMLNames;
    241 
    242 // #define INSTRUMENT_LAYOUT_SCHEDULING 1
    243 
    244 static const unsigned cMaxWriteRecursionDepth = 21;
    245 
    246 // This amount of time must have elapsed before we will even consider scheduling a layout without a delay.
    247 // FIXME: For faster machines this value can really be lowered to 200.  250 is adequate, but a little high
    248 // for dual G5s. :)
    249 static const int cLayoutScheduleThreshold = 250;
    250 
    251 // DOM Level 2 says (letters added):
    252 //
    253 // a) Name start characters must have one of the categories Ll, Lu, Lo, Lt, Nl.
    254 // b) Name characters other than Name-start characters must have one of the categories Mc, Me, Mn, Lm, or Nd.
    255 // c) Characters in the compatibility area (i.e. with character code greater than #xF900 and less than #xFFFE) are not allowed in XML names.
    256 // d) Characters which have a font or compatibility decomposition (i.e. those with a "compatibility formatting tag" in field 5 of the database -- marked by field 5 beginning with a "<") are not allowed.
    257 // e) The following characters are treated as name-start characters rather than name characters, because the property file classifies them as Alphabetic: [#x02BB-#x02C1], #x0559, #x06E5, #x06E6.
    258 // f) Characters #x20DD-#x20E0 are excluded (in accordance with Unicode, section 5.14).
    259 // g) Character #x00B7 is classified as an extender, because the property list so identifies it.
    260 // h) Character #x0387 is added as a name character, because #x00B7 is its canonical equivalent.
    261 // i) Characters ':' and '_' are allowed as name-start characters.
    262 // j) Characters '-' and '.' are allowed as name characters.
    263 //
    264 // It also contains complete tables. If we decide it's better, we could include those instead of the following code.
    265 
    266 static inline bool isValidNameStart(UChar32 c)
    267 {
    268     // rule (e) above
    269     if ((c >= 0x02BB && c <= 0x02C1) || c == 0x559 || c == 0x6E5 || c == 0x6E6)
    270         return true;
    271 
    272     // rule (i) above
    273     if (c == ':' || c == '_')
    274         return true;
    275 
    276     // rules (a) and (f) above
    277     const uint32_t nameStartMask = Letter_Lowercase | Letter_Uppercase | Letter_Other | Letter_Titlecase | Number_Letter;
    278     if (!(Unicode::category(c) & nameStartMask))
    279         return false;
    280 
    281     // rule (c) above
    282     if (c >= 0xF900 && c < 0xFFFE)
    283         return false;
    284 
    285     // rule (d) above
    286     DecompositionType decompType = decompositionType(c);
    287     if (decompType == DecompositionFont || decompType == DecompositionCompat)
    288         return false;
    289 
    290     return true;
    291 }
    292 
    293 static inline bool isValidNamePart(UChar32 c)
    294 {
    295     // rules (a), (e), and (i) above
    296     if (isValidNameStart(c))
    297         return true;
    298 
    299     // rules (g) and (h) above
    300     if (c == 0x00B7 || c == 0x0387)
    301         return true;
    302 
    303     // rule (j) above
    304     if (c == '-' || c == '.')
    305         return true;
    306 
    307     // rules (b) and (f) above
    308     const uint32_t otherNamePartMask = Mark_NonSpacing | Mark_Enclosing | Mark_SpacingCombining | Letter_Modifier | Number_DecimalDigit;
    309     if (!(Unicode::category(c) & otherNamePartMask))
    310         return false;
    311 
    312     // rule (c) above
    313     if (c >= 0xF900 && c < 0xFFFE)
    314         return false;
    315 
    316     // rule (d) above
    317     DecompositionType decompType = decompositionType(c);
    318     if (decompType == DecompositionFont || decompType == DecompositionCompat)
    319         return false;
    320 
    321     return true;
    322 }
    323 
    324 static Widget* widgetForNode(Node* focusedNode)
    325 {
    326     if (!focusedNode)
    327         return 0;
    328     RenderObject* renderer = focusedNode->renderer();
    329     if (!renderer || !renderer->isWidget())
    330         return 0;
    331     return toRenderWidget(renderer)->widget();
    332 }
    333 
    334 static bool acceptsEditingFocus(Node* node)
    335 {
    336     ASSERT(node);
    337     ASSERT(node->rendererIsEditable());
    338 
    339     Node* root = node->rootEditableElement();
    340     Frame* frame = node->document()->frame();
    341     if (!frame || !root)
    342         return false;
    343 
    344     return frame->editor()->shouldBeginEditing(rangeOfContents(root).get());
    345 }
    346 
    347 static bool disableRangeMutation(Page* page)
    348 {
    349     // This check is made on super-hot code paths, so we only want this on Tiger and Leopard.
    350 #if defined(TARGETING_TIGER) || defined(TARGETING_LEOPARD)
    351     // Disable Range mutation on document modifications in Tiger and Leopard Mail
    352     // See <rdar://problem/5865171>
    353     return page && (page->settings()->needsLeopardMailQuirks() || page->settings()->needsTigerMailQuirks());
    354 #else
    355     UNUSED_PARAM(page);
    356     return false;
    357 #endif
    358 }
    359 
    360 static HashSet<Document*>* documentsThatNeedStyleRecalc = 0;
    361 
    362 class DocumentWeakReference : public ThreadSafeRefCounted<DocumentWeakReference> {
    363 public:
    364     static PassRefPtr<DocumentWeakReference> create(Document* document)
    365     {
    366         return adoptRef(new DocumentWeakReference(document));
    367     }
    368 
    369     Document* document()
    370     {
    371         ASSERT(isMainThread());
    372         return m_document;
    373     }
    374 
    375     void clear()
    376     {
    377         ASSERT(isMainThread());
    378         m_document = 0;
    379     }
    380 
    381 private:
    382     DocumentWeakReference(Document* document)
    383         : m_document(document)
    384     {
    385         ASSERT(isMainThread());
    386     }
    387 
    388     Document* m_document;
    389 };
    390 
    391 uint64_t Document::s_globalTreeVersion = 0;
    392 
    393 Document::Document(Frame* frame, const KURL& url, bool isXHTML, bool isHTML)
    394     : TreeScope(this)
    395     , m_guardRefCount(0)
    396     , m_compatibilityMode(NoQuirksMode)
    397     , m_compatibilityModeLocked(false)
    398     , m_domTreeVersion(++s_globalTreeVersion)
    399 #ifdef ANDROID_STYLE_VERSION
    400     , m_styleVersion(0)
    401 #endif
    402     , m_styleSheets(StyleSheetList::create(this))
    403     , m_readyState(Complete)
    404     , m_styleRecalcTimer(this, &Document::styleRecalcTimerFired)
    405     , m_pendingStyleRecalcShouldForce(false)
    406     , m_frameElementsShouldIgnoreScrolling(false)
    407     , m_containsValidityStyleRules(false)
    408     , m_updateFocusAppearanceRestoresSelection(false)
    409     , m_ignoreDestructiveWriteCount(0)
    410     , m_titleSetExplicitly(false)
    411     , m_updateFocusAppearanceTimer(this, &Document::updateFocusAppearanceTimerFired)
    412     , m_startTime(currentTime())
    413     , m_overMinimumLayoutThreshold(false)
    414     , m_extraLayoutDelay(0)
    415     , m_scriptRunner(ScriptRunner::create(this))
    416     , m_xmlVersion("1.0")
    417     , m_xmlStandalone(false)
    418     , m_savedRenderer(0)
    419     , m_designMode(inherit)
    420 #if ENABLE(SVG)
    421     , m_svgExtensions(0)
    422 #endif
    423 #if ENABLE(DASHBOARD_SUPPORT)
    424     , m_hasDashboardRegions(false)
    425     , m_dashboardRegionsDirty(false)
    426 #endif
    427     , m_createRenderers(true)
    428     , m_inPageCache(false)
    429     , m_useSecureKeyboardEntryWhenActive(false)
    430     , m_isXHTML(isXHTML)
    431     , m_isHTML(isHTML)
    432     , m_usesViewSourceStyles(false)
    433     , m_sawElementsInKnownNamespaces(false)
    434     , m_usingGeolocation(false)
    435     , m_eventQueue(EventQueue::create(this))
    436 #if ENABLE(WML)
    437     , m_containsWMLContent(false)
    438 #endif
    439     , m_weakReference(DocumentWeakReference::create(this))
    440     , m_idAttributeName(idAttr)
    441 #if ENABLE(FULLSCREEN_API)
    442     , m_areKeysEnabledInFullScreen(0)
    443     , m_fullScreenRenderer(0)
    444     , m_fullScreenChangeDelayTimer(this, &Document::fullScreenChangeDelayTimerFired)
    445 #endif
    446     , m_loadEventDelayCount(0)
    447     , m_loadEventDelayTimer(this, &Document::loadEventDelayTimerFired)
    448     , m_directionSetOnDocumentElement(false)
    449     , m_writingModeSetOnDocumentElement(false)
    450     , m_writeRecursionIsTooDeep(false)
    451     , m_writeRecursionDepth(0)
    452 {
    453     m_document = this;
    454 
    455     m_pageGroupUserSheetCacheValid = false;
    456 
    457     m_printing = false;
    458     m_paginatedForScreen = false;
    459 
    460     m_ignoreAutofocus = false;
    461 
    462     m_frame = frame;
    463 
    464     // We depend on the url getting immediately set in subframes, but we
    465     // also depend on the url NOT getting immediately set in opened windows.
    466     // See fast/dom/early-frame-url.html
    467     // and fast/dom/location-new-window-no-crash.html, respectively.
    468     // FIXME: Can/should we unify this behavior?
    469     if ((frame && frame->ownerElement()) || !url.isEmpty())
    470         setURL(url);
    471 
    472 #if !PLATFORM(ANDROID)
    473     m_axObjectCache = 0;
    474 #endif
    475 
    476     m_markers = new DocumentMarkerController();
    477 
    478     m_cachedResourceLoader = new CachedResourceLoader(this);
    479 
    480     m_visuallyOrdered = false;
    481     m_bParsing = false;
    482     m_wellFormed = false;
    483 
    484     m_textColor = Color::black;
    485     m_listenerTypes = 0;
    486     setInDocument();
    487     m_inStyleRecalc = false;
    488     m_closeAfterStyleRecalc = false;
    489 
    490     m_usesSiblingRules = false;
    491     m_usesSiblingRulesOverride = false;
    492     m_usesFirstLineRules = false;
    493     m_usesFirstLetterRules = false;
    494     m_usesBeforeAfterRules = false;
    495     m_usesBeforeAfterRulesOverride = false;
    496     m_usesRemUnits = false;
    497     m_usesLinkRules = false;
    498 
    499     m_gotoAnchorNeededAfterStylesheetsLoad = false;
    500 
    501     m_didCalculateStyleSelector = false;
    502     m_hasDirtyStyleSelector = false;
    503     m_pendingStylesheets = 0;
    504     m_ignorePendingStylesheets = false;
    505     m_hasNodesWithPlaceholderStyle = false;
    506     m_pendingSheetLayout = NoLayoutWithPendingSheets;
    507 
    508     m_cssTarget = 0;
    509 
    510     resetLinkColor();
    511     resetVisitedLinkColor();
    512     resetActiveLinkColor();
    513 
    514     m_processingLoadEvent = false;
    515 
    516     initSecurityContext();
    517     initDNSPrefetch();
    518 
    519     static int docID = 0;
    520     m_docID = docID++;
    521 #if ENABLE(XHTMLMP)
    522     m_shouldProcessNoScriptElement = !(m_frame && m_frame->script()->canExecuteScripts(NotAboutToExecuteScript));
    523 #endif
    524 }
    525 
    526 Document::~Document()
    527 {
    528     ASSERT(!renderer());
    529     ASSERT(!m_inPageCache);
    530     ASSERT(!m_savedRenderer);
    531     ASSERT(m_ranges.isEmpty());
    532     ASSERT(!m_styleRecalcTimer.isActive());
    533     ASSERT(!m_parentTreeScope);
    534 
    535     m_scriptRunner.clear();
    536 
    537     removeAllEventListeners();
    538 
    539     // Currently we believe that Document can never outlive the parser.
    540     // Although the Document may be replaced synchronously, DocumentParsers
    541     // generally keep at least one reference to an Element which would in turn
    542     // has a reference to the Document.  If you hit this ASSERT, then that
    543     // assumption is wrong.  DocumentParser::detach() should ensure that even
    544     // if the DocumentParser outlives the Document it won't cause badness.
    545     ASSERT(!m_parser || m_parser->refCount() == 1);
    546     detachParser();
    547     m_document = 0;
    548     m_cachedResourceLoader.clear();
    549 
    550     m_renderArena.clear();
    551 
    552     clearAXObjectCache();
    553 
    554     m_decoder = 0;
    555 
    556     for (size_t i = 0; i < m_nameCollectionInfo.size(); ++i)
    557         deleteAllValues(m_nameCollectionInfo[i]);
    558 
    559     if (m_styleSheets)
    560         m_styleSheets->documentDestroyed();
    561 
    562     if (m_elemSheet)
    563         m_elemSheet->clearOwnerNode();
    564     if (m_mappedElementSheet)
    565         m_mappedElementSheet->clearOwnerNode();
    566     if (m_pageUserSheet)
    567         m_pageUserSheet->clearOwnerNode();
    568     if (m_pageGroupUserSheets) {
    569         for (size_t i = 0; i < m_pageGroupUserSheets->size(); ++i)
    570             (*m_pageGroupUserSheets)[i]->clearOwnerNode();
    571     }
    572 
    573     m_weakReference->clear();
    574 
    575     if (m_mediaQueryMatcher)
    576         m_mediaQueryMatcher->documentDestroyed();
    577 
    578     if (m_implementation)
    579         m_implementation->ownerDocumentDestroyed();
    580 }
    581 
    582 void Document::removedLastRef()
    583 {
    584     ASSERT(!m_deletionHasBegun);
    585     if (m_guardRefCount) {
    586         // If removing a child removes the last self-only ref, we don't
    587         // want the scope to be destructed until after
    588         // removeAllChildren returns, so we guard ourselves with an
    589         // extra self-only ref.
    590         guardRef();
    591 
    592         // We must make sure not to be retaining any of our children through
    593         // these extra pointers or we will create a reference cycle.
    594         m_docType = 0;
    595         m_focusedNode = 0;
    596         m_hoverNode = 0;
    597         m_activeNode = 0;
    598         m_titleElement = 0;
    599         m_documentElement = 0;
    600 #if ENABLE(FULLSCREEN_API)
    601         m_fullScreenElement = 0;
    602 #endif
    603 
    604         // removeAllChildren() doesn't always unregister IDs,
    605         // so tear down scope information upfront to avoid having stale references in the map.
    606         destroyTreeScopeData();
    607         removeAllChildren();
    608 
    609         m_markers->detach();
    610 
    611         detachParser();
    612 
    613         m_cssCanvasElements.clear();
    614 
    615 #if ENABLE(REQUEST_ANIMATION_FRAME)
    616         // FIXME: consider using ActiveDOMObject.
    617         m_scriptedAnimationController = 0;
    618 #endif
    619 
    620 #ifndef NDEBUG
    621         m_inRemovedLastRefFunction = false;
    622 #endif
    623 
    624         guardDeref();
    625     } else {
    626 #ifndef NDEBUG
    627         m_deletionHasBegun = true;
    628 #endif
    629         delete this;
    630     }
    631 }
    632 
    633 Element* Document::getElementById(const AtomicString& id) const
    634 {
    635     return TreeScope::getElementById(id);
    636 }
    637 
    638 MediaQueryMatcher* Document::mediaQueryMatcher()
    639 {
    640     if (!m_mediaQueryMatcher)
    641         m_mediaQueryMatcher = MediaQueryMatcher::create(this);
    642     return m_mediaQueryMatcher.get();
    643 }
    644 
    645 void Document::setCompatibilityMode(CompatibilityMode mode)
    646 {
    647     if (m_compatibilityModeLocked || mode == m_compatibilityMode)
    648         return;
    649     ASSERT(!documentElement() && !m_styleSheets->length());
    650     bool wasInQuirksMode = inQuirksMode();
    651     m_compatibilityMode = mode;
    652     if (inQuirksMode() != wasInQuirksMode) {
    653         // All user stylesheets have to reparse using the different mode.
    654         clearPageUserSheet();
    655         clearPageGroupUserSheets();
    656     }
    657 }
    658 
    659 String Document::compatMode() const
    660 {
    661     return inQuirksMode() ? "BackCompat" : "CSS1Compat";
    662 }
    663 
    664 void Document::resetLinkColor()
    665 {
    666     m_linkColor = Color(0, 0, 238);
    667 }
    668 
    669 void Document::resetVisitedLinkColor()
    670 {
    671     m_visitedLinkColor = Color(85, 26, 139);
    672 }
    673 
    674 void Document::resetActiveLinkColor()
    675 {
    676     m_activeLinkColor.setNamedColor("red");
    677 }
    678 
    679 void Document::setDocType(PassRefPtr<DocumentType> docType)
    680 {
    681     // This should never be called more than once.
    682     ASSERT(!m_docType || !docType);
    683     m_docType = docType;
    684     if (m_docType)
    685         m_docType->setTreeScope(this);
    686 
    687 #ifdef ANDROID_META_SUPPORT
    688     if (m_docType && !ownerElement()
    689             && m_docType->publicId().startsWith("-//wapforum//dtd xhtml mobile 1.", false)) {
    690         // fit mobile sites directly in the screen
    691         processViewport("width=device-width");
    692     }
    693 #endif
    694 }
    695 
    696 DOMImplementation* Document::implementation()
    697 {
    698     if (!m_implementation)
    699         m_implementation = DOMImplementation::create(this);
    700     return m_implementation.get();
    701 }
    702 
    703 void Document::childrenChanged(bool changedByParser, Node* beforeChange, Node* afterChange, int childCountDelta)
    704 {
    705     TreeScope::childrenChanged(changedByParser, beforeChange, afterChange, childCountDelta);
    706 
    707     // Invalidate the document element we have cached in case it was replaced.
    708     m_documentElement = 0;
    709 }
    710 
    711 void Document::cacheDocumentElement() const
    712 {
    713     ASSERT(!m_documentElement);
    714     m_documentElement = firstElementChild(this);
    715 }
    716 
    717 PassRefPtr<Element> Document::createElement(const AtomicString& name, ExceptionCode& ec)
    718 {
    719     if (!isValidName(name)) {
    720         ec = INVALID_CHARACTER_ERR;
    721         return 0;
    722     }
    723 
    724     if (m_isXHTML)
    725         return HTMLElementFactory::createHTMLElement(QualifiedName(nullAtom, name, xhtmlNamespaceURI), this, 0, false);
    726 
    727     return createElement(QualifiedName(nullAtom, name, nullAtom), false);
    728 }
    729 
    730 PassRefPtr<DocumentFragment> Document::createDocumentFragment()
    731 {
    732     return DocumentFragment::create(document());
    733 }
    734 
    735 PassRefPtr<Text> Document::createTextNode(const String& data)
    736 {
    737     return Text::create(this, data);
    738 }
    739 
    740 PassRefPtr<Comment> Document::createComment(const String& data)
    741 {
    742     return Comment::create(this, data);
    743 }
    744 
    745 PassRefPtr<CDATASection> Document::createCDATASection(const String& data, ExceptionCode& ec)
    746 {
    747     if (isHTMLDocument()) {
    748         ec = NOT_SUPPORTED_ERR;
    749         return 0;
    750     }
    751     return CDATASection::create(this, data);
    752 }
    753 
    754 PassRefPtr<ProcessingInstruction> Document::createProcessingInstruction(const String& target, const String& data, ExceptionCode& ec)
    755 {
    756     if (!isValidName(target)) {
    757         ec = INVALID_CHARACTER_ERR;
    758         return 0;
    759     }
    760     if (isHTMLDocument()) {
    761         ec = NOT_SUPPORTED_ERR;
    762         return 0;
    763     }
    764     return ProcessingInstruction::create(this, target, data);
    765 }
    766 
    767 PassRefPtr<EntityReference> Document::createEntityReference(const String& name, ExceptionCode& ec)
    768 {
    769     if (!isValidName(name)) {
    770         ec = INVALID_CHARACTER_ERR;
    771         return 0;
    772     }
    773     if (isHTMLDocument()) {
    774         ec = NOT_SUPPORTED_ERR;
    775         return 0;
    776     }
    777     return EntityReference::create(this, name);
    778 }
    779 
    780 PassRefPtr<EditingText> Document::createEditingTextNode(const String& text)
    781 {
    782     return EditingText::create(this, text);
    783 }
    784 
    785 PassRefPtr<CSSStyleDeclaration> Document::createCSSStyleDeclaration()
    786 {
    787     return CSSMutableStyleDeclaration::create();
    788 }
    789 
    790 PassRefPtr<Node> Document::importNode(Node* importedNode, bool deep, ExceptionCode& ec)
    791 {
    792     ec = 0;
    793 
    794     if (!importedNode
    795 #if ENABLE(SVG) && ENABLE(DASHBOARD_SUPPORT)
    796         || (importedNode->isSVGElement() && page() && page()->settings()->usesDashboardBackwardCompatibilityMode())
    797 #endif
    798         ) {
    799         ec = NOT_SUPPORTED_ERR;
    800         return 0;
    801     }
    802 
    803     switch (importedNode->nodeType()) {
    804     case TEXT_NODE:
    805         return createTextNode(importedNode->nodeValue());
    806     case CDATA_SECTION_NODE:
    807         return createCDATASection(importedNode->nodeValue(), ec);
    808     case ENTITY_REFERENCE_NODE:
    809         return createEntityReference(importedNode->nodeName(), ec);
    810     case PROCESSING_INSTRUCTION_NODE:
    811         return createProcessingInstruction(importedNode->nodeName(), importedNode->nodeValue(), ec);
    812     case COMMENT_NODE:
    813         return createComment(importedNode->nodeValue());
    814     case ELEMENT_NODE: {
    815         Element* oldElement = static_cast<Element*>(importedNode);
    816         RefPtr<Element> newElement = createElementNS(oldElement->namespaceURI(), oldElement->tagQName().toString(), ec);
    817 
    818         if (ec)
    819             return 0;
    820 
    821         NamedNodeMap* attrs = oldElement->attributes(true);
    822         if (attrs) {
    823             unsigned length = attrs->length();
    824             for (unsigned i = 0; i < length; i++) {
    825                 Attribute* attr = attrs->attributeItem(i);
    826                 newElement->setAttribute(attr->name(), attr->value().impl(), ec);
    827                 if (ec)
    828                     return 0;
    829             }
    830         }
    831 
    832         newElement->copyNonAttributeProperties(oldElement);
    833 
    834         if (deep) {
    835             for (Node* oldChild = oldElement->firstChild(); oldChild; oldChild = oldChild->nextSibling()) {
    836                 RefPtr<Node> newChild = importNode(oldChild, true, ec);
    837                 if (ec)
    838                     return 0;
    839                 newElement->appendChild(newChild.release(), ec);
    840                 if (ec)
    841                     return 0;
    842             }
    843         }
    844 
    845         return newElement.release();
    846     }
    847     case ATTRIBUTE_NODE:
    848         return Attr::create(0, this, static_cast<Attr*>(importedNode)->attr()->clone());
    849     case DOCUMENT_FRAGMENT_NODE: {
    850         DocumentFragment* oldFragment = static_cast<DocumentFragment*>(importedNode);
    851         RefPtr<DocumentFragment> newFragment = createDocumentFragment();
    852         if (deep) {
    853             for (Node* oldChild = oldFragment->firstChild(); oldChild; oldChild = oldChild->nextSibling()) {
    854                 RefPtr<Node> newChild = importNode(oldChild, true, ec);
    855                 if (ec)
    856                     return 0;
    857                 newFragment->appendChild(newChild.release(), ec);
    858                 if (ec)
    859                     return 0;
    860             }
    861         }
    862 
    863         return newFragment.release();
    864     }
    865     case ENTITY_NODE:
    866     case NOTATION_NODE:
    867         // FIXME: It should be possible to import these node types, however in DOM3 the DocumentType is readonly, so there isn't much sense in doing that.
    868         // Ability to add these imported nodes to a DocumentType will be considered for addition to a future release of the DOM.
