/* parser generated by jison 0.4.17-144 */ /* * Returns a Parser object of the following structure: * * Parser: { * yy: {} The so-called "shared state" or rather the *source* of it; * the real "shared state" `yy` passed around to * the rule actions, etc. is a derivative/copy of this one, * not a direct reference! * } * * Parser.prototype: { * yy: {}, * EOF: 1, * TERROR: 2, * * trace: function(errorMessage, ...), * * JisonParserError: function(msg, hash), * * quoteName: function(name), * Helper function which can be overridden by user code later on: put suitable * quotes around literal IDs in a description string. * * originalQuoteName: function(name), * The basic quoteName handler provided by JISON. * `cleanupAfterParse()` will clean up and reset `quoteName()` to reference this function * at the end of the `parse()`. * * describeSymbol: function(symbol), * Return a more-or-less human-readable description of the given symbol, when * available, or the symbol itself, serving as its own 'description' for lack * of something better to serve up. * * Return NULL when the symbol is unknown to the parser. * * symbols_: {associative list: name ==> number}, * terminals_: {associative list: number ==> name}, * nonterminals: {associative list: rule-name ==> {associative list: number ==> rule-alt}}, * terminal_descriptions_: (if there are any) {associative list: number ==> description}, * productions_: [...], * * performAction: function parser__performAction(yytext, yyleng, yylineno, yyloc, yy, yystate, $0, $$, _$, yystack, yysstack, ...), * where `...` denotes the (optional) additional arguments the user passed to * `parser.parse(str, ...)` * * table: [...], * State transition table * ---------------------- * * index levels are: * - `state` --> hash table * - `symbol` --> action (number or array) * * If the `action` is an array, these are the elements' meaning: * - index [0]: 1 = shift, 2 = reduce, 3 = accept * - index [1]: GOTO `state` * * If the `action` is a number, it is the GOTO `state` * * defaultActions: {...}, * * parseError: function(str, hash), * yyErrOk: function(), * yyClearIn: function(), * * constructParseErrorInfo: function(error_message, exception_object, expected_token_set, is_recoverable), * Helper function **which will be set up during the first invocation of the `parse()` method**. * Produces a new errorInfo 'hash object' which can be passed into `parseError()`. * See it's use in this parser kernel in many places; example usage: * * var infoObj = parser.constructParseErrorInfo('fail!', null, * parser.collect_expected_token_set(state), true); * var retVal = parser.parseError(infoObj.errStr, infoObj); * * originalParseError: function(str, hash), * The basic parseError handler provided by JISON. * `cleanupAfterParse()` will clean up and reset `parseError()` to reference this function * at the end of the `parse()`. * * options: { ... parser %options ... }, * * parse: function(input[, args...]), * Parse the given `input` and return the parsed value (or `true` when none was provided by * the root action, in which case the parser is acting as a *matcher*). * You MAY use the additional `args...` parameters as per `%parse-param` spec of this grammar: * these extra `args...` are passed verbatim to the grammar rules' action code. * * cleanupAfterParse: function(resultValue, invoke_post_methods), * Helper function **which will be set up during the first invocation of the `parse()` method**. * This helper API is invoked at the end of the `parse()` call, unless an exception was thrown * and `%options no-try-catch` has been defined for this grammar: in that case this helper MAY * be invoked by calling user code to ensure the `post_parse` callbacks are invoked and * the internal parser gets properly garbage collected under these particular circumstances. * * lexer: { * yy: {...}, A reference to the so-called "shared state" `yy` once * received via a call to the `.setInput(input, yy)` lexer API. * EOF: 1, * ERROR: 2, * JisonLexerError: function(msg, hash), * parseError: function(str, hash), * setInput: function(input, [yy]), * input: function(), * unput: function(str), * more: function(), * reject: function(), * less: function(n), * pastInput: function(n), * upcomingInput: function(n), * showPosition: function(), * test_match: function(regex_match_array, rule_index), * next: function(), * lex: function(), * begin: function(condition), * pushState: function(condition), * popState: function(), * topState: function(), * _currentRules: function(), * stateStackSize: function(), * * options: { ... lexer %options ... }, * * performAction: function(yy, yy_, $avoiding_name_collisions, YY_START), * rules: [...], * conditions: {associative list: name ==> set}, * } * } * * * token location info (@$, _$, etc.): { * first_line: n, * last_line: n, * first_column: n, * last_column: n, * range: [start_number, end_number] * (where the numbers are indexes into the input string, zero-based) * } * * --- * * The parseError function receives a 'hash' object with these members for lexer and * parser errors: * * { * text: (matched text) * token: (the produced terminal token, if any) * token_id: (the produced terminal token numeric ID, if any) * line: (yylineno) * loc: (yylloc) * } * * parser (grammar) errors will also provide these additional members: * * { * expected: (array describing the set of expected tokens; * may be UNDEFINED when we cannot easily produce such a set) * state: (integer (or array when the table includes grammar collisions); * represents the current internal state of the parser kernel. * can, for example, be used to pass to the `collect_expected_token_set()` * API to obtain the expected token set) * action: (integer; represents the current internal action which will be executed) * new_state: (integer; represents the next/planned internal state, once the current * action has executed) * recoverable: (boolean: TRUE when the parser MAY have an error recovery rule * available for this particular error) * state_stack: (array: the current parser LALR/LR internal state stack; this can be used, * for instance, for advanced error analysis and reporting) * value_stack: (array: the current parser LALR/LR internal `$$` value stack; this can be used, * for instance, for advanced error analysis and reporting) * location_stack: (array: the current parser LALR/LR internal location stack; this can be used, * for instance, for advanced error analysis and reporting) * yy: (object: the current parser internal "shared state" `yy` * as is also available in the rule actions; this can be used, * for instance, for advanced error analysis and reporting) * lexer: (reference to the current lexer instance used by the parser) * } * * while `this` will reference