/* Copyright (c) 2008, Adobe Systems Incorporated 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 Adobe Systems Incorporated 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. */ package com.adobe.serialization.json { public class JSONTokenizer { /** * Flag indicating if the tokenizer should only recognize * standard JSON tokens. Setting to false allows * tokens such as NaN and allows numbers to be formatted as * hex, etc. */ private var strict:Boolean; /** The object that will get parsed from the JSON string */ private var obj:Object; /** The JSON string to be parsed */ private var jsonString:String; /** The current parsing location in the JSON string */ private var loc:int; /** The current character in the JSON string during parsing */ private var ch:String; /** * The regular expression used to make sure the string does not * contain invalid control characters. */ private var controlCharsRegExp:RegExp = /[\x00-\x1F]/; /** * Constructs a new JSONDecoder to parse a JSON string * into a native object. * * @param s The JSON string to be converted * into a native object */ public function JSONTokenizer( s:String, strict:Boolean ) { jsonString = s; this.strict = strict; loc = 0; // prime the pump by getting the first character nextChar(); } /** * Gets the next token in the input sting and advances * the character to the next character after the token */ public function getNextToken():JSONToken { var token:JSONToken = new JSONToken(); // skip any whitespace / comments since the last // token was read skipIgnored(); // examine the new character and see what we have... switch ( ch ) { case '{': token.type = JSONTokenType.LEFT_BRACE; token.value = '{'; nextChar(); break case '}': token.type = JSONTokenType.RIGHT_BRACE; token.value = '}'; nextChar(); break case '[': token.type = JSONTokenType.LEFT_BRACKET; token.value = '['; nextChar(); break case ']': token.type = JSONTokenType.RIGHT_BRACKET; token.value = ']'; nextChar(); break case ',': token.type = JSONTokenType.COMMA; token.value = ','; nextChar(); break case ':': token.type = JSONTokenType.COLON; token.value = ':'; nextChar(); break; case 't': // attempt to read true var possibleTrue:String = "t" + nextChar() + nextChar() + nextChar(); if ( possibleTrue == "true" ) { token.type = JSONTokenType.TRUE; token.value = true; nextChar(); } else { parseError( "Expecting 'true' but found " + possibleTrue ); } break; case 'f': // attempt to read false var possibleFalse:String = "f" + nextChar() + nextChar() + nextChar() + nextChar(); if ( possibleFalse == "false" ) { token.type = JSONTokenType.FALSE; token.value = false; nextChar(); } else { parseError( "Expecting 'false' but found " + possibleFalse ); } break; case 'n': // attempt to read null var possibleNull:String = "n" + nextChar() + nextChar() + nextChar(); if ( possibleNull == "null" ) { token.type = JSONTokenType.NULL; token.value = null; nextChar(); } else { parseError( "Expecting 'null' but found " + possibleNull ); } break; case 'N': // attempt to read NaN var possibleNaN:String = "N" + nextChar() + nextChar(); if ( possibleNaN == "NaN" ) { token.type = JSONTokenType.NAN; token.value = NaN; nextChar(); } else { parseError( "Expecting 'NaN' but found " + possibleNaN ); } break; case '"': // the start of a string token = readString(); break; default: // see if we can read a number if ( isDigit( ch ) || ch == '-' ) { token = readNumber(); } else if ( ch == '' ) { // check for reading past the end of the string return null; } else { // not sure what was in the input string - it's not // anything we expected parseError( "Unexpected " + ch + " encountered" ); } } return token; } /** * Attempts to read a string from the input string. Places * the character location at the first character after the * string. It is assumed that ch is " before this method is called. * * @return the JSONToken with the string value if a string could * be read. Throws an error otherwise. */ private function readString():JSONToken { // Rather than examine the string character-by-character, it's // faster to use indexOf to try to and find the closing quote character // and then replace escape sequences after the fact. // Start at the current input stream position var quoteIndex:int = loc; do { // Find the next quote in the input stream quoteIndex = jsonString.indexOf( "\"", quoteIndex ); if ( quoteIndex >= 0 ) { // We found the next double quote character in the string, but we need // to make sure it is not part of an escape sequence. // Keep looping backwards while the previous character is a backslash var backspaceCount:int = 0; var backspaceIndex:int = quoteIndex - 1; while ( jsonString.charAt( backspaceIndex ) == "\\" ) { backspaceCount++; backspaceIndex--; } // If we have an even number of backslashes, that means this is the ending quote if ( backspaceCount % 2 == 0 ) { break; } // At this point, the quote was determined to be part of an escape sequence // so we need to move past the quote index to look for the next one quoteIndex++; } else // There are no more quotes in the string and we haven't found the end yet { parseError( "Unterminated string literal" ); } } while ( true ); // Unescape the string // the token for the string we'll try to read var token:JSONToken = new JSONToken(); token.type = JSONTokenType.STRING; // Attach resulting string to the token to return it token.value = unescapeString( jsonString.substr( loc, quoteIndex - loc ) ); // Move past the closing quote in the input string. This updates the next // character in the input stream to be the character one after the closing quote loc = quoteIndex + 1; nextChar(); return token; } /** * Convert all JavaScript escape characters into normal characters * * @param input The input string to convert * @return Original string with escape characters replaced by real characters */ public function unescapeString( input:String ):String { // Issue #104 - If the string contains any unescaped control characters, this // is an error in strict mode if ( strict && controlCharsRegExp.test( input ) ) { parseError( "String contains unescaped control character (0x00-0x1F)" ); } var result:String = ""; var backslashIndex:int = 0; var nextSubstringStartPosition:int = 0; var len:int = input.length; do { // Find the next backslash in the input backslashIndex = input.indexOf( '\\', nextSubstringStartPosition ); if ( backslashIndex >= 0 ) { result += input.substr( nextSubstringStartPosition, backslashIndex - nextSubstringStartPosition ); // Move past the backslash and next character (all escape sequences are // two characters, except for \u, which will advance this further) nextSubstringStartPosition = backslashIndex + 2; // Check the next character so we know what to escape var afterBackslashIndex:int = backslashIndex + 1; var escapedChar:String = input.charAt( afterBackslashIndex ); switch ( escapedChar ) { // Try to list the most common expected cases first to improve performance case '"': result += '"'; break; // quotation mark case '\\': result += '\\'; break; // reverse solidus case 'n': result += '\n'; break; // newline case 'r': result += '\r'; break; // carriage return case 't': result += '\t'; break; // horizontal tab // Convert a unicode escape sequence to it's character value case 'u': // Save the characters as a string we'll convert to an int var hexValue:String = ""; // Make sure there are enough characters in the string leftover if ( nextSubstringStartPosition + 4 > len ) { parseError( "Unexpected end of input. Expecting 4 hex digits after \\u." ); } // Try to find 4 hex characters for ( var i:int = nextSubstringStartPosition; i < nextSubstringStartPosition + 4; i++ ) { // get the next character and determine // if it's a valid hex digit or not var possibleHexChar:String = input.charAt( i ); if ( !isHexDigit( possibleHexChar ) ) { parseError( "Excepted a hex digit, but found: " + possibleHexChar ); } // Valid hex digit, add it to the value hexValue += possibleHexChar; } // Convert hexValue to an integer, and use that // integer value to create a character to add // to our string. result += String.fromCharCode( parseInt( hexValue, 16 ) ); // Move past the 4 hex digits that we just read nextSubstringStartPosition += 4; break; case 'f': result += '\f'; break; // form feed case '/': result += '/'; break; // solidus case 'b': result += '\b'; break; // bell default: result += '\\' + escapedChar; // Couldn't unescape the sequence, so just pass it through } } else { // No more backslashes to replace, append the rest of the string result += input.substr( nextSubstringStartPosition ); break; } } while ( nextSubstringStartPosition < len ); return result; } /** * Attempts to read a number from the input string. Places * the character location at the first character after the * number. * * @return The JSONToken with the number value if a number could * be read. Throws an error otherwise. */ private function readNumber():JSONToken { // the string to accumulate the number characters // into that we'll convert to a number at the end var input:String = ""; // check for a negative number if ( ch == '-' ) { input += '-'; nextChar(); } // the number must start with a digit if ( !isDigit( ch ) ) { parseError( "Expecting a digit" ); } // 0 can only be the first digit if it // is followed by a decimal point if ( ch == '0' ) { input += ch; nextChar(); // make sure no other digits come after 0 if ( isDigit( ch ) ) { parseError( "A digit cannot immediately follow 0" ); } // unless we have 0x which starts a hex number, but this // doesn't match JSON spec so check for not strict mode. else if ( !strict && ch == 'x' ) { // include