    869     case DOCUMENT_NODE:
    870     case DOCUMENT_TYPE_NODE:
    871     case XPATH_NAMESPACE_NODE:
    872         break;
    873     }
    874 
    875     ec = NOT_SUPPORTED_ERR;
    876     return 0;
    877 }
    878 
    879 
    880 PassRefPtr<Node> Document::adoptNode(PassRefPtr<Node> source, ExceptionCode& ec)
    881 {
    882     if (!source) {
    883         ec = NOT_SUPPORTED_ERR;
    884         return 0;
    885     }
    886 
    887     if (source->isReadOnlyNode()) {
    888         ec = NO_MODIFICATION_ALLOWED_ERR;
    889         return 0;
    890     }
    891 
    892     EventQueueScope scope;
    893 
    894     switch (source->nodeType()) {
    895     case ENTITY_NODE:
    896     case NOTATION_NODE:
    897     case DOCUMENT_NODE:
    898     case DOCUMENT_TYPE_NODE:
    899     case XPATH_NAMESPACE_NODE:
    900         ec = NOT_SUPPORTED_ERR;
    901         return 0;
    902     case ATTRIBUTE_NODE: {
    903         Attr* attr = static_cast<Attr*>(source.get());
    904         if (attr->ownerElement())
    905             attr->ownerElement()->removeAttributeNode(attr, ec);
    906         attr->setSpecified(true);
    907         break;
    908     }
    909     default:
    910         if (source->hasTagName(iframeTag)) {
    911             HTMLIFrameElement* iframe = static_cast<HTMLIFrameElement*>(source.get());
    912             if (frame() && frame()->tree()->isDescendantOf(iframe->contentFrame())) {
    913                 ec = HIERARCHY_REQUEST_ERR;
    914                 return 0;
    915             }
    916             iframe->setRemainsAliveOnRemovalFromTree(attached() && source->attached());
    917         }
    918 
    919         if (source->parentNode())
    920             source->parentNode()->removeChild(source.get(), ec);
    921     }
    922 
    923     source->setTreeScopeRecursively(this);
    924 
    925     return source;
    926 }
    927 
    928 bool Document::hasPrefixNamespaceMismatch(const QualifiedName& qName)
    929 {
    930     // These checks are from DOM Core Level 2, createElementNS
    931     // http://www.w3.org/TR/DOM-Level-2-Core/core.html#ID-DocCrElNS
    932     if (!qName.prefix().isEmpty() && qName.namespaceURI().isNull()) // createElementNS(null, "html:div")
    933         return true;
    934     if (qName.prefix() == xmlAtom && qName.namespaceURI() != XMLNames::xmlNamespaceURI) // createElementNS("http://www.example.com", "xml:lang")
    935         return true;
    936 
    937     // Required by DOM Level 3 Core and unspecified by DOM Level 2 Core:
    938     // http://www.w3.org/TR/2004/REC-DOM-Level-3-Core-20040407/core.html#ID-DocCrElNS
    939     // createElementNS("http://www.w3.org/2000/xmlns/", "foo:bar"), createElementNS(null, "xmlns:bar")
    940     if ((qName.prefix() == xmlnsAtom && qName.namespaceURI() != XMLNSNames::xmlnsNamespaceURI) || (qName.prefix() != xmlnsAtom && qName.namespaceURI() == XMLNSNames::xmlnsNamespaceURI))
    941         return true;
    942 
    943     return false;
    944 }
    945 
    946 // FIXME: This should really be in a possible ElementFactory class
    947 PassRefPtr<Element> Document::createElement(const QualifiedName& qName, bool createdByParser)
    948 {
    949     RefPtr<Element> e;
    950 
    951     // FIXME: Use registered namespaces and look up in a hash to find the right factory.
    952     if (qName.namespaceURI() == xhtmlNamespaceURI)
    953         e = HTMLElementFactory::createHTMLElement(qName, this, 0, createdByParser);
    954 #if ENABLE(SVG)
    955     else if (qName.namespaceURI() == SVGNames::svgNamespaceURI)
    956         e = SVGElementFactory::createSVGElement(qName, this, createdByParser);
    957 #endif
    958 #if ENABLE(WML)
    959     else if (qName.namespaceURI() == WMLNames::wmlNamespaceURI)
    960         e = WMLElementFactory::createWMLElement(qName, this, createdByParser);
    961     else if (isWMLDocument())
    962         e = WMLElementFactory::createWMLElement(QualifiedName(nullAtom, qName.localName(), WMLNames::wmlNamespaceURI), this, createdByParser);
    963 #endif
    964 #if ENABLE(MATHML)
    965     else if (qName.namespaceURI() == MathMLNames::mathmlNamespaceURI)
    966         e = MathMLElementFactory::createMathMLElement(qName, this, createdByParser);
    967 #endif
    968 
    969     if (e)
    970         m_sawElementsInKnownNamespaces = true;
    971     else
    972         e = Element::create(qName, document());
    973 
    974     // <image> uses imgTag so we need a special rule.
    975 #if ENABLE(WML)
    976     if (!isWMLDocument())
    977 #endif
    978     ASSERT((qName.matches(imageTag) && e->tagQName().matches(imgTag) && e->tagQName().prefix() == qName.prefix()) || qName == e->tagQName());
    979 
    980     return e.release();
    981 }
    982 
    983 PassRefPtr<Element> Document::createElementNS(const String& namespaceURI, const String& qualifiedName, ExceptionCode& ec)
    984 {
    985     String prefix, localName;
    986     if (!parseQualifiedName(qualifiedName, prefix, localName, ec))
    987         return 0;
    988 
    989     QualifiedName qName(prefix, localName, namespaceURI);
    990     if (hasPrefixNamespaceMismatch(qName)) {
    991         ec = NAMESPACE_ERR;
    992         return 0;
    993     }
    994 
    995     return createElement(qName, false);
    996 }
    997 
    998 String Document::readyState() const
    999 {
   1000     DEFINE_STATIC_LOCAL(const String, loading, ("loading"));
   1001     DEFINE_STATIC_LOCAL(const String, interactive, ("interactive"));
   1002     DEFINE_STATIC_LOCAL(const String, complete, ("complete"));
   1003 
   1004     switch (m_readyState) {
   1005     case Loading:
   1006         return loading;
   1007     case Interactive:
   1008         return interactive;
   1009     case Complete:
   1010         return complete;
   1011     }
   1012 
   1013     ASSERT_NOT_REACHED();
   1014     return String();
   1015 }
   1016 
   1017 void Document::setReadyState(ReadyState readyState)
   1018 {
   1019     if (readyState == m_readyState)
   1020         return;
   1021 
   1022     switch (readyState) {
   1023     case Loading:
   1024         if (!m_documentTiming.domLoading)
   1025             m_documentTiming.domLoading = currentTime();
   1026         break;
   1027     case Interactive:
   1028         if (!m_documentTiming.domInteractive)
   1029             m_documentTiming.domInteractive = currentTime();
   1030         break;
   1031     case Complete:
   1032         if (!m_documentTiming.domComplete)
   1033             m_documentTiming.domComplete = currentTime();
   1034         break;
   1035     }
   1036 
   1037     m_readyState = readyState;
   1038     dispatchEvent(Event::create(eventNames().readystatechangeEvent, false, false));
   1039 }
   1040 
   1041 String Document::encoding() const
   1042 {
   1043     if (TextResourceDecoder* d = decoder())
   1044         return d->encoding().domName();
   1045     return String();
   1046 }
   1047 
   1048 String Document::defaultCharset() const
   1049 {
   1050     if (Settings* settings = this->settings())
   1051         return settings->defaultTextEncodingName();
   1052     return String();
   1053 }
   1054 
   1055 void Document::setCharset(const String& charset)
   1056 {
   1057     if (!decoder())
   1058         return;
   1059     decoder()->setEncoding(charset, TextResourceDecoder::UserChosenEncoding);
   1060 }
   1061 
   1062 void Document::setXMLVersion(const String& version, ExceptionCode& ec)
   1063 {
   1064     if (!implementation()->hasFeature("XML", String())) {
   1065         ec = NOT_SUPPORTED_ERR;
   1066         return;
   1067     }
   1068 
   1069     if (!XMLDocumentParser::supportsXMLVersion(version)) {
   1070         ec = NOT_SUPPORTED_ERR;
   1071         return;
   1072     }
   1073 
   1074     m_xmlVersion = version;
   1075 }
   1076 
   1077 void Document::setXMLStandalone(bool standalone, ExceptionCode& ec)
   1078 {
   1079     if (!implementation()->hasFeature("XML", String())) {
   1080         ec = NOT_SUPPORTED_ERR;
   1081         return;
   1082     }
   1083 
   1084     m_xmlStandalone = standalone;
   1085 }
   1086 
   1087 void Document::setDocumentURI(const String& uri)
   1088 {
   1089     m_documentURI = uri;
   1090     updateBaseURL();
   1091 }
   1092 
   1093 KURL Document::baseURI() const
   1094 {
   1095     return m_baseURL;
   1096 }
   1097 
   1098 void Document::setContent(const String& content)
   1099 {
   1100     open();
   1101     m_parser->append(content);
   1102     close();
   1103 }
   1104 
   1105 // FIXME: We need to discuss the DOM API here at some point. Ideas:
   1106 // * making it receive a rect as parameter, i.e. nodesFromRect(x, y, w, h);
   1107 // * making it receive the expading size of each direction separately,
   1108 //   i.e. nodesFromRect(x, y, topSize, rightSize, bottomSize, leftSize);
   1109 PassRefPtr<NodeList> Document::nodesFromRect(int centerX, int centerY, unsigned topPadding, unsigned rightPadding, unsigned bottomPadding, unsigned leftPadding, bool ignoreClipping) const
   1110 {
   1111     // FIXME: Share code between this, elementFromPoint and caretRangeFromPoint.
   1112     if (!renderer())
   1113         return 0;
   1114     Frame* frame = this->frame();
   1115     if (!frame)
   1116         return 0;
   1117     FrameView* frameView = frame->view();
   1118     if (!frameView)
   1119         return 0;
   1120 
   1121     float zoomFactor = frame->pageZoomFactor();
   1122     IntPoint point = roundedIntPoint(FloatPoint(centerX * zoomFactor + view()->scrollX(), centerY * zoomFactor + view()->scrollY()));
   1123 
   1124     int type = HitTestRequest::ReadOnly | HitTestRequest::Active;
   1125 
   1126     // When ignoreClipping is false, this method returns null for coordinates outside of the viewport.
   1127     if (ignoreClipping)
   1128         type |= HitTestRequest::IgnoreClipping;
   1129     else if (!frameView->visibleContentRect().intersects(HitTestResult::rectForPoint(point, topPadding, rightPadding, bottomPadding, leftPadding)))
   1130         return 0;
   1131 
   1132     HitTestRequest request(type);
   1133 
   1134     // Passing a zero padding will trigger a rect hit test, however for the purposes of nodesFromRect,
   1135     // we special handle this case in order to return a valid NodeList.
   1136     if (!topPadding && !rightPadding && !bottomPadding && !leftPadding) {
   1137         HitTestResult result(point);
   1138         return handleZeroPadding(request, result);
   1139     }
   1140 
   1141     HitTestResult result(point, topPadding, rightPadding, bottomPadding, leftPadding);
   1142     renderView()->layer()->hitTest(request, result);
   1143 
   1144     return StaticHashSetNodeList::adopt(result.rectBasedTestResult());
   1145 }
   1146 
   1147 PassRefPtr<NodeList> Document::handleZeroPadding(const HitTestRequest& request, HitTestResult& result) const
   1148 {
   1149     renderView()->layer()->hitTest(request, result);
   1150 
   1151     Node* node = result.innerNode();
   1152     if (!node)
   1153         return 0;
   1154 
   1155     node = node->shadowAncestorNode();
   1156     ListHashSet<RefPtr<Node> > list;
   1157     list.add(node);
   1158     return StaticHashSetNodeList::adopt(list);
   1159 }
   1160 
   1161 static Node* nodeFromPoint(Frame* frame, RenderView* renderView, int x, int y, IntPoint* localPoint = 0)
   1162 {
   1163     if (!frame)
   1164         return 0;
   1165     FrameView* frameView = frame->view();
   1166     if (!frameView)
   1167         return 0;
   1168 
   1169     float zoomFactor = frame->pageZoomFactor();
   1170     IntPoint point = roundedIntPoint(FloatPoint(x * zoomFactor  + frameView->scrollX(), y * zoomFactor + frameView->scrollY()));
   1171 
   1172     if (!frameView->visibleContentRect().contains(point))
   1173         return 0;
   1174 
   1175     HitTestRequest request(HitTestRequest::ReadOnly | HitTestRequest::Active);
   1176     HitTestResult result(point);
   1177     renderView->layer()->hitTest(request, result);
   1178 
   1179     if (localPoint)
   1180         *localPoint = result.localPoint();
   1181 
   1182     return result.innerNode();
   1183 }
   1184 
   1185 Element* Document::elementFromPoint(int x, int y) const
   1186 {
   1187     if (!renderer())
   1188         return 0;
   1189     Node* node = nodeFromPoint(frame(), renderView(), x, y);
   1190     while (node && !node->isElementNode())
   1191         node = node->parentNode();
   1192     if (node)
   1193         node = node->shadowAncestorNode();
   1194     return static_cast<Element*>(node);
   1195 }
   1196 
   1197 PassRefPtr<Range> Document::caretRangeFromPoint(int x, int y)
   1198 {
   1199     if (!renderer())
   1200         return 0;
   1201     IntPoint localPoint;
   1202     Node* node = nodeFromPoint(frame(), renderView(), x, y, &localPoint);
   1203     if (!node)
   1204         return 0;
   1205 
   1206     Node* shadowAncestorNode = node->shadowAncestorNode();
   1207     if (shadowAncestorNode != node) {
   1208         unsigned offset = shadowAncestorNode->nodeIndex();
   1209         ContainerNode* container = shadowAncestorNode->parentNode();
   1210         return Range::create(this, container, offset, container, offset);
   1211     }
   1212 
   1213     RenderObject* renderer = node->renderer();
   1214     if (!renderer)
   1215         return 0;
   1216     VisiblePosition visiblePosition = renderer->positionForPoint(localPoint);
   1217     if (visiblePosition.isNull())
   1218         return 0;
   1219 
   1220     Position rangeCompliantPosition = visiblePosition.deepEquivalent().parentAnchoredEquivalent();
   1221     return Range::create(this, rangeCompliantPosition, rangeCompliantPosition);
   1222 }
   1223 
   1224 /*
   1225  * Performs three operations:
   1226  *  1. Convert control characters to spaces
   1227  *  2. Trim leading and trailing spaces
   1228  *  3. Collapse internal whitespace.
   1229  */
   1230 static inline StringWithDirection canonicalizedTitle(Document* document, const StringWithDirection& titleWithDirection)
   1231 {
   1232     const String& title = titleWithDirection.string();
   1233     const UChar* characters = title.characters();
   1234     unsigned length = title.length();
   1235     unsigned i;
   1236 
   1237     StringBuffer buffer(length);
   1238     unsigned builderIndex = 0;
   1239 
   1240     // Skip leading spaces and leading characters that would convert to spaces
   1241     for (i = 0; i < length; ++i) {
   1242         UChar c = characters[i];
   1243         if (!(c <= 0x20 || c == 0x7F))
   1244             break;
   1245     }
   1246 
   1247     if (i == length)
   1248         return StringWithDirection();
   1249 
   1250     // Replace control characters with spaces, and backslashes with currency symbols, and collapse whitespace.
   1251     bool previousCharWasWS = false;
   1252     for (; i < length; ++i) {
   1253         UChar c = characters[i];
   1254         if (c <= 0x20 || c == 0x7F || (WTF::Unicode::category(c) & (WTF::Unicode::Separator_Line | WTF::Unicode::Separator_Paragraph))) {
   1255             if (previousCharWasWS)
   1256                 continue;
   1257             buffer[builderIndex++] = ' ';
   1258             previousCharWasWS = true;
   1259         } else {
   1260             buffer[builderIndex++] = c;
   1261             previousCharWasWS = false;
   1262         }
   1263     }
   1264 
   1265     // Strip trailing spaces
   1266     while (builderIndex > 0) {
   1267         --builderIndex;
   1268         if (buffer[builderIndex] != ' ')
   1269             break;
   1270     }
   1271 
   1272     if (!builderIndex && buffer[builderIndex] == ' ')
   1273         return StringWithDirection();
   1274 
   1275     buffer.shrink(builderIndex + 1);
   1276 
   1277     // Replace the backslashes with currency symbols if the encoding requires it.
   1278     document->displayBufferModifiedByEncoding(buffer.characters(), buffer.length());
   1279 
   1280     return StringWithDirection(String::adopt(buffer), titleWithDirection.direction());
   1281 }
   1282 
   1283 void Document::updateTitle(const StringWithDirection& title)
   1284 {
   1285     if (m_rawTitle == title)
   1286         return;
   1287 
   1288     m_rawTitle = title;
   1289     m_title = canonicalizedTitle(this, m_rawTitle);
   1290     if (Frame* f = frame())
   1291         f->loader()->setTitle(m_title);
   1292 }
   1293 
   1294 void Document::setTitle(const String& title)
   1295 {
   1296     // Title set by JavaScript -- overrides any title elements.
   1297     m_titleSetExplicitly = true;
   1298     if (!isHTMLDocument())
   1299         m_titleElement = 0;
   1300     else if (!m_titleElement) {
   1301         if (HTMLElement* headElement = head()) {
   1302             m_titleElement = createElement(titleTag, false);
   1303             ExceptionCode ec = 0;
   1304             headElement->appendChild(m_titleElement, ec);
   1305             ASSERT(!ec);
   1306         }
   1307     }
   1308 
   1309     // The DOM API has no method of specifying direction, so assume LTR.
   1310     updateTitle(StringWithDirection(title, LTR));
   1311 
   1312     if (m_titleElement) {
   1313         ASSERT(m_titleElement->hasTagName(titleTag));
   1314         if (m_titleElement->hasTagName(titleTag))
   1315             static_cast<HTMLTitleElement*>(m_titleElement.get())->setText(title);
   1316     }
   1317 }
   1318 
   1319 void Document::setTitleElement(const StringWithDirection& title, Element* titleElement)
   1320 {
   1321     if (titleElement != m_titleElement) {
   1322         if (m_titleElement || m_titleSetExplicitly)
   1323             // Only allow the first title element to change the title -- others have no effect.
   1324             return;
   1325         m_titleElement = titleElement;
   1326     }
   1327 
   1328     updateTitle(title);
   1329 }
   1330 
   1331 void Document::removeTitle(Element* titleElement)
   1332 {
   1333     if (m_titleElement != titleElement)
   1334         return;
   1335 
   1336     m_titleElement = 0;
   1337     m_titleSetExplicitly = false;
   1338 
   1339     // Update title based on first title element in the head, if one exists.
   1340     if (HTMLElement* headElement = head()) {
   1341         for (Node* e = headElement->firstChild(); e; e = e->nextSibling())
   1342             if (e->hasTagName(titleTag)) {
   1343                 HTMLTitleElement* titleElement = static_cast<HTMLTitleElement*>(e);
   1344                 setTitleElement(titleElement->textWithDirection(), titleElement);
   1345                 break;
   1346             }
   1347     }
   1348 
   1349     if (!m_titleElement)
   1350         updateTitle(StringWithDirection());
   1351 }
   1352 
   1353 String Document::nodeName() const
   1354 {
   1355     return "#document";
   1356 }
   1357 
   1358 Node::NodeType Document::nodeType() const
   1359 {
   1360     return DOCUMENT_NODE;
   1361 }
   1362 
   1363 FrameView* Document::view() const
   1364 {
   1365     return m_frame ? m_frame->view() : 0;
   1366 }
   1367 
   1368 Page* Document::page() const
   1369 {
   1370     return m_frame ? m_frame->page() : 0;
   1371 }
   1372 
   1373 Settings* Document::settings() const
   1374 {
   1375     return m_frame ? m_frame->settings() : 0;
   1376 }
   1377 
   1378 PassRefPtr<Range> Document::createRange()
   1379 {
   1380     return Range::create(this);
   1381 }
   1382 
   1383 PassRefPtr<NodeIterator> Document::createNodeIterator(Node* root, unsigned whatToShow,
   1384     PassRefPtr<NodeFilter> filter, bool expandEntityReferences, ExceptionCode& ec)
   1385 {
   1386     if (!root) {
   1387         ec = NOT_SUPPORTED_ERR;
   1388         return 0;
   1389     }
   1390     return NodeIterator::create(root, whatToShow, filter, expandEntityReferences);
   1391 }
   1392 
   1393 PassRefPtr<TreeWalker> Document::createTreeWalker(Node* root, unsigned whatToShow,
   1394     PassRefPtr<NodeFilter> filter, bool expandEntityReferences, ExceptionCode& ec)
   1395 {
   1396     if (!root) {
   1397         ec = NOT_SUPPORTED_ERR;
   1398         return 0;
   1399     }
   1400     return TreeWalker::create(root, whatToShow, filter, expandEntityReferences);
   1401 }
   1402 
   1403 void Document::scheduleForcedStyleRecalc()
   1404 {
   1405     m_pendingStyleRecalcShouldForce = true;
   1406     scheduleStyleRecalc();
   1407 }
   1408 
   1409 void Document::scheduleStyleRecalc()
   1410 {
   1411     if (m_styleRecalcTimer.isActive() || inPageCache())
   1412         return;
   1413 
   1414     ASSERT(childNeedsStyleRecalc() || m_pendingStyleRecalcShouldForce);
   1415 
   1416     if (!documentsThatNeedStyleRecalc)
   1417         documentsThatNeedStyleRecalc = new HashSet<Document*>;
   1418     documentsThatNeedStyleRecalc->add(this);
   1419 
   1420     // FIXME: Why on earth is this here? This is clearly misplaced.
   1421     invalidateAccessKeyMap();
   1422 
   1423     m_styleRecalcTimer.startOneShot(0);
   1424 }
   1425 
   1426 void Document::unscheduleStyleRecalc()
   1427 {
   1428     ASSERT(!childNeedsStyleRecalc());
   1429 
   1430     if (documentsThatNeedStyleRecalc)
   1431         documentsThatNeedStyleRecalc->remove(this);
   1432 
   1433     m_styleRecalcTimer.stop();
   1434     m_pendingStyleRecalcShouldForce = false;
   1435 }
   1436 
   1437 bool Document::isPendingStyleRecalc() const
   1438 {
   1439     return m_styleRecalcTimer.isActive() && !m_inStyleRecalc;
   1440 }
   1441 
   1442 void Document::styleRecalcTimerFired(Timer<Document>*)
   1443 {
   1444     updateStyleIfNeeded();
   1445 }
   1446 
   1447 bool Document::childNeedsAndNotInStyleRecalc()
   1448 {
   1449     return childNeedsStyleRecalc() && !m_inStyleRecalc;
   1450 }
   1451 
   1452 void Document::recalcStyle(StyleChange change)
   1453 {
   1454     // we should not enter style recalc while painting
   1455     if (view() && view()->isPainting()) {
   1456         ASSERT(!view()->isPainting());
   1457         return;
   1458     }
   1459 
   1460     if (m_inStyleRecalc)
   1461         return; // Guard against re-entrancy. -dwh
   1462 
   1463     if (m_hasDirtyStyleSelector)
   1464         recalcStyleSelector();
   1465 
   1466     InspectorInstrumentationCookie cookie = InspectorInstrumentation::willRecalculateStyle(this);
   1467 
   1468     m_inStyleRecalc = true;
   1469     suspendPostAttachCallbacks();
   1470     RenderWidget::suspendWidgetHierarchyUpdates();
   1471 
   1472     RefPtr<FrameView> frameView = view();
   1473     if (frameView) {
   1474         frameView->pauseScheduledEvents();
   1475         frameView->beginDeferredRepaints();
   1476     }
   1477 
   1478 #ifdef ANDROID_INSTRUMENT
   1479     android::TimeCounter::start(android::TimeCounter::CalculateStyleTimeCounter);
   1480 #endif
   1481 
   1482     ASSERT(!renderer() || renderArena());
   1483     if (!renderer() || !renderArena())
   1484         goto bail_out;
   1485 
   1486     if (m_pendingStyleRecalcShouldForce)
   1487         change = Force;
   1488 
   1489     if (change == Force) {
   1490         // style selector may set this again during recalc
   1491         m_hasNodesWithPlaceholderStyle = false;
   1492 
   1493         RefPtr<RenderStyle> documentStyle = CSSStyleSelector::styleForDocument(this);
   1494         StyleChange ch = diff(documentStyle.get(), renderer()->style());
   1495         if (renderer() && ch != NoChange)
   1496             renderer()->setStyle(documentStyle.release());
   1497     }
   1498 
   1499     for (Node* n = firstChild(); n; n = n->nextSibling())
   1500         if (change >= Inherit || n->childNeedsStyleRecalc() || n->needsStyleRecalc())
   1501             n->recalcStyle(change);
   1502 
   1503 #ifdef ANDROID_INSTRUMENT
   1504     android::TimeCounter::record(android::TimeCounter::CalculateStyleTimeCounter, __FUNCTION__);
   1505 #endif
   1506 
   1507 #if USE(ACCELERATED_COMPOSITING)
   1508     if (view()) {
   1509         bool layoutPending = view()->layoutPending() || renderer()->needsLayout();
   1510         // If we didn't update compositing layers because of layout(), we need to do so here.
