/* * Copyright (C) 1999-2000 Harri Porten (porten@kde.org) * Copyright (C) 2006, 2007, 2008, 2009, 2011, 2012 Apple Inc. All Rights Reserved. * Copyright (C) 2007 Cameron Zwarich (cwzwarich@uwaterloo.ca) * Copyright (C) 2010 Zoltan Herczeg (zherczeg@inf.u-szeged.hu) * Copyright (C) 2012 Mathias Bynens (mathias@qiwi.be) * * 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. * */ #include "config.h" #include "Lexer.h" #include "JSFunction.h" #include "JSGlobalObjectFunctions.h" #include "Identifier.h" #include "NodeInfo.h" #include "Nodes.h" #include #include #include #include #include using namespace WTF; using namespace Unicode; #include "KeywordLookup.h" #include "Lexer.lut.h" #include "Parser.h" namespace JSC { Keywords::Keywords(JSGlobalData* globalData) : m_globalData(globalData) , m_keywordTable(JSC::mainTable) { } enum CharacterType { // Types for the main switch // The first three types are fixed, and also used for identifying // ASCII alpha and alphanumeric characters (see isIdentStart and isIdentPart). CharacterIdentifierStart, CharacterZero, CharacterNumber, CharacterInvalid, CharacterLineTerminator, CharacterExclamationMark, CharacterOpenParen, CharacterCloseParen, CharacterOpenBracket, CharacterCloseBracket, CharacterComma, CharacterColon, CharacterQuestion, CharacterTilde, CharacterQuote, CharacterDot, CharacterSlash, CharacterBackSlash, CharacterSemicolon, CharacterOpenBrace, CharacterCloseBrace, CharacterAdd, CharacterSub, CharacterMultiply, CharacterModulo, CharacterAnd, CharacterXor, CharacterOr, CharacterLess, CharacterGreater, CharacterEqual, // Other types (only one so far) CharacterWhiteSpace, }; // 256 Latin-1 codes static const unsigned short typesOfLatin1Characters[256] = { /* 0 - Null */ CharacterInvalid, /* 1 - Start of Heading */ CharacterInvalid, /* 2 - Start of Text */ CharacterInvalid, /* 3 - End of Text */ CharacterInvalid, /* 4 - End of Transm. */ CharacterInvalid, /* 5 - Enquiry */ CharacterInvalid, /* 6 - Acknowledgment */ CharacterInvalid, /* 7 - Bell */ CharacterInvalid, /* 8 - Back Space */ CharacterInvalid, /* 9 - Horizontal Tab */ CharacterWhiteSpace, /* 10 - Line Feed */ CharacterLineTerminator, /* 11 - Vertical Tab */ CharacterWhiteSpace, /* 12 - Form Feed */ CharacterWhiteSpace, /* 13 - Carriage Return */ CharacterLineTerminator, /* 14 - Shift Out */ CharacterInvalid, /* 15 - Shift In */ CharacterInvalid, /* 16 - Data Line Escape */ CharacterInvalid, /* 17 - Device Control 1 */ CharacterInvalid, /* 18 - Device Control 2 */ CharacterInvalid, /* 19 - Device Control 3 */ CharacterInvalid, /* 20 - Device Control 4 */ CharacterInvalid, /* 21 - Negative Ack. */ CharacterInvalid, /* 22 - Synchronous Idle */ CharacterInvalid, /* 23 - End of Transmit */ CharacterInvalid, /* 24 - Cancel */ CharacterInvalid, /* 25 - End of Medium */ CharacterInvalid, /* 26 - Substitute */ CharacterInvalid, /* 27 - Escape */ CharacterInvalid, /* 28 - File Separator */ CharacterInvalid, /* 29 - Group Separator */ CharacterInvalid, /* 30 - Record Separator */ CharacterInvalid, /* 31 - Unit Separator */ CharacterInvalid, /* 32 - Space */ CharacterWhiteSpace, /* 33 - ! */ CharacterExclamationMark, /* 34 - " */ CharacterQuote, /* 35 - # */ CharacterInvalid, /* 36 - $ */ CharacterIdentifierStart, /* 37 - % */ CharacterModulo, /* 38 - & */ CharacterAnd, /* 39 - ' */ CharacterQuote, /* 40 - ( */ CharacterOpenParen, /* 41 - ) */ CharacterCloseParen, /* 42 - * */ CharacterMultiply, /* 43 - + */ CharacterAdd, /* 44 - , */ CharacterComma, /* 45 - - */ CharacterSub, /* 46 - . */ CharacterDot, /* 47 - / */ CharacterSlash, /* 48 - 0 */ CharacterZero, /* 49 - 1 */ CharacterNumber, /* 50 - 2 */ CharacterNumber, /* 51 - 3 */ CharacterNumber, /* 52 - 4 */ CharacterNumber, /* 53 - 5 */ CharacterNumber, /* 54 - 6 */ CharacterNumber, /* 55 - 7 */ CharacterNumber, /* 56 - 8 */ CharacterNumber, /* 57 - 9 */ CharacterNumber, /* 58 - : */ CharacterColon, /* 59 - ; */ CharacterSemicolon, /* 60 - < */ CharacterLess, /* 61 - = */ CharacterEqual, /* 62 - > */ CharacterGreater, /* 63 - ? */ CharacterQuestion, /* 64 - @ */ CharacterInvalid, /* 65 - A */ CharacterIdentifierStart, /* 66 - B */ CharacterIdentifierStart, /* 67 - C */ CharacterIdentifierStart, /* 68 - D */ CharacterIdentifierStart, /* 69 - E */ CharacterIdentifierStart, /* 70 - F */ CharacterIdentifierStart, /* 71 - G */ CharacterIdentifierStart, /* 72 - H */ CharacterIdentifierStart, /* 73 - I */ CharacterIdentifierStart, /* 74 - J */ CharacterIdentifierStart, /* 75 - K */ CharacterIdentifierStart, /* 76 - L */ CharacterIdentifierStart, /* 77 - M */ CharacterIdentifierStart, /* 78 - N */ CharacterIdentifierStart, /* 79 - O */ CharacterIdentifierStart, /* 80 - P */ CharacterIdentifierStart, /* 81 - Q */ CharacterIdentifierStart, /* 82 - R */ CharacterIdentifierStart, /* 83 - S */ CharacterIdentifierStart, /* 84 - T */ CharacterIdentifierStart, /* 85 - U */ CharacterIdentifierStart, /* 86 - V */ CharacterIdentifierStart, /* 87 - W */ CharacterIdentifierStart, /* 88 - X */ CharacterIdentifierStart, /* 89 - Y */ CharacterIdentifierStart, /* 90 - Z */ CharacterIdentifierStart, /* 91 - [ */ CharacterOpenBracket, /* 92 - \ */ CharacterBackSlash, /* 93 - ] */ CharacterCloseBracket, /* 94 - ^ */ CharacterXor, /* 95 - _ */ CharacterIdentifierStart, /* 96 - ` */ CharacterInvalid, /* 97 - a */ CharacterIdentifierStart, /* 98 - b */ CharacterIdentifierStart, /* 99 - c */ CharacterIdentifierStart, /* 100 - d */ CharacterIdentifierStart, /* 101 - e */ CharacterIdentifierStart, /* 102 - f */ CharacterIdentifierStart, /* 103 - g */ CharacterIdentifierStart, /* 104 - h */ CharacterIdentifierStart, /* 105 - i */ CharacterIdentifierStart, /* 106 - j */ CharacterIdentifierStart, /* 107 - k */ CharacterIdentifierStart, /* 108 - l */ CharacterIdentifierStart, /* 109 - m */ CharacterIdentifierStart, /* 110 - n */ CharacterIdentifierStart, /* 111 - o */ CharacterIdentifierStart, /* 112 - p */ CharacterIdentifierStart, /* 113 - q */ CharacterIdentifierStart, /* 114 - r */ CharacterIdentifierStart, /* 115 - s */ CharacterIdentifierStart, /* 116 - t */ CharacterIdentifierStart, /* 117 - u */ CharacterIdentifierStart, /* 118 - v */ CharacterIdentifierStart, /* 119 - w */ CharacterIdentifierStart, /* 120 - x */ CharacterIdentifierStart, /* 121 - y */ CharacterIdentifierStart, /* 122 - z */ CharacterIdentifierStart, /* 123 - { */ CharacterOpenBrace, /* 124 - | */ CharacterOr, /* 125 - } */ CharacterCloseBrace, /* 126 - ~ */ CharacterTilde, /* 127 - Delete */ CharacterInvalid, /* 128 - Cc category */ CharacterInvalid, /* 129 - Cc category */ CharacterInvalid, /* 130 - Cc category */ CharacterInvalid, /* 131 - Cc category */ CharacterInvalid, /* 132 - Cc category */ CharacterInvalid, /* 133 - Cc category */ CharacterInvalid, /* 134 - Cc category */ CharacterInvalid, /* 135 - Cc category */ CharacterInvalid, /* 136 - Cc category */ CharacterInvalid, /* 137 - Cc category */ CharacterInvalid, /* 138 - Cc category */ CharacterInvalid, /* 139 - Cc category */ CharacterInvalid, /* 140 - Cc category */ CharacterInvalid, /* 141 - Cc category */ CharacterInvalid, /* 142 - Cc category */ CharacterInvalid, /* 143 - Cc category */ CharacterInvalid, /* 144 - Cc category */ CharacterInvalid, /* 145 - Cc category */ CharacterInvalid, /* 146 - Cc category */ CharacterInvalid, /* 147 - Cc category */ CharacterInvalid, /* 148 - Cc category */ CharacterInvalid, /* 149 - Cc category */ CharacterInvalid, /* 150 - Cc category */ CharacterInvalid, /* 151 - Cc category */ CharacterInvalid, /* 152 - Cc category */ CharacterInvalid, /* 153 - Cc category */ CharacterInvalid, /* 154 - Cc category */ CharacterInvalid, /* 155 - Cc category */ CharacterInvalid, /* 156 - Cc category */ CharacterInvalid, /* 157 - Cc category */ CharacterInvalid, /* 158 - Cc category */ CharacterInvalid, /* 159 - Cc category */ CharacterInvalid, /* 160 - Zs category (nbsp) */ CharacterWhiteSpace, /* 161 - Po category */ CharacterInvalid, /* 162 - Sc category */ CharacterInvalid, /* 163 - Sc category */ CharacterInvalid, /* 164 - Sc category */ CharacterInvalid, /* 165 - Sc category */ CharacterInvalid, /* 166 - So category */ CharacterInvalid, /* 167 - So category */ CharacterInvalid, /* 168 - Sk category */ CharacterInvalid, /* 169 - So category */ CharacterInvalid, /* 170 - Ll category */ CharacterIdentifierStart, /* 171 - Pi category */ CharacterInvalid, /* 172 - Sm category */ CharacterInvalid, /* 173 - Cf category */ CharacterInvalid, /* 174 - So category */ CharacterInvalid, /* 175 - Sk category */ CharacterInvalid, /* 176 - So category */ CharacterInvalid, /* 177 - Sm category */ CharacterInvalid, /* 178 - No category */ CharacterInvalid, /* 179 - No category */ CharacterInvalid, /* 180 - Sk category */ CharacterInvalid, /* 181 - Ll category */ CharacterIdentifierStart, /* 182 - So category */ CharacterInvalid, /* 183 - Po category */ CharacterInvalid, /* 184 - Sk category */ CharacterInvalid, /* 185 - No category */ CharacterInvalid, /* 186 - Ll category */ CharacterIdentifierStart, /* 187 - Pf category */ CharacterInvalid, /* 188 - No category */ CharacterInvalid, /* 189 - No category */ CharacterInvalid, /* 190 - No category */ CharacterInvalid, /* 191 - Po category */ CharacterInvalid, /* 192 - Lu category */ CharacterIdentifierStart, /* 193 - Lu category */ CharacterIdentifierStart, /* 194 - Lu category */ CharacterIdentifierStart, /* 195 - Lu category */ CharacterIdentifierStart, /* 196 - Lu category */ CharacterIdentifierStart, /* 197 - Lu category */ CharacterIdentifierStart, /* 198 - Lu category */ CharacterIdentifierStart, /* 199 - Lu category */ CharacterIdentifierStart, /* 200 - Lu category */ CharacterIdentifierStart, /* 201 - Lu category */ CharacterIdentifierStart, /* 202 - Lu category */ CharacterIdentifierStart, /* 203 - Lu category */ CharacterIdentifierStart, /* 204 - Lu category */ CharacterIdentifierStart, /* 205 - Lu category */ CharacterIdentifierStart, /* 206 - Lu category */ CharacterIdentifierStart, /* 207 - Lu category */ CharacterIdentifierStart, /* 208 - Lu category */ CharacterIdentifierStart, /* 209 - Lu category */ CharacterIdentifierStart, /* 210 - Lu category */ CharacterIdentifierStart, /* 211 - Lu category */ CharacterIdentifierStart, /* 212 - Lu category */ CharacterIdentifierStart, /* 213 - Lu category */ CharacterIdentifierStart, /* 214 - Lu category */ CharacterIdentifierStart, /* 215 - Sm category */ CharacterInvalid, /* 216 - Lu category */ CharacterIdentifierStart, /* 217 - Lu category */ CharacterIdentifierStart, /* 218 - Lu category */ CharacterIdentifierStart, /* 219 - Lu category */ CharacterIdentifierStart, /* 220 - Lu category */ CharacterIdentifierStart, /* 221 - Lu category */ CharacterIdentifierStart, /* 222 - Lu category */ CharacterIdentifierStart, /* 223 - Ll category */ CharacterIdentifierStart, /* 224 - Ll category */ CharacterIdentifierStart, /* 225 - Ll category */ CharacterIdentifierStart, /* 226 - Ll category */ CharacterIdentifierStart, /* 227 - Ll category */ CharacterIdentifierStart, /* 228 - Ll category */ CharacterIdentifierStart, /* 229 - Ll category */ CharacterIdentifierStart, /* 230 - Ll category */ CharacterIdentifierStart, /* 231 - Ll category */ CharacterIdentifierStart, /* 232 - Ll category */ CharacterIdentifierStart, /* 233 - Ll category */ CharacterIdentifierStart, /* 234 - Ll category */ CharacterIdentifierStart, /* 235 - Ll category */ CharacterIdentifierStart, /* 236 - Ll category */ CharacterIdentifierStart, /* 237 - Ll category */ CharacterIdentifierStart, /* 238 - Ll category */ CharacterIdentifierStart, /* 239 - Ll category */ CharacterIdentifierStart, /* 240 - Ll category */ CharacterIdentifierStart, /* 241 - Ll category */ CharacterIdentifierStart, /* 242 - Ll category */ CharacterIdentifierStart, /* 243 - Ll category */ CharacterIdentifierStart, /* 244 - Ll category */ CharacterIdentifierStart, /* 245 - Ll category */ CharacterIdentifierStart, /* 246 - Ll category */ CharacterIdentifierStart, /* 247 - Sm category */ CharacterInvalid, /* 248 - Ll category */ CharacterIdentifierStart, /* 249 - Ll category */ CharacterIdentifierStart, /* 250 - Ll category */ CharacterIdentifierStart, /* 251 - Ll category */ CharacterIdentifierStart, /* 252 - Ll category */ CharacterIdentifierStart, /* 253 - Ll category */ CharacterIdentifierStart, /* 254 - Ll category */ CharacterIdentifierStart, /* 255 - Ll category */ CharacterIdentifierStart }; template Lexer::Lexer(JSGlobalData* globalData) : m_isReparsing(false) , m_globalData(globalData) { } template Lexer::~Lexer() { } template UString Lexer::invalidCharacterMessage() const { switch (m_current) { case 0: return "Invalid character: '\\0'"; case 10: return "Invalid character: '\\n'"; case 11: return "Invalid character: '\\v'"; case 13: return "Invalid character: '\\r'"; case 35: return "Invalid character: '#'"; case 64: return "Invalid character: '@'"; case 96: return "Invalid character: '`'"; default: return String::format("Invalid character '\\u%04u'", static_cast(m_current)).impl(); } } template ALWAYS_INLINE const T* Lexer::currentCharacter() const { ASSERT(m_code <= m_codeEnd); return m_code; } template void Lexer::setCode(const SourceCode& source, ParserArena* arena) { m_arena = &arena->identifierArena(); m_lineNumber = source.firstLine(); m_lastToken = -1; const StringImpl* sourceString = source.provider()->data(); if (sourceString) setCodeStart(sourceString); else m_codeStart = 0; m_source = &source; m_code = m_codeStart + source.startOffset(); m_codeEnd = m_codeStart + source.endOffset(); m_error = false; m_atLineStart = true; m_columnNumber = 0; m_lexErrorMessage = UString(); m_buffer8.reserveInitialCapacity(initialReadBufferCapacity); m_buffer16.reserveInitialCapacity((m_codeEnd - m_code) / 2); if (LIKELY(m_code < m_codeEnd)) m_current = *m_code; else m_current = 0; ASSERT(currentOffset() == source.startOffset()); } template template ALWAYS_INLINE void Lexer::internalShift() { m_code += shiftAmount; m_columnNumber += shiftAmount; m_current = *m_code; } template ALWAYS_INLINE void Lexer::shift() { // At one point timing showed that setting m_current to 0 unconditionally was faster than an if-else sequence. m_current = 0; ++m_code; if (LIKELY(m_code < m_codeEnd)) m_current = *m_code; ++m_columnNumber; } template ALWAYS_INLINE bool Lexer::atEnd() const { ASSERT(!m_current || m_code < m_codeEnd); return UNLIKELY(UNLIKELY(!m_current) && m_code == m_codeEnd); } template ALWAYS_INLINE T Lexer::peek(int offset) const { ASSERT(offset > 0 && offset < 5); const T* code = m_code + offset; return (code < m_codeEnd) ? *code : 0; } template int Lexer::parseFourDigitUnicodeHex() { T char1 = peek(1); T char2 = peek(2); T char3 = peek(3); if (UNLIKELY(!isASCIIHexDigit(m_current) || !isASCIIHexDigit(char1) || !isASCIIHexDigit(char2) || !isASCIIHexDigit(char3))) return -1; int result = convertUnicode(m_current, char1, char2, char3); shift(); shift(); shift(); shift(); return result; } template void Lexer::shiftLineTerminator() { ASSERT(isLineTerminator(m_current)); T prev = m_current; shift(); // Allow both CRLF and LFCR. if (prev + m_current == '\n' + '\r') shift(); ++m_lineNumber; } template ALWAYS_INLINE bool Lexer::lastTokenWasRestrKeyword() const { return m_lastToken == CONTINUE || m_lastToken == BREAK || m_lastToken == RETURN || m_lastToken == THROW; } static NEVER_INLINE bool isNonLatin1IdentStart(int c) { return category(c) & (Letter_Uppercase | Letter_Lowercase | Letter_Titlecase | Letter_Modifier | Letter_Other); } static ALWAYS_INLINE bool isLatin1(LChar) { return true; } static ALWAYS_INLINE bool isLatin1(UChar c) { return c < 256; } static inline bool isIdentStart(LChar c) { return typesOfLatin1Characters[c] == CharacterIdentifierStart; } static inline bool isIdentStart(UChar c) { return isLatin1(c) ? isIdentStart(static_cast(c)) : isNonLatin1IdentStart(c); } static NEVER_INLINE bool isNonLatin1IdentPart(int c) { return (category(c) & (Letter_Uppercase | Letter_Lowercase | Letter_Titlecase | Letter_Modifier | Letter_Other | Mark_NonSpacing | Mark_SpacingCombining | Number_DecimalDigit | Punctuation_Connector)) || c == 0x200C || c == 0x200D; } static ALWAYS_INLINE bool isIdentPart(LChar c) { // Character types are divided into two groups depending on whether they can be part of an // identifier or not. Those whose type value is less or equal than CharacterNumber