Source/JavaScriptCore/parser/Lexer.h - WebKit - Git at Google

 /*
  *  Copyright (C) 1999-2000 Harri Porten (porten@kde.org)
  *  Copyright (C) 2002-2019 Apple Inc. All rights reserved.
  *  Copyright (C) 2010 Zoltan Herczeg (zherczeg@inf.u-szeged.hu)
  *
  *  This library is free software; you can redistribute it and/or
  *  modify it under the terms of the GNU Library General Public
  *  License as published by the Free Software Foundation; either
  *  version 2 of the License, or (at your option) any later version.
  *
  *  This library is distributed in the hope that it will be useful,
  *  but WITHOUT ANY WARRANTY; without even the implied warranty of
  *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  *  Library General Public License for more details.
  *
  *  You should have received a copy of the GNU Library General Public License
  *  along with this library; see the file COPYING.LIB.  If not, write to
  *  the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
  *  Boston, MA 02110-1301, USA.
  *
  */

 #pragma once

 #include "Lookup.h"
 #include "ParserArena.h"
 #include "ParserModes.h"
 #include "ParserTokens.h"
 #include "SourceCode.h"
 #include <wtf/ASCIICType.h>
 #include <wtf/Vector.h>

 namespace JSC {

 enum LexerFlags {
     LexerFlagsIgnoreReservedWords = 1,
     LexerFlagsDontBuildStrings = 2,
     LexexFlagsDontBuildKeywords = 4
 };

 enum class LexerEscapeParseMode { Template, String };

 struct ParsedUnicodeEscapeValue;

 bool isLexerKeyword(const Identifier&);

 template <typename T>
 class Lexer {
     WTF_MAKE_NONCOPYABLE(Lexer);
     WTF_MAKE_FAST_ALLOCATED;

 public:
     Lexer(VM&, JSParserBuiltinMode, JSParserScriptMode);
     ~Lexer();

     // Character manipulation functions.
     static bool isWhiteSpace(T character);
     static bool isLineTerminator(T character);
     static unsigned char convertHex(int c1, int c2);
     static UChar convertUnicode(int c1, int c2, int c3, int c4);

     // Functions to set up parsing.
     void setCode(const SourceCode&, ParserArena*);
     void setIsReparsingFunction() { m_isReparsingFunction = true; }
     bool isReparsingFunction() const { return m_isReparsingFunction; }

     JSTokenType lex(JSToken*, unsigned, bool strictMode);
     JSTokenType lexWithoutClearingLineTerminator(JSToken*, unsigned, bool strictMode);
     bool nextTokenIsColon();
     int lineNumber() const { return m_lineNumber; }
     ALWAYS_INLINE int currentOffset() const { return offsetFromSourcePtr(m_code); }
     ALWAYS_INLINE int currentLineStartOffset() const { return offsetFromSourcePtr(m_lineStart); }
     ALWAYS_INLINE JSTextPosition currentPosition() const
     {
         return JSTextPosition(m_lineNumber, currentOffset(), currentLineStartOffset());
     }
     JSTextPosition positionBeforeLastNewline() const { return m_positionBeforeLastNewline; }
     JSTokenLocation lastTokenLocation() const { return m_lastTokenLocation; }
     void setLastLineNumber(int lastLineNumber) { m_lastLineNumber = lastLineNumber; }
     int lastLineNumber() const { return m_lastLineNumber; }
     bool hasLineTerminatorBeforeToken() const { return m_hasLineTerminatorBeforeToken; }
     JSTokenType scanRegExp(JSToken*, UChar patternPrefix = 0);
     enum class RawStringsBuildMode { BuildRawStrings, DontBuildRawStrings };
     JSTokenType scanTemplateString(JSToken*, RawStringsBuildMode);

     // Functions for use after parsing.
     bool sawError() const { return m_error; }
     void setSawError(bool sawError) { m_error = sawError; }
     String getErrorMessage() const { return m_lexErrorMessage; }
     void setErrorMessage(const String& errorMessage) { m_lexErrorMessage = errorMessage; }
     String sourceURLDirective() const { return m_sourceURLDirective; }
     String sourceMappingURLDirective() const { return m_sourceMappingURLDirective; }
     void clear();
     void setOffset(int offset, int lineStartOffset)
     {
         m_error = 0;
         m_lexErrorMessage = String();

         m_code = sourcePtrFromOffset(offset);
         m_lineStart = sourcePtrFromOffset(lineStartOffset);
         ASSERT(currentOffset() >= currentLineStartOffset());

         m_buffer8.shrink(0);
         m_buffer16.shrink(0);
         if (LIKELY(m_code < m_codeEnd))
             m_current = *m_code;
         else
             m_current = 0;
     }
     void setLineNumber(int line)
     {
         m_lineNumber = line;
     }
     void setHasLineTerminatorBeforeToken(bool terminator)
     {
         m_hasLineTerminatorBeforeToken = terminator;
     }