   1511         if (!layoutPending)
   1512             view()->updateCompositingLayers();
   1513     }
   1514 #endif
   1515 
   1516 bail_out:
   1517     clearNeedsStyleRecalc();
   1518     clearChildNeedsStyleRecalc();
   1519     unscheduleStyleRecalc();
   1520 
   1521     m_inStyleRecalc = false;
   1522 
   1523     // Pseudo element removal and similar may only work with these flags still set. Reset them after the style recalc.
   1524     if (m_styleSelector) {
   1525         m_usesSiblingRules = m_styleSelector->usesSiblingRules();
   1526         m_usesFirstLineRules = m_styleSelector->usesFirstLineRules();
   1527         m_usesBeforeAfterRules = m_styleSelector->usesBeforeAfterRules();
   1528         m_usesLinkRules = m_styleSelector->usesLinkRules();
   1529     }
   1530 
   1531     if (frameView) {
   1532         frameView->resumeScheduledEvents();
   1533         frameView->endDeferredRepaints();
   1534     }
   1535     RenderWidget::resumeWidgetHierarchyUpdates();
   1536     resumePostAttachCallbacks();
   1537 
   1538     // If we wanted to call implicitClose() during recalcStyle, do so now that we're finished.
   1539     if (m_closeAfterStyleRecalc) {
   1540         m_closeAfterStyleRecalc = false;
   1541         implicitClose();
   1542     }
   1543 
   1544     InspectorInstrumentation::didRecalculateStyle(cookie);
   1545 }
   1546 
   1547 void Document::updateStyleIfNeeded()
   1548 {
   1549     ASSERT(isMainThread());
   1550     ASSERT(!view() || (!view()->isInLayout() && !view()->isPainting()));
   1551 
   1552     if ((!m_pendingStyleRecalcShouldForce && !childNeedsStyleRecalc()) || inPageCache())
   1553         return;
   1554 
   1555     if (m_frame)
   1556         m_frame->animation()->beginAnimationUpdate();
   1557 
   1558     recalcStyle(NoChange);
   1559 
   1560     // Tell the animation controller that updateStyleIfNeeded is finished and it can do any post-processing
   1561     if (m_frame)
   1562         m_frame->animation()->endAnimationUpdate();
   1563 }
   1564 
   1565 void Document::updateStyleForAllDocuments()
   1566 {
   1567     ASSERT(isMainThread());
   1568     if (!documentsThatNeedStyleRecalc)
   1569         return;
   1570 
   1571     while (documentsThatNeedStyleRecalc->size()) {
   1572         HashSet<Document*>::iterator it = documentsThatNeedStyleRecalc->begin();
   1573         Document* doc = *it;
   1574         documentsThatNeedStyleRecalc->remove(doc);
   1575         doc->updateStyleIfNeeded();
   1576     }
   1577 }
   1578 
   1579 void Document::updateLayout()
   1580 {
   1581     ASSERT(isMainThread());
   1582     if (Element* oe = ownerElement())
   1583         oe->document()->updateLayout();
   1584 
   1585     updateStyleIfNeeded();
   1586 
   1587     // Only do a layout if changes have occurred that make it necessary.
   1588     FrameView* v = view();
   1589     if (v && renderer() && (v->layoutPending() || renderer()->needsLayout()))
   1590         v->layout();
   1591 }
   1592 
   1593 // FIXME: This is a bad idea and needs to be removed eventually.
   1594 // Other browsers load stylesheets before they continue parsing the web page.
   1595 // Since we don't, we can run JavaScript code that needs answers before the
   1596 // stylesheets are loaded. Doing a layout ignoring the pending stylesheets
   1597 // lets us get reasonable answers. The long term solution to this problem is
   1598 // to instead suspend JavaScript execution.
   1599 void Document::updateLayoutIgnorePendingStylesheets()
   1600 {
   1601     bool oldIgnore = m_ignorePendingStylesheets;
   1602 
   1603     if (!haveStylesheetsLoaded()) {
   1604         m_ignorePendingStylesheets = true;
   1605         // FIXME: We are willing to attempt to suppress painting with outdated style info only once.  Our assumption is that it would be
   1606         // dangerous to try to stop it a second time, after page content has already been loaded and displayed
   1607         // with accurate style information.  (Our suppression involves blanking the whole page at the
   1608         // moment.  If it were more refined, we might be able to do something better.)
   1609         // It's worth noting though that this entire method is a hack, since what we really want to do is
   1610         // suspend JS instead of doing a layout with inaccurate information.
   1611         if (body() && !body()->renderer() && m_pendingSheetLayout == NoLayoutWithPendingSheets) {
   1612             m_pendingSheetLayout = DidLayoutWithPendingSheets;
   1613             styleSelectorChanged(RecalcStyleImmediately);
   1614         } else if (m_hasNodesWithPlaceholderStyle)
   1615             // If new nodes have been added or style recalc has been done with style sheets still pending, some nodes
   1616             // may not have had their real style calculated yet. Normally this gets cleaned when style sheets arrive
   1617             // but here we need up-to-date style immediately.
   1618             recalcStyle(Force);
   1619     }
   1620 
   1621     updateLayout();
   1622 
   1623     m_ignorePendingStylesheets = oldIgnore;
   1624 }
   1625 
   1626 PassRefPtr<RenderStyle> Document::styleForElementIgnoringPendingStylesheets(Element* element)
   1627 {
   1628     ASSERT_ARG(element, element->document() == this);
   1629 
   1630     bool oldIgnore = m_ignorePendingStylesheets;
   1631     m_ignorePendingStylesheets = true;
   1632     RefPtr<RenderStyle> style = styleSelector()->styleForElement(element, element->parentNode() ? element->parentNode()->computedStyle() : 0);
   1633     m_ignorePendingStylesheets = oldIgnore;
   1634     return style.release();
   1635 }
   1636 
   1637 PassRefPtr<RenderStyle> Document::styleForPage(int pageIndex)
   1638 {
   1639     RefPtr<RenderStyle> style = styleSelector()->styleForPage(pageIndex);
   1640     return style.release();
   1641 }
   1642 
   1643 bool Document::isPageBoxVisible(int pageIndex)
   1644 {
   1645     RefPtr<RenderStyle> style = styleForPage(pageIndex);
   1646     return style->visibility() != HIDDEN; // display property doesn't apply to @page.
   1647 }
   1648 
   1649 void Document::pageSizeAndMarginsInPixels(int pageIndex, IntSize& pageSize, int& marginTop, int& marginRight, int& marginBottom, int& marginLeft)
   1650 {
   1651     RefPtr<RenderStyle> style = styleForPage(pageIndex);
   1652 
   1653     int width = pageSize.width();
   1654     int height = pageSize.height();
   1655     switch (style->pageSizeType()) {
   1656     case PAGE_SIZE_AUTO:
   1657         break;
   1658     case PAGE_SIZE_AUTO_LANDSCAPE:
   1659         if (width < height)
   1660             std::swap(width, height);
   1661         break;
   1662     case PAGE_SIZE_AUTO_PORTRAIT:
   1663         if (width > height)
   1664             std::swap(width, height);
   1665         break;
   1666     case PAGE_SIZE_RESOLVED: {
   1667         LengthSize size = style->pageSize();
   1668         ASSERT(size.width().isFixed());
   1669         ASSERT(size.height().isFixed());
   1670         width = size.width().calcValue(0);
   1671         height = size.height().calcValue(0);
   1672         break;
   1673     }
   1674     default:
   1675         ASSERT_NOT_REACHED();
   1676     }
   1677     pageSize = IntSize(width, height);
   1678 
   1679     // The percentage is calculated with respect to the width even for margin top and bottom.
   1680     // http://www.w3.org/TR/CSS2/box.html#margin-properties
   1681     marginTop = style->marginTop().isAuto() ? marginTop : style->marginTop().calcValue(width);
   1682     marginRight = style->marginRight().isAuto() ? marginRight : style->marginRight().calcValue(width);
   1683     marginBottom = style->marginBottom().isAuto() ? marginBottom : style->marginBottom().calcValue(width);
   1684     marginLeft = style->marginLeft().isAuto() ? marginLeft : style->marginLeft().calcValue(width);
   1685 }
   1686 
   1687 PassRefPtr<CSSPrimitiveValueCache> Document::cssPrimitiveValueCache() const
   1688 {
   1689     if (!m_cssPrimitiveValueCache)
   1690         m_cssPrimitiveValueCache = CSSPrimitiveValueCache::create();
   1691     return m_cssPrimitiveValueCache;
   1692 }
   1693 
   1694 void Document::createStyleSelector()
   1695 {
   1696     bool matchAuthorAndUserStyles = true;
   1697     if (Settings* docSettings = settings())
   1698         matchAuthorAndUserStyles = docSettings->authorAndUserStylesEnabled();
   1699     m_styleSelector.set(new CSSStyleSelector(this, m_styleSheets.get(), m_mappedElementSheet.get(), pageUserSheet(), pageGroupUserSheets(),
   1700                                              !inQuirksMode(), matchAuthorAndUserStyles));
   1701     // Delay resetting the flags until after next style recalc since unapplying the style may not work without these set (this is true at least with before/after).
   1702     m_usesSiblingRules = m_usesSiblingRules || m_styleSelector->usesSiblingRules();
   1703     m_usesFirstLineRules = m_usesFirstLineRules || m_styleSelector->usesFirstLineRules();
   1704     m_usesBeforeAfterRules = m_usesBeforeAfterRules || m_styleSelector->usesBeforeAfterRules();
   1705     m_usesLinkRules = m_usesLinkRules || m_styleSelector->usesLinkRules();
   1706 }
   1707 
   1708 void Document::attach()
   1709 {
   1710     ASSERT(!attached());
   1711     ASSERT(!m_inPageCache);
   1712 #if !PLATFORM(ANDROID)
   1713     ASSERT(!m_axObjectCache);
   1714 #endif
   1715 
   1716     if (!m_renderArena)
   1717         m_renderArena = new RenderArena();
   1718 
   1719     // Create the rendering tree
   1720     setRenderer(new (m_renderArena.get()) RenderView(this, view()));
   1721 #if USE(ACCELERATED_COMPOSITING)
   1722     renderView()->didMoveOnscreen();
   1723 #endif
   1724 
   1725     recalcStyle(Force);
   1726 
   1727     RenderObject* render = renderer();
   1728     setRenderer(0);
   1729 
   1730     TreeScope::attach();
   1731 
   1732     setRenderer(render);
   1733 }
   1734 
   1735 void Document::detach()
   1736 {
   1737     ASSERT(attached());
   1738     ASSERT(!m_inPageCache);
   1739 
   1740     clearAXObjectCache();
   1741     stopActiveDOMObjects();
   1742     m_eventQueue->cancelQueuedEvents();
   1743 
   1744 #if ENABLE(REQUEST_ANIMATION_FRAME)
   1745     // FIXME: consider using ActiveDOMObject.
   1746     m_scriptedAnimationController = 0;
   1747 #endif
   1748 
   1749     RenderObject* render = renderer();
   1750 
   1751     // Send out documentWillBecomeInactive() notifications to registered elements,
   1752     // in order to stop media elements
   1753     documentWillBecomeInactive();
   1754 
   1755 #if ENABLE(SHARED_WORKERS)
   1756     SharedWorkerRepository::documentDetached(this);
   1757 #endif
   1758 
   1759     if (m_frame) {
   1760         FrameView* view = m_frame->view();
   1761         if (view)
   1762             view->detachCustomScrollbars();
   1763     }
   1764 
   1765     // indicate destruction mode,  i.e. attached() but renderer == 0
   1766     setRenderer(0);
   1767 
   1768 #if ENABLE(FULLSCREEN_API)
   1769     if (m_fullScreenRenderer)
   1770         setFullScreenRenderer(0);
   1771 #endif
   1772 
   1773     m_hoverNode = 0;
   1774     m_focusedNode = 0;
   1775     m_activeNode = 0;
   1776 
   1777     TreeScope::detach();
   1778 
   1779     unscheduleStyleRecalc();
   1780 
   1781     if (render)
   1782         render->destroy();
   1783 
   1784     // This is required, as our Frame might delete itself as soon as it detaches
   1785     // us. However, this violates Node::detach() semantics, as it's never
   1786     // possible to re-attach. Eventually Document::detach() should be renamed,
   1787     // or this setting of the frame to 0 could be made explicit in each of the
   1788     // callers of Document::detach().
   1789     m_frame = 0;
   1790     m_renderArena.clear();
   1791 }
   1792 
   1793 void Document::removeAllEventListeners()
   1794 {
   1795 #if ENABLE(TOUCH_EVENTS)
   1796     Page* ownerPage = page();
   1797     if (!m_inPageCache && ownerPage && (m_frame == ownerPage->mainFrame()) && hasListenerType(Document::TOUCH_LISTENER)) {
   1798         // Inform the Chrome Client that it no longer needs to forward touch
   1799         // events to WebCore as the document removes all the event listeners.
   1800         ownerPage->chrome()->client()->needTouchEvents(false);
   1801     }
   1802 #endif
   1803 
   1804     EventTarget::removeAllEventListeners();
   1805 
   1806     if (DOMWindow* domWindow = this->domWindow())
   1807         domWindow->removeAllEventListeners();
   1808     for (Node* node = firstChild(); node; node = node->traverseNextNode())
   1809         node->removeAllEventListeners();
   1810 }
   1811 
   1812 RenderView* Document::renderView() const
   1813 {
   1814     return toRenderView(renderer());
   1815 }
   1816 
   1817 void Document::clearAXObjectCache()
   1818 {
   1819 #if PLATFORM(ANDROID)
   1820     return;
   1821 #else
   1822     // clear cache in top document
   1823     if (m_axObjectCache) {
   1824         // Clear the cache member variable before calling delete because attempts
   1825         // are made to access it during destruction.
   1826         AXObjectCache* axObjectCache = m_axObjectCache;
   1827         m_axObjectCache = 0;
   1828         delete axObjectCache;
   1829         return;
   1830     }
   1831 
   1832     // ask the top-level document to clear its cache
   1833     Document* doc = topDocument();
   1834     if (doc != this)
   1835         doc->clearAXObjectCache();
   1836 #endif
   1837 }
   1838 
   1839 bool Document::axObjectCacheExists() const
   1840 {
   1841 #if PLATFORM(ANDROID)
   1842     return false;
   1843 #else
   1844     if (m_axObjectCache)
   1845         return true;
   1846 
   1847     Document* doc = topDocument();
   1848     if (doc != this)
   1849         return doc->axObjectCacheExists();
   1850 
   1851     return false;
   1852 #endif
   1853 }
   1854 
   1855 AXObjectCache* Document::axObjectCache() const
   1856 {
   1857 #if PLATFORM(ANDROID)
   1858     return 0;
   1859 #else
   1860     // The only document that actually has a AXObjectCache is the top-level
   1861     // document.  This is because we need to be able to get from any WebCoreAXObject
   1862     // to any other WebCoreAXObject on the same page.  Using a single cache allows
   1863     // lookups across nested webareas (i.e. multiple documents).
   1864 
   1865     if (m_axObjectCache) {
   1866         // return already known top-level cache
   1867         if (!ownerElement())
   1868             return m_axObjectCache;
   1869 
   1870         // In some pages with frames, the cache is created before the sub-webarea is
   1871         // inserted into the tree.  Here, we catch that case and just toss the old
   1872         // cache and start over.
   1873         // NOTE: This recovery may no longer be needed. I have been unable to trigger
   1874         // it again. See rdar://5794454
   1875         // FIXME: Can this be fixed when inserting the subframe instead of now?
   1876         // FIXME: If this function was called to get the cache in order to remove
   1877         // an AXObject, we are now deleting the cache as a whole and returning a
   1878         // new empty cache that does not contain the AXObject! That should actually
   1879         // be OK. I am concerned about other cases like this where accessing the
   1880         // cache blows away the AXObject being operated on.
   1881         delete m_axObjectCache;
   1882         m_axObjectCache = 0;
   1883     }
   1884 
   1885     // ask the top-level document for its cache
   1886     Document* doc = topDocument();
   1887     if (doc != this)
   1888         return doc->axObjectCache();
   1889 
   1890     // this is the top-level document, so install a new cache
   1891     m_axObjectCache = new AXObjectCache(this);
   1892     return m_axObjectCache;
   1893 #endif // ANDROID
   1894 }
   1895 
   1896 void Document::setVisuallyOrdered()
   1897 {
   1898     m_visuallyOrdered = true;
   1899     if (renderer())
   1900         renderer()->style()->setVisuallyOrdered(true);
   1901 }
   1902 
   1903 PassRefPtr<DocumentParser> Document::createParser()
   1904 {
   1905     // FIXME: this should probably pass the frame instead
   1906     return XMLDocumentParser::create(this, view());
   1907 }
   1908 
   1909 ScriptableDocumentParser* Document::scriptableDocumentParser() const
   1910 {
   1911     return parser() ? parser()->asScriptableDocumentParser() : 0;
   1912 }
   1913 
   1914 void Document::open(Document* ownerDocument)
   1915 {
   1916     if (ownerDocument) {
   1917         setURL(ownerDocument->url());
   1918         m_cookieURL = ownerDocument->cookieURL();
   1919         ScriptExecutionContext::setSecurityOrigin(ownerDocument->securityOrigin());
   1920     }
   1921 
   1922     if (m_frame) {
   1923         if (ScriptableDocumentParser* parser = scriptableDocumentParser()) {
   1924             if (parser->isParsing()) {
   1925                 // FIXME: HTML5 doesn't tell us to check this, it might not be correct.
   1926                 if (parser->isExecutingScript())
   1927                     return;
   1928 
   1929                 if (!parser->wasCreatedByScript() && parser->hasInsertionPoint())
   1930                     return;
   1931             }
   1932         }
   1933 
   1934         if (m_frame->loader()->state() == FrameStateProvisional)
   1935             m_frame->loader()->stopAllLoaders();
   1936     }
   1937 
   1938     removeAllEventListeners();
   1939     implicitOpen();
   1940     if (ScriptableDocumentParser* parser = scriptableDocumentParser())
   1941         parser->setWasCreatedByScript(true);
   1942 
   1943     if (DOMWindow* domWindow = this->domWindow())
   1944         domWindow->removeAllEventListeners();
   1945 
   1946     if (m_frame)
   1947         m_frame->loader()->didExplicitOpen();
   1948 }
   1949 
   1950 void Document::detachParser()
   1951 {
   1952     if (!m_parser)
   1953         return;
   1954     m_parser->detach();
   1955     m_parser.clear();
   1956 }
   1957 
   1958 void Document::cancelParsing()
   1959 {
   1960     if (!m_parser)
   1961         return;
   1962 
   1963     // We have to clear the parser to avoid possibly triggering
   1964     // the onload handler when closing as a side effect of a cancel-style
   1965     // change, such as opening a new document or closing the window while
   1966     // still parsing
   1967     detachParser();
   1968     explicitClose();
   1969 }
   1970 
   1971 void Document::implicitOpen()
   1972 {
   1973     cancelParsing();
   1974 
   1975     removeChildren();
   1976 
   1977     setCompatibilityMode(NoQuirksMode);
   1978 
   1979     m_parser = createParser();
   1980     setParsing(true);
   1981     setReadyState(Loading);
   1982 
   1983     // If we reload, the animation controller sticks around and has
   1984     // a stale animation time. We need to update it here.
   1985     if (m_frame && m_frame->animation())
   1986         m_frame->animation()->beginAnimationUpdate();
   1987 }
   1988 
   1989 HTMLElement* Document::body() const
   1990 {
   1991     Node* de = documentElement();
   1992     if (!de)
   1993         return 0;
   1994 
   1995     // try to prefer a FRAMESET element over BODY
   1996     Node* body = 0;
   1997     for (Node* i = de->firstChild(); i; i = i->nextSibling()) {
   1998         if (i->hasTagName(framesetTag))
   1999             return toHTMLElement(i);
   2000 
   2001         if (i->hasTagName(bodyTag) && !body)
   2002             body = i;
   2003     }
   2004     return toHTMLElement(body);
   2005 }
   2006 
   2007 void Document::setBody(PassRefPtr<HTMLElement> newBody, ExceptionCode& ec)
   2008 {
   2009     ec = 0;
   2010 
   2011     if (!newBody || !documentElement() || !newBody->hasTagName(bodyTag)) {
   2012         ec = HIERARCHY_REQUEST_ERR;
   2013         return;
   2014     }
   2015 
   2016     if (newBody->document() && newBody->document() != this) {
   2017         RefPtr<Node> node = importNode(newBody.get(), true, ec);
   2018         if (ec)
   2019             return;
   2020 
   2021         newBody = toHTMLElement(node.get());
   2022     }
   2023 
   2024     HTMLElement* b = body();
   2025     if (!b)
   2026         documentElement()->appendChild(newBody, ec);
   2027     else
   2028         documentElement()->replaceChild(newBody, b, ec);
   2029 }
   2030 
   2031 HTMLHeadElement* Document::head()
   2032 {
   2033     Node* de = documentElement();
   2034     if (!de)
   2035         return 0;
   2036 
   2037     for (Node* e = de->firstChild(); e; e = e->nextSibling())
   2038         if (e->hasTagName(headTag))
   2039             return static_cast<HTMLHeadElement*>(e);
   2040 
   2041     return 0;
   2042 }
   2043 
   2044 void Document::close()
   2045 {
   2046     // FIXME: We should follow the specification more closely:
   2047     //        http://www.whatwg.org/specs/web-apps/current-work/#dom-document-close
   2048 
   2049     if (!scriptableDocumentParser() || !scriptableDocumentParser()->wasCreatedByScript())
   2050         return;
   2051 
   2052     explicitClose();
   2053 }
   2054 
   2055 void Document::explicitClose()
   2056 {
   2057     if (!m_frame) {
   2058         // Because we have no frame, we don't know if all loading has completed,
   2059         // so we just call implicitClose() immediately. FIXME: This might fire
   2060         // the load event prematurely <http://bugs.webkit.org/show_bug.cgi?id=14568>.
   2061         if (m_parser)
   2062             m_parser->finish();
   2063         implicitClose();
   2064         return;
   2065     }
   2066 
   2067     // This code calls implicitClose() if all loading has completed.
   2068     loader()->writer()->endIfNotLoadingMainResource();
   2069     if (m_frame)
   2070         m_frame->loader()->checkCompleted();
   2071 }
   2072 
   2073 void Document::implicitClose()
   2074 {
   2075     // If we're in the middle of recalcStyle, we need to defer the close until the style information is accurate and all elements are re-attached.
   2076     if (m_inStyleRecalc) {
   2077         m_closeAfterStyleRecalc = true;
   2078         return;
   2079     }
   2080 
   2081     bool wasLocationChangePending = frame() && frame()->navigationScheduler()->locationChangePending();
   2082     bool doload = !parsing() && m_parser && !m_processingLoadEvent && !wasLocationChangePending;
   2083 
   2084     if (!doload)
   2085         return;
   2086 
   2087     m_processingLoadEvent = true;
   2088 
   2089     ScriptableDocumentParser* parser = scriptableDocumentParser();
   2090     m_wellFormed = parser && parser->wellFormed();
   2091 
   2092     // We have to clear the parser, in case someone document.write()s from the
   2093     // onLoad event handler, as in Radar 3206524.
   2094     detachParser();
   2095 
   2096     // Parser should have picked up all preloads by now
   2097     m_cachedResourceLoader->clearPreloads();
   2098 
   2099     // FIXME: We kick off the icon loader when the Document is done parsing.
   2100     // There are earlier opportunities we could start it:
   2101     //  -When the <head> finishes parsing
   2102     //  -When any new HTMLLinkElement is inserted into the document
   2103     // But those add a dynamic component to the favicon that has UI
   2104     // ramifications, and we need to decide what is the Right Thing To Do(tm)
   2105     Frame* f = frame();
   2106     if (f)
   2107         f->loader()->startIconLoader();
   2108 
   2109     // Resume the animations (or start them)
   2110     if (f)
   2111         f->animation()->resumeAnimationsForDocument(this);
   2112 
   2113     ImageLoader::dispatchPendingBeforeLoadEvents();
   2114     ImageLoader::dispatchPendingLoadEvents();
   2115     dispatchWindowLoadEvent();
   2116     enqueuePageshowEvent(PageshowEventNotPersisted);
   2117     enqueuePopstateEvent(m_pendingStateObject ? m_pendingStateObject.release() : SerializedScriptValue::nullValue());
   2118 
   2119     if (f)
   2120         f->loader()->handledOnloadEvents();
   2121 #ifdef INSTRUMENT_LAYOUT_SCHEDULING
   2122     if (!ownerElement())
   2123         printf("onload fired at %d\n", elapsedTime());
   2124 #endif
   2125 
   2126     m_processingLoadEvent = false;
   2127 
   2128     // An event handler may have removed the frame
   2129     if (!frame())
   2130         return;
   2131 
   2132     // Make sure both the initial layout and reflow happen after the onload
   2133     // fires. This will improve onload scores, and other browsers do it.
