WebCore/html/HTMLTokenizer.h - WebKit - Git at Google

 /*
     Copyright (C) 1997 Martin Jones (mjones@kde.org)
               (C) 1997 Torben Weis (weis@kde.org)
               (C) 1998 Waldo Bastian (bastian@kde.org)
               (C) 2001 Dirk Mueller (mueller@kde.org)
     Copyright (C) 2003, 2004, 2005, 2006, 2007 Apple Inc. All rights reserved.

     This library is free software; you can redistribute it and/or
     modify it under the terms of the GNU Library General Public
     License as published by the Free Software Foundation; either
     version 2 of the License, or (at your option) any later version.

     This library is distributed in the hope that it will be useful,
     but WITHOUT ANY WARRANTY; without even the implied warranty of
     MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
     Library General Public License for more details.

     You should have received a copy of the GNU Library General Public License
     along with this library; see the file COPYING.LIB.  If not, write to
     the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
     Boston, MA 02110-1301, USA.
 */

 #ifndef HTMLTokenizer_h
 #define HTMLTokenizer_h

 #include "DeprecatedPtrQueue.h"
 #include "NamedMappedAttrMap.h"
 #include "SegmentedString.h"
 #include "Timer.h"
 #include "Tokenizer.h"
 #include "CachedResourceClient.h"
 #include <wtf/Vector.h>
 #include <wtf/OwnPtr.h>

 namespace WebCore {

 class CachedScript;
 class DocumentFragment;
 class Document;
 class HTMLDocument;
 class HTMLViewSourceDocument;
 class FrameView;
 class HTMLParser;
 class Node;

 /**
  * @internal
  * represents one HTML tag. Consists of a numerical id, and the list
  * of attributes. Can also represent text. In this case the id = 0 and
  * text contains the text.
  */
 class Token {
 public:
     Token() : beginTag(true), flat(false), brokenXMLStyle(false), m_sourceInfo(0) { }
     ~Token() { }

     void addAttribute(Document*, AtomicString& attrName, const AtomicString& v, bool viewSourceMode);

     bool isOpenTag(const QualifiedName& fullName) const { return beginTag && fullName.localName() == tagName; }
     bool isCloseTag(const QualifiedName& fullName) const { return !beginTag && fullName.localName() == tagName; }

     void reset()
     {
         attrs = 0;
         text = 0;
         tagName = nullAtom;
         beginTag = true;
         flat = false;
         brokenXMLStyle = false;
         if (m_sourceInfo)
             m_sourceInfo->clear();
     }

     void addViewSourceChar(UChar c) { if (!m_sourceInfo.get()) m_sourceInfo.set(new Vector<UChar>); m_sourceInfo->append(c); }

     RefPtr<NamedMappedAttrMap> attrs;
     RefPtr<StringImpl> text;
     AtomicString tagName;
     bool beginTag;
     bool flat;
     bool brokenXMLStyle;
     OwnPtr<Vector<UChar> > m_sourceInfo;
 };

 //-----------------------------------------------------------------------------

 class HTMLTokenizer : public Tokenizer, public CachedResourceClient {
 public:
     HTMLTokenizer(HTMLDocument*, bool reportErrors);
     HTMLTokenizer(HTMLViewSourceDocument*);
     HTMLTokenizer(DocumentFragment*);
     virtual ~HTMLTokenizer();

     virtual bool write(const SegmentedString&, bool appendData);
     virtual void finish();
     virtual void setForceSynchronous(bool force);
     virtual bool isWaitingForScripts() const;
     virtual void stopParsing();
     virtual bool processingData() const;
     virtual int executingScript() const { return m_executingScript; }

     virtual int lineNumber() const { return m_lineNumber; }
     virtual int columnNumber() const { return 1; }

     bool processingContentWrittenByScript() const { return src.excludeLineNumbers(); }

     virtual void executeScriptsWaitingForStylesheets();

     virtual bool isHTMLTokenizer() const { return true; }
     HTMLParser* htmlParser() const { return parser; }

 private:
     class State;

     // Where we are in parsing a tag
     void begin();
     void end();

     void reset();
     PassRefPtr<Node> processToken();

