/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #define NS_HTML5_TREE_BUILDER_HANDLE_ARRAY_LENGTH 512 private: nsHtml5OplessBuilder* mBuilder; // !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! // If mBuilder is not null, the tree op machinery is not in use and // the fields below aren't in use, either. // !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! nsHtml5Highlighter* mViewSource; nsTArray mOpQueue; nsTArray mSpeculativeLoadQueue; nsAHtml5TreeOpSink* mOpSink; mozilla::UniquePtr mHandles; int32_t mHandlesUsed; nsTArray> mOldHandles; nsHtml5TreeOpStage* mSpeculativeLoadStage; nsresult mBroken; bool mCurrentHtmlScriptIsAsyncOrDefer; bool mPreventScriptExecution; #ifdef DEBUG bool mActive; #endif // DocumentModeHandler /** * Tree builder uses this to report quirkiness of the document */ void documentMode(nsHtml5DocumentMode m); nsIContentHandle* getDocumentFragmentForTemplate(nsIContentHandle* aTemplate); nsIContentHandle* getFormPointerForContext(nsIContentHandle* aContext); /** * Using nsIContent** instead of nsIContent* is the parser deals with DOM * nodes in a way that works off the main thread. Non-main-thread code * can't refcount or otherwise touch nsIContent objects in any way. * Yet, the off-the-main-thread code needs to have a way to hold onto a * particular node and repeatedly operate on the same node. * * The way this works is that the off-the-main-thread code has an * nsIContent** for each DOM node and a given nsIContent** is only ever * actually dereferenced into an actual nsIContent* on the main thread. * When the off-the-main-thread code requests a new node, it gets an * nsIContent** immediately and a tree op is enqueued for later allocating * an actual nsIContent object and writing a pointer to it into the memory * location pointed to by the nsIContent**. * * Since tree ops are in a queue, the node creating tree op will always * run before tree ops that try to further operate on the node that the * nsIContent** is a handle to. * * On-the-main-thread parts of the parser use nsIContent* instead of * nsIContent**. Since both cases share the same parser core, the parser * core casts both to nsIContentHandle*. */ nsIContentHandle* AllocateContentHandle(); void accumulateCharactersForced(const char16_t* aBuf, int32_t aStart, int32_t aLength) { accumulateCharacters(aBuf, aStart, aLength); } void MarkAsBrokenAndRequestSuspension(nsresult aRv) { mBuilder->MarkAsBroken(aRv); requestSuspension(); } void MarkAsBrokenFromPortability(nsresult aRv); public: explicit nsHtml5TreeBuilder(nsHtml5OplessBuilder* aBuilder); nsHtml5TreeBuilder(nsAHtml5TreeOpSink* aOpSink, nsHtml5TreeOpStage* aStage); ~nsHtml5TreeBuilder(); void StartPlainTextViewSource(const nsAutoString& aTitle); void StartPlainText(); void StartPlainTextBody(); bool HasScript(); void SetOpSink(nsAHtml5TreeOpSink* aOpSink) { mOpSink = aOpSink; } void ClearOps() { mOpQueue.Clear(); } bool Flush(bool aDiscretionary = false); void FlushLoads(); void SetDocumentCharset(nsACString& aCharset, int32_t aCharsetSource); void StreamEnded(); void NeedsCharsetSwitchTo(const nsACString& aEncoding, int32_t aSource, int32_t aLineNumber); void MaybeComplainAboutCharset(const char* aMsgId, bool aError, int32_t aLineNumber); void AddSnapshotToScript(nsAHtml5TreeBuilderState* aSnapshot, int32_t aLine); void DropHandles(); void SetPreventScriptExecution(bool aPrevent) { mPreventScriptExecution = aPrevent; } bool HasBuilder() { return mBuilder; } /** * Makes sure the buffers are large enough to be able to tokenize aLength * UTF-16 code units before having to make the buffers larger. * * @param aLength the number of UTF-16 code units to be tokenized before the * next call to this method. * @return true if successful; false if out of memory */ bool EnsureBufferSpace(int32_t aLength); void EnableViewSource(nsHtml5Highlighter* aHighlighter); void errStrayStartTag(nsIAtom* aName); void errStrayEndTag(nsIAtom* aName); void errUnclosedElements(int32_t aIndex, nsIAtom* aName); void errUnclosedElementsImplied(int32_t aIndex, nsIAtom* aName); void errUnclosedElementsCell(int32_t aIndex); void errStrayDoctype(); void errAlmostStandardsDoctype(); void errQuirkyDoctype(); void errNonSpaceInTrailer(); void errNonSpaceAfterFrameset(); void errNonSpaceInFrameset(); void errNonSpaceAfterBody(); void errNonSpaceInColgroupInFragment(); void errNonSpaceInNoscriptInHead(); void errFooBetweenHeadAndBody(nsIAtom* aName); void errStartTagWithoutDoctype(); void errNoSelectInTableScope(); void errStartSelectWhereEndSelectExpected(); void errStartTagWithSelectOpen(nsIAtom* aName); void errBadStartTagInHead(nsIAtom* aName); void errImage(); void errIsindex(); void errFooSeenWhenFooOpen(nsIAtom* aName); void errHeadingWhenHeadingOpen(); void errFramesetStart(); void errNoCellToClose(); void errStartTagInTable(nsIAtom* aName); void errFormWhenFormOpen(); void errTableSeenWhileTableOpen(); void errStartTagInTableBody(nsIAtom* aName); void errEndTagSeenWithoutDoctype(); void errEndTagAfterBody(); void errEndTagSeenWithSelectOpen(nsIAtom* aName); void errGarbageInColgroup(); void errEndTagBr(); void errNoElementToCloseButEndTagSeen(nsIAtom* aName); void errHtmlStartTagInForeignContext(nsIAtom* aName); void errTableClosedWhileCaptionOpen(); void errNoTableRowToClose(); void errNonSpaceInTable(); void errUnclosedChildrenInRuby(); void errStartTagSeenWithoutRuby(nsIAtom* aName); void errSelfClosing(); void errNoCheckUnclosedElementsOnStack(); void errEndTagDidNotMatchCurrentOpenElement(nsIAtom* aName, nsIAtom* aOther); void errEndTagViolatesNestingRules(nsIAtom* aName); void errEndWithUnclosedElements(nsIAtom* aName); void MarkAsBroken(nsresult aRv); /** * Checks if this parser is broken. Returns a non-NS_OK (i.e. non-0) * value if broken. */ nsresult IsBroken() { return mBroken; }