   2134     // If they wanna cheat, we can too. -dwh
   2135 
   2136     if (frame()->navigationScheduler()->locationChangePending() && elapsedTime() < cLayoutScheduleThreshold) {
   2137         // Just bail out. Before or during the onload we were shifted to another page.
   2138         // The old i-Bench suite does this. When this happens don't bother painting or laying out.
   2139         view()->unscheduleRelayout();
   2140         return;
   2141     }
   2142 
   2143     frame()->loader()->checkCallImplicitClose();
   2144     RenderObject* renderObject = renderer();
   2145 
   2146     // We used to force a synchronous display and flush here.  This really isn't
   2147     // necessary and can in fact be actively harmful if pages are loading at a rate of > 60fps
   2148     // (if your platform is syncing flushes and limiting them to 60fps).
   2149     m_overMinimumLayoutThreshold = true;
   2150     if (!ownerElement() || (ownerElement()->renderer() && !ownerElement()->renderer()->needsLayout())) {
   2151         updateStyleIfNeeded();
   2152 
   2153         // Always do a layout after loading if needed.
   2154         if (view() && renderObject && (!renderObject->firstChild() || renderObject->needsLayout()))
   2155             view()->layout();
   2156     }
   2157 
   2158 #if PLATFORM(MAC) || PLATFORM(CHROMIUM)
   2159     if (f && renderObject && this == topDocument() && AXObjectCache::accessibilityEnabled()) {
   2160         // The AX cache may have been cleared at this point, but we need to make sure it contains an
   2161         // AX object to send the notification to. getOrCreate will make sure that an valid AX object
   2162         // exists in the cache (we ignore the return value because we don't need it here). This is
   2163         // only safe to call when a layout is not in progress, so it can not be used in postNotification.
   2164         axObjectCache()->getOrCreate(renderObject);
   2165         axObjectCache()->postNotification(renderObject, AXObjectCache::AXLoadComplete, true);
   2166     }
   2167 #endif
   2168 
   2169 #if ENABLE(SVG)
   2170     // FIXME: Officially, time 0 is when the outermost <svg> receives its
   2171     // SVGLoad event, but we don't implement those yet.  This is close enough
   2172     // for now.  In some cases we should have fired earlier.
   2173     if (svgExtensions())
   2174         accessSVGExtensions()->startAnimations();
   2175 #endif
   2176 }
   2177 
   2178 void Document::setParsing(bool b)
   2179 {
   2180     m_bParsing = b;
   2181     if (!m_bParsing && view())
   2182         view()->scheduleRelayout();
   2183 
   2184 #ifdef INSTRUMENT_LAYOUT_SCHEDULING
   2185     if (!ownerElement() && !m_bParsing)
   2186         printf("Parsing finished at %d\n", elapsedTime());
   2187 #endif
   2188 }
   2189 
   2190 bool Document::shouldScheduleLayout()
   2191 {
   2192     // This function will only be called when FrameView thinks a layout is needed.
   2193     // This enforces a couple extra rules.
   2194     //
   2195     //    (a) Only schedule a layout once the stylesheets are loaded.
   2196     //    (b) Only schedule layout once we have a body element.
   2197 
   2198     return (haveStylesheetsLoaded() && body())
   2199         || (documentElement() && !documentElement()->hasTagName(htmlTag));
   2200 }
   2201 
   2202 bool Document::isLayoutTimerActive()
   2203 {
   2204     if (!view() || !view()->layoutPending())
   2205         return false;
   2206     bool isPendingLayoutImmediate = minimumLayoutDelay() == m_extraLayoutDelay;
   2207     return isPendingLayoutImmediate;
   2208 }
   2209 
   2210 int Document::minimumLayoutDelay()
   2211 {
   2212     if (m_overMinimumLayoutThreshold)
   2213         return m_extraLayoutDelay;
   2214 
   2215     int elapsed = elapsedTime();
   2216     m_overMinimumLayoutThreshold = elapsed > cLayoutScheduleThreshold;
   2217 
   2218     // We'll want to schedule the timer to fire at the minimum layout threshold.
   2219     return max(0, cLayoutScheduleThreshold - elapsed) + m_extraLayoutDelay;
   2220 }
   2221 
   2222 int Document::elapsedTime() const
   2223 {
   2224     return static_cast<int>((currentTime() - m_startTime) * 1000);
   2225 }
   2226 
   2227 void Document::write(const SegmentedString& text, Document* ownerDocument)
   2228 {
   2229     NestingLevelIncrementer nestingLevelIncrementer(m_writeRecursionDepth);
   2230 
   2231     m_writeRecursionIsTooDeep = (m_writeRecursionDepth > 1) && m_writeRecursionIsTooDeep;
   2232     m_writeRecursionIsTooDeep = (m_writeRecursionDepth > cMaxWriteRecursionDepth) || m_writeRecursionIsTooDeep;
   2233 
   2234     if (m_writeRecursionIsTooDeep)
   2235        return;
   2236 
   2237 #ifdef INSTRUMENT_LAYOUT_SCHEDULING
   2238     if (!ownerElement())
   2239         printf("Beginning a document.write at %d\n", elapsedTime());
   2240 #endif
   2241 
   2242     bool hasInsertionPoint = m_parser && m_parser->hasInsertionPoint();
   2243     if (!hasInsertionPoint && m_ignoreDestructiveWriteCount)
   2244         return;
   2245 
   2246     if (!hasInsertionPoint)
   2247         open(ownerDocument);
   2248 
   2249     ASSERT(m_parser);
   2250     m_parser->insert(text);
   2251 
   2252 #ifdef INSTRUMENT_LAYOUT_SCHEDULING
   2253     if (!ownerElement())
   2254         printf("Ending a document.write at %d\n", elapsedTime());
   2255 #endif
   2256 }
   2257 
   2258 void Document::write(const String& text, Document* ownerDocument)
   2259 {
   2260     write(SegmentedString(text), ownerDocument);
   2261 }
   2262 
   2263 void Document::writeln(const String& text, Document* ownerDocument)
   2264 {
   2265     write(text, ownerDocument);
   2266     write("\n", ownerDocument);
   2267 }
   2268 
   2269 void Document::finishParsing()
   2270 {
   2271 #ifdef INSTRUMENT_LAYOUT_SCHEDULING
   2272     if (!ownerElement())
   2273         printf("Received all data at %d\n", elapsedTime());
   2274 #endif
   2275 
   2276     // Let the parser go through as much data as it can.  There will be three possible outcomes after
   2277     // finish() is called:
   2278     // (1) All remaining data is parsed, document isn't loaded yet
   2279     // (2) All remaining data is parsed, document is loaded, parser gets deleted
   2280     // (3) Data is still remaining to be parsed.
   2281     if (m_parser)
   2282         m_parser->finish();
   2283 }
   2284 
   2285 const KURL& Document::virtualURL() const
   2286 {
   2287     return m_url;
   2288 }
   2289 
   2290 KURL Document::virtualCompleteURL(const String& url) const
   2291 {
   2292     return completeURL(url);
   2293 }
   2294 
   2295 double Document::minimumTimerInterval() const
   2296 {
   2297     Page* p = page();
   2298     if (!p)
   2299         return ScriptExecutionContext::minimumTimerInterval();
   2300     return p->settings()->minDOMTimerInterval();
   2301 }
   2302 
   2303 EventTarget* Document::errorEventTarget()
   2304 {
   2305     return domWindow();
   2306 }
   2307 
   2308 void Document::logExceptionToConsole(const String& errorMessage, int lineNumber, const String& sourceURL, PassRefPtr<ScriptCallStack> callStack)
   2309 {
   2310     MessageType messageType = callStack ? UncaughtExceptionMessageType : LogMessageType;
   2311     addMessage(JSMessageSource, messageType, ErrorMessageLevel, errorMessage, lineNumber, sourceURL, callStack);
   2312 }
   2313 
   2314 void Document::setURL(const KURL& url)
   2315 {
   2316     const KURL& newURL = url.isEmpty() ? blankURL() : url;
   2317     if (newURL == m_url)
   2318         return;
   2319 
   2320     m_url = newURL;
   2321     m_documentURI = m_url.string();
   2322     updateBaseURL();
   2323 }
   2324 
   2325 void Document::updateBaseURL()
   2326 {
   2327     // DOM 3 Core: When the Document supports the feature "HTML" [DOM Level 2 HTML], the base URI is computed using
   2328     // first the value of the href attribute of the HTML BASE element if any, and the value of the documentURI attribute
   2329     // from the Document interface otherwise.
   2330     if (m_baseElementURL.isEmpty()) {
   2331         // The documentURI attribute is an arbitrary string. DOM 3 Core does not specify how it should be resolved,
   2332         // so we use a null base URL.
   2333         m_baseURL = KURL(KURL(), documentURI());
   2334     } else
   2335         m_baseURL = m_baseElementURL;
   2336     if (!m_baseURL.isValid())
   2337         m_baseURL = KURL();
   2338 
   2339     if (m_elemSheet)
   2340         m_elemSheet->setFinalURL(m_baseURL);
   2341     if (m_mappedElementSheet)
   2342         m_mappedElementSheet->setFinalURL(m_baseURL);
   2343 }
   2344 
   2345 void Document::processBaseElement()
   2346 {
   2347     // Find the first href attribute in a base element and the first target attribute in a base element.
   2348     const AtomicString* href = 0;
   2349     const AtomicString* target = 0;
   2350     for (Node* node = document()->firstChild(); node && (!href || !target); node = node->traverseNextNode()) {
   2351         if (node->hasTagName(baseTag)) {
   2352             if (!href) {
   2353                 const AtomicString& value = static_cast<Element*>(node)->fastGetAttribute(hrefAttr);
   2354                 if (!value.isNull())
   2355                     href = &value;
   2356             }
   2357             if (!target) {
   2358                 const AtomicString& value = static_cast<Element*>(node)->fastGetAttribute(targetAttr);
   2359                 if (!value.isNull())
   2360                     target = &value;
   2361             }
   2362         }
   2363     }
   2364 
   2365     // FIXME: Since this doesn't share code with completeURL it may not handle encodings correctly.
   2366     KURL baseElementURL;
   2367     if (href) {
   2368         String strippedHref = stripLeadingAndTrailingHTMLSpaces(*href);
   2369         if (!strippedHref.isEmpty())
   2370             baseElementURL = KURL(url(), strippedHref);
   2371     }
   2372     if (m_baseElementURL != baseElementURL) {
   2373         m_baseElementURL = baseElementURL;
   2374         updateBaseURL();
   2375     }
   2376 
   2377     m_baseTarget = target ? *target : nullAtom;
   2378 }
   2379 
   2380 String Document::userAgent(const KURL& url) const
   2381 {
   2382     return frame() ? frame()->loader()->userAgent(url) : String();
   2383 }
   2384 
   2385 CSSStyleSheet* Document::pageUserSheet()
   2386 {
   2387     if (m_pageUserSheet)
   2388         return m_pageUserSheet.get();
   2389 
   2390     Page* owningPage = page();
   2391     if (!owningPage)
   2392         return 0;
   2393 
   2394     String userSheetText = owningPage->userStyleSheet();
   2395     if (userSheetText.isEmpty())
   2396         return 0;
   2397 
   2398     // Parse the sheet and cache it.
   2399     m_pageUserSheet = CSSStyleSheet::createInline(this, settings()->userStyleSheetLocation());
   2400     m_pageUserSheet->setIsUserStyleSheet(true);
   2401     m_pageUserSheet->parseString(userSheetText, !inQuirksMode());
   2402     return m_pageUserSheet.get();
   2403 }
   2404 
   2405 void Document::clearPageUserSheet()
   2406 {
   2407     if (m_pageUserSheet) {
   2408         m_pageUserSheet = 0;
   2409         styleSelectorChanged(DeferRecalcStyle);
   2410     }
   2411 }
   2412 
   2413 void Document::updatePageUserSheet()
   2414 {
   2415     clearPageUserSheet();
   2416     if (pageUserSheet())
   2417         styleSelectorChanged(RecalcStyleImmediately);
   2418 }
   2419 
   2420 const Vector<RefPtr<CSSStyleSheet> >* Document::pageGroupUserSheets() const
   2421 {
   2422     if (m_pageGroupUserSheetCacheValid)
   2423         return m_pageGroupUserSheets.get();
   2424 
   2425     m_pageGroupUserSheetCacheValid = true;
   2426 
   2427     Page* owningPage = page();
   2428     if (!owningPage)
   2429         return 0;
   2430 
   2431     const PageGroup& pageGroup = owningPage->group();
   2432     const UserStyleSheetMap* sheetsMap = pageGroup.userStyleSheets();
   2433     if (!sheetsMap)
   2434         return 0;
   2435 
   2436     UserStyleSheetMap::const_iterator end = sheetsMap->end();
   2437     for (UserStyleSheetMap::const_iterator it = sheetsMap->begin(); it != end; ++it) {
   2438         const UserStyleSheetVector* sheets = it->second;
   2439         for (unsigned i = 0; i < sheets->size(); ++i) {
   2440             const UserStyleSheet* sheet = sheets->at(i).get();
   2441             if (sheet->injectedFrames() == InjectInTopFrameOnly && ownerElement())
   2442                 continue;
   2443             if (!UserContentURLPattern::matchesPatterns(url(), sheet->whitelist(), sheet->blacklist()))
   2444                 continue;
   2445             RefPtr<CSSStyleSheet> parsedSheet = CSSStyleSheet::createInline(const_cast<Document*>(this), sheet->url());
   2446             parsedSheet->setIsUserStyleSheet(sheet->level() == UserStyleUserLevel);
   2447             parsedSheet->parseString(sheet->source(), !inQuirksMode());
   2448             if (!m_pageGroupUserSheets)
   2449                 m_pageGroupUserSheets.set(new Vector<RefPtr<CSSStyleSheet> >);
   2450             m_pageGroupUserSheets->append(parsedSheet.release());
   2451         }
   2452     }
   2453 
   2454     return m_pageGroupUserSheets.get();
   2455 }
   2456 
   2457 void Document::clearPageGroupUserSheets()
   2458 {
   2459     m_pageGroupUserSheetCacheValid = false;
   2460     if (m_pageGroupUserSheets && m_pageGroupUserSheets->size()) {
   2461         m_pageGroupUserSheets->clear();
   2462         styleSelectorChanged(DeferRecalcStyle);
   2463     }
   2464 }
   2465 
   2466 void Document::updatePageGroupUserSheets()
   2467 {
   2468     clearPageGroupUserSheets();
   2469     if (pageGroupUserSheets() && pageGroupUserSheets()->size())
   2470         styleSelectorChanged(RecalcStyleImmediately);
   2471 }
   2472 
   2473 CSSStyleSheet* Document::elementSheet()
   2474 {
   2475     if (!m_elemSheet)
   2476         m_elemSheet = CSSStyleSheet::createInline(this, m_baseURL);
   2477     return m_elemSheet.get();
   2478 }
   2479 
   2480 CSSStyleSheet* Document::mappedElementSheet()
   2481 {
   2482     if (!m_mappedElementSheet)
   2483         m_mappedElementSheet = CSSStyleSheet::createInline(this, m_baseURL);
   2484     return m_mappedElementSheet.get();
   2485 }
   2486 
   2487 static Node* nextNodeWithExactTabIndex(Node* start, int tabIndex, KeyboardEvent* event)
   2488 {
   2489     // Search is inclusive of start
   2490     for (Node* n = start; n; n = n->traverseNextNode())
   2491         if (n->isKeyboardFocusable(event) && n->tabIndex() == tabIndex)
   2492             return n;
   2493 
   2494     return 0;
   2495 }
   2496 
   2497 static Node* previousNodeWithExactTabIndex(Node* start, int tabIndex, KeyboardEvent* event)
   2498 {
   2499     // Search is inclusive of start
   2500     for (Node* n = start; n; n = n->traversePreviousNode())
   2501         if (n->isKeyboardFocusable(event) && n->tabIndex() == tabIndex)
   2502             return n;
   2503 
   2504     return 0;
   2505 }
   2506 
   2507 static Node* nextNodeWithGreaterTabIndex(Node* start, int tabIndex, KeyboardEvent* event)
   2508 {
   2509     // Search is inclusive of start
   2510     int winningTabIndex = SHRT_MAX + 1;
   2511     Node* winner = 0;
   2512     for (Node* n = start; n; n = n->traverseNextNode())
   2513         if (n->isKeyboardFocusable(event) && n->tabIndex() > tabIndex && n->tabIndex() < winningTabIndex) {
   2514             winner = n;
   2515             winningTabIndex = n->tabIndex();
   2516         }
   2517 
   2518     return winner;
   2519 }
   2520 
   2521 static Node* previousNodeWithLowerTabIndex(Node* start, int tabIndex, KeyboardEvent* event)
   2522 {
   2523     // Search is inclusive of start
   2524     int winningTabIndex = 0;
   2525     Node* winner = 0;
   2526     for (Node* n = start; n; n = n->traversePreviousNode())
   2527         if (n->isKeyboardFocusable(event) && n->tabIndex() < tabIndex && n->tabIndex() > winningTabIndex) {
   2528             winner = n;
   2529             winningTabIndex = n->tabIndex();
   2530         }
   2531 
   2532     return winner;
   2533 }
   2534 
   2535 Node* Document::nextFocusableNode(Node* start, KeyboardEvent* event)
   2536 {
   2537     if (start) {
   2538         // If a node is excluded from the normal tabbing cycle, the next focusable node is determined by tree order
   2539         if (start->tabIndex() < 0) {
   2540             for (Node* n = start->traverseNextNode(); n; n = n->traverseNextNode())
   2541                 if (n->isKeyboardFocusable(event) && n->tabIndex() >= 0)
   2542                     return n;
   2543         }
   2544 
   2545         // First try to find a node with the same tabindex as start that comes after start in the document.
   2546         if (Node* winner = nextNodeWithExactTabIndex(start->traverseNextNode(), start->tabIndex(), event))
   2547             return winner;
   2548 
   2549         if (!start->tabIndex())
   2550             // We've reached the last node in the document with a tabindex of 0. This is the end of the tabbing order.
   2551             return 0;
   2552     }
   2553 
   2554     // Look for the first node in the document that:
   2555     // 1) has the lowest tabindex that is higher than start's tabindex (or 0, if start is null), and
   2556     // 2) comes first in the document, if there's a tie.
   2557     if (Node* winner = nextNodeWithGreaterTabIndex(this, start ? start->tabIndex() : 0, event))
   2558         return winner;
   2559 
   2560     // There are no nodes with a tabindex greater than start's tabindex,
   2561     // so find the first node with a tabindex of 0.
   2562     return nextNodeWithExactTabIndex(this, 0, event);
   2563 }
   2564 
   2565 Node* Document::previousFocusableNode(Node* start, KeyboardEvent* event)
   2566 {
   2567     Node* last;
   2568     for (last = this; last->lastChild(); last = last->lastChild()) { }
   2569 
   2570     // First try to find the last node in the document that comes before start and has the same tabindex as start.
   2571     // If start is null, find the last node in the document with a tabindex of 0.
   2572     Node* startingNode;
   2573     int startingTabIndex;
   2574     if (start) {
   2575         startingNode = start->traversePreviousNode();
   2576         startingTabIndex = start->tabIndex();
   2577     } else {
   2578         startingNode = last;
   2579         startingTabIndex = 0;
   2580     }
   2581 
   2582     // However, if a node is excluded from the normal tabbing cycle, the previous focusable node is determined by tree order
   2583     if (startingTabIndex < 0) {
   2584         for (Node* n = startingNode; n; n = n->traversePreviousNode())
   2585             if (n->isKeyboardFocusable(event) && n->tabIndex() >= 0)
   2586                 return n;
   2587     }
   2588 
   2589     if (Node* winner = previousNodeWithExactTabIndex(startingNode, startingTabIndex, event))
   2590         return winner;
   2591 
   2592     // There are no nodes before start with the same tabindex as start, so look for a node that:
   2593     // 1) has the highest non-zero tabindex (that is less than start's tabindex), and
   2594     // 2) comes last in the document, if there's a tie.
   2595     startingTabIndex = (start && start->tabIndex()) ? start->tabIndex() : SHRT_MAX;
   2596     return previousNodeWithLowerTabIndex(last, startingTabIndex, event);
   2597 }
   2598 
   2599 int Document::nodeAbsIndex(Node *node)
   2600 {
   2601     ASSERT(node->document() == this);
   2602 
   2603     int absIndex = 0;
   2604     for (Node* n = node; n && n != this; n = n->traversePreviousNode())
   2605         absIndex++;
   2606     return absIndex;
   2607 }
   2608 
   2609 Node* Document::nodeWithAbsIndex(int absIndex)
   2610 {
   2611     Node* n = this;
   2612     for (int i = 0; n && (i < absIndex); i++)
   2613         n = n->traverseNextNode();
   2614     return n;
   2615 }
   2616 
   2617 #ifdef ANDROID_META_SUPPORT
   2618 void Document::processMetadataSettings(const String& content)
   2619 {
   2620     ASSERT(!content.isNull());
   2621     processArguments(content, 0, 0);
   2622 }
   2623 #endif
   2624 
   2625 void Document::processHttpEquiv(const String& equiv, const String& content)
   2626 {
   2627     ASSERT(!equiv.isNull() && !content.isNull());
   2628 
   2629     Frame* frame = this->frame();
   2630 
   2631     if (equalIgnoringCase(equiv, "default-style")) {
   2632         // The preferred style set has been overridden as per section
   2633         // 14.3.2 of the HTML4.0 specification.  We need to update the
   2634         // sheet used variable and then update our style selector.
   2635         // For more info, see the test at:
   2636         // http://www.hixie.ch/tests/evil/css/import/main/preferred.html
   2637         // -dwh
   2638         m_selectedStylesheetSet = content;
   2639         m_preferredStylesheetSet = content;
   2640         styleSelectorChanged(DeferRecalcStyle);
   2641     } else if (equalIgnoringCase(equiv, "refresh")) {
   2642         double delay;
   2643         String url;
   2644         if (frame && parseHTTPRefresh(content, true, delay, url)) {
   2645             if (url.isEmpty())
   2646                 url = m_url.string();
   2647             else
   2648                 url = completeURL(url).string();
   2649             frame->navigationScheduler()->scheduleRedirect(delay, url);
   2650         }
   2651     } else if (equalIgnoringCase(equiv, "set-cookie")) {
   2652         // FIXME: make setCookie work on XML documents too; e.g. in case of <html:meta .....>
   2653         if (isHTMLDocument()) {
   2654             ExceptionCode ec; // Exception (for sandboxed documents) ignored.
   2655             static_cast<HTMLDocument*>(this)->setCookie(content, ec);
   2656         }
   2657     } else if (equalIgnoringCase(equiv, "content-language"))
   2658         setContentLanguage(content);
   2659     else if (equalIgnoringCase(equiv, "x-dns-prefetch-control"))
   2660         parseDNSPrefetchControlHeader(content);
   2661     else if (equalIgnoringCase(equiv, "x-frame-options")) {
   2662         if (frame) {
   2663             FrameLoader* frameLoader = frame->loader();
   2664             if (frameLoader->shouldInterruptLoadForXFrameOptions(content, url())) {
   2665                 frameLoader->stopAllLoaders();
   2666                 frame->navigationScheduler()->scheduleLocationChange(securityOrigin(), blankURL(), String());
   2667 
   2668                 DEFINE_STATIC_LOCAL(String, consoleMessage, ("Refused to display document because display forbidden by X-Frame-Options.\n"));
   2669                 frame->domWindow()->console()->addMessage(JSMessageSource, LogMessageType, ErrorMessageLevel, consoleMessage, 1, String());
   2670             }
   2671         }
   2672     } else if (equalIgnoringCase(equiv, "x-webkit-csp"))
   2673         contentSecurityPolicy()->didReceiveHeader(content);
   2674 }
   2675 
   2676 // Though isspace() considers \t and \v to be whitespace, Win IE doesn't.
   2677 static bool isSeparator(UChar c)
   2678 {
   2679     return c == ' ' || c == '\t' || c == '\n' || c == '\r' || c == '=' || c == ',' || c == '\0';
   2680 }
   2681 
   2682 void Document::processArguments(const String& features, void* data, ArgumentsCallback callback)
   2683 {
   2684     // Tread lightly in this code -- it was specifically designed to mimic Win IE's parsing behavior.