can be // part of an identifier. (See the CharacterType definition for more details.) return typesOfLatin1Characters[c] <= CharacterNumber; } static ALWAYS_INLINE bool isIdentPart(UChar c) { return isLatin1(c) ? isIdentPart(static_cast(c)) : isNonLatin1IdentPart(c); } static inline int singleEscape(int c) { switch (c) { case 'b': return 0x08; case 't': return 0x09; case 'n': return 0x0A; case 'v': return 0x0B; case 'f': return 0x0C; case 'r': return 0x0D; case '\\': return '\\'; case '\'': return '\''; case '"': return '"'; default: return 0; } } template inline void Lexer::record8(int c) { ASSERT(c >= 0); ASSERT(c <= 0xFF); m_buffer8.append(static_cast(c)); } template inline void assertCharIsIn8BitRange(T c) { UNUSED_PARAM(c); ASSERT(c >= 0); ASSERT(c <= 0xFF); } template <> inline void assertCharIsIn8BitRange(UChar c) { UNUSED_PARAM(c); ASSERT(c <= 0xFF); } template <> inline void assertCharIsIn8BitRange(LChar) { } template inline void Lexer::append8(const T* p, size_t length) { size_t currentSize = m_buffer8.size(); m_buffer8.grow(currentSize + length); LChar* rawBuffer = m_buffer8.data() + currentSize; for (size_t i = 0; i < length; i++) { T c = p[i]; assertCharIsIn8BitRange(c); rawBuffer[i] = c; } } template inline void Lexer::append16(const LChar* p, size_t length) { size_t currentSize = m_buffer16.size(); m_buffer16.grow(currentSize + length); UChar* rawBuffer = m_buffer16.data() + currentSize; for (size_t i = 0; i < length; i++) rawBuffer[i] = p[i]; } template inline void Lexer::record16(T c) { m_buffer16.append(c); } template inline void Lexer::record16(int c) { ASSERT(c >= 0); ASSERT(c <= static_cast(USHRT_MAX)); m_buffer16.append(static_cast(c)); } template <> template ALWAYS_INLINE JSTokenType Lexer::parseIdentifier(JSTokenData* tokenData, unsigned lexerFlags, bool strictMode) { const ptrdiff_t remaining = m_codeEnd - m_code; if ((remaining >= maxTokenLength) && !(lexerFlags & LexerFlagsIgnoreReservedWords)) { JSTokenType keyword = parseKeyword(tokenData); if (keyword != IDENT) { ASSERT((!shouldCreateIdentifier) || tokenData->ident); return keyword == RESERVED_IF_STRICT && !strictMode ? IDENT : keyword; } } const LChar* identifierStart = currentCharacter(); while (isIdentPart(m_current)) shift(); if (UNLIKELY(m_current == '\\')) { setOffsetFromCharOffset(identifierStart); return parseIdentifierSlowCase(tokenData, lexerFlags, strictMode); } const Identifier* ident = 0; if (shouldCreateIdentifier) { int identifierLength = currentCharacter() - identifierStart; ident = makeIdentifier(identifierStart, identifierLength); tokenData->ident = ident; } else tokenData->ident = 0; if (UNLIKELY((remaining < maxTokenLength) && !(lexerFlags & LexerFlagsIgnoreReservedWords))) { ASSERT(shouldCreateIdentifier); if (remaining < maxTokenLength) { const HashEntry* entry = m_globalData->keywords->getKeyword(*ident); ASSERT((remaining < maxTokenLength) || !entry); if (!entry) return IDENT; JSTokenType token = static_cast(entry->lexerValue()); return (token != RESERVED_IF_STRICT) || strictMode ? token : IDENT; } return IDENT; } return IDENT; } template <> template ALWAYS_INLINE JSTokenType Lexer::parseIdentifier(JSTokenData* tokenData, unsigned lexerFlags, bool strictMode) { const ptrdiff_t remaining = m_codeEnd - m_code; if ((remaining >= maxTokenLength) && !(lexerFlags & LexerFlagsIgnoreReservedWords)) { JSTokenType keyword = parseKeyword(tokenData); if (keyword != IDENT) { ASSERT((!shouldCreateIdentifier) || tokenData->ident); return keyword == RESERVED_IF_STRICT && !strictMode ? IDENT : keyword; } } const UChar* identifierStart = currentCharacter(); UChar orAllChars = 0; while (isIdentPart(m_current)) { orAllChars |= m_current; shift(); } if (UNLIKELY(m_current == '\\')) { setOffsetFromCharOffset(identifierStart); return parseIdentifierSlowCase(tokenData, lexerFlags, strictMode); } bool isAll8Bit = false; if (!(orAllChars & ~0xff)) isAll8Bit = true; const Identifier* ident = 0; if (shouldCreateIdentifier) { int identifierLength = currentCharacter() - identifierStart; if (isAll8Bit) ident = makeIdentifierLCharFromUChar(identifierStart, identifierLength); else ident = makeIdentifier(identifierStart, identifierLength); tokenData->ident = ident; } else tokenData->ident = 0; if (UNLIKELY((remaining < maxTokenLength) && !