     JSTokenType lexExpectIdentifier(JSToken*, unsigned, bool strictMode);

     ALWAYS_INLINE StringView getToken(const JSToken& token)
     {
         SourceProvider* sourceProvider = m_source->provider();
         ASSERT_WITH_MESSAGE(token.m_location.startOffset <= token.m_location.endOffset, "Calling this function with the baked token.");
         return sourceProvider->getRange(token.m_location.startOffset, token.m_location.endOffset);
     }

 private:
     void record8(int);
     void append8(const T*, size_t);
     void record16(int);
     void record16(T);
     void recordUnicodeCodePoint(UChar32);
     void append16(const LChar*, size_t);
     void append16(const UChar* characters, size_t length) { m_buffer16.append(characters, length); }

     ALWAYS_INLINE void shift();
     ALWAYS_INLINE bool atEnd() const;
     ALWAYS_INLINE T peek(int offset) const;

     ParsedUnicodeEscapeValue parseUnicodeEscape();
     void shiftLineTerminator();

     ALWAYS_INLINE int offsetFromSourcePtr(const T* ptr) const { return ptr - m_codeStart; }
     ALWAYS_INLINE const T* sourcePtrFromOffset(int offset) const { return m_codeStart + offset; }

     String invalidCharacterMessage() const;
     ALWAYS_INLINE const T* currentSourcePtr() const;
     ALWAYS_INLINE void setOffsetFromSourcePtr(const T* sourcePtr, unsigned lineStartOffset) { setOffset(offsetFromSourcePtr(sourcePtr), lineStartOffset); }

     ALWAYS_INLINE void setCodeStart(const StringView&);

     ALWAYS_INLINE const Identifier* makeIdentifier(const LChar* characters, size_t length);
     ALWAYS_INLINE const Identifier* makeIdentifier(const UChar* characters, size_t length);
     ALWAYS_INLINE const Identifier* makeLCharIdentifier(const LChar* characters, size_t length);
     ALWAYS_INLINE const Identifier* makeLCharIdentifier(const UChar* characters, size_t length);
     ALWAYS_INLINE const Identifier* makeRightSizedIdentifier(const UChar* characters, size_t length, UChar orAllChars);
     ALWAYS_INLINE const Identifier* makeIdentifierLCharFromUChar(const UChar* characters, size_t length);
     ALWAYS_INLINE const Identifier* makeEmptyIdentifier();

     ALWAYS_INLINE bool lastTokenWasRestrKeyword() const;

     ALWAYS_INLINE void skipWhitespace();

     template <int shiftAmount> void internalShift();
     template <bool shouldCreateIdentifier> ALWAYS_INLINE JSTokenType parseKeyword(JSTokenData*);
     template <bool shouldBuildIdentifiers> ALWAYS_INLINE JSTokenType parseIdentifier(JSTokenData*, unsigned lexerFlags, bool strictMode);
     template <bool shouldBuildIdentifiers> NEVER_INLINE JSTokenType parseIdentifierSlowCase(JSTokenData*, unsigned lexerFlags, bool strictMode);
     enum StringParseResult {
         StringParsedSuccessfully,
         StringUnterminated,
         StringCannotBeParsed
     };
     template <bool shouldBuildStrings> ALWAYS_INLINE StringParseResult parseString(JSTokenData*, bool strictMode);
     template <bool shouldBuildStrings> NEVER_INLINE StringParseResult parseStringSlowCase(JSTokenData*, bool strictMode);


     template <bool shouldBuildStrings, LexerEscapeParseMode escapeParseMode> ALWAYS_INLINE StringParseResult parseComplexEscape(bool strictMode, T stringQuoteCharacter);
     ALWAYS_INLINE StringParseResult parseTemplateLiteral(JSTokenData*, RawStringsBuildMode);

     using NumberParseResult = Variant<double, const Identifier*>;
     ALWAYS_INLINE Optional<NumberParseResult> parseHex();
     ALWAYS_INLINE Optional<NumberParseResult> parseBinary();
     ALWAYS_INLINE Optional<NumberParseResult> parseOctal();
     ALWAYS_INLINE Optional<NumberParseResult> parseDecimal();
     ALWAYS_INLINE bool parseNumberAfterDecimalPoint();
     ALWAYS_INLINE bool parseNumberAfterExponentIndicator();
     ALWAYS_INLINE bool parseMultilineComment();