the current parser instance. * * When `parseError` is invoked by the lexer, `this` will still reference the related *parser* * instance, while these additional `hash` fields will also be provided: * * { * lexer: (reference to the current lexer instance which reported the error) * } * * When `parseError` is invoked by the parser due to a **JavaScript exception** being fired * from either the parser or lexer, `this` will still reference the related *parser* * instance, while these additional `hash` fields will also be provided: * * { * exception: (reference to the exception thrown) * } * * Please do note that in the latter situation, the `expected` field will be omitted as * type of failure is assumed not to be due to *parse errors* but rather due to user * action code in either parser or lexer failing unexpectedly. * * --- * * You can specify parser options by setting / modifying the `.yy` object of your Parser instance. * These options are available: * * ### options which are global for all parser instances * * Parser.pre_parse: function(yy [, optional parse() args]) * optional: you can specify a pre_parse() function in the chunk following * the grammar, i.e. after the last `%%`. * Parser.post_parse: function(yy, retval [, optional parse() args]) { return retval; } * optional: you can specify a post_parse() function in the chunk following * the grammar, i.e. after the last `%%`. When it does not return any value, * the parser will return the original `retval`. * * ### options which can be set up per parser instance * * yy: { * pre_parse: function(yy [, optional parse() args]) * optional: is invoked before the parse cycle starts (and before the first * invocation of `lex()`) but immediately after the invocation of * `parser.pre_parse()`). * post_parse: function(yy, retval [, optional parse() args]) { return retval; } * optional: is invoked when the parse terminates due to success ('accept') * or failure (even when exceptions are thrown). * `retval` contains the return value to be produced by `Parser.parse()`; * this function can override the return value by returning another. * When it does not return any value, the parser will return the original * `retval`. * This function is invoked immediately before `Parser.post_parse()`. * * parseError: function(str, hash) * optional: overrides the default `parseError` function. * quoteName: function(name), * optional: overrides the default `quoteName` function. * } * * parser.lexer.options: { * pre_lex: function() * optional: is invoked before the lexer is invoked to produce another token. * `this` refers to the Lexer object. * post_lex: function(token) { return token; } * optional: is invoked when the lexer has produced a token `token`; * this function can override the returned token value by returning another. * When it does not return any (truthy) value, the lexer will return * the original `token`. * `this` refers to the Lexer object. * * ranges: boolean * optional: `true` ==> token location info will include a .range[] member. * flex: boolean * optional: `true` ==> flex-like lexing behaviour where the rules are tested * exhaustively to find the longest match. * backtrack_lexer: boolean * optional: `true` ==> lexer regexes are tested in order and for invoked; * the lexer terminates the scan when a token is returned by the action code. * xregexp: boolean * optional: `true` ==> lexer rule regexes are "extended regex format" requiring the * `XRegExp` library. When this %option has not been specified at compile time, all lexer * rule regexes have been written as standard JavaScript RegExp expressions. * } */ var ccalcParse = (function () { // See also: // http://stackoverflow.com/questions/1382107/whats-a-good-way-to-extend-error-in-javascript/#35881508 // but we keep the prototype.constructor and prototype.name assignment lines too for compatibility // with userland code which might access the derived class in a 'classic' way. function JisonParserError(msg, hash) { Object.defineProperty(this, 'name', { enumerable: false, writable: false, value: 'JisonParserError' }); if (msg == null) msg = '???'; Object.defineProperty(this, 'message', { enumerable: false, writable: true, value: msg }); this.hash = hash; var stacktrace; if (hash && hash.exception instanceof Error) { var ex2 = hash.exception; this.message = ex2.message || msg; stacktrace = ex2.stack; } if (!stacktrace) { if (Error.hasOwnProperty('captureStackTrace')) { // V8 Error.captureStackTrace(this, this.constructor); } else { stacktrace = (new Error(msg)).stack; } } if (stacktrace) { Object.defineProperty(this, 'stack', { enumerable: false, writable: false, value: stacktrace }); } } if (typeof Object.setPrototypeOf === 'function') { Object.setPrototypeOf(JisonParserError.prototype, Error.prototype); } else { JisonParserError.prototype = Object.create(Error.prototype); } JisonParserError.prototype.constructor = JisonParserError; JisonParserError.prototype.name = 'JisonParserError'; // helper: reconstruct the productions[] table function bp(s) { var rv = []; var p = s.pop; var r = s.rule; for (var i = 0, l = p.length; i < l; i++) { rv.push([ p[i], r[i] ]); } return rv; } // helper: reconstruct the 'goto' table function bt(s) { var rv = []; var d = s.len; var y = s.symbol; var t = s.type; var a = s.state; var m = s.mode; var g = s.goto; for (var i = 0, l = d.length; i < l; i++) { var n = d[i]; var q = {}; for (var j = 0; j < n; j++) { var z = y.shift(); switch (t.shift()) { case 2: q[z] = [ m.shift(), g.shift() ]; break; case 0: q[z] = a.shift(); break; default: // type === 1: accept q[z] = [ 3 ]; } } rv.push(q); } return rv; } // helper: runlength encoding with increment step: code, length: step (default step = 0) // `this` references an array function s(c, l, a) { a = a || 0; for (var i = 0; i < l; i++) { this.push(c); c += a; } } // helper: duplicate sequence from *relative* offset and length. // `this` references an array function c(i, l) { i = this.length - i; for (l += i; i < l; i++) { this.push(this[i]); } } // helper: unpack an array using helpers and data, all passed in an array argument 'a'. function u(a) { var rv = []; for (var i = 0, l = a.length; i < l; i++) { var e = a[i]; // Is this entry a helper function? if (typeof e === 'function') { i++; e.apply(rv, a[i]); } else { rv.push(e); } } return rv; } var parser = { trace: function no_op_trace() { }, JisonParserError: JisonParserError, yy: {}, options: { type: "lalr", errorRecoveryTokenDiscardCount: 3 }, symbols_: { "$accept": 0, "$end": 1, "ADD": 12, "ASSIGN": 7, "DIV": 14, "EOF": 1, "IDENTIFIER": 6, "LBRACE": 9, "MULT": 13, "RBRACE": 10, "SEMICOLON": 5, "SUB": 11, "VALUE": 15, "error": 2, "expression": 8, "program": 3, "statement": 4 }, terminals_: { 1: "EOF", 2: "error", 5: "SEMICOLON", 6: "IDENTIFIER", 7: "ASSIGN", 9: "LBRACE", 10: "RBRACE", 11: "SUB", 12: "ADD", 13: "MULT", 14: "DIV", 15: "VALUE" }, TERROR: 2, EOF: 1, // internals: defined here so the object *structure* doesn't get modified by parse() et al, // thus helping JIT compilers like Chrome V8. originalQuoteName: null, originalParseError: null, cleanupAfterParse: null, constructParseErrorInfo: null, __reentrant_call_depth: 0, // INTERNAL USE ONLY // APIs which will be set up depending on user action code analysis: //yyErrOk: 0, //yyClearIn: 0, // Helper APIs // ----------- // Helper function which can be overridden by user code later on: put suitable quotes around // literal IDs in a description string. quoteName: function parser_quoteName(id_str) { return '"' + id_str + '"'; }, // Return a more-or-less human-readable description of the given symbol, when available, // or the symbol itself, serving as its own 'description' for lack of something better to serve up. // // Return NULL when the symbol is unknown to the parser. describeSymbol: function parser_describeSymbol(symbol) { if (symbol !== this.EOF && this.terminal_descriptions_ && this.terminal_descriptions_[symbol]) { return this.terminal_descriptions_[symbol]; } else if (symbol === this.EOF) { return 'end of input'; } else if (this.terminals_[symbol]) { return this.quoteName(this.terminals_[symbol]); } // Otherwise... this might refer to a RULE token i.e. a non-terminal: see if we can dig that one up. // // An example of this may be where a rule's action code contains a call like this: // // parser.describeSymbol(#$) // // to obtain a human-readable description or name of the current grammar rule. This comes handy in // error handling action code blocks, for example. var s = this.symbols_; for (var key in s) { if (s[key] === symbol) { return key; } } return null; }, // Produce a (more or less) human-readable list of expected tokens at the point of failure. // // The produced list may contain token or token set descriptions instead of the tokens // themselves to help turning this output into something that easier to read by humans // unless `do_not_describe` parameter is set, in which case a list of the raw, *numeric*, // expected terminals and nonterminals is produced. // // The returned list (array) will not contain any duplicate entries. collect_expected_token_set: function parser_collect_expected_token_set(state, do_not_describe) { var TERROR = this.TERROR; var tokenset = []; var check = {}; // Has this (error?) state been outfitted with a custom expectations description text for human consumption? // If so, use that one instead of the less palatable token set. if (!do_not_describe && this.state_descriptions_ && this.state_descriptions_[state]) { return [ this.state_descriptions_[state] ]; } for (var p in this.table[state]) { p = +p; if (p !== TERROR) { var d = do_not_describe ? p : this.describeSymbol(p); if (d && !check[d]) { tokenset.push(d); check[d] = true; // Mark this token description as already mentioned to prevent outputting duplicate entries. } } } return tokenset; }, productions_: bp({ pop: u([ s, [3, 3], 4, 4, s, [8, 8] ]), rule: u([ 3, 2, 4, 3, 1, 3, 2, s, [3, 4], 1, 1 ]) }), performAction: function parser__PerformAction(yytext, yyloc, yy, yystate /* action[1] */, $0, $$ /* vstack */, _$ /* lstack */) { /* this == yyval */ switch (yystate) { case 3: /*! Production:: program : statement error SEMICOLON program */ yy.parser.yyErrOk(); break; case 4: /*! Production:: statement : IDENTIFIER ASSIGN expression */ VarSetValue(var, $$[$0]); break; case 6: /*! Production:: expression : LBRACE expression RBRACE */ this.$ = $$[$0 - 1]; break; case 7: /*! Production:: expression : SUB expression */ this.$ = - $$[$0]; break; case 8: /*! Production:: expression : expression ADD expression */ this.$ = ReduceAdd($$[$0 - 2], $$[$0], &_$[$0]); if ( debug ) printf("reduce %lf + %lf => %lf\n", $$[$0 - 2], $$[$0], this.$); break; case 9: /*! Production:: expression : expression SUB expression */ this.$ = ReduceSub($$[$0 - 2], $$[$0], &_$[$0]); if ( debug ) printf("reduce %lf - %lf => %lf\n", $$[$0 - 2], $$[$0], this.$); break; case 10: /*! Production:: expression : expression MULT expression */ this.$ = ReduceMult($$[$0 - 2], $$[$0], &_$[$0]); if ( debug ) printf("reduce %lf * %lf => %lf\n", $$[$0 - 2], $$[$0], this.$); break; case 11: /*! Production:: expression : expression DIV expression */ this.$ = ReduceDiv($$[$0 - 2], $$[$0], &_$[$0]); if ( debug ) printf("reduce %lf / %lf => %lf\n", $$[$0 - 2], $$[$0], this.$); break; case 12: /*! Production:: expression : VALUE */ this.$ = $$[$0]; break; case 13: /*! Production:: expression : IDENTIFIER */ this.$ = VarGetValue($$[$0], &_$[$0]); if ( debug ) printf("identifier %s => %lf\n", $$[$0], this.$); break; } }, table: bt({ len: u([ 7, 1, 2, 7, 6, 5, 5, 7, 8, 1, s, [5, 6], 7, 7, 1, 7, 6, s, [7, 5], 1 ]), symbol: u([ 3, 4, 6, 8, 9, 11, 15, 1, 2, 5, 2, 5, 7, s, [11, 4, 1], 2, 5, c, [6, 4], c, [21, 5], c, [5, 5], 2, 5, s, [10, 5, 1], 1, c, [41, 7], 5, c, [26, 10], c, [5, 15], c, [39, 5], c, [46, 7], c, [53, 15], c, [84, 6], c, [28, 14], c, [7, 21], 1 ]), type: u([ 0, 0, 2, 0, s, [2, 3], 1, s, [2, 16], c, [21, 4], c, [5, 6], c, [17, 8], c, [41, 6], c, [26, 12], c, [5, 15], s, [2, 19], c, [53, 9], s, [2, 40] ]), state: u([ 1, 2, 4, 15, 17, 18, 2, 4, s, [20, 5, 1], 26, 2, 4 ]), mode: u([ s, [1, 6], 2, 2, c, [3, 3], s, [2, 4], s, [1, 12], s, [2, 8], s, [1, 30], s, [2, 15], c, [78, 7], c, [25, 8], c, [7, 14], s, [2, 17] ]), goto: u([ 3, 5, 6, 7, 9, 8, 13, 13, 10, s, [13, 4], 5, 5, 12, 11, 13, 14, 16, c, [19, 3], c, [4, 4], s, [12, 7], 2, c, [35, 4], 19, c, [21, 8], c, [4, 12], 25, c, [46, 4], s, [13, 7], s, [7, 7], 1, c, [45, 4], 4, 4, c, [25, 4], s, [8, 5], 13, 14, s, [9, 5], 13, 14, s, [10, 7], s, [11, 7], s, [6, 7], 3 ]) }), defaultActions: { 18: 1, 26: 3 }, parseError: function parseError(str, hash) { if (hash.recoverable) { this.trace(str); hash.destroy(); // destroy... well, *almost*! // assert('recoverable' in hash); } else { throw new this.JisonParserError(str, hash); } }, parse: function parse(input) { var self = this, stack = new Array(128), // token stack: stores token which leads to state at the same index (column storage) sstack = new Array(128), // state stack: stores states vstack = new Array(128), // semantic value stack lstack = new Array(128), // location stack table = this.table, sp = 0; // 'stack pointer': index into the stacks var recovering = 0; // (only used when the grammar contains error recovery rules) var TERROR = this.TERROR, EOF = this.EOF, ERROR_RECOVERY_TOKEN_DISCARD_COUNT = (this.options.errorRecoveryTokenDiscardCount | 0) || 3; var NO_ACTION = [0, table.length /* ensures that anyone using this new state will fail dramatically! */]; //this.reductionCount = this.shiftCount = 0; var lexer; if (this.