     State processListing(SegmentedString, State);
     State parseComment(SegmentedString&, State);
     State parseServer(SegmentedString&, State);
     State parseText(SegmentedString&, State);
     State parseSpecial(SegmentedString&, State);
     State parseTag(SegmentedString&, State);
     State parseEntity(SegmentedString&, UChar*& dest, State, unsigned& _cBufferPos, bool start, bool parsingTag);
     State parseProcessingInstruction(SegmentedString&, State);
     State scriptHandler(State);
     State scriptExecution(const String& script, State, const String& scriptURL, int baseLine = 0);
     void setSrc(const SegmentedString&);

     // check if we have enough space in the buffer.
     // if not enlarge it
     inline void checkBuffer(int len = 10)
     {
         if ((dest - buffer) > size - len)
             enlargeBuffer(len);
     }

     inline void checkScriptBuffer(int len = 10)
     {
         if (scriptCodeSize + len >= scriptCodeMaxSize)
             enlargeScriptBuffer(len);
     }

     void enlargeBuffer(int len);
     void enlargeScriptBuffer(int len);

     bool continueProcessing(int& processedCount, double startTime, State&);
     void timerFired(Timer<HTMLTokenizer>*);
     void allDataProcessed();

     // from CachedResourceClient
     void notifyFinished(CachedResource *finishedObj);

     // Internal buffers
     ///////////////////
     UChar* buffer;
     UChar* dest;

     Token currToken;

     // the size of buffer
     int size;

     // Tokenizer flags
     //////////////////
     // are we in quotes within a html tag
     enum { NoQuote, SingleQuote, DoubleQuote } tquote;

     // Are we in a &... character entity description?
     enum EntityState {
         NoEntity = 0,
         SearchEntity = 1,
         NumericSearch = 2,
         Hexadecimal = 3,
         Decimal = 4,
         EntityName = 5,
         SearchSemicolon = 6
     };
     unsigned EntityUnicodeValue;

     enum TagState {
         NoTag = 0,
         TagName = 1,
         SearchAttribute = 2,
         AttributeName = 3,
         SearchEqual = 4,
         SearchValue = 5,
         QuotedValue = 6,
         Value = 7,
         SearchEnd = 8
     };

     class State {
     public:
         State() : m_bits(0) { }

         TagState tagState() const { return static_cast<TagState>(m_bits & TagMask); }
         void setTagState(TagState t) { m_bits = (m_bits & ~TagMask) | t; }
         EntityState entityState() const { return static_cast<EntityState>((m_bits & EntityMask) >> EntityShift); }
         void setEntityState(EntityState e) { m_bits = (m_bits & ~EntityMask) | (e << EntityShift); }

         bool inScript() const { return testBit(InScript); }
         void setInScript(bool v) { setBit(InScript, v); }
         bool inStyle() const { return testBit(InStyle); }
         void setInStyle(bool v) { setBit(InStyle, v); }
         bool inXmp() const { return testBit(InXmp); }
         void setInXmp(bool v) { setBit(InXmp, v); }
         bool inTitle() const { return testBit(InTitle); }
         void setInTitle(bool v) { setBit(InTitle, v); }
         bool inPlainText() const { return testBit(InPlainText); }
         void setInPlainText(bool v) { setBit(InPlainText, v); }
         bool inProcessingInstruction() const { return testBit(InProcessingInstruction); }
         void setInProcessingInstruction(bool v) { return setBit(InProcessingInstruction, v); }
         bool inComment() const { return testBit(InComment); }
         void setInComment(bool v) { setBit(InComment, v); }
         bool inTextArea() const { return testBit(InTextArea); }
         void setInTextArea(bool v) { setBit(InTextArea, v); }
         bool escaped() const { return testBit(Escaped); }
         void setEscaped(bool v) { setBit(Escaped, v); }
         bool inServer() const { return testBit(InServer); }
         void setInServer(bool v) { setBit(InServer, v); }
         bool skipLF() const { return testBit(SkipLF); }
         void setSkipLF(bool v) { setBit(SkipLF, v); }
         bool startTag() const { return testBit(StartTag); }
         void setStartTag(bool v) { setBit(StartTag, v); }
         bool discardLF() const { return testBit(DiscardLF); }
         void setDiscardLF(bool v) { setBit(DiscardLF, v); }
         bool allowYield() const { return testBit(AllowYield); }
         void setAllowYield(bool v) { setBit(AllowYield, v); }
         bool loadingExtScript() const { return testBit(LoadingExtScript); }
         void setLoadingExtScript(bool v) { setBit(LoadingExtScript, v); }
         bool forceSynchronous() const { return testBit(ForceSynchronous); }
         void setForceSynchronous(bool v) { setBit(ForceSynchronous, v); }