     ALWAYS_INLINE void parseCommentDirective();
     ALWAYS_INLINE String parseCommentDirectiveValue();

     template <unsigned length>
     ALWAYS_INLINE bool consume(const char (&input)[length]);

     void fillTokenInfo(JSToken*, JSTokenType, int lineNumber, int endOffset, int lineStartOffset, JSTextPosition endPosition);

     static const size_t initialReadBufferCapacity = 32;

     int m_lineNumber;
     int m_lastLineNumber;

     Vector<LChar> m_buffer8;
     Vector<UChar> m_buffer16;
     Vector<UChar> m_bufferForRawTemplateString16;
     bool m_hasLineTerminatorBeforeToken;
     int m_lastToken;

     const SourceCode* m_source;
     unsigned m_sourceOffset;
     const T* m_code;
     const T* m_codeStart;
     const T* m_codeEnd;
     const T* m_codeStartPlusOffset;
     const T* m_lineStart;
     JSTextPosition m_positionBeforeLastNewline;
     JSTokenLocation m_lastTokenLocation;
     bool m_isReparsingFunction;
     bool m_atLineStart;
     bool m_error;
     String m_lexErrorMessage;

     String m_sourceURLDirective;
     String m_sourceMappingURLDirective;

     T m_current;

     IdentifierArena* m_arena;

     VM& m_vm;
     bool m_parsingBuiltinFunction;
     JSParserScriptMode m_scriptMode;
 };

 template <>
 ALWAYS_INLINE bool Lexer<LChar>::isWhiteSpace(LChar ch)
 {
     return ch == ' ' || ch == '\t' || ch == 0xB || ch == 0xC || ch == 0xA0;
 }

 template <>
 ALWAYS_INLINE bool Lexer<UChar>::isWhiteSpace(UChar ch)
 {
     return isLatin1(ch) ? Lexer<LChar>::isWhiteSpace(static_cast<LChar>(ch)) : (u_charType(ch) == U_SPACE_SEPARATOR || ch == 0xFEFF);
 }

 template <>
 ALWAYS_INLINE bool Lexer<LChar>::isLineTerminator(LChar ch)
 {
     return ch == '\r' || ch == '\n';
 }

 template <>
 ALWAYS_INLINE bool Lexer<UChar>::isLineTerminator(UChar ch)
 {
     return ch == '\r' || ch == '\n' || (ch & ~1) == 0x2028;
 }

 template <typename T>
 inline unsigned char Lexer<T>::convertHex(int c1, int c2)
 {
     return (toASCIIHexValue(c1) << 4) | toASCIIHexValue(c2);
 }

 template <typename T>
 inline UChar Lexer<T>::convertUnicode(int c1, int c2, int c3, int c4)
 {
     return (convertHex(c1, c2) << 8) | convertHex(c3, c4);
 }

 template <typename T>
 ALWAYS_INLINE const Identifier* Lexer<T>::makeIdentifier(const LChar* characters, size_t length)
 {
     return &m_arena->makeIdentifier(m_vm, characters, length);
 }

 template <typename T>
 ALWAYS_INLINE const Identifier* Lexer<T>::makeIdentifier(const UChar* characters, size_t length)
 {
     return &m_arena->makeIdentifier(m_vm, characters, length);
 }

 template <>
 ALWAYS_INLINE const Identifier* Lexer<LChar>::makeRightSizedIdentifier(const UChar* characters, size_t length, UChar)
 {
     return &m_arena->makeIdentifierLCharFromUChar(m_vm, characters, length);
 }

 template <>
 ALWAYS_INLINE const Identifier* Lexer<UChar>::makeRightSizedIdentifier(const UChar* characters, size_t length, UChar orAllChars)
 {
     if (!(orAllChars & ~0xff))
         return &m_arena->makeIdentifierLCharFromUChar(m_vm, characters, length);