__lexer__) { lexer = this.__lexer__; } else { lexer = this.__lexer__ = Object.create(this.lexer); } var sharedState = { yy: { parseError: null, quoteName: null, lexer: null, parser: null, pre_parse: null, post_parse: null } }; // copy state for (var k in this.yy) { if (Object.prototype.hasOwnProperty.call(this.yy, k)) { sharedState.yy[k] = this.yy[k]; } } sharedState.yy.lexer = lexer; sharedState.yy.parser = this; if (this.yyErrOk === 1) { this.yyErrOk = function yyErrOk() { recovering = 0; }; } lexer.setInput(input, sharedState.yy); if (typeof lexer.yylloc === 'undefined') { lexer.yylloc = {}; } var yyloc = lexer.yylloc; lstack[sp] = yyloc; vstack[sp] = null; sstack[sp] = 0; stack[sp] = 0; ++sp; if (typeof lexer.yytext === 'undefined') { lexer.yytext = ''; } var yytext = lexer.yytext; if (typeof lexer.yylineno === 'undefined') { lexer.yylineno = 0; } var ranges = lexer.options && lexer.options.ranges; // Does the shared state override the default `parseError` that already comes with this instance? if (typeof sharedState.yy.parseError === 'function') { this.parseError = sharedState.yy.parseError; } else { this.parseError = this.originalParseError; } // Does the shared state override the default `quoteName` that already comes with this instance? if (typeof sharedState.yy.quoteName === 'function') { this.quoteName = sharedState.yy.quoteName; } else { this.quoteName = this.originalQuoteName; } // set up the cleanup function; make it an API so that external code can re-use this one in case of // calamities or when the `%options no-try-catch` option has been specified for the grammar, in which // case this parse() API method doesn't come with a `finally { ... }` block any more! // // NOTE: as this API uses parse() as a closure, it MUST be set again on every parse() invocation, // or else your `sharedState`, etc. references will be *wrong*! // // The function resets itself to the previous set up one to support reentrant parsers. this.cleanupAfterParse = function parser_cleanupAfterParse(resultValue, invoke_post_methods) { var rv; if (invoke_post_methods) { if (sharedState.yy.post_parse) { rv = sharedState.yy.post_parse.call(this, sharedState.yy, resultValue); if (typeof rv !== 'undefined') resultValue = rv; } if (this.post_parse) { rv = this.post_parse.call(this, sharedState.yy, resultValue); if (typeof rv !== 'undefined') resultValue = rv; } } if (this.__reentrant_call_depth > 1) return resultValue; // do not (yet) kill the sharedState when this is a reentrant run. // prevent lingering circular references from causing memory leaks: if (sharedState.yy) { sharedState.yy.parseError = undefined; sharedState.yy.quoteName = undefined; sharedState.yy.lexer = undefined; sharedState.yy.parser = undefined; if (lexer.yy === sharedState.yy) { lexer.yy = undefined; } } sharedState.yy = undefined; this.parseError = this.originalParseError; this.quoteName = this.originalQuoteName; // nuke the vstack[] array at least as that one will still reference obsoleted user values. // To be safe, we nuke the other internal stack columns as well... stack.length = 0; // fastest way to nuke an array without overly bothering the GC sstack.length = 0; lstack.length = 0; vstack.length = 0; stack_pointer = 0; return resultValue; }; // NOTE: as this API uses parse() as a closure, it MUST be set again on every parse() invocation, // or else your `lexer`, `sharedState`, etc. references will be *wrong*! this.constructParseErrorInfo = function parser_constructParseErrorInfo(msg, ex, expected, recoverable) { return { errStr: msg, exception: ex, text: lexer.match, value: lexer.yytext, token: this.describeSymbol(symbol) || symbol, token_id: symbol, line: lexer.yylineno, loc: lexer.yylloc, expected: expected, recoverable: recoverable, state: state, action: action, new_state: newState, symbol_stack: stack, state_stack: sstack, value_stack: vstack, location_stack: lstack, stack_pointer: sp, yy: sharedState.yy, lexer: lexer, // and make sure the error info doesn't stay due to potential ref cycle via userland code manipulations (memory leak opportunity!): destroy: function destructParseErrorInfo() { // remove cyclic references added to error info: // info.yy = null; // info.lexer = null; // info.value = null; // info.value_stack = null; // ... var rec = !!this.recoverable; for (var key in this) { if (this.hasOwnProperty(key) && typeof key !== 'function') { this[key] = undefined; } } this.recoverable = rec; } }; }; function lex() { var token = lexer.lex(); // if token isn't its numeric value, convert if (typeof token !== 'number') { token = self.symbols_[token] || token; } return token || EOF; } var symbol = 0; var preErrorSymbol = 0; var state, action, r, t; var yyval = {}; var p, len, this_production; var lstack_begin, lstack_end; var newState; var retval = false; // Return the rule stack depth where the nearest error rule can be found. // Return -1 when no error recovery rule was found. function locateNearestErrorRecoveryRule(state) { var stack_probe = sp - 1; var depth = 0; // try to recover from error for (;;) { // check for error recovery rule in this state var t = table[state][TERROR] || NO_ACTION; if (t[0]) { return depth; } if (state === 0 /* $accept rule */ || stack_probe < 1) { return -1; // No suitable error recovery rule available. } --stack_probe; // popStack(1): [symbol, action] state = sstack[stack_probe]; ++depth; } } try { this.__reentrant_call_depth++; if (this.pre_parse) { this.pre_parse.call(this, sharedState.yy); } if (sharedState.yy.pre_parse) { sharedState.yy.pre_parse.call(this, sharedState.yy); } newState = sstack[sp - 1]; for (;;) { // retrieve state number from top of stack state = newState; // sstack[sp - 1]; // use default actions if available if (this.defaultActions[state]) { action = 2; newState = this.defaultActions[state]; } else { // The single `==` condition below covers both these `===` comparisons in a single // operation: // // if (symbol === null || typeof symbol === 'undefined') ... if (!symbol) { symbol = lex(); } // read action for current state and first input t = (table[state] && table[state][symbol]) || NO_ACTION; newState = t[1]; action = t[0]; // handle parse error if (!action) { // first see if there's any chance at hitting an error recovery rule: var error_rule_depth = locateNearestErrorRecoveryRule(state); var errStr = null; var errSymbolDescr = (this.describeSymbol(symbol) || symbol); var expected = this.collect_expected_token_set(state); if (!recovering) { // Report error if (lexer.showPosition) { errStr = 'Parse error on line ' + (lexer.yylineno + 1) + ':\n' + lexer.showPosition(79 - 10, 10) + '\n'; } else { errStr = 'Parse error on line ' + (lexer.yylineno + 1) + ': '; } if (expected.length) { errStr += 'Expecting ' + expected.join(', ') + ', got unexpected ' + errSymbolDescr; } else { errStr += 'Unexpected ' + errSymbolDescr; } p = this.constructParseErrorInfo(errStr, null, expected, (error_rule_depth >= 0)); r = this.parseError(p.errStr, p); if (!p.recoverable) { retval = r; break; } else { // TODO: allow parseError callback to edit symbol and or state tat the start of the error recovery process... } } // just recovered from another error if (recovering === ERROR_RECOVERY_TOKEN_DISCARD_COUNT && error_rule_depth >= 0) { // only barf a fatal hairball when we're out of look-ahead symbols and none hit a match; // this DOES discard look-ahead while recovering from an error when said look-ahead doesn't // suit the error recovery rules... The error HAS been reported already so we're fine with // throwing away a few items if that is what it takes to match the nearest recovery rule! if (symbol === EOF || preErrorSymbol === EOF) { p = this.constructParseErrorInfo((errStr || 'Parsing halted while starting to recover from another error.'), null, expected, false); retval = this.parseError(p.errStr, p); break; } // discard current lookahead and grab another yytext = lexer.yytext; yyloc = lexer.yylloc; symbol = lex(); } // try to recover from error if (error_rule_depth < 0) { p = this.constructParseErrorInfo((errStr || 'Parsing halted. No suitable error recovery rule available.'), null, expected, false); retval = this.parseError(p.errStr, p); break; } sp -= error_rule_depth; preErrorSymbol = (symbol === TERROR ? 0 : symbol); // save the lookahead token symbol = TERROR; // insert generic error symbol as new lookahead // allow N (default: 3) real symbols to be shifted before reporting a new error recovering = ERROR_RECOVERY_TOKEN_DISCARD_COUNT; newState = sstack[sp - 1]; continue; } } switch (action) { // catch misc. parse failures: default: // this shouldn't happen, unless resolve defaults are off if (action instanceof Array) { p = this.constructParseErrorInfo(('Parse Error: multiple actions possible at state: ' + state + ', token: ' + symbol), null, null, false); retval = this.parseError(p.errStr, p); break; } // Another case of better safe than sorry: in case state transitions come out of another error recovery process // or a buggy LUT (LookUp Table): p = this.constructParseErrorInfo('Parsing halted. No viable error recovery approach available due to internal system failure.', null, null, false); retval = this.parseError(p.errStr, p); break; // shift: case 1: //this.shiftCount++; stack[sp] = symbol; vstack[sp] = lexer.yytext; lstack[sp] = lexer.yylloc; sstack[sp] = newState; // push state ++sp; symbol = 0; if (!preErrorSymbol) { // normal execution / no error // Pick up the lexer details for the current symbol as that one is not 'look-ahead' any more: yytext = lexer.yytext; yyloc = lexer.yylloc; if (recovering > 0) { recovering--; } } else { // error just occurred, resume old lookahead f/ before error, *unless* that drops us straight back into error mode: symbol = preErrorSymbol; preErrorSymbol = 0; // read action for current state and first input t = (table[newState] && table[newState][symbol]) || NO_ACTION; if (!t[0]) { // forget about that symbol and move forward: this wasn't an 'forgot to insert' error type where // (simple) stuff might have been missing before the token which caused the error we're // recovering from now... symbol = 0; } } continue; // reduce: case 2: //this.reductionCount++; this_production = this.productions_[newState - 1]; // `this.productions_[]` is zero-based indexed while states start from 1 upwards... len = this_production[1]; lstack_end = sp; lstack_begin = lstack_end - (len || 1); lstack_end--; // Make sure subsequent `$$ = $1` default action doesn't fail // for rules where len==0 as then there's no $1 (you're reducing an epsilon rule then!) // // Also do this to prevent nasty action block codes to *read* `$0` or `$$` // and *not* get `undefined` as a result for their efforts! vstack[sp] = undefined; // perform semantic action yyval.$ = vstack[sp - len]; // default to $$ = $1; result must produce `undefined` when len == 0, as then there's no $1 // default location, uses first token for firsts, last for lasts yyval._$ = { first_line: lstack[lstack_begin].first_line, last_line: lstack[lstack_end].last_line, first_column: lstack[lstack_begin].first_column, last_column: lstack[lstack_end].last_column }; if (ranges) { yyval._$.range = [lstack[lstack_begin].range[0], lstack[lstack_end].range[1]]; } r = this.performAction.call(yyval, yytext, yyloc, sharedState.yy, newState, sp - 1, vstack, lstack); if (typeof r !== 'undefined') { retval = r; break; } // pop off stack sp -= len; // don't overwrite the `symbol` variable: use a local var to speed things up: var ntsymbol = this_production[0]; // push nonterminal (reduce) stack[sp] = ntsymbol; vstack[sp] = yyval.$; lstack[sp] = yyval._$; // goto new state = table[STATE][NONTERMINAL] newState = table[sstack[sp - 1]][ntsymbol]; sstack[sp] = newState; ++sp; continue; // accept: case 3: retval = true; // Return the `$accept` rule's `$$` result, if available. // // Also note that JISON always adds this top-most `$accept` rule (with implicit, // default, action): // // $accept: $end // %{ $$ = $1; @$ = @1; %} // // which, combined with the parse kernel's `$accept` state behaviour coded below, // will produce the `$$` value output of the rule as the parse result, // IFF that result is *not* `undefined`. (See also the parser kernel code.) // // In code: // // %{ // @$ = @1; // if location tracking support is included // if (typeof $1 !== 'undefined') // return $1; // else // return true; // the default parse result if the rule actions don't produce anything // %} if (typeof yyval.$ !== 'undefined') { retval = yyval.$; } break; } // break out of loop: we accept or fail with error break; } } catch (ex) { // report exceptions through the parseError callback too: p = this.constructParseErrorInfo('Parsing aborted due to exception.', ex, null, false); retval = this.parseError(p.errStr, p); } finally { retval = this.cleanupAfterParse(retval, true); this.