   2685     int keyBegin, keyEnd;
   2686     int valueBegin, valueEnd;
   2687 
   2688     int i = 0;
   2689     int length = features.length();
   2690     String buffer = features.lower();
   2691     while (i < length) {
   2692         // skip to first non-separator, but don't skip past the end of the string
   2693         while (isSeparator(buffer[i])) {
   2694             if (i >= length)
   2695                 break;
   2696             i++;
   2697         }
   2698         keyBegin = i;
   2699 
   2700         // skip to first separator
   2701         while (!isSeparator(buffer[i]))
   2702             i++;
   2703         keyEnd = i;
   2704 
   2705         // skip to first '=', but don't skip past a ',' or the end of the string
   2706         while (buffer[i] != '=') {
   2707             if (buffer[i] == ',' || i >= length)
   2708                 break;
   2709             i++;
   2710         }
   2711 
   2712         // skip to first non-separator, but don't skip past a ',' or the end of the string
   2713         while (isSeparator(buffer[i])) {
   2714             if (buffer[i] == ',' || i >= length)
   2715                 break;
   2716             i++;
   2717         }
   2718         valueBegin = i;
   2719 
   2720         // skip to first separator
   2721         while (!isSeparator(buffer[i]))
   2722             i++;
   2723         valueEnd = i;
   2724 
   2725         ASSERT(i <= length);
   2726 
   2727         String keyString = buffer.substring(keyBegin, keyEnd - keyBegin);
   2728         String valueString = buffer.substring(valueBegin, valueEnd - valueBegin);
   2729 #ifdef ANDROID_META_SUPPORT
   2730         if (frame())
   2731             frame()->settings()->setMetadataSettings(keyString, valueString);
   2732 #endif
   2733         if (callback && data)
   2734             callback(keyString, valueString, this, data);
   2735     }
   2736 }
   2737 
   2738 void Document::processViewport(const String& features)
   2739 {
   2740     ASSERT(!features.isNull());
   2741 
   2742     m_viewportArguments = ViewportArguments();
   2743     processArguments(features, (void*)&m_viewportArguments, &setViewportFeature);
   2744 
   2745     Frame* frame = this->frame();
   2746     if (!frame || !frame->page())
   2747         return;
   2748 
   2749     frame->page()->updateViewportArguments();
   2750 }
   2751 
   2752 MouseEventWithHitTestResults Document::prepareMouseEvent(const HitTestRequest& request, const IntPoint& documentPoint, const PlatformMouseEvent& event)
   2753 {
   2754     ASSERT(!renderer() || renderer()->isRenderView());
   2755 
   2756     if (!renderer())
   2757         return MouseEventWithHitTestResults(event, HitTestResult(IntPoint()));
   2758 
   2759     HitTestResult result(documentPoint);
   2760     renderView()->layer()->hitTest(request, result);
   2761 
   2762     if (!request.readOnly())
   2763         updateStyleIfNeeded();
   2764 
   2765     return MouseEventWithHitTestResults(event, result);
   2766 }
   2767 
   2768 // DOM Section 1.1.1
   2769 bool Document::childTypeAllowed(NodeType type) const
   2770 {
   2771     switch (type) {
   2772     case ATTRIBUTE_NODE:
   2773     case CDATA_SECTION_NODE:
   2774     case DOCUMENT_FRAGMENT_NODE:
   2775     case DOCUMENT_NODE:
   2776     case ENTITY_NODE:
   2777     case ENTITY_REFERENCE_NODE:
   2778     case NOTATION_NODE:
   2779     case TEXT_NODE:
   2780     case XPATH_NAMESPACE_NODE:
   2781         return false;
   2782     case COMMENT_NODE:
   2783     case PROCESSING_INSTRUCTION_NODE:
   2784         return true;
   2785     case DOCUMENT_TYPE_NODE:
   2786     case ELEMENT_NODE:
   2787         // Documents may contain no more than one of each of these.
   2788         // (One Element and one DocumentType.)
   2789         for (Node* c = firstChild(); c; c = c->nextSibling())
   2790             if (c->nodeType() == type)
   2791                 return false;
   2792         return true;
   2793     }
   2794     return false;
   2795 }
   2796 
   2797 bool Document::canReplaceChild(Node* newChild, Node* oldChild)
   2798 {
   2799     if (!oldChild)
   2800         // ContainerNode::replaceChild will raise a NOT_FOUND_ERR.
   2801         return true;
   2802 
   2803     if (oldChild->nodeType() == newChild->nodeType())
   2804         return true;
   2805 
   2806     int numDoctypes = 0;
   2807     int numElements = 0;
   2808 
   2809     // First, check how many doctypes and elements we have, not counting
   2810     // the child we're about to remove.
   2811     for (Node* c = firstChild(); c; c = c->nextSibling()) {
   2812         if (c == oldChild)
   2813             continue;
   2814 
   2815         switch (c->nodeType()) {
   2816         case DOCUMENT_TYPE_NODE:
   2817             numDoctypes++;
   2818             break;
   2819         case ELEMENT_NODE:
   2820             numElements++;
   2821             break;
   2822         default:
   2823             break;
   2824         }
   2825     }
   2826 
   2827     // Then, see how many doctypes and elements might be added by the new child.
   2828     if (newChild->nodeType() == DOCUMENT_FRAGMENT_NODE) {
   2829         for (Node* c = firstChild(); c; c = c->nextSibling()) {
   2830             switch (c->nodeType()) {
   2831             case ATTRIBUTE_NODE:
   2832             case CDATA_SECTION_NODE:
   2833             case DOCUMENT_FRAGMENT_NODE:
   2834             case DOCUMENT_NODE:
   2835             case ENTITY_NODE:
   2836             case ENTITY_REFERENCE_NODE:
   2837             case NOTATION_NODE:
   2838             case TEXT_NODE:
   2839             case XPATH_NAMESPACE_NODE:
   2840                 return false;
   2841             case COMMENT_NODE:
   2842             case PROCESSING_INSTRUCTION_NODE:
   2843                 break;
   2844             case DOCUMENT_TYPE_NODE:
   2845                 numDoctypes++;
   2846                 break;
   2847             case ELEMENT_NODE:
   2848                 numElements++;
   2849                 break;
   2850             }
   2851         }
   2852     } else {
   2853         switch (newChild->nodeType()) {
   2854         case ATTRIBUTE_NODE:
   2855         case CDATA_SECTION_NODE:
   2856         case DOCUMENT_FRAGMENT_NODE:
   2857         case DOCUMENT_NODE:
   2858         case ENTITY_NODE:
   2859         case ENTITY_REFERENCE_NODE:
   2860         case NOTATION_NODE:
   2861         case TEXT_NODE:
   2862         case XPATH_NAMESPACE_NODE:
   2863             return false;
   2864         case COMMENT_NODE:
   2865         case PROCESSING_INSTRUCTION_NODE:
   2866             return true;
   2867         case DOCUMENT_TYPE_NODE:
   2868             numDoctypes++;
   2869             break;
   2870         case ELEMENT_NODE:
   2871             numElements++;
   2872             break;
   2873         }
   2874     }
   2875 
   2876     if (numElements > 1 || numDoctypes > 1)
   2877         return false;
   2878 
   2879     return true;
   2880 }
   2881 
   2882 PassRefPtr<Node> Document::cloneNode(bool /*deep*/)
   2883 {
   2884     // Spec says cloning Document nodes is "implementation dependent"
   2885     // so we do not support it...
   2886     return 0;
   2887 }
   2888 
   2889 StyleSheetList* Document::styleSheets()
   2890 {
   2891     return m_styleSheets.get();
   2892 }
   2893 
   2894 String Document::preferredStylesheetSet() const
   2895 {
   2896     return m_preferredStylesheetSet;
   2897 }
   2898 
   2899 String Document::selectedStylesheetSet() const
   2900 {
   2901     return m_selectedStylesheetSet;
   2902 }
   2903 
   2904 void Document::setSelectedStylesheetSet(const String& aString)
   2905 {
   2906     m_selectedStylesheetSet = aString;
   2907     styleSelectorChanged(DeferRecalcStyle);
   2908 }
   2909 
   2910 // This method is called whenever a top-level stylesheet has finished loading.
   2911 void Document::removePendingSheet()
   2912 {
   2913     // Make sure we knew this sheet was pending, and that our count isn't out of sync.
   2914     ASSERT(m_pendingStylesheets > 0);
   2915 
   2916     m_pendingStylesheets--;
   2917 
   2918 #ifdef INSTRUMENT_LAYOUT_SCHEDULING
   2919     if (!ownerElement())
   2920         printf("Stylesheet loaded at time %d. %d stylesheets still remain.\n", elapsedTime(), m_pendingStylesheets);
   2921 #endif
   2922 
   2923     if (m_pendingStylesheets)
   2924         return;
   2925 
   2926     styleSelectorChanged(RecalcStyleImmediately);
   2927 
   2928     if (ScriptableDocumentParser* parser = scriptableDocumentParser())
   2929         parser->executeScriptsWaitingForStylesheets();
   2930 
   2931     if (m_gotoAnchorNeededAfterStylesheetsLoad && view())
   2932         view()->scrollToFragment(m_url);
   2933 }
   2934 
   2935 void Document::styleSelectorChanged(StyleSelectorUpdateFlag updateFlag)
   2936 {
   2937     // Don't bother updating, since we haven't loaded all our style info yet
   2938     // and haven't calculated the style selector for the first time.
   2939     if (!attached() || (!m_didCalculateStyleSelector && !haveStylesheetsLoaded()))
   2940         return;
   2941 
   2942 #ifdef INSTRUMENT_LAYOUT_SCHEDULING
   2943     if (!ownerElement())
   2944         printf("Beginning update of style selector at time %d.\n", elapsedTime());
   2945 #endif
   2946 
   2947     recalcStyleSelector();
   2948 
   2949     if (updateFlag == DeferRecalcStyle) {
   2950         scheduleForcedStyleRecalc();
   2951         return;
   2952     }
   2953 
   2954     if (didLayoutWithPendingStylesheets() && m_pendingStylesheets <= 0) {
   2955         m_pendingSheetLayout = IgnoreLayoutWithPendingSheets;
   2956         if (renderer())
   2957             renderer()->repaint();
   2958     }
   2959 
   2960     // This recalcStyle initiates a new recalc cycle. We need to bracket it to
   2961     // make sure animations get the correct update time
   2962     if (m_frame)
   2963         m_frame->animation()->beginAnimationUpdate();
   2964     recalcStyle(Force);
   2965     if (m_frame)
   2966         m_frame->animation()->endAnimationUpdate();
   2967 
   2968 #ifdef INSTRUMENT_LAYOUT_SCHEDULING
   2969     if (!ownerElement())
   2970         printf("Finished update of style selector at time %d\n", elapsedTime());
   2971 #endif
   2972 
   2973     if (renderer()) {
   2974         renderer()->setNeedsLayoutAndPrefWidthsRecalc();
   2975         if (view())
   2976             view()->scheduleRelayout();
   2977     }
   2978 
   2979     if (m_mediaQueryMatcher)
   2980         m_mediaQueryMatcher->styleSelectorChanged();
   2981 }
   2982 
   2983 void Document::addStyleSheetCandidateNode(Node* node, bool createdByParser)
   2984 {
   2985     if (!node->inDocument())
   2986         return;
   2987 
   2988     // Until the <body> exists, we have no choice but to compare document positions,
   2989     // since styles outside of the body and head continue to be shunted into the head
   2990     // (and thus can shift to end up before dynamically added DOM content that is also
   2991     // outside the body).
   2992     if ((createdByParser && body()) || m_styleSheetCandidateNodes.isEmpty()) {
   2993         m_styleSheetCandidateNodes.add(node);
   2994         return;
   2995     }
   2996 
   2997     // Determine an appropriate insertion point.
   2998     StyleSheetCandidateListHashSet::iterator begin = m_styleSheetCandidateNodes.begin();
   2999     StyleSheetCandidateListHashSet::iterator end = m_styleSheetCandidateNodes.end();
   3000     StyleSheetCandidateListHashSet::iterator it = end;
   3001     Node* followingNode = 0;
   3002     do {
   3003         --it;
   3004         Node* n = *it;
   3005         unsigned short position = n->compareDocumentPosition(node);
   3006         if (position == DOCUMENT_POSITION_FOLLOWING) {
   3007             m_styleSheetCandidateNodes.insertBefore(followingNode, node);
   3008             return;
   3009         }
   3010         followingNode = n;
   3011     } while (it != begin);
   3012 
   3013     m_styleSheetCandidateNodes.insertBefore(followingNode, node);
   3014 }
   3015 
   3016 void Document::removeStyleSheetCandidateNode(Node* node)
   3017 {
   3018     m_styleSheetCandidateNodes.remove(node);
   3019 }
   3020 
   3021 void Document::recalcStyleSelector()
   3022 {
   3023     if (m_inStyleRecalc) {
   3024         // SVG <use> element may manage to invalidate style selector in the middle of a style recalc.
   3025         // https://bugs.webkit.org/show_bug.cgi?id=54344
   3026         // FIXME: This should be fixed in SVG and this code replaced with ASSERT(!m_inStyleRecalc).
   3027         m_hasDirtyStyleSelector = true;
   3028         scheduleForcedStyleRecalc();
   3029         return;
   3030     }
   3031     if (!renderer() || !attached())
   3032         return;
   3033 
   3034     StyleSheetVector sheets;
   3035 
   3036     bool matchAuthorAndUserStyles = true;
   3037     if (Settings* settings = this->settings())
   3038         matchAuthorAndUserStyles = settings->authorAndUserStylesEnabled();
   3039 
   3040     StyleSheetCandidateListHashSet::iterator begin = m_styleSheetCandidateNodes.begin();
   3041     StyleSheetCandidateListHashSet::iterator end = m_styleSheetCandidateNodes.end();
   3042     if (!matchAuthorAndUserStyles)
   3043         end = begin;
   3044     for (StyleSheetCandidateListHashSet::iterator it = begin; it != end; ++it) {
   3045         Node* n = *it;
   3046 
   3047         StyleSheet* sheet = 0;
   3048 
   3049         if (n->nodeType() == PROCESSING_INSTRUCTION_NODE) {
   3050             // Processing instruction (XML documents only).
   3051             // We don't support linking to embedded CSS stylesheets, see <https://bugs.webkit.org/show_bug.cgi?id=49281> for discussion.
   3052             ProcessingInstruction* pi = static_cast<ProcessingInstruction*>(n);
   3053             sheet = pi->sheet();
   3054 #if ENABLE(XSLT)
   3055             // Don't apply XSL transforms to already transformed documents -- <rdar://problem/4132806>
   3056             if (pi->isXSL() && !transformSourceDocument()) {
   3057                 // Don't apply XSL transforms until loading is finished.
   3058                 if (!parsing())
   3059                     applyXSLTransform(pi);
   3060                 return;
   3061             }
   3062 #endif
   3063         } else if ((n->isHTMLElement() && (n->hasTagName(linkTag) || n->hasTagName(styleTag)))
   3064 #if ENABLE(SVG)
   3065             ||  (n->isSVGElement() && n->hasTagName(SVGNames::styleTag))
   3066 #endif
   3067         ) {
   3068             Element* e = static_cast<Element*>(n);
   3069             AtomicString title = e->getAttribute(titleAttr);
   3070             bool enabledViaScript = false;
   3071             if (e->hasLocalName(linkTag)) {
   3072                 // <LINK> element
   3073                 HTMLLinkElement* linkElement = static_cast<HTMLLinkElement*>(n);
   3074                 if (linkElement->isDisabled())
   3075                     continue;
   3076                 enabledViaScript = linkElement->isEnabledViaScript();
   3077                 if (linkElement->isLoading()) {
   3078                     // it is loading but we should still decide which style sheet set to use
   3079                     if (!enabledViaScript && !title.isEmpty() && m_preferredStylesheetSet.isEmpty()) {
   3080                         const AtomicString& rel = e->getAttribute(relAttr);
   3081                         if (!rel.contains("alternate")) {
   3082                             m_preferredStylesheetSet = title;
   3083                             m_selectedStylesheetSet = title;
   3084                         }
   3085                     }
   3086                     continue;
   3087                 }
   3088                 if (!linkElement->sheet())
   3089                     title = nullAtom;
   3090             }
   3091 
   3092             // Get the current preferred styleset.  This is the
   3093             // set of sheets that will be enabled.
   3094 #if ENABLE(SVG)
   3095             if (n->isSVGElement() && n->hasTagName(SVGNames::styleTag))
   3096                 sheet = static_cast<SVGStyleElement*>(n)->sheet();
   3097             else
   3098 #endif
   3099             if (e->hasLocalName(linkTag))
   3100                 sheet = static_cast<HTMLLinkElement*>(n)->sheet();
   3101             else
   3102                 // <STYLE> element
   3103                 sheet = static_cast<HTMLStyleElement*>(n)->sheet();
   3104 
   3105             // Check to see if this sheet belongs to a styleset
   3106             // (thus making it PREFERRED or ALTERNATE rather than
   3107             // PERSISTENT).
   3108             if (!enabledViaScript && !title.isEmpty()) {
   3109                 // Yes, we have a title.
   3110                 if (m_preferredStylesheetSet.isEmpty()) {
   3111                     // No preferred set has been established.  If
   3112                     // we are NOT an alternate sheet, then establish
   3113                     // us as the preferred set.  Otherwise, just ignore
   3114                     // this sheet.
   3115                     AtomicString rel = e->getAttribute(relAttr);
   3116                     if (e->hasLocalName(styleTag) || !rel.contains("alternate"))
   3117                         m_preferredStylesheetSet = m_selectedStylesheetSet = title;
   3118                 }
   3119 
   3120                 if (title != m_preferredStylesheetSet)
   3121                     sheet = 0;
   3122             }
   3123         }
   3124 
   3125         if (sheet)
   3126             sheets.append(sheet);
   3127     }
   3128 
   3129     m_styleSheets->swap(sheets);
   3130 
   3131     m_styleSelector.clear();
   3132     m_didCalculateStyleSelector = true;
   3133     m_hasDirtyStyleSelector = false;
   3134 }
   3135 
   3136 void Document::setHoverNode(PassRefPtr<Node> newHoverNode)
   3137 {
   3138     m_hoverNode = newHoverNode;
   3139 }
   3140 
   3141 void Document::setActiveNode(PassRefPtr<Node> newActiveNode)
   3142 {
   3143     m_activeNode = newActiveNode;
   3144 }
   3145 
   3146 void Document::focusedNodeRemoved()
   3147 {
   3148     setFocusedNode(0);
   3149 }
   3150 
   3151 void Document::removeFocusedNodeOfSubtree(Node* node, bool amongChildrenOnly)
   3152 {
   3153     if (!m_focusedNode || this->inPageCache()) // If the document is in the page cache, then we don't need to clear out the focused node.
   3154         return;
   3155 
   3156     bool nodeInSubtree = false;
   3157     if (amongChildrenOnly)
   3158         nodeInSubtree = m_focusedNode->isDescendantOf(node);
   3159     else
   3160         nodeInSubtree = (m_focusedNode == node) || m_focusedNode->isDescendantOf(node);
   3161 
   3162     if (nodeInSubtree)
   3163         document()->focusedNodeRemoved();
   3164 }
   3165 
   3166 void Document::hoveredNodeDetached(Node* node)
   3167 {
   3168     if (!m_hoverNode || (node != m_hoverNode && (!m_hoverNode->isTextNode() || node != m_hoverNode->parentNode())))
   3169         return;
   3170 
   3171     m_hoverNode = node->parentNode();
   3172     while (m_hoverNode && !m_hoverNode->renderer())
   3173         m_hoverNode = m_hoverNode->parentNode();
   3174     if (frame())
   3175         frame()->eventHandler()->scheduleHoverStateUpdate();
   3176 }
   3177 
   3178 void Document::activeChainNodeDetached(Node* node)
   3179 {
   3180     if (!m_activeNode || (node != m_activeNode && (!m_activeNode->isTextNode() || node != m_activeNode->parentNode())))
   3181         return;
   3182 
   3183     m_activeNode = node->parentNode();
   3184     while (m_activeNode && !m_activeNode->renderer())
   3185         m_activeNode = m_activeNode->parentNode();
   3186 }
   3187 
   3188 #if ENABLE(DASHBOARD_SUPPORT)
   3189 const Vector<DashboardRegionValue>& Document::dashboardRegions() const
   3190 {
   3191     return m_dashboardRegions;
   3192 }
   3193 
   3194 void Document::setDashboardRegions(const Vector<DashboardRegionValue>& regions)
   3195 {
   3196     m_dashboardRegions = regions;
   3197     setDashboardRegionsDirty(false);
   3198 }
   3199 #endif
   3200 
   3201 bool Document::setFocusedNode(PassRefPtr<Node> newFocusedNode)
   3202 {
   3203     // Make sure newFocusedNode is actually in this document
   3204     if (newFocusedNode && (newFocusedNode->document() != this))
   3205         return true;
   3206 
   3207     if (m_focusedNode == newFocusedNode)
   3208         return true;
   3209 
   3210     if (m_inPageCache)
   3211         return false;
   3212 
   3213     bool focusChangeBlocked = false;
   3214     RefPtr<Node> oldFocusedNode = m_focusedNode;
   3215     m_focusedNode = 0;
   3216 
   3217     // Remove focus from the existing focus node (if any)
   3218     if (oldFocusedNode && !oldFocusedNode->inDetach()) {
   3219         if (oldFocusedNode->active())
   3220             oldFocusedNode->setActive(false);
   3221 
   3222         oldFocusedNode->setFocus(false);
   3223 
   3224         // Dispatch a change event for text fields or textareas that have been edited
   3225         if (oldFocusedNode->isElementNode()) {
   3226             Element* element = static_cast<Element*>(oldFocusedNode.get());
   3227             if (element->wasChangedSinceLastFormControlChangeEvent())
   3228                 element->dispatchFormControlChangeEvent();
   3229         }
   3230 
   3231         // Dispatch the blur event and let the node do any other blur related activities (important for text fields)
   3232         oldFocusedNode->dispatchBlurEvent();
   3233 
   3234         if (m_focusedNode) {
   3235             // handler shifted focus
   3236             focusChangeBlocked = true;
   3237             newFocusedNode = 0;
   3238         }
   3239 
   3240         oldFocusedNode->dispatchUIEvent(eventNames().focusoutEvent, 0, 0); // DOM level 3 name for the bubbling blur event.
   3241         // FIXME: We should remove firing DOMFocusOutEvent event when we are sure no content depends
   3242         // on it, probably when <rdar://problem/8503958> is resolved.
   3243         oldFocusedNode->dispatchUIEvent(eventNames().DOMFocusOutEvent, 0, 0); // DOM level 2 name for compatibility.
   3244 
   3245         if (m_focusedNode) {
   3246             // handler shifted focus
   3247             focusChangeBlocked = true;
   3248             newFocusedNode = 0;
   3249         }
   3250         if (oldFocusedNode == this && oldFocusedNode->hasOneRef())
   3251             return true;
   3252 
   3253         if (oldFocusedNode == oldFocusedNode->rootEditableElement())
   3254             frame()->editor()->didEndEditing();
   3255 
   3256         if (view()) {
   3257             Widget* oldWidget = widgetForNode(oldFocusedNode.get());
   3258             if (oldWidget)
   3259                 oldWidget->setFocus(false);
   3260             else
   3261                 view()->setFocus(false);
   3262         }
   3263     }
   3264 
   3265     if (newFocusedNode) {
   3266         if (newFocusedNode == newFocusedNode->rootEditableElement() && !acceptsEditingFocus(newFocusedNode.get())) {
   3267             // delegate blocks focus change
   3268             focusChangeBlocked = true;
   3269             goto SetFocusedNodeDone;
   3270         }
   3271         // Set focus on the new node
   3272         m_focusedNode = newFocusedNode.get();
   3273 
   3274         // Dispatch the focus event and let the node do any other focus related activities (important for text fields)
   3275         m_focusedNode->dispatchFocusEvent();
   3276 
   3277         if (m_focusedNode != newFocusedNode) {
   3278             // handler shifted focus
   3279             focusChangeBlocked = true;
   3280             goto SetFocusedNodeDone;
   3281         }
   3282 
   3283         m_focusedNode->dispatchUIEvent(eventNames().focusinEvent, 0, 0); // DOM level 3 bubbling focus event.
   3284         // FIXME: We should remove firing DOMFocusInEvent event when we are sure no content depends
   3285         // on it, probably when <rdar://problem/8503958> is resolved.
   3286         m_focusedNode->dispatchUIEvent(eventNames().DOMFocusInEvent, 0, 0); // DOM level 2 for compatibility.