     return &m_arena->makeIdentifier(m_vm, characters, length);
 }

 template <typename T>
 ALWAYS_INLINE const Identifier* Lexer<T>::makeEmptyIdentifier()
 {
     return &m_arena->makeEmptyIdentifier(m_vm);
 }

 template <>
 ALWAYS_INLINE void Lexer<LChar>::setCodeStart(const StringView& sourceString)
 {
     ASSERT(sourceString.is8Bit());
     m_codeStart = sourceString.characters8();
 }

 template <>
 ALWAYS_INLINE void Lexer<UChar>::setCodeStart(const StringView& sourceString)
 {
     ASSERT(!sourceString.is8Bit());
     m_codeStart = sourceString.characters16();
 }

 template <typename T>
 ALWAYS_INLINE const Identifier* Lexer<T>::makeIdentifierLCharFromUChar(const UChar* characters, size_t length)
 {
     return &m_arena->makeIdentifierLCharFromUChar(m_vm, characters, length);
 }

 template <typename T>
 ALWAYS_INLINE const Identifier* Lexer<T>::makeLCharIdentifier(const LChar* characters, size_t length)
 {
     return &m_arena->makeIdentifier(m_vm, characters, length);
 }

 template <typename T>
 ALWAYS_INLINE const Identifier* Lexer<T>::makeLCharIdentifier(const UChar* characters, size_t length)
 {
     return &m_arena->makeIdentifierLCharFromUChar(m_vm, characters, length);
 }

 #if ASSERT_DISABLED
 ALWAYS_INLINE bool isSafeBuiltinIdentifier(VM&, const Identifier*) { return true; }
 #else
 bool isSafeBuiltinIdentifier(VM&, const Identifier*);
 #endif

 template <typename T>
 ALWAYS_INLINE JSTokenType Lexer<T>::lexExpectIdentifier(JSToken* tokenRecord, unsigned lexerFlags, bool strictMode)
 {
     JSTokenData* tokenData = &tokenRecord->m_data;
     JSTokenLocation* tokenLocation = &tokenRecord->m_location;
     ASSERT((lexerFlags & LexerFlagsIgnoreReservedWords));
     const T* start = m_code;
     const T* ptr = start;
     const T* end = m_codeEnd;
     JSTextPosition startPosition = currentPosition();
     if (ptr >= end) {
         ASSERT(ptr == end);
         goto slowCase;
     }
     if (!WTF::isASCIIAlpha(*ptr))
         goto slowCase;
     ++ptr;
     while (ptr < end) {
         if (!WTF::isASCIIAlphanumeric(*ptr))
             break;
         ++ptr;
     }

     // Here's the shift
     if (ptr < end) {
         if ((!WTF::isASCII(*ptr)) || (*ptr == '\\') || (*ptr == '_') || (*ptr == '$'))
             goto slowCase;
         m_current = *ptr;
     } else
         m_current = 0;

     m_code = ptr;
     ASSERT(currentOffset() >= currentLineStartOffset());

     // Create the identifier if needed
     if (lexerFlags & LexexFlagsDontBuildKeywords
 #if !ASSERT_DISABLED
         && !m_parsingBuiltinFunction
 #endif
         )
         tokenData->ident = 0;
     else
         tokenData->ident = makeLCharIdentifier(start, ptr - start);

     tokenLocation->line = m_lineNumber;
     tokenLocation->lineStartOffset = currentLineStartOffset();
     tokenLocation->startOffset = offsetFromSourcePtr(start);
     tokenLocation->endOffset = currentOffset();
     ASSERT(tokenLocation->startOffset >= tokenLocation->lineStartOffset);
     tokenRecord->m_startPosition = startPosition;
     tokenRecord->m_endPosition = currentPosition();
 #if !ASSERT_DISABLED
     if (m_parsingBuiltinFunction) {
         if (!isSafeBuiltinIdentifier(m_vm, tokenData->ident))
             return ERRORTOK;
     }
 #endif

     m_lastToken = IDENT;
     return IDENT;

 slowCase:
     return lex(tokenRecord, lexerFlags, strictMode);
 }

 template <typename T>
 ALWAYS_INLINE JSTokenType Lexer<T>::lex(JSToken* tokenRecord, unsigned lexerFlags, bool strictMode)
 {
     m_hasLineTerminatorBeforeToken = false;
     return lexWithoutClearingLineTerminator(tokenRecord, lexerFlags, strictMode);
 }