         bool inAnySpecial() const { return m_bits & (InScript | InStyle | InXmp | InTextArea | InTitle); }
         bool hasTagState() const { return m_bits & TagMask; }
         bool hasEntityState() const { return m_bits & EntityMask; }

         bool needsSpecialWriteHandling() const { return m_bits & (InScript | InStyle | InXmp | InTextArea | InTitle | TagMask | EntityMask | InPlainText | InComment | InServer | InProcessingInstruction | StartTag); }

     private:
         static const int EntityShift = 4;
         enum StateBits {
             TagMask = (1 << 4) - 1,
             EntityMask = (1 << 7) - (1 << 4),
             InScript = 1 << 7,
             InStyle = 1 << 8,
             // Bit 9 unused
             InXmp = 1 << 10,
             InTitle = 1 << 11,
             InPlainText = 1 << 12,
             InProcessingInstruction = 1 << 13,
             InComment = 1 << 14,
             InTextArea = 1 << 15,
             Escaped = 1 << 16,
             InServer = 1 << 17,
             SkipLF = 1 << 18,
             StartTag = 1 << 19,
             DiscardLF = 1 << 20, // FIXME: should clarify difference between skip and discard
             AllowYield = 1 << 21,
             LoadingExtScript = 1 << 22,
             ForceSynchronous = 1 << 23
         };

         void setBit(StateBits bit, bool value)
         {
             if (value)
                 m_bits |= bit;
             else
                 m_bits &= ~bit;
         }
         bool testBit(StateBits bit) const { return m_bits & bit; }

         unsigned m_bits;
     };

     State m_state;

     bool brokenServer;

     // Name of an attribute that we just scanned.
     AtomicString attrName;

     // Used to store the code of a srcipting sequence
     UChar* scriptCode;
     // Size of the script sequenze stored in @ref #scriptCode
     int scriptCodeSize;
     // Maximal size that can be stored in @ref #scriptCode
     int scriptCodeMaxSize;
     // resync point of script code size
     int scriptCodeResync;

     // Stores characters if we are scanning for a string like "</script>"
     UChar searchBuffer[10];
     // Counts where we are in the string we are scanning for
     int searchCount;
     // The string we are searching for
     const UChar* searchFor;
     // the stopper string
     const char* searchStopper;
     // the stopper len
     int searchStopperLen;
     // if no more data is coming, just parse what we have (including ext scripts that
     // may be still downloading) and finish
     bool noMoreData;
     // URL to get source code of script from
     String scriptSrc;
     String scriptSrcCharset;
     // the HTML code we will parse after the external script we are waiting for has loaded
     SegmentedString pendingSrc;

     // the HTML code we will parse after this particular script has
     // loaded, but before all pending HTML
     SegmentedString *currentPrependingSrc;

     // true if we are executing a script while parsing a document. This causes the parsing of
     // the output of the script to be postponed until after the script has finished executing
     int m_executingScript;
     DeprecatedPtrQueue<CachedScript> pendingScripts;
     RefPtr<Node> scriptNode;

     bool m_requestingScript;
     bool m_hasScriptsWaitingForStylesheets;

     // if we found one broken comment, there are most likely others as well
     // store a flag to get rid of the O(n^2) behaviour in such a case.
     bool brokenComments;
     // current line number
     int m_lineNumber;
     // line number at which the current <script> started
     int scriptStartLineno;
     int tagStartLineno;

     // The timer for continued processing.
     Timer<HTMLTokenizer> m_timer;

 // This buffer can hold arbitrarily long user-defined attribute names, such as in EMBED tags.
 // So any fixed number might be too small, but rather than rewriting all usage of this buffer
 // we'll just make it large enough to handle all imaginable cases.
 #define CBUFLEN 1024
     UChar cBuffer[CBUFLEN + 2];
     unsigned int m_cBufferPos;

     SegmentedString src;
     Document* m_doc;
     HTMLParser* parser;
     bool inWrite;
     bool m_fragment;
 };

 void parseHTMLDocumentFragment(const String&, DocumentFragment*);

 UChar decodeNamedEntity(const char*);

 } // namespace WebCore

 #endif // HTMLTokenizer_h
	/*
	Copyright (C) 1997 Martin Jones (mjones@kde.org)
	(C) 1997 Torben Weis (weis@kde.org)
	(C) 1998 Waldo Bastian (bastian@kde.org)
	(C) 2001 Dirk Mueller (mueller@kde.org)
	Copyright (C) 2003, 2004, 2005, 2006, 2007 Apple Inc. All rights reserved.

