// Copyright 2010 the V8 project authors. All rights reserved. // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following // disclaimer in the documentation and/or other materials provided // with the distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived // from this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. #ifndef V8_SCANNER_H_ #define V8_SCANNER_H_ #include "token.h" #include "char-predicates-inl.h" #include "scanner-base.h" namespace v8 { namespace internal { class UTF8Buffer { public: UTF8Buffer(); ~UTF8Buffer(); inline void AddChar(uc32 c) { if (static_cast(c) <= unibrow::Utf8::kMaxOneByteChar) { buffer_.Add(static_cast(c)); } else { AddCharSlow(c); } } void StartLiteral() { buffer_.StartSequence(); } Vector EndLiteral() { buffer_.Add(kEndMarker); Vector sequence = buffer_.EndSequence(); return Vector(sequence.start(), sequence.length()); } void DropLiteral() { buffer_.DropSequence(); } void Reset() { buffer_.Reset(); } // The end marker added after a parsed literal. // Using zero allows the usage of strlen and similar functions on // identifiers and numbers (but not strings, since they may contain zero // bytes). // TODO(lrn): Use '\xff' as end marker, since it cannot occur inside // an utf-8 string. This requires changes in all places that uses // str-functions on the literals, but allows a single pointer to represent // the literal, even if it contains embedded zeros. static const char kEndMarker = '\x00'; private: static const int kInitialCapacity = 256; SequenceCollector buffer_; void AddCharSlow(uc32 c); }; // Interface through which the scanner reads characters from the input source. class UTF16Buffer { public: UTF16Buffer(); virtual ~UTF16Buffer() {} virtual void PushBack(uc32 ch) = 0; // Returns a value < 0 when the buffer end is reached. virtual uc32 Advance() = 0; virtual void SeekForward(int pos) = 0; int pos() const { return pos_; } protected: int pos_; // Current position in the buffer. int end_; // Position where scanning should stop (EOF). }; // UTF16 buffer to read characters from a character stream. class CharacterStreamUTF16Buffer: public UTF16Buffer { public: CharacterStreamUTF16Buffer(); virtual ~CharacterStreamUTF16Buffer() {} void Initialize(Handle data, unibrow::CharacterStream* stream, int start_position, int end_position); virtual void PushBack(uc32 ch); virtual uc32 Advance(); virtual void SeekForward(int pos); private: List pushback_buffer_; uc32 last_; unibrow::CharacterStream* stream_; List* pushback_buffer() { return &pushback_buffer_; } }; // UTF16 buffer to read characters from an external string. template class ExternalStringUTF16Buffer: public UTF16Buffer { public: ExternalStringUTF16Buffer(); virtual ~ExternalStringUTF16Buffer() {} void Initialize(Handle data, int start_position, int end_position); virtual void PushBack(uc32 ch); virtual uc32 Advance(); virtual void SeekForward(int pos); private: const CharType* raw_data_; // Pointer to the actual array of characters. }; enum ParserLanguage { JAVASCRIPT, JSON }; class Scanner { public: typedef unibrow::Utf8InputBuffer<1024> Utf8Decoder; class LiteralScope { public: explicit LiteralScope(Scanner* self); ~LiteralScope(); void Complete(); private: Scanner* scanner_; bool complete_; }; Scanner(); // Initialize the Scanner to scan source. void Initialize(Handle source, ParserLanguage language); void Initialize(Handle source, unibrow::CharacterStream* stream, ParserLanguage language); void Initialize(Handle source, int start_position, int end_position, ParserLanguage language); // Returns the next token. Token::Value Next(); // Returns the current token again. Token::Value current_token() { return current_.token; } // One token look-ahead (past the token returned by Next()). Token::Value peek() const { return next_.token; } // Returns true if there was a line terminator before the peek'ed token. bool has_line_terminator_before_next() const { return has_line_terminator_before_next_; } struct Location { Location(int b, int e) : beg_pos(b), end_pos(e) { } Location() : beg_pos(0), end_pos(0) { } int beg_pos; int end_pos; }; // Returns the location information for the current token // (the token returned by Next()). Location location() const { return current_.location; } Location peek_location() const { return next_.location; } // Returns the literal string, if any, for the current token (the // token returned by Next()). The string is 0-terminated and in // UTF-8 format; they may contain 0-characters. Literal strings are // collected for identifiers, strings, and numbers. // These functions only give the correct result if the literal // was scanned between calls to StartLiteral() and TerminateLiteral(). const char* literal_string() const { return current_.literal_chars.start(); } int literal_length() const { // Excluding terminal '\x00' added by TerminateLiteral(). return current_.literal_chars.length() - 1; } Vector literal() const { return Vector(literal_string(), literal_length()); } // Returns the literal string for the next token (the token that // would be returned if Next() were called). const char* next_literal_string() const { return next_.literal_chars.start(); } // Returns the length of the next token (that would be returned if // Next() were called). int next_literal_length() const { // Excluding terminal '\x00' added