 } // namespace JSC
	/*
	* Copyright (C) 1999-2000 Harri Porten (porten@kde.org)
	* Copyright (C) 2002-2019 Apple Inc. All rights reserved.
	* Copyright (C) 2010 Zoltan Herczeg (zherczeg@inf.u-szeged.hu)
	*
	* This library is free software; you can redistribute it and/or
	* modify it under the terms of the GNU Library General Public
	* License as published by the Free Software Foundation; either
	* version 2 of the License, or (at your option) any later version.
	*
	* This library is distributed in the hope that it will be useful,
	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	* Library General Public License for more details.
	*
	* You should have received a copy of the GNU Library General Public License
	* along with this library; see the file COPYING.LIB. If not, write to
	* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
	* Boston, MA 02110-1301, USA.
	*
	*/

	#pragma once

	#include "Lookup.h"
	#include "ParserArena.h"
	#include "ParserModes.h"
	#include "ParserTokens.h"
	#include "SourceCode.h"
	#include <wtf/ASCIICType.h>
	#include <wtf/Vector.h>

	namespace JSC {

	enum LexerFlags {
	LexerFlagsIgnoreReservedWords = 1,
	LexerFlagsDontBuildStrings = 2,
	LexexFlagsDontBuildKeywords = 4
	};

	enum class LexerEscapeParseMode { Template, String };

	struct ParsedUnicodeEscapeValue;

	bool isLexerKeyword(const Identifier&);

	template <typename T>
	class Lexer {
	WTF_MAKE_NONCOPYABLE(Lexer);
	WTF_MAKE_FAST_ALLOCATED;

	public:
	Lexer(VM&, JSParserBuiltinMode, JSParserScriptMode);
	~Lexer();

	// Character manipulation functions.
	static bool isWhiteSpace(T character);
	static bool isLineTerminator(T character);
	static unsigned char convertHex(int c1, int c2);
	static UChar convertUnicode(int c1, int c2, int c3, int c4);

	// Functions to set up parsing.
	void setCode(const SourceCode&, ParserArena*);
	void setIsReparsingFunction() { m_isReparsingFunction = true; }
	bool isReparsingFunction() const { return m_isReparsingFunction; }

	JSTokenType lex(JSToken*, unsigned, bool strictMode);
	JSTokenType lexWithoutClearingLineTerminator(JSToken*, unsigned, bool strictMode);
	bool nextTokenIsColon();
	int lineNumber() const { return m_lineNumber; }
	ALWAYS_INLINE int currentOffset() const { return offsetFromSourcePtr(m_code); }
	ALWAYS_INLINE int currentLineStartOffset() const { return offsetFromSourcePtr(m_lineStart); }
	ALWAYS_INLINE JSTextPosition currentPosition() const
	{
	return JSTextPosition(m_lineNumber, currentOffset(), currentLineStartOffset());
	}
	JSTextPosition positionBeforeLastNewline() const { return m_positionBeforeLastNewline; }
	JSTokenLocation lastTokenLocation() const { return m_lastTokenLocation; }
	void setLastLineNumber(int lastLineNumber) { m_lastLineNumber = lastLineNumber; }
	int lastLineNumber() const { return m_lastLineNumber; }
	bool hasLineTerminatorBeforeToken() const { return m_hasLineTerminatorBeforeToken; }
	JSTokenType scanRegExp(JSToken*, UChar patternPrefix = 0);
	enum class RawStringsBuildMode { BuildRawStrings, DontBuildRawStrings };
	JSTokenType scanTemplateString(JSToken*, RawStringsBuildMode);

	// Functions for use after parsing.
	bool sawError() const { return m_error; }
	void setSawError(bool sawError) { m_error = sawError; }
	String getErrorMessage() const { return m_lexErrorMessage; }
	void setErrorMessage(const String& errorMessage) { m_lexErrorMessage = errorMessage; }
	String sourceURLDirective() const { return m_sourceURLDirective; }
	String sourceMappingURLDirective() const { return m_sourceMappingURLDirective; }
	void clear();
	void setOffset(int offset, int lineStartOffset)
	{
	m_error = 0;
	m_lexErrorMessage = String();

	m_code = sourcePtrFromOffset(offset);
	m_lineStart = sourcePtrFromOffset(lineStartOffset);
	ASSERT(currentOffset() >= currentLineStartOffset());

	m_buffer8.shrink(0);
	m_buffer16.shrink(0);
	if (LIKELY(m_code < m_codeEnd))
	m_current = *m_code;
	else
	m_current = 0;
	}
	void setLineNumber(int line)
	{
	m_lineNumber = line;
	}
	void setHasLineTerminatorBeforeToken(bool terminator)
	{
	m_hasLineTerminatorBeforeToken = terminator;
	}