   3287 
   3288         if (m_focusedNode != newFocusedNode) {
   3289             // handler shifted focus
   3290             focusChangeBlocked = true;
   3291             goto SetFocusedNodeDone;
   3292         }
   3293         m_focusedNode->setFocus(true);
   3294 
   3295         if (m_focusedNode == m_focusedNode->rootEditableElement())
   3296             frame()->editor()->didBeginEditing();
   3297 
   3298         // eww, I suck. set the qt focus correctly
   3299         // ### find a better place in the code for this
   3300         if (view()) {
   3301             Widget* focusWidget = widgetForNode(m_focusedNode.get());
   3302             if (focusWidget) {
   3303                 // Make sure a widget has the right size before giving it focus.
   3304                 // Otherwise, we are testing edge cases of the Widget code.
   3305                 // Specifically, in WebCore this does not work well for text fields.
   3306                 updateLayout();
   3307                 // Re-get the widget in case updating the layout changed things.
   3308                 focusWidget = widgetForNode(m_focusedNode.get());
   3309             }
   3310             if (focusWidget)
   3311                 focusWidget->setFocus(true);
   3312             else
   3313                 view()->setFocus(true);
   3314         }
   3315     }
   3316 
   3317 #if PLATFORM(MAC) || PLATFORM(WIN) || PLATFORM(GTK) || PLATFORM(CHROMIUM)
   3318     if (!focusChangeBlocked && m_focusedNode && AXObjectCache::accessibilityEnabled()) {
   3319         RenderObject* oldFocusedRenderer = 0;
   3320         RenderObject* newFocusedRenderer = 0;
   3321 
   3322         if (oldFocusedNode)
   3323             oldFocusedRenderer = oldFocusedNode->renderer();
   3324         if (newFocusedNode)
   3325             newFocusedRenderer = newFocusedNode->renderer();
   3326 
   3327         axObjectCache()->handleFocusedUIElementChanged(oldFocusedRenderer, newFocusedRenderer);
   3328     }
   3329 #endif
   3330     if (!focusChangeBlocked)
   3331         page()->chrome()->focusedNodeChanged(m_focusedNode.get());
   3332 
   3333 SetFocusedNodeDone:
   3334     updateStyleIfNeeded();
   3335     return !focusChangeBlocked;
   3336 }
   3337 
   3338 void Document::getFocusableNodes(Vector<RefPtr<Node> >& nodes)
   3339 {
   3340     updateLayout();
   3341 
   3342     for (Node* node = firstChild(); node; node = node->traverseNextNode()) {
   3343         if (node->isFocusable())
   3344             nodes.append(node);
   3345     }
   3346 }
   3347 
   3348 void Document::setCSSTarget(Element* n)
   3349 {
   3350     if (m_cssTarget)
   3351         m_cssTarget->setNeedsStyleRecalc();
   3352     m_cssTarget = n;
   3353     if (n)
   3354         n->setNeedsStyleRecalc();
   3355 }
   3356 
   3357 void Document::attachNodeIterator(NodeIterator* ni)
   3358 {
   3359     m_nodeIterators.add(ni);
   3360 }
   3361 
   3362 void Document::detachNodeIterator(NodeIterator* ni)
   3363 {
   3364     // The node iterator can be detached without having been attached if its root node didn't have a document
   3365     // when the iterator was created, but has it now.
   3366     m_nodeIterators.remove(ni);
   3367 }
   3368 
   3369 void Document::moveNodeIteratorsToNewDocument(Node* node, Document* newDocument)
   3370 {
   3371     HashSet<NodeIterator*> nodeIteratorsList = m_nodeIterators;
   3372     HashSet<NodeIterator*>::const_iterator nodeIteratorsEnd = nodeIteratorsList.end();
   3373     for (HashSet<NodeIterator*>::const_iterator it = nodeIteratorsList.begin(); it != nodeIteratorsEnd; ++it) {
   3374         if ((*it)->root() == node) {
   3375             detachNodeIterator(*it);
   3376             newDocument->attachNodeIterator(*it);
   3377         }
   3378     }
   3379 }
   3380 
   3381 void Document::nodeChildrenChanged(ContainerNode* container)
   3382 {
   3383     if (!disableRangeMutation(page()) && !m_ranges.isEmpty()) {
   3384         HashSet<Range*>::const_iterator end = m_ranges.end();
   3385         for (HashSet<Range*>::const_iterator it = m_ranges.begin(); it != end; ++it)
   3386             (*it)->nodeChildrenChanged(container);
   3387     }
   3388 }
   3389 
   3390 void Document::nodeChildrenWillBeRemoved(ContainerNode* container)
   3391 {
   3392     if (!disableRangeMutation(page()) && !m_ranges.isEmpty()) {
   3393         HashSet<Range*>::const_iterator end = m_ranges.end();
   3394         for (HashSet<Range*>::const_iterator it = m_ranges.begin(); it != end; ++it)
   3395             (*it)->nodeChildrenWillBeRemoved(container);
   3396     }
   3397 
   3398     HashSet<NodeIterator*>::const_iterator nodeIteratorsEnd = m_nodeIterators.end();
   3399     for (HashSet<NodeIterator*>::const_iterator it = m_nodeIterators.begin(); it != nodeIteratorsEnd; ++it) {
   3400         for (Node* n = container->firstChild(); n; n = n->nextSibling())
   3401             (*it)->nodeWillBeRemoved(n);
   3402     }
   3403 
   3404     if (Frame* frame = this->frame()) {
   3405         for (Node* n = container->firstChild(); n; n = n->nextSibling()) {
   3406             frame->selection()->nodeWillBeRemoved(n);
   3407             frame->page()->dragCaretController()->nodeWillBeRemoved(n);
   3408         }
   3409     }
   3410 }
   3411 
   3412 void Document::nodeWillBeRemoved(Node* n)
   3413 {
   3414     HashSet<NodeIterator*>::const_iterator nodeIteratorsEnd = m_nodeIterators.end();
   3415     for (HashSet<NodeIterator*>::const_iterator it = m_nodeIterators.begin(); it != nodeIteratorsEnd; ++it)
   3416         (*it)->nodeWillBeRemoved(n);
   3417 
   3418     if (!disableRangeMutation(page()) && !m_ranges.isEmpty()) {
   3419         HashSet<Range*>::const_iterator rangesEnd = m_ranges.end();
   3420         for (HashSet<Range*>::const_iterator it = m_ranges.begin(); it != rangesEnd; ++it)
   3421             (*it)->nodeWillBeRemoved(n);
   3422     }
   3423 
   3424     if (Frame* frame = this->frame()) {
   3425         frame->selection()->nodeWillBeRemoved(n);
   3426         frame->page()->dragCaretController()->nodeWillBeRemoved(n);
   3427     }
   3428 
   3429 #if ENABLE(FULLSCREEN_API)
   3430     // If the current full screen element or any of its ancestors is removed, set the current
   3431     // full screen element to the document root, and fire a fullscreenchange event to inform
   3432     // clients of the DOM.
   3433     ASSERT(n);
   3434     if (n->contains(m_fullScreenElement.get())) {
   3435         ASSERT(n != documentElement());
   3436 
   3437         if (m_fullScreenRenderer)
   3438             m_fullScreenRenderer->remove();
   3439 
   3440         setFullScreenRenderer(0);
   3441         m_fullScreenElement = documentElement();
   3442         recalcStyle(Force);
   3443         m_fullScreenChangeDelayTimer.startOneShot(0);
   3444     }
   3445 #endif
   3446 }
   3447 
   3448 void Document::textInserted(Node* text, unsigned offset, unsigned length)
   3449 {
   3450     if (!disableRangeMutation(page()) && !m_ranges.isEmpty()) {
   3451         HashSet<Range*>::const_iterator end = m_ranges.end();
   3452         for (HashSet<Range*>::const_iterator it = m_ranges.begin(); it != end; ++it)
   3453             (*it)->textInserted(text, offset, length);
   3454     }
   3455 
   3456     // Update the markers for spelling and grammar checking.
   3457     m_markers->shiftMarkers(text, offset, length);
   3458 }
   3459 
   3460 void Document::textRemoved(Node* text, unsigned offset, unsigned length)
   3461 {
   3462     if (!disableRangeMutation(page()) && !m_ranges.isEmpty()) {
   3463         HashSet<Range*>::const_iterator end = m_ranges.end();
   3464         for (HashSet<Range*>::const_iterator it = m_ranges.begin(); it != end; ++it)
   3465             (*it)->textRemoved(text, offset, length);
   3466     }
   3467 
   3468     // Update the markers for spelling and grammar checking.
   3469     m_markers->removeMarkers(text, offset, length);
   3470     m_markers->shiftMarkers(text, offset + length, 0 - length);
   3471 }
   3472 
   3473 void Document::textNodesMerged(Text* oldNode, unsigned offset)
   3474 {
   3475     if (!disableRangeMutation(page()) && !m_ranges.isEmpty()) {
   3476         NodeWithIndex oldNodeWithIndex(oldNode);
   3477         HashSet<Range*>::const_iterator end = m_ranges.end();
   3478         for (HashSet<Range*>::const_iterator it = m_ranges.begin(); it != end; ++it)
   3479             (*it)->textNodesMerged(oldNodeWithIndex, offset);
   3480     }
   3481 
   3482     // FIXME: This should update markers for spelling and grammar checking.
   3483 }
   3484 
   3485 void Document::textNodeSplit(Text* oldNode)
   3486 {
   3487     if (!disableRangeMutation(page()) && !m_ranges.isEmpty()) {
   3488         HashSet<Range*>::const_iterator end = m_ranges.end();
   3489         for (HashSet<Range*>::const_iterator it = m_ranges.begin(); it != end; ++it)
   3490             (*it)->textNodeSplit(oldNode);
   3491     }
   3492 
   3493     // FIXME: This should update markers for spelling and grammar checking.
   3494 }
   3495 
   3496 // FIXME: eventually, this should return a DOMWindow stored in the document.
   3497 DOMWindow* Document::domWindow() const
   3498 {
   3499     if (!frame())
   3500         return 0;
   3501 
   3502     // The m_frame pointer is not (not always?) zeroed out when the document is put into b/f cache, so the frame can hold an unrelated document/window pair.
   3503     // FIXME: We should always zero out the frame pointer on navigation to avoid accidentally accessing the new frame content.
   3504     if (m_frame->document() != this)
   3505         return 0;
   3506 
   3507     return frame()->domWindow();
   3508 }
   3509 
   3510 void Document::setWindowAttributeEventListener(const AtomicString& eventType, PassRefPtr<EventListener> listener)
   3511 {
   3512     DOMWindow* domWindow = this->domWindow();
   3513     if (!domWindow)
   3514         return;
   3515     domWindow->setAttributeEventListener(eventType, listener);
   3516 }
   3517 
   3518 EventListener* Document::getWindowAttributeEventListener(const AtomicString& eventType)
   3519 {
   3520     DOMWindow* domWindow = this->domWindow();
   3521     if (!domWindow)
   3522         return 0;
   3523     return domWindow->getAttributeEventListener(eventType);
   3524 }
   3525 
   3526 void Document::dispatchWindowEvent(PassRefPtr<Event> event,  PassRefPtr<EventTarget> target)
   3527 {
   3528     ASSERT(!eventDispatchForbidden());
   3529     DOMWindow* domWindow = this->domWindow();
   3530     if (!domWindow)
   3531         return;
   3532     domWindow->dispatchEvent(event, target);
   3533 }
   3534 
   3535 void Document::dispatchWindowLoadEvent()
   3536 {
   3537     ASSERT(!eventDispatchForbidden());
   3538     DOMWindow* domWindow = this->domWindow();
   3539     if (!domWindow)
   3540         return;
   3541     domWindow->dispatchLoadEvent();
   3542 }
   3543 
   3544 void Document::enqueueWindowEvent(PassRefPtr<Event> event)
   3545 {
   3546     event->setTarget(domWindow());
   3547     m_eventQueue->enqueueEvent(event);
   3548 }
   3549 
   3550 void Document::enqueueDocumentEvent(PassRefPtr<Event> event)
   3551 {
   3552     event->setTarget(this);
   3553     m_eventQueue->enqueueEvent(event);
   3554 }
   3555 
   3556 PassRefPtr<Event> Document::createEvent(const String& eventType, ExceptionCode& ec)
   3557 {
   3558     RefPtr<Event> event;
   3559     if (eventType == "Event" || eventType == "Events" || eventType == "HTMLEvents")
   3560         event = Event::create();
   3561     else if (eventType == "CustomEvent")
   3562         event = CustomEvent::create();
   3563     else if (eventType == "KeyboardEvent" || eventType == "KeyboardEvents")
   3564         event = KeyboardEvent::create();
   3565     else if (eventType == "MessageEvent")
   3566         event = MessageEvent::create();
   3567     else if (eventType == "MouseEvent" || eventType == "MouseEvents")
   3568         event = MouseEvent::create();
   3569     else if (eventType == "MutationEvent" || eventType == "MutationEvents")
   3570         event = MutationEvent::create();
   3571     else if (eventType == "OverflowEvent")
   3572         event = OverflowEvent::create();
   3573     else if (eventType == "PageTransitionEvent")
   3574         event = PageTransitionEvent::create();
   3575     else if (eventType == "ProgressEvent")
   3576         event = ProgressEvent::create();
   3577 #if ENABLE(DOM_STORAGE)
   3578     else if (eventType == "StorageEvent")
   3579         event = StorageEvent::create();
   3580 #endif
   3581     else if (eventType == "TextEvent")
   3582         event = TextEvent::create();
   3583     else if (eventType == "UIEvent" || eventType == "UIEvents")
   3584         event = UIEvent::create();
   3585     else if (eventType == "WebKitAnimationEvent")
   3586         event = WebKitAnimationEvent::create();
   3587     else if (eventType == "WebKitTransitionEvent")
   3588         event = WebKitTransitionEvent::create();
   3589     else if (eventType == "WheelEvent")
   3590         event = WheelEvent::create();
   3591 #if ENABLE(SVG)
   3592     else if (eventType == "SVGEvents")
   3593         event = Event::create();
   3594     else if (eventType == "SVGZoomEvents")
   3595         event = SVGZoomEvent::create();
   3596 #endif
   3597 #if ENABLE(TOUCH_EVENTS)
   3598 #if USE(V8)
   3599     else if (eventType == "TouchEvent" && RuntimeEnabledFeatures::touchEnabled())
   3600 #else
   3601     else if (eventType == "TouchEvent")
   3602 #endif
   3603         event = TouchEvent::create();
   3604 #endif
   3605 #if ENABLE(DEVICE_ORIENTATION)
   3606     else if (eventType == "DeviceMotionEvent")
   3607         event = DeviceMotionEvent::create();
   3608     else if (eventType == "DeviceOrientationEvent")
   3609         event = DeviceOrientationEvent::create();
   3610 #endif
   3611 #if ENABLE(ORIENTATION_EVENTS)
   3612     else if (eventType == "OrientationEvent")
   3613         event = Event::create();
   3614 #endif
   3615     if (event)
   3616         return event.release();
   3617 
   3618     ec = NOT_SUPPORTED_ERR;
   3619     return 0;
   3620 }
   3621 
   3622 void Document::addListenerTypeIfNeeded(const AtomicString& eventType)
   3623 {
   3624     if (eventType == eventNames().DOMSubtreeModifiedEvent)
   3625         addListenerType(DOMSUBTREEMODIFIED_LISTENER);
   3626     else if (eventType == eventNames().DOMNodeInsertedEvent)
   3627         addListenerType(DOMNODEINSERTED_LISTENER);
   3628     else if (eventType == eventNames().DOMNodeRemovedEvent)
   3629         addListenerType(DOMNODEREMOVED_LISTENER);
   3630     else if (eventType == eventNames().DOMNodeRemovedFromDocumentEvent)
   3631         addListenerType(DOMNODEREMOVEDFROMDOCUMENT_LISTENER);
   3632     else if (eventType == eventNames().DOMNodeInsertedIntoDocumentEvent)
   3633         addListenerType(DOMNODEINSERTEDINTODOCUMENT_LISTENER);
   3634     else if (eventType == eventNames().DOMAttrModifiedEvent)
   3635         addListenerType(DOMATTRMODIFIED_LISTENER);
   3636     else if (eventType == eventNames().DOMCharacterDataModifiedEvent)
   3637         addListenerType(DOMCHARACTERDATAMODIFIED_LISTENER);
   3638     else if (eventType == eventNames().overflowchangedEvent)
   3639         addListenerType(OVERFLOWCHANGED_LISTENER);
   3640     else if (eventType == eventNames().webkitAnimationStartEvent)
   3641         addListenerType(ANIMATIONSTART_LISTENER);
   3642     else if (eventType == eventNames().webkitAnimationEndEvent)
   3643         addListenerType(ANIMATIONEND_LISTENER);
   3644     else if (eventType == eventNames().webkitAnimationIterationEvent)
   3645         addListenerType(ANIMATIONITERATION_LISTENER);
   3646     else if (eventType == eventNames().webkitTransitionEndEvent)
   3647         addListenerType(TRANSITIONEND_LISTENER);
   3648     else if (eventType == eventNames().beforeloadEvent)
   3649         addListenerType(BEFORELOAD_LISTENER);
   3650     else if (eventType == eventNames().beforeprocessEvent)
   3651         addListenerType(BEFOREPROCESS_LISTENER);
   3652 #if ENABLE(TOUCH_EVENTS)
   3653     else if (eventType == eventNames().touchstartEvent
   3654              || eventType == eventNames().touchmoveEvent
   3655              || eventType == eventNames().touchendEvent
   3656              || eventType == eventNames().touchcancelEvent) {
   3657         addListenerType(TOUCH_LISTENER);
   3658         if (Page* page = this->page())
   3659             page->chrome()->client()->needTouchEvents(true);
   3660     }
   3661 #endif
   3662 }
   3663 
   3664 CSSStyleDeclaration* Document::getOverrideStyle(Element*, const String&)
   3665 {
   3666     return 0;
   3667 }
   3668 
   3669 HTMLFrameOwnerElement* Document::ownerElement() const
   3670 {
   3671     if (!frame())
   3672         return 0;
   3673     return frame()->ownerElement();
   3674 }
   3675 
   3676 String Document::cookie(ExceptionCode& ec) const
   3677 {
   3678     if (page() && !page()->cookieEnabled())
   3679         return String();
   3680 
   3681     // FIXME: The HTML5 DOM spec states that this attribute can raise an
   3682     // INVALID_STATE_ERR exception on getting if the Document has no
   3683     // browsing context.
   3684 
   3685     if (!securityOrigin()->canAccessCookies()) {
   3686         ec = SECURITY_ERR;
   3687         return String();
   3688     }
   3689 
   3690     KURL cookieURL = this->cookieURL();
   3691     if (cookieURL.isEmpty())
   3692         return String();
   3693 
   3694     return cookies(this, cookieURL);
   3695 }
   3696 
   3697 void Document::setCookie(const String& value, ExceptionCode& ec)
   3698 {
   3699     if (page() && !page()->cookieEnabled())
   3700         return;
   3701 
   3702     // FIXME: The HTML5 DOM spec states that this attribute can raise an
   3703     // INVALID_STATE_ERR exception on setting if the Document has no
   3704     // browsing context.
   3705 
   3706     if (!securityOrigin()->canAccessCookies()) {
   3707         ec = SECURITY_ERR;
   3708         return;
   3709     }
   3710 
   3711     KURL cookieURL = this->cookieURL();
   3712     if (cookieURL.isEmpty())
   3713         return;
   3714 
   3715     setCookies(this, cookieURL, value);
   3716 }
   3717 
   3718 String Document::referrer() const
   3719 {
   3720     if (frame())
   3721         return frame()->loader()->referrer();
   3722     return String();
   3723 }
   3724 
   3725 String Document::domain() const
   3726 {
   3727     return securityOrigin()->domain();
   3728 }
   3729 
   3730 void Document::setDomain(const String& newDomain, ExceptionCode& ec)
   3731 {
   3732     if (SecurityOrigin::isDomainRelaxationForbiddenForURLScheme(securityOrigin()->protocol())) {
   3733         ec = SECURITY_ERR;
   3734         return;
   3735     }
   3736 
   3737     // Both NS and IE specify that changing the domain is only allowed when
   3738     // the new domain is a suffix of the old domain.
   3739 
   3740     // FIXME: We should add logging indicating why a domain was not allowed.
   3741 
   3742     // If the new domain is the same as the old domain, still call
   3743     // securityOrigin()->setDomainForDOM. This will change the
   3744     // security check behavior. For example, if a page loaded on port 8000
   3745     // assigns its current domain using document.domain, the page will
   3746     // allow other pages loaded on different ports in the same domain that
   3747     // have also assigned to access this page.
   3748     if (equalIgnoringCase(domain(), newDomain)) {
   3749         securityOrigin()->setDomainFromDOM(newDomain);
   3750         if (m_frame)
   3751             m_frame->script()->updateSecurityOrigin();
   3752         return;
   3753     }
   3754 
   3755     int oldLength = domain().length();
   3756     int newLength = newDomain.length();
   3757     // e.g. newDomain = webkit.org (10) and domain() = www.webkit.org (14)
   3758     if (newLength >= oldLength) {
   3759         ec = SECURITY_ERR;
   3760         return;
   3761     }
   3762 
   3763     String test = domain();
   3764     // Check that it's a subdomain, not e.g. "ebkit.org"
   3765     if (test[oldLength - newLength - 1] != '.') {
   3766         ec = SECURITY_ERR;
   3767         return;
   3768     }
   3769 
   3770     // Now test is "webkit.org" from domain()
   3771     // and we check that it's the same thing as newDomain
   3772     test.remove(0, oldLength - newLength);
   3773     if (test != newDomain) {
   3774         ec = SECURITY_ERR;
   3775         return;
   3776     }
   3777 
   3778     securityOrigin()->setDomainFromDOM(newDomain);
   3779     if (m_frame)
   3780         m_frame->script()->updateSecurityOrigin();
   3781 }
   3782 
   3783 // http://www.whatwg.org/specs/web-apps/current-work/#dom-document-lastmodified
   3784 String Document::lastModified() const
   3785 {
   3786     DateComponents date;
   3787     bool foundDate = false;
   3788     if (m_frame) {
   3789         String httpLastModified;
   3790         if (DocumentLoader* documentLoader = loader())
   3791             httpLastModified = documentLoader->response().httpHeaderField("Last-Modified");
   3792         if (!httpLastModified.isEmpty()) {
   3793             date.setMillisecondsSinceEpochForDateTime(parseDate(httpLastModified));
   3794             foundDate = true;
   3795         }
   3796     }
   3797     // FIXME: If this document came from the file system, the HTML5
   3798     // specificiation tells us to read the last modification date from the file
   3799     // system.
   3800     if (!foundDate)
   3801         date.setMillisecondsSinceEpochForDateTime(currentTimeMS());
   3802     return String::format("%02d/%02d/%04d %02d:%02d:%02d", date.month() + 1, date.monthDay(), date.fullYear(), date.hour(), date.minute(), date.second());
   3803 }
   3804 
   3805 static bool isValidNameNonASCII(const UChar* characters, unsigned length)
   3806 {
   3807     unsigned i = 0;
   3808 
   3809     UChar32 c;
   3810     U16_NEXT(characters, i, length, c)
   3811     if (!isValidNameStart(c))
   3812         return false;
   3813 
   3814     while (i < length) {
   3815         U16_NEXT(characters, i, length, c)
   3816         if (!isValidNamePart(c))
   3817             return false;
   3818     }
   3819 
   3820     return true;
   3821 }
   3822 
   3823 static inline bool isValidNameASCII(const UChar* characters, unsigned length)
   3824 {
   3825     UChar c = characters[0];
   3826     if (!(isASCIIAlpha(c) || c == ':' || c == '_'))
   3827         return false;
   3828 
   3829     for (unsigned i = 1; i < length; ++i) {
   3830         c = characters[i];
   3831         if (!(isASCIIAlphanumeric(c) || c == ':' || c == '_' || c == '-' || c == '.'))