__reentrant_call_depth--; } return retval; }, yyErrOk: 1 }; parser.originalParseError = parser.parseError; parser.originalQuoteName = parser.quoteName; /*! @file lex.l * @brief Lexical Analysis ********************************************************************* * a simple calculator with variables * * sample-files for a artikel in developerworks.ibm.com * Author: Christian Hagen, chagen@de.ibm.com * * @par parse.l & parse.c * grammar for the parser-generator bison * ********************************************************************* */ // #define YYERROR_VERBOSE 1 // #define YYDEBUG 1 // int yydebug=0; /*-------------------------------------------------------------------- * * global variables * *------------------------------------------------------------------*/ static Variable *var; /*------------------------------------------------------------------------------ * * functions * *----------------------------------------------------------------------------*/ //extern //void yyerror(char *s) { // // simple error-message // // printf("Error '%s'\n", s); // // a more sophisticated error-function // PrintError(s); //} /*-------------------------------------------------------------------- * parse.y *------------------------------------------------------------------*/ /* generated by jison-lex 0.3.4-144 */ var lexer = (function () { // See also: // http://stackoverflow.com/questions/1382107/whats-a-good-way-to-extend-error-in-javascript/#35881508 // but we keep the prototype.constructor and prototype.name assignment lines too for compatibility // with userland code which might access the derived class in a 'classic' way. function JisonLexerError(msg, hash) { Object.defineProperty(this, 'name', { enumerable: false, writable: false, value: 'JisonLexerError' }); if (msg == null) msg = '???'; Object.defineProperty(this, 'message', { enumerable: false, writable: true, value: msg }); this.hash = hash; var stacktrace; if (hash && hash.exception instanceof Error) { var ex2 = hash.exception; this.message = ex2.message || msg; stacktrace = ex2.stack; } if (!stacktrace) { if (Error.hasOwnProperty('captureStackTrace')) { // V8 Error.captureStackTrace(this, this.constructor); } else { stacktrace = (new Error(msg)).stack; } } if (stacktrace) { Object.defineProperty(this, 'stack', { enumerable: false, writable: false, value: stacktrace }); } } if (typeof Object.setPrototypeOf === 'function') { Object.setPrototypeOf(JisonLexerError.prototype, Error.prototype); } else { JisonLexerError.prototype = Object.create(Error.prototype); } JisonLexerError.prototype.constructor = JisonLexerError; JisonLexerError.prototype.name = 'JisonLexerError'; var lexer = { EOF: 1, ERROR: 2, // JisonLexerError: JisonLexerError, // <-- injected by the code generator // options: {}, // <-- injected by the code generator // yy: ..., // <-- injected by setInput() __currentRuleSet__: null, // <-- internal rule set cache for the current lexer state parseError: function lexer_parseError(str, hash) { if (this.yy.parser && typeof this.yy.parser.parseError === 'function') { return this.yy.parser.parseError(str, hash) || this.ERROR; } else { throw new this.JisonLexerError(str); } }, // clear the lexer token context; intended for internal use only clear: function lexer_clear() { this.yytext = ''; this.yyleng = 0; this.match = ''; this.matches = false; this._more = false; this._backtrack = false; }, // resets the lexer, sets new input setInput: function lexer_setInput(input, yy) { this.yy = yy || this.yy || {}; this._input = input; this.clear(); this._signaled_error_token = this.done = false; this.yylineno = 0; this.matched = ''; this.conditionStack = ['INITIAL']; this.__currentRuleSet__ = null; this.yylloc = { first_line: 1, first_column: 0, last_line: 1, last_column: 0 }; if (this.options.ranges) { this.yylloc.range = [0, 0]; } this.offset = 0; return this; }, // consumes and returns one char from the input input: function lexer_input() { if (!this._input) { this.done = true; return null; } var ch = this._input[0]; this.yytext += ch; this.yyleng++; this.offset++; this.match += ch; this.matched += ch; // Count the linenumber up when we hit the LF (or a stand-alone CR). // On CRLF, the linenumber is incremented when you fetch the CR or the CRLF combo // and we advance immediately past the LF as well, returning both together as if // it was all a single 'character' only. var slice_len = 1; var lines = false; if (ch === '\n') { lines = true; } else if (ch === '\r') { lines = true; var ch2 = this._input[1]; if (ch2 === '\n') { slice_len++; ch += ch2; this.yytext += ch2; this.yyleng++; this.offset++; this.match += ch2; this.matched += ch2; if (this.options.ranges) { this.yylloc.range[1]++; } } } if (lines) { this.yylineno++; this.yylloc.last_line++; } else { this.yylloc.last_column++; } if (this.options.ranges) { this.yylloc.range[1]++; } this._input = this._input.slice(slice_len); return ch; }, // unshifts one char (or a string) into the input unput: function lexer_unput(ch) { var len = ch.length; var lines = ch.split(/(?:\r\n?|\n)/g); this._input = ch + this._input; this.yytext = this.yytext.substr(0, this.yytext.length - len); //this.yyleng -= len; this.offset -= len; var oldLines = this.match.split(/(?:\r\n?|\n)/g); this.match = this.match.substr(0, this.match.length - len); this.matched = this.matched.substr(0, this.matched.length - len); if (lines.length - 1) { this.yylineno -= lines.length - 1; } this.yylloc.last_line = this.yylineno + 1; this.yylloc.last_column = (lines ? (lines.length === oldLines.length ? this.yylloc.first_column : 0) + oldLines[oldLines.length - lines.length].length - lines[0].length : this.yylloc.first_column - len); if (this.options.ranges) { this.yylloc.range[1] = this.yylloc.range[0] + this.yyleng - len; } this.yyleng = this.yytext.length; this.done = false; return this; }, // When called from action, caches matched text and appends it on next action more: function lexer_more() { this._more = true; return this; }, // When called from action, signals the lexer that this rule fails to match the input, so the next matching rule (regex) should be tested instead. reject: function lexer_reject() { if (this.options.backtrack_lexer) { this._backtrack = true; } else { // when the parseError() call returns, we MUST ensure that the error is registered. // We accomplish this by signaling an 'error' token to be produced for the current // .lex() run. this._signaled_error_token = (this.parseError('Lexical error on line ' + (this.yylineno + 1) + '. You can only invoke reject() in the lexer when the lexer is of the backtracking persuasion (options.backtrack_lexer = true).