	JSTokenType lexExpectIdentifier(JSToken*, unsigned, bool strictMode);

	ALWAYS_INLINE StringView getToken(const JSToken& token)
	{
	SourceProvider* sourceProvider = m_source->provider();
	ASSERT_WITH_MESSAGE(token.m_location.startOffset <= token.m_location.endOffset, "Calling this function with the baked token.");
	return sourceProvider->getRange(token.m_location.startOffset, token.m_location.endOffset);
	}

	private:
	void record8(int);
	void append8(const T*, size_t);
	void record16(int);
	void record16(T);
	void recordUnicodeCodePoint(UChar32);
	void append16(const LChar*, size_t);
	void append16(const UChar* characters, size_t length) { m_buffer16.append(characters, length); }

	ALWAYS_INLINE void shift();
	ALWAYS_INLINE bool atEnd() const;
	ALWAYS_INLINE T peek(int offset) const;

	ParsedUnicodeEscapeValue parseUnicodeEscape();
	void shiftLineTerminator();

	ALWAYS_INLINE int offsetFromSourcePtr(const T* ptr) const { return ptr - m_codeStart; }
	ALWAYS_INLINE const T* sourcePtrFromOffset(int offset) const { return m_codeStart + offset; }

	String invalidCharacterMessage() const;
	ALWAYS_INLINE const T* currentSourcePtr() const;
	ALWAYS_INLINE void setOffsetFromSourcePtr(const T* sourcePtr, unsigned lineStartOffset) { setOffset(offsetFromSourcePtr(sourcePtr), lineStartOffset); }

	ALWAYS_INLINE void setCodeStart(const StringView&);

	ALWAYS_INLINE const Identifier* makeIdentifier(const LChar* characters, size_t length);
	ALWAYS_INLINE const Identifier* makeIdentifier(const UChar* characters, size_t length);
	ALWAYS_INLINE const Identifier* makeLCharIdentifier(const LChar* characters, size_t length);
	ALWAYS_INLINE const Identifier* makeLCharIdentifier(const UChar* characters, size_t length);
	ALWAYS_INLINE const Identifier* makeRightSizedIdentifier(const UChar* characters, size_t length, UChar orAllChars);
	ALWAYS_INLINE const Identifier* makeIdentifierLCharFromUChar(const UChar* characters, size_t length);
	ALWAYS_INLINE const Identifier* makeEmptyIdentifier();

	ALWAYS_INLINE bool lastTokenWasRestrKeyword() const;

	ALWAYS_INLINE void skipWhitespace();

	template <int shiftAmount> void internalShift();
	template <bool shouldCreateIdentifier> ALWAYS_INLINE JSTokenType parseKeyword(JSTokenData*);
	template <bool shouldBuildIdentifiers> ALWAYS_INLINE JSTokenType parseIdentifier(JSTokenData*, unsigned lexerFlags, bool strictMode);
	template <bool shouldBuildIdentifiers> NEVER_INLINE JSTokenType parseIdentifierSlowCase(JSTokenData*, unsigned lexerFlags, bool strictMode);
	enum StringParseResult {
	StringParsedSuccessfully,
	StringUnterminated,
	StringCannotBeParsed
	};
	template <bool shouldBuildStrings> ALWAYS_INLINE StringParseResult parseString(JSTokenData*, bool strictMode);
	template <bool shouldBuildStrings> NEVER_INLINE StringParseResult parseStringSlowCase(JSTokenData*, bool strictMode);


	template <bool shouldBuildStrings, LexerEscapeParseMode escapeParseMode> ALWAYS_INLINE StringParseResult parseComplexEscape(bool strictMode, T stringQuoteCharacter);
	ALWAYS_INLINE StringParseResult parseTemplateLiteral(JSTokenData*, RawStringsBuildMode);

	using NumberParseResult = Variant<double, const Identifier*>;
	ALWAYS_INLINE Optional<NumberParseResult> parseHex();
	ALWAYS_INLINE Optional<NumberParseResult> parseBinary();
	ALWAYS_INLINE Optional<NumberParseResult> parseOctal();
	ALWAYS_INLINE Optional<NumberParseResult> parseDecimal();
	ALWAYS_INLINE bool parseNumberAfterDecimalPoint();
	ALWAYS_INLINE bool parseNumberAfterExponentIndicator();
	ALWAYS_INLINE bool parseMultilineComment();