   3832             return false;
   3833     }
   3834 
   3835     return true;
   3836 }
   3837 
   3838 bool Document::isValidName(const String& name)
   3839 {
   3840     unsigned length = name.length();
   3841     if (!length)
   3842         return false;
   3843 
   3844     const UChar* characters = name.characters();
   3845     return isValidNameASCII(characters, length) || isValidNameNonASCII(characters, length);
   3846 }
   3847 
   3848 bool Document::parseQualifiedName(const String& qualifiedName, String& prefix, String& localName, ExceptionCode& ec)
   3849 {
   3850     unsigned length = qualifiedName.length();
   3851 
   3852     if (!length) {
   3853         ec = INVALID_CHARACTER_ERR;
   3854         return false;
   3855     }
   3856 
   3857     bool nameStart = true;
   3858     bool sawColon = false;
   3859     int colonPos = 0;
   3860 
   3861     const UChar* s = qualifiedName.characters();
   3862     for (unsigned i = 0; i < length;) {
   3863         UChar32 c;
   3864         U16_NEXT(s, i, length, c)
   3865         if (c == ':') {
   3866             if (sawColon) {
   3867                 ec = NAMESPACE_ERR;
   3868                 return false; // multiple colons: not allowed
   3869             }
   3870             nameStart = true;
   3871             sawColon = true;
   3872             colonPos = i - 1;
   3873         } else if (nameStart) {
   3874             if (!isValidNameStart(c)) {
   3875                 ec = INVALID_CHARACTER_ERR;
   3876                 return false;
   3877             }
   3878             nameStart = false;
   3879         } else {
   3880             if (!isValidNamePart(c)) {
   3881                 ec = INVALID_CHARACTER_ERR;
   3882                 return false;
   3883             }
   3884         }
   3885     }
   3886 
   3887     if (!sawColon) {
   3888         prefix = String();
   3889         localName = qualifiedName;
   3890     } else {
   3891         prefix = qualifiedName.substring(0, colonPos);
   3892         if (prefix.isEmpty()) {
   3893             ec = NAMESPACE_ERR;
   3894             return false;
   3895         }
   3896         localName = qualifiedName.substring(colonPos + 1);
   3897     }
   3898 
   3899     if (localName.isEmpty()) {
   3900         ec = NAMESPACE_ERR;
   3901         return false;
   3902     }
   3903 
   3904     return true;
   3905 }
   3906 
   3907 void Document::setDecoder(PassRefPtr<TextResourceDecoder> decoder)
   3908 {
   3909     m_decoder = decoder;
   3910 }
   3911 
   3912 KURL Document::completeURL(const String& url) const
   3913 {
   3914     // Always return a null URL when passed a null string.
   3915     // FIXME: Should we change the KURL constructor to have this behavior?
   3916     // See also [CSS]StyleSheet::completeURL(const String&)
   3917     if (url.isNull())
   3918         return KURL();
   3919     const KURL& baseURL = ((m_baseURL.isEmpty() || m_baseURL == blankURL()) && parentDocument()) ? parentDocument()->baseURL() : m_baseURL;
   3920     if (!m_decoder)
   3921         return KURL(baseURL, url);
   3922     return KURL(baseURL, url, m_decoder->encoding());
   3923 }
   3924 
   3925 void Document::setInPageCache(bool flag)
   3926 {
   3927     if (m_inPageCache == flag)
   3928         return;
   3929 
   3930     m_inPageCache = flag;
   3931     if (flag) {
   3932         ASSERT(!m_savedRenderer);
   3933         m_savedRenderer = renderer();
   3934         if (FrameView* v = view())
   3935             v->resetScrollbarsAndClearContentsSize();
   3936         m_styleRecalcTimer.stop();
   3937     } else {
   3938         ASSERT(!renderer() || renderer() == m_savedRenderer);
   3939         ASSERT(m_renderArena);
   3940         setRenderer(m_savedRenderer);
   3941         m_savedRenderer = 0;
   3942 
   3943         if (frame() && frame()->page())
   3944             frame()->page()->updateViewportArguments();
   3945 
   3946         if (childNeedsStyleRecalc())
   3947             scheduleStyleRecalc();
   3948     }
   3949 }
   3950 
   3951 void Document::documentWillBecomeInactive()
   3952 {
   3953 #if USE(ACCELERATED_COMPOSITING)
   3954     if (renderer())
   3955         renderView()->willMoveOffscreen();
   3956 #endif
   3957 
   3958     HashSet<Element*>::iterator end = m_documentActivationCallbackElements.end();
   3959     for (HashSet<Element*>::iterator i = m_documentActivationCallbackElements.begin(); i != end; ++i)
   3960         (*i)->documentWillBecomeInactive();
   3961 }
   3962 
   3963 void Document::documentDidBecomeActive()
   3964 {
   3965     HashSet<Element*>::iterator end = m_documentActivationCallbackElements.end();
   3966     for (HashSet<Element*>::iterator i = m_documentActivationCallbackElements.begin(); i != end; ++i)
   3967         (*i)->documentDidBecomeActive();
   3968 
   3969 #if USE(ACCELERATED_COMPOSITING)
   3970     if (renderer())
   3971         renderView()->didMoveOnscreen();
   3972 #endif
   3973 
   3974     ASSERT(m_frame);
   3975     m_frame->loader()->client()->dispatchDidBecomeFrameset(isFrameSet());
   3976 }
   3977 
   3978 void Document::registerForDocumentActivationCallbacks(Element* e)
   3979 {
   3980     m_documentActivationCallbackElements.add(e);
   3981 }
   3982 
   3983 void Document::unregisterForDocumentActivationCallbacks(Element* e)
   3984 {
   3985     m_documentActivationCallbackElements.remove(e);
   3986 }
   3987 
   3988 void Document::mediaVolumeDidChange()
   3989 {
   3990     HashSet<Element*>::iterator end = m_mediaVolumeCallbackElements.end();
   3991     for (HashSet<Element*>::iterator i = m_mediaVolumeCallbackElements.begin(); i != end; ++i)
   3992         (*i)->mediaVolumeDidChange();
   3993 }
   3994 
   3995 void Document::registerForMediaVolumeCallbacks(Element* e)
   3996 {
   3997     m_mediaVolumeCallbackElements.add(e);
   3998 }
   3999 
   4000 void Document::unregisterForMediaVolumeCallbacks(Element* e)
   4001 {
   4002     m_mediaVolumeCallbackElements.remove(e);
   4003 }
   4004 
   4005 void Document::privateBrowsingStateDidChange()
   4006 {
   4007     HashSet<Element*>::iterator end = m_privateBrowsingStateChangedElements.end();
   4008     for (HashSet<Element*>::iterator it = m_privateBrowsingStateChangedElements.begin(); it != end; ++it)
   4009         (*it)->privateBrowsingStateDidChange();
   4010 }
   4011 
   4012 void Document::registerForPrivateBrowsingStateChangedCallbacks(Element* e)
   4013 {
   4014     m_privateBrowsingStateChangedElements.add(e);
   4015 }
   4016 
   4017 void Document::unregisterForPrivateBrowsingStateChangedCallbacks(Element* e)
   4018 {
   4019     m_privateBrowsingStateChangedElements.remove(e);
   4020 }
   4021 
   4022 void Document::setShouldCreateRenderers(bool f)
   4023 {
   4024     m_createRenderers = f;
   4025 }
   4026 
   4027 bool Document::shouldCreateRenderers()
   4028 {
   4029     return m_createRenderers;
   4030 }
   4031 
   4032 // Support for Javascript execCommand, and related methods
   4033 
   4034 static Editor::Command command(Document* document, const String& commandName, bool userInterface = false)
   4035 {
   4036     Frame* frame = document->frame();
   4037     if (!frame || frame->document() != document)
   4038         return Editor::Command();
   4039 
   4040     document->updateStyleIfNeeded();
   4041 
   4042     return frame->editor()->command(commandName,
   4043         userInterface ? CommandFromDOMWithUserInterface : CommandFromDOM);
   4044 }
   4045 
   4046 bool Document::execCommand(const String& commandName, bool userInterface, const String& value)
   4047 {
   4048     return command(this, commandName, userInterface).execute(value);
   4049 }
   4050 
   4051 bool Document::queryCommandEnabled(const String& commandName)
   4052 {
   4053     return command(this, commandName).isEnabled();
   4054 }
   4055 
   4056 bool Document::queryCommandIndeterm(const String& commandName)
   4057 {
   4058     return command(this, commandName).state() == MixedTriState;
   4059 }
   4060 
   4061 bool Document::queryCommandState(const String& commandName)
   4062 {
   4063     return command(this, commandName).state() == TrueTriState;
   4064 }
   4065 
   4066 bool Document::queryCommandSupported(const String& commandName)
   4067 {
   4068     return command(this, commandName).isSupported();
   4069 }
   4070 
   4071 String Document::queryCommandValue(const String& commandName)
   4072 {
   4073     return command(this, commandName).value();
   4074 }
   4075 
   4076 #if ENABLE(XSLT)
   4077 
   4078 void Document::applyXSLTransform(ProcessingInstruction* pi)
   4079 {
   4080     RefPtr<XSLTProcessor> processor = XSLTProcessor::create();
   4081     processor->setXSLStyleSheet(static_cast<XSLStyleSheet*>(pi->sheet()));
   4082     String resultMIMEType;
   4083     String newSource;
   4084     String resultEncoding;
   4085     if (!processor->transformToString(this, resultMIMEType, newSource, resultEncoding))
   4086         return;
   4087     // FIXME: If the transform failed we should probably report an error (like Mozilla does).
   4088     processor->createDocumentFromSource(newSource, resultEncoding, resultMIMEType, this, frame());
   4089 }
   4090 
   4091 void Document::setTransformSource(PassOwnPtr<TransformSource> source)
   4092 {
   4093     if (m_transformSource == source)
   4094         return;
   4095     m_transformSource = source;
   4096 }
   4097 
   4098 #endif
   4099 
   4100 void Document::setDesignMode(InheritedBool value)
   4101 {
   4102     m_designMode = value;
   4103 }
   4104 
   4105 Document::InheritedBool Document::getDesignMode() const
   4106 {
   4107     return m_designMode;
   4108 }
   4109 
   4110 bool Document::inDesignMode() const
   4111 {
   4112     for (const Document* d = this; d; d = d->parentDocument()) {
   4113         if (d->m_designMode != inherit)
   4114             return d->m_designMode;
   4115     }
   4116     return false;
   4117 }
   4118 
   4119 Document* Document::parentDocument() const
   4120 {
   4121     if (!m_frame)
   4122         return 0;
   4123     Frame* parent = m_frame->tree()->parent();
   4124     if (!parent)
   4125         return 0;
   4126     return parent->document();
   4127 }
   4128 
   4129 Document* Document::topDocument() const
   4130 {
   4131     Document* doc = const_cast<Document *>(this);
   4132     Element* element;
   4133     while ((element = doc->ownerElement()))
   4134         doc = element->document();
   4135 
   4136     return doc;
   4137 }
   4138 
   4139 PassRefPtr<Attr> Document::createAttribute(const String& name, ExceptionCode& ec)
   4140 {
   4141     return createAttributeNS(String(), name, ec, true);
   4142 }
   4143 
   4144 PassRefPtr<Attr> Document::createAttributeNS(const String& namespaceURI, const String& qualifiedName, ExceptionCode& ec, bool shouldIgnoreNamespaceChecks)
   4145 {
   4146     String prefix, localName;
   4147     if (!parseQualifiedName(qualifiedName, prefix, localName, ec))
   4148         return 0;
   4149 
   4150     QualifiedName qName(prefix, localName, namespaceURI);
   4151     if (!shouldIgnoreNamespaceChecks && hasPrefixNamespaceMismatch(qName)) {
   4152         ec = NAMESPACE_ERR;
   4153         return 0;
   4154     }
   4155 
   4156     // Spec: DOM Level 2 Core: http://www.w3.org/TR/DOM-Level-2-Core/core.html#ID-DocCrAttrNS
   4157     if (!shouldIgnoreNamespaceChecks && qName.localName() == xmlnsAtom && qName.namespaceURI() != XMLNSNames::xmlnsNamespaceURI) {
   4158         ec = NAMESPACE_ERR;
   4159         return 0;
   4160     }
   4161 
   4162     // FIXME: Assume this is a mapped attribute, since createAttribute isn't namespace-aware.  There's no harm to XML
   4163     // documents if we're wrong.
   4164     return Attr::create(0, this, Attribute::createMapped(qName, StringImpl::empty()));
   4165 }
   4166 
   4167 #if ENABLE(SVG)
   4168 const SVGDocumentExtensions* Document::svgExtensions()
   4169 {
   4170     return m_svgExtensions.get();
   4171 }
   4172 
   4173 SVGDocumentExtensions* Document::accessSVGExtensions()
   4174 {
   4175     if (!m_svgExtensions)
   4176         m_svgExtensions = adoptPtr(new SVGDocumentExtensions(this));
   4177     return m_svgExtensions.get();
   4178 }
   4179 
   4180 bool Document::hasSVGRootNode() const
   4181 {
   4182     return documentElement() && documentElement()->hasTagName(SVGNames::svgTag);
   4183 }
   4184 #endif
   4185 
   4186 PassRefPtr<HTMLCollection> Document::images()
   4187 {
   4188     return HTMLCollection::create(this, DocImages);
   4189 }
   4190 
   4191 PassRefPtr<HTMLCollection> Document::applets()
   4192 {
   4193     return HTMLCollection::create(this, DocApplets);
   4194 }
   4195 
   4196 PassRefPtr<HTMLCollection> Document::embeds()
   4197 {
   4198     return HTMLCollection::create(this, DocEmbeds);
   4199 }
   4200 
   4201 PassRefPtr<HTMLCollection> Document::plugins()
   4202 {
   4203     // This is an alias for embeds() required for the JS DOM bindings.
   4204     return HTMLCollection::create(this, DocEmbeds);
   4205 }
   4206 
   4207 PassRefPtr<HTMLCollection> Document::objects()
   4208 {
   4209     return HTMLCollection::create(this, DocObjects);
   4210 }
   4211 
   4212 PassRefPtr<HTMLCollection> Document::scripts()
   4213 {
   4214     return HTMLCollection::create(this, DocScripts);
   4215 }
   4216 
   4217 PassRefPtr<HTMLCollection> Document::links()
   4218 {
   4219     return HTMLCollection::create(this, DocLinks);
   4220 }
   4221 
   4222 PassRefPtr<HTMLCollection> Document::forms()
   4223 {
   4224     return HTMLCollection::create(this, DocForms);
   4225 }
   4226 
   4227 PassRefPtr<HTMLCollection> Document::anchors()
   4228 {
   4229     return HTMLCollection::create(this, DocAnchors);
   4230 }
   4231 
   4232 PassRefPtr<HTMLAllCollection> Document::all()
   4233 {
   4234     return HTMLAllCollection::create(this);
   4235 }
   4236 
   4237 PassRefPtr<HTMLCollection> Document::windowNamedItems(const String &name)
   4238 {
   4239     return HTMLNameCollection::create(this, WindowNamedItems, name);
   4240 }
   4241 
   4242 PassRefPtr<HTMLCollection> Document::documentNamedItems(const String &name)
   4243 {
   4244     return HTMLNameCollection::create(this, DocumentNamedItems, name);
   4245 }
   4246 
   4247 CollectionCache* Document::nameCollectionInfo(CollectionType type, const AtomicString& name)
   4248 {
   4249     ASSERT(type >= FirstNamedDocumentCachedType);
   4250     unsigned index = type - FirstNamedDocumentCachedType;
   4251     ASSERT(index < NumNamedDocumentCachedTypes);
   4252 
   4253     NamedCollectionMap& map = m_nameCollectionInfo[index];
   4254     NamedCollectionMap::iterator iter = map.find(name.impl());
   4255     if (iter == map.end())
   4256         iter = map.add(name.impl(), new CollectionCache).first;
   4257     iter->second->checkConsistency();
   4258     return iter->second;
   4259 }
   4260 
   4261 void Document::finishedParsing()
   4262 {
   4263     ASSERT(!scriptableDocumentParser() || !m_parser->isParsing());
   4264     ASSERT(!scriptableDocumentParser() || m_readyState != Loading);
   4265     setParsing(false);
   4266     if (!m_documentTiming.domContentLoadedEventStart)
   4267         m_documentTiming.domContentLoadedEventStart = currentTime();
   4268     dispatchEvent(Event::create(eventNames().DOMContentLoadedEvent, true, false));
   4269     if (!m_documentTiming.domContentLoadedEventEnd)
   4270         m_documentTiming.domContentLoadedEventEnd = currentTime();
   4271 
   4272     if (RefPtr<Frame> f = frame()) {
   4273         // FrameLoader::finishedParsing() might end up calling Document::implicitClose() if all
   4274         // resource loads are complete. HTMLObjectElements can start loading their resources from
   4275         // post attach callbacks triggered by recalcStyle().  This means if we parse out an <object>
   4276         // tag and then reach the end of the document without updating styles, we might not have yet
   4277         // started the resource load and might fire the window load event too early.  To avoid this
   4278         // we force the styles to be up to date before calling FrameLoader::finishedParsing().
   4279         // See https://bugs.webkit.org/show_bug.cgi?id=36864 starting around comment 35.
   4280         updateStyleIfNeeded();
   4281 
   4282         f->loader()->finishedParsing();
   4283 
   4284         InspectorInstrumentation::domContentLoadedEventFired(f.get(), url());
   4285     }
   4286 }
   4287 
   4288 Vector<String> Document::formElementsState() const
   4289 {
   4290     Vector<String> stateVector;
   4291     stateVector.reserveInitialCapacity(m_formElementsWithState.size() * 3);
   4292     typedef FormElementListHashSet::const_iterator Iterator;
   4293     Iterator end = m_formElementsWithState.end();
   4294     for (Iterator it = m_formElementsWithState.begin(); it != end; ++it) {
   4295         Element* elementWithState = *it;
   4296         String value;
   4297         if (!elementWithState->shouldSaveAndRestoreFormControlState())
   4298             continue;
   4299         if (!elementWithState->saveFormControlState(value))
   4300             continue;
   4301         stateVector.append(elementWithState->formControlName().string());
   4302         stateVector.append(elementWithState->formControlType().string());
   4303         stateVector.append(value);
   4304     }
   4305     return stateVector;
   4306 }
   4307 
   4308 #if ENABLE(XPATH)
   4309 
   4310 PassRefPtr<XPathExpression> Document::createExpression(const String& expression,
   4311                                                        XPathNSResolver* resolver,
   4312                                                        ExceptionCode& ec)
   4313 {
   4314     if (!m_xpathEvaluator)
   4315         m_xpathEvaluator = XPathEvaluator::create();
   4316     return m_xpathEvaluator->createExpression(expression, resolver, ec);
   4317 }
   4318 
   4319 PassRefPtr<XPathNSResolver> Document::createNSResolver(Node* nodeResolver)
   4320 {
   4321     if (!m_xpathEvaluator)
   4322         m_xpathEvaluator = XPathEvaluator::create();
   4323     return m_xpathEvaluator->createNSResolver(nodeResolver);
   4324 }
   4325 
   4326 PassRefPtr<XPathResult> Document::evaluate(const String& expression,
   4327                                            Node* contextNode,
   4328                                            XPathNSResolver* resolver,
   4329                                            unsigned short type,
   4330                                            XPathResult* result,
   4331                                            ExceptionCode& ec)
   4332 {
   4333     if (!m_xpathEvaluator)
   4334         m_xpathEvaluator = XPathEvaluator::create();
   4335     return m_xpathEvaluator->evaluate(expression, contextNode, resolver, type, result, ec);
   4336 }
   4337 
   4338 #endif // ENABLE(XPATH)
   4339 
   4340 void Document::setStateForNewFormElements(const Vector<String>& stateVector)
   4341 {
   4342     // Walk the state vector backwards so that the value to use for each
   4343     // name/type pair first is the one at the end of each individual vector
   4344     // in the FormElementStateMap. We're using them like stacks.
   4345     typedef FormElementStateMap::iterator Iterator;
   4346     m_formElementsWithState.clear();
   4347     for (size_t i = stateVector.size() / 3 * 3; i; i -= 3) {
   4348         AtomicString a = stateVector[i - 3];
   4349         AtomicString b = stateVector[i - 2];
   4350         const String& c = stateVector[i - 1];
   4351         FormElementKey key(a.impl(), b.impl());
   4352         Iterator it = m_stateForNewFormElements.find(key);
   4353         if (it != m_stateForNewFormElements.end())
   4354             it->second.append(c);
   4355         else {
   4356             Vector<String> v(1);
   4357             v[0] = c;
   4358             m_stateForNewFormElements.set(key, v);
   4359         }
   4360     }
   4361 }
   4362 
   4363 bool Document::hasStateForNewFormElements() const
   4364 {
   4365     return !m_stateForNewFormElements.isEmpty();
   4366 }
   4367 
   4368 bool Document::takeStateForFormElement(AtomicStringImpl* name, AtomicStringImpl* type, String& state)
   4369 {
   4370     typedef FormElementStateMap::iterator Iterator;
   4371     Iterator it = m_stateForNewFormElements.find(FormElementKey(name, type));
   4372     if (it == m_stateForNewFormElements.end())
   4373         return false;
   4374     ASSERT(it->second.size());
   4375     state = it->second.last();
   4376     if (it->second.size() > 1)
   4377         it->second.removeLast();
   4378     else
   4379         m_stateForNewFormElements.remove(it);
   4380     return true;
   4381 }
   4382 
   4383 FormElementKey::FormElementKey(AtomicStringImpl* name, AtomicStringImpl* type)
   4384     : m_name(name), m_type(type)
   4385 {
   4386     ref();
   4387 }
   4388 
   4389 FormElementKey::~FormElementKey()
   4390 {
   4391     deref();
   4392 }
   4393 
   4394 FormElementKey::FormElementKey(const FormElementKey& other)
   4395     : m_name(other.name()), m_type(other.type())
   4396 {
   4397     ref();
   4398 }
   4399 
   4400 FormElementKey& FormElementKey::operator=(const FormElementKey& other)
   4401 {
   4402     other.ref();
   4403     deref();
   4404     m_name = other.name();
   4405     m_type = other.type();
   4406     return *this;
   4407 }
   4408 
   4409 void FormElementKey::ref() const
   4410 {
   4411     if (name())
   4412         name()->ref();
   4413     if (type())
   4414         type()->ref();
   4415 }
   4416 
   4417 void FormElementKey::deref() const
   4418 {
   4419     if (name())
   4420         name()->deref();
   4421     if (type())
   4422         type()->deref();
   4423 }
   4424 
   4425 unsigned FormElementKeyHash::hash(const FormElementKey& key)
   4426 {
   4427     return StringHasher::hashMemory<sizeof(FormElementKey)>(&key);
   4428 }
   4429 
   4430 void Document::setIconURL(const String& iconURL, const String& type)
   4431 {
   4432     // FIXME - <rdar://problem/4727645> - At some point in the future, we might actually honor the "type"
   4433     if (m_iconURL.isEmpty())
   4434         m_iconURL = iconURL;
   4435     else if (!type.isEmpty())
   4436         m_iconURL = iconURL;
   4437     if (Frame* f = frame())
   4438         f->loader()->setIconURL(m_iconURL);
   4439 }
   4440 
   4441 void Document::registerFormElementWithFormAttribute(FormAssociatedElement* element)
   4442 {
   4443     ASSERT(toHTMLElement(element)->fastHasAttribute(formAttr));
   4444     m_formElementsWithFormAttribute.add(element);
   4445 }
   4446 
   4447 void Document::unregisterFormElementWithFormAttribute(FormAssociatedElement* element)
   4448 {
   4449     m_formElementsWithFormAttribute.remove(element);
   4450 }
   4451 
   4452 void Document::resetFormElementsOwner(HTMLFormElement* form)
   4453 {
   4454     typedef FormAssociatedElementListHashSet::iterator Iterator;
   4455     Iterator end = m_formElementsWithFormAttribute.end();
   4456     for (Iterator it = m_formElementsWithFormAttribute.begin(); it != end; ++it)
   4457         (*it)->resetFormOwner(form);
   4458 }
   4459 
   4460 void Document::setUseSecureKeyboardEntryWhenActive(bool usesSecureKeyboard)
   4461 {
   4462     if (m_useSecureKeyboardEntryWhenActive == usesSecureKeyboard)
   4463         return;
   4464 
   4465     m_useSecureKeyboardEntryWhenActive = usesSecureKeyboard;
   4466     m_frame->selection()->updateSecureKeyboardEntryIfActive();
   4467 }
   4468 
   4469 bool Document::useSecureKeyboardEntryWhenActive() const
   4470 {
   4471     return m_useSecureKeyboardEntryWhenActive;
   4472 }
   4473 
   4474 void Document::initSecurityContext()
   4475 {
   4476     if (securityOrigin() && !securityOrigin()->isEmpty())
   4477         return; // m_securityOrigin has already been initialized.
   4478 
   4479     if (!m_frame) {
   4480         // No source for a security context.
   4481         // This can occur via document.implementation.createDocument().
   4482         m_cookieURL = KURL(ParsedURLString, "");
   4483         ScriptExecutionContext::setSecurityOrigin(SecurityOrigin::createEmpty());
   4484         m_contentSecurityPolicy = ContentSecurityPolicy::create();
   4485         return;
   4486     }
   4487 
   4488     // In the common case, create the security context from the currently
   4489     // loading URL with a fresh content security policy.