the x in the input input += ch; nextChar(); // need at least one hex digit after 0x to // be valid if ( isHexDigit( ch ) ) { input += ch; nextChar(); } else { parseError( "Number in hex format require at least one hex digit after \"0x\"" ); } // consume all of the hex values while ( isHexDigit( ch ) ) { input += ch; nextChar(); } } } else { // read numbers while we can while ( isDigit( ch ) ) { input += ch; nextChar(); } } // check for a decimal value if ( ch == '.' ) { input += '.'; nextChar(); // after the decimal there has to be a digit if ( !isDigit( ch ) ) { parseError( "Expecting a digit" ); } // read more numbers to get the decimal value while ( isDigit( ch ) ) { input += ch; nextChar(); } } // check for scientific notation if ( ch == 'e' || ch == 'E' ) { input += "e" nextChar(); // check for sign if ( ch == '+' || ch == '-' ) { input += ch; nextChar(); } // require at least one number for the exponent // in this case if ( !isDigit( ch ) ) { parseError( "Scientific notation number needs exponent value" ); } // read in the exponent while ( isDigit( ch ) ) { input += ch; nextChar(); } } // convert the string to a number value var num:Number = Number( input ); if ( isFinite( num ) && !isNaN( num ) ) { // the token for the number that we've read var token:JSONToken = new JSONToken(); token.type = JSONTokenType.NUMBER; token.value = num; return token; } else { parseError( "Number " + num + " is not valid!" ); } return null; } /** * Reads the next character in the input * string and advances the character location. * * @return The next character in the input string, or * null if we've read past the end. */ private function nextChar():String { return ch = jsonString.charAt( loc++ ); } /** * Advances the character location past any * sort of white space and comments */ private function skipIgnored():void { var originalLoc:int; // keep trying to skip whitespace and comments as long // as we keep advancing past the original location do { originalLoc = loc; skipWhite(); skipComments(); } while ( originalLoc != loc ); } /** * Skips comments in the input string, either * single-line or multi-line. Advances the character * to the first position after the end of the comment. */ private function skipComments():void { if ( ch == '/' ) { // Advance past the first / to find out what type of comment nextChar(); switch ( ch ) { case '/': // single-line comment, read through end of line // Loop over the characters until we find // a newline or until there's no more characters left do { nextChar(); } while ( ch != '\n' && ch != '' ) // move past the \n nextChar(); break; case '*': // multi-line comment, read until closing */ // move past the opening * nextChar(); // try to find a trailing */ while ( true ) { if ( ch == '*' ) { // check to see if we have a closing / nextChar(); if ( ch == '/') { // move past the end of the closing */ nextChar(); break; } } else { // move along, looking if the next character is a * nextChar(); } // when we're here we've read past the end of // the string without finding a closing */, so error if ( ch == '' ) { parseError( "Multi-line comment not closed" ); } } break; // Can't match a comment after a /, so it's a parsing error default: parseError( "Unexpected " + ch + " encountered (expecting '/' or '*' )" ); } } } /** * Skip any whitespace in the input string and advances * the character to the first character after any possible * whitespace. */ private function skipWhite():void { // As long as there are spaces in the input // stream, advance the current location pointer // past them while ( isWhiteSpace( ch ) ) { nextChar(); } } /** * Determines if a character is whitespace or not. * * @return True if the character passed in is a whitespace * character */ private function isWhiteSpace( ch:String ):Boolean { // Check for the whitespace defined in the spec if ( ch == ' ' || ch == '\t' || ch == '\n' || ch == '\r' ) { return true; } // If we're not in strict mode, we also accept non-breaking space else if ( !strict && ch.charCodeAt( 0 ) == 160 ) { return true; } return false; } /** * Determines if a character is a digit [0-9]. * * @return True if the character passed in is a digit */ private function isDigit( ch:String ):Boolean { return ( ch >= '0' && ch <= '9' ); } /** * Determines if a character is a hex digit [0-9A-Fa-f]. * * @return True if the character passed in is a hex digit */ private function isHexDigit( ch:String ):Boolean { return ( isDigit( ch ) || ( ch >= 'A' && ch <= 'F' ) || ( ch >= 'a' && ch <= 'f' ) ); } /** * Raises a parsing error with a specified message, tacking * on the error location and the original string. * * @param message The message indicating why the error occurred */ public function parseError( message:String ):void { throw new JSONParseError( message, loc, jsonString ); } } }