	ALWAYS_INLINE void parseCommentDirective();
	ALWAYS_INLINE String parseCommentDirectiveValue();

	template <unsigned length>
	ALWAYS_INLINE bool consume(const char (&input)[length]);

	void fillTokenInfo(JSToken*, JSTokenType, int lineNumber, int endOffset, int lineStartOffset, JSTextPosition endPosition);

	static const size_t initialReadBufferCapacity = 32;

	int m_lineNumber;
	int m_lastLineNumber;

	Vector<LChar> m_buffer8;
	Vector<UChar> m_buffer16;
	Vector<UChar> m_bufferForRawTemplateString16;
	bool m_hasLineTerminatorBeforeToken;
	int m_lastToken;

	const SourceCode* m_source;
	unsigned m_sourceOffset;
	const T* m_code;
	const T* m_codeStart;
	const T* m_codeEnd;
	const T* m_codeStartPlusOffset;
	const T* m_lineStart;
	JSTextPosition m_positionBeforeLastNewline;
	JSTokenLocation m_lastTokenLocation;
	bool m_isReparsingFunction;
	bool m_atLineStart;
	bool m_error;
	String m_lexErrorMessage;

	String m_sourceURLDirective;
	String m_sourceMappingURLDirective;

	T m_current;

	IdentifierArena* m_arena;

	VM& m_vm;
	bool m_parsingBuiltinFunction;
	JSParserScriptMode m_scriptMode;
	};

	template <>
	ALWAYS_INLINE bool Lexer<LChar>::isWhiteSpace(LChar ch)
	{
	return ch == ' ' \|\| ch == '\t' \|\| ch == 0xB \|\| ch == 0xC \|\| ch == 0xA0;
	}

	template <>
	ALWAYS_INLINE bool Lexer<UChar>::isWhiteSpace(UChar ch)
	{
	return isLatin1(ch) ? Lexer<LChar>::isWhiteSpace(static_cast<LChar>(ch)) : (u_charType(ch) == U_SPACE_SEPARATOR \|\| ch == 0xFEFF);
	}

	template <>
	ALWAYS_INLINE bool Lexer<LChar>::isLineTerminator(LChar ch)
	{
	return ch == '\r' \|\| ch == '\n';
	}

	template <>
	ALWAYS_INLINE bool Lexer<UChar>::isLineTerminator(UChar ch)
	{
	return ch == '\r' \|\| ch == '\n' \|\| (ch & ~1) == 0x2028;
	}

	template <typename T>
	inline unsigned char Lexer<T>::convertHex(int c1, int c2)
	{
	return (toASCIIHexValue(c1) << 4) \| toASCIIHexValue(c2);
	}

	template <typename T>
	inline UChar Lexer<T>::convertUnicode(int c1, int c2, int c3, int c4)
	{
	return (convertHex(c1, c2) << 8) \| convertHex(c3, c4);
	}

	template <typename T>
	ALWAYS_INLINE const Identifier* Lexer<T>::makeIdentifier(const LChar* characters, size_t length)
	{
	return &m_arena->makeIdentifier(m_vm, characters, length);
	}

	template <typename T>
	ALWAYS_INLINE const Identifier* Lexer<T>::makeIdentifier(const UChar* characters, size_t length)
	{
	return &m_arena->makeIdentifier(m_vm, characters, length);
	}

	template <>
	ALWAYS_INLINE const Identifier* Lexer<LChar>::makeRightSizedIdentifier(const UChar* characters, size_t length, UChar)
	{
	return &m_arena->makeIdentifierLCharFromUChar(m_vm, characters, length);
	}

	template <>
	ALWAYS_INLINE const Identifier* Lexer<UChar>::makeRightSizedIdentifier(const UChar* characters, size_t length, UChar orAllChars)
	{
	if (!(orAllChars & ~0xff))
	return &m_arena->makeIdentifierLCharFromUChar(m_vm, characters, length);