   4490     m_cookieURL = m_url;
   4491     ScriptExecutionContext::setSecurityOrigin(SecurityOrigin::create(m_url, m_frame->loader()->sandboxFlags()));
   4492     m_contentSecurityPolicy = ContentSecurityPolicy::create(securityOrigin());
   4493 
   4494     if (SecurityOrigin::allowSubstituteDataAccessToLocal()) {
   4495         // If this document was loaded with substituteData, then the document can
   4496         // load local resources.  See https://bugs.webkit.org/show_bug.cgi?id=16756
   4497         // and https://bugs.webkit.org/show_bug.cgi?id=19760 for further
   4498         // discussion.
   4499 
   4500         DocumentLoader* documentLoader = loader();
   4501         if (documentLoader && documentLoader->substituteData().isValid())
   4502             securityOrigin()->grantLoadLocalResources();
   4503     }
   4504 
   4505     if (Settings* settings = this->settings()) {
   4506         if (!settings->isWebSecurityEnabled()) {
   4507           // Web security is turned off.  We should let this document access every
   4508           // other document.  This is used primary by testing harnesses for web
   4509           // sites.
   4510           securityOrigin()->grantUniversalAccess();
   4511 
   4512         } else if (settings->allowUniversalAccessFromFileURLs() && securityOrigin()->isLocal()) {
   4513           // Some clients want file:// URLs to have universal access, but that
   4514           // setting is dangerous for other clients.
   4515           securityOrigin()->grantUniversalAccess();
   4516         } else if (!settings->allowFileAccessFromFileURLs() && securityOrigin()->isLocal()) {
   4517           // Some clients want file:// URLs to have even tighter restrictions by
   4518           // default, and not be able to access other local files.
   4519           securityOrigin()->enforceFilePathSeparation();
   4520         }
   4521     }
   4522 
   4523     if (!securityOrigin()->isEmpty())
   4524         return;
   4525 
   4526     // If we do not obtain a meaningful origin from the URL, then we try to
   4527     // find one via the frame hierarchy.
   4528 
   4529     Frame* ownerFrame = m_frame->tree()->parent();
   4530     if (!ownerFrame)
   4531         ownerFrame = m_frame->loader()->opener();
   4532 
   4533     if (ownerFrame) {
   4534         m_cookieURL = ownerFrame->document()->cookieURL();
   4535         // We alias the SecurityOrigins to match Firefox, see Bug 15313
   4536         // https://bugs.webkit.org/show_bug.cgi?id=15313
   4537         ScriptExecutionContext::setSecurityOrigin(ownerFrame->document()->securityOrigin());
   4538         // FIXME: Consider moving m_contentSecurityPolicy into SecurityOrigin.
   4539         m_contentSecurityPolicy = ownerFrame->document()->contentSecurityPolicy();
   4540     }
   4541 }
   4542 
   4543 void Document::setSecurityOrigin(SecurityOrigin* securityOrigin)
   4544 {
   4545     ScriptExecutionContext::setSecurityOrigin(securityOrigin);
   4546     // FIXME: Find a better place to enable DNS prefetch, which is a loader concept,
   4547     // not applicable to arbitrary documents.
   4548     initDNSPrefetch();
   4549 }
   4550 
   4551 #if ENABLE(DATABASE)
   4552 
   4553 bool Document::allowDatabaseAccess() const
   4554 {
   4555     if (!page() || page()->settings()->privateBrowsingEnabled())
   4556         return false;
   4557     return true;
   4558 }
   4559 
   4560 void Document::databaseExceededQuota(const String& name)
   4561 {
   4562     Page* currentPage = page();
   4563     if (currentPage)
   4564         currentPage->chrome()->client()->exceededDatabaseQuota(document()->frame(), name);
   4565 }
   4566 
   4567 #endif
   4568 
   4569 bool Document::isContextThread() const
   4570 {
   4571     return isMainThread();
   4572 }
   4573 
   4574 void Document::updateURLForPushOrReplaceState(const KURL& url)
   4575 {
   4576     Frame* f = frame();
   4577     if (!f)
   4578         return;
   4579 
   4580     setURL(url);
   4581     f->loader()->setOutgoingReferrer(url);
   4582 
   4583     if (DocumentLoader* documentLoader = loader())
   4584         documentLoader->replaceRequestURLForSameDocumentNavigation(url);
   4585 }
   4586 
   4587 void Document::statePopped(SerializedScriptValue* stateObject)
   4588 {
   4589     if (!frame())
   4590         return;
   4591 
   4592     // Per step 11 of section 6.5.9 (history traversal) of the HTML5 spec, we
   4593     // defer firing of popstate until we're in the complete state.
   4594     if (m_readyState == Complete)
   4595         enqueuePopstateEvent(stateObject);
   4596     else
   4597         m_pendingStateObject = stateObject;
   4598 }
   4599 
   4600 void Document::updateFocusAppearanceSoon(bool restorePreviousSelection)
   4601 {
   4602     m_updateFocusAppearanceRestoresSelection = restorePreviousSelection;
   4603     if (!m_updateFocusAppearanceTimer.isActive())
   4604         m_updateFocusAppearanceTimer.startOneShot(0);
   4605 }
   4606 
   4607 void Document::cancelFocusAppearanceUpdate()
   4608 {
   4609     m_updateFocusAppearanceTimer.stop();
   4610 }
   4611 
   4612 void Document::updateFocusAppearanceTimerFired(Timer<Document>*)
   4613 {
   4614     Node* node = focusedNode();
   4615     if (!node)
   4616         return;
   4617     if (!node->isElementNode())
   4618         return;
   4619 
   4620     updateLayout();
   4621 
   4622     Element* element = static_cast<Element*>(node);
   4623     if (element->isFocusable())
   4624         element->updateFocusAppearance(m_updateFocusAppearanceRestoresSelection);
   4625 }
   4626 
   4627 // FF method for accessing the selection added for compatibility.
   4628 DOMSelection* Document::getSelection() const
   4629 {
   4630     return frame() ? frame()->domWindow()->getSelection() : 0;
   4631 }
   4632 
   4633 #if ENABLE(WML)
   4634 void Document::resetWMLPageState()
   4635 {
   4636     if (WMLPageState* pageState = wmlPageStateForDocument(this))
   4637         pageState->reset();
   4638 }
   4639 
   4640 void Document::initializeWMLPageState()
   4641 {
   4642     if (!isWMLDocument())
   4643         return;
   4644 
   4645     static_cast<WMLDocument*>(this)->initialize();
   4646 }
   4647 #endif
   4648 
   4649 void Document::attachRange(Range* range)
   4650 {
   4651     ASSERT(!m_ranges.contains(range));
   4652     m_ranges.add(range);
   4653 }
   4654 
   4655 void Document::detachRange(Range* range)
   4656 {
   4657     // We don't ASSERT m_ranges.contains(range) to allow us to call this
   4658     // unconditionally to fix: https://bugs.webkit.org/show_bug.cgi?id=26044
   4659     m_ranges.remove(range);
   4660 }
   4661 
   4662 CanvasRenderingContext* Document::getCSSCanvasContext(const String& type, const String& name, int width, int height)
   4663 {
   4664     HTMLCanvasElement* result = getCSSCanvasElement(name);
   4665     if (!result)
   4666         return 0;
   4667     result->setSize(IntSize(width, height));
   4668     return result->getContext(type);
   4669 }
   4670 
   4671 HTMLCanvasElement* Document::getCSSCanvasElement(const String& name)
   4672 {
   4673     RefPtr<HTMLCanvasElement> result = m_cssCanvasElements.get(name).get();
   4674     if (!result) {
   4675         result = HTMLCanvasElement::create(this);
   4676         m_cssCanvasElements.set(name, result);
   4677     }
   4678     return result.get();
   4679 }
   4680 
   4681 void Document::initDNSPrefetch()
   4682 {
   4683     Settings* settings = this->settings();
   4684 
   4685     m_haveExplicitlyDisabledDNSPrefetch = false;
   4686     m_isDNSPrefetchEnabled = settings && settings->dnsPrefetchingEnabled() && securityOrigin()->protocol() == "http";
   4687 
   4688     // Inherit DNS prefetch opt-out from parent frame
   4689     if (Document* parent = parentDocument()) {
   4690         if (!parent->isDNSPrefetchEnabled())
   4691             m_isDNSPrefetchEnabled = false;
   4692     }
   4693 }
   4694 
   4695 void Document::parseDNSPrefetchControlHeader(const String& dnsPrefetchControl)
   4696 {
   4697     if (equalIgnoringCase(dnsPrefetchControl, "on") && !m_haveExplicitlyDisabledDNSPrefetch) {
   4698         m_isDNSPrefetchEnabled = true;
   4699         return;
   4700     }
   4701 
   4702     m_isDNSPrefetchEnabled = false;
   4703     m_haveExplicitlyDisabledDNSPrefetch = true;
   4704 }
   4705 
   4706 void Document::addMessage(MessageSource source, MessageType type, MessageLevel level, const String& message, unsigned lineNumber, const String& sourceURL, PassRefPtr<ScriptCallStack> callStack)
   4707 {
   4708     if (DOMWindow* window = domWindow())
   4709         window->console()->addMessage(source, type, level, message, lineNumber, sourceURL, callStack);
   4710 }
   4711 
   4712 struct PerformTaskContext {
   4713     WTF_MAKE_NONCOPYABLE(PerformTaskContext); WTF_MAKE_FAST_ALLOCATED;
   4714 public:
   4715     PerformTaskContext(PassRefPtr<DocumentWeakReference> documentReference, PassOwnPtr<ScriptExecutionContext::Task> task)
   4716         : documentReference(documentReference)
   4717         , task(task)
   4718     {
   4719     }
   4720 
   4721     RefPtr<DocumentWeakReference> documentReference;
   4722     OwnPtr<ScriptExecutionContext::Task> task;
   4723 };
   4724 
   4725 static void performTask(void* ctx)
   4726 {
   4727     ASSERT(isMainThread());
   4728 
   4729     PerformTaskContext* context = reinterpret_cast<PerformTaskContext*>(ctx);
   4730     ASSERT(context);
   4731 
   4732     if (Document* document = context->documentReference->document())
   4733         context->task->performTask(document);
   4734 
   4735     delete context;
   4736 }
   4737 
   4738 void Document::postTask(PassOwnPtr<Task> task)
   4739 {
   4740     callOnMainThread(performTask, new PerformTaskContext(m_weakReference, task));
   4741 }
   4742 
   4743 void Document::suspendScriptedAnimationControllerCallbacks()
   4744 {
   4745 #if ENABLE(REQUEST_ANIMATION_FRAME)
   4746     if (m_scriptedAnimationController)
   4747         m_scriptedAnimationController->suspend();
   4748 #endif
   4749 }
   4750 
   4751 void Document::resumeScriptedAnimationControllerCallbacks()
   4752 {
   4753 #if ENABLE(REQUEST_ANIMATION_FRAME)
   4754     if (m_scriptedAnimationController)
   4755         m_scriptedAnimationController->resume();
   4756 #endif
   4757 }
   4758 
   4759 String Document::displayStringModifiedByEncoding(const String& str) const
   4760 {
   4761     if (m_decoder)
   4762         return m_decoder->encoding().displayString(str.impl());
   4763     return str;
   4764 }
   4765 
   4766 PassRefPtr<StringImpl> Document::displayStringModifiedByEncoding(PassRefPtr<StringImpl> str) const
   4767 {
   4768     if (m_decoder)
   4769         return m_decoder->encoding().displayString(str);
   4770     return str;
   4771 }
   4772 
   4773 void Document::displayBufferModifiedByEncoding(UChar* buffer, unsigned len) const
   4774 {
   4775     if (m_decoder)
   4776         m_decoder->encoding().displayBuffer(buffer, len);
   4777 }
   4778 
   4779 void Document::enqueuePageshowEvent(PageshowEventPersistence persisted)
   4780 {
   4781     // FIXME: https://bugs.webkit.org/show_bug.cgi?id=36334 Pageshow event needs to fire asynchronously.
   4782     dispatchWindowEvent(PageTransitionEvent::create(eventNames().pageshowEvent, persisted), this);
   4783 }
   4784 
   4785 void Document::enqueueHashchangeEvent(const String& oldURL, const String& newURL)
   4786 {
   4787     enqueueWindowEvent(HashChangeEvent::create(oldURL, newURL));
   4788 }
   4789 
   4790 void Document::enqueuePopstateEvent(PassRefPtr<SerializedScriptValue> stateObject)
   4791 {
   4792     // FIXME: https://bugs.webkit.org/show_bug.cgi?id=36202 Popstate event needs to fire asynchronously
   4793     dispatchWindowEvent(PopStateEvent::create(stateObject));
   4794 }
   4795 
   4796 void Document::addMediaCanStartListener(MediaCanStartListener* listener)
   4797 {
   4798     ASSERT(!m_mediaCanStartListeners.contains(listener));
   4799     m_mediaCanStartListeners.add(listener);
   4800 }
   4801 
   4802 void Document::removeMediaCanStartListener(MediaCanStartListener* listener)
   4803 {
   4804     ASSERT(m_mediaCanStartListeners.contains(listener));
   4805     m_mediaCanStartListeners.remove(listener);
   4806 }
   4807 
   4808 MediaCanStartListener* Document::takeAnyMediaCanStartListener()
   4809 {
   4810     HashSet<MediaCanStartListener*>::iterator slot = m_mediaCanStartListeners.begin();
   4811     if (slot == m_mediaCanStartListeners.end())
   4812         return 0;
   4813     MediaCanStartListener* listener = *slot;
   4814     m_mediaCanStartListeners.remove(slot);
   4815     return listener;
   4816 }
   4817 
   4818 #if ENABLE(XHTMLMP)
   4819 bool Document::isXHTMLMPDocument() const
   4820 {
   4821     if (!frame() || !frame()->loader())
   4822         return false;
   4823     // As per section 7.2 of OMA-WAP-XHTMLMP-V1_1-20061020-A.pdf, a conforming user agent
   4824     // MUST accept XHTMLMP document identified as "application/vnd.wap.xhtml+xml"
   4825     // and SHOULD accept it identified as "application/xhtml+xml" , "application/xhtml+xml" is a
   4826     // general MIME type for all XHTML documents, not only for XHTMLMP
   4827     return loader()->writer()->mimeType() == "application/vnd.wap.xhtml+xml";
   4828 }
   4829 #endif
   4830 
   4831 #if ENABLE(FULLSCREEN_API)
   4832 bool Document::fullScreenIsAllowedForElement(Element* element) const
   4833 {
   4834     ASSERT(element);
   4835     while (HTMLFrameOwnerElement* ownerElement = element->document()->ownerElement()) {
   4836         if (!ownerElement->hasTagName(frameTag) && !ownerElement->hasTagName(iframeTag))
   4837             continue;
   4838 
   4839         if (!static_cast<HTMLFrameElementBase*>(ownerElement)->allowFullScreen())
   4840             return false;
   4841         element = ownerElement;
   4842     }
   4843     return true;
   4844 }
   4845 
   4846 void Document::webkitRequestFullScreenForElement(Element* element, unsigned short flags)
   4847 {
   4848     if (!page() || !page()->settings()->fullScreenEnabled())
   4849         return;
   4850 
   4851     if (!element)
   4852         element = documentElement();
   4853 
   4854     if (!fullScreenIsAllowedForElement(element))
   4855         return;
   4856 
   4857     if (!ScriptController::processingUserGesture())
   4858         return;
   4859 
   4860     if (!page()->chrome()->client()->supportsFullScreenForElement(element, flags & Element::ALLOW_KEYBOARD_INPUT))
   4861         return;
   4862 
   4863     m_areKeysEnabledInFullScreen = flags & Element::ALLOW_KEYBOARD_INPUT;
   4864     page()->chrome()->client()->enterFullScreenForElement(element);
   4865 }
   4866 
   4867 void Document::webkitCancelFullScreen()
   4868 {
   4869     if (!page() || !m_fullScreenElement)
   4870         return;
   4871 
   4872     page()->chrome()->client()->exitFullScreenForElement(m_fullScreenElement.get());
   4873 #if PLATFORM(ANDROID)
   4874     // The next time we try to enter full screen, we need this change to know
   4875     // we are not in full screen any more.
   4876     m_fullScreenElement = 0;
   4877 #endif
   4878 }
   4879 
   4880 void Document::webkitWillEnterFullScreenForElement(Element* element)
   4881 {
   4882     ASSERT(element);
   4883     ASSERT(page() && page()->settings()->fullScreenEnabled());
   4884 
   4885     m_fullScreenElement = element;
   4886 
   4887 #if PLATFORM(ANDROID)
   4888     // Our approach on Poster handling is android specific: we are passing the
   4889     // poster from java side to native and we can't keep the content if the
   4890     // video element is detached and its RenderLayer object is deleted.
   4891     if(!(m_fullScreenElement->hasTagName(HTMLNames::videoTag))) {
   4892 #endif
   4893     if (m_fullScreenElement != documentElement())
   4894         m_fullScreenElement->detach();
   4895 
   4896     recalcStyle(Force);
   4897 #if PLATFORM(ANDROID)
   4898     }
   4899 #endif
   4900 
   4901     if (m_fullScreenRenderer) {
   4902         m_fullScreenRenderer->setAnimating(true);
   4903 #if USE(ACCELERATED_COMPOSITING)
   4904         view()->updateCompositingLayers();
   4905         if (m_fullScreenRenderer->layer()->isComposited())
   4906             page()->chrome()->client()->setRootFullScreenLayer(m_fullScreenRenderer->layer()->backing()->graphicsLayer());
   4907 #endif
   4908     }
   4909 }
   4910 
   4911 void Document::webkitDidEnterFullScreenForElement(Element*)
   4912 {
   4913     if (m_fullScreenRenderer) {
   4914         m_fullScreenRenderer->setAnimating(false);
   4915 #if USE(ACCELERATED_COMPOSITING)
   4916         view()->updateCompositingLayers();
   4917         page()->chrome()->client()->setRootFullScreenLayer(0);
   4918 #endif
   4919     }
   4920     m_fullScreenChangeDelayTimer.startOneShot(0);
   4921 }
   4922 
   4923 void Document::webkitWillExitFullScreenForElement(Element*)
   4924 {
   4925     if (m_fullScreenRenderer) {
   4926         m_fullScreenRenderer->setAnimating(true);
   4927 #if USE(ACCELERATED_COMPOSITING)
   4928         view()->updateCompositingLayers();
   4929         if (m_fullScreenRenderer->layer()->isComposited())
   4930             page()->chrome()->client()->setRootFullScreenLayer(m_fullScreenRenderer->layer()->backing()->graphicsLayer());
   4931 #endif
   4932     }
   4933 }
   4934 
   4935 void Document::webkitDidExitFullScreenForElement(Element*)
   4936 {
   4937     m_areKeysEnabledInFullScreen = false;
   4938 
   4939     if (m_fullScreenRenderer)
   4940         m_fullScreenRenderer->remove();
   4941 
   4942     if (m_fullScreenElement != documentElement())
   4943         m_fullScreenElement->detach();
   4944 
   4945     m_fullScreenElement = 0;
   4946     setFullScreenRenderer(0);
   4947 #if USE(ACCELERATED_COMPOSITING)
   4948     page()->chrome()->client()->setRootFullScreenLayer(0);
   4949 #endif
   4950     recalcStyle(Force);
   4951 
   4952     m_fullScreenChangeDelayTimer.startOneShot(0);
   4953 }
   4954 
   4955 void Document::setFullScreenRenderer(RenderFullScreen* renderer)
   4956 {
   4957     if (renderer == m_fullScreenRenderer)
   4958         return;
   4959 
   4960     if (m_fullScreenRenderer)
   4961         m_fullScreenRenderer->destroy();
   4962     m_fullScreenRenderer = renderer;
   4963 
   4964     // This notification can come in after the page has been destroyed.
   4965     if (page())
   4966         page()->chrome()->client()->fullScreenRendererChanged(m_fullScreenRenderer);
   4967 }
   4968 
   4969 void Document::setFullScreenRendererSize(const IntSize& size)
   4970 {
   4971     ASSERT(m_fullScreenRenderer);
   4972     if (!m_fullScreenRenderer)
   4973         return;
   4974 
   4975     if (m_fullScreenRenderer) {
   4976         RefPtr<RenderStyle> newStyle = RenderStyle::clone(m_fullScreenRenderer->style());
   4977         newStyle->setWidth(Length(size.width(), WebCore::Fixed));
   4978         newStyle->setHeight(Length(size.height(), WebCore::Fixed));
   4979         newStyle->setTop(Length(0, WebCore::Fixed));
   4980         newStyle->setLeft(Length(0, WebCore::Fixed));
   4981         m_fullScreenRenderer->setStyle(newStyle);
   4982         updateLayout();
   4983     }
   4984 }
   4985 
   4986 void Document::setFullScreenRendererBackgroundColor(Color backgroundColor)
   4987 {
   4988     if (!m_fullScreenRenderer)
   4989         return;
   4990 
   4991     RefPtr<RenderStyle> newStyle = RenderStyle::clone(m_fullScreenRenderer->style());
   4992     newStyle->setBackgroundColor(backgroundColor);
   4993     m_fullScreenRenderer->setStyle(newStyle);
   4994 }
   4995 
   4996 void Document::fullScreenChangeDelayTimerFired(Timer<Document>*)
   4997 {
   4998     Element* element = m_fullScreenElement.get();
   4999     if (!element)
   5000         element = documentElement();
   5001 
   5002     element->dispatchEvent(Event::create(eventNames().webkitfullscreenchangeEvent, true, false));
   5003 }
   5004 
   5005 #endif
   5006 
   5007 void Document::decrementLoadEventDelayCount()
   5008 {
   5009     ASSERT(m_loadEventDelayCount);
   5010     --m_loadEventDelayCount;
   5011 
   5012     if (frame() && !m_loadEventDelayCount && !m_loadEventDelayTimer.isActive())
   5013         m_loadEventDelayTimer.startOneShot(0);
   5014 }
   5015 
   5016 void Document::loadEventDelayTimerFired(Timer<Document>*)
   5017 {
   5018     if (frame())
   5019         frame()->loader()->checkCompleted();
   5020 }
   5021 
   5022 #if ENABLE(REQUEST_ANIMATION_FRAME)
   5023 int Document::webkitRequestAnimationFrame(PassRefPtr<RequestAnimationFrameCallback> callback, Element* animationElement)
   5024 {
   5025     if (!m_scriptedAnimationController)
   5026         m_scriptedAnimationController = ScriptedAnimationController::create(this);
   5027 
   5028     return m_scriptedAnimationController->registerCallback(callback, animationElement);
   5029 }
   5030 
   5031 void Document::webkitCancelRequestAnimationFrame(int id)
   5032 {
   5033     if (!m_scriptedAnimationController)
   5034         return;
   5035     m_scriptedAnimationController->cancelCallback(id);
   5036 }
   5037 
   5038 void Document::serviceScriptedAnimations(DOMTimeStamp time)
   5039 {
   5040     if (!m_scriptedAnimationController)
   5041         return;
   5042     m_scriptedAnimationController->serviceScriptedAnimations(time);
   5043 }
   5044 #endif
   5045 
   5046 #if ENABLE(TOUCH_EVENTS)
   5047 PassRefPtr<Touch> Document::createTouch(DOMWindow* window, EventTarget* target, int identifier, int pageX, int pageY, int screenX, int screenY, ExceptionCode&) const
   5048 {
   5049     // FIXME: It's not clear from the documentation at
   5050     // http://developer.apple.com/library/safari/#documentation/UserExperience/Reference/DocumentAdditionsReference/DocumentAdditions/DocumentAdditions.html
   5051     // when this method should throw and nor is it by inspection of iOS behavior. It would be nice to verify any cases where it throws under iOS
   5052     // and implement them here. See https://bugs.webkit.org/show_bug.cgi?id=47819
   5053     // Ditto for the createTouchList method below.
   5054     Frame* frame = window ? window->frame() : this->frame();
   5055     return Touch::create(frame, target, identifier, screenX, screenY, pageX, pageY);
   5056 }
   5057 
   5058 PassRefPtr<TouchList> Document::createTouchList(ExceptionCode&) const
   5059 {
   5060     return TouchList::create();
   5061 }
   5062 #endif
   5063 
   5064 DocumentLoader* Document::loader() const
   5065 {
   5066     if (!m_frame)
   5067         return 0;
   5068 
   5069     DocumentLoader* loader = m_frame->loader()->activeDocumentLoader();
   5070     if (!loader)
   5071         return 0;
   5072 
   5073 #if PLATFORM(ANDROID)
   5074     // Temporary hack for http://b/5188895
   5075     bool isDocumentUpToDate = m_frame->isDocumentUpToDate();
   5076 #else
   5077     bool isDocumentUpToDate = true;
   5078 #endif
   5079     if (isDocumentUpToDate && m_frame->document() != this)
   5080         return 0;
   5081 
   5082     return loader;
   5083 }
   5084 
   5085 } // namespace WebCore
   5086