	This library is free software; you can redistribute it and/or
	modify it under the terms of the GNU Library General Public
	License as published by the Free Software Foundation; either
	version 2 of the License, or (at your option) any later version.

	This library is distributed in the hope that it will be useful,
	but WITHOUT ANY WARRANTY; without even the implied warranty of
	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	Library General Public License for more details.

	You should have received a copy of the GNU Library General Public License
	along with this library; see the file COPYING.LIB. If not, write to
	the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
	Boston, MA 02110-1301, USA.
	*/

	#ifndef HTMLTokenizer_h
	#define HTMLTokenizer_h

	#include "DeprecatedPtrQueue.h"
	#include "NamedMappedAttrMap.h"
	#include "SegmentedString.h"
	#include "Timer.h"
	#include "Tokenizer.h"
	#include "CachedResourceClient.h"
	#include <wtf/Vector.h>
	#include <wtf/OwnPtr.h>

	namespace WebCore {

	class CachedScript;
	class DocumentFragment;
	class Document;
	class HTMLDocument;
	class HTMLViewSourceDocument;
	class FrameView;
	class HTMLParser;
	class Node;

	/**
	* @internal
	* represents one HTML tag. Consists of a numerical id, and the list
	* of attributes. Can also represent text. In this case the id = 0 and
	* text contains the text.
	*/
	class Token {
	public:
	Token() : beginTag(true), flat(false), brokenXMLStyle(false), m_sourceInfo(0) { }
	~Token() { }

	void addAttribute(Document*, AtomicString& attrName, const AtomicString& v, bool viewSourceMode);

	bool isOpenTag(const QualifiedName& fullName) const { return beginTag && fullName.localName() == tagName; }
	bool isCloseTag(const QualifiedName& fullName) const { return !beginTag && fullName.localName() == tagName; }

	void reset()
	{
	attrs = 0;
	text = 0;
	tagName = nullAtom;
	beginTag = true;
	flat = false;
	brokenXMLStyle = false;
	if (m_sourceInfo)
	m_sourceInfo->clear();
	}

	void addViewSourceChar(UChar c) { if (!m_sourceInfo.get()) m_sourceInfo.set(new Vector<UChar>); m_sourceInfo->append(c); }

	RefPtr<NamedMappedAttrMap> attrs;
	RefPtr<StringImpl> text;
	AtomicString tagName;
	bool beginTag;
	bool flat;
	bool brokenXMLStyle;
	OwnPtr<Vector<UChar> > m_sourceInfo;
	};

	//-----------------------------------------------------------------------------

	class HTMLTokenizer : public Tokenizer, public CachedResourceClient {
	public:
	HTMLTokenizer(HTMLDocument*, bool reportErrors);
	HTMLTokenizer(HTMLViewSourceDocument*);
	HTMLTokenizer(DocumentFragment*);
	virtual ~HTMLTokenizer();

	virtual bool write(const SegmentedString&, bool appendData);
	virtual void finish();
	virtual void setForceSynchronous(bool force);
	virtual bool isWaitingForScripts() const;
	virtual void stopParsing();
	virtual bool processingData() const;
	virtual int executingScript() const { return m_executingScript; }

	virtual int lineNumber() const { return m_lineNumber; }
	virtual int columnNumber() const { return 1; }

	bool processingContentWrittenByScript() const { return src.excludeLineNumbers(); }

	virtual void executeScriptsWaitingForStylesheets();

	virtual bool isHTMLTokenizer() const { return true; }
	HTMLParser* htmlParser() const { return parser; }

	private:
	class State;

	// Where we are in parsing a tag
	void begin();
	void end();

	void reset();
	PassRefPtr<Node> processToken();