	return &m_arena->makeIdentifier(m_vm, characters, length);
	}

	template <typename T>
	ALWAYS_INLINE const Identifier* Lexer<T>::makeEmptyIdentifier()
	{
	return &m_arena->makeEmptyIdentifier(m_vm);
	}

	template <>
	ALWAYS_INLINE void Lexer<LChar>::setCodeStart(const StringView& sourceString)
	{
	ASSERT(sourceString.is8Bit());
	m_codeStart = sourceString.characters8();
	}

	template <>
	ALWAYS_INLINE void Lexer<UChar>::setCodeStart(const StringView& sourceString)
	{
	ASSERT(!sourceString.is8Bit());
	m_codeStart = sourceString.characters16();
	}

	template <typename T>
	ALWAYS_INLINE const Identifier* Lexer<T>::makeIdentifierLCharFromUChar(const UChar* characters, size_t length)
	{
	return &m_arena->makeIdentifierLCharFromUChar(m_vm, characters, length);
	}

	template <typename T>
	ALWAYS_INLINE const Identifier* Lexer<T>::makeLCharIdentifier(const LChar* characters, size_t length)
	{
	return &m_arena->makeIdentifier(m_vm, characters, length);
	}

	template <typename T>
	ALWAYS_INLINE const Identifier* Lexer<T>::makeLCharIdentifier(const UChar* characters, size_t length)
	{
	return &m_arena->makeIdentifierLCharFromUChar(m_vm, characters, length);
	}

	#if ASSERT_DISABLED
	ALWAYS_INLINE bool isSafeBuiltinIdentifier(VM&, const Identifier*) { return true; }
	#else
	bool isSafeBuiltinIdentifier(VM&, const Identifier*);
	#endif

	template <typename T>
	ALWAYS_INLINE JSTokenType Lexer<T>::lexExpectIdentifier(JSToken* tokenRecord, unsigned lexerFlags, bool strictMode)
	{
	JSTokenData* tokenData = &tokenRecord->m_data;
	JSTokenLocation* tokenLocation = &tokenRecord->m_location;
	ASSERT((lexerFlags & LexerFlagsIgnoreReservedWords));
	const T* start = m_code;
	const T* ptr = start;
	const T* end = m_codeEnd;
	JSTextPosition startPosition = currentPosition();
	if (ptr >= end) {
	ASSERT(ptr == end);
	goto slowCase;
	}
	if (!WTF::isASCIIAlpha(*ptr))
	goto slowCase;
	++ptr;
	while (ptr < end) {
	if (!WTF::isASCIIAlphanumeric(*ptr))
	break;
	++ptr;
	}

	// Here's the shift
	if (ptr < end) {
	if ((!WTF::isASCII(ptr)) \|\| (ptr == '\\') \|\| (ptr == '_') \|\| (ptr == '$'))
	goto slowCase;
	m_current = *ptr;
	} else
	m_current = 0;

	m_code = ptr;
	ASSERT(currentOffset() >= currentLineStartOffset());

	// Create the identifier if needed
	if (lexerFlags & LexexFlagsDontBuildKeywords
	#if !ASSERT_DISABLED
	&& !m_parsingBuiltinFunction
	#endif
	)
	tokenData->ident = 0;
	else
	tokenData->ident = makeLCharIdentifier(start, ptr - start);

	tokenLocation->line = m_lineNumber;
	tokenLocation->lineStartOffset = currentLineStartOffset();
	tokenLocation->startOffset = offsetFromSourcePtr(start);
	tokenLocation->endOffset = currentOffset();
	ASSERT(tokenLocation->startOffset >= tokenLocation->lineStartOffset);
	tokenRecord->m_startPosition = startPosition;
	tokenRecord->m_endPosition = currentPosition();
	#if !ASSERT_DISABLED
	if (m_parsingBuiltinFunction) {
	if (!isSafeBuiltinIdentifier(m_vm, tokenData->ident))
	return ERRORTOK;
	}
	#endif

	m_lastToken = IDENT;
	return IDENT;

	slowCase:
	return lex(tokenRecord, lexerFlags, strictMode);
	}

	template <typename T>
	ALWAYS_INLINE JSTokenType Lexer<T>::lex(JSToken* tokenRecord, unsigned lexerFlags, bool strictMode)
	{
	m_hasLineTerminatorBeforeToken = false;
	return lexWithoutClearingLineTerminator(tokenRecord, lexerFlags, strictMode);
	}

	} // namespace JSC