\n' + this.showPosition(), { text: this.match, token: null, line: this.yylineno, loc: this.yylloc, lexer: this }) || this.ERROR); } return this; }, // retain first n characters of the match less: function lexer_less(n) { return this.unput(this.match.slice(n)); }, // return (part of the) already matched input, i.e. for error messages. // Limit the returned string length to `maxSize` (default: 20). // Limit the returned string to the `maxLines` number of lines of input (default: 1). // Negative limit values equal *unlimited*. pastInput: function lexer_pastInput(maxSize, maxLines) { var past = this.matched.substring(0, this.matched.length - this.match.length); if (maxSize < 0) maxSize = past.length; else if (!maxSize) maxSize = 20; if (maxLines < 0) maxLines = past.length; // can't ever have more input lines than this! else if (!maxLines) maxLines = 1; // `substr` anticipation: treat \r\n as a single character and take a little // more than necessary so that we can still properly check against maxSize // after we've transformed and limited the newLines in here: past = past.substr(-maxSize * 2 - 2); // now that we have a significantly reduced string to process, transform the newlines // and chop them, then limit them: var a = past.replace(/\r\n|\r/g, '\n').split('\n'); a = a.slice(-maxLines); past = a.join('\n'); // When, after limiting to maxLines, we still have to much to return, // do add an ellipsis prefix... if (past.length > maxSize) { past = '...' + past.substr(-maxSize); } return past; }, // return (part of the) upcoming input, i.e. for error messages. // Limit the returned string length to `maxSize` (default: 20). // Limit the returned string to the `maxLines` number of lines of input (default: 1). // Negative limit values equal *unlimited*. upcomingInput: function lexer_upcomingInput(maxSize, maxLines) { var next = this.match; if (maxSize < 0) maxSize = next.length + this._input.length; else if (!maxSize) maxSize = 20; if (maxLines < 0) maxLines = maxSize; // can't ever have more input lines than this! else if (!maxLines) maxLines = 1; // `substring` anticipation: treat \r\n as a single character and take a little // more than necessary so that we can still properly check against maxSize // after we've transformed and limited the newLines in here: if (next.length < maxSize * 2 + 2) { next += this._input.substring(0, maxSize * 2 + 2); // substring is faster on Chrome/V8 } // now that we have a significantly reduced string to process, transform the newlines // and chop them, then limit them: var a = next.replace(/\r\n|\r/g, '\n').split('\n'); a = a.slice(0, maxLines); next = a.join('\n'); // When, after limiting to maxLines, we still have to much to return, // do add an ellipsis postfix... if (next.length > maxSize) { next = next.substring(0, maxSize) + '...'; } return next; }, // return a string which displays the character position where the lexing error occurred, i.e. for error messages showPosition: function lexer_showPosition(maxPrefix, maxPostfix) { var pre = this.pastInput(maxPrefix).replace(/\s/g, ' '); var c = new Array(pre.length + 1).join('-'); return pre + this.upcomingInput(maxPostfix).replace(/\s/g, ' ') + '\n' + c + '^'; }, // helper function, used to produce a human readable description as a string, given // the input `yylloc` location object. // Set `display_range_too` to TRUE to include the string character inex position(s) // in the description if the `yylloc.range` is available. describeYYLLOC: function lexer_describe_yylloc(yylloc, display_range_too) { var l1 = yylloc.first_line; var l2 = yylloc.last_line; var o1 = yylloc.first_column; var o2 = yylloc.last_column - 1; var dl = l2 - l1; var d_o = (dl === 0 ? o2 - o1 : 1000); var rv; if (dl === 0) { rv = 'line ' + l1 + ', '; if (d_o === 0) { rv += 'column ' + o1; } else { rv += 'columns ' + o1 + ' .. ' + o2; } } else { rv = 'lines ' + l1 + '(column ' + o1 + ') .. ' + l2 + '(column ' + o2 + ')'; } if (yylloc.range && display_range_too) { var r1 = yylloc.range[0]; var r2 = yylloc.range[1] - 1; if (r2 === r1) { rv += ' {String Offset: ' + r1 + '}'; } else { rv += ' {String Offset range: ' + r1 + ' .. ' + r2 + '}'; } } return rv; // return JSON.stringify(yylloc); }, // test the lexed token: return FALSE when not a match, otherwise return token. // // `match` is supposed to be an array coming out of a regex match, i.e. `match[0]` // contains the actually matched text string. // // Also move the input cursor forward and update the match collectors: // - yytext // - yyleng // - match // - matches // - yylloc // - offset test_match: function lexer_test_match(match, indexed_rule) { var token, lines, backup, match_str; if (this.options.backtrack_lexer) { // save context backup = { yylineno: this.yylineno, yylloc: { first_line: this.yylloc.first_line, last_line: this.last_line, first_column: this.yylloc.first_column, last_column: this.yylloc.last_column }, yytext: this.yytext, match: this.match, matches: this.matches, matched: this.matched, yyleng: this.yyleng, offset: this.offset, _more: this._more, _input: this._input, yy: this.yy, conditionStack: this.conditionStack.slice(0), done: this.done }; if (this.options.ranges) { backup.yylloc.range = this.yylloc.range.slice(0); } } match_str = match[0]; lines = match_str.match(/(?:\r\n?|\n).*/g); if (lines) { this.yylineno += lines.length; } this.yylloc = { first_line: this.yylloc.last_line, last_line: this.yylineno + 1, first_column: this.yylloc.last_column, last_column: lines ? lines[lines.length - 1].length - lines[lines.length - 1].match(/\r?\n?/)[0].length : this.yylloc.last_column + match_str.length }; this.yytext += match_str; this.match += match_str; this.matches = match; this.yyleng = this.yytext.length; if (this.options.ranges) { this.yylloc.range = [this.offset, this.offset + this.yyleng]; } // previous lex rules MAY have invoked the `more()` API rather than producing a token: // those rules will already have moved this `offset` forward matching their match lengths, // hence we must only add our own match length now: this.offset += match_str.length; this._more = false; this._backtrack = false; this._input = this._input.slice(match_str.length); this.matched += match_str; token = this.performAction.call(this, this.yy, this, indexed_rule, this.conditionStack[this.conditionStack.length - 1]); if (this.done && this._input) { this.done = false; } if (token) { return token; } else if (this._backtrack) { // recover context for (var k in backup) { this[k] = backup[k]; } this.__currentRuleSet__ = null; return false; // rule action called reject() implying the next rule should be tested instead. } else if (this._signaled_error_token) { // produce one 'error' token as .parseError() in reject() did not guarantee a failure signal by throwing an exception! token = this._signaled_error_token; this._signaled_error_token = false; return token; } return false; }, // return next match in input next: function lexer_next() { if (this.done) { this.clear(); return this.EOF; } if (!this._input) { this.done = true; } var token, match, tempMatch, index; if (!this._more) { this.clear(); } var rules = this.__currentRuleSet__; if (!rules) { // Update the ruleset cache as we apparently encountered a state change or just started lexing. // The cache is set up for fast lookup -- we assume a lexer will switch states much less often than it will // invoke the `lex()` token-producing API and related APIs, hence caching the set for direct access helps // speed up those activities a tiny bit. rules = this.