by TerminateLiteral(). return next_.literal_chars.length() - 1; } Vector next_literal() const { return Vector(next_literal_string(), next_literal_length()); } // Scans the input as a regular expression pattern, previous // character(s) must be /(=). Returns true if a pattern is scanned. bool ScanRegExpPattern(bool seen_equal); // Returns true if regexp flags are scanned (always since flags can // be empty). bool ScanRegExpFlags(); // Seek forward to the given position. This operation does not // work in general, for instance when there are pushed back // characters, but works for seeking forward until simple delimiter // tokens, which is what it is used for. void SeekForward(int pos); bool stack_overflow() { return stack_overflow_; } static StaticResource* utf8_decoder() { return &utf8_decoder_; } // Tells whether the buffer contains an identifier (no escapes). // Used for checking if a property name is an identifier. static bool IsIdentifier(unibrow::CharacterStream* buffer); static unibrow::Predicate kIsIdentifierStart; static unibrow::Predicate kIsIdentifierPart; static unibrow::Predicate kIsLineTerminator; static unibrow::Predicate kIsWhiteSpace; static const int kCharacterLookaheadBufferSize = 1; static const int kNoEndPosition = 1; private: // The current and look-ahead token. struct TokenDesc { Token::Value token; Location location; Vector literal_chars; }; void Init(Handle source, unibrow::CharacterStream* stream, int start_position, int end_position, ParserLanguage language); // Literal buffer support inline void StartLiteral(); inline void AddChar(uc32 ch); inline void AddCharAdvance(); inline void TerminateLiteral(); // Stops scanning of a literal, e.g., due to an encountered error. inline void DropLiteral(); // Low-level scanning support. void Advance() { c0_ = source_->Advance(); } void PushBack(uc32 ch) { source_->PushBack(ch); c0_ = ch; } bool SkipWhiteSpace() { if (is_parsing_json_) { return SkipJsonWhiteSpace(); } else { return SkipJavaScriptWhiteSpace(); } } bool SkipJavaScriptWhiteSpace(); bool SkipJsonWhiteSpace(); Token::Value SkipSingleLineComment(); Token::Value SkipMultiLineComment(); inline Token::Value Select(Token::Value tok); inline Token::Value Select(uc32 next, Token::Value then, Token::Value else_); inline void Scan() { if (is_parsing_json_) { ScanJson(); } else { ScanJavaScript(); } } // Scans a single JavaScript token. void ScanJavaScript(); // Scan a single JSON token. The JSON lexical grammar is specified in the // ECMAScript 5 standard, section 15.12.1.1. // Recognizes all of the single-character tokens directly, or calls a function // to scan a number, string or identifier literal. // The only allowed whitespace characters between tokens are tab, // carrige-return, newline and space. void ScanJson(); // A JSON number (production JSONNumber) is a subset of the valid JavaScript // decimal number literals. // It includes an optional minus sign, must have at least one // digit before and after a decimal point, may not have prefixed zeros (unless // the integer part is zero), and may include an exponent part (e.g., "e-10"). // Hexadecimal and octal numbers are not allowed. Token::Value ScanJsonNumber(); // A JSON string (production JSONString) is subset of valid JavaScript string // literals. The string must only be double-quoted (not single-quoted), and // the only allowed backslash-escapes are ", /, \, b, f, n, r, t and // four-digit hex escapes (uXXXX). Any other use of backslashes is invalid. Token::Value ScanJsonString(); // Used to recognizes one of the literals "true", "false", or "null". These // are the only valid JSON identifiers (productions JSONBooleanLiteral, // JSONNullLiteral). Token::Value ScanJsonIdentifier(const char* text, Token::Value token); void ScanDecimalDigits(); Token::Value ScanNumber(bool seen_period); Token::Value ScanIdentifier(); uc32 ScanHexEscape(uc32 c, int length); uc32 ScanOctalEscape(uc32 c, int length); void ScanEscape(); Token::Value ScanString(); // Scans a possible HTML comment -- begins with 'pos() - kCharacterLookaheadBufferSize; } // Decodes a unicode escape-sequence which is part of an identifier. // If the escape sequence cannot be decoded the result is kBadRune. uc32 ScanIdentifierUnicodeEscape(); TokenDesc current_; // desc for current token (as returned by Next()) TokenDesc next_; // desc for next token (one token look-ahead) bool has_line_terminator_before_next_; bool is_parsing_json_; // Different UTF16 buffers used to pull characters from. Based on input one of // these will be initialized as the actual data source. CharacterStreamUTF16Buffer char_stream_buffer_; ExternalStringUTF16Buffer two_byte_string_buffer_; ExternalStringUTF16Buffer ascii_string_buffer_; // Source. Will point to one of the buffers declared above. UTF16Buffer* source_; // Used to convert the source string into a character stream when a stream // is not passed to the scanner. SafeStringInputBuffer safe_string_input_buffer_; // Buffer to hold literal values (identifiers, strings, numbers) // using '\x00'-terminated UTF-8 encoding. Handles allocation internally. UTF8Buffer literal_buffer_; bool stack_overflow_; static StaticResource utf8_decoder_; // One Unicode character look-ahead; c0_ < 0 at the end of the input. uc32 c0_; }; } } // namespace v8::internal #endif // V8_SCANNER_H_