	State processListing(SegmentedString, State);
	State parseComment(SegmentedString&, State);
	State parseServer(SegmentedString&, State);
	State parseText(SegmentedString&, State);
	State parseSpecial(SegmentedString&, State);
	State parseTag(SegmentedString&, State);
	State parseEntity(SegmentedString&, UChar*& dest, State, unsigned& _cBufferPos, bool start, bool parsingTag);
	State parseProcessingInstruction(SegmentedString&, State);
	State scriptHandler(State);
	State scriptExecution(const String& script, State, const String& scriptURL, int baseLine = 0);
	void setSrc(const SegmentedString&);

	// check if we have enough space in the buffer.
	// if not enlarge it
	inline void checkBuffer(int len = 10)
	{
	if ((dest - buffer) > size - len)
	enlargeBuffer(len);
	}

	inline void checkScriptBuffer(int len = 10)
	{
	if (scriptCodeSize + len >= scriptCodeMaxSize)
	enlargeScriptBuffer(len);
	}

	void enlargeBuffer(int len);
	void enlargeScriptBuffer(int len);

	bool continueProcessing(int& processedCount, double startTime, State&);
	void timerFired(Timer<HTMLTokenizer>*);
	void allDataProcessed();

	// from CachedResourceClient
	void notifyFinished(CachedResource *finishedObj);

	// Internal buffers
	///////////////////
	UChar* buffer;
	UChar* dest;

	Token currToken;

	// the size of buffer
	int size;

	// Tokenizer flags
	//////////////////
	// are we in quotes within a html tag
	enum { NoQuote, SingleQuote, DoubleQuote } tquote;

	// Are we in a &... character entity description?
	enum EntityState {
	NoEntity = 0,
	SearchEntity = 1,
	NumericSearch = 2,
	Hexadecimal = 3,
	Decimal = 4,
	EntityName = 5,
	SearchSemicolon = 6
	};
	unsigned EntityUnicodeValue;

	enum TagState {
	NoTag = 0,
	TagName = 1,
	SearchAttribute = 2,
	AttributeName = 3,
	SearchEqual = 4,
	SearchValue = 5,
	QuotedValue = 6,
	Value = 7,
	SearchEnd = 8
	};

	class State {
	public:
	State() : m_bits(0) { }

	TagState tagState() const { return static_cast<TagState>(m_bits & TagMask); }
	void setTagState(TagState t) { m_bits = (m_bits & ~TagMask) \| t; }
	EntityState entityState() const { return static_cast<EntityState>((m_bits & EntityMask) >> EntityShift); }
	void setEntityState(EntityState e) { m_bits = (m_bits & ~EntityMask) \| (e << EntityShift); }

	bool inScript() const { return testBit(InScript); }
	void setInScript(bool v) { setBit(InScript, v); }
	bool inStyle() const { return testBit(InStyle); }
	void setInStyle(bool v) { setBit(InStyle, v); }
	bool inXmp() const { return testBit(InXmp); }
	void setInXmp(bool v) { setBit(InXmp, v); }
	bool inTitle() const { return testBit(InTitle); }
	void setInTitle(bool v) { setBit(InTitle, v); }
	bool inPlainText() const { return testBit(InPlainText); }
	void setInPlainText(bool v) { setBit(InPlainText, v); }
	bool inProcessingInstruction() const { return testBit(InProcessingInstruction); }
	void setInProcessingInstruction(bool v) { return setBit(InProcessingInstruction, v); }
	bool inComment() const { return testBit(InComment); }
	void setInComment(bool v) { setBit(InComment, v); }
	bool inTextArea() const { return testBit(InTextArea); }
	void setInTextArea(bool v) { setBit(InTextArea, v); }
	bool escaped() const { return testBit(Escaped); }
	void setEscaped(bool v) { setBit(Escaped, v); }
	bool inServer() const { return testBit(InServer); }
	void setInServer(bool v) { setBit(InServer, v); }
	bool skipLF() const { return testBit(SkipLF); }
	void setSkipLF(bool v) { setBit(SkipLF, v); }
	bool startTag() const { return testBit(StartTag); }
	void setStartTag(bool v) { setBit(StartTag, v); }
	bool discardLF() const { return testBit(DiscardLF); }
	void setDiscardLF(bool v) { setBit(DiscardLF, v); }
	bool allowYield() const { return testBit(AllowYield); }
	void setAllowYield(bool v) { setBit(AllowYield, v); }
	bool loadingExtScript() const { return testBit(LoadingExtScript); }
	void setLoadingExtScript(bool v) { setBit(LoadingExtScript, v); }
	bool forceSynchronous() const { return testBit(ForceSynchronous); }
	void setForceSynchronous(bool v) { setBit(ForceSynchronous, v); }