(lexerFlags & LexerFlagsIgnoreReservedWords))) { ASSERT(shouldCreateIdentifier); if (remaining < maxTokenLength) { const HashEntry* entry = m_globalData->keywords->getKeyword(*ident); ASSERT((remaining < maxTokenLength) || !entry); if (!entry) return IDENT; JSTokenType token = static_cast(entry->lexerValue()); return (token != RESERVED_IF_STRICT) || strictMode ? token : IDENT; } return IDENT; } return IDENT; } template template JSTokenType Lexer::parseIdentifierSlowCase(JSTokenData* tokenData, unsigned lexerFlags, bool strictMode) { const ptrdiff_t remaining = m_codeEnd - m_code; const T* identifierStart = currentCharacter(); bool bufferRequired = false; while (true) { if (LIKELY(isIdentPart(m_current))) { shift(); continue; } if (LIKELY(m_current != '\\')) break; // \uXXXX unicode characters. bufferRequired = true; if (identifierStart != currentCharacter()) m_buffer16.append(identifierStart, currentCharacter() - identifierStart); shift(); if (UNLIKELY(m_current != 'u')) return ERRORTOK; shift(); int character = parseFourDigitUnicodeHex(); if (UNLIKELY(character == -1)) return ERRORTOK; UChar ucharacter = static_cast(character); if (UNLIKELY(m_buffer16.size() ? !isIdentPart(ucharacter) : !isIdentStart(ucharacter))) return ERRORTOK; if (shouldCreateIdentifier) record16(ucharacter); identifierStart = currentCharacter(); } int identifierLength; const Identifier* ident = 0; if (shouldCreateIdentifier) { if (!bufferRequired) { identifierLength = currentCharacter() - identifierStart; ident = makeIdentifier(identifierStart, identifierLength); } else { if (identifierStart != currentCharacter()) m_buffer16.append(identifierStart, currentCharacter() - identifierStart); ident = makeIdentifier(m_buffer16.data(), m_buffer16.size()); } tokenData->ident = ident; } else tokenData->ident = 0; if (LIKELY(!bufferRequired && !(lexerFlags & LexerFlagsIgnoreReservedWords))) { ASSERT(shouldCreateIdentifier); // Keywords must not be recognized if there was an \uXXXX in the identifier. if (remaining < maxTokenLength) { const HashEntry* entry = m_globalData->keywords->getKeyword(*ident); ASSERT((remaining < maxTokenLength) || !entry); if (!entry) return IDENT; JSTokenType token = static_cast(entry->lexerValue()); return (token != RESERVED_IF_STRICT) || strictMode ? token : IDENT; } return IDENT; } m_buffer16.resize(0); return IDENT; } static ALWAYS_INLINE bool characterRequiresParseStringSlowCase(LChar character) { return character < 0xE; } static ALWAYS_INLINE bool characterRequiresParseStringSlowCase(UChar character) { return character < 0xE || character > 0xFF; } template template ALWAYS_INLINE bool Lexer::parseString(JSTokenData* tokenData, bool strictMode) { int startingOffset = currentOffset(); int startingLineNumber = lineNumber(); T stringQuoteCharacter = m_current; shift(); const T* stringStart = currentCharacter(); while (m_current != stringQuoteCharacter) { if (UNLIKELY(m_current == '\\')) { if (stringStart != currentCharacter() && shouldBuildStrings) append8(stringStart, currentCharacter() - stringStart); shift(); int escape = singleEscape(m_current); // Most common escape sequences first if (escape) { if (shouldBuildStrings) record8(escape); shift(); } else if (UNLIKELY(isLineTerminator(m_current))) shiftLineTerminator(); else if (m_current == 'x') { shift(); if (!isASCIIHexDigit(m_current) || !isASCIIHexDigit(peek(1))) { m_lexErrorMessage = "\\x can only be followed by a hex character sequence"; return false; } T prev = m_current; shift(); if (shouldBuildStrings) record8(convertHex(prev, m_current)); shift(); } else { setOffset(startingOffset); setLineNumber(startingLineNumber); m_buffer8.resize(0); return parseStringSlowCase(tokenData, strictMode); } stringStart = currentCharacter(); continue; } if (UNLIKELY(characterRequiresParseStringSlowCase(m_current))) { setOffset(startingOffset); setLineNumber(startingLineNumber); m_buffer8.resize(0); return