__currentRuleSet__ = this._currentRules(); } for (var i = 0, len = rules.length; i < len; i++) { tempMatch = this._input.match(this.rules[rules[i]]); if (tempMatch && (!match || tempMatch[0].length > match[0].length)) { match = tempMatch; index = i; if (this.options.backtrack_lexer) { token = this.test_match(tempMatch, rules[i]); if (token !== false) { return token; } else if (this._backtrack) { match = undefined; continue; // rule action called reject() implying a rule MISmatch. } else { // else: this is a lexer rule which consumes input without producing a token (e.g. whitespace) return false; } } else if (!this.options.flex) { break; } } } if (match) { token = this.test_match(match, rules[index]); if (token !== false) { return token; } // else: this is a lexer rule which consumes input without producing a token (e.g. whitespace) return false; } if (this._input === '') { this.clear(); this.done = true; return this.EOF; } else { token = this.parseError('Lexical error on line ' + (this.yylineno + 1) + '. Unrecognized text.\n' + this.showPosition(), { text: this.match + this._input, token: null, line: this.yylineno, loc: this.yylloc, lexer: this }) || this.ERROR; if (token === this.ERROR) { // we can try to recover from a lexer error that parseError() did not 'recover' for us, by moving forward at least one character at a time: if (!this.match.length) { this.input(); } } return token; } }, // return next match that has a token lex: function lexer_lex() { var r; // allow the PRE/POST handlers set/modify the return token for maximum flexibility of the generated lexer: if (typeof this.options.pre_lex === 'function') { r = this.options.pre_lex.call(this); } while (!r) { r = this.next(); } if (typeof this.options.post_lex === 'function') { // (also account for a userdef function which does not return any value: keep the token as is) r = this.options.post_lex.call(this, r) || r; } return r; }, // backwards compatible alias for `pushState()`; // the latter is symmetrical with `popState()` and we advise to use // those APIs in any modern lexer code, rather than `begin()`. begin: function lexer_begin(condition) { return this.pushState(condition); }, // activates a new lexer condition state (pushes the new lexer condition state onto the condition stack) pushState: function lexer_pushState(condition) { this.conditionStack.push(condition); this.__currentRuleSet__ = null; return this; }, // pop the previously active lexer condition state off the condition stack popState: function lexer_popState() { var n = this.conditionStack.length - 1; if (n > 0) { this.__currentRuleSet__ = null; return this.conditionStack.pop(); } else { return this.conditionStack[0]; } }, // return the currently active lexer condition state; when an index argument is provided it produces the N-th previous condition state, if available topState: function lexer_topState(n) { n = this.conditionStack.length - 1 - Math.abs(n || 0); if (n >= 0) { return this.conditionStack[n]; } else { return 'INITIAL'; } }, // (internal) determine the lexer rule set which is active for the currently active lexer condition state _currentRules: function lexer__currentRules() { if (this.conditionStack.length && this.conditionStack[this.conditionStack.length - 1]) { return this.conditions[this.conditionStack[this.conditionStack.length - 1]].rules; } else { return this.conditions['INITIAL'].rules; } }, // return the number of states currently on the stack stateStackSize: function lexer_stateStackSize() { return this.conditionStack.length; }, options: {}, JisonLexerError: JisonLexerError, performAction: function lexer__performAction(yy, yy_, $avoiding_name_collisions, YY_START) { var YYSTATE = YY_START; switch($avoiding_name_collisions) { case 0 : /*! Conditions:: INITIAL */ /*! Rule:: [ \t\r\n]+ */ /* eat up whitespace */ BeginToken(yy_.yytext); break; case 1 : /*! Conditions:: INITIAL */ /*! Rule:: {DIGIT}+ */ BeginToken(yy_.yytext); yylval.value = atof(yy_.yytext); return VALUE; break; case 2 : /*! Conditions:: INITIAL */ /*! Rule:: {DIGIT}+\.{DIGIT}* */ BeginToken(yy_.yytext); yylval.value = atof(yy_.yytext); return VALUE; break; case 3 : /*! Conditions:: INITIAL */ /*! Rule:: {DIGIT}+[eE]["+""-"]?{DIGIT}* */ BeginToken(yy_.yytext); yylval.value = atof(yy_.yytext); return VALUE; break; case 4 : /*! Conditions:: INITIAL */ /*! Rule:: {DIGIT}+\.{DIGIT}*[eE]["+""-"]?{DIGIT}* */ BeginToken(yy_.yytext); yylval.value = atof(yy_.yytext); return VALUE; break; case 5 : /*! Conditions:: INITIAL */ /*! Rule:: {ID} */ BeginToken(yy_.yytext); yylval.string = malloc(strlen(yy_.yytext)+1); strcpy(yylval.string, yy_.yytext); return IDENTIFIER; break; case 6 : /*! Conditions:: INITIAL */ /*! Rule:: \+ */ BeginToken(yy_.yytext); return ADD; break; case 7 : /*! Conditions:: INITIAL */ /*! Rule:: - */ BeginToken(yy_.yytext); return SUB; break; case 8 : /*! Conditions:: INITIAL */ /*! Rule:: \* */ BeginToken(yy_.yytext); return MULT; break; case 9 : /*! Conditions:: INITIAL */ /*! Rule:: \/ */ BeginToken(yy_.yytext); return DIV; break; case 10 : /*! Conditions:: INITIAL */ /*! Rule:: \( */ BeginToken(yy_.yytext); return LBRACE; break; case 11 : /*! Conditions:: INITIAL */ /*! Rule:: \) */ BeginToken(yy_.yytext); return RBRACE; break; case 12 : /*! Conditions:: INITIAL */ /*! Rule:: ; */ BeginToken(yy_.yytext); return SEMICOLON; break; case 13 : /*! Conditions:: INITIAL */ /*! Rule:: = */ BeginToken(yy_.yytext); return ASSIGN; break; case 14 : /*! Conditions:: INITIAL */ /*! Rule:: . */ BeginToken(yy_.yytext); return yy_.yytext[0]; break; default: return this.simpleCaseActionClusters[$avoiding_name_collisions]; } }, simpleCaseActionClusters: { }, rules: [ /^(?:[ \t\r\n]+)/, /^(?:([0-9])+)/, /^(?:([0-9])+\.([0-9])*)/, /^(?:([0-9])+[Ee]["+]?([0-9])*)/, /^(?:([0-9])+\.([0-9])*[Ee]["+]?([0-9])*)/, /^(?:([A-Z_a-z][0-9A-Z_a-z]*))/, /^(?:\+)/, /^(?:-)/, /^(?:\*)/, /^(?:\/)/, /^(?:\()/, /^(?:\))/, /^(?:;)/, /^(?:=)/, /^(?:.)/ ], conditions: { "INITIAL": { rules: [ 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14 ], inclusive: true } } }; /*-------------------------------------------------------------------- * lex.l *------------------------------------------------------------------*/; return lexer; })(); parser.lexer = lexer; function Parser() { this.yy = {}; } Parser.prototype = parser; parser.Parser = Parser; return new Parser(); })(); if (typeof require !== 'undefined' && typeof exports !== 'undefined') { exports.parser = ccalcParse; exports.Parser = ccalcParse.Parser; exports.parse = function () { return ccalcParse.parse.apply(ccalcParse, arguments); }; }