	bool inAnySpecial() const { return m_bits & (InScript \| InStyle \| InXmp \| InTextArea \| InTitle); }
	bool hasTagState() const { return m_bits & TagMask; }
	bool hasEntityState() const { return m_bits & EntityMask; }

	bool needsSpecialWriteHandling() const { return m_bits & (InScript \| InStyle \| InXmp \| InTextArea \| InTitle \| TagMask \| EntityMask \| InPlainText \| InComment \| InServer \| InProcessingInstruction \| StartTag); }

	private:
	static const int EntityShift = 4;
	enum StateBits {
	TagMask = (1 << 4) - 1,
	EntityMask = (1 << 7) - (1 << 4),
	InScript = 1 << 7,
	InStyle = 1 << 8,
	// Bit 9 unused
	InXmp = 1 << 10,
	InTitle = 1 << 11,
	InPlainText = 1 << 12,
	InProcessingInstruction = 1 << 13,
	InComment = 1 << 14,
	InTextArea = 1 << 15,
	Escaped = 1 << 16,
	InServer = 1 << 17,
	SkipLF = 1 << 18,
	StartTag = 1 << 19,
	DiscardLF = 1 << 20, // FIXME: should clarify difference between skip and discard
	AllowYield = 1 << 21,
	LoadingExtScript = 1 << 22,
	ForceSynchronous = 1 << 23
	};

	void setBit(StateBits bit, bool value)
	{
	if (value)
	m_bits \|= bit;
	else
	m_bits &= ~bit;
	}
	bool testBit(StateBits bit) const { return m_bits & bit; }

	unsigned m_bits;
	};

	State m_state;

	bool brokenServer;

	// Name of an attribute that we just scanned.
	AtomicString attrName;

	// Used to store the code of a srcipting sequence
	UChar* scriptCode;
	// Size of the script sequenze stored in @ref #scriptCode
	int scriptCodeSize;
	// Maximal size that can be stored in @ref #scriptCode
	int scriptCodeMaxSize;
	// resync point of script code size
	int scriptCodeResync;

	// Stores characters if we are scanning for a string like "</script>"
	UChar searchBuffer[10];
	// Counts where we are in the string we are scanning for
	int searchCount;
	// The string we are searching for
	const UChar* searchFor;
	// the stopper string
	const char* searchStopper;
	// the stopper len
	int searchStopperLen;
	// if no more data is coming, just parse what we have (including ext scripts that
	// may be still downloading) and finish
	bool noMoreData;
	// URL to get source code of script from
	String scriptSrc;
	String scriptSrcCharset;
	// the HTML code we will parse after the external script we are waiting for has loaded
	SegmentedString pendingSrc;

	// the HTML code we will parse after this particular script has
	// loaded, but before all pending HTML
	SegmentedString *currentPrependingSrc;

	// true if we are executing a script while parsing a document. This causes the parsing of
	// the output of the script to be postponed until after the script has finished executing
	int m_executingScript;
	DeprecatedPtrQueue<CachedScript> pendingScripts;
	RefPtr<Node> scriptNode;

	bool m_requestingScript;
	bool m_hasScriptsWaitingForStylesheets;

	// if we found one broken comment, there are most likely others as well
	// store a flag to get rid of the O(n^2) behaviour in such a case.
	bool brokenComments;
	// current line number
	int m_lineNumber;
	// line number at which the current <script> started
	int scriptStartLineno;
	int tagStartLineno;

	// The timer for continued processing.
	Timer<HTMLTokenizer> m_timer;

	// This buffer can hold arbitrarily long user-defined attribute names, such as in EMBED tags.
	// So any fixed number might be too small, but rather than rewriting all usage of this buffer
	// we'll just make it large enough to handle all imaginable cases.
	#define CBUFLEN 1024
	UChar cBuffer[CBUFLEN + 2];
	unsigned int m_cBufferPos;

	SegmentedString src;
	Document* m_doc;
	HTMLParser* parser;
	bool inWrite;
	bool m_fragment;
	};

	void parseHTMLDocumentFragment(const String&, DocumentFragment*);

	UChar decodeNamedEntity(const char*);

	} // namespace WebCore

	#endif // HTMLTokenizer_h