parseStringSlowCase(tokenData, strictMode); } shift(); } if (currentCharacter() != stringStart && shouldBuildStrings) append8(stringStart, currentCharacter() - stringStart); if (shouldBuildStrings) { tokenData->ident = makeIdentifier(m_buffer8.data(), m_buffer8.size()); m_buffer8.resize(0); } else tokenData->ident = 0; return true; } template template bool Lexer::parseStringSlowCase(JSTokenData* tokenData, bool strictMode) { T stringQuoteCharacter = m_current; shift(); const T* stringStart = currentCharacter(); while (m_current != stringQuoteCharacter) { if (UNLIKELY(m_current == '\\')) { if (stringStart != currentCharacter() && shouldBuildStrings) append16(stringStart, currentCharacter() - stringStart); shift(); int escape = singleEscape(m_current); // Most common escape sequences first if (escape) { if (shouldBuildStrings) record16(escape); shift(); } else if (UNLIKELY(isLineTerminator(m_current))) shiftLineTerminator(); else if (m_current == 'x') { shift(); if (!isASCIIHexDigit(m_current) || !isASCIIHexDigit(peek(1))) { m_lexErrorMessage = "\\x can only be followed by a hex character sequence"; return false; } T prev = m_current; shift(); if (shouldBuildStrings) record16(convertHex(prev, m_current)); shift(); } else if (m_current == 'u') { shift(); int character = parseFourDigitUnicodeHex(); if (character != -1) { if (shouldBuildStrings) record16(character); } else if (m_current == stringQuoteCharacter) { if (shouldBuildStrings) record16('u'); } else { m_lexErrorMessage = "\\u can only be followed by a Unicode character sequence"; return false; } } else if (strictMode && isASCIIDigit(m_current)) { // The only valid numeric escape in strict mode is '\0', and this must not be followed by a decimal digit. int character1 = m_current; shift(); if (character1 != '0' || isASCIIDigit(m_current)) { m_lexErrorMessage = "The only valid numeric escape in strict mode is '\\0'"; return false; } if (shouldBuildStrings) record16(0); } else if (!strictMode && isASCIIOctalDigit(m_current)) { // Octal character sequences T character1 = m_current; shift(); if (isASCIIOctalDigit(m_current)) { // Two octal characters T character2 = m_current; shift(); if (character1 >= '0' && character1 <= '3' && isASCIIOctalDigit(m_current)) { if (shouldBuildStrings) record16((character1 - '0') * 64 + (character2 - '0') * 8 + m_current - '0'); shift(); } else { if (shouldBuildStrings) record16((character1 - '0') * 8 + character2 - '0'); } } else { if (shouldBuildStrings) record16(character1 - '0'); } } else if (!atEnd()) { if (shouldBuildStrings) record16(m_current); shift(); } else { m_lexErrorMessage = "Unterminated string constant"; return false; } stringStart = currentCharacter(); continue; } // Fast check for characters that require special handling. // Catches 0, \n, \r, 0x2028, and 0x2029 as efficiently // as possible, and lets through all common ASCII characters. if (UNLIKELY(((static_cast(m_current) - 0xE) & 0x2000))) { // New-line or end of input is not allowed if (atEnd() || isLineTerminator(m_current)) { m_lexErrorMessage = "Unexpected EOF"; return false; } // Anything else is just a normal character } shift(); } if (currentCharacter() != stringStart && shouldBuildStrings) append16(stringStart, currentCharacter() - stringStart); if (shouldBuildStrings) tokenData->ident = makeIdentifier(m_buffer16.data(), m_buffer16.size()); else tokenData->ident = 0; m_buffer16.resize(0); return true; } template ALWAYS_INLINE void Lexer::parseHex(double& returnValue) { // Optimization: most hexadecimal values fit into 4 bytes. uint32_t hexValue = 0; int maximumDigits = 7; // Shift out the 'x' prefix. shift(); do { hexValue = (hexValue << 4) + toASCIIHexValue(m_current); shift(); --maximumDigits; } while (isASCIIHexDigit(m_current) && maximumDigits >= 0); if (maximumDigits >= 0) { returnValue = hexValue; return; } // No more place in the hexValue buffer. // The values are shifted out and placed into the m_buffer8 vector. for (int i = 0; i < 8; ++i) { int digit = hexValue >> 28; if (digit < 10) record8(digit + '0'); else record8(digit - 10 + 'a'); hexValue <<= 4; } while (isASCIIHexDigit(m_current)) { record8(m_current); shift(); } returnValue = parseIntOverflow(m_buffer8.data(), m_buffer8.size(), 16); } template ALWAYS_INLINE bool Lexer::parseOctal(double& returnValue) { // Optimization: most octal values fit into 4 bytes. uint32_t octalValue = 0; int maximumDigits = 9; // Temporary buffer for the digits. Makes easier // to reconstruct the input characters when needed. LChar digits[10]; do { octalValue = octalValue * 8 + (m_current - '0'); digits[maximumDigits] = m_current; shift(); --maximumDigits; } while (isASCIIOctalDigit(m_current) && maximumDigits >= 0); if (!isASCIIDigit(m_current) && maximumDigits >= 0) { returnValue = octalValue; return true; } for (int i = 9; i > maximumDigits; --i) record8(digits[i]); while (isASCIIOctalDigit(m_current)) { record8(m_current); shift(); } if (isASCIIDigit(m_current)) return false; returnValue = parseIntOverflow(m_buffer8.data(), m_buffer8.size(), 8); return true; } template ALWAYS_INLINE bool Lexer::parseDecimal(double& returnValue) { // Optimization: most decimal values fit into 4 bytes. uint32_t decimalValue = 0; // Since parseOctal may be executed before parseDecimal, // the m_buffer8 may hold ascii digits. if (!m_buffer8.size()) { int maximumDigits = 9; // Temporary buffer for the digits. Makes easier // to reconstruct the input characters when needed. LChar digits[10]; do { decimalValue = decimalValue * 10 + (m_current - '0'); digits[maximumDigits] = m_current; shift(); --maximumDigits; } while (isASCIIDigit(m_current) && maximumDigits >= 0); if (maximumDigits >= 0 && m_current != '.' && (m_current | 0x20) != 'e') { returnValue = decimalValue; return true; } for (int i = 9; i > maximumDigits; --i) record8(digits[i]); } while (isASCIIDigit(m_current)) { record8(m_current); shift(); } return false; } template ALWAYS_INLINE void Lexer::parseNumberAfterDecimalPoint() { record8('.'); while (isASCIIDigit(m_current)) { record8(m_current); shift(); } } template ALWAYS_INLINE bool Lexer::parseNumberAfterExponentIndicator() { record8('e'); shift(); if (m_current == '+' || m_current == '-') { record8(m_current); shift(); } if (!isASCIIDigit(m_current)) return false; do { record8(m_current); shift(); } while (isASCIIDigit(m_current)); return true; } template ALWAYS_INLINE bool Lexer::parseMultilineComment() { while (true) { while (UNLIKELY(m_current == '*')) { shift(); if (m_current == '/') { shift(); return true; } } if (atEnd()) return false; if (isLineTerminator(m_current)) { shiftLineTerminator(); m_terminator = true; } else shift(); } } template bool Lexer::nextTokenIsColon() { const T* code = m_code; while (code < m_codeEnd && (isWhiteSpace(*code) || isLineTerminator(*code))) code++; return code < m_codeEnd && *code == ':'; } template JSTokenType Lexer::lex(JSTokenData* tokenData, JSTokenLocation* tokenLocation, unsigned lexerFlags, bool strictMode) { ASSERT(!m_error); ASSERT(m_buffer8.isEmpty()); ASSERT(m_buffer16.isEmpty()); JSTokenType token = ERRORTOK; m_terminator = false; start: while (isWhiteSpace(m_current)) shift(); if (atEnd()) return EOFTOK; tokenLocation->startOffset = currentOffset(); tokenLocation->column = m_columnNumber; CharacterType type; if (LIKELY(isLatin1(m_current))) type = static_cast(typesOfLatin1Characters[m_current]); else if (isNonLatin1IdentStart(m_current)) type = CharacterIdentifierStart; else if (isLineTerminator(m_current)) type = CharacterLineTerminator; else type = CharacterInvalid; switch (type) { case CharacterGreater: shift(); if (m_current == '>') { shift(); if (m_current == '>') { shift(); if (m_current == '=') { shift(); token = URSHIFTEQUAL; break; } token = URSHIFT; break; } if (m_current == '=') { shift(); token = RSHIFTEQUAL; break; } token = RSHIFT; break; } if (m_current == '=') { shift(); token = GE; break; } token = GT; break; case CharacterEqual: shift(); if (m_current == '=') { shift(); if (m_current == '=') { shift(); token = STREQ; break; } token = EQEQ; break; } token = EQUAL; break; case CharacterLess: shift(); if (m_current == '!' && peek(1) == '-' && peek(2) == '-') { //